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651 lines
19 KiB
651 lines
19 KiB
/*
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** -----------------------------------------------------------------------------
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**
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** Perle Specialix driver for Linux
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** Ported from existing RIO Driver for SCO sources.
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*
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* (C) 1990 - 2000 Specialix International Ltd., Byfleet, Surrey, UK.
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*
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* This program is free software; you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation; either version 2 of the License, or
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* (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program; if not, write to the Free Software
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* Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
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**
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** Module : riointr.c
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** SID : 1.2
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** Last Modified : 11/6/98 10:33:44
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** Retrieved : 11/6/98 10:33:49
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**
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** ident @(#)riointr.c 1.2
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**
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** -----------------------------------------------------------------------------
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*/
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#ifdef SCCS_LABELS
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static char *_riointr_c_sccs_ = "@(#)riointr.c 1.2";
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#endif
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#include <linux/module.h>
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#include <linux/slab.h>
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#include <linux/errno.h>
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#include <linux/tty.h>
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#include <linux/tty_flip.h>
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#include <asm/io.h>
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#include <asm/system.h>
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#include <asm/string.h>
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#include <asm/uaccess.h>
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#include <linux/termios.h>
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#include <linux/serial.h>
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#include <linux/generic_serial.h>
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#include <linux/delay.h>
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#include "linux_compat.h"
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#include "rio_linux.h"
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#include "pkt.h"
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#include "daemon.h"
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#include "rio.h"
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#include "riospace.h"
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#include "cmdpkt.h"
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#include "map.h"
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#include "rup.h"
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#include "port.h"
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#include "riodrvr.h"
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#include "rioinfo.h"
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#include "func.h"
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#include "errors.h"
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#include "pci.h"
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#include "parmmap.h"
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#include "unixrup.h"
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#include "board.h"
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#include "host.h"
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#include "phb.h"
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#include "link.h"
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#include "cmdblk.h"
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#include "route.h"
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#include "cirrus.h"
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#include "rioioctl.h"
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static void RIOReceive(struct rio_info *, struct Port *);
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static char *firstchars(char *p, int nch)
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{
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static char buf[2][128];
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static int t = 0;
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t = !t;
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memcpy(buf[t], p, nch);
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buf[t][nch] = 0;
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return buf[t];
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}
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#define INCR( P, I ) ((P) = (((P)+(I)) & p->RIOBufferMask))
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/* Enable and start the transmission of packets */
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void RIOTxEnable(char *en)
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{
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struct Port *PortP;
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struct rio_info *p;
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struct tty_struct *tty;
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int c;
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struct PKT __iomem *PacketP;
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unsigned long flags;
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PortP = (struct Port *) en;
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p = (struct rio_info *) PortP->p;
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tty = PortP->gs.tty;
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rio_dprintk(RIO_DEBUG_INTR, "tx port %d: %d chars queued.\n", PortP->PortNum, PortP->gs.xmit_cnt);
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if (!PortP->gs.xmit_cnt)
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return;
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/* This routine is an order of magnitude simpler than the specialix
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version. One of the disadvantages is that this version will send
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an incomplete packet (usually 64 bytes instead of 72) once for
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every 4k worth of data. Let's just say that this won't influence
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performance significantly..... */
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rio_spin_lock_irqsave(&PortP->portSem, flags);
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while (can_add_transmit(&PacketP, PortP)) {
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c = PortP->gs.xmit_cnt;
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if (c > PKT_MAX_DATA_LEN)
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c = PKT_MAX_DATA_LEN;
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/* Don't copy past the end of the source buffer */
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if (c > SERIAL_XMIT_SIZE - PortP->gs.xmit_tail)
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c = SERIAL_XMIT_SIZE - PortP->gs.xmit_tail;
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{
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int t;
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t = (c > 10) ? 10 : c;
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rio_dprintk(RIO_DEBUG_INTR, "rio: tx port %d: copying %d chars: %s - %s\n", PortP->PortNum, c, firstchars(PortP->gs.xmit_buf + PortP->gs.xmit_tail, t), firstchars(PortP->gs.xmit_buf + PortP->gs.xmit_tail + c - t, t));
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}
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/* If for one reason or another, we can't copy more data,
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we're done! */
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if (c == 0)
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break;
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rio_memcpy_toio(PortP->HostP->Caddr, PacketP->data, PortP->gs.xmit_buf + PortP->gs.xmit_tail, c);
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/* udelay (1); */
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writeb(c, &(PacketP->len));
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if (!(PortP->State & RIO_DELETED)) {
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add_transmit(PortP);
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/*
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** Count chars tx'd for port statistics reporting
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*/
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if (PortP->statsGather)
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PortP->txchars += c;
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}
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PortP->gs.xmit_tail = (PortP->gs.xmit_tail + c) & (SERIAL_XMIT_SIZE - 1);
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PortP->gs.xmit_cnt -= c;
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}
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rio_spin_unlock_irqrestore(&PortP->portSem, flags);
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if (PortP->gs.xmit_cnt <= (PortP->gs.wakeup_chars + 2 * PKT_MAX_DATA_LEN))
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tty_wakeup(PortP->gs.tty);
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}
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/*
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** RIO Host Service routine. Does all the work traditionally associated with an
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** interrupt.
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*/
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static int RupIntr;
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static int RxIntr;
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static int TxIntr;
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void RIOServiceHost(struct rio_info *p, struct Host *HostP)
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{
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rio_spin_lock(&HostP->HostLock);
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if ((HostP->Flags & RUN_STATE) != RC_RUNNING) {
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static int t = 0;
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rio_spin_unlock(&HostP->HostLock);
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if ((t++ % 200) == 0)
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rio_dprintk(RIO_DEBUG_INTR, "Interrupt but host not running. flags=%x.\n", (int) HostP->Flags);
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return;
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}
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rio_spin_unlock(&HostP->HostLock);
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if (readw(&HostP->ParmMapP->rup_intr)) {
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writew(0, &HostP->ParmMapP->rup_intr);
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p->RIORupCount++;
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RupIntr++;
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rio_dprintk(RIO_DEBUG_INTR, "rio: RUP interrupt on host %Zd\n", HostP - p->RIOHosts);
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RIOPollHostCommands(p, HostP);
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}
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if (readw(&HostP->ParmMapP->rx_intr)) {
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int port;
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writew(0, &HostP->ParmMapP->rx_intr);
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p->RIORxCount++;
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RxIntr++;
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rio_dprintk(RIO_DEBUG_INTR, "rio: RX interrupt on host %Zd\n", HostP - p->RIOHosts);
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/*
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** Loop through every port. If the port is mapped into
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** the system ( i.e. has /dev/ttyXXXX associated ) then it is
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** worth checking. If the port isn't open, grab any packets
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** hanging on its receive queue and stuff them on the free
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** list; check for commands on the way.
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*/
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for (port = p->RIOFirstPortsBooted; port < p->RIOLastPortsBooted + PORTS_PER_RTA; port++) {
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struct Port *PortP = p->RIOPortp[port];
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struct tty_struct *ttyP;
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struct PKT __iomem *PacketP;
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/*
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** not mapped in - most of the RIOPortp[] information
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** has not been set up!
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** Optimise: ports come in bundles of eight.
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*/
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if (!PortP->Mapped) {
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port += 7;
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continue; /* with the next port */
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}
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/*
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** If the host board isn't THIS host board, check the next one.
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** optimise: ports come in bundles of eight.
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*/
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if (PortP->HostP != HostP) {
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port += 7;
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continue;
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}
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/*
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** Let us see - is the port open? If not, then don't service it.
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*/
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if (!(PortP->PortState & PORT_ISOPEN)) {
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continue;
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}
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/*
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** find corresponding tty structure. The process of mapping
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** the ports puts these here.
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*/
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ttyP = PortP->gs.tty;
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/*
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** Lock the port before we begin working on it.
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*/
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rio_spin_lock(&PortP->portSem);
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/*
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** Process received data if there is any.
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*/
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if (can_remove_receive(&PacketP, PortP))
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RIOReceive(p, PortP);
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/*
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** If there is no data left to be read from the port, and
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** it's handshake bit is set, then we must clear the handshake,
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** so that that downstream RTA is re-enabled.
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*/
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if (!can_remove_receive(&PacketP, PortP) && (readw(&PortP->PhbP->handshake) == PHB_HANDSHAKE_SET)) {
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/*
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** MAGIC! ( Basically, handshake the RX buffer, so that
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** the RTAs upstream can be re-enabled. )
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*/
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rio_dprintk(RIO_DEBUG_INTR, "Set RX handshake bit\n");
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writew(PHB_HANDSHAKE_SET | PHB_HANDSHAKE_RESET, &PortP->PhbP->handshake);
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}
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rio_spin_unlock(&PortP->portSem);
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}
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}
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if (readw(&HostP->ParmMapP->tx_intr)) {
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int port;
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writew(0, &HostP->ParmMapP->tx_intr);
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p->RIOTxCount++;
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TxIntr++;
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rio_dprintk(RIO_DEBUG_INTR, "rio: TX interrupt on host %Zd\n", HostP - p->RIOHosts);
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/*
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** Loop through every port.
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** If the port is mapped into the system ( i.e. has /dev/ttyXXXX
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** associated ) then it is worth checking.
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*/
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for (port = p->RIOFirstPortsBooted; port < p->RIOLastPortsBooted + PORTS_PER_RTA; port++) {
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struct Port *PortP = p->RIOPortp[port];
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struct tty_struct *ttyP;
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struct PKT __iomem *PacketP;
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/*
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** not mapped in - most of the RIOPortp[] information
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** has not been set up!
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*/
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if (!PortP->Mapped) {
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port += 7;
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continue; /* with the next port */
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}
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/*
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** If the host board isn't running, then its data structures
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** are no use to us - continue quietly.
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*/
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if (PortP->HostP != HostP) {
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port += 7;
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continue; /* with the next port */
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}
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/*
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** Let us see - is the port open? If not, then don't service it.
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*/
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if (!(PortP->PortState & PORT_ISOPEN)) {
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continue;
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}
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rio_dprintk(RIO_DEBUG_INTR, "rio: Looking into port %d.\n", port);
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/*
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** Lock the port before we begin working on it.
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*/
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rio_spin_lock(&PortP->portSem);
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/*
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** If we can't add anything to the transmit queue, then
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** we need do none of this processing.
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*/
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if (!can_add_transmit(&PacketP, PortP)) {
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rio_dprintk(RIO_DEBUG_INTR, "Can't add to port, so skipping.\n");
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rio_spin_unlock(&PortP->portSem);
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continue;
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}
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/*
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** find corresponding tty structure. The process of mapping
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** the ports puts these here.
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*/
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ttyP = PortP->gs.tty;
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/* If ttyP is NULL, the port is getting closed. Forget about it. */
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if (!ttyP) {
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rio_dprintk(RIO_DEBUG_INTR, "no tty, so skipping.\n");
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rio_spin_unlock(&PortP->portSem);
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continue;
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}
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/*
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** If there is more room available we start up the transmit
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** data process again. This can be direct I/O, if the cookmode
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** is set to COOK_RAW or COOK_MEDIUM, or will be a call to the
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** riotproc( T_OUTPUT ) if we are in COOK_WELL mode, to fetch
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** characters via the line discipline. We must always call
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** the line discipline,
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** so that user input characters can be echoed correctly.
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**
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** ++++ Update +++++
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** With the advent of double buffering, we now see if
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** TxBufferOut-In is non-zero. If so, then we copy a packet
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** to the output place, and set it going. If this empties
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** the buffer, then we must issue a wakeup( ) on OUT.
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** If it frees space in the buffer then we must issue
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** a wakeup( ) on IN.
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**
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** ++++ Extra! Extra! If PortP->WflushFlag is set, then we
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** have to send a WFLUSH command down the PHB, to mark the
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** end point of a WFLUSH. We also need to clear out any
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** data from the double buffer! ( note that WflushFlag is a
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** *count* of the number of WFLUSH commands outstanding! )
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**
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** ++++ And there's more!
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** If an RTA is powered off, then on again, and rebooted,
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** whilst it has ports open, then we need to re-open the ports.
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** ( reasonable enough ). We can't do this when we spot the
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** re-boot, in interrupt time, because the queue is probably
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** full. So, when we come in here, we need to test if any
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** ports are in this condition, and re-open the port before
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** we try to send any more data to it. Now, the re-booted
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** RTA will be discarding packets from the PHB until it
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** receives this open packet, but don't worry tooo much
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** about that. The one thing that is interesting is the
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** combination of this effect and the WFLUSH effect!
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*/
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/* For now don't handle RTA reboots. -- REW.
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Reenabled. Otherwise RTA reboots didn't work. Duh. -- REW */
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if (PortP->MagicFlags) {
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if (PortP->MagicFlags & MAGIC_REBOOT) {
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/*
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** well, the RTA has been rebooted, and there is room
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** on its queue to add the open packet that is required.
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**
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** The messy part of this line is trying to decide if
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** we need to call the Param function as a tty or as
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** a modem.
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** DONT USE CLOCAL AS A TEST FOR THIS!
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**
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** If we can't param the port, then move on to the
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** next port.
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*/
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PortP->InUse = NOT_INUSE;
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rio_spin_unlock(&PortP->portSem);
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if (RIOParam(PortP, OPEN, ((PortP->Cor2Copy & (COR2_RTSFLOW | COR2_CTSFLOW)) == (COR2_RTSFLOW | COR2_CTSFLOW)) ? 1 : 0, DONT_SLEEP) == RIO_FAIL) {
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continue; /* with next port */
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}
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rio_spin_lock(&PortP->portSem);
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PortP->MagicFlags &= ~MAGIC_REBOOT;
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}
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/*
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** As mentioned above, this is a tacky hack to cope
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** with WFLUSH
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*/
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if (PortP->WflushFlag) {
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rio_dprintk(RIO_DEBUG_INTR, "Want to WFLUSH mark this port\n");
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if (PortP->InUse)
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rio_dprintk(RIO_DEBUG_INTR, "FAILS - PORT IS IN USE\n");
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}
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while (PortP->WflushFlag && can_add_transmit(&PacketP, PortP) && (PortP->InUse == NOT_INUSE)) {
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int p;
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struct PktCmd __iomem *PktCmdP;
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rio_dprintk(RIO_DEBUG_INTR, "Add WFLUSH marker to data queue\n");
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/*
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** make it look just like a WFLUSH command
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*/
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PktCmdP = (struct PktCmd __iomem *) &PacketP->data[0];
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writeb(WFLUSH, &PktCmdP->Command);
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p = PortP->HostPort % (u16) PORTS_PER_RTA;
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/*
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** If second block of ports for 16 port RTA, add 8
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** to index 8-15.
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*/
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if (PortP->SecondBlock)
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p += PORTS_PER_RTA;
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writeb(p, &PktCmdP->PhbNum);
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/*
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** to make debuggery easier
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*/
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writeb('W', &PacketP->data[2]);
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writeb('F', &PacketP->data[3]);
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writeb('L', &PacketP->data[4]);
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writeb('U', &PacketP->data[5]);
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writeb('S', &PacketP->data[6]);
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writeb('H', &PacketP->data[7]);
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writeb(' ', &PacketP->data[8]);
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writeb('0' + PortP->WflushFlag, &PacketP->data[9]);
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writeb(' ', &PacketP->data[10]);
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writeb(' ', &PacketP->data[11]);
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writeb('\0', &PacketP->data[12]);
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/*
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** its two bytes long!
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*/
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writeb(PKT_CMD_BIT | 2, &PacketP->len);
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/*
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** queue it!
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*/
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if (!(PortP->State & RIO_DELETED)) {
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add_transmit(PortP);
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/*
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** Count chars tx'd for port statistics reporting
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*/
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if (PortP->statsGather)
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PortP->txchars += 2;
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}
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if (--(PortP->WflushFlag) == 0) {
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PortP->MagicFlags &= ~MAGIC_FLUSH;
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}
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rio_dprintk(RIO_DEBUG_INTR, "Wflush count now stands at %d\n", PortP->WflushFlag);
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}
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if (PortP->MagicFlags & MORE_OUTPUT_EYGOR) {
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if (PortP->MagicFlags & MAGIC_FLUSH) {
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PortP->MagicFlags |= MORE_OUTPUT_EYGOR;
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} else {
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if (!can_add_transmit(&PacketP, PortP)) {
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rio_spin_unlock(&PortP->portSem);
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continue;
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}
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rio_spin_unlock(&PortP->portSem);
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RIOTxEnable((char *) PortP);
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rio_spin_lock(&PortP->portSem);
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|
PortP->MagicFlags &= ~MORE_OUTPUT_EYGOR;
|
|
}
|
|
}
|
|
}
|
|
|
|
|
|
/*
|
|
** If we can't add anything to the transmit queue, then
|
|
** we need do none of the remaining processing.
|
|
*/
|
|
if (!can_add_transmit(&PacketP, PortP)) {
|
|
rio_spin_unlock(&PortP->portSem);
|
|
continue;
|
|
}
|
|
|
|
rio_spin_unlock(&PortP->portSem);
|
|
RIOTxEnable((char *) PortP);
|
|
}
|
|
}
|
|
}
|
|
|
|
/*
|
|
** Routine for handling received data for tty drivers
|
|
*/
|
|
static void RIOReceive(struct rio_info *p, struct Port *PortP)
|
|
{
|
|
struct tty_struct *TtyP;
|
|
unsigned short transCount;
|
|
struct PKT __iomem *PacketP;
|
|
register unsigned int DataCnt;
|
|
unsigned char __iomem *ptr;
|
|
unsigned char *buf;
|
|
int copied = 0;
|
|
|
|
static int intCount, RxIntCnt;
|
|
|
|
/*
|
|
** The receive data process is to remove packets from the
|
|
** PHB until there aren't any more or the current cblock
|
|
** is full. When this occurs, there will be some left over
|
|
** data in the packet, that we must do something with.
|
|
** As we haven't unhooked the packet from the read list
|
|
** yet, we can just leave the packet there, having first
|
|
** made a note of how far we got. This means that we need
|
|
** a pointer per port saying where we start taking the
|
|
** data from - this will normally be zero, but when we
|
|
** run out of space it will be set to the offset of the
|
|
** next byte to copy from the packet data area. The packet
|
|
** length field is decremented by the number of bytes that
|
|
** we successfully removed from the packet. When this reaches
|
|
** zero, we reset the offset pointer to be zero, and free
|
|
** the packet from the front of the queue.
|
|
*/
|
|
|
|
intCount++;
|
|
|
|
TtyP = PortP->gs.tty;
|
|
if (!TtyP) {
|
|
rio_dprintk(RIO_DEBUG_INTR, "RIOReceive: tty is null. \n");
|
|
return;
|
|
}
|
|
|
|
if (PortP->State & RIO_THROTTLE_RX) {
|
|
rio_dprintk(RIO_DEBUG_INTR, "RIOReceive: Throttled. Can't handle more input.\n");
|
|
return;
|
|
}
|
|
|
|
if (PortP->State & RIO_DELETED) {
|
|
while (can_remove_receive(&PacketP, PortP)) {
|
|
remove_receive(PortP);
|
|
put_free_end(PortP->HostP, PacketP);
|
|
}
|
|
} else {
|
|
/*
|
|
** loop, just so long as:
|
|
** i ) there's some data ( i.e. can_remove_receive )
|
|
** ii ) we haven't been blocked
|
|
** iii ) there's somewhere to put the data
|
|
** iv ) we haven't outstayed our welcome
|
|
*/
|
|
transCount = 1;
|
|
while (can_remove_receive(&PacketP, PortP)
|
|
&& transCount) {
|
|
RxIntCnt++;
|
|
|
|
/*
|
|
** check that it is not a command!
|
|
*/
|
|
if (readb(&PacketP->len) & PKT_CMD_BIT) {
|
|
rio_dprintk(RIO_DEBUG_INTR, "RIO: unexpected command packet received on PHB\n");
|
|
/* rio_dprint(RIO_DEBUG_INTR, (" sysport = %d\n", p->RIOPortp->PortNum)); */
|
|
rio_dprintk(RIO_DEBUG_INTR, " dest_unit = %d\n", readb(&PacketP->dest_unit));
|
|
rio_dprintk(RIO_DEBUG_INTR, " dest_port = %d\n", readb(&PacketP->dest_port));
|
|
rio_dprintk(RIO_DEBUG_INTR, " src_unit = %d\n", readb(&PacketP->src_unit));
|
|
rio_dprintk(RIO_DEBUG_INTR, " src_port = %d\n", readb(&PacketP->src_port));
|
|
rio_dprintk(RIO_DEBUG_INTR, " len = %d\n", readb(&PacketP->len));
|
|
rio_dprintk(RIO_DEBUG_INTR, " control = %d\n", readb(&PacketP->control));
|
|
rio_dprintk(RIO_DEBUG_INTR, " csum = %d\n", readw(&PacketP->csum));
|
|
rio_dprintk(RIO_DEBUG_INTR, " data bytes: ");
|
|
for (DataCnt = 0; DataCnt < PKT_MAX_DATA_LEN; DataCnt++)
|
|
rio_dprintk(RIO_DEBUG_INTR, "%d\n", readb(&PacketP->data[DataCnt]));
|
|
remove_receive(PortP);
|
|
put_free_end(PortP->HostP, PacketP);
|
|
continue; /* with next packet */
|
|
}
|
|
|
|
/*
|
|
** How many characters can we move 'upstream' ?
|
|
**
|
|
** Determine the minimum of the amount of data
|
|
** available and the amount of space in which to
|
|
** put it.
|
|
**
|
|
** 1. Get the packet length by masking 'len'
|
|
** for only the length bits.
|
|
** 2. Available space is [buffer size] - [space used]
|
|
**
|
|
** Transfer count is the minimum of packet length
|
|
** and available space.
|
|
*/
|
|
|
|
transCount = tty_buffer_request_room(TtyP, readb(&PacketP->len) & PKT_LEN_MASK);
|
|
rio_dprintk(RIO_DEBUG_REC, "port %d: Copy %d bytes\n", PortP->PortNum, transCount);
|
|
/*
|
|
** To use the following 'kkprintfs' for debugging - change the '#undef'
|
|
** to '#define', (this is the only place ___DEBUG_IT___ occurs in the
|
|
** driver).
|
|
*/
|
|
ptr = (unsigned char __iomem *) PacketP->data + PortP->RxDataStart;
|
|
|
|
tty_prepare_flip_string(TtyP, &buf, transCount);
|
|
rio_memcpy_fromio(buf, ptr, transCount);
|
|
PortP->RxDataStart += transCount;
|
|
writeb(readb(&PacketP->len)-transCount, &PacketP->len);
|
|
copied += transCount;
|
|
|
|
|
|
|
|
if (readb(&PacketP->len) == 0) {
|
|
/*
|
|
** If we have emptied the packet, then we can
|
|
** free it, and reset the start pointer for
|
|
** the next packet.
|
|
*/
|
|
remove_receive(PortP);
|
|
put_free_end(PortP->HostP, PacketP);
|
|
PortP->RxDataStart = 0;
|
|
}
|
|
}
|
|
}
|
|
if (copied) {
|
|
rio_dprintk(RIO_DEBUG_REC, "port %d: pushing tty flip buffer: %d total bytes copied.\n", PortP->PortNum, copied);
|
|
tty_flip_buffer_push(TtyP);
|
|
}
|
|
|
|
return;
|
|
}
|
|
|
|
|