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[/] [or1k/] [trunk/] [linux/] [linux-2.4/] [drivers/] [usb/] [speedtch.c] - Rev 1765
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/****************************************************************************** * speedtouch.c - Alcatel SpeedTouch USB xDSL modem driver * * Copyright (C) 2001, Alcatel * Copyright (C) 2003, Duncan Sands * * 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. * ******************************************************************************/ /* * Written by Johan Verrept, maintained by Duncan Sands (duncan.sands@free.fr) * * 1.7+: - See the check-in logs * * 1.6: - No longer opens a connection if the firmware is not loaded * - Added support for the speedtouch 330 * - Removed the limit on the number of devices * - Module now autoloads on device plugin * - Merged relevant parts of sarlib * - Replaced the kernel thread with a tasklet * - New packet transmission code * - Changed proc file contents * - Fixed all known SMP races * - Many fixes and cleanups * - Various fixes by Oliver Neukum (oliver@neukum.name) * * 1.5A: - Backport of version for inclusion in 2.5 series kernel * - Modifications by Richard Purdie (rpurdie@rpsys.net) * - made compatible with kernel 2.5.6 onwards by changing * udsl_usb_send_data_context->urb to a pointer and adding code * to alloc and free it * - remove_wait_queue() added to udsl_atm_processqueue_thread() * * 1.5: - fixed memory leak when atmsar_decode_aal5 returned NULL. * (reported by stephen.robinson@zen.co.uk) * * 1.4: - changed the spin_lock() under interrupt to spin_lock_irqsave() * - unlink all active send urbs of a vcc that is being closed. * * 1.3.1: - added the version number * * 1.3: - Added multiple send urb support * - fixed memory leak and vcc->tx_inuse starvation bug * when not enough memory left in vcc. * * 1.2: - Fixed race condition in udsl_usb_send_data() * 1.1: - Turned off packet debugging * */ #include <asm/semaphore.h> #include <linux/module.h> #include <linux/kernel.h> #include <linux/sched.h> #include <linux/timer.h> #include <linux/errno.h> #include <linux/proc_fs.h> #include <linux/slab.h> #include <linux/list.h> #include <asm/uaccess.h> #include <linux/smp_lock.h> #include <linux/interrupt.h> #include <linux/atm.h> #include <linux/atmdev.h> #include <linux/crc32.h> #include <linux/init.h> /* #define DEBUG #define VERBOSE_DEBUG */ #include <linux/usb.h> #ifdef DEBUG #define DEBUG_ON(x) BUG_ON(x) #else #define DEBUG_ON(x) do { if (x); } while (0) #endif #ifdef VERBOSE_DEBUG static int udsl_print_packet (const unsigned char *data, int len); #define PACKETDEBUG(arg...) udsl_print_packet (arg) #define vdbg(arg...) dbg (arg) #else #define PACKETDEBUG(arg...) #define vdbg(arg...) #endif #define DRIVER_AUTHOR "Johan Verrept, Duncan Sands <duncan.sands@free.fr>" #define DRIVER_DESC "Alcatel SpeedTouch USB driver" #define DRIVER_VERSION "1.7" static const char udsl_driver_name [] = "speedtch"; #define SPEEDTOUCH_VENDORID 0x06b9 #define SPEEDTOUCH_PRODUCTID 0x4061 #define UDSL_MAX_RCV_URBS 4 #define UDSL_MAX_SND_URBS 4 #define UDSL_MAX_RCV_BUFS 8 #define UDSL_MAX_SND_BUFS 8 #define UDSL_MAX_RCV_BUF_SIZE 1024 /* ATM cells */ #define UDSL_MAX_SND_BUF_SIZE 1024 /* ATM cells */ #define UDSL_DEFAULT_RCV_URBS 1 #define UDSL_DEFAULT_SND_URBS 1 #define UDSL_DEFAULT_RCV_BUFS 2 #define UDSL_DEFAULT_SND_BUFS 2 #define UDSL_DEFAULT_RCV_BUF_SIZE 64 /* ATM cells */ #define UDSL_DEFAULT_SND_BUF_SIZE 64 /* ATM cells */ static unsigned int num_rcv_urbs = UDSL_DEFAULT_RCV_URBS; static unsigned int num_snd_urbs = UDSL_DEFAULT_SND_URBS; static unsigned int num_rcv_bufs = UDSL_DEFAULT_RCV_BUFS; static unsigned int num_snd_bufs = UDSL_DEFAULT_SND_BUFS; static unsigned int rcv_buf_size = UDSL_DEFAULT_RCV_BUF_SIZE; static unsigned int snd_buf_size = UDSL_DEFAULT_SND_BUF_SIZE; MODULE_PARM (num_rcv_urbs, "i"); MODULE_PARM_DESC (num_rcv_urbs, "Number of urbs used for reception (range: 0-" __MODULE_STRING (UDSL_MAX_RCV_URBS) ", default: " __MODULE_STRING (UDSL_DEFAULT_RCV_URBS) ")"); MODULE_PARM (num_snd_urbs, "i"); MODULE_PARM_DESC (num_snd_urbs, "Number of urbs used for transmission (range: 0-" __MODULE_STRING (UDSL_MAX_SND_URBS) ", default: " __MODULE_STRING (UDSL_DEFAULT_SND_URBS) ")"); MODULE_PARM (num_rcv_bufs, "i"); MODULE_PARM_DESC (num_rcv_bufs, "Number of buffers used for reception (range: 0-" __MODULE_STRING (UDSL_MAX_RCV_BUFS) ", default: " __MODULE_STRING (UDSL_DEFAULT_RCV_BUFS) ")"); MODULE_PARM (num_snd_bufs, "i"); MODULE_PARM_DESC (num_snd_bufs, "Number of buffers used for transmission (range: 0-" __MODULE_STRING (UDSL_MAX_SND_BUFS) ", default: " __MODULE_STRING (UDSL_DEFAULT_SND_BUFS) ")"); MODULE_PARM (rcv_buf_size, "i"); MODULE_PARM_DESC (rcv_buf_size, "Size of the buffers used for reception (range: 0-" __MODULE_STRING (UDSL_MAX_RCV_BUF_SIZE) ", default: " __MODULE_STRING (UDSL_DEFAULT_RCV_BUF_SIZE) ")"); MODULE_PARM (snd_buf_size, "i"); MODULE_PARM_DESC (snd_buf_size, "Size of the buffers used for transmission (range: 0-" __MODULE_STRING (UDSL_MAX_SND_BUF_SIZE) ", default: " __MODULE_STRING (UDSL_DEFAULT_SND_BUF_SIZE) ")"); #define UDSL_IOCTL_LINE_UP 1 #define UDSL_IOCTL_LINE_DOWN 2 #define UDSL_ENDPOINT_DATA_OUT 0x07 #define UDSL_ENDPOINT_DATA_IN 0x87 #define ATM_CELL_HEADER (ATM_CELL_SIZE - ATM_CELL_PAYLOAD) #define UDSL_NUM_CELLS(x) (((x) + ATM_AAL5_TRAILER + ATM_CELL_PAYLOAD - 1) / ATM_CELL_PAYLOAD) #define hex2int(c) ( (c >= '0') && (c <= '9') ? (c - '0') : ((c & 0xf) + 9) ) static struct usb_device_id udsl_usb_ids [] = { { USB_DEVICE (SPEEDTOUCH_VENDORID, SPEEDTOUCH_PRODUCTID) }, { } }; MODULE_DEVICE_TABLE (usb, udsl_usb_ids); /* receive */ struct udsl_receive_buffer { struct list_head list; unsigned char *base; unsigned int filled_cells; }; struct udsl_receiver { struct list_head list; struct udsl_receive_buffer *buffer; struct urb *urb; struct udsl_instance_data *instance; }; struct udsl_vcc_data { /* vpi/vci lookup */ struct list_head list; short vpi; int vci; struct atm_vcc *vcc; /* raw cell reassembly */ struct sk_buff *sarb; }; /* send */ struct udsl_send_buffer { struct list_head list; unsigned char *base; unsigned char *free_start; unsigned int free_cells; }; struct udsl_sender { struct list_head list; struct udsl_send_buffer *buffer; struct urb *urb; struct udsl_instance_data *instance; }; struct udsl_control { struct atm_skb_data atm_data; unsigned int num_cells; unsigned int num_entire; unsigned int pdu_padding; unsigned char cell_header [ATM_CELL_HEADER]; unsigned char aal5_trailer [ATM_AAL5_TRAILER]; }; #define UDSL_SKB(x) ((struct udsl_control *)(x)->cb) /* main driver data */ struct udsl_instance_data { struct semaphore serialize; /* USB device part */ struct usb_device *usb_dev; char description [64]; int firmware_loaded; /* ATM device part */ struct atm_dev *atm_dev; struct list_head vcc_list; /* receive */ struct udsl_receiver receivers [UDSL_MAX_RCV_URBS]; struct udsl_receive_buffer receive_buffers [UDSL_MAX_RCV_BUFS]; spinlock_t receive_lock; struct list_head spare_receivers; struct list_head filled_receive_buffers; struct tasklet_struct receive_tasklet; struct list_head spare_receive_buffers; /* send */ struct udsl_sender senders [UDSL_MAX_SND_URBS]; struct udsl_send_buffer send_buffers [UDSL_MAX_SND_BUFS]; struct sk_buff_head sndqueue; spinlock_t send_lock; struct list_head spare_senders; struct list_head spare_send_buffers; struct tasklet_struct send_tasklet; struct sk_buff *current_skb; /* being emptied */ struct udsl_send_buffer *current_buffer; /* being filled */ struct list_head filled_send_buffers; }; /* ATM */ static void udsl_atm_dev_close (struct atm_dev *dev); static int udsl_atm_open (struct atm_vcc *vcc, short vpi, int vci); static void udsl_atm_close (struct atm_vcc *vcc); static int udsl_atm_ioctl (struct atm_dev *dev, unsigned int cmd, void *arg); static int udsl_atm_send (struct atm_vcc *vcc, struct sk_buff *skb); static int udsl_atm_proc_read (struct atm_dev *atm_dev, loff_t *pos, char *page); static struct atmdev_ops udsl_atm_devops = { dev_close: udsl_atm_dev_close, open: udsl_atm_open, close: udsl_atm_close, ioctl: udsl_atm_ioctl, send: udsl_atm_send, proc_read: udsl_atm_proc_read, owner: THIS_MODULE, }; /* USB */ static void *udsl_usb_probe (struct usb_device *dev, unsigned int ifnum, const struct usb_device_id *id); static void udsl_usb_disconnect (struct usb_device *dev, void *ptr); static int udsl_usb_ioctl (struct usb_device *hub, unsigned int code, void *user_data); static struct usb_driver udsl_usb_driver = { owner: THIS_MODULE, name: udsl_driver_name, probe: udsl_usb_probe, disconnect: udsl_usb_disconnect, ioctl: udsl_usb_ioctl, id_table: udsl_usb_ids, }; /************* ** decode ** *************/ static inline struct udsl_vcc_data *udsl_find_vcc (struct udsl_instance_data *instance, short vpi, int vci) { struct udsl_vcc_data *vcc; list_for_each_entry (vcc, &instance->vcc_list, list) if ((vcc->vci == vci) && (vcc->vpi == vpi)) return vcc; return NULL; } static void udsl_extract_cells (struct udsl_instance_data *instance, unsigned char *source, unsigned int howmany) { struct udsl_vcc_data *cached_vcc = NULL; struct atm_vcc *vcc; struct sk_buff *sarb; struct udsl_vcc_data *vcc_data; int cached_vci = 0; unsigned int i; int pti; int vci; short cached_vpi = 0; short vpi; for (i = 0; i < howmany; i++, source += ATM_CELL_SIZE) { vpi = ((source [0] & 0x0f) << 4) | (source [1] >> 4); vci = ((source [1] & 0x0f) << 12) | (source [2] << 4) | (source [3] >> 4); pti = (source [3] & 0x2) != 0; vdbg ("udsl_extract_cells: vpi %hd, vci %d, pti %d", vpi, vci, pti); if (cached_vcc && (vci == cached_vci) && (vpi == cached_vpi)) vcc_data = cached_vcc; else if ((vcc_data = udsl_find_vcc (instance, vpi, vci))) { cached_vcc = vcc_data; cached_vpi = vpi; cached_vci = vci; } else { dbg ("udsl_extract_cells: unknown vpi/vci (%hd/%d)!", vpi, vci); continue; } vcc = vcc_data->vcc; sarb = vcc_data->sarb; if (sarb->tail + ATM_CELL_PAYLOAD > sarb->end) { dbg ("udsl_extract_cells: buffer overrun (sarb->len %u, vcc: 0x%p)!", sarb->len, vcc); /* discard cells already received */ skb_trim (sarb, 0); } memcpy (sarb->tail, source + ATM_CELL_HEADER, ATM_CELL_PAYLOAD); __skb_put (sarb, ATM_CELL_PAYLOAD); if (pti) { struct sk_buff *skb; unsigned int length; unsigned int pdu_length; length = (source [ATM_CELL_SIZE - 6] << 8) + source [ATM_CELL_SIZE - 5]; /* guard against overflow */ if (length > ATM_MAX_AAL5_PDU) { dbg ("udsl_extract_cells: bogus length %u (vcc: 0x%p)!", length, vcc); atomic_inc (&vcc->stats->rx_err); goto out; } pdu_length = UDSL_NUM_CELLS (length) * ATM_CELL_PAYLOAD; if (sarb->len < pdu_length) { dbg ("udsl_extract_cells: bogus pdu_length %u (sarb->len: %u, vcc: 0x%p)!", pdu_length, sarb->len, vcc); atomic_inc (&vcc->stats->rx_err); goto out; } if (crc32_be (~0, sarb->tail - pdu_length, pdu_length) != 0xc704dd7b) { dbg ("udsl_extract_cells: packet failed crc check (vcc: 0x%p)!", vcc); atomic_inc (&vcc->stats->rx_err); goto out; } vdbg ("udsl_extract_cells: got packet (length: %u, pdu_length: %u, vcc: 0x%p)", length, pdu_length, vcc); if (!(skb = dev_alloc_skb (length))) { dbg ("udsl_extract_cells: no memory for skb (length: %u)!", length); atomic_inc (&vcc->stats->rx_drop); goto out; } vdbg ("udsl_extract_cells: allocated new sk_buff (skb: 0x%p, skb->truesize: %u)", skb, skb->truesize); if (!atm_charge (vcc, skb->truesize)) { dbg ("udsl_extract_cells: failed atm_charge (skb->truesize: %u)!", skb->truesize); dev_kfree_skb (skb); goto out; /* atm_charge increments rx_drop */ } memcpy (skb->data, sarb->tail - pdu_length, length); __skb_put (skb, length); vdbg ("udsl_extract_cells: sending skb 0x%p, skb->len %u, skb->truesize %u", skb, skb->len, skb->truesize); PACKETDEBUG (skb->data, skb->len); vcc->push (vcc, skb); atomic_inc (&vcc->stats->rx); out: skb_trim (sarb, 0); } } } /************* ** encode ** *************/ static const unsigned char zeros [ATM_CELL_PAYLOAD]; static void udsl_groom_skb (struct atm_vcc *vcc, struct sk_buff *skb) { struct udsl_control *ctrl = UDSL_SKB (skb); unsigned int zero_padding; u32 crc; ctrl->atm_data.vcc = vcc; ctrl->cell_header [0] = vcc->vpi >> 4; ctrl->cell_header [1] = (vcc->vpi << 4) | (vcc->vci >> 12); ctrl->cell_header [2] = vcc->vci >> 4; ctrl->cell_header [3] = vcc->vci << 4; ctrl->cell_header [4] = 0xec; ctrl->num_cells = UDSL_NUM_CELLS (skb->len); ctrl->num_entire = skb->len / ATM_CELL_PAYLOAD; zero_padding = ctrl->num_cells * ATM_CELL_PAYLOAD - skb->len - ATM_AAL5_TRAILER; if (ctrl->num_entire + 1 < ctrl->num_cells) ctrl->pdu_padding = zero_padding - (ATM_CELL_PAYLOAD - ATM_AAL5_TRAILER); else ctrl->pdu_padding = zero_padding; ctrl->aal5_trailer [0] = 0; /* UU = 0 */ ctrl->aal5_trailer [1] = 0; /* CPI = 0 */ ctrl->aal5_trailer [2] = skb->len >> 8; ctrl->aal5_trailer [3] = skb->len; crc = crc32_be (~0, skb->data, skb->len); crc = crc32_be (crc, zeros, zero_padding); crc = crc32_be (crc, ctrl->aal5_trailer, 4); crc = ~crc; ctrl->aal5_trailer [4] = crc >> 24; ctrl->aal5_trailer [5] = crc >> 16; ctrl->aal5_trailer [6] = crc >> 8; ctrl->aal5_trailer [7] = crc; } static unsigned int udsl_write_cells (unsigned int howmany, struct sk_buff *skb, unsigned char **target_p) { struct udsl_control *ctrl = UDSL_SKB (skb); unsigned char *target = *target_p; unsigned int nc, ne, i; vdbg ("udsl_write_cells: howmany=%u, skb->len=%d, num_cells=%u, num_entire=%u, pdu_padding=%u", howmany, skb->len, ctrl->num_cells, ctrl->num_entire, ctrl->pdu_padding); nc = ctrl->num_cells; ne = min (howmany, ctrl->num_entire); for (i = 0; i < ne; i++) { memcpy (target, ctrl->cell_header, ATM_CELL_HEADER); target += ATM_CELL_HEADER; memcpy (target, skb->data, ATM_CELL_PAYLOAD); target += ATM_CELL_PAYLOAD; __skb_pull (skb, ATM_CELL_PAYLOAD); } ctrl->num_entire -= ne; if (!(ctrl->num_cells -= ne) || !(howmany -= ne)) goto out; memcpy (target, ctrl->cell_header, ATM_CELL_HEADER); target += ATM_CELL_HEADER; memcpy (target, skb->data, skb->len); target += skb->len; __skb_pull (skb, skb->len); memset (target, 0, ctrl->pdu_padding); target += ctrl->pdu_padding; if (--ctrl->num_cells) { if (!--howmany) { ctrl->pdu_padding = ATM_CELL_PAYLOAD - ATM_AAL5_TRAILER; goto out; } memcpy (target, ctrl->cell_header, ATM_CELL_HEADER); target += ATM_CELL_HEADER; memset (target, 0, ATM_CELL_PAYLOAD - ATM_AAL5_TRAILER); target += ATM_CELL_PAYLOAD - ATM_AAL5_TRAILER; DEBUG_ON (--ctrl->num_cells); } memcpy (target, ctrl->aal5_trailer, ATM_AAL5_TRAILER); target += ATM_AAL5_TRAILER; /* set pti bit in last cell */ *(target + 3 - ATM_CELL_SIZE) |= 0x2; out: *target_p = target; return nc - ctrl->num_cells; } /************** ** receive ** **************/ static void udsl_complete_receive (struct urb *urb) { struct udsl_receive_buffer *buf; struct udsl_instance_data *instance; struct udsl_receiver *rcv; unsigned long flags; if (!urb || !(rcv = urb->context)) { dbg ("udsl_complete_receive: bad urb!"); return; } instance = rcv->instance; buf = rcv->buffer; buf->filled_cells = urb->actual_length / ATM_CELL_SIZE; vdbg ("udsl_complete_receive: urb 0x%p, status %d, actual_length %d, filled_cells %u, rcv 0x%p, buf 0x%p", urb, urb->status, urb->actual_length, buf->filled_cells, rcv, buf); DEBUG_ON (buf->filled_cells > rcv_buf_size); /* may not be in_interrupt() */ spin_lock_irqsave (&instance->receive_lock, flags); list_add (&rcv->list, &instance->spare_receivers); list_add_tail (&buf->list, &instance->filled_receive_buffers); if (likely (!urb->status)) tasklet_schedule (&instance->receive_tasklet); spin_unlock_irqrestore (&instance->receive_lock, flags); } static void udsl_process_receive (unsigned long data) { struct udsl_receive_buffer *buf; struct udsl_instance_data *instance = (struct udsl_instance_data *) data; struct udsl_receiver *rcv; int err; made_progress: while (!list_empty (&instance->spare_receive_buffers)) { spin_lock_irq (&instance->receive_lock); if (list_empty (&instance->spare_receivers)) { spin_unlock_irq (&instance->receive_lock); break; } rcv = list_entry (instance->spare_receivers.next, struct udsl_receiver, list); list_del (&rcv->list); spin_unlock_irq (&instance->receive_lock); buf = list_entry (instance->spare_receive_buffers.next, struct udsl_receive_buffer, list); list_del (&buf->list); rcv->buffer = buf; FILL_BULK_URB (rcv->urb, instance->usb_dev, usb_rcvbulkpipe (instance->usb_dev, UDSL_ENDPOINT_DATA_IN), buf->base, rcv_buf_size * ATM_CELL_SIZE, udsl_complete_receive, rcv); rcv->urb->transfer_flags |= USB_QUEUE_BULK; vdbg ("udsl_process_receive: sending urb 0x%p, rcv 0x%p, buf 0x%p", rcv->urb, rcv, buf); if ((err = usb_submit_urb(rcv->urb)) < 0) { dbg ("udsl_process_receive: urb submission failed (%d)!", err); list_add (&buf->list, &instance->spare_receive_buffers); spin_lock_irq (&instance->receive_lock); list_add (&rcv->list, &instance->spare_receivers); spin_unlock_irq (&instance->receive_lock); break; } } spin_lock_irq (&instance->receive_lock); if (list_empty (&instance->filled_receive_buffers)) { spin_unlock_irq (&instance->receive_lock); return; /* done - no more buffers */ } buf = list_entry (instance->filled_receive_buffers.next, struct udsl_receive_buffer, list); list_del (&buf->list); spin_unlock_irq (&instance->receive_lock); vdbg ("udsl_process_receive: processing buf 0x%p", buf); udsl_extract_cells (instance, buf->base, buf->filled_cells); list_add (&buf->list, &instance->spare_receive_buffers); goto made_progress; } /*********** ** send ** ***********/ static void udsl_complete_send (struct urb *urb) { struct udsl_instance_data *instance; struct udsl_sender *snd; unsigned long flags; if (!urb || !(snd = urb->context) || !(instance = snd->instance)) { dbg ("udsl_complete_send: bad urb!"); return; } vdbg ("udsl_complete_send: urb 0x%p, status %d, snd 0x%p, buf 0x%p", urb, urb->status, snd, snd->buffer); /* may not be in_interrupt() */ spin_lock_irqsave (&instance->send_lock, flags); list_add (&snd->list, &instance->spare_senders); list_add (&snd->buffer->list, &instance->spare_send_buffers); tasklet_schedule (&instance->send_tasklet); spin_unlock_irqrestore (&instance->send_lock, flags); } static void udsl_process_send (unsigned long data) { struct udsl_send_buffer *buf; struct udsl_instance_data *instance = (struct udsl_instance_data *) data; struct sk_buff *skb; struct udsl_sender *snd; int err; unsigned int num_written; made_progress: spin_lock_irq (&instance->send_lock); while (!list_empty (&instance->spare_senders)) { if (!list_empty (&instance->filled_send_buffers)) { buf = list_entry (instance->filled_send_buffers.next, struct udsl_send_buffer, list); list_del (&buf->list); } else if ((buf = instance->current_buffer)) { instance->current_buffer = NULL; } else /* all buffers empty */ break; snd = list_entry (instance->spare_senders.next, struct udsl_sender, list); list_del (&snd->list); spin_unlock_irq (&instance->send_lock); snd->buffer = buf; FILL_BULK_URB (snd->urb, instance->usb_dev, usb_sndbulkpipe (instance->usb_dev, UDSL_ENDPOINT_DATA_OUT), buf->base, (snd_buf_size - buf->free_cells) * ATM_CELL_SIZE, udsl_complete_send, snd); snd->urb->transfer_flags |= USB_QUEUE_BULK; vdbg ("udsl_process_send: submitting urb 0x%p (%d cells), snd 0x%p, buf 0x%p", snd->urb, snd_buf_size - buf->free_cells, snd, buf); if ((err = usb_submit_urb(snd->urb)) < 0) { dbg ("udsl_process_send: urb submission failed (%d)!", err); spin_lock_irq (&instance->send_lock); list_add (&snd->list, &instance->spare_senders); spin_unlock_irq (&instance->send_lock); list_add (&buf->list, &instance->filled_send_buffers); return; /* bail out */ } spin_lock_irq (&instance->send_lock); } /* while */ spin_unlock_irq (&instance->send_lock); if (!instance->current_skb && !(instance->current_skb = skb_dequeue (&instance->sndqueue))) return; /* done - no more skbs */ skb = instance->current_skb; if (!(buf = instance->current_buffer)) { spin_lock_irq (&instance->send_lock); if (list_empty (&instance->spare_send_buffers)) { instance->current_buffer = NULL; spin_unlock_irq (&instance->send_lock); return; /* done - no more buffers */ } buf = list_entry (instance->spare_send_buffers.next, struct udsl_send_buffer, list); list_del (&buf->list); spin_unlock_irq (&instance->send_lock); buf->free_start = buf->base; buf->free_cells = snd_buf_size; instance->current_buffer = buf; } num_written = udsl_write_cells (buf->free_cells, skb, &buf->free_start); vdbg ("udsl_process_send: wrote %u cells from skb 0x%p to buffer 0x%p", num_written, skb, buf); if (!(buf->free_cells -= num_written)) { list_add_tail (&buf->list, &instance->filled_send_buffers); instance->current_buffer = NULL; } vdbg ("udsl_process_send: buffer contains %d cells, %d left", snd_buf_size - buf->free_cells, buf->free_cells); if (!UDSL_SKB (skb)->num_cells) { struct atm_vcc *vcc = UDSL_SKB (skb)->atm_data.vcc; if (vcc->pop) vcc->pop (vcc, skb); else dev_kfree_skb (skb); instance->current_skb = NULL; atomic_inc (&vcc->stats->tx); } goto made_progress; } static void udsl_cancel_send (struct udsl_instance_data *instance, struct atm_vcc *vcc) { struct sk_buff *skb, *n; dbg ("udsl_cancel_send entered"); spin_lock_irq (&instance->sndqueue.lock); for (skb = instance->sndqueue.next, n = skb->next; skb != (struct sk_buff *)&instance->sndqueue; skb = n, n = skb->next) if (UDSL_SKB (skb)->atm_data.vcc == vcc) { dbg ("udsl_cancel_send: popping skb 0x%p", skb); __skb_unlink (skb, &instance->sndqueue); if (vcc->pop) vcc->pop (vcc, skb); else dev_kfree_skb (skb); } spin_unlock_irq (&instance->sndqueue.lock); tasklet_disable (&instance->send_tasklet); if ((skb = instance->current_skb) && (UDSL_SKB (skb)->atm_data.vcc == vcc)) { dbg ("udsl_cancel_send: popping current skb (0x%p)", skb); instance->current_skb = NULL; if (vcc->pop) vcc->pop (vcc, skb); else dev_kfree_skb (skb); } tasklet_enable (&instance->send_tasklet); dbg ("udsl_cancel_send done"); } static int udsl_atm_send (struct atm_vcc *vcc, struct sk_buff *skb) { struct udsl_instance_data *instance = vcc->dev->dev_data; vdbg ("udsl_atm_send called (skb 0x%p, len %u)", skb, skb->len); if (!instance || !instance->usb_dev) { dbg ("udsl_atm_send: NULL data!"); return -ENODEV; } if (vcc->qos.aal != ATM_AAL5) { dbg ("udsl_atm_send: unsupported ATM type %d!", vcc->qos.aal); return -EINVAL; } if (skb->len > ATM_MAX_AAL5_PDU) { dbg ("udsl_atm_send: packet too long (%d vs %d)!", skb->len, ATM_MAX_AAL5_PDU); return -EINVAL; } PACKETDEBUG (skb->data, skb->len); udsl_groom_skb (vcc, skb); skb_queue_tail (&instance->sndqueue, skb); tasklet_schedule (&instance->send_tasklet); return 0; } /********** ** ATM ** **********/ static void udsl_atm_dev_close (struct atm_dev *dev) { struct udsl_instance_data *instance = dev->dev_data; if (!instance) { dbg ("udsl_atm_dev_close: NULL instance!"); return; } dbg ("udsl_atm_dev_close: queue has %u elements", instance->sndqueue.qlen); tasklet_kill (&instance->receive_tasklet); tasklet_kill (&instance->send_tasklet); kfree (instance); dev->dev_data = NULL; } static int udsl_atm_proc_read (struct atm_dev *atm_dev, loff_t *pos, char *page) { struct udsl_instance_data *instance = atm_dev->dev_data; int left = *pos; if (!instance) { dbg ("udsl_atm_proc_read: NULL instance!"); return -ENODEV; } if (!left--) return sprintf (page, "%s\n", instance->description); if (!left--) return sprintf (page, "MAC: %02x:%02x:%02x:%02x:%02x:%02x\n", atm_dev->esi [0], atm_dev->esi [1], atm_dev->esi [2], atm_dev->esi [3], atm_dev->esi [4], atm_dev->esi [5]); if (!left--) return sprintf (page, "AAL5: tx %d ( %d err ), rx %d ( %d err, %d drop )\n", atomic_read (&atm_dev->stats.aal5.tx), atomic_read (&atm_dev->stats.aal5.tx_err), atomic_read (&atm_dev->stats.aal5.rx), atomic_read (&atm_dev->stats.aal5.rx_err), atomic_read (&atm_dev->stats.aal5.rx_drop)); if (!left--) { switch (atm_dev->signal) { case ATM_PHY_SIG_FOUND: sprintf (page, "Line up"); break; case ATM_PHY_SIG_LOST: sprintf (page, "Line down"); break; default: sprintf (page, "Line state unknown"); break; } if (instance->usb_dev) { if (!instance->firmware_loaded) strcat (page, ", no firmware\n"); else strcat (page, ", firmware loaded\n"); } else strcat (page, ", disconnected\n"); return strlen (page); } return 0; } static int udsl_atm_open (struct atm_vcc *vcc, short vpi, int vci) { struct udsl_instance_data *instance = vcc->dev->dev_data; struct udsl_vcc_data *new; unsigned int max_pdu; dbg ("udsl_atm_open: vpi %hd, vci %d", vpi, vci); if (!instance || !instance->usb_dev) { dbg ("udsl_atm_open: NULL data!"); return -ENODEV; } if ((vpi == ATM_VPI_ANY) || (vci == ATM_VCI_ANY)) return -EINVAL; /* only support AAL5 */ if ((vcc->qos.aal != ATM_AAL5) || (vcc->qos.rxtp.max_sdu < 0) || (vcc->qos.rxtp.max_sdu > ATM_MAX_AAL5_PDU)) { dbg ("udsl_atm_open: unsupported ATM type %d!", vcc->qos.aal); return -EINVAL; } if (!instance->firmware_loaded) { dbg ("udsl_atm_open: firmware not loaded!"); return -EAGAIN; } down (&instance->serialize); /* vs self, udsl_atm_close */ if (udsl_find_vcc (instance, vpi, vci)) { dbg ("udsl_atm_open: %hd/%d already in use!", vpi, vci); up (&instance->serialize); return -EADDRINUSE; } if (!(new = kmalloc (sizeof (struct udsl_vcc_data), GFP_KERNEL))) { dbg ("udsl_atm_open: no memory for vcc_data!"); up (&instance->serialize); return -ENOMEM; } memset (new, 0, sizeof (struct udsl_vcc_data)); new->vcc = vcc; new->vpi = vpi; new->vci = vci; /* udsl_extract_cells requires at least one cell */ max_pdu = max (1, UDSL_NUM_CELLS (vcc->qos.rxtp.max_sdu)) * ATM_CELL_PAYLOAD; if (!(new->sarb = alloc_skb (max_pdu, GFP_KERNEL))) { dbg ("udsl_atm_open: no memory for SAR buffer!"); kfree (new); up (&instance->serialize); return -ENOMEM; } vcc->dev_data = new; vcc->vpi = vpi; vcc->vci = vci; tasklet_disable (&instance->receive_tasklet); list_add (&new->list, &instance->vcc_list); tasklet_enable (&instance->receive_tasklet); set_bit (ATM_VF_ADDR, &vcc->flags); set_bit (ATM_VF_PARTIAL, &vcc->flags); set_bit (ATM_VF_READY, &vcc->flags); up (&instance->serialize); tasklet_schedule (&instance->receive_tasklet); dbg ("udsl_atm_open: allocated vcc data 0x%p (max_pdu: %u)", new, max_pdu); return 0; } static void udsl_atm_close (struct atm_vcc *vcc) { struct udsl_instance_data *instance = vcc->dev->dev_data; struct udsl_vcc_data *vcc_data = vcc->dev_data; dbg ("udsl_atm_close called"); if (!instance || !vcc_data) { dbg ("udsl_atm_close: NULL data!"); return; } dbg ("udsl_atm_close: deallocating vcc 0x%p with vpi %d vci %d", vcc_data, vcc_data->vpi, vcc_data->vci); udsl_cancel_send (instance, vcc); down (&instance->serialize); /* vs self, udsl_atm_open */ tasklet_disable (&instance->receive_tasklet); list_del (&vcc_data->list); tasklet_enable (&instance->receive_tasklet); kfree_skb (vcc_data->sarb); vcc_data->sarb = NULL; kfree (vcc_data); vcc->dev_data = NULL; vcc->vpi = ATM_VPI_UNSPEC; vcc->vci = ATM_VCI_UNSPEC; clear_bit (ATM_VF_READY, &vcc->flags); clear_bit (ATM_VF_PARTIAL, &vcc->flags); clear_bit (ATM_VF_ADDR, &vcc->flags); up (&instance->serialize); dbg ("udsl_atm_close successful"); } static int udsl_atm_ioctl (struct atm_dev *dev, unsigned int cmd, void *arg) { switch (cmd) { case ATM_QUERYLOOP: return put_user (ATM_LM_NONE, (int *) arg) ? -EFAULT : 0; default: return -ENOIOCTLCMD; } } /********** ** USB ** **********/ static int udsl_set_alternate (struct udsl_instance_data *instance) { down (&instance->serialize); /* vs self */ if (!instance->firmware_loaded) { int ret; if ((ret = usb_set_interface (instance->usb_dev, 1, 1)) < 0) { dbg ("udsl_set_alternate: usb_set_interface returned %d!", ret); up (&instance->serialize); return ret; } instance->firmware_loaded = 1; } up (&instance->serialize); tasklet_schedule (&instance->receive_tasklet); return 0; } static int udsl_usb_ioctl (struct usb_device *dev, unsigned int code, void *user_data) { struct usb_interface *intf = usb_ifnum_to_if (dev, 1); struct udsl_instance_data *instance = intf->private_data; dbg ("udsl_usb_ioctl entered"); if (!instance) { dbg ("udsl_usb_ioctl: NULL instance!"); return -ENODEV; } switch (code) { case UDSL_IOCTL_LINE_UP: instance->atm_dev->signal = ATM_PHY_SIG_FOUND; return udsl_set_alternate (instance); case UDSL_IOCTL_LINE_DOWN: instance->atm_dev->signal = ATM_PHY_SIG_LOST; return 0; default: return -ENOTTY; } } static void *udsl_usb_probe (struct usb_device *dev, unsigned int ifnum, const struct usb_device_id *id) { struct udsl_instance_data *instance; unsigned char mac_str [13]; int i, length; char *buf; dbg ("udsl_usb_probe: trying device with vendor=0x%x, product=0x%x, ifnum %d", dev->descriptor.idVendor, dev->descriptor.idProduct, ifnum); if ((dev->descriptor.bDeviceClass != USB_CLASS_VENDOR_SPEC) || (dev->descriptor.idVendor != SPEEDTOUCH_VENDORID) || (dev->descriptor.idProduct != SPEEDTOUCH_PRODUCTID) || (ifnum != 1)) return NULL; dbg ("udsl_usb_probe: device accepted"); /* instance init */ if (!(instance = kmalloc (sizeof (struct udsl_instance_data), GFP_KERNEL))) { dbg ("udsl_usb_probe: no memory for instance data!"); return NULL; } memset (instance, 0, sizeof (struct udsl_instance_data)); init_MUTEX (&instance->serialize); instance->usb_dev = dev; INIT_LIST_HEAD (&instance->vcc_list); spin_lock_init (&instance->receive_lock); INIT_LIST_HEAD (&instance->spare_receivers); INIT_LIST_HEAD (&instance->filled_receive_buffers); tasklet_init (&instance->receive_tasklet, udsl_process_receive, (unsigned long) instance); INIT_LIST_HEAD (&instance->spare_receive_buffers); skb_queue_head_init (&instance->sndqueue); spin_lock_init (&instance->send_lock); INIT_LIST_HEAD (&instance->spare_senders); INIT_LIST_HEAD (&instance->spare_send_buffers); tasklet_init (&instance->send_tasklet, udsl_process_send, (unsigned long) instance); INIT_LIST_HEAD (&instance->filled_send_buffers); /* receive init */ for (i = 0; i < num_rcv_urbs; i++) { struct udsl_receiver *rcv = &(instance->receivers [i]); if (!(rcv->urb = usb_alloc_urb (0))) { dbg ("udsl_usb_probe: no memory for receive urb %d!", i); goto fail; } rcv->instance = instance; list_add (&rcv->list, &instance->spare_receivers); } for (i = 0; i < num_rcv_bufs; i++) { struct udsl_receive_buffer *buf = &(instance->receive_buffers [i]); if (!(buf->base = kmalloc (rcv_buf_size * ATM_CELL_SIZE, GFP_KERNEL))) { dbg ("udsl_usb_probe: no memory for receive buffer %d!", i); goto fail; } list_add (&buf->list, &instance->spare_receive_buffers); } /* send init */ for (i = 0; i < num_snd_urbs; i++) { struct udsl_sender *snd = &(instance->senders [i]); if (!(snd->urb = usb_alloc_urb (0))) { dbg ("udsl_usb_probe: no memory for send urb %d!", i); goto fail; } snd->instance = instance; list_add (&snd->list, &instance->spare_senders); } for (i = 0; i < num_snd_bufs; i++) { struct udsl_send_buffer *buf = &(instance->send_buffers [i]); if (!(buf->base = kmalloc (snd_buf_size * ATM_CELL_SIZE, GFP_KERNEL))) { dbg ("udsl_usb_probe: no memory for send buffer %d!", i); goto fail; } list_add (&buf->list, &instance->spare_send_buffers); } /* ATM init */ if (!(instance->atm_dev = atm_dev_register (udsl_driver_name, &udsl_atm_devops, -1, 0))) { dbg ("udsl_usb_probe: failed to register ATM device!"); goto fail; } instance->atm_dev->ci_range.vpi_bits = ATM_CI_MAX; instance->atm_dev->ci_range.vci_bits = ATM_CI_MAX; instance->atm_dev->signal = ATM_PHY_SIG_UNKNOWN; /* temp init ATM device, set to 128kbit */ instance->atm_dev->link_rate = 128 * 1000 / 424; /* set MAC address, it is stored in the serial number */ memset (instance->atm_dev->esi, 0, sizeof (instance->atm_dev->esi)); if (usb_string (dev, dev->descriptor.iSerialNumber, mac_str, sizeof (mac_str)) == 12) for (i = 0; i < 6; i++) instance->atm_dev->esi [i] = (hex2int (mac_str [i * 2]) * 16) + (hex2int (mac_str [i * 2 + 1])); /* device description */ buf = instance->description; length = sizeof (instance->description); if ((i = usb_string (dev, dev->descriptor.iProduct, buf, length)) < 0) goto finish; buf += i; length -= i; i = snprintf (buf, length, " ("); buf += i; length -= i; if (length <= 0 || (i = usb_make_path (dev, buf, length)) < 0) goto finish; buf += i; length -= i; snprintf (buf, length, ")"); finish: /* ready for ATM callbacks */ wmb (); instance->atm_dev->dev_data = instance; return instance; fail: for (i = 0; i < num_snd_bufs; i++) kfree (instance->send_buffers [i].base); for (i = 0; i < num_snd_urbs; i++) usb_free_urb (instance->senders [i].urb); for (i = 0; i < num_rcv_bufs; i++) kfree (instance->receive_buffers [i].base); for (i = 0; i < num_rcv_urbs; i++) usb_free_urb (instance->receivers [i].urb); kfree (instance); return NULL; } static void udsl_usb_disconnect (struct usb_device *dev, void *ptr) { struct udsl_instance_data *instance = ptr; struct list_head *pos; unsigned int count; int result, i; dbg ("udsl_usb_disconnect entered"); if (!instance) { dbg ("udsl_usb_disconnect: NULL instance!"); return; } /* receive finalize */ tasklet_disable (&instance->receive_tasklet); for (i = 0; i < num_rcv_urbs; i++) if ((result = usb_unlink_urb (instance->receivers [i].urb)) < 0) dbg ("udsl_usb_disconnect: usb_unlink_urb on receive urb %d returned %d!", i, result); /* wait for completion handlers to finish */ do { count = 0; spin_lock_irq (&instance->receive_lock); list_for_each (pos, &instance->spare_receivers) DEBUG_ON (++count > num_rcv_urbs); spin_unlock_irq (&instance->receive_lock); dbg ("udsl_usb_disconnect: found %u spare receivers", count); if (count == num_rcv_urbs) break; set_current_state (TASK_RUNNING); schedule (); } while (1); /* no need to take the spinlock */ INIT_LIST_HEAD (&instance->filled_receive_buffers); INIT_LIST_HEAD (&instance->spare_receive_buffers); tasklet_enable (&instance->receive_tasklet); for (i = 0; i < num_rcv_urbs; i++) usb_free_urb (instance->receivers [i].urb); for (i = 0; i < num_rcv_bufs; i++) kfree (instance->receive_buffers [i].base); /* send finalize */ tasklet_disable (&instance->send_tasklet); for (i = 0; i < num_snd_urbs; i++) if ((result = usb_unlink_urb (instance->senders [i].urb)) < 0) dbg ("udsl_usb_disconnect: usb_unlink_urb on send urb %d returned %d!", i, result); /* wait for completion handlers to finish */ do { count = 0; spin_lock_irq (&instance->send_lock); list_for_each (pos, &instance->spare_senders) DEBUG_ON (++count > num_snd_urbs); spin_unlock_irq (&instance->send_lock); dbg ("udsl_usb_disconnect: found %u spare senders", count); if (count == num_snd_urbs) break; set_current_state (TASK_RUNNING); schedule (); } while (1); /* no need to take the spinlock */ INIT_LIST_HEAD (&instance->spare_senders); INIT_LIST_HEAD (&instance->spare_send_buffers); instance->current_buffer = NULL; tasklet_enable (&instance->send_tasklet); for (i = 0; i < num_snd_urbs; i++) usb_free_urb (instance->senders [i].urb); for (i = 0; i < num_snd_bufs; i++) kfree (instance->send_buffers [i].base); wmb (); instance->usb_dev = NULL; /* ATM finalize */ shutdown_atm_dev (instance->atm_dev); /* frees instance, kills tasklets */ } /*********** ** init ** ***********/ static int __init udsl_usb_init (void) { dbg ("udsl_usb_init: driver version " DRIVER_VERSION); if (sizeof (struct udsl_control) > sizeof (((struct sk_buff *)0)->cb)) { printk (KERN_ERR __FILE__ ": unusable with this kernel!\n"); return -EIO; } if ((num_rcv_urbs > UDSL_MAX_RCV_URBS) || (num_snd_urbs > UDSL_MAX_SND_URBS) || (num_rcv_bufs > UDSL_MAX_RCV_BUFS) || (num_snd_bufs > UDSL_MAX_SND_BUFS) || (rcv_buf_size > UDSL_MAX_RCV_BUF_SIZE) || (snd_buf_size > UDSL_MAX_SND_BUF_SIZE)) return -EINVAL; return usb_register (&udsl_usb_driver); } static void __exit udsl_usb_cleanup (void) { dbg ("udsl_usb_cleanup entered"); usb_deregister (&udsl_usb_driver); } module_init (udsl_usb_init); module_exit (udsl_usb_cleanup); MODULE_AUTHOR (DRIVER_AUTHOR); MODULE_DESCRIPTION (DRIVER_DESC); MODULE_LICENSE ("GPL"); /************ ** debug ** ************/ #ifdef VERBOSE_DEBUG static int udsl_print_packet (const unsigned char *data, int len) { unsigned char buffer [256]; int i = 0, j = 0; for (i = 0; i < len;) { buffer [0] = '\0'; sprintf (buffer, "%.3d :", i); for (j = 0; (j < 16) && (i < len); j++, i++) { sprintf (buffer, "%s %2.2x", buffer, data [i]); } dbg ("%s", buffer); } return i; } #endif