/* -*- linux-c -*- */ /* * Driver for USB Scanners (linux-2.4.0) * * Copyright (C) 1999, 2000 David E. Nelson * * Portions may be copyright Brad Keryan and Michael Gee. * * David E. Nelson (dnelson@jump.net) * * 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. * * Originally based upon mouse.c (Brad Keryan) and printer.c (Michael Gee). * * History * * 0.1 8/31/1999 * * Developed/tested using linux-2.3.15 with minor ohci.c changes to * support short packes during bulk xfer mode. Some testing was * done with ohci-hcd but the performace was low. Very limited * testing was performed with uhci but I was unable to get it to * work. Initial relase to the linux-usb development effort. * * * 0.2 10/16/1999 * * - Device can't be opened unless a scanner is plugged into the USB. * - Finally settled on a reasonable value for the I/O buffer's. * - Cleaned up write_scanner() * - Disabled read/write stats * - A little more code cleanup * * * 0.3 10/18/1999 * * - Device registration changed to reflect new device * allocation/registration for linux-2.3.22+. * - Adopted David Brownell's technique for * assigning bulk endpoints. * - Removed unnessesary #include's * - Scanner model now reported via syslog INFO after being detected * *and* configured. * - Added user specified vendor:product USB ID's which can be passed * as module parameters. * * * 0.3.1 * * - Applied patches for linux-2.3.25. * - Error number reporting changed to reflect negative return codes. * * * 0.3.2 * * - Applied patches for linux-2.3.26 to scanner_init(). * - Debug read/write stats now report values as signed decimal. * * * 0.3.3 * * - Updated the bulk_msg() calls to usb usb_bulk_msg(). * - Added a small delay in the write_scanner() method to aid in * avoiding NULL data reads on HP scanners. We'll see how this works. * - Return values from usb_bulk_msg() now ignore positive values for * use with the ohci driver. * - Added conditional debugging instead of commenting/uncommenting * all over the place. * - kfree()'d the pointer after using usb_string() as documented in * linux-usb-api.txt. * - Added usb_set_configuration(). It got lost in version 0.3 -- ack! * - Added the HP 5200C USB Vendor/Product ID's. * * * 0.3.4 1/23/2000 * * - Added Greg K-H's patch for better handling of * Product/Vendor detection. * - The driver now autoconfigures its endpoints including interrupt * endpoints if one is detected. The concept was originally based * upon David Brownell's method. * - Added some Seiko/Epson ID's. Thanks to Karl Heinz * Kremer . * - Added some preliminary ioctl() calls for the PV8630 which is used * by the HP4200. The ioctl()'s still have to be registered. Thanks * to Adrian Perez Jorge . * - Moved/migrated stuff to scanner.h * - Removed the usb_set_configuration() since this is handled by * the usb_new_device() routine in usb.c. * - Added the HP 3300C. Thanks to Bruce Tenison. * - Changed user specified vendor/product id so that root hub doesn't * get falsely attached to. Thanks to Greg K-H. * - Added some Mustek ID's. Thanks to Gernot Hoyler * . * - Modified the usb_string() reporting. See kfree() comment above. * - Added Umax Astra 2000U. Thanks to Doug Alcorn . * - Updated the printk()'s to use the info/warn/dbg macros. * - Updated usb_bulk_msg() argument types to fix gcc warnings. * * * 0.4 2/4/2000 * * - Removed usb_string() from probe_scanner since the core now does a * good job of reporting what was connnected. * - Finally, simultaneous multiple device attachment! * - Fixed some potential memory freeing issues should memory allocation * fail in probe_scanner(); * - Some fixes to disconnect_scanner(). * - Added interrupt endpoint support. * - Added Agfa SnapScan Touch. Thanks to Jan Van den Bergh * . * - Added Umax 1220U ID's. Thanks to Maciek Klimkowski * . * - Fixed bug in write_scanner(). The buffer was not being properly * updated for writes larger than OBUF_SIZE. Thanks to Henrik * Johansson for identifying it. * - Added Microtek X6 ID's. Thanks to Oliver Neukum * . * * * 0.4.1 2/15/2000 * * - Fixed 'count' bug in read_scanner(). Thanks to Henrik * Johansson for identifying it. Amazing * it has worked this long. * - Fixed '>=' bug in both read/write_scanner methods. * - Cleaned up both read/write_scanner() methods so that they are * a little more readable. * - Added a lot of Microtek ID's. Thanks to Adrian Perez Jorge. * - Adopted the __initcall(). * - Added #include to scanner.h for __initcall(). * - Added one liner in irq_scanner() to keep gcc from complaining * about an unused variable (data) if debugging was disabled * in scanner.c. * - Increased the timeout parameter in read_scanner() to 120 Secs. * * * 0.4.2 3/23/2000 * * - Added Umax 1236U ID. Thanks to Philipp Baer . * - Added Primax, ReadyScan, Visioneer, Colorado, and Genius ID's. * Thanks to Adrian Perez Jorge . * - Fixed error number reported for non-existant devices. Thanks to * Spyridon Papadimitriou . * - Added Acer Prisascan 620U ID's. Thanks to Joao . * - Replaced __initcall() with module_init()/module_exit(). Updates * from patch-2.3.48. * - Replaced file_operations structure with new syntax. Updates * from patch-2.3.49. * - Changed #include "usb.h" to #include * - Added #define SCN_IOCTL to exclude development areas * since 2.4.x is about to be released. This mainly affects the * ioctl() stuff. See scanner.h for more details. * - Changed the return value for signal_pending() from -ERESTARTSYS to * -EINTR. * * * 0.4.3 4/30/2000 * * - Added Umax Astra 2200 ID. Thanks to Flynn Marquardt * . * - Added iVina 1200U ID. Thanks to Dyson Lin . * - Added access time update for the device file courtesy of Paul * Mackerras . This allows a user space daemon * to turn the lamp off for a Umax 1220U scanner after a prescribed * time. * - Fixed HP S20 ID's. Thanks to Ruud Linders . * - Added Acer ScanPrisa 620U ID. Thanks to Oliver * Schwartz via sane-devel mail list. * - Fixed bug in read_scanner for copy_to_user() function. The returned * value should be 'partial' not 'this_read'. * - Fixed bug in read_scanner. 'count' should be decremented * by 'this_read' and not by 'partial'. This resulted in twice as many * calls to read_scanner() for small amounts of data and possibly * unexpected returns of '0'. Thanks to Karl Heinz * Kremer and Alain Knaff * for discovering this. * - Integrated Randy Dunlap's patch for a * scanner lookup/ident table. Thanks Randy. * - Documentation updates. * - Added wait queues to read_scanner(). * * * 0.4.3.1 * * - Fixed HP S20 ID's...again..sigh. Thanks to Ruud * Linders . * * 0.4.4 * - Added addtional Mustek ID's (BearPaw 1200, 600 CU, 1200 USB, * and 1200 UB. Thanks to Henning Meier-Geinitz . * - Added the Vuego Scan Brisa 340U ID's. Apparently this scanner is * marketed by Acer Peripherals as a cheap 300 dpi model. Thanks to * David Gundersen . * - Added the Epson Expression1600 ID's. Thanks to Karl Heinz * Kremer . * * 0.4.5 2/28/2001 * - Added Mustek ID's (BearPaw 2400, 1200 CU Plus, BearPaw 1200F). * Thanks to Henning Meier-Geinitz . * - Added read_timeout module parameter to override RD_NAK_TIMEOUT * when read()'ing from devices. * - Stalled pipes are now checked and cleared with * usb_clear_halt() for the read_scanner() function. This should * address the "funky result: -32" error messages. * - Removed Microtek scanner ID's. Microtek scanners are now * supported via the drivers/usb/microtek.c driver. * - Added scanner specific read timeout's. * - Return status errors are NEGATIVE!!! This should address the * "funky result: -110" error messages. * - Replaced USB_ST_TIMEOUT with ETIMEDOUT. * - rd_nak was still defined in MODULE_PARM. It's been updated with * read_timeout. Thanks to Mark W. Webb for * reporting this bug. * - Added Epson Perfection 1640SU and 1640SU Photo. Thanks to * Jean-Luc . * * TODO * * - Performance * - Select/poll methods * - More testing * - Proper registry/assignment for LM9830 ioctl's * * * Thanks to: * * - All the folks on the linux-usb list who put up with me. :) This * has been a great learning experience for me. * - To Linus Torvalds for this great OS. * - The GNU folks. * - The folks that forwarded Vendor:Product ID's to me. * - Johannes Erdfelt for the loaning of a USB analyzer for tracking an * issue with HP-4100 and uhci. * - Adolfo Montero for his assistance. * - All the folks who chimed in with reports and suggestions. * - All the developers that are working on USB SANE backends or other * applications to use USB scanners. * * Performance: * * System: Pentium 120, 80 MB RAM, OHCI, Linux 2.3.23, HP 4100C USB Scanner * 300 dpi scan of the entire bed * 24 Bit Color ~ 70 secs - 3.6 Mbit/sec * 8 Bit Gray ~ 17 secs - 4.2 Mbit/sec */ /* * Scanner definitions, macros, module info, * debug/ioctl/data_dump enable, and other constants. */ #include "scanner.h" static void irq_scanner(struct urb *urb) { /* * For the meantime, this is just a placeholder until I figure out what * all I want to do with it -- or somebody else for that matter. */ struct scn_usb_data *scn = urb->context; unsigned char *data = &scn->button; data += 0; /* Keep gcc from complaining about unused var */ if (urb->status) { return; } dbg("irq_scanner(%d): data:%x", scn->scn_minor, *data); return; } static int open_scanner(struct inode * inode, struct file * file) { struct scn_usb_data *scn; struct usb_device *dev; kdev_t scn_minor; int err=0; lock_kernel(); scn_minor = USB_SCN_MINOR(inode); dbg("open_scanner: scn_minor:%d", scn_minor); if (!p_scn_table[scn_minor]) { err("open_scanner(%d): Unable to access minor data", scn_minor); err = -ENODEV; goto out_error; } scn = p_scn_table[scn_minor]; dev = scn->scn_dev; if (!dev) { err("open_scanner(%d): Scanner device not present", scn_minor); err = -ENODEV; goto out_error; } if (!scn->present) { err("open_scanner(%d): Scanner is not present", scn_minor); err = -ENODEV; goto out_error; } if (scn->isopen) { err("open_scanner(%d): Scanner device is already open", scn_minor); err = -EBUSY; goto out_error; } init_waitqueue_head(&scn->rd_wait_q); scn->isopen = 1; file->private_data = scn; /* Used by the read and write metheds */ MOD_INC_USE_COUNT; out_error: unlock_kernel(); return err; } static int close_scanner(struct inode * inode, struct file * file) { struct scn_usb_data *scn; kdev_t scn_minor; scn_minor = USB_SCN_MINOR (inode); dbg("close_scanner: scn_minor:%d", scn_minor); if (!p_scn_table[scn_minor]) { err("close_scanner(%d): invalid scn_minor", scn_minor); return -ENODEV; } scn = p_scn_table[scn_minor]; scn->isopen = 0; file->private_data = NULL; MOD_DEC_USE_COUNT; return 0; } static ssize_t write_scanner(struct file * file, const char * buffer, size_t count, loff_t *ppos) { struct scn_usb_data *scn; struct usb_device *dev; ssize_t bytes_written = 0; /* Overall count of bytes written */ ssize_t ret = 0; kdev_t scn_minor; int this_write; /* Number of bytes to write */ int partial; /* Number of bytes successfully written */ int result = 0; char *obuf; scn = file->private_data; scn_minor = scn->scn_minor; obuf = scn->obuf; dev = scn->scn_dev; file->f_dentry->d_inode->i_atime = CURRENT_TIME; down(&(scn->gen_lock)); while (count > 0) { if (signal_pending(current)) { ret = -EINTR; break; } this_write = (count >= OBUF_SIZE) ? OBUF_SIZE : count; if (copy_from_user(scn->obuf, buffer, this_write)) { ret = -EFAULT; break; } result = usb_bulk_msg(dev,usb_sndbulkpipe(dev, scn->bulk_out_ep), obuf, this_write, &partial, 60*HZ); dbg("write stats(%d): result:%d this_write:%d partial:%d", scn_minor, result, this_write, partial); if (result == -ETIMEDOUT) { /* NAK -- shouldn't happen */ warn("write_scanner: NAK recieved."); ret = result; break; } else if (result < 0) { /* We should not get any I/O errors */ warn("write_scanner(%d): funky result: %d. Please notify the maintainer.", scn_minor, result); ret = -EIO; break; } #ifdef WR_DATA_DUMP if (partial) { unsigned char cnt, cnt_max; cnt_max = (partial > 24) ? 24 : partial; printk(KERN_DEBUG "dump(%d): ", scn_minor); for (cnt=0; cnt < cnt_max; cnt++) { printk("%X ", obuf[cnt]); } printk("\n"); } #endif if (partial != this_write) { /* Unable to write all contents of obuf */ ret = -EIO; break; } if (partial) { /* Data written */ buffer += partial; count -= partial; bytes_written += partial; } else { /* No data written */ ret = 0; break; } } up(&(scn->gen_lock)); mdelay(5); /* This seems to help with SANE queries */ return ret ? ret : bytes_written; } static ssize_t read_scanner(struct file * file, char * buffer, size_t count, loff_t *ppos) { struct scn_usb_data *scn; struct usb_device *dev; ssize_t bytes_read; /* Overall count of bytes_read */ ssize_t ret; kdev_t scn_minor; int partial; /* Number of bytes successfully read */ int this_read; /* Max number of bytes to read */ int result; int rd_expire = RD_EXPIRE; char *ibuf; scn = file->private_data; scn_minor = scn->scn_minor; ibuf = scn->ibuf; dev = scn->scn_dev; bytes_read = 0; ret = 0; file->f_dentry->d_inode->i_atime = CURRENT_TIME; /* Update the atime of the device node */ down(&(scn->gen_lock)); while (count > 0) { if (signal_pending(current)) { ret = -EINTR; break; } this_read = (count >= IBUF_SIZE) ? IBUF_SIZE : count; result = usb_bulk_msg(dev, usb_rcvbulkpipe(dev, scn->bulk_in_ep), ibuf, this_read, &partial, scn->rd_nak_timeout); dbg("read stats(%d): result:%d this_read:%d partial:%d count:%d", scn_minor, result, this_read, partial, count); /* * Scanners are sometimes inheriently slow since they are mechanical * in nature. USB bulk reads tend to timeout while the scanner is * positioning, resetting, warming up the lamp, etc if the timeout is * set too low. A very long timeout parameter for bulk reads was used * to overcome this limitation, but this sometimes resulted in folks * having to wait for the timeout to expire after pressing Ctrl-C from * an application. The user was sometimes left with the impression * that something had hung or crashed when in fact the USB read was * just waiting on data. So, the below code retains the same long * timeout period, but splits it up into smaller parts so that * Ctrl-C's are acted upon in a reasonable amount of time. */ if (result == -ETIMEDOUT) { /* NAK */ if (!partial) { /* No data */ if (--rd_expire <= 0) { /* Give it up */ warn("read_scanner(%d): excessive NAK's received", scn_minor); ret = result; break; } else { /* Keep trying to read data */ interruptible_sleep_on_timeout(&scn->rd_wait_q, scn->rd_nak_timeout); continue; } } else { /* Timeout w/ some data */ goto data_recvd; } } if (result == -EPIPE) { /* No hope */ if(usb_clear_halt(dev, scn->bulk_in_ep)) { err("read_scanner(%d): Failure to clear endpoint halt condition (%Zd).", scn_minor, ret); } ret = result; break; } else if ((result < 0) && (result != USB_ST_DATAUNDERRUN)) { warn("read_scanner(%d): funky result:%d. Please notify the maintainer.", scn_minor, (int)result); ret = -EIO; break; } data_recvd: #ifdef RD_DATA_DUMP if (partial) { unsigned char cnt, cnt_max; cnt_max = (partial > 24) ? 24 : partial; printk(KERN_DEBUG "dump(%d): ", scn_minor); for (cnt=0; cnt < cnt_max; cnt++) { printk("%X ", ibuf[cnt]); } printk("\n"); } #endif if (partial) { /* Data returned */ if (copy_to_user(buffer, ibuf, partial)) { ret = -EFAULT; break; } count -= this_read; /* Compensate for short reads */ bytes_read += partial; /* Keep tally of what actually was read */ buffer += partial; } else { ret = 0; break; } } up(&(scn->gen_lock)); return ret ? ret : bytes_read; } static void * probe_scanner(struct usb_device *dev, unsigned int ifnum, const struct usb_device_id *id) { struct scn_usb_data *scn; struct usb_interface_descriptor *interface; struct usb_endpoint_descriptor *endpoint; int ep_cnt; int ix; kdev_t scn_minor; char valid_device = 0; char have_bulk_in, have_bulk_out, have_intr; if (vendor != -1 && product != -1) { info("probe_scanner: User specified USB scanner -- Vendor:Product - %x:%x", vendor, product); } dbg("probe_scanner: USB dev address:%p", dev); dbg("probe_scanner: ifnum:%u", ifnum); /* * 1. Check Vendor/Product * 2. Determine/Assign Bulk Endpoints * 3. Determine/Assign Intr Endpoint */ /* * There doesn't seem to be an imaging class defined in the USB * Spec. (yet). If there is, HP isn't following it and it doesn't * look like anybody else is either. Therefore, we have to test the * Vendor and Product ID's to see what we have. Also, other scanners * may be able to use this driver by specifying both vendor and * product ID's as options to the scanner module in conf.modules. * * NOTE: Just because a product is supported here does not mean that * applications exist that support the product. It's in the hopes * that this will allow developers a means to produce applications * that will support USB products. * * Until we detect a device which is pleasing, we silently punt. */ for (ix = 0; ix < sizeof (scanner_device_ids) / sizeof (struct usb_device_id); ix++) { if ((dev->descriptor.idVendor == scanner_device_ids [ix].idVendor) && (dev->descriptor.idProduct == scanner_device_ids [ix].idProduct)) { valid_device = 1; break; } } if (dev->descriptor.idVendor == vendor && /* User specified */ dev->descriptor.idProduct == product) { /* User specified */ valid_device = 1; } if (!valid_device) return NULL; /* We didn't find anything pleasing */ /* * After this point we can be a little noisy about what we are trying to * configure. */ if (dev->descriptor.bNumConfigurations != 1) { info("probe_scanner: Only one device configuration is supported."); return NULL; } if (dev->config[0].bNumInterfaces != 1) { info("probe_scanner: Only one device interface is supported."); return NULL; } interface = dev->config[0].interface[ifnum].altsetting; endpoint = interface[ifnum].endpoint; /* * Start checking for two bulk endpoints OR two bulk endpoints *and* one * interrupt endpoint. If we have an interrupt endpoint go ahead and * setup the handler. FIXME: This is a future enhancement... */ dbg("probe_scanner: Number of Endpoints:%d", (int) interface->bNumEndpoints); if ((interface->bNumEndpoints != 2) && (interface->bNumEndpoints != 3)) { info("probe_scanner: Only two or three endpoints supported."); return NULL; } ep_cnt = have_bulk_in = have_bulk_out = have_intr = 0; while (ep_cnt < interface->bNumEndpoints) { if (!have_bulk_in && IS_EP_BULK_IN(endpoint[ep_cnt])) { ep_cnt++; have_bulk_in = ep_cnt; dbg("probe_scanner: bulk_in_ep:%d", have_bulk_in); continue; } if (!have_bulk_out && IS_EP_BULK_OUT(endpoint[ep_cnt])) { ep_cnt++; have_bulk_out = ep_cnt; dbg("probe_scanner: bulk_out_ep:%d", have_bulk_out); continue; } if (!have_intr && IS_EP_INTR(endpoint[ep_cnt])) { ep_cnt++; have_intr = ep_cnt; dbg("probe_scanner: intr_ep:%d", have_intr); continue; } info("probe_scanner: Undetected endpoint. Notify the maintainer."); return NULL; /* Shouldn't ever get here unless we have something weird */ } /* * Perform a quick check to make sure that everything worked as it * should have. */ switch(interface->bNumEndpoints) { case 2: if (!have_bulk_in || !have_bulk_out) { info("probe_scanner: Two bulk endpoints required."); return NULL; } break; case 3: if (!have_bulk_in || !have_bulk_out || !have_intr) { info("probe_scanner: Two bulk endpoints and one interrupt endpoint required."); return NULL; } break; default: info("probe_scanner: Endpoint determination failed. Notify the maintainer."); return NULL; } /* * Determine a minor number and initialize the structure associated * with it. The problem with this is that we are counting on the fact * that the user will sequentially add device nodes for the scanner * devices. */ for (scn_minor = 0; scn_minor < SCN_MAX_MNR; scn_minor++) { if (!p_scn_table[scn_minor]) break; } /* Check to make sure that the last slot isn't already taken */ if (p_scn_table[scn_minor]) { err("probe_scanner: No more minor devices remaining."); return NULL; } dbg("probe_scanner: Allocated minor:%d", scn_minor); if (!(scn = kmalloc (sizeof (struct scn_usb_data), GFP_KERNEL))) { err("probe_scanner: Out of memory."); return NULL; } memset (scn, 0, sizeof(struct scn_usb_data)); dbg ("probe_scanner(%d): Address of scn:%p", scn_minor, scn); /* Ok, if we detected an interrupt EP, setup a handler for it */ if (have_intr) { dbg("probe_scanner(%d): Configuring IRQ handler for intr EP:%d", scn_minor, have_intr); FILL_INT_URB(&scn->scn_irq, dev, usb_rcvintpipe(dev, have_intr), &scn->button, 1, irq_scanner, scn, // endpoint[(int)have_intr].bInterval); 250); if (usb_submit_urb(&scn->scn_irq)) { err("probe_scanner(%d): Unable to allocate INT URB.", scn_minor); kfree(scn); return NULL; } } /* Ok, now initialize all the relevant values */ if (!(scn->obuf = (char *)kmalloc(OBUF_SIZE, GFP_KERNEL))) { err("probe_scanner(%d): Not enough memory for the output buffer.", scn_minor); kfree(scn); return NULL; } dbg("probe_scanner(%d): obuf address:%p", scn_minor, scn->obuf); if (!(scn->ibuf = (char *)kmalloc(IBUF_SIZE, GFP_KERNEL))) { err("probe_scanner(%d): Not enough memory for the input buffer.", scn_minor); kfree(scn->obuf); kfree(scn); return NULL; } dbg("probe_scanner(%d): ibuf address:%p", scn_minor, scn->ibuf); switch (dev->descriptor.idVendor) { /* Scanner specific read timeout parameters */ case 0x04b8: /* Seiko/Epson */ scn->rd_nak_timeout = HZ * 40; break; case 0x055f: /* Mustek */ case 0x0400: /* Another Mustek */ case 0x0ff5: /* And yet another Mustek */ scn->rd_nak_timeout = HZ * 1; default: scn->rd_nak_timeout = RD_NAK_TIMEOUT; } if (read_timeout > 0) { /* User specified read timeout overrides everything */ info("probe_scanner: User specified USB read timeout - %d", read_timeout); scn->rd_nak_timeout = read_timeout; } scn->bulk_in_ep = have_bulk_in; scn->bulk_out_ep = have_bulk_out; scn->intr_ep = have_intr; scn->present = 1; scn->scn_dev = dev; scn->scn_minor = scn_minor; scn->isopen = 0; init_MUTEX(&(scn->gen_lock)); return p_scn_table[scn_minor] = scn; } static void disconnect_scanner(struct usb_device *dev, void *ptr) { struct scn_usb_data *scn = (struct scn_usb_data *) ptr; if(scn->intr_ep) { dbg("disconnect_scanner(%d): Unlinking IRQ URB", scn->scn_minor); usb_unlink_urb(&scn->scn_irq); } usb_driver_release_interface(&scanner_driver, &scn->scn_dev->actconfig->interface[scn->ifnum]); kfree(scn->ibuf); kfree(scn->obuf); dbg("disconnect_scanner: De-allocating minor:%d", scn->scn_minor); p_scn_table[scn->scn_minor] = NULL; kfree (scn); } #ifdef SCN_IOCTL static int ioctl_scanner(struct inode *inode, struct file *file, unsigned int cmd, unsigned long arg) { struct usb_device *dev; int result; kdev_t scn_minor; scn_minor = USB_SCN_MINOR(inode); if (!p_scn_table[scn_minor]) { err("ioctl_scanner(%d): invalid scn_minor", scn_minor); return -ENODEV; } dev = p_scn_table[scn_minor]->scn_dev; switch (cmd) { case PV8630_IOCTL_INREQUEST : { struct { __u8 data; __u8 request; __u16 value; __u16 index; } args; if (copy_from_user(&args, (void *)arg, sizeof(args))) return -EFAULT; result = usb_control_msg(dev, usb_rcvctrlpipe(dev, 0), args.request, USB_TYPE_VENDOR| USB_RECIP_DEVICE|USB_DIR_IN, args.value, args.index, &args.data, 1, HZ*5); dbg("ioctl_scanner(%d): inreq: args.data:%x args.value:%x args.index:%x args.request:%x\n", scn_minor, args.data, args.value, args.index, args.request); if (copy_to_user((void *)arg, &args, sizeof(args))) return -EFAULT; dbg("ioctl_scanner(%d): inreq: result:%d\n", scn_minor, result); return result; } case PV8630_IOCTL_OUTREQUEST : { struct { __u8 request; __u16 value; __u16 index; } args; if (copy_from_user(&args, (void *)arg, sizeof(args))) return -EFAULT; dbg("ioctl_scanner(%d): outreq: args.value:%x args.index:%x args.request:%x\n", scn_minor, args.value, args.index, args.request); result = usb_control_msg(dev, usb_sndctrlpipe(dev, 0), args.request, USB_TYPE_VENDOR| USB_RECIP_DEVICE|USB_DIR_OUT, args.value, args.index, NULL, 0, HZ*5); dbg("ioctl_scanner(%d): outreq: result:%d\n", scn_minor, result); return result; } default: return -ENOIOCTLCMD; } return 0; } #endif /* SCN_IOCTL */ static struct file_operations usb_scanner_fops = { read: read_scanner, write: write_scanner, #ifdef SCN_IOCTL ioctl: ioctl_scanner, #endif /* SCN_IOCTL */ open: open_scanner, release: close_scanner, }; static struct usb_driver scanner_driver = { name: "usbscanner", probe: probe_scanner, disconnect: disconnect_scanner, fops: &usb_scanner_fops, minor: SCN_BASE_MNR, id_table: NULL, /* This would be scanner_device_ids, but we need to check every USB device, in case we match a user defined vendor/product ID. */ }; void __exit usb_scanner_exit(void) { usb_deregister(&scanner_driver); } int __init usb_scanner_init (void) { if (usb_register(&scanner_driver) < 0) return -1; info("USB Scanner support registered."); return 0; } module_init(usb_scanner_init); module_exit(usb_scanner_exit);