/*---------------------------------------------------------------------------*
* Data destinator switch for write channels - 0, 2 and 4
*---------------------------------------------------------------------------*/
struct mbuf *
ihfc_getmbuf (ihfc_sc_t *sc, u_char chan)
{
register struct mbuf *m;
i4b_trace_hdr_t hdr;
if (chan < 2)
{
IF_DEQUEUE(&S_IFQUEUE, m);
if((S_TRACE & TRACE_D_TX) && m)
{
hdr.count = ++S_DTRACECOUNT;
hdr.dir = FROM_TE;
hdr.type = TRC_CH_D;
hdr.unit = S_I4BUNIT;
MICROTIME(hdr.time);
i4b_l1_trace_ind(&hdr, m->m_len, m->m_data);
}
}
else
{
IF_DEQUEUE(&S_IFQUEUE, m);
if (!m)
{
S_BDRVLINK->bch_tx_queue_empty(S_BDRVLINK->unit);
IF_DEQUEUE(&S_IFQUEUE, m);
}
if (m)
{
if(!i4b_l1_bchan_tel_silence(m->m_data, m->m_len))
{
S_BDRVLINK->bch_activity(S_BDRVLINK->unit, ACT_TX);
}
S_BYTES += m->m_len;
if(S_TRACE & TRACE_B_TX)
{
hdr.count = ++S_BTRACECOUNT;
hdr.dir = FROM_TE;
hdr.type = (chan < 4) ? TRC_CH_B1 : TRC_CH_B2;
hdr.unit = S_I4BUNIT;
MICROTIME(hdr.time);
i4b_l1_trace_ind(&hdr, m->m_len, m->m_data);
}
}
}
return(m);
}
/*---------------------------------------------------------------------------*
* FSM function: received AI10
*---------------------------------------------------------------------------*/
static void
F_AI10(struct l1_softc *sc)
{
T4_stop(sc);
NDBGL1(L1_F_MSG, "FSM function F_AI10 executing");
if(ctrl_desc[sc->sc_unit].protocol != PROTOCOL_D64S)
i4b_l1_ph_activate_ind(L0IFPNPUNIT(sc->sc_unit));
T3_stop(sc);
if(sc->sc_trace & TRACE_I)
{
i4b_trace_hdr_t hdr;
char info = INFO4_10;
hdr.unit = L0IFPNPUNIT(sc->sc_unit);
hdr.type = TRC_CH_I;
hdr.dir = FROM_NT;
hdr.count = 0;
MICROTIME(hdr.time);
i4b_l1_trace_ind(&hdr, 1, &info);
}
}
/*---------------------------------------------------------------------------*
* FSM function: received INFO 0 in states F3 .. F5
*---------------------------------------------------------------------------*/
static void
F_I01(struct l1_softc *sc)
{
NDBGL1(L1_F_MSG, "FSM function F_I01 executing");
if(sc->sc_trace & TRACE_I)
{
i4b_trace_hdr_t hdr;
char info = INFO0;
hdr.unit = L0IFPNPUNIT(sc->sc_unit);
hdr.type = TRC_CH_I;
hdr.dir = FROM_NT;
hdr.count = 0;
MICROTIME(hdr.time);
i4b_l1_trace_ind(&hdr, 1, &info);
}
}
/*---------------------------------------------------------------------------*
* FSM function: activate request
*---------------------------------------------------------------------------*/
static void
F_AR(struct l1_softc *sc)
{
NDBGL1(L1_F_MSG, "FSM function F_AR executing");
if(sc->sc_trace & TRACE_I)
{
i4b_trace_hdr_t hdr;
char info = INFO1_8;
hdr.unit = L0IFPNPUNIT(sc->sc_unit);
hdr.type = TRC_CH_I;
hdr.dir = FROM_TE;
hdr.count = 0;
MICROTIME(hdr.time);
i4b_l1_trace_ind(&hdr, 1, &info);
}
ifpnp_isac_l1_cmd(sc, CMD_AR8);
T3_start(sc);
}
/*---------------------------------------------------------------------------*
* start transmission on a b channel
*---------------------------------------------------------------------------*/
static void
isic_bchannel_start(int unit, int h_chan)
{
struct l1_softc *sc = &l1_sc[unit];
l1_bchan_state_t *chan = &sc->sc_chan[h_chan];
int next_len;
int len;
int activity = -1;
int cmd = 0;
crit_enter();
if(chan->state & HSCX_TX_ACTIVE) /* already running ? */
{
crit_exit();
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 ? */
{
crit_exit();
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(!(i4b_l1_bchan_tel_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 = L0ISICUNIT(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);
i4b_l1_trace_ind(&hdr, chan->out_mbuf_cur->m_len, chan->out_mbuf_cur->m_data);
}
len = 0; /* # of chars put into HSCX tx fifo this time */
/*
* 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((len < sc->sc_bfifolen) && chan->out_mbuf_cur)
{
/*
* put as much data into the HSCX fifo as is
* available from the current mbuf
*/
if((len + chan->out_mbuf_cur_len) >= sc->sc_bfifolen)
next_len = sc->sc_bfifolen - len;
else
next_len = chan->out_mbuf_cur_len;
#ifdef NOTDEF
kprintf("b:mh=%x, mc=%x, mcp=%x, 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,
next_len);
#endif
/* wait for tx fifo write enabled */
isic_hscx_waitxfw(sc, h_chan);
/* write what we have from current mbuf to HSCX fifo */
HSCX_WRFIFO(h_chan, chan->out_mbuf_cur_ptr, next_len);
len += next_len; /* update # of bytes written */
chan->txcount += next_len; /* statistics */
chan->out_mbuf_cur_ptr += next_len; /* data ptr */
chan->out_mbuf_cur_len -= next_len; /* data len */
/*
* in case the current mbuf (of a possible chain) data
* has been put into the fifo, check if there is a next
* mbuf in the chain. If there is one, get ptr to it
* and update the data ptr and the length
*/
if((chan->out_mbuf_cur_len <= 0) &&
((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 = L0ISICUNIT(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);
i4b_l1_trace_ind(&hdr, chan->out_mbuf_cur->m_len, chan->out_mbuf_cur->m_data);
}
}
}
/*
* if there is either still data in the current mbuf and/or
* there is a successor on the chain available issue just
* a XTF (transmit) command to HSCX. if ther is no more
* data available from the current mbuf (-chain), issue
* an XTF and an XME (message end) command which will then
* send the CRC and the closing HDLC flag sequence
*/
if(chan->out_mbuf_cur && (chan->out_mbuf_cur_len > 0))
{
/*
* more data available, send current fifo out.
* next xfer to HSCX tx fifo is done in the
* HSCX interrupt routine.
*/
cmd |= HSCX_CMDR_XTF;
}
else
{
/* end of mbuf chain */
if(chan->bprot == BPROT_NONE)
cmd |= HSCX_CMDR_XTF;
else
cmd |= HSCX_CMDR_XTF | HSCX_CMDR_XME;
i4b_Bfreembuf(chan->out_mbuf_head); /* free mbuf chain */
chan->out_mbuf_head = NULL;
chan->out_mbuf_cur = NULL;
chan->out_mbuf_cur_ptr = NULL;
chan->out_mbuf_cur_len = 0;
}
/* call timeout handling routine */
if(activity == ACT_RX || activity == ACT_TX)
(*chan->isic_drvr_linktab->bch_activity)(chan->isic_drvr_linktab->unit, activity);
if(cmd)
isic_hscx_cmd(sc, h_chan, cmd);
crit_exit();
}
/*---------------------------------------------------------------------------*
*
* L2 -> L1: PH-DATA-REQUEST
* =========================
*
* parms:
* unit physical interface unit number
* m mbuf containing L2 frame to be sent out
* freeflag MBUF_FREE: free mbuf here after having sent
* it out
* MBUF_DONTFREE: mbuf is freed by Layer 2
* returns:
* ==0 fail, nothing sent out
* !=0 ok, frame sent out
*
*---------------------------------------------------------------------------*/
int
ifpi_ph_data_req(int unit, struct mbuf *m, int freeflag)
{
u_char cmd;
struct l1_softc *sc = ifpi_scp[unit];
#ifdef NOTDEF
NDBGL1(L1_PRIM, "PH-DATA-REQ, unit %d, freeflag=%d", unit, freeflag);
#endif
if(m == NULL) /* failsafe */
return (0);
crit_enter();
if(sc->sc_I430state == ST_F3) /* layer 1 not running ? */
{
NDBGL1(L1_I_ERR, "still in state F3!");
ifpi_ph_activate_req(unit);
}
if(sc->sc_state & ISAC_TX_ACTIVE)
{
if(sc->sc_obuf2 == NULL)
{
sc->sc_obuf2 = m; /* save mbuf ptr */
if(freeflag)
sc->sc_freeflag2 = 1; /* IRQ must mfree */
else
sc->sc_freeflag2 = 0; /* IRQ must not mfree */
NDBGL1(L1_I_MSG, "using 2nd ISAC TX buffer, state = %s", ifpi_printstate(sc));
if(sc->sc_trace & TRACE_D_TX)
{
i4b_trace_hdr_t hdr;
hdr.unit = L0IFPIUNIT(unit);
hdr.type = TRC_CH_D;
hdr.dir = FROM_TE;
hdr.count = ++sc->sc_trace_dcount;
MICROTIME(hdr.time);
i4b_l1_trace_ind(&hdr, m->m_len, m->m_data);
}
crit_exit();
return(1);
}
NDBGL1(L1_I_ERR, "No Space in TX FIFO, state = %s", ifpi_printstate(sc));
if(freeflag == MBUF_FREE)
i4b_Dfreembuf(m);
crit_exit();
return (0);
}
if(sc->sc_trace & TRACE_D_TX)
{
i4b_trace_hdr_t hdr;
hdr.unit = L0IFPIUNIT(unit);
hdr.type = TRC_CH_D;
hdr.dir = FROM_TE;
hdr.count = ++sc->sc_trace_dcount;
MICROTIME(hdr.time);
i4b_l1_trace_ind(&hdr, m->m_len, m->m_data);
}
sc->sc_state |= ISAC_TX_ACTIVE; /* set transmitter busy flag */
NDBGL1(L1_I_MSG, "ISAC_TX_ACTIVE set");
sc->sc_freeflag = 0; /* IRQ must NOT mfree */
ISAC_WRFIFO(m->m_data, min(m->m_len, ISAC_FIFO_LEN)); /* output to TX fifo */
if(m->m_len > ISAC_FIFO_LEN) /* message > 32 bytes ? */
{
sc->sc_obuf = m; /* save mbuf ptr */
sc->sc_op = m->m_data + ISAC_FIFO_LEN; /* ptr for irq hdl */
sc->sc_ol = m->m_len - ISAC_FIFO_LEN; /* length for irq hdl */
if(freeflag)
sc->sc_freeflag = 1; /* IRQ must mfree */
cmd = ISAC_CMDR_XTF;
}
else
{
sc->sc_obuf = NULL;
sc->sc_op = NULL;
sc->sc_ol = 0;
if(freeflag)
i4b_Dfreembuf(m);
cmd = ISAC_CMDR_XTF | ISAC_CMDR_XME;
}
ISAC_WRITE(I_CMDR, cmd);
ISACCMDRWRDELAY();
crit_exit();
return(1);
}
/*---------------------------------------------------------------------------*
* B-channel interrupt handler
*---------------------------------------------------------------------------*/
void
iwic_bchan_xirq(struct iwic_softc *sc, int chan_no)
{
int irq_stat;
struct iwic_bchan *chan;
int cmd = 0;
int activity = 0;
chan = &sc->sc_bchan[chan_no];
irq_stat = IWIC_READ(sc, chan->offset + B_EXIR);
NDBGL1(L1_H_IRQ, "irq_stat = 0x%x", irq_stat);
if((irq_stat & (B_EXIR_RMR | B_EXIR_RME | B_EXIR_RDOV | B_EXIR_XFR | B_EXIR_XDUN)) == 0)
{
NDBGL1(L1_H_XFRERR, "spurious IRQ!");
return;
}
if (irq_stat & B_EXIR_RDOV)
{
NDBGL1(L1_H_XFRERR, "iwic%d: EXIR B-channel Receive Data Overflow", sc->sc_unit);
}
if (irq_stat & B_EXIR_XDUN)
{
NDBGL1(L1_H_XFRERR, "iwic%d: EXIR B-channel Transmit Data Underrun", sc->sc_unit);
cmd |= (B_CMDR_XRST); /*XXX must retransmit frame ! */
}
/* RX message end interrupt */
if(irq_stat & B_EXIR_RME)
{
int error;
NDBGL1(L1_H_IRQ, "B_EXIR_RME");
error = (IWIC_READ(sc,chan->offset+B_STAR) &
(B_STAR_RDOV | B_STAR_CRCE | B_STAR_RMB));
if(error)
{
if(error & B_STAR_RDOV)
NDBGL1(L1_H_XFRERR, "iwic%d: B-channel Receive Data Overflow", sc->sc_unit);
if(error & B_STAR_CRCE)
NDBGL1(L1_H_XFRERR, "iwic%d: B-channel CRC Error", sc->sc_unit);
if(error & B_STAR_RMB)
NDBGL1(L1_H_XFRERR, "iwic%d: B-channel Receive Message Aborted", sc->sc_unit);
}
/* all error conditions checked, now decide and take action */
if(error == 0)
{
int fifo_data_len;
fifo_data_len = ((IWIC_READ(sc,chan->offset+B_RBCL)) &
((IWIC_BCHAN_FIFO_LEN)-1));
if(fifo_data_len == 0)
fifo_data_len = IWIC_BCHAN_FIFO_LEN;
if(chan->in_mbuf == NULL)
{
if((chan->in_mbuf = i4b_Bgetmbuf(BCH_MAX_DATALEN)) == NULL)
panic("L1 iwic_bchan_irq: 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)
{
/* read data from fifo */
NDBGL1(L1_H_IRQ, "B_EXIR_RME, rd fifo, len = %d", fifo_data_len);
IWIC_RDBFIFO(sc, chan, chan->in_cbptr, fifo_data_len);
cmd |= (B_CMDR_RACK | B_CMDR_RACT);
IWIC_WRITE(sc, chan->offset + B_CMDR, cmd);
cmd = 0;
chan->in_len += fifo_data_len;
chan->rxcount += 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 = L0IWICUNIT(sc->sc_unit);
hdr.type = (chan_no == IWIC_BCH_A ? TRC_CH_B1 : TRC_CH_B2);
hdr.dir = FROM_NT;
hdr.count = ++sc->sc_bchan[chan_no].sc_trace_bcount;
MICROTIME(hdr.time);
i4b_l1_trace_ind(&hdr, chan->in_mbuf->m_len, chan->in_mbuf->m_data);
}
(*chan->iwic_drvr_linktab->bch_rx_data_ready)(chan->iwic_drvr_linktab->unit);
activity = ACT_RX;
/* mark buffer ptr as unused */
chan->in_mbuf = NULL;
chan->in_cbptr = NULL;
chan->in_len = 0;
}
else
{
NDBGL1(L1_H_XFRERR, "RAWHDLC rx buffer overflow in RME, in_len=%d, fifolen=%d", chan->in_len, fifo_data_len);
chan->in_cbptr = chan->in_mbuf->m_data;
chan->in_len = 0;
cmd |= (B_CMDR_RRST | B_CMDR_RACK);
}
}
else
{
if (chan->in_mbuf != NULL)
{
i4b_Bfreembuf(chan->in_mbuf);
chan->in_mbuf = NULL;
chan->in_cbptr = NULL;
chan->in_len = 0;
}
cmd |= (B_CMDR_RRST | B_CMDR_RACK);
}
}
/* RX fifo full interrupt */
if(irq_stat & B_EXIR_RMR)
{
NDBGL1(L1_H_IRQ, "B_EXIR_RMR");
if(chan->in_mbuf == NULL)
{
if((chan->in_mbuf = i4b_Bgetmbuf(BCH_MAX_DATALEN)) == NULL)
panic("L1 iwic_bchan_irq: RMR, cannot allocate mbuf!\n");
chan->in_cbptr = chan->in_mbuf->m_data;
chan->in_len = 0;
}
chan->rxcount += IWIC_BCHAN_FIFO_LEN;
if((chan->in_len + IWIC_BCHAN_FIFO_LEN) <= BCH_MAX_DATALEN)
{
/* read data from fifo */
NDBGL1(L1_H_IRQ, "B_EXIR_RMR, rd fifo, len = max (64)");
IWIC_RDBFIFO(sc, chan, chan->in_cbptr, IWIC_BCHAN_FIFO_LEN);
chan->in_cbptr += IWIC_BCHAN_FIFO_LEN;
chan->in_len += IWIC_BCHAN_FIFO_LEN;
}
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 = L0IWICUNIT(sc->sc_unit);
hdr.type = (chan_no == IWIC_BCH_A ? TRC_CH_B1 : TRC_CH_B2);
hdr.dir = FROM_NT;
hdr.count = ++sc->sc_bchan[chan_no].sc_trace_bcount;
MICROTIME(hdr.time);
i4b_l1_trace_ind(&hdr, chan->in_mbuf->m_len, chan->in_mbuf->m_data);
}
/* silence detection */
if(!(i4b_l1_bchan_tel_silence(chan->in_mbuf->m_data, chan->in_mbuf->m_len)))
activity = ACT_RX;
if(!(IF_QFULL(&chan->rx_queue)))
{
IF_ENQUEUE(&chan->rx_queue, chan->in_mbuf);
}
else
{
i4b_Bfreembuf(chan->in_mbuf);
}
/* signal upper driver that data is available */
(*chan->iwic_drvr_linktab->bch_rx_data_ready)(chan->iwic_drvr_linktab->unit);
/* alloc new buffer */
if((chan->in_mbuf = i4b_Bgetmbuf(BCH_MAX_DATALEN)) == NULL)
panic("L1 iwic_bchan_irq: RMR, cannot allocate new mbuf!\n");
/* setup new data ptr */
chan->in_cbptr = chan->in_mbuf->m_data;
/* read data from fifo */
NDBGL1(L1_H_IRQ, "B_EXIR_RMR, rd fifo1, len = max (64)");
IWIC_RDBFIFO(sc, chan, chan->in_cbptr, IWIC_BCHAN_FIFO_LEN);
chan->in_cbptr += IWIC_BCHAN_FIFO_LEN;
chan->in_len = IWIC_BCHAN_FIFO_LEN;
chan->rxcount += IWIC_BCHAN_FIFO_LEN;
}
else
{
NDBGL1(L1_H_XFRERR, "RAWHDLC rx buffer overflow in RPF, in_len=%d", chan->in_len);
chan->in_cbptr = chan->in_mbuf->m_data;
chan->in_len = 0;
cmd |= (B_CMDR_RRST | B_CMDR_RACK);
}
}
/* command to release fifo space */
cmd |= B_CMDR_RACK;
}
/* TX interrupt */
if (irq_stat & B_EXIR_XFR)
{
/* transmit fifo empty, new data can be written to fifo */
int activity = -1;
int len;
int nextlen;
NDBGL1(L1_H_IRQ, "B_EXIR_XFR");
if(chan->out_mbuf_cur == NULL) /* last frame is transmitted */
{
IF_DEQUEUE(&chan->tx_queue, chan->out_mbuf_head);
if(chan->out_mbuf_head == NULL)
{
chan->state &= ~ST_TX_ACTIVE;
(*chan->iwic_drvr_linktab->bch_tx_queue_empty)(chan->iwic_drvr_linktab->unit);
}
else
{
chan->state |= ST_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 = L0IWICUNIT(sc->sc_unit);
hdr.type = (chan_no == IWIC_BCH_A ? TRC_CH_B1 : TRC_CH_B2);
hdr.dir = FROM_TE;
hdr.count = ++sc->sc_bchan[chan_no].sc_trace_bcount;
MICROTIME(hdr.time);
i4b_l1_trace_ind(&hdr, chan->out_mbuf_cur->m_len, chan->out_mbuf_cur->m_data);
}
if(chan->bprot == BPROT_NONE)
{
if(!(i4b_l1_bchan_tel_silence(chan->out_mbuf_cur->m_data, chan->out_mbuf_cur->m_len)))
activity = ACT_TX;
}
else
{
activity = ACT_TX;
}
}
}
len = 0;
while(chan->out_mbuf_cur && len != IWIC_BCHAN_FIFO_LEN)
{
nextlen = min(chan->out_mbuf_cur_len, IWIC_BCHAN_FIFO_LEN - len);
NDBGL1(L1_H_IRQ, "B_EXIR_XFR, wr fifo, len = %d", nextlen);
IWIC_WRBFIFO(sc, chan, chan->out_mbuf_cur_ptr, nextlen);
cmd |= B_CMDR_XMS;
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 = L0IWICUNIT(sc->sc_unit);
hdr.type = (chan_no == IWIC_BCH_A ? TRC_CH_B1 : TRC_CH_B2);
hdr.dir = FROM_TE;
hdr.count = ++sc->sc_bchan[chan_no].sc_trace_bcount;
MICROTIME(hdr.time);
i4b_l1_trace_ind(&hdr, chan->out_mbuf_cur->m_len, chan->out_mbuf_cur->m_data);
}
}
else
{
if (chan->bprot != BPROT_NONE)
cmd |= B_CMDR_XME;
i4b_Bfreembuf(chan->out_mbuf_head);
chan->out_mbuf_head = NULL;
}
}
}
}
if(cmd)
{
cmd |= B_CMDR_RACT;
IWIC_WRITE(sc, chan->offset + B_CMDR, cmd);
}
}
/*---------------------------------------------------------------------------*
* start transmission on a b channel
*---------------------------------------------------------------------------*/
static void
iwic_bchannel_start(int unit, int chan_no)
{
struct iwic_softc *sc = &iwic_sc[unit];
struct iwic_bchan *chan = &sc->sc_bchan[chan_no];
int next_len;
int len;
int activity = -1;
int cmd = 0;
crit_enter();
NDBGL1(L1_BCHAN, "unit %d, channel %d", unit, chan_no);
if(chan->state & ST_TX_ACTIVE) /* already running ? */
{
crit_exit();
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 ? */
{
crit_exit();
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(!(i4b_l1_bchan_tel_silence(chan->out_mbuf_cur->m_data, chan->out_mbuf_cur->m_len)))
activity = ACT_TX;
}
else
{
activity = ACT_TX;
}
chan->state |= ST_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 = L0IWICUNIT(unit);
hdr.type = (chan_no == IWIC_BCH_A ? TRC_CH_B1 : TRC_CH_B2);
hdr.dir = FROM_TE;
hdr.count = ++sc->sc_bchan[chan_no].sc_trace_bcount;
MICROTIME(hdr.time);
i4b_l1_trace_ind(&hdr, chan->out_mbuf_cur->m_len, chan->out_mbuf_cur->m_data);
}
len = 0; /* # of chars put into tx fifo this time */
/*
* fill the tx fifo with data from the current mbuf. if
* current mbuf holds less data than 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 chip that it has to send
* CRC and closing flag
*/
while((len < IWIC_BCHAN_FIFO_LEN) && chan->out_mbuf_cur)
{
/*
* put as much data into the fifo as is
* available from the current mbuf
*/
if((len + chan->out_mbuf_cur_len) >= IWIC_BCHAN_FIFO_LEN)
next_len = IWIC_BCHAN_FIFO_LEN - len;
else
next_len = chan->out_mbuf_cur_len;
/* write what we have from current mbuf to fifo */
IWIC_WRBFIFO(sc, chan, chan->out_mbuf_cur_ptr, next_len);
len += next_len; /* update # of bytes written */
chan->txcount += next_len; /* statistics */
chan->out_mbuf_cur_ptr += next_len; /* data ptr */
chan->out_mbuf_cur_len -= next_len; /* data len */
/*
* in case the current mbuf (of a possible chain) data
* has been put into the fifo, check if there is a next
* mbuf in the chain. If there is one, get ptr to it
* and update the data ptr and the length
*/
if((chan->out_mbuf_cur_len <= 0) &&
((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 = L0IWICUNIT(unit);
hdr.type = (chan_no == IWIC_BCH_A ? TRC_CH_B1 : TRC_CH_B2);
hdr.dir = FROM_TE;
hdr.count = ++sc->sc_bchan[chan_no].sc_trace_bcount;
MICROTIME(hdr.time);
i4b_l1_trace_ind(&hdr, chan->out_mbuf_cur->m_len, chan->out_mbuf_cur->m_data);
}
}
}
/*
* if there is either still data in the current mbuf and/or
* there is a successor on the chain available issue just
* a XTF (transmit) command to the chip. if there is no more
* data available from the current mbuf (-chain), issue
* an XTF and an XME (message end) command which will then
* send the CRC and the closing HDLC flag sequence
*/
if(chan->out_mbuf_cur && (chan->out_mbuf_cur_len > 0))
{
/*
* more data available, send current fifo out.
* next xfer to tx fifo is done in the
* interrupt routine.
*/
cmd |= B_CMDR_XMS;
}
else
{
/* end of mbuf chain */
if(chan->bprot == BPROT_NONE)
cmd |= B_CMDR_XMS;
else
cmd |= (B_CMDR_XMS | B_CMDR_XME);
i4b_Bfreembuf(chan->out_mbuf_head); /* free mbuf chain */
chan->out_mbuf_head = NULL;
chan->out_mbuf_cur = NULL;
chan->out_mbuf_cur_ptr = NULL;
chan->out_mbuf_cur_len = 0;
}
/* call timeout handling routine */
if(activity == ACT_RX || activity == ACT_TX)
(*chan->iwic_drvr_linktab->bch_activity)(chan->iwic_drvr_linktab->unit, activity);
if(cmd)
{
cmd |= B_CMDR_RACT;
IWIC_WRITE(sc, chan->offset + B_CMDR, cmd);
}
crit_exit();
}
/*---------------------------------------------------------------------------*
* ISAC interrupt service routine
*---------------------------------------------------------------------------*/
void
ifpnp_isac_irq(struct l1_softc *sc, int ista)
{
u_char c = 0;
NDBGL1(L1_F_MSG, "unit %d: ista = 0x%02x", sc->sc_unit, ista);
if(ista & ISAC_ISTA_EXI) /* extended interrupt */
{
c |= ifpnp_isac_exir_hdlr(sc, ISAC_READ(I_EXIR));
}
if(ista & ISAC_ISTA_RME) /* receive message end */
{
int rest;
u_char rsta;
/* get rx status register */
rsta = ISAC_READ(I_RSTA);
if((rsta & ISAC_RSTA_MASK) != 0x20)
{
int error = 0;
if(!(rsta & ISAC_RSTA_CRC)) /* CRC error */
{
error++;
NDBGL1(L1_I_ERR, "unit %d: CRC error", sc->sc_unit);
}
if(rsta & ISAC_RSTA_RDO) /* ReceiveDataOverflow */
{
error++;
NDBGL1(L1_I_ERR, "unit %d: Data Overrun error", sc->sc_unit);
}
if(rsta & ISAC_RSTA_RAB) /* ReceiveABorted */
{
error++;
NDBGL1(L1_I_ERR, "unit %d: Receive Aborted error", sc->sc_unit);
}
if(error == 0)
NDBGL1(L1_I_ERR, "unit %d: RME unknown error, RSTA = 0x%02x!", sc->sc_unit, rsta);
i4b_Dfreembuf(sc->sc_ibuf);
c |= ISAC_CMDR_RMC|ISAC_CMDR_RRES;
sc->sc_ibuf = NULL;
sc->sc_ib = NULL;
sc->sc_ilen = 0;
ISAC_WRITE(I_CMDR, ISAC_CMDR_RMC|ISAC_CMDR_RRES);
ISACCMDRWRDELAY();
return;
}
rest = (ISAC_READ(I_RBCL) & (ISAC_FIFO_LEN-1));
if(rest == 0)
rest = ISAC_FIFO_LEN;
if(sc->sc_ibuf == NULL)
{
if((sc->sc_ibuf = i4b_Dgetmbuf(rest)) != NULL)
sc->sc_ib = sc->sc_ibuf->m_data;
else
panic("ifpnp_isac_irq: RME, i4b_Dgetmbuf returns NULL!\n");
sc->sc_ilen = 0;
}
if(sc->sc_ilen <= (MAX_DFRAME_LEN - rest))
{
ISAC_RDFIFO(sc->sc_ib, rest);
sc->sc_ilen += rest;
sc->sc_ibuf->m_pkthdr.len =
sc->sc_ibuf->m_len = sc->sc_ilen;
if(sc->sc_trace & TRACE_D_RX)
{
i4b_trace_hdr_t hdr;
hdr.unit = L0IFPNPUNIT(sc->sc_unit);
hdr.type = TRC_CH_D;
hdr.dir = FROM_NT;
hdr.count = ++sc->sc_trace_dcount;
MICROTIME(hdr.time);
i4b_l1_trace_ind(&hdr, sc->sc_ibuf->m_len, sc->sc_ibuf->m_data);
}
c |= ISAC_CMDR_RMC;
if(sc->sc_enabled &&
(ctrl_desc[sc->sc_unit].protocol != PROTOCOL_D64S))
{
i4b_l1_ph_data_ind(L0IFPNPUNIT(sc->sc_unit), sc->sc_ibuf);
}
else
{
i4b_Dfreembuf(sc->sc_ibuf);
}
}
else
{
NDBGL1(L1_I_ERR, "RME, input buffer overflow!");
i4b_Dfreembuf(sc->sc_ibuf);
c |= ISAC_CMDR_RMC|ISAC_CMDR_RRES;
}
sc->sc_ibuf = NULL;
sc->sc_ib = NULL;
sc->sc_ilen = 0;
}
if(ista & ISAC_ISTA_RPF) /* receive fifo full */
{
if(sc->sc_ibuf == NULL)
{
if((sc->sc_ibuf = i4b_Dgetmbuf(MAX_DFRAME_LEN)) != NULL)
sc->sc_ib= sc->sc_ibuf->m_data;
else
panic("ifpnp_isac_irq: RPF, i4b_Dgetmbuf returns NULL!\n");
sc->sc_ilen = 0;
}
if(sc->sc_ilen <= (MAX_DFRAME_LEN - ISAC_FIFO_LEN))
{
ISAC_RDFIFO(sc->sc_ib, ISAC_FIFO_LEN);
sc->sc_ilen += ISAC_FIFO_LEN;
sc->sc_ib += ISAC_FIFO_LEN;
c |= ISAC_CMDR_RMC;
}
else
{
NDBGL1(L1_I_ERR, "RPF, input buffer overflow!");
i4b_Dfreembuf(sc->sc_ibuf);
sc->sc_ibuf = NULL;
sc->sc_ib = NULL;
sc->sc_ilen = 0;
c |= ISAC_CMDR_RMC|ISAC_CMDR_RRES;
}
}
if(ista & ISAC_ISTA_XPR) /* transmit fifo empty (XPR bit set) */
{
if((sc->sc_obuf2 != NULL) && (sc->sc_obuf == NULL))
{
sc->sc_freeflag = sc->sc_freeflag2;
sc->sc_obuf = sc->sc_obuf2;
sc->sc_op = sc->sc_obuf->m_data;
sc->sc_ol = sc->sc_obuf->m_len;
sc->sc_obuf2 = NULL;
#ifdef NOTDEF
kprintf("ob2=%x, op=%x, ol=%d, f=%d #",
sc->sc_obuf,
sc->sc_op,
sc->sc_ol,
sc->sc_state);
#endif
}
else
{
#ifdef NOTDEF
kprintf("ob=%x, op=%x, ol=%d, f=%d #",
sc->sc_obuf,
sc->sc_op,
sc->sc_ol,
sc->sc_state);
#endif
}
if(sc->sc_obuf)
{
ISAC_WRFIFO(sc->sc_op, min(sc->sc_ol, ISAC_FIFO_LEN));
if(sc->sc_ol > ISAC_FIFO_LEN) /* length > 32 ? */
{
sc->sc_op += ISAC_FIFO_LEN; /* bufferptr+32 */
sc->sc_ol -= ISAC_FIFO_LEN; /* length - 32 */
c |= ISAC_CMDR_XTF; /* set XTF bit */
}
else
{
if(sc->sc_freeflag)
{
i4b_Dfreembuf(sc->sc_obuf);
sc->sc_freeflag = 0;
}
sc->sc_obuf = NULL;
sc->sc_op = NULL;
sc->sc_ol = 0;
c |= ISAC_CMDR_XTF | ISAC_CMDR_XME;
}
}
else
{
sc->sc_state &= ~ISAC_TX_ACTIVE;
}
}
if(ista & ISAC_ISTA_CISQ) /* channel status change CISQ */
{
u_char ci;
/* get command/indication rx register*/
ci = ISAC_READ(I_CIRR);
/* if S/Q IRQ, read SQC reg to clr SQC IRQ */
if(ci & ISAC_CIRR_SQC)
ISAC_READ(I_SQRR);
/* C/I code change IRQ (flag already cleared by CIRR read) */
if(ci & ISAC_CIRR_CIC0)
ifpnp_isac_ind_hdlr(sc, (ci >> 2) & 0xf);
}
/*---------------------------------------------------------------------------*
* ISACSX interrupt service routine
*---------------------------------------------------------------------------*/
void
ifpi2_isacsx_irq(struct l1_softc *sc, int ista)
{
register u_char c = 0;
register u_char istad = 0;
NDBGL1(L1_F_MSG, "unit %d: ista = 0x%02x", sc->sc_unit, ista);
/* was it an HDLC interrupt ? */
if (ista & ISACSX_ISTA_ICD)
{
istad = ISAC_READ(I_ISTAD);
NDBGL1(L1_F_MSG, "unit %d: istad = 0x%02x", sc->sc_unit, istad);
if(istad & (ISACSX_ISTAD_RFO|ISACSX_ISTAD_XMR|ISACSX_ISTAD_XDU))
{
/* not really EXIR, but very similar */
c |= ifpi2_isacsx_exir_hdlr(sc, istad);
}
}
if(istad & ISACSX_ISTAD_RME) /* receive message end */
{
register int rest;
u_char rsta;
/* get rx status register */
rsta = ISAC_READ(I_RSTAD);
/* Check for Frame and CRC valid */
if((rsta & ISACSX_RSTAD_MASK) != (ISACSX_RSTAD_VFR|ISACSX_RSTAD_CRC))
{
int error = 0;
if(!(rsta & ISACSX_RSTAD_VFR)) /* VFR error */
{
error++;
NDBGL1(L1_I_ERR, "unit %d: Frame not valid error", sc->sc_unit);
}
if(!(rsta & ISACSX_RSTAD_CRC)) /* CRC error */
{
error++;
NDBGL1(L1_I_ERR, "unit %d: CRC error", sc->sc_unit);
}
if(rsta & ISACSX_RSTAD_RDO) /* ReceiveDataOverflow */
{
error++;
NDBGL1(L1_I_ERR, "unit %d: Data Overrun error", sc->sc_unit);
}
if(rsta & ISACSX_RSTAD_RAB) /* ReceiveABorted */
{
error++;
NDBGL1(L1_I_ERR, "unit %d: Receive Aborted error", sc->sc_unit);
}
if(error == 0)
NDBGL1(L1_I_ERR, "unit %d: RME unknown error, RSTAD = 0x%02x!", sc->sc_unit, rsta);
i4b_Dfreembuf(sc->sc_ibuf);
c |= ISACSX_CMDRD_RMC|ISACSX_CMDRD_RRES;
sc->sc_ibuf = NULL;
sc->sc_ib = NULL;
sc->sc_ilen = 0;
ISAC_WRITE(I_CMDRD, ISACSX_CMDRD_RMC|ISACSX_CMDRD_RRES);
return;
}
rest = (ISAC_READ(I_RBCLD) & (ISACSX_FIFO_LEN-1));
if(rest == 0)
rest = ISACSX_FIFO_LEN;
if(sc->sc_ibuf == NULL)
{
if((sc->sc_ibuf = i4b_Dgetmbuf(rest)) != NULL)
sc->sc_ib = sc->sc_ibuf->m_data;
else
panic("ifpi2_isacsx_irq: RME, i4b_Dgetmbuf returns NULL!\n");
sc->sc_ilen = 0;
}
if(sc->sc_ilen <= (MAX_DFRAME_LEN - rest))
{
ISAC_RDFIFO(sc->sc_ib, rest);
/* the last byte is status - strip it */
sc->sc_ilen += rest - 1;
sc->sc_ibuf->m_pkthdr.len =
sc->sc_ibuf->m_len = sc->sc_ilen;
if(sc->sc_trace & TRACE_D_RX)
{
i4b_trace_hdr_t hdr;
hdr.unit = L0IFPI2UNIT(sc->sc_unit);
hdr.type = TRC_CH_D;
hdr.dir = FROM_NT;
hdr.count = ++sc->sc_trace_dcount;
MICROTIME(hdr.time);
i4b_l1_trace_ind(&hdr, sc->sc_ibuf->m_len, sc->sc_ibuf->m_data);
}
c |= ISACSX_CMDRD_RMC;
if(sc->sc_enabled &&
(ctrl_desc[sc->sc_unit].protocol != PROTOCOL_D64S))
{
i4b_l1_ph_data_ind(L0IFPI2UNIT(sc->sc_unit), sc->sc_ibuf);
}
else
{
i4b_Dfreembuf(sc->sc_ibuf);
}
}
else
{
NDBGL1(L1_I_ERR, "RME, input buffer overflow!");
i4b_Dfreembuf(sc->sc_ibuf);
c |= ISACSX_CMDRD_RMC|ISACSX_CMDRD_RRES;
}
sc->sc_ibuf = NULL;
sc->sc_ib = NULL;
sc->sc_ilen = 0;
}
if(istad & ISACSX_ISTAD_RPF) /* receive fifo full */
{
if(sc->sc_ibuf == NULL)
{
if((sc->sc_ibuf = i4b_Dgetmbuf(MAX_DFRAME_LEN)) != NULL)
sc->sc_ib= sc->sc_ibuf->m_data;
else
panic("ifpi2_isacsx_irq: RPF, i4b_Dgetmbuf returns NULL!\n");
sc->sc_ilen = 0;
}
if(sc->sc_ilen <= (MAX_DFRAME_LEN - ISACSX_FIFO_LEN))
{
ISAC_RDFIFO(sc->sc_ib, ISACSX_FIFO_LEN);
sc->sc_ilen += ISACSX_FIFO_LEN;
sc->sc_ib += ISACSX_FIFO_LEN;
c |= ISACSX_CMDRD_RMC;
}
else
{
NDBGL1(L1_I_ERR, "RPF, input buffer overflow!");
i4b_Dfreembuf(sc->sc_ibuf);
sc->sc_ibuf = NULL;
sc->sc_ib = NULL;
sc->sc_ilen = 0;
c |= ISACSX_CMDRD_RMC|ISACSX_CMDRD_RRES;
}
}
if(istad & ISACSX_ISTAD_XPR) /* transmit fifo empty (XPR bit set) */
{
if((sc->sc_obuf2 != NULL) && (sc->sc_obuf == NULL))
{
sc->sc_freeflag = sc->sc_freeflag2;
sc->sc_obuf = sc->sc_obuf2;
sc->sc_op = sc->sc_obuf->m_data;
sc->sc_ol = sc->sc_obuf->m_len;
sc->sc_obuf2 = NULL;
#ifdef NOTDEF
printf("ob2=%x, op=%x, ol=%d, f=%d #",
sc->sc_obuf,
sc->sc_op,
sc->sc_ol,
sc->sc_state);
#endif
}
else
{
#ifdef NOTDEF
printf("ob=%x, op=%x, ol=%d, f=%d #",
sc->sc_obuf,
sc->sc_op,
sc->sc_ol,
sc->sc_state);
#endif
}
if(sc->sc_obuf)
{
ISAC_WRFIFO(sc->sc_op, min(sc->sc_ol, ISACSX_FIFO_LEN));
if(sc->sc_ol > ISACSX_FIFO_LEN) /* length > 32 ? */
{
sc->sc_op += ISACSX_FIFO_LEN; /* bufferptr+32 */
sc->sc_ol -= ISACSX_FIFO_LEN; /* length - 32 */
c |= ISACSX_CMDRD_XTF; /* set XTF bit */
}
else
{
if(sc->sc_freeflag)
{
i4b_Dfreembuf(sc->sc_obuf);
sc->sc_freeflag = 0;
}
sc->sc_obuf = NULL;
sc->sc_op = NULL;
sc->sc_ol = 0;
c |= ISACSX_CMDRD_XTF | ISACSX_CMDRD_XME;
}
}
else
{
sc->sc_state &= ~ISAC_TX_ACTIVE;
}
}
if(ista & ISACSX_ISTA_CIC) /* channel status change CISQ */
{
register u_char ci;
/* get command/indication rx register*/
ci = ISAC_READ(I_CIR0);
/* C/I code change IRQ (flag already cleared by CIR0 read) */
if(ci & ISACSX_CIR0_CIC0)
ifpi2_isacsx_ind_hdlr(sc, (ci >> 4) & 0xf);
}
if(c)
{
ISAC_WRITE(I_CMDRD, c);
}
}
/*---------------------------------------------------------------------------*
* Data source switch for Read channels - 1, 3 and 5 (B and D-Channel)
*---------------------------------------------------------------------------*/
void
ihfc_putmbuf (ihfc_sc_t *sc, u_char chan, struct mbuf *m)
{
i4b_trace_hdr_t hdr;
if (chan < 2)
{
if(S_TRACE & TRACE_D_RX)
{
hdr.count = ++S_DTRACECOUNT;
hdr.dir = FROM_NT;
hdr.type = TRC_CH_D;
hdr.unit = S_I4BUNIT;
MICROTIME(hdr.time);
i4b_l1_trace_ind(&hdr, m->m_len, m->m_data);
}
if (!S_ENABLED) { i4b_Dfreembuf(m); return; }
m->m_pkthdr.len = m->m_len;
i4b_l1_ph_data_ind(S_I4BUNIT, m);
}
else
{
if(S_TRACE & TRACE_B_RX)
{
hdr.count = ++S_BTRACECOUNT;
hdr.dir = FROM_NT;
hdr.type = (chan < 4) ? TRC_CH_B1 : TRC_CH_B2;
hdr.unit = S_I4BUNIT;
MICROTIME(hdr.time);
i4b_l1_trace_ind(&hdr, m->m_len, m->m_data);
}
if (!S_ENABLED) { i4b_Bfreembuf(m); return; }
if (S_PROT == BPROT_NONE)
{
if(!i4b_l1_bchan_tel_silence(m->m_data, m->m_len))
{
S_BDRVLINK->bch_activity(S_BDRVLINK->unit, ACT_RX);
}
if (!_IF_QFULL(&S_IFQUEUE))
{
S_BYTES += m->m_len;
IF_ENQUEUE(&S_IFQUEUE, m);
S_BDRVLINK->bch_rx_data_ready(S_BDRVLINK->unit);
}
return;
}
if (S_PROT == BPROT_RHDLC)
{
S_MBUFDUMMY = m;
S_BYTES += m->m_pkthdr.len = m->m_len;
S_BDRVLINK->bch_rx_data_ready(S_BDRVLINK->unit);
S_MBUFDUMMY = NULL;
return;
}
NDBGL1(L1_ERROR, "Unknown protocol: %d", S_PROT);
}
}
