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1995-1997 Jan "Yenya" Kasprzak <kas@fi.muni.cz> * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. */ /* * The driver for the SRP and COSA synchronous serial cards. * * HARDWARE INFO * * Both cards are developed at the Institute of Computer Science, * Masaryk University (http://www.ics.muni.cz/). The hardware is * developed by Jiri Novotny <novotny@ics.muni.cz>. More information * and the photo of both cards is available at * http://www.pavoucek.cz/cosa.html. The card documentation, firmwares * and other goods can be downloaded from ftp://ftp.ics.muni.cz/pub/cosa/. * For Linux-specific utilities, see below in the "Software info" section. * If you want to order the card, contact Jiri Novotny. * * The SRP (serial port?, the Czech word "srp" means "sickle") card * is a 2-port intelligent (with its own 8-bit CPU) synchronous serial card * with V.24 interfaces up to 80kb/s each. * * The COSA (communication serial adapter?, the Czech word "kosa" means * "scythe") is a next-generation sync/async board with two interfaces * - currently any of V.24, X.21, V.35 and V.36 can be selected. * It has a 16-bit SAB80166 CPU and can do up to 10 Mb/s per channel. * The 8-channels version is in development. * * Both types have downloadable firmware and communicate via ISA DMA. * COSA can be also a bus-mastering device. * * SOFTWARE INFO * * The homepage of the Linux driver is at http://www.fi.muni.cz/~kas/cosa/. * The CVS tree of Linux driver can be viewed there, as well as the * firmware binaries and user-space utilities for downloading the firmware * into the card and setting up the card. * * The Linux driver (unlike the present *BSD drivers :-) can work even * for the COSA and SRP in one computer and allows each channel to work * in one of the three modes (character device, Cisco HDLC, Sync PPP). * * AUTHOR * * The Linux driver was written by Jan "Yenya" Kasprzak <kas@fi.muni.cz>. * * You can mail me bugfixes and even success reports. I am especially * interested in the SMP and/or muliti-channel success/failure reports * (I wonder if I did the locking properly :-). * * THE AUTHOR USED THE FOLLOWING SOURCES WHEN PROGRAMMING THE DRIVER * * The COSA/SRP NetBSD driver by Zdenek Salvet and Ivos Cernohlavek * The skeleton.c by Donald Becker * The SDL Riscom/N2 driver by Mike Natale * The Comtrol Hostess SV11 driver by Alan Cox * The Sync PPP/Cisco HDLC layer (syncppp.c) ported to Linux by Alan Cox */ /* ---------- Headers, macros, data structures ---------- */ #include <linux/module.h> #include <linux/kernel.h> #include <linux/malloc.h> #include <linux/poll.h> #include <linux/fs.h> #include <linux/sched.h> #include <linux/interrupt.h> #include <linux/delay.h> #include <linux/errno.h> #include <linux/ioport.h> #include <linux/netdevice.h> #undef COSA_SLOW_IO /* for testing purposes only */ #undef REALLY_SLOW_IO #include <asm/io.h> #include <asm/dma.h> #include <asm/byteorder.h> #include <asm/spinlock.h> #include "syncppp.h" #include "cosa.h" /* Maximum length of the identification string. */ #define COSA_MAX_ID_STRING 128 /* Maximum length of the channel name */ #define COSA_MAX_NAME (sizeof("cosaXXXcXXX")+1) /* Per-channel data structure */ struct channel_data { int usage; /* Usage count; >0 for chrdev, -1 for netdev */ int num; /* Number of the channel */ struct cosa_data *cosa; /* Pointer to the per-card structure */ int txsize; /* Size of transmitted data */ char *txbuf; /* Transmit buffer */ char name[COSA_MAX_NAME]; /* channel name */ /* The HW layer interface */ /* routine called from the RX interrupt */ char *(*setup_rx)(struct channel_data *channel, int size); /* routine called when the RX is done (from the EOT interrupt) */ int (*rx_done)(struct channel_data *channel); /* routine called when the TX is done (from the EOT interrupt) */ int (*tx_done)(struct channel_data *channel, int size); /* Character device parts */ struct semaphore rsem, wsem; char *rxdata; int rxsize; struct wait_queue *txwaitq, *rxwaitq; int tx_status, rx_status; /* SPPP/HDLC device parts */ struct ppp_device pppdev; struct sk_buff *rx_skb, *tx_skb; struct net_device_stats stats; }; struct cosa_data { int num; /* Card number */ char name[COSA_MAX_NAME]; /* Card name - e.g "cosa0" */ unsigned int datareg, statusreg; /* I/O ports */ unsigned short irq, dma; /* IRQ and DMA number */ unsigned short startaddr; /* Firmware start address */ unsigned short busmaster; /* Use busmastering? */ int nchannels; /* # of channels on this card */ int driver_status; /* For communicating with firware */ int firmware_status; /* Downloaded, reseted, etc. */ int rxbitmap, txbitmap; /* Bitmap of channels who are willing to send/receive data */ int rxtx; /* RX or TX in progress? */ int enabled; int usage; /* usage count */ int txchan, txsize, rxsize; struct channel_data *rxchan; char *bouncebuf; char *txbuf, *rxbuf; struct channel_data *chan; spinlock_t lock; /* For exclusive operations on this structure */ char id_string[COSA_MAX_ID_STRING]; /* ROM monitor ID string */ char *type; /* card type */ }; /* * Define this if you want all the possible ports to be autoprobed. * It is here but it probably is not a good idea to use this. */ /* #define COSA_ISA_AUTOPROBE 1 */ /* * Character device major number. 117 was allocated for us. * The value of 0 means to allocate a first free one. */ static int cosa_major = 117; /* * Encoding of the minor numbers: * The lowest CARD_MINOR_BITS bits means the channel on the single card, * the highest bits means the card number. */ #define CARD_MINOR_BITS 4 /* How many bits in minor number are reserved * for the single card */ /* * The following depends on CARD_MINOR_BITS. Unfortunately, the "MODULE_STRING" * macro doesn't like anything other than the raw number as an argument :-( */ #define MAX_CARDS 16 /* #define MAX_CARDS (1 << (8-CARD_MINOR_BITS)) */ #define DRIVER_RX_READY 0x0001 #define DRIVER_TX_READY 0x0002 #define DRIVER_TXMAP_SHIFT 2 #define DRIVER_TXMAP_MASK 0x0c /* FIXME: 0xfc for 8-channel version */ /* * for cosa->rxtx - indicates whether either transmit or receive is * in progress. These values are mean number of the bit. */ #define TXBIT 0 #define RXBIT 1 #define IRQBIT 2 #define COSA_MTU 2000 /* FIXME: I don't know this exactly */ #undef DEBUG_DATA 1 /* Dump the data read or written to the channel */ #undef DEBUG_IRQS 1 /* Print the message when the IRQ is received */ #undef DEBUG_IO 1 /* Dump the I/O traffic */ /* Maybe the following should be allocated dynamically */ static struct cosa_data cosa_cards[MAX_CARDS]; static int nr_cards = 0; #ifdef COSA_ISA_AUTOPROBE static int io[MAX_CARDS+1] = { 0x220, 0x228, 0x210, 0x218, 0, }; /* NOTE: DMA is not autoprobed!!! */ static int dma[MAX_CARDS+1] = { 1, 7, 1, 7, 1, 7, 1, 7, 0, }; #else int io[MAX_CARDS+1] = { 0, }; int dma[MAX_CARDS+1] = { 0, }; #endif /* IRQ can be safely autoprobed */ static int irq[MAX_CARDS+1] = { -1, -1, -1, -1, -1, -1, 0, }; #ifdef MODULE MODULE_PARM(io, "1-" __MODULE_STRING(MAX_CARDS) "i"); MODULE_PARM_DESC(io, "The I/O bases of the COSA or SRP cards"); MODULE_PARM(irq, "1-" __MODULE_STRING(MAX_CARDS) "i"); MODULE_PARM_DESC(irq, "The IRQ lines of the COSA or SRP cards"); MODULE_PARM(dma, "1-" __MODULE_STRING(MAX_CARDS) "i"); MODULE_PARM_DESC(dma, "The DMA channels of the COSA or SRP cards"); MODULE_AUTHOR("Jan \"Yenya\" Kasprzak, <kas@fi.muni.cz>"); MODULE_DESCRIPTION("Modular driver for the COSA or SRP synchronous card"); #endif /* I use this mainly for testing purposes */ #ifdef COSA_SLOW_IO #define cosa_outb outb_p #define cosa_outw outw_p #define cosa_inb inb_p #define cosa_inw inw_p #else #define cosa_outb outb #define cosa_outw outw #define cosa_inb inb #define cosa_inw inw #endif #define is_8bit(cosa) (!(cosa->datareg & 0x08)) #define cosa_getstatus(cosa) (cosa_inb(cosa->statusreg)) #define cosa_putstatus(cosa, stat) (cosa_outb(stat, cosa->statusreg)) #define cosa_getdata16(cosa) (cosa_inw(cosa->datareg)) #define cosa_getdata8(cosa) (cosa_inb(cosa->datareg)) #define cosa_putdata16(cosa, dt) (cosa_outw(dt, cosa->datareg)) #define cosa_putdata8(cosa, dt) (cosa_outb(dt, cosa->datareg)) /* Initialization stuff */ static int cosa_probe(int ioaddr, int irq, int dma); /* HW interface */ static void cosa_enable_rx(struct channel_data *chan); static void cosa_disable_rx(struct channel_data *chan); static int cosa_start_tx(struct channel_data *channel, char *buf, int size); static void cosa_kick(struct cosa_data *cosa); static int cosa_dma_able(struct channel_data *chan, char *buf, int data); /* SPPP/HDLC stuff */ static void sppp_channel_init(struct channel_data *chan); static void sppp_channel_delete(struct channel_data *chan); static int cosa_sppp_open(struct device *d); static int cosa_sppp_close(struct device *d); static int cosa_sppp_tx(struct sk_buff *skb, struct device *d); static char *sppp_setup_rx(struct channel_data *channel, int size); static int sppp_rx_done(struct channel_data *channel); static int sppp_tx_done(struct channel_data *channel, int size); static int cosa_sppp_ioctl(struct device *dev, struct ifreq *ifr, int cmd); static struct net_device_stats *cosa_net_stats(struct device *dev); /* Character device */ static void chardev_channel_init(struct channel_data *chan); static char *chrdev_setup_rx(struct channel_data *channel, int size); static int chrdev_rx_done(struct channel_data *channel); static int chrdev_tx_done(struct channel_data *channel, int size); static long long cosa_lseek(struct file *file, long long offset, int origin); static ssize_t cosa_read(struct file *file, char *buf, size_t count, loff_t *ppos); static ssize_t cosa_write(struct file *file, const char *buf, size_t count, loff_t *ppos); static unsigned int cosa_poll(struct file *file, poll_table *poll); static int cosa_open(struct inode *inode, struct file *file); static int cosa_release(struct inode *inode, struct file *file); static int cosa_chardev_ioctl(struct inode *inode, struct file *file, unsigned int cmd, unsigned long arg); #ifdef COSA_FASYNC_WORKING static int cosa_fasync(struct inode *inode, struct file *file, int on); #endif static struct file_operations cosa_fops = { cosa_lseek, cosa_read, cosa_write, NULL, /* readdir */ cosa_poll, cosa_chardev_ioctl, NULL, /* mmap */ cosa_open, NULL, /* flush */ cosa_release, NULL, /* fsync */ #ifdef COSA_FASYNC_WORKING cosa_fasync, #else NULL, #endif NULL, /* check media change */ NULL, /* revalidate */ NULL /* lock */ }; /* Ioctls */ static int cosa_start(struct cosa_data *cosa, int address); static int cosa_reset(struct cosa_data *cosa); static int cosa_download(struct cosa_data *cosa, struct cosa_download *d); static int cosa_readmem(struct cosa_data *cosa, struct cosa_download *d); /* COSA/SRP ROM monitor */ static int download(struct cosa_data *cosa, char *data, int addr, int len); static int startmicrocode(struct cosa_data *cosa, int address); static int readmem(struct cosa_data *cosa, char *data, int addr, int len); static int cosa_reset_and_read_id(struct cosa_data *cosa, char *id); /* Auxilliary functions */ static int get_wait_data(struct cosa_data *cosa); static int put_wait_data(struct cosa_data *cosa, int data); static int puthexnumber(struct cosa_data *cosa, int number); static void put_driver_status(struct cosa_data *cosa); static void put_driver_status_nolock(struct cosa_data *cosa); /* Interrupt handling */ static void cosa_interrupt(int irq, void *cosa, struct pt_regs *regs); /* I/O ops debugging */ #ifdef DEBUG_IO static void debug_data_in(struct cosa_data *cosa, int data); static void debug_data_out(struct cosa_data *cosa, int data); static void debug_data_cmd(struct cosa_data *cosa, int data); static void debug_status_in(struct cosa_data *cosa, int status); static void debug_status_out(struct cosa_data *cosa, int status); #endif /* ---------- Initialization stuff ---------- */ #ifdef MODULE int init_module(void) #else __initfunc(static int cosa_init(void)) #endif { int i; printk(KERN_INFO "cosa v1.04 (c) 1997-8 Jan Kasprzak <kas@fi.muni.cz>\n"); #ifdef __SMP__ printk(KERN_INFO "cosa: SMP found. Please mail any success/failure reports to the author.\n"); #endif if (cosa_major > 0) { if (register_chrdev(cosa_major, "cosa", &cosa_fops)) { printk(KERN_WARNING "cosa: unable to get major %d\n", cosa_major); return -EIO; } } else { if (!(cosa_major=register_chrdev(0, "cosa", &cosa_fops))) { printk(KERN_WARNING "cosa: unable to register chardev\n"); return -EIO; } } for (i=0; i<MAX_CARDS; i++) cosa_cards[i].num = -1; for (i=0; io[i] != 0 && i < MAX_CARDS; i++) cosa_probe(io[i], irq[i], dma[i]); if (!nr_cards) { printk(KERN_WARNING "cosa: no devices found.\n"); unregister_chrdev(cosa_major, "cosa"); return -ENODEV; } return 0; } #ifdef MODULE void cleanup_module (void) { struct cosa_data *cosa; printk(KERN_INFO "Unloading the cosa module\n"); for (cosa=cosa_cards; nr_cards--; cosa++) { int i; /* Clean up the per-channel data */ for (i=0; i<cosa->nchannels; i++) { /* Chardev driver has no alloc'd per-channel data */ sppp_channel_delete(cosa->chan+i); } /* Clean up the per-card data */ kfree(cosa->chan); kfree(cosa->bouncebuf); free_irq(cosa->irq, cosa); free_dma(cosa->dma); release_region(cosa->datareg,is_8bit(cosa)?2:4); } unregister_chrdev(cosa_major, "cosa"); } #endif /* * This function should register all the net devices needed for the * single channel. */ static __inline__ void channel_init(struct channel_data *chan) { sprintf(chan->name, "cosa%dc%d", chan->cosa->num, chan->num); /* Initialize the chardev data structures */ chardev_channel_init(chan); /* Register the sppp interface */ sppp_channel_init(chan); } static int cosa_probe(int base, int irq, int dma) { struct cosa_data *cosa = cosa_cards+nr_cards; int i; memset(cosa, 0, sizeof(struct cosa_data)); /* Checking validity of parameters: */ /* IRQ should be 2-7 or 10-15; negative IRQ means autoprobe */ if ((irq >= 0 && irq < 2) || irq > 15 || (irq < 10 && irq > 7)) { printk (KERN_INFO "cosa_probe: invalid IRQ %d\n", irq); return -1; } /* I/O address should be between 0x100 and 0x3ff and should be * multiple of 8. */ if (base < 0x100 || base > 0x3ff || base & 0x7) { printk (KERN_INFO "cosa_probe: invalid I/O address 0x%x\n", base); return -1; } /* DMA should be 0,1 or 3-7 */ if (dma < 0 || dma == 4 || dma > 7) { printk (KERN_INFO "cosa_probe: invalid DMA %d\n", dma); return -1; } /* and finally, on 16-bit COSA DMA should be 4-7 and * I/O base should not be multiple of 0x10 */ if (((base & 0x8) && dma < 4) || (!(base & 0x8) && dma > 3)) { printk (KERN_INFO "cosa_probe: 8/16 bit base and DMA mismatch" " (base=0x%x, dma=%d)\n", base, dma); return -1; } cosa->dma = dma; cosa->datareg = base; cosa->statusreg = is_8bit(cosa)?base+1:base+2; spin_lock_init(&cosa->lock); if (check_region(base, is_8bit(cosa)?2:4)) return -1; if (cosa_reset_and_read_id(cosa, cosa->id_string) < 0) { printk(KERN_DEBUG "cosa: probe at 0x%x failed.\n", base); return -1; } /* Test the validity of identification string */ if (!strncmp(cosa->id_string, "SRP", 3)) cosa->type = "srp"; else if (!strncmp(cosa->id_string, "COSA", 4)) cosa->type = is_8bit(cosa)? "cosa8": "cosa16"; else { /* Print a warning only if we are not autoprobing */ #ifndef COSA_ISA_AUTOPROBE printk(KERN_INFO "cosa: valid signature not found at 0x%x.\n", base); #endif return -1; } /* Now do IRQ autoprobe */ if (irq < 0) { unsigned long irqs; /* printk(KERN_INFO "IRQ autoprobe\n"); */ sti(); irqs = probe_irq_on(); /* * Enable interrupt on tx buffer empty (it sure is) * really sure ? * FIXME: When this code is not used as module, we should * probably call udelay() instead of the interruptible sleep. */ current->state = TASK_INTERRUPTIBLE; cosa_putstatus(cosa, SR_TX_INT_ENA); schedule_timeout(30); current->state = TASK_RUNNING; irq = probe_irq_off(irqs); /* Disable all IRQs from the card */ cosa_putstatus(cosa, 0); /* Empty the received data register */ cosa_getdata8(cosa); if (irq < 0) { printk (KERN_INFO "cosa IRQ autoprobe: multiple interrupts obtained (%d, board at 0x%x)\n", irq, cosa->datareg); return -1; } if (irq == 0) { printk (KERN_INFO "cosa IRQ autoprobe: no interrupt obtained (board at 0x%x)\n", cosa->datareg); /* return -1; */ } } cosa->irq = irq; cosa->num = nr_cards; cosa->usage = 0; cosa->nchannels = 2; /* FIXME: how to determine this? */ request_region(base, is_8bit(cosa)?2:4, cosa->type); if (request_irq(cosa->irq, cosa_interrupt, 0, cosa->type, cosa)) goto bad1; if (request_dma(cosa->dma, cosa->type)) { free_irq(cosa->irq, cosa); bad1: release_region(cosa->datareg,is_8bit(cosa)?2:4); printk(KERN_NOTICE "cosa%d: allocating resources failed\n", cosa->num); return -1; } cosa->bouncebuf = kmalloc(COSA_MTU, GFP_KERNEL|GFP_DMA); sprintf(cosa->name, "cosa%d", cosa->num); /* Initialize the per-channel data */ cosa->chan = kmalloc(sizeof(struct channel_data)*cosa->nchannels, GFP_KERNEL); memset(cosa->chan, 0, sizeof(struct channel_data)*cosa->nchannels); for (i=0; i<cosa->nchannels; i++) { cosa->chan[i].cosa = cosa; cosa->chan[i].num = i; channel_init(cosa->chan+i); } printk (KERN_INFO "cosa%d: %s (%s at 0x%x irq %d dma %d), %d channels\n", cosa->num, cosa->id_string, cosa->type, cosa->datareg, cosa->irq, cosa->dma, cosa->nchannels); return nr_cards++; } /*---------- SPPP/HDLC netdevice ---------- */ static void sppp_channel_init(struct channel_data *chan) { struct device *d; sppp_attach(&chan->pppdev); d=&chan->pppdev.dev; d->name = chan->name; d->base_addr = chan->cosa->datareg; d->irq = chan->cosa->irq; d->dma = chan->cosa->dma; d->priv = chan; d->init = NULL; d->open = cosa_sppp_open; d->stop = cosa_sppp_close; d->hard_start_xmit = cosa_sppp_tx; d->do_ioctl = cosa_sppp_ioctl; d->get_stats = cosa_net_stats; dev_init_buffers(d); if (register_netdev(d) == -1) { printk(KERN_WARNING "%s: register_netdev failed.\n", d->name); sppp_detach(&chan->pppdev.dev); return; } } static void sppp_channel_delete(struct channel_data *chan) { sppp_detach(&chan->pppdev.dev); unregister_netdev(&chan->pppdev.dev); } static int cosa_sppp_open(struct device *d) { struct channel_data *chan = d->priv; int err, flags; spin_lock_irqsave(&chan->cosa->lock, flags); if (chan->usage != 0) { printk(KERN_WARNING "%s: sppp_open called with usage count %d\n", chan->name, chan->usage); return -EBUSY; } chan->setup_rx = sppp_setup_rx; chan->tx_done = sppp_tx_done; chan->rx_done = sppp_rx_done; chan->usage=-1; chan->cosa->usage++; MOD_INC_USE_COUNT; spin_unlock_irqrestore(&chan->cosa->lock, flags); err = sppp_open(d); if (err) { spin_lock_irqsave(&chan->cosa->lock, flags); chan->usage=0; chan->cosa->usage--; MOD_DEC_USE_COUNT; spin_unlock_irqrestore(&chan->cosa->lock, flags); return err; } d->tbusy = 0; cosa_enable_rx(chan); return 0; } static int cosa_sppp_tx(struct sk_buff *skb, struct device *dev) { struct channel_data *chan = dev->priv; if (dev->tbusy) { if (time_before(jiffies, dev->trans_start+2*HZ)) return 1; /* Two seconds timeout */ if (test_bit(RXBIT, &chan->cosa->rxtx)) { chan->stats.rx_errors++; chan->stats.rx_missed_errors++; } else { chan->stats.tx_errors++; chan->stats.tx_aborted_errors++; } cosa_kick(chan->cosa); if (chan->tx_skb) { dev_kfree_skb(chan->tx_skb); chan->tx_skb = 0; } dev->tbusy = 0; } if (test_and_set_bit(0, (void*)&dev->tbusy) != 0) { printk(KERN_WARNING "%s: Transmitter access conflict.\n", dev->name); return 1; } chan->tx_skb = skb; dev->trans_start = jiffies; cosa_start_tx(chan, skb->data, skb->len); return 0; } static int cosa_sppp_close(struct device *d) { struct channel_data *chan = d->priv; int flags; sppp_close(d); d->tbusy = 1; cosa_disable_rx(chan); spin_lock_irqsave(&chan->cosa->lock, flags); if (chan->rx_skb) { kfree_skb(chan->rx_skb); chan->rx_skb = 0; } if (chan->tx_skb) { kfree_skb(chan->tx_skb); chan->tx_skb = 0; } chan->usage=0; chan->cosa->usage--; MOD_DEC_USE_COUNT; spin_unlock_irqrestore(&chan->cosa->lock, flags); return 0; } static char *sppp_setup_rx(struct channel_data *chan, int size) { /* * We can safely fall back to non-dma-able memory, because we have * the cosa->bouncebuf pre-allocated. */ if (chan->rx_skb) kfree_skb(chan->rx_skb); chan->rx_skb = dev_alloc_skb(size); if (chan->rx_skb == NULL) { printk(KERN_NOTICE "%s: Memory squeeze, dropping packet\n", chan->name); chan->stats.rx_dropped++; return NULL; } chan->pppdev.dev.trans_start = jiffies; return skb_put(chan->rx_skb, size); } static int sppp_rx_done(struct channel_data *chan) { if (!chan->rx_skb) { printk(KERN_WARNING "%s: rx_done with empty skb!\n", chan->name); chan->stats.rx_errors++; chan->stats.rx_frame_errors++; return 0; } chan->rx_skb->protocol = htons(ETH_P_WAN_PPP); chan->rx_skb->dev = &chan->pppdev.dev; chan->rx_skb->mac.raw = chan->rx_skb->data; chan->stats.rx_packets++; chan->stats.rx_bytes += chan->cosa->rxsize; netif_rx(chan->rx_skb); chan->rx_skb = 0; chan->pppdev.dev.trans_start = jiffies; return 0; } /* ARGSUSED */ static int sppp_tx_done(struct channel_data *chan, int size) { if (!chan->tx_skb) { printk(KERN_WARNING "%s: tx_done with empty skb!\n", chan->name); chan->stats.tx_errors++; chan->stats.tx_aborted_errors++; return 1; } dev_kfree_skb(chan->tx_skb); chan->tx_skb = 0; chan->stats.tx_packets++; chan->stats.tx_bytes += size; chan->pppdev.dev.tbusy = 0; mark_bh(NET_BH); return 1; } static struct net_device_stats *cosa_net_stats(struct device *dev) { struct channel_data *chan = dev->priv; return &chan->stats; } /*---------- Character device ---------- */ static void chardev_channel_init(struct channel_data *chan) { chan->rsem = MUTEX; chan->wsem = MUTEX; } static long long cosa_lseek(struct file * file, long long offset, int origin) { return -ESPIPE; } static ssize_t cosa_read(struct file *file, char *buf, size_t count, loff_t *ppos) { struct wait_queue wait = { current, NULL }; int flags; struct channel_data *chan = (struct channel_data *)file->private_data; struct cosa_data *cosa = chan->cosa; char *kbuf; if (down_interruptible(&chan->rsem)) return -ERESTARTSYS; if ((chan->rxdata = kmalloc(COSA_MTU, GFP_DMA|GFP_KERNEL)) == NULL) { printk(KERN_INFO "%s: cosa_read() - OOM\n", cosa->name); up(&chan->rsem); return -ENOMEM; } chan->rx_status = 0; cosa_enable_rx(chan); spin_lock_irqsave(&cosa->lock, flags); add_wait_queue(&chan->rxwaitq, &wait); while(!chan->rx_status) { current->state = TASK_INTERRUPTIBLE; spin_unlock_irqrestore(&cosa->lock, flags); schedule(); spin_lock_irqsave(&cosa->lock, flags); if (signal_pending(current) && chan->rx_status == 0) { chan->rx_status = 1; remove_wait_queue(&chan->rxwaitq, &wait); current->state = TASK_RUNNING; spin_unlock_irqrestore(&cosa->lock, flags); up(&chan->rsem); return -ERESTARTSYS; } } remove_wait_queue(&chan->rxwaitq, &wait); current->state = TASK_RUNNING; kbuf = chan->rxdata; count = chan->rxsize; spin_unlock_irqrestore(&cosa->lock, flags); up(&chan->rsem); if (copy_to_user(buf, kbuf, count)) { kfree(buf); return -EFAULT; } kfree(kbuf); return count; } static char *chrdev_setup_rx(struct channel_data *chan, int size) { /* Expect size <= COSA_MTU */ chan->rxsize = size; return chan->rxdata; } static int chrdev_rx_done(struct channel_data *chan) { if (chan->rx_status) { /* Reader has died */ kfree(chan->rxdata); up(&chan->wsem); } chan->rx_status = 1; wake_up_interruptible(&chan->rxwaitq); return 1; } static ssize_t cosa_write(struct file *file, const char *buf, size_t count, loff_t *ppos) { struct channel_data *chan = (struct channel_data *)file->private_data; struct wait_queue wait = { current, NULL }; struct cosa_data *cosa = chan->cosa; unsigned int flags; char *kbuf; if (down_interruptible(&chan->wsem)) return -ERESTARTSYS; if (count > COSA_MTU) count = COSA_MTU; /* Allocate the buffer */ if ((kbuf = kmalloc(count, GFP_KERNEL|GFP_DMA)) == NULL) { printk(KERN_NOTICE "%s: cosa_write() OOM - dropping packet\n", cosa->name); up(&chan->wsem); return -ENOMEM; } if (copy_from_user(kbuf, buf, count)) { up(&chan->wsem); kfree(kbuf); return -EFAULT; } chan->tx_status=0; cosa_start_tx(chan, kbuf, count); spin_lock_irqsave(&cosa->lock, flags); add_wait_queue(&chan->txwaitq, &wait); while(!chan->tx_status) { current->state = TASK_INTERRUPTIBLE; spin_unlock_irqrestore(&cosa->lock, flags); schedule(); spin_lock_irqsave(&cosa->lock, flags); if (signal_pending(current) && chan->tx_status == 0) { chan->tx_status = 1; remove_wait_queue(&chan->txwaitq, &wait); current->state = TASK_RUNNING; chan->tx_status = 1; spin_unlock_irqrestore(&cosa->lock, flags); return -ERESTARTSYS; } } remove_wait_queue(&chan->txwaitq, &wait); current->state = TASK_RUNNING; up(&chan->wsem); spin_unlock_irqrestore(&cosa->lock, flags); kfree(kbuf); return count; } static int chrdev_tx_done(struct channel_data *chan, int size) { if (chan->tx_status) { /* Writer was interrupted */ kfree(chan->txbuf); up(&chan->wsem); } chan->tx_status = 1; wake_up_interruptible(&chan->txwaitq); return 1; } static unsigned int cosa_poll(struct file *file, poll_table *poll) { printk(KERN_INFO "cosa_poll is here\n"); return 0; } static int cosa_open(struct inode *inode, struct file *file) { struct cosa_data *cosa; struct channel_data *chan; unsigned long flags; int n; if ((n=MINOR(file->f_dentry->d_inode->i_rdev)>>CARD_MINOR_BITS) >= nr_cards) return -ENODEV; cosa = cosa_cards+n; if ((n=MINOR(file->f_dentry->d_inode->i_rdev) & ((1<<CARD_MINOR_BITS)-1)) >= cosa->nchannels) return -ENODEV; chan = cosa->chan + n; file->private_data = chan; spin_lock_irqsave(&cosa->lock, flags); if (chan->usage < 0) { /* in netdev mode */ spin_unlock_irqrestore(&cosa->lock, flags); return -EBUSY; } cosa->usage++; chan->usage++; chan->tx_done = chrdev_tx_done; chan->setup_rx = chrdev_setup_rx; chan->rx_done = chrdev_rx_done; #ifdef MODULE MOD_INC_USE_COUNT; #endif spin_unlock_irqrestore(&cosa->lock, flags); return 0; } static int cosa_release(struct inode *inode, struct file *file) { struct channel_data *channel = (struct channel_data *)file->private_data; struct cosa_data *cosa = channel->cosa; unsigned long flags; spin_lock_irqsave(&cosa->lock, flags); cosa->usage--; channel->usage--; #ifdef MODULE MOD_DEC_USE_COUNT; #endif spin_unlock_irqrestore(&cosa->lock, flags); return 0; } #ifdef COSA_FASYNC_WORKING static struct fasync_struct *fasync[256] = { NULL, }; /* To be done ... */ static int cosa_fasync(struct inode *inode, struct file *file, int on) { int port = MINOR(inode->i_rdev); int rv = fasync_helper(inode, file, on, &fasync[port]); return rv < 0 ? rv : 0; } #endif /* ---------- Ioctls ---------- */ /* * Ioctl subroutines can safely be made inline, because they are called * only from cosa_ioctl(). */ static inline int cosa_reset(struct cosa_data *cosa) { char idstring[COSA_MAX_ID_STRING]; if (cosa->usage > 1) printk(KERN_INFO "cosa%d: WARNING: reset requested with cosa->usage > 1 (%d). Odd things may happen.\n", cosa->num, cosa->usage); if (cosa_reset_and_read_id(cosa, idstring) < 0) { printk(KERN_NOTICE "cosa%d: reset failed\n", cosa->num); return -EIO; } printk(KERN_INFO "cosa%d: resetting device: %s\n", cosa->num, idstring); return 0; } /* High-level function to download data into COSA memory. Calls download() */ static inline int cosa_download(struct cosa_data *cosa, struct cosa_download *d) { int i; int addr, len; char *code; if (cosa->usage > 1) printk(KERN_INFO "cosa%d: WARNING: download of microcode requested with cosa->usage > 1 (%d). Odd things may happen.\n", cosa->num, cosa->usage); #if 0 if (cosa->status != CARD_STATUS_RESETED && cosa->status != CARD_STATUS_DOWNLOADED) { printk(KERN_NOTICE "cosa%d: reset the card first (status %d).\n", cosa->num, cosa->status); return -EPERM; } #endif get_user_ret(addr, &(d->addr), -EFAULT); get_user_ret(len, &(d->len), -EFAULT); get_user_ret(code, &(d->code), -EFAULT); if (d->addr < 0 || d->addr > COSA_MAX_FIRMWARE_SIZE) return -EINVAL; if (d->len < 0 || d->len > COSA_MAX_FIRMWARE_SIZE) return -EINVAL; if ((i=download(cosa, d->code, len, addr)) < 0) { printk(KERN_NOTICE "cosa%d: microcode download failed: %d\n", cosa->num, i); return -EIO; } printk(KERN_INFO "cosa%d: downloading microcode - 0x%04x bytes at 0x%04x\n", cosa->num, len, addr); return 0; } /* High-level function to read COSA memory. Calls readmem() */ static inline int cosa_readmem(struct cosa_data *cosa, struct cosa_download *d) { int i; int addr, len; char *code; if (cosa->usage > 1) printk(KERN_INFO "cosa%d: WARNING: readmem requested with " "cosa->usage > 1 (%d). Odd things may happen.\n", cosa->num, cosa->usage); #if 0 if (cosa->status != CARD_STATUS_RESETED && cosa->status != CARD_STATUS_DOWNLOADED) { printk(KERN_NOTICE "cosa%d: reset the card first (status %d).\n", cosa->num, cosa->status); return -EPERM; } #endif get_user_ret(addr, &(d->addr), -EFAULT); get_user_ret(len, &(d->len), -EFAULT); get_user_ret(code, &(d->code), -EFAULT); if ((i=readmem(cosa, d->code, len, addr)) < 0) { printk(KERN_NOTICE "cosa%d: reading memory failed: %d\n", cosa->num, i); return -EIO; } printk(KERN_INFO "cosa%d: reading card memory - 0x%04x bytes at 0x%04x\n", cosa->num, len, addr); return 0; } /* High-level function to start microcode. Calls startmicrocode(). */ static inline int cosa_start(struct cosa_data *cosa, int address) { int i; if (cosa->usage > 1) printk(KERN_INFO "cosa%d: WARNING: start microcode requested with cosa->usage > 1 (%d). Odd things may happen.\n", cosa->num, cosa->usage); #if 0 if (cosa->status != CARD_STATUS_DOWNLOADED) { printk(KERN_NOTICE "cosa%d: download the microcode first (status %d).\n", cosa->num, cosa->status); return -EPERM; } #endif if ((i=startmicrocode(cosa, address)) < 0) { printk(KERN_NOTICE "cosa%d: start microcode at 0x%04x failed: %d\n", cosa->num, address, i); return -EIO; } printk(KERN_INFO "cosa%d: starting microcode at 0x%04x\n", cosa->num, address); cosa->startaddr = address; return 0; } /* Buffer of size at least COSA_MAX_ID_STRING is expected */ static inline int cosa_getidstr(struct cosa_data *cosa, char *string) { int l = strlen(cosa->id_string)+1; copy_to_user_ret(string, cosa->id_string, l, -EFAULT); return l; } /* Buffer of size at least COSA_MAX_ID_STRING is expected */ static inline int cosa_gettype(struct cosa_data *cosa, char *string) { int l = strlen(cosa->type)+1; copy_to_user_ret(string, cosa->type, l, -EFAULT); return l; } static int cosa_ioctl_common(struct cosa_data *cosa, struct channel_data *channel, unsigned int cmd, unsigned long arg) { switch(cmd) { case COSAIORSET: /* Reset the device */ if (!suser()) return -EACCES; return cosa_reset(cosa); case COSAIOSTRT: /* Start the firmware */ if (!suser()) return -EACCES; return cosa_start(cosa, arg); case COSAIODOWNLD: /* Download the firmware */ if (!suser()) return -EACCES; return cosa_download(cosa, (struct cosa_download *)arg); case COSAIORMEM: if (!suser()) return -EACCES; return cosa_readmem(cosa, (struct cosa_download *)arg); case COSAIORTYPE: return cosa_gettype(cosa, (char *)arg); case COSAIORIDSTR: return cosa_getidstr(cosa, (char *)arg); /* * These two are _very_ugly_hack_(tm). Don't even look at this. * Implementing this saved me few reboots after some process segfaulted * inside this module. */ #ifdef MODULE #if 0 case COSAIOMINC: MOD_INC_USE_COUNT; return 0; case COSAIOMDEC: MOD_DEC_USE_COUNT; return 0; #endif #endif case COSAIONRCARDS: return nr_cards; case COSAIONRCHANS: return cosa->nchannels; case COSAIOBMSET: if (!suser()) return -EACCES; if (is_8bit(cosa)) return -EINVAL; if (arg != COSA_BM_OFF && arg != COSA_BM_ON) return -EINVAL; cosa->busmaster = arg; return 0; case COSAIOBMGET: return cosa->busmaster; } return -ENOIOCTLCMD; } static int cosa_sppp_ioctl(struct device *dev, struct ifreq *ifr, int cmd) { int rv; struct channel_data *chan = (struct channel_data *)dev->priv; rv = cosa_ioctl_common(chan->cosa, chan, cmd, (int)ifr->ifr_data); if (rv == -ENOIOCTLCMD) { return sppp_do_ioctl(dev, ifr, cmd); } return rv; } static int cosa_chardev_ioctl(struct inode *inode, struct file *file, unsigned int cmd, unsigned long arg) { struct channel_data *channel = (struct channel_data *)file->private_data; struct cosa_data *cosa = channel->cosa; return cosa_ioctl_common(cosa, channel, cmd, arg); } /*---------- HW layer interface ---------- */ /* * The higher layer can bind itself to the HW layer by setting the callbacks * in the channel_data structure and by using these routines. */ static void cosa_enable_rx(struct channel_data *chan) { struct cosa_data *cosa = chan->cosa; if (!test_and_set_bit(chan->num, &cosa->rxbitmap)) put_driver_status(cosa); } static void cosa_disable_rx(struct channel_data *chan) { struct cosa_data *cosa = chan->cosa; if (test_and_clear_bit(chan->num, &cosa->rxbitmap)) put_driver_status(cosa); } /* * FIXME: This routine probably should check for cosa_start_tx() called when * the previous transmit is still unfinished. In this case the non-zero * return value should indicate to the caller that the queuing(sp?) up * the transmit has failed. */ static int cosa_start_tx(struct channel_data *chan, char *buf, int len) { struct cosa_data *cosa = chan->cosa; int flags; #ifdef DEBUG_DATA int i; printk(KERN_INFO "cosa%dc%d: starting tx(0x%x)", chan->cosa->num, chan->num, len); for (i=0; i<len; i++) printk(" %02x", buf[i]&0xff); printk("\n"); #endif spin_lock_irqsave(&cosa->lock, flags); chan->txbuf = buf; chan->txsize = len; if (len > COSA_MTU) chan->txsize = COSA_MTU; spin_unlock_irqrestore(&cosa->lock, flags); /* Tell the firmware we are ready */ set_bit(chan->num, &cosa->txbitmap); put_driver_status(cosa); return 0; } static void put_driver_status(struct cosa_data *cosa) { unsigned flags=0; int status; spin_lock_irqsave(&cosa->lock, flags); status = (cosa->rxbitmap ? DRIVER_RX_READY : 0) | (cosa->txbitmap ? DRIVER_TX_READY : 0) | (cosa->txbitmap? ~(cosa->txbitmap<<DRIVER_TXMAP_SHIFT) &DRIVER_TXMAP_MASK : 0); if (!cosa->rxtx) { if (cosa->rxbitmap|cosa->txbitmap) { if (!cosa->enabled) { cosa_putstatus(cosa, SR_RX_INT_ENA); #ifdef DEBUG_IO debug_status_out(cosa, SR_RX_INT_ENA); #endif cosa->enabled = 1; } } else if (cosa->enabled) { cosa->enabled = 0; cosa_putstatus(cosa, 0); #ifdef DEBUG_IO debug_status_out(cosa, 0); #endif } cosa_putdata8(cosa, status); #ifdef DEBUG_IO debug_data_cmd(cosa, status); #endif } spin_unlock_irqrestore(&cosa->lock, flags); } static void put_driver_status_nolock(struct cosa_data *cosa) { int status; status = (cosa->rxbitmap ? DRIVER_RX_READY : 0) | (cosa->txbitmap ? DRIVER_TX_READY : 0) | (cosa->txbitmap? ~(cosa->txbitmap<<DRIVER_TXMAP_SHIFT) &DRIVER_TXMAP_MASK : 0); if (cosa->rxbitmap|cosa->txbitmap) { cosa_putstatus(cosa, SR_RX_INT_ENA); #ifdef DEBUG_IO debug_status_out(cosa, SR_RX_INT_ENA); #endif cosa->enabled = 1; } else { cosa_putstatus(cosa, 0); #ifdef DEBUG_IO debug_status_out(cosa, 0); #endif cosa->enabled = 0; } cosa_putdata8(cosa, status); #ifdef DEBUG_IO debug_data_cmd(cosa, status); #endif } /* * The "kickme" function: When the DMA times out, this is called to * clean up the driver status. * FIXME: Preliminary support, the interface is probably wrong. */ static void cosa_kick(struct cosa_data *cosa) { unsigned flags, flags1; char *s = "Unknown"; if (test_bit(RXBIT, &cosa->rxtx)) s = "RX"; if (test_bit(TXBIT, &cosa->rxtx)) s = "TX"; printk(KERN_INFO "%s: %s DMA timeout - restarting.\n", cosa->name, s); spin_lock_irqsave(&cosa->lock, flags); cosa->rxtx = 0; flags1 = claim_dma_lock(); disable_dma(cosa->dma); clear_dma_ff(cosa->dma); release_dma_lock(flags1); /* FIXME: Anything else? */ udelay(100); cosa_putstatus(cosa, 0); udelay(100); (void) cosa_getdata8(cosa); udelay(100); cosa_putdata8(cosa, 0); udelay(100); put_driver_status_nolock(cosa); spin_unlock_irqrestore(&cosa->lock, flags); } /* * Check if the whole buffer is DMA-able. It means it is below the 16M of * physical memory and doesn't span the 64k boundary. For now it seems * SKB's never do this, but we'll check this anyway. */ static int cosa_dma_able(struct channel_data *chan, char *buf, int len) { static int count = 0; unsigned long b = (unsigned long)buf; if (b+len >= MAX_DMA_ADDRESS) return 0; if ((b^ (b+len)) & 0x10000) { if (count++ < 5) printk(KERN_INFO "%s: packet spanning a 64k boundary\n", chan->name); return 0; } return 1; } /* ---------- The SRP/COSA ROM monitor functions ---------- */ /* * Downloading SRP microcode: say "w" to SRP monitor, it answers by "w=", * drivers need to say 4-digit hex number meaning start address of the microcode * separated by a single space. Monitor replies by saying " =". Now driver * has to write 4-digit hex number meaning the last byte address ended * by a single space. Monitor has to reply with a space. Now the download * begins. After the download monitor replies with "\r\n." (CR LF dot). */ static int download(struct cosa_data *cosa, char *microcode, int length, int address) { int i; if (put_wait_data(cosa, 'w') == -1) return -1; if ((i=get_wait_data(cosa)) != 'w') { printk("dnld: 0x%04x\n",i); return -2;} if (get_wait_data(cosa) != '=') return -3; if (puthexnumber(cosa, address) < 0) return -4; if (put_wait_data(cosa, ' ') == -1) return -10; if (get_wait_data(cosa) != ' ') return -11; if (get_wait_data(cosa) != '=') return -12; if (puthexnumber(cosa, address+length-1) < 0) return -13; if (put_wait_data(cosa, ' ') == -1) return -18; if (get_wait_data(cosa) != ' ') return -19; while (length--) { char c; #ifndef SRP_DOWNLOAD_AT_BOOT get_user_ret(c,microcode, -23); #else c = *microcode; #endif if (put_wait_data(cosa, c) == -1) return -20; microcode++; } if (get_wait_data(cosa) != '\r') return -21; if (get_wait_data(cosa) != '\n') return -22; if (get_wait_data(cosa) != '.') return -23; #if 0 printk(KERN_DEBUG "cosa%d: download completed.\n", cosa->num); #endif return 0; } /* * Starting microcode is done via the "g" command of the SRP monitor. * The chat should be the following: "g" "g=" "<addr><CR>" * "<CR><CR><LF><CR><LF>". */ static int startmicrocode(struct cosa_data *cosa, int address) { if (put_wait_data(cosa, 'g') == -1) return -1; if (get_wait_data(cosa) != 'g') return -2; if (get_wait_data(cosa) != '=') return -3; if (puthexnumber(cosa, address) < 0) return -4; if (put_wait_data(cosa, '\r') == -1) return -5; if (get_wait_data(cosa) != '\r') return -6; if (get_wait_data(cosa) != '\r') return -7; if (get_wait_data(cosa) != '\n') return -8; if (get_wait_data(cosa) != '\r') return -9; if (get_wait_data(cosa) != '\n') return -10; #if 0 printk(KERN_DEBUG "cosa%d: microcode started\n", cosa->num); #endif return 0; } /* * Reading memory is done via the "r" command of the SRP monitor. * The chat is the following "r" "r=" "<addr> " " =" "<last_byte> " " " * Then driver can read the data and the conversation is finished * by SRP monitor sending "<CR><LF>." (dot at the end). * * This routine is not needed during the normal operation and serves * for debugging purposes only. */ static int readmem(struct cosa_data *cosa, char *microcode, int length, int address) { if (put_wait_data(cosa, 'r') == -1) return -1; if ((get_wait_data(cosa)) != 'r') return -2; if ((get_wait_data(cosa)) != '=') return -3; if (puthexnumber(cosa, address) < 0) return -4; if (put_wait_data(cosa, ' ') == -1) return -5; if (get_wait_data(cosa) != ' ') return -6; if (get_wait_data(cosa) != '=') return -7; if (puthexnumber(cosa, address+length-1) < 0) return -8; if (put_wait_data(cosa, ' ') == -1) return -9; if (get_wait_data(cosa) != ' ') return -10; while (length--) { char c; int i; if ((i=get_wait_data(cosa)) == -1) { printk (KERN_INFO "cosa: 0x%04x bytes remaining\n", length); return -11; } c=i; #if 1 put_user_ret(c,microcode, -23); #else *microcode = c; #endif microcode++; } if (get_wait_data(cosa) != '\r') return -21; if (get_wait_data(cosa) != '\n') return -22; if (get_wait_data(cosa) != '.') return -23; #if 0 printk(KERN_DEBUG "cosa%d: readmem completed.\n", cosa->num); #endif return 0; } /* * This function resets the device and reads the initial prompt * of the device's ROM monitor. */ static int cosa_reset_and_read_id(struct cosa_data *cosa, char *idstring) { int i=0, id=0, prev=0, curr=0; /* Reset the card ... */ cosa_putstatus(cosa, 0); cosa_getdata8(cosa); cosa_putstatus(cosa, SR_RST); #ifdef MODULE current->state = TASK_INTERRUPTIBLE; schedule_timeout(HZ/2); current->state = TASK_RUNNING; #else udelay(5*100000); #endif /* Disable all IRQs from the card */ cosa_putstatus(cosa, 0); /* * Try to read the ID string. The card then prints out the * identification string ended by the "\n\x2e". * * The following loop is indexed through i (instead of id) * to avoid looping forever when for any reason * the port returns '\r', '\n' or '\x2e' permanently. */ for (i=0; i<COSA_MAX_ID_STRING-1; i++, prev=curr) { if ((curr = get_wait_data(cosa)) == -1) { return -1; } curr &= 0xff; if (curr != '\r' && curr != '\n' && curr != 0x2e) idstring[id++] = curr; if (curr == 0x2e && prev == '\n') break; } /* Perhaps we should fail when i==COSA_MAX_ID_STRING-1 ? */ idstring[id] = '\0'; return id; } /* ---------- Auxiliary routines for COSA/SRP monitor ---------- */ /* * This routine gets the data byte from the card waiting for the SR_RX_RDY * bit to be set in a loop. It should be used in the exceptional cases * only (for example when resetting the card or downloading the firmware. */ static int get_wait_data(struct cosa_data *cosa) { int retries = 1000; while (--retries) { /* read data and return them */ if (cosa_getstatus(cosa) & SR_RX_RDY) { short r; r = cosa_getdata8(cosa); #if 0 printk(KERN_INFO "cosa: get_wait_data returning after %d retries\n", 999-retries); #endif return r; } /* sleep if not ready to read */ current->state = TASK_INTERRUPTIBLE; schedule_timeout(1); current->state = TASK_RUNNING; } printk(KERN_INFO "cosa: timeout in get_wait_data (status 0x%x)\n", cosa_getstatus(cosa)); return -1; } /* * This routine puts the data byte to the card waiting for the SR_TX_RDY * bit to be set in a loop. It should be used in the exceptional cases * only (for example when resetting the card or downloading the firmware). */ static int put_wait_data(struct cosa_data *cosa, int data) { int retries = 1000; while (--retries) { /* read data and return them */ if (cosa_getstatus(cosa) & SR_TX_RDY) { cosa_putdata8(cosa, data); #if 0 printk(KERN_INFO "Putdata: %d retries\n", 999-retries); #endif return 0; } #if 0 /* sleep if not ready to read */ current->state = TASK_INTERRUPTIBLE; schedule_timeout(1); current->state = TASK_RUNNING; #endif } printk(KERN_INFO "cosa%d: timeout in put_wait_data (status 0x%x)\n", cosa->num, cosa_getstatus(cosa)); return -1; } /* * The following routine puts the hexadecimal number into the SRP monitor * and verifies the proper echo of the sent bytes. Returns 0 on success, * negative number on failure (-1,-3,-5,-7) means that put_wait_data() failed, * (-2,-4,-6,-8) means that reading echo failed. */ static int puthexnumber(struct cosa_data *cosa, int number) { char temp[5]; int i; /* Well, I should probably replace this by something faster. */ sprintf(temp, "%04X", number); for (i=0; i<4; i++) { if (put_wait_data(cosa, temp[i]) == -1) { printk(KERN_NOTICE "cosa%d: puthexnumber failed to write byte %d\n", cosa->num, i); return -1-2*i; } if (get_wait_data(cosa) != temp[i]) { printk(KERN_NOTICE "cosa%d: puthexhumber failed to read echo of byte %d\n", cosa->num, i); return -2-2*i; } } return 0; } /* ---------- Interrupt routines ---------- */ /* * There are three types of interrupt: * At the beginning of transmit - this handled is in tx_interrupt(), * at the beginning of receive - it is in rx_interrupt() and * at the end of transmit/receive - it is the eot_interrupt() function. * These functions are multiplexed by cosa_interrupt() according to the * COSA status byte. I have moved the rx/tx/eot interrupt handling into * separate functions to make it more readable. These functions are inline, * so there should be no overhead of function call. * * In the COSA bus-master mode, we need to tell the card the address of a * buffer. Unfortunately, COSA may be too slow for us, so we must busy-wait. * It's time to use the bottom half :-( */ /* * Transmit interrupt routine - called when COSA is willing to obtain * data from the OS. The most tricky part of the routine is selection * of channel we (OS) want to send packet for. For SRP we should probably * use the round-robin approach. The newer COSA firmwares have a simple * flow-control - in the status word has bits 2 and 3 set to 1 means that the * channel 0 or 1 doesn't want to receive data. */ static inline void tx_interrupt(struct cosa_data *cosa, int status) { unsigned long flags, flags1; #ifdef DEBUG_IRQS printk(KERN_INFO "cosa%d: SR_DOWN_REQUEST status=0x%04x\n", cosa->num, status); #endif spin_lock_irqsave(&cosa->lock, flags); set_bit(TXBIT, &cosa->rxtx); if (!test_bit(IRQBIT, &cosa->rxtx)) { /* flow control */ int i=0; do { if (i++ > cosa->nchannels) { printk(KERN_WARNING "%s: No channel wants data in TX IRQ\n", cosa->name); clear_bit(TXBIT, &cosa->rxtx); spin_unlock_irqrestore(&cosa->lock, flags); return; } cosa->txchan++; if (cosa->txchan >= cosa->nchannels) cosa->txchan = 0; } while ((!(cosa->txbitmap & (1<<cosa->txchan))) || status & (1<<(cosa->txchan+DRIVER_TXMAP_SHIFT))); cosa->txsize = cosa->chan[cosa->txchan].txsize; if (cosa_dma_able(cosa->chan+cosa->txchan, cosa->chan[cosa->txchan].txbuf, cosa->txsize)) { cosa->txbuf = cosa->chan[cosa->txchan].txbuf; } else { memcpy(cosa->bouncebuf, cosa->chan[cosa->txchan].txbuf, cosa->txsize); cosa->txbuf = cosa->bouncebuf; } } if (is_8bit(cosa)) { if (!test_bit(IRQBIT, &cosa->rxtx)) { cosa_putstatus(cosa, SR_TX_INT_ENA); cosa_putdata8(cosa, ((cosa->txchan << 5) & 0xe0)| ((cosa->txsize >> 8) & 0x1f)); #ifdef DEBUG_IO debug_status_out(cosa, SR_TX_INT_ENA); debug_data_out(cosa, ((cosa->txchan << 5) & 0xe0)| ((cosa->txsize >> 8) & 0x1f)); debug_data_in(cosa, cosa_getdata8(cosa)); #else cosa_getdata8(cosa); #endif set_bit(IRQBIT, &cosa->rxtx); spin_unlock_irqrestore(&cosa->lock, flags); return; } else { clear_bit(IRQBIT, &cosa->rxtx); cosa_putstatus(cosa, 0); cosa_putdata8(cosa, cosa->txsize&0xff); #ifdef DEBUG_IO debug_status_out(cosa, 0); debug_data_out(cosa, cosa->txsize&0xff); #endif } } else { cosa_putstatus(cosa, SR_TX_INT_ENA); cosa_putdata16(cosa, ((cosa->txchan<<13) & 0xe000) | (cosa->txsize & 0x1fff)); #ifdef DEBUG_IO debug_status_out(cosa, SR_TX_INT_ENA); debug_data_out(cosa, ((cosa->txchan<<13) & 0xe000) | (cosa->txsize & 0x1fff)); debug_data_in(cosa, cosa_getdata8(cosa)); debug_status_out(cosa, 0); #else cosa_getdata8(cosa); #endif cosa_putstatus(cosa, 0); } if (cosa->busmaster) { unsigned long addr = virt_to_bus(cosa->txbuf); int count=0; printk(KERN_INFO "busmaster IRQ\n"); while (!(cosa_getstatus(cosa)&SR_TX_RDY)) { count++; udelay(10); if (count > 1000) break; } printk(KERN_INFO "status %x\n", cosa_getstatus(cosa)); printk(KERN_INFO "ready after %d loops\n", count); cosa_putdata16(cosa, (addr >> 16)&0xffff); count = 0; while (!(cosa_getstatus(cosa)&SR_TX_RDY)) { count++; if (count > 1000) break; udelay(10); } printk(KERN_INFO "ready after %d loops\n", count); cosa_putdata16(cosa, addr &0xffff); flags1 = claim_dma_lock(); set_dma_mode(cosa->dma, DMA_MODE_CASCADE); enable_dma(cosa->dma); release_dma_lock(flags1); } else { /* start the DMA */ flags1 = claim_dma_lock(); disable_dma(cosa->dma); clear_dma_ff(cosa->dma); set_dma_mode(cosa->dma, DMA_MODE_WRITE); set_dma_addr(cosa->dma, virt_to_bus(cosa->txbuf)); set_dma_count(cosa->dma, cosa->txsize); enable_dma(cosa->dma); release_dma_lock(flags1); } cosa_putstatus(cosa, SR_TX_DMA_ENA|SR_USR_INT_ENA); #ifdef DEBUG_IO debug_status_out(cosa, SR_TX_DMA_ENA|SR_USR_INT_ENA); #endif spin_unlock_irqrestore(&cosa->lock, flags); } static inline void rx_interrupt(struct cosa_data *cosa, int status) { unsigned long flags; #ifdef DEBUG_IRQS printk(KERN_INFO "cosa%d: SR_UP_REQUEST\n", cosa->num); #endif spin_lock_irqsave(&cosa->lock, flags); set_bit(RXBIT, &cosa->rxtx); if (is_8bit(cosa)) { if (!test_bit(IRQBIT, &cosa->rxtx)) { set_bit(IRQBIT, &cosa->rxtx); cosa->rxsize = cosa_getdata8(cosa) <<8; #ifdef DEBUG_IO debug_data_in(cosa, cosa->rxsize >> 8); #endif spin_unlock_irqrestore(&cosa->lock, flags); return; } else { clear_bit(IRQBIT, &cosa->rxtx); cosa->rxsize |= cosa_getdata8(cosa) & 0xff; #ifdef DEBUG_IO debug_data_in(cosa, cosa->rxsize & 0xff); #endif #if 0 printk(KERN_INFO "cosa%d: receive rxsize = (0x%04x).\n", cosa->num, cosa->rxsize); #endif } } else { cosa->rxsize = cosa_getdata16(cosa); #ifdef DEBUG_IO debug_data_in(cosa, cosa->rxsize); #endif #if 0 printk(KERN_INFO "cosa%d: receive rxsize = (0x%04x).\n", cosa->num, cosa->rxsize); #endif } if (((cosa->rxsize & 0xe000) >> 13) >= cosa->nchannels) { printk(KERN_WARNING "%s: rx for unknown channel (0x%04x)\n", cosa->name, cosa->rxsize); spin_unlock_irqrestore(&cosa->lock, flags); goto reject; } cosa->rxchan = cosa->chan + ((cosa->rxsize & 0xe000) >> 13); cosa->rxsize &= 0x1fff; spin_unlock_irqrestore(&cosa->lock, flags); cosa->rxbuf = NULL; if (cosa->rxchan->setup_rx) cosa->rxbuf = cosa->rxchan->setup_rx(cosa->rxchan, cosa->rxsize); if (!cosa->rxbuf) { reject: /* Reject the packet */ printk(KERN_INFO "cosa%d: rejecting packet on channel %d\n", cosa->num, cosa->rxchan->num); cosa->rxbuf = cosa->bouncebuf; } /* start the DMA */ flags = claim_dma_lock(); disable_dma(cosa->dma); clear_dma_ff(cosa->dma); set_dma_mode(cosa->dma, DMA_MODE_READ); if (cosa_dma_able(cosa->rxchan, cosa->rxbuf, cosa->rxsize & 0x1fff)) { set_dma_addr(cosa->dma, virt_to_bus(cosa->rxbuf)); } else { set_dma_addr(cosa->dma, virt_to_bus(cosa->bouncebuf)); } set_dma_count(cosa->dma, (cosa->rxsize&0x1fff)); enable_dma(cosa->dma); release_dma_lock(flags); spin_lock_irqsave(&cosa->lock, flags); cosa_putstatus(cosa, SR_RX_DMA_ENA|SR_USR_INT_ENA); if (!is_8bit(cosa) && (status & SR_TX_RDY)) cosa_putdata8(cosa, DRIVER_RX_READY); #ifdef DEBUG_IO debug_status_out(cosa, SR_RX_DMA_ENA|SR_USR_INT_ENA); if (!is_8bit(cosa) && (status & SR_TX_RDY)) debug_data_cmd(cosa, DRIVER_RX_READY); #endif spin_unlock_irqrestore(&cosa->lock, flags); } static void inline eot_interrupt(struct cosa_data *cosa, int status) { unsigned long flags, flags1; spin_lock_irqsave(&cosa->lock, flags); flags1 = claim_dma_lock(); disable_dma(cosa->dma); clear_dma_ff(cosa->dma); release_dma_lock(flags1); if (test_bit(TXBIT, &cosa->rxtx)) { struct channel_data *chan = cosa->chan+cosa->txchan; if (chan->tx_done) if (chan->tx_done(chan, cosa->txsize)) clear_bit(chan->num, &cosa->txbitmap); } else if (test_bit(RXBIT, &cosa->rxtx)) { #ifdef DEBUG_DATA { int i; printk(KERN_INFO "cosa%dc%d: done rx(0x%x)", cosa->num, cosa->rxchan->num, cosa->rxsize); for (i=0; i<cosa->rxsize; i++) printk (" %02x", cosa->rxbuf[i]&0xff); printk("\n"); } #endif /* Packet for unknown channel? */ if (cosa->rxbuf == cosa->bouncebuf) goto out; if (!cosa_dma_able(cosa->rxchan, cosa->rxbuf, cosa->rxsize)) memcpy(cosa->rxbuf, cosa->bouncebuf, cosa->rxsize); if (cosa->rxchan->rx_done) if (cosa->rxchan->rx_done(cosa->rxchan)) clear_bit(cosa->rxchan->num, &cosa->rxbitmap); } else { printk(KERN_NOTICE "cosa%d: unexpected EOT interrupt\n", cosa->num); } /* * Clear the RXBIT, TXBIT and IRQBIT (the latest should be * cleared anyway). We should do it as soon as possible * so that we can tell the COSA we are done and to give it a time * for recovery. */ out: cosa->rxtx = 0; put_driver_status_nolock(cosa); spin_unlock_irqrestore(&cosa->lock, flags); } static void cosa_interrupt(int irq, void *cosa_, struct pt_regs *regs) { unsigned status; int count = 0; struct cosa_data *cosa = cosa_; again: status = cosa_getstatus(cosa); #ifdef DEBUG_IRQS printk(KERN_INFO "cosa%d: got IRQ, status 0x%02x\n", cosa->num, status & 0xff); #endif #ifdef DEBUG_IO debug_status_in(cosa, status); #endif switch (status & SR_CMD_FROM_SRP_MASK) { case SR_DOWN_REQUEST: tx_interrupt(cosa, status); break; case SR_UP_REQUEST: rx_interrupt(cosa, status); break; case SR_END_OF_TRANSFER: eot_interrupt(cosa, status); break; default: /* We may be too fast for SRP. Try to wait a bit more. */ if (count++ < 100) { udelay(100); goto again; } printk(KERN_INFO "cosa%d: unknown status 0x%02x in IRQ after %d retries\n", cosa->num, status & 0xff, count); } #ifdef DEBUG_IRQS if (count) printk(KERN_INFO "%s: %d-times got unknown status in IRQ\n", cosa->name, count); else printk(KERN_INFO "%s: returning from IRQ\n", cosa->name); #endif } /* ---------- I/O debugging routines ---------- */ /* * These routines can be used to monitor COSA/SRP I/O and to printk() * the data being transfered on the data and status I/O port in a * readable way. */ #ifdef DEBUG_IO static void debug_status_in(struct cosa_data *cosa, int status) { char *s; switch(status & SR_CMD_FROM_SRP_MASK) { case SR_UP_REQUEST: s = "RX_REQ"; break; case SR_DOWN_REQUEST: s = "TX_REQ"; break; case SR_END_OF_TRANSFER: s = "ET_REQ"; break; default: s = "NO_REQ"; break; } printk(KERN_INFO "%s: IO: status -> 0x%02x (%s%s%s%s)\n", cosa->name, status, status & SR_USR_RQ ? "USR_RQ|":"", status & SR_TX_RDY ? "TX_RDY|":"", status & SR_RX_RDY ? "RX_RDY|":"", s); } static void debug_status_out(struct cosa_data *cosa, int status) { printk(KERN_INFO "%s: IO: status <- 0x%02x (%s%s%s%s%s%s)\n", cosa->name, status, status & SR_RX_DMA_ENA ? "RXDMA|":"!rxdma|", status & SR_TX_DMA_ENA ? "TXDMA|":"!txdma|", status & SR_RST ? "RESET|":"", status & SR_USR_INT_ENA ? "USRINT|":"!usrint|", status & SR_TX_INT_ENA ? "TXINT|":"!txint|", status & SR_RX_INT_ENA ? "RXINT":"!rxint"); } static void debug_data_in(struct cosa_data *cosa, int data) { printk(KERN_INFO "%s: IO: data -> 0x%04x\n", cosa->name, data); } static void debug_data_out(struct cosa_data *cosa, int data) { printk(KERN_INFO "%s: IO: data <- 0x%04x\n", cosa->name, data); } static void debug_data_cmd(struct cosa_data *cosa, int data) { printk(KERN_INFO "%s: IO: data <- 0x%04x (%s|%s)\n", cosa->name, data, data & SR_RDY_RCV ? "RX_RDY" : "!rx_rdy", data & SR_RDY_SND ? "TX_RDY" : "!tx_rdy"); } #endif /* EOF -- this file has not been truncated */ |