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1622 1623 1624 1625 1626 1627 1628 1629 1630 1631 1632 1633 1634 1635 1636 1637 1638 1639 1640 1641 1642 1643 1644 1645 1646 1647 1648 1649 1650 1651 1652 1653 1654 1655 1656 1657 1658 1659 1660 1661 1662 1663 1664 1665 1666 1667 1668 1669 1670 1671 1672 1673 1674 1675 1676 1677 1678 1679 1680 1681 1682 1683 1684 1685 1686 1687 1688 1689 1690 1691 1692 1693 1694 1695 1696 | /* * SDLA An implementation of a driver for the Sangoma S502/S508 series * multi-protocol PC interface card. Initial offering is with * the DLCI driver, providing Frame Relay support for linux. * * Global definitions for the Frame relay interface. * * Version: @(#)sdla.c 0.30 12 Sep 1996 * * Credits: Sangoma Technologies, for the use of 2 cards for an extended * period of time. * David Mandelstam <dm@sangoma.com> for getting me started on * this project, and incentive to complete it. * Gene Kozen <74604.152@compuserve.com> for providing me with * important information about the cards. * * Author: Mike McLagan <mike.mclagan@linux.org> * * Changes: * 0.15 Mike McLagan Improved error handling, packet dropping * 0.20 Mike McLagan New transmit/receive flags for config * If in FR mode, don't accept packets from * non DLCI devices. * 0.25 Mike McLagan Fixed problem with rejecting packets * from non DLCI devices. * 0.30 Mike McLagan Fixed kernel panic when used with modified * ifconfig * * 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. */ #include <linux/config.h> /* for CONFIG_DLCI_MAX */ #include <linux/module.h> #include <linux/kernel.h> #include <linux/sched.h> #include <linux/types.h> #include <linux/fcntl.h> #include <linux/interrupt.h> #include <linux/ptrace.h> #include <linux/ioport.h> #include <linux/in.h> #include <linux/malloc.h> #include <linux/string.h> #include <linux/timer.h> #include <linux/errno.h> #include <linux/init.h> #include <asm/system.h> #include <asm/bitops.h> #include <asm/io.h> #include <asm/dma.h> #include <asm/uaccess.h> #include <linux/netdevice.h> #include <linux/skbuff.h> #include <linux/if_arp.h> #include <linux/if_frad.h> #include <linux/sdla.h> static const char* version = "SDLA driver v0.30, 12 Sep 1996, mike.mclagan@linux.org"; static const char* devname = "sdla"; static unsigned int valid_port[] __initdata = { 0x250, 0x270, 0x280, 0x300, 0x350, 0x360, 0x380, 0x390}; static unsigned int valid_mem[] __initdata = { 0xA0000, 0xA2000, 0xA4000, 0xA6000, 0xA8000, 0xAA000, 0xAC000, 0xAE000, 0xB0000, 0xB2000, 0xB4000, 0xB6000, 0xB8000, 0xBA000, 0xBC000, 0xBE000, 0xC0000, 0xC2000, 0xC4000, 0xC6000, 0xC8000, 0xCA000, 0xCC000, 0xCE000, 0xD0000, 0xD2000, 0xD4000, 0xD6000, 0xD8000, 0xDA000, 0xDC000, 0xDE000, 0xE0000, 0xE2000, 0xE4000, 0xE6000, 0xE8000, 0xEA000, 0xEC000, 0xEE000}; /********************************************************* * * these are the core routines that access the card itself * *********************************************************/ #define SDLA_WINDOW(dev,addr) outb((((addr) >> 13) & 0x1F), (dev)->base_addr + SDLA_REG_Z80_WINDOW) static void sdla_read(struct device *dev, int addr, void *buf, short len) { unsigned long flags; char *temp, *base; int offset, bytes; temp = buf; while(len) { offset = addr & SDLA_ADDR_MASK; bytes = offset + len > SDLA_WINDOW_SIZE ? SDLA_WINDOW_SIZE - offset : len; base = (void *) (dev->mem_start + offset); save_flags(flags); cli(); SDLA_WINDOW(dev, addr); memcpy(temp, base, bytes); restore_flags(flags); addr += bytes; temp += bytes; len -= bytes; } } static void sdla_write(struct device *dev, int addr, void *buf, short len) { unsigned long flags; char *temp, *base; int offset, bytes; temp = buf; while(len) { offset = addr & SDLA_ADDR_MASK; bytes = offset + len > SDLA_WINDOW_SIZE ? SDLA_WINDOW_SIZE - offset : len; base = (void *) (dev->mem_start + offset); save_flags(flags); cli(); SDLA_WINDOW(dev, addr); memcpy(base, temp, bytes); restore_flags(flags); addr += bytes; temp += bytes; len -= bytes; } } static void sdla_clear(struct device *dev) { unsigned long flags; char *base; int len, addr, bytes; len = 65536; addr = 0; bytes = SDLA_WINDOW_SIZE; base = (void *) dev->mem_start; save_flags(flags); cli(); while(len) { SDLA_WINDOW(dev, addr); memset(base, 0, bytes); addr += bytes; len -= bytes; } restore_flags(flags); } static char sdla_byte(struct device *dev, int addr) { unsigned long flags; char byte, *temp; temp = (void *) (dev->mem_start + (addr & SDLA_ADDR_MASK)); save_flags(flags); cli(); SDLA_WINDOW(dev, addr); byte = *temp; restore_flags(flags); return(byte); } void sdla_stop(struct device *dev) { struct frad_local *flp; flp = dev->priv; switch(flp->type) { case SDLA_S502A: outb(SDLA_S502A_HALT, dev->base_addr + SDLA_REG_CONTROL); flp->state = SDLA_HALT; break; case SDLA_S502E: outb(SDLA_HALT, dev->base_addr + SDLA_REG_Z80_CONTROL); outb(SDLA_S502E_ENABLE, dev->base_addr + SDLA_REG_CONTROL); flp->state = SDLA_S502E_ENABLE; break; case SDLA_S507: flp->state &= ~SDLA_CPUEN; outb(flp->state, dev->base_addr + SDLA_REG_CONTROL); break; case SDLA_S508: flp->state &= ~SDLA_CPUEN; outb(flp->state, dev->base_addr + SDLA_REG_CONTROL); break; } } void sdla_start(struct device *dev) { struct frad_local *flp; flp = dev->priv; switch(flp->type) { case SDLA_S502A: outb(SDLA_S502A_NMI, dev->base_addr + SDLA_REG_CONTROL); outb(SDLA_S502A_START, dev->base_addr + SDLA_REG_CONTROL); flp->state = SDLA_S502A_START; break; case SDLA_S502E: outb(SDLA_S502E_CPUEN, dev->base_addr + SDLA_REG_Z80_CONTROL); outb(0x00, dev->base_addr + SDLA_REG_CONTROL); flp->state = 0; break; case SDLA_S507: flp->state |= SDLA_CPUEN; outb(flp->state, dev->base_addr + SDLA_REG_CONTROL); break; case SDLA_S508: flp->state |= SDLA_CPUEN; outb(flp->state, dev->base_addr + SDLA_REG_CONTROL); break; } } /**************************************************** * * this is used for the S502A/E cards to determine * the speed of the onboard CPU. Calibration is * necessary for the Frame Relay code uploaded * later. Incorrect results cause timing problems * with link checks & status messages * ***************************************************/ int sdla_z80_poll(struct device *dev, int z80_addr, int jiffs, char resp1, char resp2) { unsigned long start, done, now; char resp, *temp; start = now = jiffies; done = jiffies + jiffs; temp = (void *)dev->mem_start; temp += z80_addr & SDLA_ADDR_MASK; resp = ~resp1; while ((jiffies < done) && (resp != resp1) && (!resp2 || (resp != resp2))) { if (jiffies != now) { SDLA_WINDOW(dev, z80_addr); now = jiffies; resp = *temp; } } return(jiffies < done ? jiffies - start : -1); } /* constants for Z80 CPU speed */ #define Z80_READY '1' /* Z80 is ready to begin */ #define LOADER_READY '2' /* driver is ready to begin */ #define Z80_SCC_OK '3' /* SCC is on board */ #define Z80_SCC_BAD '4' /* SCC was not found */ static int sdla_cpuspeed(struct device *dev, struct ifreq *ifr) { int jiffs; char data; sdla_start(dev); if (sdla_z80_poll(dev, 0, 3*HZ, Z80_READY, 0) < 0) return(-EIO); data = LOADER_READY; sdla_write(dev, 0, &data, 1); if ((jiffs = sdla_z80_poll(dev, 0, 8*HZ, Z80_SCC_OK, Z80_SCC_BAD)) < 0) return(-EIO); sdla_stop(dev); sdla_read(dev, 0, &data, 1); if (data == Z80_SCC_BAD) { printk("%s: SCC bad\n", dev->name); return(-EIO); } if (data != Z80_SCC_OK) return(-EINVAL); if (jiffs < 165) ifr->ifr_mtu = SDLA_CPU_16M; else if (jiffs < 220) ifr->ifr_mtu = SDLA_CPU_10M; else if (jiffs < 258) ifr->ifr_mtu = SDLA_CPU_8M; else if (jiffs < 357) ifr->ifr_mtu = SDLA_CPU_7M; else if (jiffs < 467) ifr->ifr_mtu = SDLA_CPU_5M; else ifr->ifr_mtu = SDLA_CPU_3M; return(0); } /************************************************ * * Direct interaction with the Frame Relay code * starts here. * ************************************************/ struct _dlci_stat { short dlci __attribute__((packed)); char flags __attribute__((packed)); }; struct _frad_stat { char flags; struct _dlci_stat dlcis[SDLA_MAX_DLCI]; }; static void sdla_errors(struct device *dev, int cmd, int dlci, int ret, int len, void *data) { struct _dlci_stat *pstatus; short *pdlci; int i; char *state, line[30]; switch (ret) { case SDLA_RET_MODEM: state = data; if (*state & SDLA_MODEM_DCD_LOW) printk(KERN_INFO "%s: Modem DCD unexpectedly low!\n", dev->name); if (*state & SDLA_MODEM_CTS_LOW) printk(KERN_INFO "%s: Modem CTS unexpectedly low!\n", dev->name); /* I should probably do something about this! */ break; case SDLA_RET_CHANNEL_OFF: printk(KERN_INFO "%s: Channel became inoperative!\n", dev->name); /* same here */ break; case SDLA_RET_CHANNEL_ON: printk(KERN_INFO "%s: Channel became operative!\n", dev->name); /* same here */ break; case SDLA_RET_DLCI_STATUS: printk(KERN_INFO "%s: Status change reported by Access Node.\n", dev->name); len /= sizeof(struct _dlci_stat); for(pstatus = data, i=0;i < len;i++,pstatus++) { if (pstatus->flags & SDLA_DLCI_NEW) state = "new"; else if (pstatus->flags & SDLA_DLCI_DELETED) state = "deleted"; else if (pstatus->flags & SDLA_DLCI_ACTIVE) state = "active"; else { sprintf(line, "unknown status: %02X", pstatus->flags); state = line; } printk(KERN_INFO "%s: DLCI %i: %s.\n", dev->name, pstatus->dlci, state); /* same here */ } break; case SDLA_RET_DLCI_UNKNOWN: printk(KERN_INFO "%s: Received unknown DLCIs:", dev->name); len /= sizeof(short); for(pdlci = data,i=0;i < len;i++,pdlci++) printk(" %i", *pdlci); printk("\n"); break; case SDLA_RET_TIMEOUT: printk(KERN_ERR "%s: Command timed out!\n", dev->name); break; case SDLA_RET_BUF_OVERSIZE: printk(KERN_INFO "%s: Bc/CIR overflow, acceptable size is %i\n", dev->name, len); break; case SDLA_RET_BUF_TOO_BIG: printk(KERN_INFO "%s: Buffer size over specified max of %i\n", dev->name, len); break; case SDLA_RET_CHANNEL_INACTIVE: case SDLA_RET_DLCI_INACTIVE: case SDLA_RET_CIR_OVERFLOW: case SDLA_RET_NO_BUFS: if (cmd == SDLA_INFORMATION_WRITE) break; default: printk(KERN_DEBUG "%s: Cmd 0x%2.2X generated return code 0x%2.2X\n", dev->name, cmd, ret); /* Further processing could be done here */ break; } } static int sdla_cmd(struct device *dev, int cmd, short dlci, short flags, void *inbuf, short inlen, void *outbuf, short *outlen) { static struct _frad_stat status; struct frad_local *flp; struct sdla_cmd *cmd_buf; unsigned long pflags; int jiffs, ret, waiting, len; long window; flp = dev->priv; window = flp->type == SDLA_S508 ? SDLA_508_CMD_BUF : SDLA_502_CMD_BUF; cmd_buf = (struct sdla_cmd *)(dev->mem_start + (window & SDLA_ADDR_MASK)); ret = 0; len = 0; jiffs = jiffies + HZ; /* 1 second is plenty */ save_flags(pflags); cli(); SDLA_WINDOW(dev, window); cmd_buf->cmd = cmd; cmd_buf->dlci = dlci; cmd_buf->flags = flags; if (inbuf) memcpy(cmd_buf->data, inbuf, inlen); cmd_buf->length = inlen; cmd_buf->opp_flag = 1; restore_flags(pflags); waiting = 1; len = 0; while (waiting && (jiffies <= jiffs)) { if (waiting++ % 3) { save_flags(pflags); cli(); SDLA_WINDOW(dev, window); waiting = ((volatile int)(cmd_buf->opp_flag)); restore_flags(pflags); } } if (!waiting) { save_flags(pflags); cli(); SDLA_WINDOW(dev, window); ret = cmd_buf->retval; len = cmd_buf->length; if (outbuf && outlen) { *outlen = *outlen >= len ? len : *outlen; if (*outlen) memcpy(outbuf, cmd_buf->data, *outlen); } /* This is a local copy that's used for error handling */ if (ret) memcpy(&status, cmd_buf->data, len > sizeof(status) ? sizeof(status) : len); restore_flags(pflags); } else ret = SDLA_RET_TIMEOUT; if (ret != SDLA_RET_OK) sdla_errors(dev, cmd, dlci, ret, len, &status); return(ret); } /*********************************************** * * these functions are called by the DLCI driver * ***********************************************/ static int sdla_reconfig(struct device *dev); int sdla_activate(struct device *slave, struct device *master) { struct frad_local *flp; int i; flp = slave->priv; for(i=0;i<CONFIG_DLCI_MAX;i++) if (flp->master[i] == master) break; if (i == CONFIG_DLCI_MAX) return(-ENODEV); flp->dlci[i] = abs(flp->dlci[i]); if (slave->start && (flp->config.station == FRAD_STATION_NODE)) sdla_cmd(slave, SDLA_ACTIVATE_DLCI, 0, 0, &flp->dlci[i], sizeof(short), NULL, NULL); return(0); } int sdla_deactivate(struct device *slave, struct device *master) { struct frad_local *flp; int i; flp = slave->priv; for(i=0;i<CONFIG_DLCI_MAX;i++) if (flp->master[i] == master) break; if (i == CONFIG_DLCI_MAX) return(-ENODEV); flp->dlci[i] = -abs(flp->dlci[i]); if (slave->start && (flp->config.station == FRAD_STATION_NODE)) sdla_cmd(slave, SDLA_DEACTIVATE_DLCI, 0, 0, &flp->dlci[i], sizeof(short), NULL, NULL); return(0); } int sdla_assoc(struct device *slave, struct device *master) { struct frad_local *flp; int i; if (master->type != ARPHRD_DLCI) return(-EINVAL); flp = slave->priv; for(i=0;i<CONFIG_DLCI_MAX;i++) { if (!flp->master[i]) break; if (abs(flp->dlci[i]) == *(short *)(master->dev_addr)) return(-EADDRINUSE); } if (i == CONFIG_DLCI_MAX) return(-EMLINK); /* #### Alan: Comments on this ?? */ MOD_INC_USE_COUNT; flp->master[i] = master; flp->dlci[i] = -*(short *)(master->dev_addr); master->mtu = slave->mtu; if (slave->start) { if (flp->config.station == FRAD_STATION_CPE) sdla_reconfig(slave); else sdla_cmd(slave, SDLA_ADD_DLCI, 0, 0, master->dev_addr, sizeof(short), NULL, NULL); } return(0); } int sdla_deassoc(struct device *slave, struct device *master) { struct frad_local *flp; int i; flp = slave->priv; for(i=0;i<CONFIG_DLCI_MAX;i++) if (flp->master[i] == master) break; if (i == CONFIG_DLCI_MAX) return(-ENODEV); flp->master[i] = NULL; flp->dlci[i] = 0; MOD_DEC_USE_COUNT; if (slave->start) { if (flp->config.station == FRAD_STATION_CPE) sdla_reconfig(slave); else sdla_cmd(slave, SDLA_DELETE_DLCI, 0, 0, master->dev_addr, sizeof(short), NULL, NULL); } return(0); } int sdla_dlci_conf(struct device *slave, struct device *master, int get) { struct frad_local *flp; struct dlci_local *dlp; int i; short len, ret; flp = slave->priv; for(i=0;i<CONFIG_DLCI_MAX;i++) if (flp->master[i] == master) break; if (i == CONFIG_DLCI_MAX) return(-ENODEV); dlp = master->priv; ret = SDLA_RET_OK; len = sizeof(struct dlci_conf); if (slave->start) { if (get) ret = sdla_cmd(slave, SDLA_READ_DLCI_CONFIGURATION, abs(flp->dlci[i]), 0, NULL, 0, &dlp->config, &len); else ret = sdla_cmd(slave, SDLA_SET_DLCI_CONFIGURATION, abs(flp->dlci[i]), 0, &dlp->config, sizeof(struct dlci_conf) - 4 * sizeof(short), NULL, NULL); } return(ret == SDLA_RET_OK ? 0 : -EIO); } /************************** * * now for the Linux driver * **************************/ /* NOTE: the DLCI driver deals with freeing the SKB!! */ static int sdla_transmit(struct sk_buff *skb, struct device *dev) { struct frad_local *flp; int ret, addr, accept; short size; unsigned long flags; struct buf_entry *pbuf; flp = dev->priv; ret = 0; accept = 1; if (dev->tbusy) return(1); if (skb == NULL) return(0); if (test_and_set_bit(0, (void*)&dev->tbusy) != 0) printk(KERN_WARNING "%s: transmitter access conflict.\n", dev->name); else { /* * stupid GateD insists on setting up the multicast router thru us * and we're ill equipped to handle a non Frame Relay packet at this * time! */ accept = 1; switch (dev->type) { case ARPHRD_FRAD: if (skb->dev->type != ARPHRD_DLCI) { printk(KERN_WARNING "%s: Non DLCI device, type %i, tried to send on FRAD module.\n", dev->name, skb->dev->type); accept = 0; } break; default: printk(KERN_WARNING "%s: unknown firmware type 0x%4.4X\n", dev->name, dev->type); accept = 0; break; } if (accept) { /* this is frame specific, but till there's a PPP module, it's the default */ switch (flp->type) { case SDLA_S502A: case SDLA_S502E: ret = sdla_cmd(dev, SDLA_INFORMATION_WRITE, *(short *)(skb->dev->dev_addr), 0, skb->data, skb->len, NULL, NULL); break; case SDLA_S508: size = sizeof(addr); ret = sdla_cmd(dev, SDLA_INFORMATION_WRITE, *(short *)(skb->dev->dev_addr), 0, NULL, skb->len, &addr, &size); if (ret == SDLA_RET_OK) { save_flags(flags); cli(); SDLA_WINDOW(dev, addr); pbuf = (void *)(((int) dev->mem_start) + (addr & SDLA_ADDR_MASK)); sdla_write(dev, pbuf->buf_addr, skb->data, skb->len); SDLA_WINDOW(dev, addr); pbuf->opp_flag = 1; restore_flags(flags); } break; } switch (ret) { case SDLA_RET_OK: flp->stats.tx_packets++; ret = DLCI_RET_OK; break; case SDLA_RET_CIR_OVERFLOW: case SDLA_RET_BUF_OVERSIZE: case SDLA_RET_NO_BUFS: flp->stats.tx_dropped++; ret = DLCI_RET_DROP; break; default: flp->stats.tx_errors++; ret = DLCI_RET_ERR; break; } } dev->tbusy = 0; } return(ret); } static void sdla_receive(struct device *dev) { struct device *master; struct frad_local *flp; struct dlci_local *dlp; struct sk_buff *skb; struct sdla_cmd *cmd; struct buf_info *pbufi; struct buf_entry *pbuf; unsigned long flags; int i, received, success, addr, buf_base, buf_top; short dlci, len, len2, split; flp = dev->priv; success = 1; received = addr = buf_top = buf_base = 0; len = dlci = 0; skb = NULL; master = NULL; cmd = NULL; pbufi = NULL; pbuf = NULL; save_flags(flags); cli(); switch (flp->type) { case SDLA_S502A: case SDLA_S502E: cmd = (void *) (dev->mem_start + (SDLA_502_RCV_BUF & SDLA_ADDR_MASK)); SDLA_WINDOW(dev, SDLA_502_RCV_BUF); success = cmd->opp_flag; if (!success) break; dlci = cmd->dlci; len = cmd->length; break; case SDLA_S508: pbufi = (void *) (dev->mem_start + (SDLA_508_RXBUF_INFO & SDLA_ADDR_MASK)); SDLA_WINDOW(dev, SDLA_508_RXBUF_INFO); pbuf = (void *) (dev->mem_start + ((pbufi->rse_base + flp->buffer * sizeof(struct buf_entry)) & SDLA_ADDR_MASK)); success = pbuf->opp_flag; if (!success) break; buf_top = pbufi->buf_top; buf_base = pbufi->buf_base; dlci = pbuf->dlci; len = pbuf->length; addr = pbuf->buf_addr; break; } /* common code, find the DLCI and get the SKB */ if (success) { for (i=0;i<CONFIG_DLCI_MAX;i++) if (flp->dlci[i] == dlci) break; if (i == CONFIG_DLCI_MAX) { printk(KERN_NOTICE "%s: Received packet from invalid DLCI %i, ignoring.", dev->name, dlci); flp->stats.rx_errors++; success = 0; } } if (success) { master = flp->master[i]; skb = dev_alloc_skb(len + sizeof(struct frhdr)); if (skb == NULL) { printk(KERN_NOTICE "%s: Memory squeeze, dropping packet.\n", dev->name); flp->stats.rx_dropped++; success = 0; } else skb_reserve(skb, sizeof(struct frhdr)); } /* pick up the data */ switch (flp->type) { case SDLA_S502A: case SDLA_S502E: if (success) sdla_read(dev, SDLA_502_RCV_BUF + SDLA_502_DATA_OFS, skb_put(skb,len), len); SDLA_WINDOW(dev, SDLA_502_RCV_BUF); cmd->opp_flag = 0; break; case SDLA_S508: if (success) { /* is this buffer split off the end of the internal ring buffer */ split = addr + len > buf_top + 1 ? len - (buf_top - addr + 1) : 0; len2 = len - split; sdla_read(dev, addr, skb_put(skb, len2), len2); if (split) sdla_read(dev, buf_base, skb_put(skb, split), split); } /* increment the buffer we're looking at */ SDLA_WINDOW(dev, SDLA_508_RXBUF_INFO); flp->buffer = (flp->buffer + 1) % pbufi->rse_num; pbuf->opp_flag = 0; break; } if (success) { flp->stats.rx_packets++; dlp = master->priv; (*dlp->receive)(skb, master); } restore_flags(flags); } static void sdla_isr(int irq, void *dev_id, struct pt_regs * regs) { struct device *dev; struct frad_local *flp; char byte; dev = dev_id; if (dev == NULL) { printk(KERN_WARNING "sdla_isr(): irq %d for unknown device.\n", irq); return; } flp = dev->priv; if (!flp->initialized) { printk(KERN_WARNING "%s: irq %d for uninitialized device.\n", dev->name, irq); return; } dev->interrupt = 1; byte = sdla_byte(dev, flp->type == SDLA_S508 ? SDLA_508_IRQ_INTERFACE : SDLA_502_IRQ_INTERFACE); switch (byte) { case SDLA_INTR_RX: sdla_receive(dev); break; /* the command will get an error return, which is processed above */ case SDLA_INTR_MODEM: case SDLA_INTR_STATUS: sdla_cmd(dev, SDLA_READ_DLC_STATUS, 0, 0, NULL, 0, NULL, NULL); break; case SDLA_INTR_TX: case SDLA_INTR_COMPLETE: case SDLA_INTR_TIMER: printk(KERN_WARNING "%s: invalid irq flag 0x%02X.\n", dev->name, byte); break; } /* the S502E requires a manual acknowledgement of the interrupt */ if (flp->type == SDLA_S502E) { flp->state &= ~SDLA_S502E_INTACK; outb(flp->state, dev->base_addr + SDLA_REG_CONTROL); flp->state |= SDLA_S502E_INTACK; outb(flp->state, dev->base_addr + SDLA_REG_CONTROL); } /* this clears the byte, informing the Z80 we're done */ byte = 0; sdla_write(dev, flp->type == SDLA_S508 ? SDLA_508_IRQ_INTERFACE : SDLA_502_IRQ_INTERFACE, &byte, sizeof(byte)); dev->interrupt = 0; } static void sdla_poll(unsigned long device) { struct device *dev; struct frad_local *flp; dev = (struct device *) device; flp = dev->priv; if (sdla_byte(dev, SDLA_502_RCV_BUF)) sdla_receive(dev); flp->timer.expires = 1; add_timer(&flp->timer); } static int sdla_close(struct device *dev) { struct frad_local *flp; struct intr_info intr; int len, i; short dlcis[CONFIG_DLCI_MAX]; flp = dev->priv; len = 0; for(i=0;i<CONFIG_DLCI_MAX;i++) if (flp->dlci[i]) dlcis[len++] = abs(flp->dlci[i]); len *= 2; if (flp->config.station == FRAD_STATION_NODE) { for(i=0;i<CONFIG_DLCI_MAX;i++) if (flp->dlci[i] > 0) sdla_cmd(dev, SDLA_DEACTIVATE_DLCI, 0, 0, dlcis, len, NULL, NULL); sdla_cmd(dev, SDLA_DELETE_DLCI, 0, 0, &flp->dlci[i], sizeof(flp->dlci[i]), NULL, NULL); } memset(&intr, 0, sizeof(intr)); /* let's start up the reception */ switch(flp->type) { case SDLA_S502A: del_timer(&flp->timer); break; case SDLA_S502E: sdla_cmd(dev, SDLA_SET_IRQ_TRIGGER, 0, 0, &intr, sizeof(char) + sizeof(short), NULL, NULL); flp->state &= ~SDLA_S502E_INTACK; outb(flp->state, dev->base_addr + SDLA_REG_CONTROL); break; case SDLA_S507: break; case SDLA_S508: sdla_cmd(dev, SDLA_SET_IRQ_TRIGGER, 0, 0, &intr, sizeof(struct intr_info), NULL, NULL); flp->state &= ~SDLA_S508_INTEN; outb(flp->state, dev->base_addr + SDLA_REG_CONTROL); break; } sdla_cmd(dev, SDLA_DISABLE_COMMUNICATIONS, 0, 0, NULL, 0, NULL, NULL); dev->tbusy = 1; dev->start = 0; MOD_DEC_USE_COUNT; return(0); } struct conf_data { struct frad_conf config; short dlci[CONFIG_DLCI_MAX]; }; static int sdla_open(struct device *dev) { struct frad_local *flp; struct dlci_local *dlp; struct conf_data data; struct intr_info intr; int len, i; char byte; flp = dev->priv; if (!flp->initialized) return(-EPERM); if (!flp->configured) return(-EPERM); /* time to send in the configuration */ len = 0; for(i=0;i<CONFIG_DLCI_MAX;i++) if (flp->dlci[i]) data.dlci[len++] = abs(flp->dlci[i]); len *= 2; memcpy(&data.config, &flp->config, sizeof(struct frad_conf)); len += sizeof(struct frad_conf); sdla_cmd(dev, SDLA_DISABLE_COMMUNICATIONS, 0, 0, NULL, 0, NULL, NULL); sdla_cmd(dev, SDLA_SET_DLCI_CONFIGURATION, 0, 0, &data, len, NULL, NULL); if (flp->type == SDLA_S508) flp->buffer = 0; sdla_cmd(dev, SDLA_ENABLE_COMMUNICATIONS, 0, 0, NULL, 0, NULL, NULL); /* let's start up the reception */ memset(&intr, 0, sizeof(intr)); switch(flp->type) { case SDLA_S502A: flp->timer.expires = 1; add_timer(&flp->timer); break; case SDLA_S502E: flp->state |= SDLA_S502E_ENABLE; outb(flp->state, dev->base_addr + SDLA_REG_CONTROL); flp->state |= SDLA_S502E_INTACK; outb(flp->state, dev->base_addr + SDLA_REG_CONTROL); byte = 0; sdla_write(dev, SDLA_502_IRQ_INTERFACE, &byte, sizeof(byte)); intr.flags = SDLA_INTR_RX | SDLA_INTR_STATUS | SDLA_INTR_MODEM; sdla_cmd(dev, SDLA_SET_IRQ_TRIGGER, 0, 0, &intr, sizeof(char) + sizeof(short), NULL, NULL); break; case SDLA_S507: break; case SDLA_S508: flp->state |= SDLA_S508_INTEN; outb(flp->state, dev->base_addr + SDLA_REG_CONTROL); byte = 0; sdla_write(dev, SDLA_508_IRQ_INTERFACE, &byte, sizeof(byte)); intr.flags = SDLA_INTR_RX | SDLA_INTR_STATUS | SDLA_INTR_MODEM; intr.irq = dev->irq; sdla_cmd(dev, SDLA_SET_IRQ_TRIGGER, 0, 0, &intr, sizeof(struct intr_info), NULL, NULL); break; } if (flp->config.station == FRAD_STATION_CPE) { byte = SDLA_ICS_STATUS_ENQ; sdla_cmd(dev, SDLA_ISSUE_IN_CHANNEL_SIGNAL, 0, 0, &byte, sizeof(byte), NULL, NULL); } else { sdla_cmd(dev, SDLA_ADD_DLCI, 0, 0, data.dlci, len - sizeof(struct frad_conf), NULL, NULL); for(i=0;i<CONFIG_DLCI_MAX;i++) if (flp->dlci[i] > 0) sdla_cmd(dev, SDLA_ACTIVATE_DLCI, 0, 0, &flp->dlci[i], 2*sizeof(flp->dlci[i]), NULL, NULL); } /* configure any specific DLCI settings */ for(i=0;i<CONFIG_DLCI_MAX;i++) if (flp->dlci[i]) { dlp = flp->master[i]->priv; if (dlp->configured) sdla_cmd(dev, SDLA_SET_DLCI_CONFIGURATION, abs(flp->dlci[i]), 0, &dlp->config, sizeof(struct dlci_conf), NULL, NULL); } dev->tbusy = 0; dev->interrupt = 0; dev->start = 1; MOD_INC_USE_COUNT; return(0); } static int sdla_config(struct device *dev, struct frad_conf *conf, int get) { struct frad_local *flp; struct conf_data data; int i; short size; if (dev->type == 0xFFFF) return(-EUNATCH); flp = dev->priv; if (!get) { if (dev->start) return(-EBUSY); if(copy_from_user(&data.config, conf, sizeof(struct frad_conf))) return -EFAULT; if (data.config.station & ~FRAD_STATION_NODE) return(-EINVAL); if (data.config.flags & ~FRAD_VALID_FLAGS) return(-EINVAL); if ((data.config.kbaud < 0) || ((data.config.kbaud > 128) && (flp->type != SDLA_S508))) return(-EINVAL); if (data.config.clocking & ~(FRAD_CLOCK_INT | SDLA_S508_PORT_RS232)) return(-EINVAL); if ((data.config.mtu < 0) || (data.config.mtu > SDLA_MAX_MTU)) return(-EINVAL); if ((data.config.T391 < 5) || (data.config.T391 > 30)) return(-EINVAL); if ((data.config.T392 < 5) || (data.config.T392 > 30)) return(-EINVAL); if ((data.config.N391 < 1) || (data.config.N391 > 255)) return(-EINVAL); if ((data.config.N392 < 1) || (data.config.N392 > 10)) return(-EINVAL); if ((data.config.N393 < 1) || (data.config.N393 > 10)) return(-EINVAL); memcpy(&flp->config, &data.config, sizeof(struct frad_conf)); flp->config.flags |= SDLA_DIRECT_RECV; if (flp->type == SDLA_S508) flp->config.flags |= SDLA_TX70_RX30; if (dev->mtu != flp->config.mtu) { /* this is required to change the MTU */ dev->mtu = flp->config.mtu; for(i=0;i<CONFIG_DLCI_MAX;i++) if (flp->master[i]) flp->master[i]->mtu = flp->config.mtu; } flp->config.mtu += sizeof(struct frhdr); /* off to the races! */ if (!flp->configured) sdla_start(dev); flp->configured = 1; } else { /* no sense reading if the CPU isn't started */ if (dev->start) { size = sizeof(data); if (sdla_cmd(dev, SDLA_READ_DLCI_CONFIGURATION, 0, 0, NULL, 0, &data, &size) != SDLA_RET_OK) return(-EIO); } else if (flp->configured) memcpy(&data.config, &flp->config, sizeof(struct frad_conf)); else memset(&data.config, 0, sizeof(struct frad_conf)); memcpy(&flp->config, &data.config, sizeof(struct frad_conf)); data.config.flags &= FRAD_VALID_FLAGS; data.config.mtu -= data.config.mtu > sizeof(struct frhdr) ? sizeof(struct frhdr) : data.config.mtu; return copy_to_user(conf, &data.config, sizeof(struct frad_conf))?-EFAULT:0; } return(0); } static int sdla_xfer(struct device *dev, struct sdla_mem *info, int read) { struct sdla_mem mem; char *temp; if(copy_from_user(&mem, info, sizeof(mem))) return -EFAULT; if (read) { temp = kmalloc(mem.len, GFP_KERNEL); if (!temp) return(-ENOMEM); sdla_read(dev, mem.addr, temp, mem.len); if(copy_to_user(mem.data, temp, mem.len)) return -EFAULT; kfree(temp); } else { temp = kmalloc(mem.len, GFP_KERNEL); if (!temp) return(-ENOMEM); if(copy_from_user(temp, mem.data, mem.len)) return -EFAULT; sdla_write(dev, mem.addr, temp, mem.len); kfree(temp); } return(0); } static int sdla_reconfig(struct device *dev) { struct frad_local *flp; struct conf_data data; int i, len; flp = dev->priv; len = 0; for(i=0;i<CONFIG_DLCI_MAX;i++) if (flp->dlci[i]) data.dlci[len++] = flp->dlci[i]; len *= 2; memcpy(&data, &flp->config, sizeof(struct frad_conf)); len += sizeof(struct frad_conf); sdla_cmd(dev, SDLA_DISABLE_COMMUNICATIONS, 0, 0, NULL, 0, NULL, NULL); sdla_cmd(dev, SDLA_SET_DLCI_CONFIGURATION, 0, 0, &data, len, NULL, NULL); sdla_cmd(dev, SDLA_ENABLE_COMMUNICATIONS, 0, 0, NULL, 0, NULL, NULL); return(0); } static int sdla_ioctl(struct device *dev, struct ifreq *ifr, int cmd) { struct frad_local *flp; if(!suser()) return -EPERM; flp = dev->priv; if (!flp->initialized) return(-EINVAL); switch (cmd) { case FRAD_GET_CONF: case FRAD_SET_CONF: return(sdla_config(dev, (struct frad_conf *)ifr->ifr_data, cmd == FRAD_GET_CONF)); case SDLA_IDENTIFY: ifr->ifr_flags = flp->type; break; case SDLA_CPUSPEED: return(sdla_cpuspeed(dev, ifr)); /* ========================================================== NOTE: This is rather a useless action right now, as the current driver does not support protocols other than FR. However, Sangoma has modules for a number of other protocols in the works. ============================================================*/ case SDLA_PROTOCOL: if (flp->configured) return(-EALREADY); switch (ifr->ifr_flags) { case ARPHRD_FRAD: dev->type = ifr->ifr_flags; break; default: return(-ENOPROTOOPT); } break; case SDLA_CLEARMEM: sdla_clear(dev); break; case SDLA_WRITEMEM: case SDLA_READMEM: return(sdla_xfer(dev, (struct sdla_mem *)ifr->ifr_data, cmd == SDLA_READMEM)); case SDLA_START: sdla_start(dev); break; case SDLA_STOP: sdla_stop(dev); break; default: return(-EOPNOTSUPP); } return(0); } int sdla_change_mtu(struct device *dev, int new_mtu) { struct frad_local *flp; flp = dev->priv; if (dev->start) return(-EBUSY); /* for now, you can't change the MTU! */ return(-EOPNOTSUPP); } int sdla_set_config(struct device *dev, struct ifmap *map) { struct frad_local *flp; int i; char byte; flp = dev->priv; if (flp->initialized) return(-EINVAL); for(i=0;i < sizeof(valid_port) / sizeof (int) ; i++) if (valid_port[i] == map->base_addr) break; if (i == sizeof(valid_port) / sizeof(int)) return(-EINVAL); dev->base_addr = map->base_addr; request_region(dev->base_addr, SDLA_IO_EXTENTS, dev->name); /* test for card types, S502A, S502E, S507, S508 */ /* these tests shut down the card completely, so clear the state */ flp->type = SDLA_UNKNOWN; flp->state = 0; for(i=1;i<SDLA_IO_EXTENTS;i++) if (inb(dev->base_addr + i) != 0xFF) break; if (i == SDLA_IO_EXTENTS) { outb(SDLA_HALT, dev->base_addr + SDLA_REG_Z80_CONTROL); if ((inb(dev->base_addr + SDLA_S502_STS) & 0x0F) == 0x08) { outb(SDLA_S502E_INTACK, dev->base_addr + SDLA_REG_CONTROL); if ((inb(dev->base_addr + SDLA_S502_STS) & 0x0F) == 0x0C) { outb(SDLA_HALT, dev->base_addr + SDLA_REG_CONTROL); flp->type = SDLA_S502E; } } } if (flp->type == SDLA_UNKNOWN) { for(byte=inb(dev->base_addr),i=0;i<SDLA_IO_EXTENTS;i++) if (inb(dev->base_addr + i) != byte) break; if (i == SDLA_IO_EXTENTS) { outb(SDLA_HALT, dev->base_addr + SDLA_REG_CONTROL); if ((inb(dev->base_addr + SDLA_S502_STS) & 0x7E) == 0x30) { outb(SDLA_S507_ENABLE, dev->base_addr + SDLA_REG_CONTROL); if ((inb(dev->base_addr + SDLA_S502_STS) & 0x7E) == 0x32) { outb(SDLA_HALT, dev->base_addr + SDLA_REG_CONTROL); flp->type = SDLA_S507; } } } } if (flp->type == SDLA_UNKNOWN) { outb(SDLA_HALT, dev->base_addr + SDLA_REG_CONTROL); if ((inb(dev->base_addr + SDLA_S508_STS) & 0x3F) == 0x00) { outb(SDLA_S508_INTEN, dev->base_addr + SDLA_REG_CONTROL); if ((inb(dev->base_addr + SDLA_S508_STS) & 0x3F) == 0x10) { outb(SDLA_HALT, dev->base_addr + SDLA_REG_CONTROL); flp->type = SDLA_S508; } } } if (flp->type == SDLA_UNKNOWN) { outb(SDLA_S502A_HALT, dev->base_addr + SDLA_REG_CONTROL); if (inb(dev->base_addr + SDLA_S502_STS) == 0x40) { outb(SDLA_S502A_START, dev->base_addr + SDLA_REG_CONTROL); if (inb(dev->base_addr + SDLA_S502_STS) == 0x40) { outb(SDLA_S502A_INTEN, dev->base_addr + SDLA_REG_CONTROL); if (inb(dev->base_addr + SDLA_S502_STS) == 0x44) { outb(SDLA_S502A_START, dev->base_addr + SDLA_REG_CONTROL); flp->type = SDLA_S502A; } } } } if (flp->type == SDLA_UNKNOWN) { printk(KERN_NOTICE "%s: Unknown card type\n", dev->name); return(-ENODEV); } switch(dev->base_addr) { case 0x270: case 0x280: case 0x380: case 0x390: if ((flp->type != SDLA_S508) && (flp->type != SDLA_S507)) return(-EINVAL); } switch (map->irq) { case 2: if (flp->type != SDLA_S502E) return(-EINVAL); break; case 10: case 11: case 12: case 15: case 4: if ((flp->type != SDLA_S508) && (flp->type != SDLA_S507)) return(-EINVAL); case 3: case 5: case 7: if (flp->type == SDLA_S502A) return(-EINVAL); break; default: return(-EINVAL); } dev->irq = map->irq; if (request_irq(dev->irq, &sdla_isr, 0, dev->name, dev)) return(-EAGAIN); if (flp->type == SDLA_S507) { switch(dev->irq) { case 3: flp->state = SDLA_S507_IRQ3; break; case 4: flp->state = SDLA_S507_IRQ4; break; case 5: flp->state = SDLA_S507_IRQ5; break; case 7: flp->state = SDLA_S507_IRQ7; break; case 10: flp->state = SDLA_S507_IRQ10; break; case 11: flp->state = SDLA_S507_IRQ11; break; case 12: flp->state = SDLA_S507_IRQ12; break; case 15: flp->state = SDLA_S507_IRQ15; break; } } for(i=0;i < sizeof(valid_mem) / sizeof (int) ; i++) if (valid_mem[i] == map->mem_start) break; if (i == sizeof(valid_mem) / sizeof(int)) /* * FIXME: * BUG BUG BUG: MUST RELEASE THE IRQ WE ALLOCATED IN * ALL THESE CASES * */ return(-EINVAL); if ((flp->type == SDLA_S502A) && (((map->mem_start & 0xF000) >> 12) == 0x0E)) return(-EINVAL); if ((flp->type != SDLA_S507) && ((map->mem_start >> 16) == 0x0B)) return(-EINVAL); if ((flp->type == SDLA_S507) && ((map->mem_start >> 16) == 0x0D)) return(-EINVAL); dev->mem_start = map->mem_start; dev->mem_end = dev->mem_start + 0x2000; byte = flp->type != SDLA_S508 ? SDLA_8K_WINDOW : 0; byte |= (map->mem_start & 0xF000) >> (12 + (flp->type == SDLA_S508 ? 1 : 0)); switch(flp->type) { case SDLA_S502A: case SDLA_S502E: switch (map->mem_start >> 16) { case 0x0A: byte |= SDLA_S502_SEG_A; break; case 0x0C: byte |= SDLA_S502_SEG_C; break; case 0x0D: byte |= SDLA_S502_SEG_D; break; case 0x0E: byte |= SDLA_S502_SEG_E; break; } break; case SDLA_S507: switch (map->mem_start >> 16) { case 0x0A: byte |= SDLA_S507_SEG_A; break; case 0x0B: byte |= SDLA_S507_SEG_B; break; case 0x0C: byte |= SDLA_S507_SEG_C; break; case 0x0E: byte |= SDLA_S507_SEG_E; break; } break; case SDLA_S508: switch (map->mem_start >> 16) { case 0x0A: byte |= SDLA_S508_SEG_A; break; case 0x0C: byte |= SDLA_S508_SEG_C; break; case 0x0D: byte |= SDLA_S508_SEG_D; break; case 0x0E: byte |= SDLA_S508_SEG_E; break; } break; } /* set the memory bits, and enable access */ outb(byte, dev->base_addr + SDLA_REG_PC_WINDOW); switch(flp->type) { case SDLA_S502E: flp->state = SDLA_S502E_ENABLE; break; case SDLA_S507: flp->state |= SDLA_MEMEN; break; case SDLA_S508: flp->state = SDLA_MEMEN; break; } outb(flp->state, dev->base_addr + SDLA_REG_CONTROL); flp->initialized = 1; return(0); } static struct net_device_stats *sdla_stats(struct device *dev) { struct frad_local *flp; flp = dev->priv; return(&flp->stats); } __initfunc(int sdla_init(struct device *dev)) { struct frad_local *flp; /* allocate the private data structure */ flp = kmalloc(sizeof(struct frad_local), GFP_KERNEL); if (!flp) return(-ENOMEM); memset(flp, 0, sizeof(struct frad_local)); dev->priv = flp; dev->flags = 0; dev->open = sdla_open; dev->stop = sdla_close; dev->do_ioctl = sdla_ioctl; dev->set_config = sdla_set_config; dev->get_stats = sdla_stats; dev->hard_start_xmit = sdla_transmit; dev->change_mtu = sdla_change_mtu; dev->type = 0xFFFF; dev->hard_header_len = 0; dev->addr_len = 0; dev->mtu = SDLA_MAX_MTU; dev_init_buffers(dev); flp->activate = sdla_activate; flp->deactivate = sdla_deactivate; flp->assoc = sdla_assoc; flp->deassoc = sdla_deassoc; flp->dlci_conf = sdla_dlci_conf; init_timer(&flp->timer); flp->timer.expires = 1; flp->timer.data = (unsigned long) dev; flp->timer.function = sdla_poll; return(0); } __initfunc(void sdla_setup(void)) { printk("%s.\n", version); register_frad(devname); } #ifdef MODULE static struct device sdla0 = {"sdla0", 0, 0, 0, 0, 0, 0, 0, 0, 0, NULL, sdla_init}; int init_module(void) { int result; sdla_setup(); if ((result = register_netdev(&sdla0)) != 0) return result; return 0; } void cleanup_module(void) { unregister_netdev(&sdla0); if (sdla0.priv) kfree(sdla0.priv); if (sdla0.irq) free_irq(sdla0.irq, &sdla0); } #endif /* MODULE */ |