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// Petko Manolov - Petkan (petkan@dce.bg)
// from his driver pegasus.c
/*
* 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., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*/
#include <linux/sched.h>
#include <linux/slab.h>
#include <linux/init.h>
#include <linux/delay.h>
#include <linux/netdevice.h>
#include <linux/etherdevice.h>
#include <linux/usb.h>
#include <linux/module.h>
#include "cdc-ether.h"
static const char *version = __FILE__ ": v0.98.5 22 Sep 2001 Brad Hards and another";
/* Take any CDC device, and sort it out in probe() */
static struct usb_device_id CDCEther_ids[] = {
{ USB_DEVICE_INFO(USB_CLASS_COMM, 0, 0) },
{ } /* Terminating null entry */
};
/*
* module parameter that provides an alternate upper limit on the
* number of multicast filters we use, with a default to use all
* the filters available to us. Note that the actual number used
* is the lesser of this parameter and the number returned in the
* descriptor for the particular device. See Table 41 of the CDC
* spec for more info on the descriptor limit.
*/
static int multicast_filter_limit = 32767;
//////////////////////////////////////////////////////////////////////////////
// Callback routines from USB device /////////////////////////////////////////
//////////////////////////////////////////////////////////////////////////////
static void read_bulk_callback( struct urb *urb )
{
ether_dev_t *ether_dev = urb->context;
struct net_device *net;
int count = urb->actual_length, res;
struct sk_buff *skb;
// Sanity check
if ( !ether_dev || !(ether_dev->flags & CDC_ETHER_RUNNING) ) {
dbg("BULK IN callback but driver is not active!");
return;
}
net = ether_dev->net;
if ( !netif_device_present(net) ) {
// Somebody killed our network interface...
return;
}
if ( ether_dev->flags & CDC_ETHER_RX_BUSY ) {
// Are we already trying to receive a frame???
ether_dev->stats.rx_errors++;
dbg("ether_dev Rx busy");
return;
}
// We are busy, leave us alone!
ether_dev->flags |= CDC_ETHER_RX_BUSY;
switch ( urb->status ) {
case 0:
break;
case -ETIMEDOUT:
dbg( "no repsonse in BULK IN" );
ether_dev->flags &= ~CDC_ETHER_RX_BUSY;
break;
default:
dbg( "%s: RX status %d", net->name, urb->status );
goto goon;
}
// Check to make sure we got some data...
if ( !count ) {
// We got no data!!!
goto goon;
}
// Tell the kernel we want some memory
if ( !(skb = dev_alloc_skb(count)) ) {
// We got no receive buffer.
goto goon;
}
// Here's where it came from
skb->dev = net;
// Now we copy it over
eth_copy_and_sum(skb, ether_dev->rx_buff, count, 0);
// Not sure
skb_put(skb, count);
// Not sure here either
skb->protocol = eth_type_trans(skb, net);
// Ship it off to the kernel
netif_rx(skb);
// update out statistics
ether_dev->stats.rx_packets++;
ether_dev->stats.rx_bytes += count;
goon:
// Prep the USB to wait for another frame
FILL_BULK_URB( ether_dev->rx_urb, ether_dev->usb,
usb_rcvbulkpipe(ether_dev->usb, ether_dev->data_ep_in),
ether_dev->rx_buff, ether_dev->wMaxSegmentSize,
read_bulk_callback, ether_dev );
// Give this to the USB subsystem so it can tell us
// when more data arrives.
if ( (res = usb_submit_urb(ether_dev->rx_urb, GFP_KERNEL)) ) {
warn( __FUNCTION__ " failed submint rx_urb %d", res);
}
// We are no longer busy, show us the frames!!!
ether_dev->flags &= ~CDC_ETHER_RX_BUSY;
}
static void write_bulk_callback( struct urb *urb )
{
ether_dev_t *ether_dev = urb->context;
// Sanity check
if ( !ether_dev || !(ether_dev->flags & CDC_ETHER_RUNNING) ) {
// We are insane!!!
err( "write_bulk_callback: device not running" );
return;
}
// Do we still have a valid kernel network device?
if ( !netif_device_present(ether_dev->net) ) {
// Someone killed our network interface.
err( "write_bulk_callback: net device not present" );
return;
}
// Hmm... What on Earth could have happened???
if ( urb->status ) {
info("%s: TX status %d", ether_dev->net->name, urb->status);
}
// Update the network interface and tell it we are
// ready for another frame
ether_dev->net->trans_start = jiffies;
netif_wake_queue( ether_dev->net );
}
//static void intr_callback( struct urb *urb )
//{
// ether_dev_t *ether_dev = urb->context;
// struct net_device *net;
// __u8 *d;
//
// if ( !ether_dev )
// return;
//
// switch ( urb->status ) {
// case 0:
// break;
// case -ENOENT:
// return;
// default:
// info("intr status %d", urb->status);
// }
//
// d = urb->transfer_buffer;
// net = ether_dev->net;
// if ( d[0] & 0xfc ) {
// ether_dev->stats.tx_errors++;
// if ( d[0] & TX_UNDERRUN )
// ether_dev->stats.tx_fifo_errors++;
// if ( d[0] & (EXCESSIVE_COL | JABBER_TIMEOUT) )
// ether_dev->stats.tx_aborted_errors++;
// if ( d[0] & LATE_COL )
// ether_dev->stats.tx_window_errors++;
// if ( d[0] & (NO_CARRIER | LOSS_CARRIER) )
// ether_dev->stats.tx_carrier_errors++;
// }
//}
//////////////////////////////////////////////////////////////////////////////
// Routines for turning net traffic on and off on the USB side ///////////////
//////////////////////////////////////////////////////////////////////////////
static inline int enable_net_traffic( ether_dev_t *ether_dev )
{
struct usb_device *usb = ether_dev->usb;
// Here would be the time to set the data interface to the configuration where
// it has two endpoints that use a protocol we can understand.
if (usb_set_interface( usb,
ether_dev->data_bInterfaceNumber,
ether_dev->data_bAlternateSetting_with_traffic ) ) {
err("usb_set_interface() failed" );
err("Attempted to set interface %d", ether_dev->data_bInterfaceNumber);
err("To alternate setting %d", ether_dev->data_bAlternateSetting_with_traffic);
return -1;
}
return 0;
}
static inline void disable_net_traffic( ether_dev_t *ether_dev )
{
// The thing to do is to set the data interface to the alternate setting that has
// no endpoints. This is what the spec suggests.
if (ether_dev->data_interface_altset_num_without_traffic >= 0 ) {
if (usb_set_interface( ether_dev->usb,
ether_dev->data_bInterfaceNumber,
ether_dev->data_bAlternateSetting_without_traffic ) ) {
err("usb_set_interface() failed");
}
} else {
// Some devices just may not support this...
warn("No way to disable net traffic");
}
}
//////////////////////////////////////////////////////////////////////////////
// Callback routines for kernel Ethernet Device //////////////////////////////
//////////////////////////////////////////////////////////////////////////////
static void CDCEther_tx_timeout( struct net_device *net )
{
ether_dev_t *ether_dev = net->priv;
// Sanity check
if ( !ether_dev ) {
// Seems to be a case of insanity here
return;
}
// Tell syslog we are hosed.
warn("%s: Tx timed out.", net->name);
// Tear the waiting frame off the list
ether_dev->tx_urb->transfer_flags |= USB_ASYNC_UNLINK;
usb_unlink_urb( ether_dev->tx_urb );
// Update statistics
ether_dev->stats.tx_errors++;
}
static int CDCEther_start_xmit( struct sk_buff *skb, struct net_device *net )
{
ether_dev_t *ether_dev = net->priv;
int count;
int res;
// If we are told to transmit an ethernet frame that fits EXACTLY
// into an integer number of USB packets, we force it to send one
// more byte so the device will get a runt USB packet signalling the
// end of the ethernet frame
if ( (skb->len) ^ (ether_dev->data_ep_out_size) ) {
// It was not an exact multiple
// no need to add anything extra
count = skb->len;
} else {
// Add one to make it NOT an exact multiple
count = skb->len + 1;
}
// Tell the kernel, "No more frames 'til we are done
// with this one.'
netif_stop_queue( net );
// Copy it from kernel memory to OUR memory
memcpy(ether_dev->tx_buff, skb->data, skb->len);
// Fill in the URB for shipping it out.
FILL_BULK_URB( ether_dev->tx_urb, ether_dev->usb,
usb_sndbulkpipe(ether_dev->usb, ether_dev->data_ep_out),
ether_dev->tx_buff, ether_dev->wMaxSegmentSize,
write_bulk_callback, ether_dev );
// Tell the URB how much it will be transporting today
ether_dev->tx_urb->transfer_buffer_length = count;
// Send the URB on its merry way.
if ((res = usb_submit_urb(ether_dev->tx_urb, GFP_KERNEL))) {
// Hmm... It didn't go. Tell someone...
warn("failed tx_urb %d", res);
// update some stats...
ether_dev->stats.tx_errors++;
// and tell the kernel to give us another.
// Maybe we'll get it right next time.
netif_start_queue( net );
} else {
// Okay, it went out.
// Update statistics
ether_dev->stats.tx_packets++;
ether_dev->stats.tx_bytes += skb->len;
// And tell the kernel when the last transmit occurred.
net->trans_start = jiffies;
}
// We are done with the kernel's memory
dev_kfree_skb(skb);
// We are done here.
return 0;
}
static struct net_device_stats *CDCEther_netdev_stats( struct net_device *net )
{
// Easy enough!
return &((ether_dev_t *)net->priv)->stats;
}
static int CDCEther_open(struct net_device *net)
{
ether_dev_t *ether_dev = (ether_dev_t *)net->priv;
int res;
// Turn on the USB and let the packets flow!!!
if ( (res = enable_net_traffic( ether_dev )) ) {
err( __FUNCTION__ "can't enable_net_traffic() - %d", res );
return -EIO;
}
// Prep a receive URB
FILL_BULK_URB( ether_dev->rx_urb, ether_dev->usb,
usb_rcvbulkpipe(ether_dev->usb, ether_dev->data_ep_in),
ether_dev->rx_buff, ether_dev->wMaxSegmentSize,
read_bulk_callback, ether_dev );
// Put it out there so the device can send us stuff
if ( (res = usb_submit_urb(ether_dev->rx_urb, GFP_KERNEL)) )
{
// Hmm... Okay...
warn( __FUNCTION__ " failed rx_urb %d", res );
}
// Tell the kernel we are ready to start receiving from it
netif_start_queue( net );
// We are up and running.
ether_dev->flags |= CDC_ETHER_RUNNING;
// Let's get ready to move frames!!!
return 0;
}
static int CDCEther_close( struct net_device *net )
{
ether_dev_t *ether_dev = net->priv;
// We are no longer running.
ether_dev->flags &= ~CDC_ETHER_RUNNING;
// Tell the kernel to stop sending us stuff
netif_stop_queue( net );
// If we are not already unplugged, turn off USB
// traffic
if ( !(ether_dev->flags & CDC_ETHER_UNPLUG) ) {
disable_net_traffic( ether_dev );
}
// We don't need the URBs anymore.
usb_unlink_urb( ether_dev->rx_urb );
usb_unlink_urb( ether_dev->tx_urb );
usb_unlink_urb( ether_dev->intr_urb );
// That's it. I'm done.
return 0;
}
static int CDCEther_ioctl( struct net_device *net, struct ifreq *rq, int cmd )
{
//__u16 *data = (__u16 *)&rq->ifr_data;
//ether_dev_t *ether_dev = net->priv;
// No support here yet.
// Do we need support???
switch(cmd) {
case SIOCDEVPRIVATE:
return -EOPNOTSUPP;
case SIOCDEVPRIVATE+1:
return -EOPNOTSUPP;
case SIOCDEVPRIVATE+2:
//return 0;
return -EOPNOTSUPP;
default:
return -EOPNOTSUPP;
}
}
static void CDC_SetEthernetPacketFilter (ether_dev_t *ether_dev)
{
usb_control_msg(ether_dev->usb,
usb_sndctrlpipe(ether_dev->usb, 0),
SET_ETHERNET_PACKET_FILTER, /* request */
USB_TYPE_CLASS | USB_DIR_OUT | USB_RECIP_INTERFACE, /* request type */
cpu_to_le16(ether_dev->mode_flags), /* value */
cpu_to_le16((u16)ether_dev->comm_interface), /* index */
NULL,
0, /* size */
HZ); /* timeout */
}
static void CDCEther_set_multicast( struct net_device *net )
{
ether_dev_t *ether_dev = net->priv;
int i;
__u8 *buff;
// Tell the kernel to stop sending us frames while we get this
// all set up.
netif_stop_queue(net);
/* Note: do not reorder, GCC is clever about common statements. */
if (net->flags & IFF_PROMISC) {
/* Unconditionally log net taps. */
info( "%s: Promiscuous mode enabled", net->name);
ether_dev->mode_flags = MODE_FLAG_PROMISCUOUS |
MODE_FLAG_ALL_MULTICAST |
MODE_FLAG_DIRECTED |
MODE_FLAG_BROADCAST |
MODE_FLAG_MULTICAST;
} else if (net->mc_count > ether_dev->wNumberMCFilters) {
/* Too many to filter perfectly -- accept all multicasts. */
info("%s: set too many MC filters, using allmulti", net->name);
ether_dev->mode_flags = MODE_FLAG_ALL_MULTICAST |
MODE_FLAG_DIRECTED |
MODE_FLAG_BROADCAST |
MODE_FLAG_MULTICAST;
} else if (net->flags & IFF_ALLMULTI) {
/* Filter in software */
info("%s: using allmulti", net->name);
ether_dev->mode_flags = MODE_FLAG_ALL_MULTICAST |
MODE_FLAG_DIRECTED |
MODE_FLAG_BROADCAST |
MODE_FLAG_MULTICAST;
} else {
/* do multicast filtering in hardware */
struct dev_mc_list *mclist;
info("%s: set multicast filters", net->name);
ether_dev->mode_flags = MODE_FLAG_ALL_MULTICAST |
MODE_FLAG_DIRECTED |
MODE_FLAG_BROADCAST |
MODE_FLAG_MULTICAST;
buff = kmalloc(6 * net->mc_count, in_interrupt() ? GFP_ATOMIC : GFP_KERNEL);
for (i = 0, mclist = net->mc_list;
mclist && i < net->mc_count;
i++, mclist = mclist->next) {
memcpy(&mclist->dmi_addr, &buff[i * 6], 6);
}
#if 0
usb_control_msg(ether_dev->usb,
usb_sndctrlpipe(ether_dev->usb, 0),
SET_ETHERNET_MULTICAST_FILTER, /* request */
USB_TYPE_CLASS | USB_DIR_OUT | USB_RECIP_INTERFACE, /* request type */
cpu_to_le16(net->mc_count), /* value */
cpu_to_le16((u16)ether_dev->comm_interface), /* index */
buff,
(6* net->mc_count), /* size */
HZ); /* timeout */
#endif
kfree(buff);
}
#if 0
CDC_SetEthernetPacketFilter(ether_dev);
#endif
// Tell the kernel to start giving frames to us again.
netif_wake_queue(net);
}
//////////////////////////////////////////////////////////////////////////////
// Routines used to parse out the Functional Descriptors /////////////////////
//////////////////////////////////////////////////////////////////////////////
static int parse_header_functional_descriptor( int *bFunctionLength,
int bDescriptorType,
int bDescriptorSubtype,
unsigned char *data,
ether_dev_t *ether_dev,
int *requirements )
{
// Check to make sure we haven't seen one of these already.
if ( (~*requirements) & REQ_HDR_FUNC_DESCR ) {
err( "Multiple Header Functional Descriptors found." );
return -1;
}
// Is it the right size???
if (*bFunctionLength != 5) {
info( "Invalid length in Header Functional Descriptor" );
// This is a hack to get around a particular device (NO NAMES)
// It has this function length set to the length of the
// whole class-specific descriptor
*bFunctionLength = 5;
}
// Nothing extremely useful here.
// We'll keep it for posterity
ether_dev->bcdCDC = data[0] + (data[1] << 8);
dbg( "Found Header descriptor, CDC version %x", ether_dev->bcdCDC);
// We've seen one of these
*requirements &= ~REQ_HDR_FUNC_DESCR;
// It's all good.
return 0;
}
static int parse_union_functional_descriptor( int *bFunctionLength,
int bDescriptorType,
int bDescriptorSubtype,
unsigned char *data,
ether_dev_t *ether_dev,
int *requirements )
{
// Check to make sure we haven't seen one of these already.
if ( (~*requirements) & REQ_UNION_FUNC_DESCR ) {
err( "Multiple Union Functional Descriptors found." );
return -1;
}
// Is it the right size?
if (*bFunctionLength != 5) {
// It is NOT the size we expected.
err( "Unsupported length in Union Functional Descriptor" );
return -1;
}
// Sanity check of sorts
if (ether_dev->comm_interface != data[0]) {
// This tells us that we are chasing the wrong comm
// interface or we are crazy or something else weird.
if (ether_dev->comm_interface == data[1]) {
info( "Probably broken Union descriptor, fudging data interface" );
// We'll need this in a few microseconds,
// so guess here, and hope for the best
ether_dev->data_interface = data[0];
} else {
err( "Union Functional Descriptor is broken beyond repair" );
return -1;
}
} else{ // Descriptor is OK
// We'll need this in a few microseconds!
ether_dev->data_interface = data[1];
}
// We've seen one of these now.
*requirements &= ~REQ_UNION_FUNC_DESCR;
// Done
return 0;
}
static int parse_ethernet_functional_descriptor( int *bFunctionLength,
int bDescriptorType,
int bDescriptorSubtype,
unsigned char *data,
ether_dev_t *ether_dev,
int *requirements )
{
// Check to make sure we haven't seen one of these already.
if ( (~*requirements) & REQ_ETH_FUNC_DESCR ) {
err( "Multiple Ethernet Functional Descriptors found." );
return -1;
}
// Is it the right size?
if (*bFunctionLength != 13) {
err( "Invalid length in Ethernet Networking Functional Descriptor" );
return -1;
}
// Lots of goodies from this one. They are all important.
ether_dev->iMACAddress = data[0];
ether_dev->bmEthernetStatistics = data[1] + (data[2] << 8) + (data[3] << 16) + (data[4] << 24);
ether_dev->wMaxSegmentSize = data[5] + (data[6] << 8);
ether_dev->wNumberMCFilters = (data[7] + (data[8] << 8)) & 0x00007FFF;
if (ether_dev->wNumberMCFilters > multicast_filter_limit) {
ether_dev->wNumberMCFilters = multicast_filter_limit;
}
ether_dev->bNumberPowerFilters = data[9];
// We've seen one of these now.
*requirements &= ~REQ_ETH_FUNC_DESCR;
// That's all she wrote.
return 0;
}
static int parse_protocol_unit_functional_descriptor( int *bFunctionLength,
int bDescriptorType,
int bDescriptorSubtype,
unsigned char *data,
ether_dev_t *ether_dev,
int *requirements )
{
// There should only be one type if we are sane
if (bDescriptorType != CS_INTERFACE) {
info( "Invalid bDescriptorType found." );
return -1;
}
// The Subtype tells the tale.
switch (bDescriptorSubtype){
case 0x00: // Header Functional Descriptor
return parse_header_functional_descriptor( bFunctionLength,
bDescriptorType,
bDescriptorSubtype,
data,
ether_dev,
requirements );
break;
case 0x06: // Union Functional Descriptor
return parse_union_functional_descriptor( bFunctionLength,
bDescriptorType,
bDescriptorSubtype,
data,
ether_dev,
requirements );
break;
case 0x0F: // Ethernet Networking Functional Descriptor
return parse_ethernet_functional_descriptor( bFunctionLength,
bDescriptorType,
bDescriptorSubtype,
data,
ether_dev,
requirements );
break;
default: // We don't support this at this time...
// However that doesn't necessarily indicate an error.
dbg( "Unexpected header type %x:", bDescriptorSubtype );
return 0;
}
// How did we get here???
return -1;
}
static int parse_ethernet_class_information( unsigned char *data, int length, ether_dev_t *ether_dev )
{
int loc = 0;
int rc;
int bFunctionLength;
int bDescriptorType;
int bDescriptorSubtype;
int requirements = REQUIREMENTS_TOTAL;
// As long as there is something here, we will try to parse it
while (loc < length) {
// Length
bFunctionLength = data[loc];
loc++;
// Type
bDescriptorType = data[loc];
loc++;
// Subtype
bDescriptorSubtype = data[loc];
loc++;
// ship this off to be processed elsewhere.
rc = parse_protocol_unit_functional_descriptor( &bFunctionLength,
bDescriptorType,
bDescriptorSubtype,
&data[loc],
ether_dev,
&requirements );
// Did it process okay?
if (rc) {
// Something was hosed somewhere.
// No need to continue;
err("Bad descriptor parsing: %x", rc );
return -1;
}
// We have already taken three bytes.
loc += (bFunctionLength - 3);
}
// Check to see if we got everything we need.
if (requirements) {
// We missed some of the requirements...
err( "Not all required functional descriptors present 0x%08X", requirements );
return -1;
}
// We got everything.
return 0;
}
//////////////////////////////////////////////////////////////////////////////
// Routine to check for the existence of the Functional Descriptors //////////
//////////////////////////////////////////////////////////////////////////////
static int find_and_parse_ethernet_class_information( struct usb_device *device, ether_dev_t *ether_dev )
{
struct usb_config_descriptor *conf = NULL;
struct usb_interface *comm_intf_group = NULL;
struct usb_interface_descriptor *comm_intf = NULL;
int rc = -1;
// The assumption here is that find_ethernet_comm_interface
// and find_valid_configuration
// have already filled in the information about where to find
// the a valid commication interface.
conf = &( device->config[ether_dev->configuration_num] );
comm_intf_group = &( conf->interface[ether_dev->comm_interface] );
comm_intf = &( comm_intf_group->altsetting[ether_dev->comm_interface_altset_num] );
// Let's check and see if it has the extra information we need...
if (comm_intf->extralen > 0) {
// This is where the information is SUPPOSED to be.
rc = parse_ethernet_class_information( comm_intf->extra, comm_intf->extralen, ether_dev );
} else if (conf->extralen > 0) {
// This is a hack. The spec says it should be at the interface
// location checked above. However I have seen it here also.
// This is the same device that requires the functional descriptor hack above
warn( "Ethernet information found at device configuration. This is broken." );
rc = parse_ethernet_class_information( conf->extra, conf->extralen, ether_dev );
} else {
// I don't know where else to look.
warn( "No ethernet information found." );
rc = -1;
}
return rc;
}
//////////////////////////////////////////////////////////////////////////////
// Routines to verify the data interface /////////////////////////////////////
//////////////////////////////////////////////////////////////////////////////
static int get_data_interface_endpoints( struct usb_device *device, ether_dev_t *ether_dev )
{
struct usb_config_descriptor *conf = NULL;
struct usb_interface *data_intf_group = NULL;
struct usb_interface_descriptor *data_intf = NULL;
// Walk through and get to the data interface we are checking.
conf = &( device->config[ether_dev->configuration_num] );
data_intf_group = &( conf->interface[ether_dev->data_interface] );
data_intf = &( data_intf_group->altsetting[ether_dev->data_interface_altset_num_with_traffic] );
// Start out assuming we won't find anything we can use
ether_dev->data_ep_in = 0;
ether_dev->data_ep_out = 0;
// If these are not BULK endpoints, we don't want them
if ( data_intf->endpoint[0].bmAttributes != 0x02 ) {
return -1;
} if ( data_intf->endpoint[1].bmAttributes != 0x02 ) {
return -1;
}
// Check the first endpoint to see if it is IN or OUT
if ( data_intf->endpoint[0].bEndpointAddress & 0x80 ) {
// This endpoint is IN
ether_dev->data_ep_in = data_intf->endpoint[0].bEndpointAddress & 0x7F;
} else {
// This endpoint is OUT
ether_dev->data_ep_out = data_intf->endpoint[0].bEndpointAddress & 0x7F;
ether_dev->data_ep_out_size = data_intf->endpoint[0].wMaxPacketSize;
}
// Check the second endpoint to see if it is IN or OUT
if ( data_intf->endpoint[1].bEndpointAddress & 0x80 ) {
// This endpoint is IN
ether_dev->data_ep_in = data_intf->endpoint[1].bEndpointAddress & 0x7F;
} else {
// This endpoint is OUT
ether_dev->data_ep_out = data_intf->endpoint[1].bEndpointAddress & 0x7F;
ether_dev->data_ep_out_size = data_intf->endpoint[1].wMaxPacketSize;
}
// Now make sure we got both an IN and an OUT
if (ether_dev->data_ep_in && ether_dev->data_ep_out) {
// We did get both, we are in good shape...
info( "detected BULK OUT packets of size %d", ether_dev->data_ep_out_size );
return 0;
}
return -1;
}
static int verify_ethernet_data_interface( struct usb_device *device, ether_dev_t *ether_dev )
{
struct usb_config_descriptor *conf = NULL;
struct usb_interface *data_intf_group = NULL;
struct usb_interface_descriptor *data_intf = NULL;
int rc = -1;
int status;
int altset_num;
// The assumption here is that parse_ethernet_class_information()
// and find_valid_configuration()
// have already filled in the information about where to find
// a data interface
conf = &( device->config[ether_dev->configuration_num] );
data_intf_group = &( conf->interface[ether_dev->data_interface] );
// start out assuming we won't find what we are looking for.
ether_dev->data_interface_altset_num_with_traffic = -1;
ether_dev->data_bAlternateSetting_with_traffic = -1;
ether_dev->data_interface_altset_num_without_traffic = -1;
ether_dev->data_bAlternateSetting_without_traffic = -1;
// Walk through every possible setting for this interface until
// we find what makes us happy.
for ( altset_num = 0; altset_num < data_intf_group->num_altsetting; altset_num++ ) {
data_intf = &( data_intf_group->altsetting[altset_num] );
// Is this a data interface we like?
if ( ( data_intf->bInterfaceClass == 0x0A )
&& ( data_intf->bInterfaceSubClass == 0x00 )
&& ( data_intf->bInterfaceProtocol == 0x00 ) ) {
if ( data_intf->bNumEndpoints == 2 ) {
// We are required to have one of these.
// An interface with 2 endpoints to send Ethernet traffic back and forth
// It actually may be possible that the device might only
// communicate in a vendor specific manner.
// That would not be very nice.
// We can add that one later.
ether_dev->data_bInterfaceNumber = data_intf->bInterfaceNumber;
ether_dev->data_interface_altset_num_with_traffic = altset_num;
ether_dev->data_bAlternateSetting_with_traffic = data_intf->bAlternateSetting;
status = get_data_interface_endpoints( device, ether_dev );
if (!status) {
rc = 0;
}
}
if ( data_intf->bNumEndpoints == 0 ) {
// According to the spec we are SUPPOSED to have one of these
// In fact the device is supposed to come up in this state.
// However, I have seen a device that did not have such an interface.
// So it must be just optional for our driver...
ether_dev->data_bInterfaceNumber = data_intf->bInterfaceNumber;
ether_dev->data_interface_altset_num_without_traffic = altset_num;
ether_dev->data_bAlternateSetting_without_traffic = data_intf->bAlternateSetting;
}
}
}
return rc;
}
//////////////////////////////////////////////////////////////////////////////
// Routine to find a communication interface /////////////////////////////////
//////////////////////////////////////////////////////////////////////////////
static int find_ethernet_comm_interface( struct usb_device *device, ether_dev_t *ether_dev )
{
struct usb_config_descriptor *conf = NULL;
struct usb_interface *comm_intf_group = NULL;
struct usb_interface_descriptor *comm_intf = NULL;
int intf_num;
int altset_num;
int rc;
conf = &( device->config[ether_dev->configuration_num] );
// We need to check and see if any of these interfaces are something we want.
// Walk through each interface one at a time
for ( intf_num = 0; intf_num < conf->bNumInterfaces; intf_num++ ) {
comm_intf_group = &( conf->interface[intf_num] );
// Now for each of those interfaces, check every possible
// alternate setting.
for ( altset_num = 0; altset_num < comm_intf_group->num_altsetting; altset_num++ ) {
comm_intf = &( comm_intf_group->altsetting[altset_num] );
// Is this a communication class of interface of the
// ethernet subclass variety.
if ( ( comm_intf->bInterfaceClass == 0x02 )
&& ( comm_intf->bInterfaceSubClass == 0x06 )
&& ( comm_intf->bInterfaceProtocol == 0x00 ) ) {
if ( comm_intf->bNumEndpoints == 1 ) {
// Good, we found one, we will try this one
// Fill in the structure...
ether_dev->comm_interface = intf_num;
ether_dev->comm_bInterfaceNumber = comm_intf->bInterfaceNumber;
ether_dev->comm_interface_altset_num = altset_num;
ether_dev->comm_bAlternateSetting = comm_intf->bAlternateSetting;
// Look for the Ethernet Functional Descriptors
rc = find_and_parse_ethernet_class_information( device, ether_dev );
if (rc) {
// Nope this was no good after all.
continue;
}
// Check that we really can talk to the data
// interface
// This includes # of endpoints, protocols,
// etc.
rc = verify_ethernet_data_interface( device, ether_dev );
if (rc) {
// We got something we didn't like
continue;
}
// This communication interface seems to give us everything
// we require. We have all the ethernet info we need.
// Let's get out of here and go home right now.
return 0;
} else {
// bNumEndPoints != 1
// We found an interface that had the wrong number of
// endpoints but would have otherwise been okay
} // end bNumEndpoints check.
} // end interface specifics check.
} // end for altset_num
} // end for intf_num
return -1;
}
//////////////////////////////////////////////////////////////////////////////
// Routine to go through all configurations and find one that ////////////////
// is an Ethernet Networking Device //////////////////////////////////////////
//////////////////////////////////////////////////////////////////////////////
static int find_valid_configuration( struct usb_device *device, ether_dev_t *ether_dev )
{
struct usb_config_descriptor *conf = NULL;
int conf_num;
int rc;
// We will try each and every possible configuration
for ( conf_num = 0; conf_num < device->descriptor.bNumConfigurations; conf_num++ ) {
conf = &( device->config[conf_num] );
// Our first requirement : 2 interfaces
if ( conf->bNumInterfaces != 2 ) {
// I currently don't know how to handle devices with any number of interfaces
// other than 2.
continue;
}
// This one passed our first check, fill in some
// useful data
ether_dev->configuration_num = conf_num;
ether_dev->bConfigurationValue = conf->bConfigurationValue;
// Now run it through the ringers and see what comes
// out the other side.
rc = find_ethernet_comm_interface( device, ether_dev );
// Check if we found an ethernet Communcation Device
if ( !rc ) {
// We found one.
return 0;
}
}
// None of the configurations suited us.
return -1;
}
//////////////////////////////////////////////////////////////////////////////
// Routine that checks a given configuration to see if any driver ////////////
// has claimed any of the devices interfaces /////////////////////////////////
//////////////////////////////////////////////////////////////////////////////
static int check_for_claimed_interfaces( struct usb_config_descriptor *config )
{
struct usb_interface *comm_intf_group;
int intf_num;
// Go through all the interfaces and make sure none are
// claimed by anybody else.
for ( intf_num = 0; intf_num < config->bNumInterfaces; intf_num++ ) {
comm_intf_group = &( config->interface[intf_num] );
if ( usb_interface_claimed( comm_intf_group ) ) {
// Somebody has beat us to this guy.
// We can't change the configuration out from underneath of whoever
// is using this device, so we will go ahead and give up.
return -1;
}
}
// We made it all the way through.
// I guess no one has claimed any of these interfaces.
return 0;
}
//////////////////////////////////////////////////////////////////////////////
// Routines to ask for and set the kernel network interface's MAC address ////
// Used by driver's probe routine ////////////////////////////////////////////
//////////////////////////////////////////////////////////////////////////////
static inline unsigned char hex2dec( unsigned char digit )
{
// Is there a standard way to do this???
// I have written this code TOO MANY times.
if ( (digit >= '0') && (digit <= '9') ) {
return (digit - '0');
}
if ( (digit >= 'a') && (digit <= 'f') ) {
return (digit - 'a' + 10);
}
if ( (digit >= 'A') && (digit <= 'F') ) {
return (digit - 'A' + 10);
}
return 0;
}
static void set_ethernet_addr( ether_dev_t *ether_dev )
{
unsigned char mac_addr[6];
int i;
int len;
unsigned char buffer[13];
// Let's assume we don't get anything...
mac_addr[0] = 0x00;
mac_addr[1] = 0x00;
mac_addr[2] = 0x00;
mac_addr[3] = 0x00;
mac_addr[4] = 0x00;
mac_addr[5] = 0x00;
// Let's ask the device...
len = usb_string(ether_dev->usb, ether_dev->iMACAddress, buffer, 13);
// Sanity check!
if (len != 12) {
// You gotta love failing sanity checks
err("Attempting to get MAC address returned %d bytes", len);
return;
}
// Fill in the mac_addr
for (i = 0; i < 6; i++) {
mac_addr[i] = ( hex2dec( buffer[2 * i] ) << 4 ) + hex2dec( buffer[2 * i + 1] );
}
// Now copy it over to the kernel's network driver.
memcpy( ether_dev->net->dev_addr, mac_addr, sizeof(mac_addr) );
}
//////////////////////////////////////////////////////////////////////////////
// Routine to print to syslog information about the driver ///////////////////
// Used by driver's probe routine ////////////////////////////////////////////
//////////////////////////////////////////////////////////////////////////////
void log_device_info(ether_dev_t *ether_dev)
{
int len;
int string_num;
unsigned char manu[256];
unsigned char prod[256];
unsigned char sern[256];
unsigned char *mac_addr;
// Default empty strings in case we don't find a real one
manu[0] = 0x00;
prod[0] = 0x00;
sern[0] = 0x00;
// Try to get the device Manufacturer
string_num = ether_dev->usb->descriptor.iManufacturer;
if (string_num) {
// Put it into its buffer
len = usb_string(ether_dev->usb, string_num, manu, 255);
// Just to be safe
manu[len] = 0x00;
}
// Try to get the device Product Name
string_num = ether_dev->usb->descriptor.iProduct;
if (string_num) {
// Put it into its buffer
len = usb_string(ether_dev->usb, string_num, prod, 255);
// Just to be safe
prod[len] = 0x00;
}
// Try to get the device Serial Number
string_num = ether_dev->usb->descriptor.iSerialNumber;
if (string_num) {
// Put it into its buffer
len = usb_string(ether_dev->usb, string_num, sern, 255);
// Just to be safe
sern[len] = 0x00;
}
// This makes it easier for us to print
mac_addr = ether_dev->net->dev_addr;
// Now send everything we found to the syslog
info( "%s: %s %s %s %02X:%02X:%02X:%02X:%02X:%02X",
ether_dev->net->name, manu, prod, sern, mac_addr[0],
mac_addr[1], mac_addr[2], mac_addr[3], mac_addr[4],
mac_addr[5] );
}
/* Forward declaration */
static struct usb_driver CDCEther_driver ;
//////////////////////////////////////////////////////////////////////////////
// Module's probe routine ////////////////////////////////////////////////////
// claims interfaces if they are for an Ethernet CDC /////////////////////////
//////////////////////////////////////////////////////////////////////////////
static void * CDCEther_probe( struct usb_device *usb, unsigned int ifnum,
const struct usb_device_id *id)
{
struct net_device *net;
ether_dev_t *ether_dev;
int rc;
// First we should check the active configuration to see if
// any other driver has claimed any of the interfaces.
if ( check_for_claimed_interfaces( usb->actconfig ) ) {
// Someone has already put there grubby paws on this device.
// We don't want it now...
return NULL;
}
// We might be finding a device we can use.
// We all go ahead and allocate our storage space.
// We need to because we have to start filling in the data that
// we are going to need later.
if(!(ether_dev = kmalloc(sizeof(ether_dev_t), GFP_KERNEL))) {
err("out of memory allocating device structure");
return NULL;
}
// Zero everything out.
memset(ether_dev, 0, sizeof(ether_dev_t));
ether_dev->rx_urb = usb_alloc_urb(0, GFP_KERNEL);
if (!ether_dev->rx_urb) {
kfree(ether_dev);
return NULL;
}
ether_dev->tx_urb = usb_alloc_urb(0, GFP_KERNEL);
if (!ether_dev->tx_urb) {
usb_free_urb(ether_dev->rx_urb);
kfree(ether_dev);
return NULL;
}
ether_dev->intr_urb = usb_alloc_urb(0, GFP_KERNEL);
if (!ether_dev->intr_urb) {
usb_free_urb(ether_dev->tx_urb);
usb_free_urb(ether_dev->rx_urb);
kfree(ether_dev);
return NULL;
}
// Let's see if we can find a configuration we can use.
rc = find_valid_configuration( usb, ether_dev );
if (rc) {
// Nope we couldn't find one we liked.
// This device was not meant for us to control.
kfree( ether_dev );
return NULL;
}
// Now that we FOUND a configuration. let's try to make the
// device go into it.
if ( usb_set_configuration( usb, ether_dev->bConfigurationValue ) ) {
err("usb_set_configuration() failed");
kfree( ether_dev );
return NULL;
}
// Now set the communication interface up as required.
if (usb_set_interface(usb, ether_dev->comm_bInterfaceNumber, ether_dev->comm_bAlternateSetting)) {
err("usb_set_interface() failed");
kfree( ether_dev );
return NULL;
}
// Only turn traffic on right now if we must...
if (ether_dev->data_interface_altset_num_without_traffic >= 0) {
// We found an alternate setting for the data
// interface that allows us to turn off traffic.
// We should use it.
if (usb_set_interface( usb,
ether_dev->data_bInterfaceNumber,
ether_dev->data_bAlternateSetting_without_traffic)) {
err("usb_set_interface() failed");
kfree( ether_dev );
return NULL;
}
} else {
// We didn't find an alternate setting for the data
// interface that would let us turn off traffic.
// Oh well, let's go ahead and do what we must...
if (usb_set_interface( usb,
ether_dev->data_bInterfaceNumber,
ether_dev->data_bAlternateSetting_with_traffic)) {
err("usb_set_interface() failed");
kfree( ether_dev );
return NULL;
}
}
// Now we need to get a kernel Ethernet interface.
net = init_etherdev( NULL, 0 );
if ( !net ) {
// Hmm... The kernel is not sharing today...
// Fine, we didn't want it anyway...
err( "Unable to initialize ethernet device" );
kfree( ether_dev );
return NULL;
}
// Now that we have an ethernet device, let's set it up
// (And I don't mean "set [it] up the bomb".)
net->priv = ether_dev;
SET_MODULE_OWNER(net);
net->open = CDCEther_open;
net->stop = CDCEther_close;
net->watchdog_timeo = CDC_ETHER_TX_TIMEOUT;
net->tx_timeout = CDCEther_tx_timeout; // TX timeout function
net->do_ioctl = CDCEther_ioctl;
net->hard_start_xmit = CDCEther_start_xmit;
net->set_multicast_list = CDCEther_set_multicast;
net->get_stats = CDCEther_netdev_stats;
net->mtu = ether_dev->wMaxSegmentSize - 14;
// We'll keep track of this information for later...
ether_dev->usb = usb;
ether_dev->net = net;
// and don't forget the MAC address.
set_ethernet_addr( ether_dev );
// Send a message to syslog about what we are handling
log_device_info( ether_dev );
// I claim this interface to be a CDC Ethernet Networking device
usb_driver_claim_interface( &CDCEther_driver,
&(usb->config[ether_dev->configuration_num].interface[ether_dev->comm_interface]),
ether_dev );
// I claim this interface to be a CDC Ethernet Networking device
usb_driver_claim_interface( &CDCEther_driver,
&(usb->config[ether_dev->configuration_num].interface[ether_dev->data_interface]),
ether_dev );
// Does this REALLY do anything???
usb_inc_dev_use( usb );
// TODO - last minute HACK
ether_dev->comm_ep_in = 5;
// Okay, we are finally done...
return NULL;
}
//////////////////////////////////////////////////////////////////////////////
// Module's disconnect routine ///////////////////////////////////////////////
// Called when the driver is unloaded or the device is unplugged /////////////
// (Whichever happens first assuming the driver suceeded at its probe) ///////
//////////////////////////////////////////////////////////////////////////////
static void CDCEther_disconnect( struct usb_device *usb, void *ptr )
{
ether_dev_t *ether_dev = ptr;
// Sanity check!!!
if ( !ether_dev || !ether_dev->usb ) {
// We failed. We are insane!!!
warn("unregistering non-existant device");
return;
}
// Make sure we fail the sanity check if we try this again.
ether_dev->usb = NULL;
// It is possible that this function is called before
// the "close" function.
// This tells the close function we are already disconnected
ether_dev->flags |= CDC_ETHER_UNPLUG;
// We don't need the network device any more
unregister_netdev( ether_dev->net );
// For sanity checks
ether_dev->net = NULL;
// I ask again, does this do anything???
usb_dec_dev_use( usb );
// We are done with this interface
usb_driver_release_interface( &CDCEther_driver,
&(usb->config[ether_dev->configuration_num].interface[ether_dev->comm_interface]) );
// We are done with this interface too
usb_driver_release_interface( &CDCEther_driver,
&(usb->config[ether_dev->configuration_num].interface[ether_dev->data_interface]) );
// No more tied up kernel memory
usb_free_urb(ether_dev->intr_urb);
usb_free_urb(ether_dev->rx_urb);
usb_free_urb(ether_dev->rx_urb);
kfree( ether_dev );
// This does no good, but it looks nice!
ether_dev = NULL;
}
//////////////////////////////////////////////////////////////////////////////
// Driver info ///////////////////////////////////////////////////////////////
//////////////////////////////////////////////////////////////////////////////
static struct usb_driver CDCEther_driver = {
name: "CDCEther",
probe: CDCEther_probe,
disconnect: CDCEther_disconnect,
id_table: CDCEther_ids,
};
//////////////////////////////////////////////////////////////////////////////
// init and exit routines called when driver is installed and uninstalled ////
//////////////////////////////////////////////////////////////////////////////
int __init CDCEther_init(void)
{
info( "%s", version );
return usb_register( &CDCEther_driver );
}
void __exit CDCEther_exit(void)
{
usb_deregister( &CDCEther_driver );
}
//////////////////////////////////////////////////////////////////////////////
// Module info ///////////////////////////////////////////////////////////////
//////////////////////////////////////////////////////////////////////////////
module_init( CDCEther_init );
module_exit( CDCEther_exit );
MODULE_AUTHOR("Brad Hards and another");
MODULE_DESCRIPTION("USB CDC Ethernet driver");
MODULE_LICENSE("GPL");
MODULE_PARM (multicast_filter_limit, "i");
MODULE_PARM_DESC (multicast_filter_limit, "CDCEther maximum number of filtered multicast addresses");
MODULE_DEVICE_TABLE (usb, CDCEther_ids);
//////////////////////////////////////////////////////////////////////////////
// End of file ///////////////////////////////////////////////////////////////
//////////////////////////////////////////////////////////////////////////////
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