/* sane - Scanner Access Now Easy. Copyright (C) 2003 Rene Rebe (sanei_read_int,sanei_set_timeout) Copyright (C) 2001 - 2005 Henning Meier-Geinitz Copyright (C) 2001 Frank Zago (sanei_usb_control_msg) Copyright (C) 2005 Paul Smedley (OS/2 usbcalls) This file is part of the SANE package. 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. As a special exception, the authors of SANE give permission for additional uses of the libraries contained in this release of SANE. The exception is that, if you link a SANE library with other files to produce an executable, this does not by itself cause the resulting executable to be covered by the GNU General Public License. Your use of that executable is in no way restricted on account of linking the SANE library code into it. This exception does not, however, invalidate any other reasons why the executable file might be covered by the GNU General Public License. If you submit changes to SANE to the maintainers to be included in a subsequent release, you agree by submitting the changes that those changes may be distributed with this exception intact. If you write modifications of your own for SANE, it is your choice whether to permit this exception to apply to your modifications. If you do not wish that, delete this exception notice. This file provides a generic USB interface. */ #include "../include/sane/config.h" #include #include #include #include #include #include #include #include #include #include #ifdef HAVE_RESMGR #include #endif #ifdef HAVE_LIBUSB #include #endif /* HAVE_LIBUSB */ #ifdef HAVE_USBCALLS #include #include #include #define MAX_RW 64000 static int usbcalls_timeout = 30 * 1000; /* 30 seconds */ USBHANDLE dh; PHEV pUsbIrqStartHev=NULL; static struct usb_descriptor_header *GetNextDescriptor( struct usb_descriptor_header *currHead, UCHAR *lastBytePtr) { UCHAR *currBytePtr, *nextBytePtr; if (!currHead->bLength) return (NULL); currBytePtr=(UCHAR *)currHead; nextBytePtr=currBytePtr+currHead->bLength; if (nextBytePtr>=lastBytePtr) return (NULL); return ((struct usb_descriptor_header*)nextBytePtr); } #endif /* HAVE_USBCALLS */ #if defined (__FreeBSD__) #include #endif /* __FreeBSD__ */ #define BACKEND_NAME sanei_usb #include "../include/sane/sane.h" #include "../include/sane/sanei_debug.h" #include "../include/sane/sanei_usb.h" #include "../include/sane/sanei_config.h" typedef enum { sanei_usb_method_scanner_driver = 0, /* kernel scanner driver (Linux, BSD) */ sanei_usb_method_libusb, sanei_usb_method_usbcalls } sanei_usb_access_method_type; typedef struct { SANE_Bool open; sanei_usb_access_method_type method; int fd; SANE_String devname; SANE_Int vendor; SANE_Int product; SANE_Int bulk_in_ep; SANE_Int bulk_out_ep; SANE_Int iso_in_ep; SANE_Int iso_out_ep; SANE_Int int_in_ep; SANE_Int int_out_ep; SANE_Int control_in_ep; SANE_Int control_out_ep; SANE_Int interface_nr; #ifdef HAVE_LIBUSB usb_dev_handle *libusb_handle; struct usb_device *libusb_device; #endif /* HAVE_LIBUSB */ } device_list_type; /* total number of devices that can be opened at the same time */ #define MAX_DEVICES 100 /* per-device information, using the functions' parameters dn as index */ static device_list_type devices[MAX_DEVICES]; #ifdef HAVE_LIBUSB static int libusb_timeout = 30 * 1000; /* 30 seconds */ #endif /* HAVE_LIBUSB */ #if defined (__linux__) /* From /usr/src/linux/driver/usb/scanner.h */ #define SCANNER_IOCTL_VENDOR _IOR('U', 0x20, int) #define SCANNER_IOCTL_PRODUCT _IOR('U', 0x21, int) #define SCANNER_IOCTL_CTRLMSG _IOWR('U', 0x22, devrequest) /* Older (unofficial) IOCTL numbers for Linux < v2.4.13 */ #define SCANNER_IOCTL_VENDOR_OLD _IOR('u', 0xa0, int) #define SCANNER_IOCTL_PRODUCT_OLD _IOR('u', 0xa1, int) /* From /usr/src/linux/include/linux/usb.h */ typedef struct { unsigned char requesttype; unsigned char request; unsigned short value; unsigned short index; unsigned short length; } devrequest; /* From /usr/src/linux/driver/usb/scanner.h */ struct ctrlmsg_ioctl { devrequest req; void *data; } cmsg; #elif defined(__BEOS__) #include #include #endif /* __linux__ */ static SANE_Bool inited = SANE_FALSE; /* Debug level from sanei_init_debug */ static SANE_Int debug_level; static void print_buffer (const SANE_Byte * buffer, SANE_Int size) { #define NUM_COLUMNS 16 #define PRINT_BUFFER_SIZE (6 + NUM_COLUMNS * (3 + 1) + 1 + 1) char line_str[PRINT_BUFFER_SIZE]; char *pp; int column; int line; memset (line_str, 0, PRINT_BUFFER_SIZE); for (line = 0; line < ((size + NUM_COLUMNS - 1) / NUM_COLUMNS); line++) { pp = line_str; sprintf (pp, "%04X: ", line * NUM_COLUMNS); pp += 6; for (column = 0; column < NUM_COLUMNS; column++) { if ((line * NUM_COLUMNS + column) < size) sprintf (pp, "%02X ", buffer[line * NUM_COLUMNS + column]); else sprintf (pp, " "); pp += 3; } for (column = 0; column < NUM_COLUMNS; column++) { if ((line * NUM_COLUMNS + column) < size) sprintf (pp, "%c", (buffer[line * NUM_COLUMNS + column] < 127) && (buffer[line * NUM_COLUMNS + column] > 31) ? buffer[line * NUM_COLUMNS + column] : '.'); else sprintf (pp, "."); pp += 1; } DBG (11, "%s\n", line_str); } } static void kernel_get_vendor_product (int fd, const char *name, int *vendorID, int *productID) { #if defined (__linux__) /* read the vendor and product IDs via the IOCTLs */ if (ioctl (fd, SCANNER_IOCTL_VENDOR, vendorID) == -1) { if (ioctl (fd, SCANNER_IOCTL_VENDOR_OLD, vendorID) == -1) DBG (3, "kernel_get_vendor_product: ioctl (vendor) " "of device %s failed: %s\n", name, strerror (errno)); } if (ioctl (fd, SCANNER_IOCTL_PRODUCT, productID) == -1) { if (ioctl (fd, SCANNER_IOCTL_PRODUCT_OLD, productID) == -1) DBG (3, "sanei_usb_get_vendor_product: ioctl (product) " "of device %s failed: %s\n", name, strerror (errno)); } #elif defined(__BEOS__) { uint16 vendor, product; if (ioctl (fd, B_SCANNER_IOCTL_VENDOR, &vendor) != B_OK) DBG (3, "kernel_get_vendor_product: ioctl (vendor) " "of device %d failed: %s\n", fd, strerror (errno)); if (ioctl (fd, B_SCANNER_IOCTL_PRODUCT, &product) != B_OK) DBG (3, "sanei_usb_get_vendor_product: ioctl (product) " "of device %d failed: %s\n", fd, strerror (errno)); /* copy from 16 to 32 bit value */ *vendorID = vendor; *productID = product; } #elif defined (__FreeBSD__) { int controller; int ctrl_fd; char buf[40]; int dev; for (controller = 0; ; controller++ ) { snprintf (buf, sizeof (buf) - 1, "/dev/usb%d", controller); ctrl_fd = open (buf, O_RDWR); /* If we can not open the usb controller device, treat it as the end of controller devices */ if (ctrl_fd < 0) break; /* Search for the scanner device on this bus */ for (dev = 1; dev < USB_MAX_DEVICES; dev++) { struct usb_device_info devInfo; devInfo.udi_addr = dev; if (ioctl (ctrl_fd, USB_DEVICEINFO, &devInfo) == -1) break; /* Treat this as the end of devices for this controller */ snprintf (buf, sizeof (buf), "/dev/%s", devInfo.udi_devnames[0]); if (strncmp (buf, name, sizeof (buf)) == 0) { *vendorID = (int) devInfo.udi_vendorNo; *productID = (int) devInfo.udi_productNo; close (ctrl_fd); return; } } close (ctrl_fd); } DBG (3, "kernel_get_vendor_product: Could not retrieve " "vendor/product ID from device %s\n", name); } #endif /* defined (__linux__), defined(__BEOS__), ... */ /* put more os-dependant stuff ... */ } void sanei_usb_init (void) { SANE_String *prefix; SANE_String prefixlist[] = { #if defined(__linux__) "/dev/", "usbscanner", "/dev/usb/", "scanner", #elif defined(__FreeBSD__) || defined(__NetBSD__) || defined (__OpenBSD__) "/dev/", "uscanner", #elif defined(__BEOS__) "/dev/scanner/usb/", "", #endif 0, 0 }; SANE_Int vendor, product; SANE_Char devname[1024]; SANE_Int dn = 0; int fd; #ifdef HAVE_LIBUSB struct usb_bus *bus; struct usb_device *dev; #endif /* HAVE_LIBUSB */ if (inited) return; inited = SANE_TRUE; DBG_INIT (); #ifdef DBG_LEVEL debug_level = DBG_LEVEL; #else debug_level = 0; #endif memset (devices, 0, sizeof (devices)); DBG (4, "sanei_usb_init: Looking for kernel scanner devices\n"); /* Check for devices using the kernel scanner driver */ for (prefix = prefixlist; *prefix; prefix += 2) { SANE_String dir_name = *prefix; SANE_String base_name = *(prefix + 1); struct stat stat_buf; DIR *dir; struct dirent *dir_entry; if (stat (dir_name, &stat_buf) < 0) { DBG (5, "sanei_usb_init: can't stat %s: %s\n", dir_name, strerror (errno)); continue; } if (!S_ISDIR (stat_buf.st_mode)) { DBG (5, "sanei_usb_init: %s is not a directory\n", dir_name); continue; } if ((dir = opendir (dir_name)) == 0) { DBG (5, "sanei_usb_init: cannot read directory %s: %s\n", dir_name, strerror (errno)); continue; } while ((dir_entry = readdir (dir)) != 0) { /* skip standard dir entries */ if (strcmp (dir_entry->d_name, ".") == 0 || strcmp (dir_entry->d_name, "..") == 0) continue; if (strncmp (base_name, dir_entry->d_name, strlen (base_name)) == 0) { if (strlen (dir_name) + strlen (dir_entry->d_name) + 1 > sizeof (devname)) continue; sprintf (devname, "%s%s", dir_name, dir_entry->d_name); fd = -1; #ifdef HAVE_RESMGR fd = rsm_open_device (devname, O_RDWR); #endif if (fd == -1) fd = open (devname, O_RDWR); if (fd < 0) { DBG (5, "sanei_usb_init: couldn't open %s: %s\n", devname, strerror (errno)); continue; } vendor = -1; product = -1; kernel_get_vendor_product (fd, devname, &vendor, &product); close (fd); devices[dn].devname = strdup (devname); if (!devices[dn].devname) { closedir (dir); return; } devices[dn].vendor = vendor; devices[dn].product = product; devices[dn].method = sanei_usb_method_scanner_driver; devices[dn].open = SANE_FALSE; DBG (4, "sanei_usb_init: found kernel scanner device (0x%04x/0x%04x) at %s\n", vendor, product, devname); dn++; if (dn >= MAX_DEVICES) { closedir (dir); return; } } } closedir (dir); } /* Check for devices using libusb */ #ifdef HAVE_LIBUSB DBG (4, "sanei_usb_init: Looking for libusb devices\n"); usb_init (); #ifdef DBG_LEVEL if (DBG_LEVEL > 4) usb_set_debug (255); #endif /* DBG_LEVEL */ if (!usb_get_busses ()) { usb_find_busses (); usb_find_devices (); } /* Check for the matching device */ for (bus = usb_get_busses (); bus; bus = bus->next) { for (dev = bus->devices; dev; dev = dev->next) { int interface; SANE_Bool found; if (!dev->config) { DBG (1, "sanei_usb_init: device 0x%04x/0x%04x is not configured\n", dev->descriptor.idVendor, dev->descriptor.idProduct); continue; } if (dev->descriptor.idVendor == 0 || dev->descriptor.idProduct == 0) { DBG (5, "sanei_usb_init: device 0x%04x/0x%04x looks like a root hub\n", dev->descriptor.idVendor, dev->descriptor.idProduct); continue; } found = SANE_FALSE; for (interface = 0; interface < dev->config[0].bNumInterfaces && !found; interface++) { switch (dev->descriptor.bDeviceClass) { case USB_CLASS_VENDOR_SPEC: found = SANE_TRUE; break; case USB_CLASS_PER_INTERFACE: switch (dev->config[0].interface[interface].altsetting[0]. bInterfaceClass) { case USB_CLASS_VENDOR_SPEC: case USB_CLASS_PER_INTERFACE: case 16: /* data? */ found = SANE_TRUE; break; } break; } if (!found) DBG (5, "sanei_usb_init: device 0x%04x/0x%04x, interface %d doesn't look like a " "scanner (%d/%d)\n", dev->descriptor.idVendor, dev->descriptor.idProduct, interface, dev->descriptor.bDeviceClass, dev->config[0].interface[interface].altsetting[0]. bInterfaceClass); } interface--; if (!found) { DBG (5, "sanei_usb_init: device 0x%04x/0x%04x: no suitable interfaces\n", dev->descriptor.idVendor, dev->descriptor.idProduct); continue; } devices[dn].libusb_device = dev; snprintf (devname, sizeof (devname), "libusb:%s:%s", dev->bus->dirname, dev->filename); devices[dn].devname = strdup (devname); if (!devices[dn].devname) return; devices[dn].vendor = dev->descriptor.idVendor; devices[dn].product = dev->descriptor.idProduct; devices[dn].method = sanei_usb_method_libusb; devices[dn].open = SANE_FALSE; devices[dn].interface_nr = interface; DBG (4, "sanei_usb_init: found libusb device (0x%04x/0x%04x) interface %d at %s\n", dev->descriptor.idVendor, dev->descriptor.idProduct, interface, devname); dn++; if (dn >= MAX_DEVICES) return; } } #else /* HAVE_LIBUSB */ DBG (4, "sanei_usb_init: SANE is built without support for libusb\n"); #endif /* HAVE_LIBUSB */ #ifdef HAVE_USBCALLS /* Check for devices using OS/2 USBCALLS Interface */ CHAR ucData[2048]; struct usb_device_descriptor *pDevDesc; struct usb_config_descriptor *pCfgDesc; struct usb_interface_descriptor *intf; struct usb_endpoint_descriptor *ep; struct usb_descriptor_header *pDescHead; APIRET rc; ULONG ulNumDev, ulDev, ulBufLen; ulBufLen = sizeof(ucData); memset(&ucData,0,sizeof(ucData)); rc = UsbQueryNumberDevices( &ulNumDev); if(rc==0 && ulNumDev) { for (ulDev=1; ulDev<=ulNumDev; ulDev++) { rc = UsbQueryDeviceReport( ulDev, &ulBufLen, ucData); pDevDesc = (struct usb_device_descriptor*)ucData; pCfgDesc = (struct usb_config_descriptor*) (ucData+sizeof(struct usb_device_descriptor)); int interface=0; SANE_Bool found; if (!pCfgDesc->bConfigurationValue) { DBG (1, "sanei_usb_init: device 0x%04x/0x%04x is not configured\n", pDevDesc->idVendor, pDevDesc->idProduct); continue; } if (pDevDesc->idVendor == 0 || pDevDesc->idProduct == 0) { DBG (5, "sanei_usb_init: device 0x%04x/0x%04x looks like a root hub\n", pDevDesc->idVendor, pDevDesc->idProduct); continue; } found = SANE_FALSE; if (pDevDesc->bDeviceClass = USB_CLASS_VENDOR_SPEC) { found = SANE_TRUE; } if (!found) { DBG (5, "sanei_usb_init: device 0x%04x/0x%04x: no suitable interfaces\n", pDevDesc->idVendor, pDevDesc->idProduct); continue; } snprintf (devname, sizeof (devname), "usbcalls:%d", ulDev); devices[dn].devname = strdup (devname); devices[dn].fd = ulDev; /* store usbcalls device number */ devices[dn].vendor = pDevDesc->idVendor; devices[dn].product = pDevDesc->idProduct; devices[dn].method = sanei_usb_method_usbcalls; devices[dn].open = SANE_FALSE; devices[dn].interface_nr = interface; DBG (4, "sanei_usb_init: found usbcalls device (0x%04x/0x%04x) as device number %s\n", pDevDesc->idVendor, pDevDesc->idProduct,devices[dn].devname); dn++; if (dn >= MAX_DEVICES) return; } } #endif /* HAVE_USBCALLS */ DBG (5, "sanei_usb_init: found %d devices\n", dn); } /* This logically belongs to sanei_config.c but not every backend that uses sanei_config() wants to depend on sanei_usb. */ void sanei_usb_attach_matching_devices (const char *name, SANE_Status (*attach) (const char *dev)) { char *vendor, *product; if (strncmp (name, "usb", 3) == 0) { SANE_Word vendorID = 0, productID = 0; name += 3; name = sanei_config_skip_whitespace (name); if (*name) { name = sanei_config_get_string (name, &vendor); if (vendor) { vendorID = strtol (vendor, 0, 0); free (vendor); } name = sanei_config_skip_whitespace (name); } name = sanei_config_skip_whitespace (name); if (*name) { name = sanei_config_get_string (name, &product); if (product) { productID = strtol (product, 0, 0); free (product); } } sanei_usb_find_devices (vendorID, productID, attach); } else (*attach) (name); } SANE_Status sanei_usb_get_vendor_product (SANE_Int dn, SANE_Word * vendor, SANE_Word * product) { SANE_Word vendorID = 0; SANE_Word productID = 0; if (dn >= MAX_DEVICES || dn < 0) { DBG (1, "sanei_usb_get_vendor_product: dn >= MAX_DEVICES || dn < 0\n"); return SANE_STATUS_INVAL; } if (devices[dn].method == sanei_usb_method_scanner_driver) kernel_get_vendor_product (devices[dn].fd, devices[dn].devname, &vendorID, &productID); else if (devices[dn].method == sanei_usb_method_libusb) { #ifdef HAVE_LIBUSB vendorID = usb_device (devices[dn].libusb_handle)->descriptor.idVendor; productID = usb_device (devices[dn].libusb_handle)->descriptor.idProduct; #else DBG (1, "sanei_usb_get_vendor_product: libusb support missing\n"); return SANE_STATUS_UNSUPPORTED; #endif /* HAVE_LIBUSB */ } else if (devices[dn].method == sanei_usb_method_usbcalls) { #ifdef HAVE_USBCALLS vendorID = devices[dn].vendor; productID = devices[dn].product; #else DBG (1, "sanei_usb_get_vendor_product: usbcalls support missing\n"); return SANE_STATUS_UNSUPPORTED; #endif /* HAVE_USBCALLS */ } else { DBG (1, "sanei_usb_get_vendor_product: access method %d not " "implemented\n", devices[dn].method); return SANE_STATUS_INVAL; } if (vendor) *vendor = vendorID; if (product) *product = productID; if (!vendorID || !productID) { DBG (3, "sanei_usb_get_vendor_product: device %d: Your OS doesn't " "seem to support detection of vendor+product ids\n", dn); return SANE_STATUS_UNSUPPORTED; } else { DBG (3, "sanei_usb_get_vendor_product: device %d: vendorID: 0x%04x, " "productID: 0x%04x\n", dn, vendorID, productID); return SANE_STATUS_GOOD; } } SANE_Status sanei_usb_find_devices (SANE_Int vendor, SANE_Int product, SANE_Status (*attach) (SANE_String_Const dev)) { SANE_Int dn = 0; DBG (3, "sanei_usb_find_devices: vendor=0x%04x, product=0x%04x\n", vendor, product); while (devices[dn].devname && dn < MAX_DEVICES) { if (devices[dn].vendor == vendor && devices[dn].product == product) if (attach) attach (devices[dn].devname); dn++; } return SANE_STATUS_GOOD; } SANE_Status sanei_usb_open (SANE_String_Const devname, SANE_Int * dn) { int devcount; SANE_Bool found = SANE_FALSE; int c, i, a; DBG (5, "sanei_usb_open: trying to open device `%s'\n", devname); if (!dn) { DBG (1, "sanei_usb_open: can't open `%s': dn == NULL\n", devname); return SANE_STATUS_INVAL; } for (devcount = 0; devcount < MAX_DEVICES && devices[devcount].devname != 0; devcount++) { if (strcmp (devices[devcount].devname, devname) == 0) { if (devices[devcount].open) { DBG (1, "sanei_usb_open: device `%s' already open\n", devname); return SANE_STATUS_INVAL; } found = SANE_TRUE; break; } } if (!found) { DBG (1, "sanei_usb_open: can't find device `%s' in list\n", devname); return SANE_STATUS_INVAL; } if (devices[devcount].method == sanei_usb_method_libusb) { #ifdef HAVE_LIBUSB struct usb_device *dev; struct usb_interface_descriptor *interface; int result, num; devices[devcount].libusb_handle = usb_open (devices[devcount].libusb_device); if (!devices[devcount].libusb_handle) { SANE_Status status = SANE_STATUS_INVAL; DBG (1, "sanei_usb_open: can't open device `%s': %s\n", devname, strerror (errno)); if (errno == EPERM) { DBG (1, "Make sure you run as root or set appropriate " "permissions\n"); status = SANE_STATUS_ACCESS_DENIED; } else if (errno == EBUSY) { DBG (1, "Maybe the kernel scanner driver claims the " "scanner's interface?\n"); status = SANE_STATUS_DEVICE_BUSY; } return status; } dev = usb_device (devices[devcount].libusb_handle); /* Set the configuration */ if (!dev->config) { DBG (1, "sanei_usb_open: device `%s' not configured?\n", devname); return SANE_STATUS_INVAL; } if (dev->descriptor.bNumConfigurations > 1) { DBG (3, "sanei_usb_open: more than one " "configuration (%d), choosing first config (%d)\n", dev->descriptor.bNumConfigurations, dev->config[0].bConfigurationValue); } result = usb_set_configuration (devices[devcount].libusb_handle, dev->config[0].bConfigurationValue); if (result < 0) { SANE_Status status = SANE_STATUS_INVAL; DBG (1, "sanei_usb_open: libusb complained: %s\n", usb_strerror ()); if (errno == EPERM) { DBG (1, "Make sure you run as root or set appropriate " "permissions\n"); status = SANE_STATUS_ACCESS_DENIED; } else if (errno == EBUSY) { DBG (3, "Maybe the kernel scanner driver or usblp claims the " "interface? Ignoring this error...\n"); status = SANE_STATUS_GOOD; } if (status != SANE_STATUS_GOOD) { usb_close (devices[devcount].libusb_handle); return status; } } /* Claim the interface */ result = usb_claim_interface (devices[devcount].libusb_handle, devices[devcount].interface_nr); if (result < 0) { SANE_Status status = SANE_STATUS_INVAL; DBG (1, "sanei_usb_open: libusb complained: %s\n", usb_strerror ()); if (errno == EPERM) { DBG (1, "Make sure you run as root or set appropriate " "permissions\n"); status = SANE_STATUS_ACCESS_DENIED; } else if (errno == EBUSY) { DBG (1, "Maybe the kernel scanner driver claims the " "scanner's interface?\n"); status = SANE_STATUS_DEVICE_BUSY; } usb_close (devices[devcount].libusb_handle); return status; } /* Loop through all of the configurations */ for (c = 0; c < dev->descriptor.bNumConfigurations; c++) { /* Loop through all of the interfaces */ for (i = 0; i < dev->config[c].bNumInterfaces; i++) { /* Loop through all of the alternate settings */ for (a = 0; a < dev->config[c].interface[i].num_altsetting; a++) { DBG (5, "sanei_usb_open: configuration nr: %d\n", c); DBG (5, "sanei_usb_open: interface nr: %d\n", i); DBG (5, "sanei_usb_open: alt_setting nr: %d\n", a); interface = &dev->config[c].interface[i].altsetting[a]; /* Now we look for usable endpoints */ for (num = 0; num < interface->bNumEndpoints; num++) { struct usb_endpoint_descriptor *endpoint; int address, direction, transfer_type; endpoint = &interface->endpoint[num]; DBG (5, "sanei_usb_open: endpoint nr: %d\n", num); transfer_type = endpoint->bmAttributes & USB_ENDPOINT_TYPE_MASK; address = endpoint-> bEndpointAddress & USB_ENDPOINT_ADDRESS_MASK; direction = endpoint->bEndpointAddress & USB_ENDPOINT_DIR_MASK; DBG (5, "sanei_usb_open: direction: %d\n", direction); transfer_type = endpoint->bmAttributes & USB_ENDPOINT_TYPE_MASK; DBG (5, "sanei_usb_open: address: %d transfertype: %d\n", address, transfer_type); /* save the endpoints we need later */ if (transfer_type == USB_ENDPOINT_TYPE_INTERRUPT) { DBG (5, "sanei_usb_open: found interrupt-%s endpoint (address 0x%02x)\n", direction ? "in" : "out", address); if (direction) /* in */ { if (devices[devcount].int_in_ep) DBG (3, "sanei_usb_open: we already have a int-in endpoint " "(address: 0x%02x), ignoring the new one\n", devices[devcount].int_in_ep); else devices[devcount].int_in_ep = endpoint->bEndpointAddress; } else { if (devices[devcount].int_out_ep) DBG (3, "sanei_usb_open: we already have a int-out endpoint " "(address: 0x%02x), ignoring the new one\n", devices[devcount].int_out_ep); else devices[devcount].int_out_ep = endpoint->bEndpointAddress; } } else if (transfer_type == USB_ENDPOINT_TYPE_BULK) { DBG (5, "sanei_usb_open: found bulk-%s endpoint (address 0x%02x)\n", direction ? "in" : "out", address); if (direction) /* in */ { if (devices[devcount].bulk_in_ep) DBG (3, "sanei_usb_open: we already have a bulk-in endpoint " "(address: 0x%02x), ignoring the new one\n", devices[devcount].bulk_in_ep); else devices[devcount].bulk_in_ep = endpoint->bEndpointAddress; } else { if (devices[devcount].bulk_out_ep) DBG (3, "sanei_usb_open: we already have a bulk-out endpoint " "(address: 0x%02x), ignoring the new one\n", devices[devcount].bulk_out_ep); else devices[devcount].bulk_out_ep = endpoint->bEndpointAddress; } } else if (transfer_type == USB_ENDPOINT_TYPE_ISOCHRONOUS) { DBG (5, "sanei_usb_open: found isochronous-%s endpoint (address 0x%02x)\n", direction ? "in" : "out", address); if (direction) /* in */ { if (devices[devcount].iso_in_ep) DBG (3, "sanei_usb_open: we already have a isochronous-in endpoint " "(address: 0x%02x), ignoring the new one\n", devices[devcount].iso_in_ep); else devices[devcount].iso_in_ep = endpoint->bEndpointAddress; } else { if (devices[devcount].iso_out_ep) DBG (3, "sanei_usb_open: we already have a isochronous-out endpoint " "(address: 0x%02x), ignoring the new one\n", devices[devcount].iso_out_ep); else devices[devcount].iso_out_ep = endpoint->bEndpointAddress; } } else if (transfer_type == USB_ENDPOINT_TYPE_CONTROL) { DBG (5, "sanei_usb_open: found control-%s endpoint (address 0x%02x)\n", direction ? "in" : "out", address); if (direction) /* in */ { if (devices[devcount].control_in_ep) DBG (3, "sanei_usb_open: we already have a control-in endpoint " "(address: 0x%02x), ignoring the new one\n", devices[devcount].control_in_ep); else devices[devcount].control_in_ep = endpoint->bEndpointAddress; } else { if (devices[devcount].control_out_ep) DBG (3, "sanei_usb_open: we already have a control-out endpoint " "(address: 0x%02x), ignoring the new one\n", devices[devcount].control_out_ep); else devices[devcount].control_out_ep = endpoint->bEndpointAddress; } } } } } } #else /* not HAVE_LIBUSB */ DBG (1, "sanei_usb_open: can't open device `%s': " "libusb support missing\n", devname); return SANE_STATUS_UNSUPPORTED; #endif /* not HAVE_LIBUSB */ } else if (devices[devcount].method == sanei_usb_method_scanner_driver) { long int flag; /* Using kernel scanner driver */ devices[devcount].fd = -1; #ifdef HAVE_RESMGR devices[devcount].fd = rsm_open_device (devname, O_RDWR); #endif if (devices[devcount].fd == -1) devices[devcount].fd = open (devname, O_RDWR); if (devices[devcount].fd < 0) { SANE_Status status = SANE_STATUS_INVAL; if (errno == EACCES) status = SANE_STATUS_ACCESS_DENIED; else if (errno == ENOENT) { DBG (5, "sanei_usb_open: open of `%s' failed: %s\n", devname, strerror (errno)); return status; } DBG (1, "sanei_usb_open: open of `%s' failed: %s\n", devname, strerror (errno)); return status; } flag = fcntl (devices[devcount].fd, F_GETFD); if (flag >= 0) { if (fcntl (devices[devcount].fd, F_SETFD, flag | FD_CLOEXEC) < 0) DBG (1, "sanei_usb_open: fcntl of `%s' failed: %s\n", devname, strerror (errno)); } } else if (devices[devcount].method == sanei_usb_method_usbcalls) { #ifdef HAVE_USBCALLS CHAR ucData[2048]; struct usb_device_descriptor *pDevDesc; struct usb_config_descriptor *pCfgDesc; struct usb_interface_descriptor *interface; struct usb_endpoint_descriptor *endpoint; struct usb_descriptor_header *pDescHead; ULONG ulBufLen; ulBufLen = sizeof(ucData); memset(&ucData,0,sizeof(ucData)); int result, num,rc; int address, direction, transfer_type; DBG (5, "devname = %s, devcount = %d\n",devices[devcount].devname,devcount); DBG (5, "USBCalls device number to open = %d\n",devices[devcount].fd); DBG (5, "USBCalls Vendor/Product to open = 0x%04x/0x%04x\n", devices[devcount].vendor,devices[devcount].product); rc = UsbOpen (&dh, devices[devcount].vendor, devices[devcount].product, USB_ANY_PRODUCTVERSION, USB_OPEN_FIRST_UNUSED); DBG (1, "sanei_usb_open: UsbOpen rc = %d\n",rc); if (rc!=0) { SANE_Status status = SANE_STATUS_INVAL; DBG (1, "sanei_usb_open: can't open device `%s': %s\n", devname, strerror (rc)); return status; } rc = UsbQueryDeviceReport( devices[devcount].fd, &ulBufLen, ucData); DBG (1, "sanei_usb_open: UsbQueryDeviceReport rc = %d\n",rc); pDevDesc = (struct usb_device_descriptor*)ucData; pCfgDesc = (struct usb_config_descriptor*) (ucData+sizeof(struct usb_device_descriptor)); UCHAR *pCurPtr = (UCHAR*) pCfgDesc; UCHAR *pEndPtr = pCurPtr+ pCfgDesc->wTotalLength; pDescHead = (struct usb_descriptor_header *) (pCurPtr+pCfgDesc->bLength); /* Set the configuration */ if (pDevDesc->bNumConfigurations > 1) { DBG (3, "sanei_usb_open: more than one " "configuration (%d), choosing first config (%d)\n", pDevDesc->bNumConfigurations, pCfgDesc->bConfigurationValue); } DBG (5, "UsbDeviceSetConfiguration parameters: dh = %p, bConfigurationValue = %d\n", dh,pCfgDesc->bConfigurationValue); result = UsbDeviceSetConfiguration (dh, pCfgDesc->bConfigurationValue); DBG (1, "sanei_usb_open: UsbDeviceSetConfiguration rc = %d\n",result); if (result) { SANE_Status status = SANE_STATUS_INVAL; DBG (1, "sanei_usb_open: usbcalls complained on UsbDeviceSetConfiguration, rc= %d\n", result); status = SANE_STATUS_ACCESS_DENIED; UsbClose (dh); return status; } /* Now we look for usable endpoints */ for (pDescHead = (struct usb_descriptor_header *) (pCurPtr+pCfgDesc->bLength); pDescHead;pDescHead = GetNextDescriptor(pDescHead,pEndPtr) ) { switch(pDescHead->bDescriptorType) { case USB_DT_INTERFACE: interface = (struct usb_interface_descriptor *) pDescHead; DBG (5, "Found %d endpoints\n",interface->bNumEndpoints); DBG (5, "bAlternateSetting = %d\n",interface->bAlternateSetting); break; case USB_DT_ENDPOINT: endpoint = (struct usb_endpoint_descriptor*)pDescHead; address = endpoint->bEndpointAddress; direction = endpoint->bEndpointAddress & USB_ENDPOINT_DIR_MASK; transfer_type = endpoint->bmAttributes & USB_ENDPOINT_TYPE_MASK; /* save the endpoints we need later */ if (transfer_type == USB_ENDPOINT_TYPE_INTERRUPT) { DBG (5, "sanei_usb_open: found interupt-%s endpoint (address %2x)\n", direction ? "in" : "out", address); if (direction) /* in */ { if (devices[devcount].int_in_ep) DBG (3, "sanei_usb_open: we already have a int-in endpoint " "(address: %d), ignoring the new one\n", devices[devcount].int_in_ep); else devices[devcount].int_in_ep = endpoint->bEndpointAddress; } else if (devices[devcount].int_out_ep) DBG (3, "sanei_usb_open: we already have a int-out endpoint " "(address: %d), ignoring the new one\n", devices[devcount].int_out_ep); else devices[devcount].int_out_ep = endpoint->bEndpointAddress; } else if (transfer_type == USB_ENDPOINT_TYPE_BULK) { DBG (5, "sanei_usb_open: found bulk-%s endpoint (address %2x)\n", direction ? "in" : "out", address); if (direction) /* in */ { if (devices[devcount].bulk_in_ep) DBG (3, "sanei_usb_open: we already have a bulk-in endpoint " "(address: %d), ignoring the new one\n", devices[devcount].bulk_in_ep); else devices[devcount].bulk_in_ep = endpoint->bEndpointAddress; } else { if (devices[devcount].bulk_out_ep) DBG (3, "sanei_usb_open: we already have a bulk-out endpoint " "(address: %d), ignoring the new one\n", devices[devcount].bulk_out_ep); else devices[devcount].bulk_out_ep = endpoint->bEndpointAddress; } } /* ignore currently unsupported endpoints */ else { DBG (5, "sanei_usb_open: ignoring %s-%s endpoint " "(address: %d)\n", transfer_type == USB_ENDPOINT_TYPE_CONTROL ? "control" : transfer_type == USB_ENDPOINT_TYPE_ISOCHRONOUS ? "isochronous" : "interrupt", direction ? "in" : "out", address); continue; } break; } } #else DBG (1, "sanei_usb_open: can't open device `%s': " "usbcalls support missing\n", devname); return SANE_STATUS_UNSUPPORTED; #endif /* HAVE_USBCALLS */ } else { DBG (1, "sanei_usb_open: access method %d not implemented\n", devices[devcount].method); return SANE_STATUS_INVAL; } devices[devcount].open = SANE_TRUE; *dn = devcount; DBG (3, "sanei_usb_open: opened usb device `%s' (*dn=%d)\n", devname, devcount); return SANE_STATUS_GOOD; } void sanei_usb_close (SANE_Int dn) { DBG (5, "sanei_usb_close: closing device %d\n", dn); if (dn >= MAX_DEVICES || dn < 0) { DBG (1, "sanei_usb_close: dn >= MAX_DEVICES || dn < 0\n"); return; } if (!devices[dn].open) { DBG (1, "sanei_usb_close: device %d already closed or never opened\n", dn); return; } if (devices[dn].method == sanei_usb_method_scanner_driver) close (devices[dn].fd); else if (devices[dn].method == sanei_usb_method_usbcalls) { #ifdef HAVE_USBCALLS int rc; rc=UsbClose (dh); DBG (5,"rc of UsbClose = %d\n",rc); #else DBG (1, "sanei_usb_close: usbcalls support missing\n"); #endif } else #ifdef HAVE_LIBUSB { #if 0 /* Should only be done in case of a stall */ usb_clear_halt (devices[dn].libusb_handle, devices[dn].bulk_in_ep); usb_clear_halt (devices[dn].libusb_handle, devices[dn].bulk_out_ep); usb_clear_halt (devices[dn].libusb_handle, devices[dn].iso_in_ep); /* be careful, we don't know if we are in DATA0 stage now */ usb_resetep (devices[dn].libusb_handle, devices[dn].bulk_in_ep); usb_resetep (devices[dn].libusb_handle, devices[dn].bulk_out_ep); usb_resetep (devices[dn].libusb_handle, devices[dn].iso_in_ep); #endif usb_release_interface (devices[dn].libusb_handle, devices[dn].interface_nr); usb_close (devices[dn].libusb_handle); } #else DBG (1, "sanei_usb_close: libusb support missing\n"); #endif devices[dn].open = SANE_FALSE; return; } void sanei_usb_set_timeout (SANE_Int timeout) { #ifdef HAVE_LIBUSB libusb_timeout = timeout; #else DBG (1, "sanei_usb_set_timeout: libusb support missing\n"); #endif /* HAVE_LIBUSB */ } SANE_Status sanei_usb_read_bulk (SANE_Int dn, SANE_Byte * buffer, size_t * size) { ssize_t read_size = 0; if (!size) { DBG (1, "sanei_usb_read_bulk: size == NULL\n"); return SANE_STATUS_INVAL; } if (dn >= MAX_DEVICES || dn < 0) { DBG (1, "sanei_usb_read_bulk: dn >= MAX_DEVICES || dn < 0\n"); return SANE_STATUS_INVAL; } DBG (5, "sanei_usb_read_bulk: trying to read %lu bytes\n", (unsigned long) *size); if (devices[dn].method == sanei_usb_method_scanner_driver) read_size = read (devices[dn].fd, buffer, *size); else if (devices[dn].method == sanei_usb_method_libusb) #ifdef HAVE_LIBUSB { if (devices[dn].bulk_in_ep) read_size = usb_bulk_read (devices[dn].libusb_handle, devices[dn].bulk_in_ep, (char *) buffer, (int) *size, libusb_timeout); else { DBG (1, "sanei_usb_read_bulk: can't read without a bulk-in " "endpoint\n"); return SANE_STATUS_INVAL; } } #else /* not HAVE_LIBUSB */ { DBG (1, "sanei_usb_read_bulk: libusb support missing\n"); return SANE_STATUS_UNSUPPORTED; } #endif /* not HAVE_LIBUSB */ else if (devices[dn].method == sanei_usb_method_usbcalls) { #ifdef HAVE_USBCALLS int rc; char* buffer_ptr = (char*) buffer; while (*size) { ULONG ulToRead = (*size>MAX_RW)?MAX_RW:*size; ULONG ulNum = ulToRead; DBG (5, "Entered usbcalls UsbBulkRead with dn = %d\n",dn); DBG (5, "Entered usbcalls UsbBulkRead with dh = %p\n",dh); DBG (5, "Entered usbcalls UsbBulkRead with bulk_in_ep = 0x%02x\n",devices[dn].bulk_in_ep); DBG (5, "Entered usbcalls UsbBulkRead with interface_nr = %d\n",devices[dn].interface_nr); DBG (5, "Entered usbcalls UsbBulkRead with usbcalls_timeout = %d\n",usbcalls_timeout); if (devices[dn].bulk_in_ep){ rc = UsbBulkRead (dh, devices[dn].bulk_in_ep, devices[dn].interface_nr, &ulToRead, buffer_ptr, usbcalls_timeout); DBG (1, "sanei_usb_read_bulk: rc = %d\n",rc);} else { DBG (1, "sanei_usb_read_bulk: can't read without a bulk-in endpoint\n"); return SANE_STATUS_INVAL; } if (rc || (ulNum!=ulToRead)) return SANE_STATUS_INVAL; *size -=ulToRead; buffer_ptr += ulToRead; read_size += ulToRead; } #else /* not HAVE_USBCALLS */ { DBG (1, "sanei_usb_read_bulk: usbcalls support missing\n"); return SANE_STATUS_UNSUPPORTED; } #endif /* not HAVE_USBCALLS */ } else { DBG (1, "sanei_usb_read_bulk: access method %d not implemented\n", devices[dn].method); return SANE_STATUS_INVAL; } if (read_size < 0) { DBG (1, "sanei_usb_read_bulk: read failed: %s\n", strerror (errno)); #ifdef HAVE_LIBUSB if (devices[dn].method == sanei_usb_method_libusb) usb_clear_halt (devices[dn].libusb_handle, devices[dn].bulk_in_ep); #endif *size = 0; return SANE_STATUS_IO_ERROR; } if (read_size == 0) { DBG (3, "sanei_usb_read_bulk: read returned EOF\n"); *size = 0; return SANE_STATUS_EOF; } if (debug_level > 10) print_buffer (buffer, read_size); DBG (5, "sanei_usb_read_bulk: wanted %lu bytes, got %ld bytes\n", (unsigned long) *size, (unsigned long) read_size); *size = read_size; return SANE_STATUS_GOOD; } SANE_Status sanei_usb_write_bulk (SANE_Int dn, const SANE_Byte * buffer, size_t * size) { ssize_t write_size = 0; if (!size) { DBG (1, "sanei_usb_write_bulk: size == NULL\n"); return SANE_STATUS_INVAL; } if (dn >= MAX_DEVICES || dn < 0) { DBG (1, "sanei_usb_write_bulk: dn >= MAX_DEVICES || dn < 0\n"); return SANE_STATUS_INVAL; } DBG (5, "sanei_usb_write_bulk: trying to write %lu bytes\n", (unsigned long) *size); if (debug_level > 10) print_buffer (buffer, *size); if (devices[dn].method == sanei_usb_method_scanner_driver) write_size = write (devices[dn].fd, buffer, *size); else if (devices[dn].method == sanei_usb_method_libusb) #ifdef HAVE_LIBUSB { if (devices[dn].bulk_out_ep) write_size = usb_bulk_write (devices[dn].libusb_handle, devices[dn].bulk_out_ep, (const char *) buffer, (int) *size, libusb_timeout); else { DBG (1, "sanei_usb_write_bulk: can't write without a bulk-out " "endpoint\n"); return SANE_STATUS_INVAL; } } #else /* not HAVE_LIBUSB */ { DBG (1, "sanei_usb_write_bulk: libusb support missing\n"); return SANE_STATUS_UNSUPPORTED; } #endif /* not HAVE_LIBUSB */ else if (devices[dn].method == sanei_usb_method_usbcalls) { #ifdef HAVE_USBCALLS int rc; DBG (5, "Entered usbcalls UsbBulkWrite with dn = %d\n",dn); DBG (5, "Entered usbcalls UsbBulkWrite with dh = %p\n",dh); DBG (5, "Entered usbcalls UsbBulkWrite with bulk_out_ep = 0x%02x\n",devices[dn].bulk_out_ep); DBG (5, "Entered usbcalls UsbBulkWrite with interface_nr = %d\n",devices[dn].interface_nr); DBG (5, "Entered usbcalls UsbBulkWrite with usbcalls_timeout = %d\n",usbcalls_timeout); while (*size) { ULONG ulToWrite = (*size>MAX_RW)?MAX_RW:*size; DBG (5, "size requested to write = %lu, ulToWrite = %lu\n",(unsigned long) *size,ulToWrite); if (devices[dn].bulk_out_ep){ rc = UsbBulkWrite (dh, devices[dn].bulk_out_ep, devices[dn].interface_nr, ulToWrite, (char*) buffer, usbcalls_timeout); DBG (1, "sanei_usb_write_bulk: rc = %d\n",rc);} else { DBG (1, "sanei_usb_write_bulk: can't read without a bulk-out endpoint\n"); return SANE_STATUS_INVAL; } if (rc) return SANE_STATUS_INVAL; *size -=ulToWrite; buffer += ulToWrite; write_size += ulToWrite; DBG (5, "size = %d, write_size = %d\n",*size, write_size); } #else /* not HAVE_USBCALLS */ { DBG (1, "sanei_usb_write_bulk: usbcalls support missing\n"); return SANE_STATUS_UNSUPPORTED; } #endif /* not HAVE_USBCALLS */ } else { DBG (1, "sanei_usb_write_bulk: access method %d not implemented\n", devices[dn].method); return SANE_STATUS_INVAL; } if (write_size < 0) { DBG (1, "sanei_usb_write_bulk: write failed: %s\n", strerror (errno)); *size = 0; #ifdef HAVE_LIBUSB if (devices[dn].method == sanei_usb_method_libusb) usb_clear_halt (devices[dn].libusb_handle, devices[dn].bulk_out_ep); #endif return SANE_STATUS_IO_ERROR; } DBG (5, "sanei_usb_write_bulk: wanted %lu bytes, wrote %ld bytes\n", (unsigned long) *size, (unsigned long) write_size); *size = write_size; return SANE_STATUS_GOOD; } SANE_Status sanei_usb_control_msg (SANE_Int dn, SANE_Int rtype, SANE_Int req, SANE_Int value, SANE_Int index, SANE_Int len, SANE_Byte * data) { if (dn >= MAX_DEVICES || dn < 0) { DBG (1, "sanei_usb_control_msg: dn >= MAX_DEVICES || dn < 0, dn=%d\n", dn); return SANE_STATUS_INVAL; } DBG (5, "sanei_usb_control_msg: rtype = 0x%02x, req = %d, value = %d, " "index = %d, len = %d\n", rtype, req, value, index, len); if (!(rtype & 0x80) && debug_level > 10) print_buffer (data, len); if (devices[dn].method == sanei_usb_method_scanner_driver) { #if defined(__linux__) struct ctrlmsg_ioctl c; c.req.requesttype = rtype; c.req.request = req; c.req.value = value; c.req.index = index; c.req.length = len; c.data = data; if (ioctl (devices[dn].fd, SCANNER_IOCTL_CTRLMSG, &c) < 0) { DBG (5, "sanei_usb_control_msg: SCANNER_IOCTL_CTRLMSG error - %s\n", strerror (errno)); return SANE_STATUS_IO_ERROR; } if ((rtype & 0x80) && debug_level > 10) print_buffer (data, len); return SANE_STATUS_GOOD; #elif defined(__BEOS__) struct usb_scanner_ioctl_ctrlmsg c; c.req.request_type = rtype; c.req.request = req; c.req.value = value; c.req.index = index; c.req.length = len; c.data = data; if (ioctl (devices[dn].fd, B_SCANNER_IOCTL_CTRLMSG, &c) < 0) { DBG (5, "sanei_usb_control_msg: SCANNER_IOCTL_CTRLMSG error - %s\n", strerror (errno)); return SANE_STATUS_IO_ERROR; } if ((rtype & 0x80) && debug_level > 10) print_buffer (data, len); return SANE_STATUS_GOOD; #else /* not __linux__ */ DBG (5, "sanei_usb_control_msg: not supported on this OS\n"); return SANE_STATUS_UNSUPPORTED; #endif /* not __linux__ */ } else if (devices[dn].method == sanei_usb_method_libusb) #ifdef HAVE_LIBUSB { int result; result = usb_control_msg (devices[dn].libusb_handle, rtype, req, value, index, (char *) data, len, libusb_timeout); if (result < 0) { DBG (1, "sanei_usb_control_msg: libusb complained: %s\n", usb_strerror ()); return SANE_STATUS_INVAL; } if ((rtype & 0x80) && debug_level > 10) print_buffer (data, len); return SANE_STATUS_GOOD; } #else /* not HAVE_LIBUSB */ { DBG (1, "sanei_usb_control_msg: libusb support missing\n"); return SANE_STATUS_UNSUPPORTED; } #endif /* not HAVE_LIBUSB */ else if (devices[dn].method == sanei_usb_method_usbcalls) { #ifdef HAVE_USBCALLS int result; result = UsbCtrlMessage (dh, rtype, req, value, index, len, (char *) data, usbcalls_timeout); DBG (5, "rc of usb_control_msg = %d\n",result); if (result < 0) { DBG (1, "sanei_usb_control_msg: usbcalls complained: %d\n",result); return SANE_STATUS_INVAL; } if ((rtype & 0x80) && debug_level > 10) print_buffer (data, len); return SANE_STATUS_GOOD; #else /* not HAVE_USBCALLS */ { DBG (1, "sanei_usb_control_msg: usbcalls support missing\n"); return SANE_STATUS_UNSUPPORTED; } #endif /* not HAVE_USBCALLS */ } else { DBG (1, "sanei_usb_control_msg: access method %d not implemented\n", devices[dn].method); return SANE_STATUS_UNSUPPORTED; } } SANE_Status sanei_usb_read_int (SANE_Int dn, SANE_Byte * buffer, size_t * size) { ssize_t read_size = 0; if (!size) { DBG (1, "sanei_usb_read_int: size == NULL\n"); return SANE_STATUS_INVAL; } if (dn >= MAX_DEVICES || dn < 0) { DBG (1, "sanei_usb_read_int: dn >= MAX_DEVICES || dn < 0\n"); return SANE_STATUS_INVAL; } DBG (5, "sanei_usb_read_int: trying to read %lu bytes\n", (unsigned long) *size); if (devices[dn].method == sanei_usb_method_scanner_driver) { DBG (1, "sanei_usb_read_int: access method %d not implemented\n", devices[dn].method); return SANE_STATUS_INVAL; } else if (devices[dn].method == sanei_usb_method_libusb) #ifdef HAVE_LIBUSB { if (devices[dn].int_in_ep) read_size = usb_interrupt_read (devices[dn].libusb_handle, devices[dn].int_in_ep, (char *) buffer, (int) *size, libusb_timeout); else { DBG (1, "sanei_usb_read_int: can't read without an int " "endpoint\n"); return SANE_STATUS_INVAL; } } #else /* not HAVE_LIBUSB */ { DBG (1, "sanei_usb_read_int: libusb support missing\n"); return SANE_STATUS_UNSUPPORTED; } #endif /* not HAVE_LIBUSB */ else if (devices[dn].method == sanei_usb_method_usbcalls) { #ifdef HAVE_USBCALLS int rc; USHORT usNumBytes=*size; DBG (5, "Entered usbcalls UsbIrqStart with dn = %d\n",dn); DBG (5, "Entered usbcalls UsbIrqStart with dh = %p\n",dh); DBG (5, "Entered usbcalls UsbIrqStart with int_in_ep = 0x%02x\n",devices[dn].int_in_ep); DBG (5, "Entered usbcalls UsbIrqStart with interface_nr = %d\n",devices[dn].interface_nr); DBG (5, "Entered usbcalls UsbIrqStart with bytes to read = %u\n",usNumBytes); if (devices[dn].int_in_ep){ rc = UsbIrqStart (dh,devices[dn].int_in_ep,devices[dn].interface_nr, usNumBytes, (char *) buffer, pUsbIrqStartHev); DBG (5, "rc of UsbIrqStart = %d\n",rc); } else { DBG (1, "sanei_usb_read_int: can't read without an int " "endpoint\n"); return SANE_STATUS_INVAL; } if (rc) return SANE_STATUS_INVAL; read_size += usNumBytes; #else DBG (1, "sanei_usb_read_int: usbcalls support missing\n"); return SANE_STATUS_UNSUPPORTED; #endif /* HAVE_USBCALLS */ } else { DBG (1, "sanei_usb_read_int: access method %d not implemented\n", devices[dn].method); return SANE_STATUS_INVAL; } if (read_size < 0) { DBG (1, "sanei_usb_read_int: read failed: %s\n", strerror (errno)); #ifdef HAVE_LIBUSB if (devices[dn].method == sanei_usb_method_libusb) usb_clear_halt (devices[dn].libusb_handle, devices[dn].int_in_ep); #endif *size = 0; return SANE_STATUS_IO_ERROR; } if (read_size == 0) { DBG (3, "sanei_usb_read_int: read returned EOF\n"); *size = 0; return SANE_STATUS_EOF; } DBG (5, "sanei_usb_read_int: wanted %lu bytes, got %ld bytes\n", (unsigned long) *size, (unsigned long) read_size); *size = read_size; if (debug_level > 10) print_buffer (buffer, read_size); return SANE_STATUS_GOOD; } SANE_Status sanei_usb_set_configuration (SANE_Int dn, SANE_Int configuration) { if (dn >= MAX_DEVICES || dn < 0) { DBG (1, "sanei_usb_set_configuration: dn >= MAX_DEVICES || dn < 0, dn=%d\n", dn); return SANE_STATUS_INVAL; } DBG (5, "sanei_usb_set_configuration: configuration = %d\n", configuration); if (devices[dn].method == sanei_usb_method_scanner_driver) { #if defined(__linux__) return SANE_STATUS_GOOD; #else /* not __linux__ */ DBG (5, "sanei_usb_set_configuration: not supported on this OS\n"); return SANE_STATUS_UNSUPPORTED; #endif /* not __linux__ */ } else if (devices[dn].method == sanei_usb_method_libusb) #ifdef HAVE_LIBUSB { int result; result = usb_set_configuration (devices[dn].libusb_handle, configuration); if (result < 0) { DBG (1, "sanei_usb_set_configuration: libusb complained: %s\n", usb_strerror ()); return SANE_STATUS_INVAL; } return SANE_STATUS_GOOD; } #else /* not HAVE_LIBUSB */ { DBG (1, "sanei_usb_set_configuration: libusb support missing\n"); return SANE_STATUS_UNSUPPORTED; } #endif /* not HAVE_LIBUSB */ else { DBG (1, "sanei_usb_set_configuration: access method %d not implemented\n", devices[dn].method); return SANE_STATUS_UNSUPPORTED; } } SANE_Status sanei_usb_claim_interface (SANE_Int dn, SANE_Int interface) { if (dn >= MAX_DEVICES || dn < 0) { DBG (1, "sanei_usb_claim_interface: dn >= MAX_DEVICES || dn < 0, dn=%d\n", dn); return SANE_STATUS_INVAL; } DBG (5, "sanei_usb_claim_interface: interface = %d\n", interface); if (devices[dn].method == sanei_usb_method_scanner_driver) { #if defined(__linux__) return SANE_STATUS_GOOD; #else /* not __linux__ */ DBG (5, "sanei_usb_claim_interface: not supported on this OS\n"); return SANE_STATUS_UNSUPPORTED; #endif /* not __linux__ */ } else if (devices[dn].method == sanei_usb_method_libusb) #ifdef HAVE_LIBUSB { int result; result = usb_claim_interface (devices[dn].libusb_handle, interface); if (result < 0) { DBG (1, "sanei_usb_claim_interface: libusb complained: %s\n", usb_strerror ()); return SANE_STATUS_INVAL; } return SANE_STATUS_GOOD; } #else /* not HAVE_LIBUSB */ { DBG (1, "sanei_usb_claim_interface: libusb support missing\n"); return SANE_STATUS_UNSUPPORTED; } #endif /* not HAVE_LIBUSB */ else { DBG (1, "sanei_usb_claim_interface: access method %d not implemented\n", devices[dn].method); return SANE_STATUS_UNSUPPORTED; } } SANE_Status sanei_usb_release_interface (SANE_Int dn, SANE_Int interface) { if (dn >= MAX_DEVICES || dn < 0) { DBG (1, "sanei_usb_release_interface: dn >= MAX_DEVICES || dn < 0, dn=%d\n", dn); return SANE_STATUS_INVAL; } DBG (5, "sanei_usb_release_interface: interface = %d\n", interface); if (devices[dn].method == sanei_usb_method_scanner_driver) { #if defined(__linux__) return SANE_STATUS_GOOD; #else /* not __linux__ */ DBG (5, "sanei_usb_release_interface: not supported on this OS\n"); return SANE_STATUS_UNSUPPORTED; #endif /* not __linux__ */ } else if (devices[dn].method == sanei_usb_method_libusb) #ifdef HAVE_LIBUSB { int result; result = usb_release_interface (devices[dn].libusb_handle, interface); if (result < 0) { DBG (1, "sanei_usb_release_interface: libusb complained: %s\n", usb_strerror ()); return SANE_STATUS_INVAL; } return SANE_STATUS_GOOD; } #else /* not HAVE_LIBUSB */ { DBG (1, "sanei_usb_release_interface: libusb support missing\n"); return SANE_STATUS_UNSUPPORTED; } #endif /* not HAVE_LIBUSB */ else { DBG (1, "sanei_usb_release_interface: access method %d not implemented\n", devices[dn].method); return SANE_STATUS_UNSUPPORTED; } } SANE_Status sanei_usb_set_altinterface (SANE_Int dn, SANE_Int alternate) { if (dn >= MAX_DEVICES || dn < 0) { DBG (1, "sanei_usb_set_altinterface: dn >= MAX_DEVICES || dn < 0, dn=%d\n", dn); return SANE_STATUS_INVAL; } DBG (5, "sanei_usb_set_altinterface: alternate = %d\n", alternate); if (devices[dn].method == sanei_usb_method_scanner_driver) { #if defined(__linux__) return SANE_STATUS_GOOD; #else /* not __linux__ */ DBG (5, "sanei_usb_set_altinterface: not supported on this OS\n"); return SANE_STATUS_UNSUPPORTED; #endif /* not __linux__ */ } else if (devices[dn].method == sanei_usb_method_libusb) #ifdef HAVE_LIBUSB { int result; result = usb_set_altinterface (devices[dn].libusb_handle, alternate); if (result < 0) { DBG (1, "sanei_usb_set_altinterface: libusb complained: %s\n", usb_strerror ()); return SANE_STATUS_INVAL; } return SANE_STATUS_GOOD; } #else /* not HAVE_LIBUSB */ { DBG (1, "sanei_set_altinterface: libusb support missing\n"); return SANE_STATUS_UNSUPPORTED; } #endif /* not HAVE_LIBUSB */ else { DBG (1, "sanei_usb_set_altinterface: access method %d not implemented\n", devices[dn].method); return SANE_STATUS_UNSUPPORTED; } }