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|
/*
**
** RCpci45.c
**
**
**
** ---------------------------------------------------------------------
** --- Copyright (c) 1998, 1999, RedCreek Communications Inc. ---
** --- All rights reserved. ---
** ---------------------------------------------------------------------
**
** Written by Pete Popov and Brian Moyle.
**
** Known Problems
**
** None known at this time.
**
** TODO:
** -Get rid of the wait loops in the API and replace them
** with system independent delays ...something like
** "delayms(2)". However, under normal circumstances, the
** delays are very short so they're not a problem.
**
** 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.
**
**
** Pete Popov, January 11,99: Fixed a couple of 2.1.x problems
** (virt_to_bus() not called), tested it under 2.2pre5 (as a module), and
** added a #define(s) to enable the use of the same file for both, the 2.0.x
** kernels as well as the 2.1.x.
**
** Ported to 2.1.x by Alan Cox 1998/12/9.
**
** Sometime in mid 1998, written by Pete Popov and Brian Moyle.
**
***************************************************************************/
static char *version =
"RedCreek Communications PCI linux driver version 2.02\n";
#include <linux/module.h>
#include <linux/kernel.h>
#include <linux/sched.h>
#include <linux/string.h>
#include <linux/ptrace.h>
#include <linux/errno.h>
#include <linux/in.h>
#include <linux/init.h>
#include <linux/ioport.h>
#include <linux/malloc.h>
#include <linux/interrupt.h>
#include <linux/pci.h>
#include <linux/timer.h>
#include <asm/irq.h> /* For NR_IRQS only. */
#include <asm/bitops.h>
#include <asm/io.h>
#include <asm/uaccess.h>
#include <linux/if_ether.h>
#include <linux/netdevice.h>
#include <linux/etherdevice.h>
#include <linux/skbuff.h>
#define RC_LINUX_MODULE
#include "rclanmtl.h"
#include "rcif.h"
#define RUN_AT(x) (jiffies + (x))
#define NEW_MULTICAST
#include <linux/delay.h>
/* PCI/45 Configuration space values */
#define RC_PCI45_VENDOR_ID 0x4916
#define RC_PCI45_DEVICE_ID 0x1960
#define MAX_ETHER_SIZE 1520
#define MAX_NMBR_RCV_BUFFERS 96
#define RC_POSTED_BUFFERS_LOW_MARK MAX_NMBR_RCV_BUFFERS-16
#define BD_SIZE 3 /* Bucket Descriptor size */
#define BD_LEN_OFFSET 2 /* Bucket Descriptor offset to length field */
/* RedCreek LAN device Target ID */
#define RC_LAN_TARGET_ID 0x10
/* RedCreek's OSM default LAN receive Initiator */
#define DEFAULT_RECV_INIT_CONTEXT 0xA17
static U32 DriverControlWord = 0;
static void rc_timer(unsigned long);
/*
* Driver Private Area, DPA.
*/
typedef struct
{
/*
* pointer to the device structure which is part
* of the interface to the Linux kernel.
*/
struct net_device *dev;
char devname[8]; /* "ethN" string */
U8 id; /* the AdapterID */
U32 pci_addr; /* the pci address of the adapter */
U32 bus;
U32 function;
struct timer_list timer; /* timer */
struct enet_statistics stats; /* the statistics structure */
struct net_device *next; /* points to the next RC adapter */
unsigned long numOutRcvBuffers;/* number of outstanding receive buffers*/
unsigned char shutdown;
unsigned char reboot;
unsigned char nexus;
PU8 PLanApiPA; /* Pointer to Lan Api Private Area */
}
DPA, *PDPA;
#define MAX_ADAPTERS 32
static PDPA PCIAdapters[MAX_ADAPTERS] =
{
NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL,
NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL,
NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL,
NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL
};
static int RCinit(struct net_device *dev);
static int RCscan(void);
static int RCfound_device(int, int, int, int, int, int);
static int RCopen(struct net_device *);
static int RC_xmit_packet(struct sk_buff *, struct net_device *);
static void RCinterrupt(int, void *, struct pt_regs *);
static int RCclose(struct net_device *dev);
static struct enet_statistics *RCget_stats(struct net_device *);
static int RCioctl(struct net_device *, struct ifreq *, int);
static int RCconfig(struct net_device *, struct ifmap *);
static void RCxmit_callback(U32, U16, PU32, U16);
static void RCrecv_callback(U32, U8, U32, PU32, U16);
static void RCreset_callback(U32, U32, U32, U16);
static void RCreboot_callback(U32, U32, U32, U16);
static int RC_allocate_and_post_buffers(struct net_device *, int);
/* A list of all installed RC devices, for removing the driver module. */
static struct net_device *root_RCdev = NULL;
static int __init rcpci_init_module (void)
{
int cards_found;
cards_found = RCscan();
if (cards_found)
printk(version);
return cards_found ? 0 : -ENODEV;
}
static int RCscan(void)
{
int cards_found = 0;
static int pci_index = 0;
if (!pcibios_present())
return cards_found;
for (;pci_index < 0x8; pci_index++)
{
unsigned char pci_bus, pci_device_fn;
int scan_status;
int board_index = 0;
unsigned char pci_irq_line;
unsigned int pci_ioaddr;
struct pci_dev *pdev;
scan_status =
(pcibios_find_device (RC_PCI45_VENDOR_ID,
RC_PCI45_DEVICE_ID,
pci_index,
&pci_bus,
&pci_device_fn));
#ifdef RCDEBUG
printk("rc scan_status = 0x%X\n", scan_status);
#endif
if (scan_status != PCIBIOS_SUCCESSFUL ||
!((pdev = pci_find_slot(pci_bus, pci_device_fn))))
break;
pci_irq_line = pdev->irq;
pci_ioaddr = pdev->resource[0].start;
#ifdef RCDEBUG
printk("rc: Found RedCreek PCI adapter\n");
printk("rc: pci_bus = %d, pci_device_fn = %d\n", pci_bus, pci_device_fn);
printk("rc: pci_irq_line = 0x%x \n", pci_irq_line);
printk("rc: pci_ioaddr = 0x%x\n", pci_ioaddr);
#endif
pci_set_master(pdev);
if (!RCfound_device(pci_ioaddr, pci_irq_line,
pci_bus, pci_device_fn,
board_index++, cards_found))
cards_found++;
}
#ifdef RCDEBUG
printk("rc: found %d cards \n", cards_found);
#endif
return cards_found;
}
static int RCinit(struct net_device *dev)
{
dev->open = &RCopen;
dev->hard_start_xmit = &RC_xmit_packet;
dev->stop = &RCclose;
dev->get_stats = &RCget_stats;
dev->do_ioctl = &RCioctl;
dev->set_config = &RCconfig;
return 0;
}
static int
RCfound_device(int memaddr, int irq,
int bus, int function, int product_index, int card_idx)
{
int dev_size = 32768;
unsigned long *vaddr=0;
PDPA pDpa;
int init_status;
struct net_device *dev;
/*
* Allocate and fill new device structure.
* We need enough for struct net_device plus DPA plus the LAN API private
* area, which requires a minimum of 16KB. The top of the allocated
* area will be assigned to struct net_device; the next chunk will be
* assigned to DPA; and finally, the rest will be assigned to the
* the LAN API layer.
*/
dev = (struct net_device *) kmalloc(dev_size, GFP_DMA | GFP_KERNEL |GFP_ATOMIC);
if (!dev)
{
printk("rc: unable to kmalloc dev\n");
return 1;
}
memset(dev, 0, dev_size);
/*
* dev->priv will point to the start of DPA.
*/
dev->priv = (void *)(((long)dev + sizeof(struct net_device) + 15) & ~15);
#ifdef RCDEBUG
printk("rc: dev = 0x%x, dev->priv = 0x%x\n", (uint)dev, (uint)dev->priv);
#endif
pDpa = dev->priv;
if (!dev->name)
dev->name = pDpa->devname;
pDpa->dev = dev; /* this is just for easy reference */
pDpa->function = function;
pDpa->bus = bus;
pDpa->id = card_idx; /* the device number */
pDpa->pci_addr = memaddr;
PCIAdapters[card_idx] = pDpa;
#ifdef RCDEBUG
printk("rc: pDpa = 0x%x, id = %d \n", (uint)pDpa, (uint)pDpa->id);
#endif
/*
* Save the starting address of the LAN API private area. We'll
* pass that to RCInitI2OMsgLayer().
*/
pDpa->PLanApiPA = (void *)(((long)pDpa + sizeof(DPA) + 0xff) & ~0xff);
#ifdef RCDEBUG
printk("rc: pDpa->PLanApiPA = 0x%x\n", (uint)pDpa->PLanApiPA);
#endif
/* The adapter is accessable through memory-access read/write, not
* I/O read/write. Thus, we need to map it to some virtual address
* area in order to access the registers are normal memory.
*/
vaddr = (ulong *) ioremap (memaddr, 2*32768);
#ifdef RCDEBUG
printk("rc: RCfound_device: 0x%x, priv = 0x%x, vaddr = 0x%x\n",
(uint)dev, (uint)dev->priv, (uint)vaddr);
#endif
dev->base_addr = (unsigned long)vaddr;
dev->irq = irq;
/*
* Request a shared interrupt line.
*/
if ( request_irq(dev->irq, (void *)RCinterrupt,
SA_INTERRUPT|SA_SHIRQ, "RedCreek VPN Adapter", dev) )
{
printk( "RC PCI 45: %s: unable to get IRQ %d\n", (PU8)dev->name, (uint)dev->irq );
iounmap(vaddr);
kfree(dev);
return 1;
}
init_status = RCInitI2OMsgLayer(pDpa->id, dev->base_addr,
pDpa->PLanApiPA, (PU8)virt_to_bus((void *)pDpa->PLanApiPA),
(PFNTXCALLBACK)RCxmit_callback,
(PFNRXCALLBACK)RCrecv_callback,
(PFNCALLBACK)RCreboot_callback);
if (init_status)
{
printk("rc: Unable to initialize msg layer\n");
free_irq(dev->irq, dev);
iounmap(vaddr);
kfree(dev);
return 1;
}
if (RCGetMAC(pDpa->id, dev->dev_addr, NULL))
{
printk("rc: Unable to get adapter MAC\n");
free_irq(dev->irq, dev);
iounmap(vaddr);
kfree(dev);
return 1;
}
DriverControlWord |= WARM_REBOOT_CAPABLE;
RCReportDriverCapability(pDpa->id, DriverControlWord);
dev->init = &RCinit;
ether_setup(dev); /* linux kernel interface */
pDpa->next = root_RCdev;
root_RCdev = dev;
if (register_netdev(dev) != 0) /* linux kernel interface */
{
printk("rc: unable to register device \n");
free_irq(dev->irq, dev);
iounmap(vaddr);
kfree(dev);
return 1;
}
printk("%s: RedCreek Communications IPSEC VPN adapter\n",
dev->name);
return 0; /* success */
}
static int
RCopen(struct net_device *dev)
{
int post_buffers = MAX_NMBR_RCV_BUFFERS;
PDPA pDpa = (PDPA) dev->priv;
int count = 0;
int requested = 0;
#ifdef RCDEBUG
printk("rc: RCopen\n");
#endif
RCEnableI2OInterrupts(pDpa->id);
if (pDpa->nexus)
{
/* This is not the first time RCopen is called. Thus,
* the interface was previously opened and later closed
* by RCclose(). RCclose() does a Shutdown; to wake up
* the adapter, a reset is mandatory before we can post
* receive buffers. However, if the adapter initiated
* a reboot while the interface was closed -- and interrupts
* were turned off -- we need will need to reinitialize
* the adapter, rather than simply waking it up.
*/
printk("rc: Waking up adapter...\n");
RCResetLANCard(pDpa->id,0,0,0);
}
else
{
pDpa->nexus = 1;
}
while(post_buffers)
{
if (post_buffers > MAX_NMBR_POST_BUFFERS_PER_MSG)
requested = MAX_NMBR_POST_BUFFERS_PER_MSG;
else
requested = post_buffers;
count = RC_allocate_and_post_buffers(dev, requested);
if ( count < requested )
{
/*
* Check to see if we were able to post any buffers at all.
*/
if (post_buffers == MAX_NMBR_RCV_BUFFERS)
{
printk("rc: Error RCopen: not able to allocate any buffers\r\n");
return(-ENOMEM);
}
printk("rc: Warning RCopen: not able to allocate all requested buffers\r\n");
break; /* we'll try to post more buffers later */
}
else
post_buffers -= count;
}
pDpa->numOutRcvBuffers = MAX_NMBR_RCV_BUFFERS - post_buffers;
pDpa->shutdown = 0; /* just in case */
#ifdef RCDEBUG
printk("rc: RCopen: posted %d buffers\n", (uint)pDpa->numOutRcvBuffers);
#endif
MOD_INC_USE_COUNT;
netif_start_queue(dev);
return 0;
}
static int
RC_xmit_packet(struct sk_buff *skb, struct net_device *dev)
{
PDPA pDpa = (PDPA) dev->priv;
singleTCB tcb;
psingleTCB ptcb = &tcb;
RC_RETURN status = 0;
netif_stop_queue(dev);
if (pDpa->shutdown || pDpa->reboot)
{
#ifdef RCDEBUG
printk("rc: RC_xmit_packet: tbusy!\n");
#endif
return 1;
}
/*
* The user is free to reuse the TCB after RCI2OSendPacket() returns, since
* the function copies the necessary info into its own private space. Thus,
* our TCB can be a local structure. The skb, on the other hand, will be
* freed up in our interrupt handler.
*/
ptcb->bcount = 1;
/*
* we'll get the context when the adapter interrupts us to tell us that
* the transmision is done. At that time, we can free skb.
*/
ptcb->b.context = (U32)skb;
ptcb->b.scount = 1;
ptcb->b.size = skb->len;
ptcb->b.addr = virt_to_bus((void *)skb->data);
#ifdef RCDEBUG
printk("rc: RC xmit: skb = 0x%x, pDpa = 0x%x, id = %d, ptcb = 0x%x\n",
(uint)skb, (uint)pDpa, (uint)pDpa->id, (uint)ptcb);
#endif
if ( (status = RCI2OSendPacket(pDpa->id, (U32)NULL, (PRCTCB)ptcb))
!= RC_RTN_NO_ERROR)
{
#ifdef RCDEBUG
printk("rc: RC send error 0x%x\n", (uint)status);
#endif
return 1;
}
else
{
dev->trans_start = jiffies;
netif_wake_queue(dev);
}
/*
* That's it!
*/
return 0;
}
/*
* RCxmit_callback()
*
* The transmit callback routine. It's called by RCProcI2OMsgQ()
* because the adapter is done with one or more transmit buffers and
* it's returning them to us, or we asked the adapter to return the
* outstanding transmit buffers by calling RCResetLANCard() with
* RC_RESOURCE_RETURN_PEND_TX_BUFFERS flag.
* All we need to do is free the buffers.
*/
static void
RCxmit_callback(U32 Status,
U16 PcktCount,
PU32 BufferContext,
U16 AdapterID)
{
struct sk_buff *skb;
PDPA pDpa;
struct net_device *dev;
pDpa = PCIAdapters[AdapterID];
if (!pDpa)
{
printk("rc: Fatal error: xmit callback, !pDpa\n");
return;
}
dev = pDpa->dev;
// printk("xmit_callback: Status = 0x%x\n", (uint)Status);
if (Status != I2O_REPLY_STATUS_SUCCESS)
{
printk("rc: xmit_callback: Status = 0x%x\n", (uint)Status);
}
#ifdef RCDEBUG
if (pDpa->shutdown || pDpa->reboot)
printk("rc: xmit callback: shutdown||reboot\n");
#endif
#ifdef RCDEBUG
printk("rc: xmit_callback: PcktCount = %d, BC = 0x%x\n",
(uint)PcktCount, (uint)BufferContext);
#endif
while (PcktCount--)
{
skb = (struct sk_buff *)(BufferContext[0]);
#ifdef RCDEBUG
printk("rc: skb = 0x%x\n", (uint)skb);
#endif
BufferContext++;
dev_kfree_skb_irq(skb);
}
netif_wake_queue(dev);
}
static void
RCreset_callback(U32 Status, U32 p1, U32 p2, U16 AdapterID)
{
PDPA pDpa;
struct net_device *dev;
pDpa = PCIAdapters[AdapterID];
dev = pDpa->dev;
#ifdef RCDEBUG
printk("rc: RCreset_callback Status 0x%x\n", (uint)Status);
#endif
/*
* Check to see why we were called.
*/
if (pDpa->shutdown)
{
printk("rc: Shutting down interface\n");
pDpa->shutdown = 0;
pDpa->reboot = 0;
MOD_DEC_USE_COUNT;
}
else if (pDpa->reboot)
{
printk("rc: reboot, shutdown adapter\n");
/*
* We don't set any of the flags in RCShutdownLANCard()
* and we don't pass a callback routine to it.
* The adapter will have already initiated the reboot by
* the time the function returns.
*/
RCDisableI2OInterrupts(pDpa->id);
RCShutdownLANCard(pDpa->id,0,0,0);
printk("rc: scheduling timer...\n");
init_timer(&pDpa->timer);
pDpa->timer.expires = RUN_AT((40*HZ)/10); /* 4 sec. */
pDpa->timer.data = (unsigned long)dev;
pDpa->timer.function = &rc_timer; /* timer handler */
add_timer(&pDpa->timer);
}
}
static void
RCreboot_callback(U32 Status, U32 p1, U32 p2, U16 AdapterID)
{
PDPA pDpa;
pDpa = PCIAdapters[AdapterID];
#ifdef RCDEBUG
printk("rc: RCreboot: rcv buffers outstanding = %d\n",
(uint)pDpa->numOutRcvBuffers);
#endif
if (pDpa->shutdown)
{
printk("rc: skipping reboot sequence -- shutdown already initiated\n");
return;
}
pDpa->reboot = 1;
/*
* OK, we reset the adapter and ask it to return all
* outstanding transmit buffers as well as the posted
* receive buffers. When the adapter is done returning
* those buffers, it will call our RCreset_callback()
* routine. In that routine, we'll call RCShutdownLANCard()
* to tell the adapter that it's OK to start the reboot and
* schedule a timer callback routine to execute 3 seconds
* later; this routine will reinitialize the adapter at that time.
*/
RCResetLANCard(pDpa->id,
RC_RESOURCE_RETURN_POSTED_RX_BUCKETS |
RC_RESOURCE_RETURN_PEND_TX_BUFFERS,0,
(PFNCALLBACK)RCreset_callback);
}
int broadcast_packet(unsigned char * address)
{
int i;
for (i=0; i<6; i++)
if (address[i] != 0xff) return 0;
return 1;
}
/*
* RCrecv_callback()
*
* The receive packet callback routine. This is called by
* RCProcI2OMsgQ() after the adapter posts buffers which have been
* filled (one ethernet packet per buffer).
*/
static void
RCrecv_callback(U32 Status,
U8 PktCount,
U32 BucketsRemain,
PU32 PacketDescBlock,
U16 AdapterID)
{
U32 len, count;
PDPA pDpa;
struct sk_buff *skb;
struct net_device *dev;
singleTCB tcb;
psingleTCB ptcb = &tcb;
pDpa = PCIAdapters[AdapterID];
dev = pDpa->dev;
ptcb->bcount = 1;
#ifdef RCDEBUG
printk("rc: RCrecv_callback: 0x%x, 0x%x, 0x%x\n",
(uint)PktCount, (uint)BucketsRemain, (uint)PacketDescBlock);
#endif
#ifdef RCDEBUG
if ((pDpa->shutdown || pDpa->reboot) && !Status)
printk("shutdown||reboot && !Status: PktCount = %d\n",PktCount);
#endif
if ( (Status != I2O_REPLY_STATUS_SUCCESS) || pDpa->shutdown)
{
/*
* Free whatever buffers the adapter returned, but don't
* pass them to the kernel.
*/
if (!pDpa->shutdown && !pDpa->reboot)
printk("rc: RCrecv error: status = 0x%x\n", (uint)Status);
#ifdef RCDEBUG
else
printk("rc: Returning %d buffers, status = 0x%x\n",
PktCount, (uint)Status);
#endif
/*
* TO DO: check the nature of the failure and put the adapter in
* failed mode if it's a hard failure. Send a reset to the adapter
* and free all outstanding memory.
*/
if (Status == I2O_REPLY_STATUS_ABORT_NO_DATA_TRANSFER)
{
#ifdef RCDEBUG
printk("RCrecv status ABORT NO DATA TRANSFER\n");
#endif
}
/* check for reset status: I2O_REPLY_STATUS_ABORT_NO_DATA_TRANSFER */
if (PacketDescBlock)
{
while(PktCount--)
{
skb = (struct sk_buff *)PacketDescBlock[0];
#ifdef RCDEBUG
printk("free skb 0x%p\n", skb);
#endif
dev_kfree_skb (skb);
pDpa->numOutRcvBuffers--;
PacketDescBlock += BD_SIZE; /* point to next context field */
}
}
return;
}
else
{
while(PktCount--)
{
skb = (struct sk_buff *)PacketDescBlock[0];
#ifdef RCDEBUG
if (pDpa->shutdown)
printk("shutdown: skb=0x%x\n", (uint)skb);
printk("skb = 0x%x: 0x%x 0x%x 0x%x 0x%x 0x%x 0x%x\n", (uint)skb,
(uint)skb->data[0], (uint)skb->data[1], (uint)skb->data[2],
(uint)skb->data[3], (uint)skb->data[4], (uint)skb->data[5]);
#endif
#ifdef PROMISCUOUS_BY_DEFAULT /* early 2.x firmware */
if ( (memcmp(dev->dev_addr, skb->data, 6)) &&
(!broadcast_packet(skb->data)))
{
/*
* Re-post the buffer to the adapter. Since the adapter usually
* return 1 to 2 receive buffers at a time, it's not too inefficient
* post one buffer at a time but ... may be that should be
* optimized at some point.
*/
ptcb->b.context = (U32)skb;
ptcb->b.scount = 1;
ptcb->b.size = MAX_ETHER_SIZE;
ptcb->b.addr = virt_to_bus((void *)skb->data);
if ( RCPostRecvBuffers(pDpa->id, (PRCTCB)ptcb ) != RC_RTN_NO_ERROR)
{
printk("rc: RCrecv_callback: post buffer failed!\n");
dev_kfree_skb (skb);
}
else
{
pDpa->numOutRcvBuffers++;
}
}
else
#endif /* PROMISCUOUS_BY_DEFAULT */
{
len = PacketDescBlock[2];
skb->dev = dev;
skb_put( skb, len ); /* adjust length and tail */
skb->protocol = eth_type_trans(skb, dev);
netif_rx(skb); /* send the packet to the kernel */
dev->last_rx = jiffies;
}
pDpa->numOutRcvBuffers--;
PacketDescBlock += BD_SIZE; /* point to next context field */
}
}
/*
* Replenish the posted receive buffers.
* DO NOT replenish buffers if the driver has already
* initiated a reboot or shutdown!
*/
if (!pDpa->shutdown && !pDpa->reboot)
{
count = RC_allocate_and_post_buffers(dev,
MAX_NMBR_RCV_BUFFERS-pDpa->numOutRcvBuffers);
pDpa->numOutRcvBuffers += count;
}
}
/*
* RCinterrupt()
*
* Interrupt handler.
* This routine sets up a couple of pointers and calls
* RCProcI2OMsgQ(), which in turn process the message and
* calls one of our callback functions.
*/
static void
RCinterrupt(int irq, void *dev_id, struct pt_regs *regs)
{
PDPA pDpa;
struct net_device *dev = (struct net_device *)(dev_id);
pDpa = (PDPA) (dev->priv);
#ifdef RCDEBUG
if (pDpa->shutdown)
printk("rc: shutdown: service irq\n");
printk("RC irq: pDpa = 0x%x, dev = 0x%x, id = %d\n",
(uint)pDpa, (uint)dev, (uint)pDpa->id);
printk("dev = 0x%x\n", (uint)dev);
#endif
RCProcI2OMsgQ(pDpa->id);
}
#define REBOOT_REINIT_RETRY_LIMIT 4
static void rc_timer(unsigned long data)
{
struct net_device *dev = (struct net_device *)data;
PDPA pDpa = (PDPA) (dev->priv);
int init_status;
static int retry = 0;
int post_buffers = MAX_NMBR_RCV_BUFFERS;
int count = 0;
int requested = 0;
if (pDpa->reboot)
{
init_status = RCInitI2OMsgLayer(pDpa->id, dev->base_addr,
pDpa->PLanApiPA,
(PU8)virt_to_bus((void *)pDpa->PLanApiPA),
(PFNTXCALLBACK)RCxmit_callback,
(PFNRXCALLBACK)RCrecv_callback,
(PFNCALLBACK)RCreboot_callback);
switch(init_status)
{
case RC_RTN_NO_ERROR:
pDpa->reboot = 0;
pDpa->shutdown = 0; /* just in case */
RCReportDriverCapability(pDpa->id, DriverControlWord);
RCEnableI2OInterrupts(pDpa->id);
if (dev->flags & IFF_UP)
{
while(post_buffers)
{
if (post_buffers > MAX_NMBR_POST_BUFFERS_PER_MSG)
requested = MAX_NMBR_POST_BUFFERS_PER_MSG;
else
requested = post_buffers;
count = RC_allocate_and_post_buffers(dev, requested);
post_buffers -= count;
if ( count < requested )
break;
}
pDpa->numOutRcvBuffers =
MAX_NMBR_RCV_BUFFERS - post_buffers;
printk("rc: posted %d buffers \r\n",
(uint)pDpa->numOutRcvBuffers);
}
printk("rc: Initialization done.\n");
netif_wake_queue(dev);
retry=0;
return;
case RC_RTN_FREE_Q_EMPTY:
retry++;
printk("rc: inbound free q empty\n");
break;
default:
retry++;
printk("rc: bad status after reboot: %d\n", init_status);
break;
}
if (retry > REBOOT_REINIT_RETRY_LIMIT)
{
printk("rc: unable to reinitialize adapter after reboot\n");
printk("rc: decrementing driver and closing interface\n");
RCDisableI2OInterrupts(pDpa->id);
dev->flags &= ~IFF_UP;
MOD_DEC_USE_COUNT;
}
else
{
printk("rc: rescheduling timer...\n");
init_timer(&pDpa->timer);
pDpa->timer.expires = RUN_AT((40*HZ)/10); /* 3 sec. */
pDpa->timer.data = (unsigned long)dev;
pDpa->timer.function = &rc_timer; /* timer handler */
add_timer(&pDpa->timer);
}
}
else
{
printk("rc: timer??\n");
}
}
static int
RCclose(struct net_device *dev)
{
PDPA pDpa = (PDPA) dev->priv;
netif_stop_queue(dev);
#ifdef RCDEBUG
printk("rc: RCclose\r\n");
#endif
if (pDpa->reboot)
{
printk("rc: skipping reset -- adapter already in reboot mode\n");
dev->flags &= ~IFF_UP;
pDpa->shutdown = 1;
return 0;
}
#ifdef RCDEBUG
printk("rc: receive buffers outstanding: %d\n",
(uint)pDpa->numOutRcvBuffers);
#endif
pDpa->shutdown = 1;
/*
* We can't allow the driver to be unloaded until the adapter returns
* all posted receive buffers. It doesn't hurt to tell the adapter
* to return all posted receive buffers and outstanding xmit buffers,
* even if there are none.
*/
RCShutdownLANCard(pDpa->id,
RC_RESOURCE_RETURN_POSTED_RX_BUCKETS |
RC_RESOURCE_RETURN_PEND_TX_BUFFERS,0,
(PFNCALLBACK)RCreset_callback);
dev->flags &= ~IFF_UP;
return 0;
}
static struct enet_statistics *
RCget_stats(struct net_device *dev)
{
RCLINKSTATS RCstats;
PDPA pDpa = dev->priv;
if (!pDpa)
{
printk("rc: RCget_stats: !pDpa\n");
return 0;
}
else if (!(dev->flags & IFF_UP))
{
#ifdef RCDEBUG
printk("rc: RCget_stats: device down\n");
#endif
return 0;
}
memset(&RCstats, 0, sizeof(RCLINKSTATS));
if ( (RCGetLinkStatistics(pDpa->id, &RCstats, (void *)0)) == RC_RTN_NO_ERROR )
{
#ifdef RCDEBUG
printk("rc: TX_good 0x%x\n", (uint)RCstats.TX_good);
printk("rc: TX_maxcol 0x%x\n", (uint)RCstats.TX_maxcol);
printk("rc: TX_latecol 0x%x\n", (uint)RCstats.TX_latecol);
printk("rc: TX_urun 0x%x\n", (uint)RCstats.TX_urun);
printk("rc: TX_crs 0x%x\n", (uint)RCstats.TX_crs);
printk("rc: TX_def 0x%x\n", (uint)RCstats.TX_def);
printk("rc: TX_singlecol 0x%x\n", (uint)RCstats.TX_singlecol);
printk("rc: TX_multcol 0x%x\n", (uint)RCstats.TX_multcol);
printk("rc: TX_totcol 0x%x\n", (uint)RCstats.TX_totcol);
printk("rc: Rcv_good 0x%x\n", (uint)RCstats.Rcv_good);
printk("rc: Rcv_CRCerr 0x%x\n", (uint)RCstats.Rcv_CRCerr);
printk("rc: Rcv_alignerr 0x%x\n", (uint)RCstats.Rcv_alignerr);
printk("rc: Rcv_reserr 0x%x\n", (uint)RCstats.Rcv_reserr);
printk("rc: Rcv_orun 0x%x\n", (uint)RCstats.Rcv_orun);
printk("rc: Rcv_cdt 0x%x\n", (uint)RCstats.Rcv_cdt);
printk("rc: Rcv_runt 0x%x\n", (uint)RCstats.Rcv_runt);
#endif
pDpa->stats.rx_packets = RCstats.Rcv_good; /* total packets received */
pDpa->stats.tx_packets = RCstats.TX_good; /* total packets transmitted */
pDpa->stats.rx_errors =
RCstats.Rcv_CRCerr +
RCstats.Rcv_alignerr +
RCstats.Rcv_reserr +
RCstats.Rcv_orun +
RCstats.Rcv_cdt +
RCstats.Rcv_runt; /* bad packets received */
pDpa->stats.tx_errors =
RCstats.TX_urun +
RCstats.TX_crs +
RCstats.TX_def +
RCstats.TX_totcol; /* packet transmit problems */
/*
* This needs improvement.
*/
pDpa->stats.rx_dropped = 0; /* no space in linux buffers */
pDpa->stats.tx_dropped = 0; /* no space available in linux */
pDpa->stats.multicast = 0; /* multicast packets received */
pDpa->stats.collisions = RCstats.TX_totcol;
/* detailed rx_errors: */
pDpa->stats.rx_length_errors = 0;
pDpa->stats.rx_over_errors = RCstats.Rcv_orun; /* receiver ring buff overflow */
pDpa->stats.rx_crc_errors = RCstats.Rcv_CRCerr; /* recved pkt with crc error */
pDpa->stats.rx_frame_errors = 0; /* recv'd frame alignment error */
pDpa->stats.rx_fifo_errors = 0; /* recv'r fifo overrun */
pDpa->stats.rx_missed_errors = 0; /* receiver missed packet */
/* detailed tx_errors */
pDpa->stats.tx_aborted_errors = 0;
pDpa->stats.tx_carrier_errors = 0;
pDpa->stats.tx_fifo_errors = 0;
pDpa->stats.tx_heartbeat_errors = 0;
pDpa->stats.tx_window_errors = 0;
return ((struct enet_statistics *)&(pDpa->stats));
}
return 0;
}
static int RCioctl(struct net_device *dev, struct ifreq *rq, int cmd)
{
RCuser_struct RCuser;
PDPA pDpa = dev->priv;
#if RCDEBUG
printk("RCioctl: cmd = 0x%x\n", cmd);
#endif
switch (cmd) {
case RCU_PROTOCOL_REV:
/*
* Assign user protocol revision, to tell user-level
* controller program whether or not it's in sync.
*/
rq->ifr_ifru.ifru_data = (caddr_t) USER_PROTOCOL_REV;
break;
case RCU_COMMAND:
{
if(copy_from_user(&RCuser, rq->ifr_data, sizeof(RCuser)))
return -EFAULT;
#ifdef RCDEBUG
printk("RCioctl: RCuser_cmd = 0x%x\n", RCuser.cmd);
#endif
switch(RCuser.cmd)
{
case RCUC_GETFWVER:
printk("RC GETFWVER\n");
RCUD_GETFWVER = &RCuser.RCUS_GETFWVER;
RCGetFirmwareVer(pDpa->id, (PU8) &RCUD_GETFWVER->FirmString, NULL);
break;
case RCUC_GETINFO:
printk("RC GETINFO\n");
RCUD_GETINFO = &RCuser.RCUS_GETINFO;
RCUD_GETINFO -> mem_start = dev->base_addr;
RCUD_GETINFO -> mem_end = dev->base_addr + 2*32768;
RCUD_GETINFO -> base_addr = pDpa->pci_addr;
RCUD_GETINFO -> irq = dev->irq;
break;
case RCUC_GETIPANDMASK:
printk("RC GETIPANDMASK\n");
RCUD_GETIPANDMASK = &RCuser.RCUS_GETIPANDMASK;
RCGetRavlinIPandMask(pDpa->id, (PU32) &RCUD_GETIPANDMASK->IpAddr,
(PU32) &RCUD_GETIPANDMASK->NetMask, NULL);
break;
case RCUC_GETLINKSTATISTICS:
printk("RC GETLINKSTATISTICS\n");
RCUD_GETLINKSTATISTICS = &RCuser.RCUS_GETLINKSTATISTICS;
RCGetLinkStatistics(pDpa->id, (P_RCLINKSTATS) &RCUD_GETLINKSTATISTICS->StatsReturn, NULL);
break;
case RCUC_GETLINKSTATUS:
printk("RC GETLINKSTATUS\n");
RCUD_GETLINKSTATUS = &RCuser.RCUS_GETLINKSTATUS;
RCGetLinkStatus(pDpa->id, (PU32) &RCUD_GETLINKSTATUS->ReturnStatus, NULL);
break;
case RCUC_GETMAC:
printk("RC GETMAC\n");
RCUD_GETMAC = &RCuser.RCUS_GETMAC;
RCGetMAC(pDpa->id, (PU8) &RCUD_GETMAC->mac, NULL);
break;
case RCUC_GETPROM:
printk("RC GETPROM\n");
RCUD_GETPROM = &RCuser.RCUS_GETPROM;
RCGetPromiscuousMode(pDpa->id, (PU32) &RCUD_GETPROM->PromMode, NULL);
break;
case RCUC_GETBROADCAST:
printk("RC GETBROADCAST\n");
RCUD_GETBROADCAST = &RCuser.RCUS_GETBROADCAST;
RCGetBroadcastMode(pDpa->id, (PU32) &RCUD_GETBROADCAST->BroadcastMode, NULL);
break;
case RCUC_GETSPEED:
printk("RC GETSPEED\n");
if (!(dev->flags & IFF_UP))
{
printk("RCioctl, GETSPEED error: interface down\n");
return -ENODATA;
}
RCUD_GETSPEED = &RCuser.RCUS_GETSPEED;
RCGetLinkSpeed(pDpa->id, (PU32) &RCUD_GETSPEED->LinkSpeedCode, NULL);
printk("RC speed = 0x%ld\n", RCUD_GETSPEED->LinkSpeedCode);
break;
case RCUC_SETIPANDMASK:
printk("RC SETIPANDMASK\n");
RCUD_SETIPANDMASK = &RCuser.RCUS_SETIPANDMASK;
printk ("RC New IP Addr = %d.%d.%d.%d, ", (U8) ((RCUD_SETIPANDMASK->IpAddr) & 0xff),
(U8) ((RCUD_SETIPANDMASK->IpAddr >> 8) & 0xff),
(U8) ((RCUD_SETIPANDMASK->IpAddr >> 16) & 0xff),
(U8) ((RCUD_SETIPANDMASK->IpAddr >> 24) & 0xff));
printk ("RC New Mask = %d.%d.%d.%d\n", (U8) ((RCUD_SETIPANDMASK->NetMask) & 0xff),
(U8) ((RCUD_SETIPANDMASK->NetMask >> 8) & 0xff),
(U8) ((RCUD_SETIPANDMASK->NetMask >> 16) & 0xff),
(U8) ((RCUD_SETIPANDMASK->NetMask >> 24) & 0xff));
RCSetRavlinIPandMask(pDpa->id, (U32) RCUD_SETIPANDMASK->IpAddr,
(U32) RCUD_SETIPANDMASK->NetMask);
break;
case RCUC_SETMAC:
printk("RC SETMAC\n");
RCUD_SETMAC = &RCuser.RCUS_SETMAC;
printk ("RC New MAC addr = %02X:%02X:%02X:%02X:%02X:%02X\n",
(U8) (RCUD_SETMAC->mac[0]), (U8) (RCUD_SETMAC->mac[1]), (U8) (RCUD_SETMAC->mac[2]),
(U8) (RCUD_SETMAC->mac[3]), (U8) (RCUD_SETMAC->mac[4]), (U8) (RCUD_SETMAC->mac[5]));
RCSetMAC(pDpa->id, (PU8) &RCUD_SETMAC->mac);
break;
case RCUC_SETSPEED:
printk("RC SETSPEED\n");
RCUD_SETSPEED = &RCuser.RCUS_SETSPEED;
RCSetLinkSpeed(pDpa->id, (U16) RCUD_SETSPEED->LinkSpeedCode);
printk("RC New speed = 0x%d\n", RCUD_SETSPEED->LinkSpeedCode);
break;
case RCUC_SETPROM:
printk("RC SETPROM\n");
RCUD_SETPROM = &RCuser.RCUS_SETPROM;
RCSetPromiscuousMode(pDpa->id,(U16)RCUD_SETPROM->PromMode);
printk("RC New prom mode = 0x%d\n", RCUD_SETPROM->PromMode);
break;
case RCUC_SETBROADCAST:
printk("RC SETBROADCAST\n");
RCUD_SETBROADCAST = &RCuser.RCUS_SETBROADCAST;
RCSetBroadcastMode(pDpa->id,(U16)RCUD_SETBROADCAST->BroadcastMode);
printk("RC New broadcast mode = 0x%d\n", RCUD_SETBROADCAST->BroadcastMode);
break;
default:
printk("RC command default\n");
RCUD_DEFAULT = &RCuser.RCUS_DEFAULT;
RCUD_DEFAULT -> rc = 0x11223344;
break;
}
copy_to_user(rq->ifr_data, &RCuser, sizeof(RCuser));
break;
} /* RCU_COMMAND */
default:
printk("RC default\n");
rq->ifr_ifru.ifru_data = (caddr_t) 0x12345678;
break;
}
return 0;
}
static int RCconfig(struct net_device *dev, struct ifmap *map)
{
/*
* To be completed ...
*/
printk("rc: RCconfig\n");
return 0;
if (dev->flags & IFF_UP) /* can't act on a running interface */
return -EBUSY;
/* Don't allow changing the I/O address */
if (map->base_addr != dev->base_addr) {
printk(KERN_WARNING "RC pci45: Change I/O address not implemented\n");
return -EOPNOTSUPP;
}
return 0;
}
static void __exit rcpci_cleanup_module (void)
{
PDPA pDpa;
struct net_device *next;
#ifdef RCDEBUG
printk("rc: RC cleanup_module\n");
printk("rc: root_RCdev = 0x%x\n", (uint)root_RCdev);
#endif
while (root_RCdev)
{
pDpa = (PDPA) root_RCdev->priv;
#ifdef RCDEBUG
printk("rc: cleanup 0x%08X\n", (uint)root_RCdev);
#endif
printk("IOP reset: 0x%x\n", RCResetIOP(pDpa->id));
unregister_netdev(root_RCdev);
next = pDpa->next;
iounmap((unsigned long *)root_RCdev->base_addr);
free_irq( root_RCdev->irq, root_RCdev );
kfree(root_RCdev);
root_RCdev = next;
}
}
module_init(rcpci_init_module);
module_exit(rcpci_clenaup_module);
static int
RC_allocate_and_post_buffers(struct net_device *dev, int numBuffers)
{
int i;
PDPA pDpa = (PDPA)dev->priv;
PU32 p;
psingleB pB;
struct sk_buff *skb;
RC_RETURN status;
if (!numBuffers)
return 0;
else if (numBuffers > MAX_NMBR_POST_BUFFERS_PER_MSG)
{
#ifdef RCDEBUG
printk("rc: Too many buffers requested!\n");
printk("rc: attempting to allocate only 32 buffers\n");
#endif
numBuffers = 32;
}
p = (PU32) kmalloc(sizeof(U32) + numBuffers*sizeof(singleB), GFP_ATOMIC);
#ifdef RCDEBUG
printk("rc: TCB = 0x%x\n", (uint)p);
#endif
if (!p)
{
printk("rc: RCopen: unable to allocate TCB\n");
return 0;
}
p[0] = 0; /* Buffer Count */
pB = (psingleB)((U32)p + sizeof(U32)); /* point to the first buffer */
#ifdef RCDEBUG
printk("rc: p[0] = 0x%x, p = 0x%x, pB = 0x%x\n", (uint)p[0], (uint)p, (uint)pB);
printk("rc: pB = 0x%x\n", (uint)pB);
#endif
for (i=0; i<numBuffers; i++)
{
skb = dev_alloc_skb(MAX_ETHER_SIZE+2);
if (!skb)
{
printk("rc: Doh! RCopen: unable to allocate enough skbs!\n");
if (*p != 0) /* did we allocate any buffers at all? */
{
#ifdef RCDEBUG
printk("rc: will post only %d buffers \n", (uint)(*p));
#endif
break;
}
else
{
kfree(p); /* Free the TCB */
return 0;
}
}
#ifdef RCDEBUG
printk("post 0x%x\n", (uint)skb);
#endif
skb_reserve(skb, 2); /* Align IP on 16 byte boundaries */
pB->context = (U32)skb;
pB->scount = 1; /* segment count */
pB->size = MAX_ETHER_SIZE;
pB->addr = virt_to_bus((void *)skb->data);
p[0]++;
pB++;
}
if ( (status = RCPostRecvBuffers(pDpa->id, (PRCTCB)p )) != RC_RTN_NO_ERROR)
{
printk("rc: Post buffer failed with error code 0x%x!\n", status);
pB = (psingleB)((U32)p + sizeof(U32)); /* point to the first buffer */
while(p[0])
{
skb = (struct sk_buff *)pB->context;
#ifdef RCDEBUG
printk("rc: freeing 0x%x\n", (uint)skb);
#endif
dev_kfree_skb (skb);
p[0]--;
pB++;
}
#ifdef RCDEBUG
printk("rc: freed all buffers, p[0] = %ld\n", p[0]);
#endif
}
kfree(p);
return(p[0]); /* return the number of posted buffers */
}
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