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|
/*
* Linux usbfs backend for libusb
* Copyright (C) 2007-2008 Daniel Drake <dsd@gentoo.org>
* Copyright (c) 2001 Johannes Erdfelt <johannes@erdfelt.com>
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library 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
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
*/
#include <config.h>
#include <ctype.h>
#include <dirent.h>
#include <errno.h>
#include <fcntl.h>
#include <poll.h>
#include <pthread.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <sys/ioctl.h>
#include <sys/stat.h>
#include <sys/types.h>
#include <unistd.h>
#include "libusb.h"
#include "libusbi.h"
#include "linux_usbfs.h"
/* sysfs vs usbfs:
* opening a usbfs node causes the device to be resumed, so we attempt to
* avoid this during enumeration.
*
* sysfs allows us to read the kernel's in-memory copies of device descriptors
* and so forth, avoiding the need to open the device:
* - The binary "descriptors" file was added in 2.6.23.
* - The "busnum" file was added in 2.6.22
* - The "devnum" file has been present since pre-2.6.18
* - the "bConfigurationValue" file has been present since pre-2.6.18
*
* If we have bConfigurationValue, busnum, and devnum, then we can determine
* the active configuration without having to open the usbfs node in RDWR mode.
* We assume this is the case if we see the busnum file (indicates 2.6.22+).
* The busnum file is important as that is the only way we can relate sysfs
* devices to usbfs nodes.
*
* If we also have descriptors, we can obtain the device descriptor and active
* configuration without touching usbfs at all.
*
* The descriptors file originally only contained the active configuration
* descriptor alongside the device descriptor, but all configurations are
* included as of Linux 2.6.26.
*/
/* endianness for multi-byte fields:
*
* Descriptors exposed by usbfs have the multi-byte fields in the device
* descriptor as host endian. Multi-byte fields in the other descriptors are
* bus-endian. The kernel documentation says otherwise, but it is wrong.
*/
static const char *usbfs_path = NULL;
/* do we have a busnum to relate devices? this also implies that we can read
* the active configuration through bConfigurationValue */
static int sysfs_can_relate_devices = -1;
/* do we have a descriptors file? */
static int sysfs_has_descriptors = -1;
struct linux_device_priv {
char *sysfs_dir;
unsigned char *dev_descriptor;
unsigned char *config_descriptor;
};
struct linux_device_handle_priv {
int fd;
};
enum reap_action {
NORMAL = 0,
/* submission failed after the first URB, so await cancellation/completion
* of all the others */
SUBMIT_FAILED,
/* cancelled by user or timeout */
CANCELLED,
/* completed multi-URB transfer in non-final URB */
COMPLETED_EARLY,
};
struct linux_transfer_priv {
union {
struct usbfs_urb *urbs;
struct usbfs_urb **iso_urbs;
};
enum reap_action reap_action;
int num_urbs;
unsigned int num_retired;
/* next iso packet in user-supplied transfer to be populated */
int iso_packet_offset;
};
static void __get_usbfs_path(struct libusb_device *dev, char *path)
{
snprintf(path, PATH_MAX, "%s/%03d/%03d", usbfs_path, dev->bus_number,
dev->device_address);
}
static struct linux_device_priv *__device_priv(struct libusb_device *dev)
{
return (struct linux_device_priv *) dev->os_priv;
}
static struct linux_device_handle_priv *__device_handle_priv(
struct libusb_device_handle *handle)
{
return (struct linux_device_handle_priv *) handle->os_priv;
}
static int check_usb_vfs(const char *dirname)
{
DIR *dir;
struct dirent *entry;
int found = 0;
dir = opendir(dirname);
if (!dir)
return 0;
while ((entry = readdir(dir)) != NULL) {
if (entry->d_name[0] == '.')
continue;
/* We assume if we find any files that it must be the right place */
found = 1;
break;
}
closedir(dir);
return found;
}
static const char *find_usbfs_path(void)
{
const char *path = "/dev/bus/usb";
const char *ret = NULL;
if (check_usb_vfs(path)) {
ret = path;
} else {
path = "/proc/bus/usb";
if (check_usb_vfs(path))
ret = path;
}
usbi_dbg("found usbfs at %s", ret);
return ret;
}
static int op_init(struct libusb_context *ctx)
{
struct stat statbuf;
int r;
usbfs_path = find_usbfs_path();
if (!usbfs_path) {
usbi_err(ctx, "could not find usbfs");
return LIBUSB_ERROR_OTHER;
}
r = stat(SYSFS_DEVICE_PATH, &statbuf);
if (r == 0 && S_ISDIR(statbuf.st_mode)) {
usbi_dbg("found usb devices in sysfs");
} else {
usbi_dbg("sysfs usb info not available");
sysfs_has_descriptors = 0;
sysfs_can_relate_devices = 0;
}
return 0;
}
static int usbfs_get_device_descriptor(struct libusb_device *dev,
unsigned char *buffer)
{
struct linux_device_priv *priv = __device_priv(dev);
/* return cached copy */
memcpy(buffer, priv->dev_descriptor, DEVICE_DESC_LENGTH);
return 0;
}
static int __open_sysfs_attr(struct libusb_device *dev, const char *attr)
{
struct linux_device_priv *priv = __device_priv(dev);
char filename[PATH_MAX];
int fd;
snprintf(filename, PATH_MAX, "%s/%s/%s",
SYSFS_DEVICE_PATH, priv->sysfs_dir, attr);
fd = open(filename, O_RDONLY);
if (fd < 0) {
usbi_err(DEVICE_CTX(dev),
"open %s failed ret=%d errno=%d", filename, fd, errno);
return LIBUSB_ERROR_IO;
}
return fd;
}
static int sysfs_get_device_descriptor(struct libusb_device *dev,
unsigned char *buffer)
{
int fd;
ssize_t r;
/* sysfs provides access to an in-memory copy of the device descriptor,
* so we use that rather than keeping our own copy */
fd = __open_sysfs_attr(dev, "descriptors");
if (fd < 0)
return fd;
r = read(fd, buffer, DEVICE_DESC_LENGTH);;
close(fd);
if (r < 0) {
usbi_err(DEVICE_CTX(dev), "read failed, ret=%d errno=%d", fd, errno);
return LIBUSB_ERROR_IO;
} else if (r < DEVICE_DESC_LENGTH) {
usbi_err(DEVICE_CTX(dev), "short read %d/%d", r, DEVICE_DESC_LENGTH);
return LIBUSB_ERROR_IO;
}
return 0;
}
static int op_get_device_descriptor(struct libusb_device *dev,
unsigned char *buffer, int *host_endian)
{
if (sysfs_has_descriptors) {
return sysfs_get_device_descriptor(dev, buffer);
} else {
*host_endian = 1;
return usbfs_get_device_descriptor(dev, buffer);
}
}
static int usbfs_get_active_config_descriptor(struct libusb_device *dev,
unsigned char *buffer, size_t len)
{
struct linux_device_priv *priv = __device_priv(dev);
if (!priv->config_descriptor)
return LIBUSB_ERROR_NOT_FOUND; /* device is unconfigured */
/* retrieve cached copy */
memcpy(buffer, priv->config_descriptor, len);
return 0;
}
/* read the bConfigurationValue for a device */
static int sysfs_get_active_config(struct libusb_device *dev, int *config)
{
char *endptr;
char tmp[4] = {0, 0, 0, 0};
long num;
int fd;
size_t r;
fd = __open_sysfs_attr(dev, "bConfigurationValue");
if (fd < 0)
return fd;
r = read(fd, tmp, sizeof(tmp));
close(fd);
if (r < 0) {
usbi_err(DEVICE_CTX(dev),
"read bConfigurationValue failed ret=%d errno=%d", r, errno);
return LIBUSB_ERROR_IO;
} else if (r == 0) {
usbi_err(DEVICE_CTX(dev), "device unconfigured");
*config = -1;
return 0;
}
if (tmp[sizeof(tmp) - 1] != 0) {
usbi_err(DEVICE_CTX(dev), "not null-terminated?");
return LIBUSB_ERROR_IO;
} else if (tmp[0] == 0) {
usbi_err(DEVICE_CTX(dev), "no configuration value?");
return LIBUSB_ERROR_IO;
}
num = strtol(tmp, &endptr, 10);
if (endptr == tmp) {
usbi_err(DEVICE_CTX(dev), "error converting '%s' to integer", tmp);
return LIBUSB_ERROR_IO;
}
*config = (int) num;
return 0;
}
/* takes a usbfs/descriptors fd seeked to the start of a configuration, and
* seeks to the next one. */
static int seek_to_next_config(struct libusb_context *ctx, int fd)
{
struct libusb_config_descriptor config;
unsigned char tmp[6];
off_t off;
int r;
/* read first 6 bytes of descriptor */
r = read(fd, tmp, sizeof(tmp));
if (r < 0) {
usbi_err(ctx, "read failed ret=%d errno=%d", r, errno);
return LIBUSB_ERROR_IO;
} else if (r < sizeof(tmp)) {
usbi_err(ctx, "short descriptor read %d/%d", r, sizeof(tmp));
return LIBUSB_ERROR_IO;
}
/* seek forward to end of config */
usbi_parse_descriptor(tmp, "bbwbb", &config, 1);
off = lseek(fd, config.wTotalLength - sizeof(tmp), SEEK_CUR);
if (off < 0) {
usbi_err(ctx, "seek failed ret=%d errno=%d", off, errno);
return LIBUSB_ERROR_IO;
}
return 0;
}
static int sysfs_get_active_config_descriptor(struct libusb_device *dev,
unsigned char *buffer, size_t len)
{
int fd;
ssize_t r;
off_t off;
int to_copy;
int config;
unsigned char tmp[6];
r = sysfs_get_active_config(dev, &config);
if (r < 0)
return r;
if (config == -1)
return LIBUSB_ERROR_NOT_FOUND;
usbi_dbg("active configuration %d", config);
/* sysfs provides access to an in-memory copy of the device descriptor,
* so we use that rather than keeping our own copy */
fd = __open_sysfs_attr(dev, "descriptors");
if (fd < 0)
return fd;
/* device might have been unconfigured since we read bConfigurationValue,
* so first check that there is any config descriptor data at all... */
off = lseek(fd, 0, SEEK_END);
if (off < 1) {
usbi_err(DEVICE_CTX(dev), "end seek failed, ret=%d errno=%d",
off, errno);
close(fd);
return LIBUSB_ERROR_IO;
} else if (off == DEVICE_DESC_LENGTH) {
close(fd);
return LIBUSB_ERROR_NOT_FOUND;
}
off = lseek(fd, DEVICE_DESC_LENGTH, SEEK_SET);
if (off < 0) {
usbi_err(DEVICE_CTX(dev), "seek failed, ret=%d errno=%d", off, errno);
close(fd);
return LIBUSB_ERROR_IO;
}
/* unbounded loop: we expect the descriptor to be present under all
* circumstances */
while (1) {
r = read(fd, tmp, sizeof(tmp));
if (r < 0) {
usbi_err(DEVICE_CTX(dev), "read failed, ret=%d errno=%d",
fd, errno);
return LIBUSB_ERROR_IO;
} else if (r < sizeof(tmp)) {
usbi_err(DEVICE_CTX(dev), "short read %d/%d", r, sizeof(tmp));
return LIBUSB_ERROR_IO;
}
/* check bConfigurationValue */
if (tmp[5] == config)
break;
/* try the next descriptor */
off = lseek(fd, 0 - sizeof(tmp), SEEK_CUR);
if (off < 0)
return LIBUSB_ERROR_IO;
r = seek_to_next_config(DEVICE_CTX(dev), fd);
if (r < 0)
return r;
}
to_copy = (len < sizeof(tmp)) ? len : sizeof(tmp);
memcpy(buffer, tmp, to_copy);
if (len > sizeof(tmp)) {
r = read(fd, buffer + sizeof(tmp), len - sizeof(tmp));
if (r < 0) {
usbi_err(DEVICE_CTX(dev), "read failed, ret=%d errno=%d",
fd, errno);
r = LIBUSB_ERROR_IO;
} else if (r == 0) {
usbi_dbg("device is unconfigured");
r = LIBUSB_ERROR_NOT_FOUND;
} else if (r < len - sizeof(tmp)) {
usbi_err(DEVICE_CTX(dev), "short read %d/%d", r, len);
r = LIBUSB_ERROR_IO;
}
} else {
r = 0;
}
close(fd);
return r;
}
static int op_get_active_config_descriptor(struct libusb_device *dev,
unsigned char *buffer, size_t len, int *host_endian)
{
if (sysfs_has_descriptors) {
return sysfs_get_active_config_descriptor(dev, buffer, len);
} else {
return usbfs_get_active_config_descriptor(dev, buffer, len);
}
}
/* takes a usbfs fd, attempts to find the requested config and copy a certain
* amount of it into an output buffer. */
static int get_config_descriptor(struct libusb_context *ctx, int fd,
uint8_t config_index, unsigned char *buffer, size_t len)
{
off_t off;
ssize_t r;
off = lseek(fd, DEVICE_DESC_LENGTH, SEEK_SET);
if (off < 0) {
usbi_err(ctx, "seek failed ret=%d errno=%d", off, errno);
return LIBUSB_ERROR_IO;
}
/* might need to skip some configuration descriptors to reach the
* requested configuration */
while (config_index > 0) {
r = seek_to_next_config(ctx, fd);
if (r < 0)
return r;
config_index--;
}
/* read the rest of the descriptor */
r = read(fd, buffer, len);
if (r < 0) {
usbi_err(ctx, "read failed ret=%d errno=%d", r, errno);
return LIBUSB_ERROR_IO;
} else if (r < len) {
usbi_err(ctx, "short output read %d/%d", r, len);
return LIBUSB_ERROR_IO;
}
return 0;
}
static int op_get_config_descriptor(struct libusb_device *dev,
uint8_t config_index, unsigned char *buffer, size_t len, int *host_endian)
{
char filename[PATH_MAX];
int fd;
int r;
/* always read from usbfs: sysfs only has the active descriptor
* this will involve waking the device up, but oh well! */
/* FIXME: the above is no longer true, new kernels have all descriptors
* in the descriptors file. but its kinda hard to detect if the kernel
* is sufficiently new. */
__get_usbfs_path(dev, filename);
fd = open(filename, O_RDONLY);
if (fd < 0) {
usbi_err(DEVICE_CTX(dev),
"open '%s' failed, ret=%d errno=%d", filename, fd, errno);
return LIBUSB_ERROR_IO;
}
r = get_config_descriptor(DEVICE_CTX(dev), fd, config_index, buffer, len);
close(fd);
return r;
}
/* cache the active config descriptor in memory. a value of -1 means that
* we aren't sure which one is active, so just assume the first one.
* only for usbfs. */
static int cache_active_config(struct libusb_device *dev, int fd,
int active_config)
{
struct linux_device_priv *priv = __device_priv(dev);
struct libusb_config_descriptor config;
unsigned char tmp[8];
unsigned char *buf;
int idx;
int r;
if (active_config == -1) {
idx = 0;
} else {
r = usbi_get_config_index_by_value(dev, active_config, &idx);
if (r < 0)
return r;
if (idx == -1)
return LIBUSB_ERROR_NOT_FOUND;
}
r = get_config_descriptor(DEVICE_CTX(dev), fd, idx, tmp, sizeof(tmp));
if (r < 0) {
usbi_err(DEVICE_CTX(dev), "first read error %d", r);
return r;
}
usbi_parse_descriptor(tmp, "bbw", &config, 1);
buf = malloc(config.wTotalLength);
if (!buf)
return LIBUSB_ERROR_NO_MEM;
r = get_config_descriptor(DEVICE_CTX(dev), fd, idx, buf,
config.wTotalLength);
if (r < 0) {
free(buf);
return r;
}
if (priv->config_descriptor)
free(priv->config_descriptor);
priv->config_descriptor = buf;
return 0;
}
/* send a control message to retrieve active configuration */
static int usbfs_get_active_config(struct libusb_device *dev, int fd)
{
unsigned char active_config = 0;
int r;
struct usbfs_ctrltransfer ctrl = {
.bmRequestType = LIBUSB_ENDPOINT_IN,
.bRequest = LIBUSB_REQUEST_GET_CONFIGURATION,
.wValue = 0,
.wIndex = 0,
.wLength = 1,
.timeout = 1000,
.data = &active_config
};
r = ioctl(fd, IOCTL_USBFS_CONTROL, &ctrl);
if (r < 0) {
if (errno == ENODEV)
return LIBUSB_ERROR_NO_DEVICE;
usbi_err(DEVICE_CTX(dev),
"get_configuration failed ret=%d errno=%d", r, errno);
return LIBUSB_ERROR_IO;
}
return active_config;
}
static int initialize_device(struct libusb_device *dev, uint8_t busnum,
uint8_t devaddr, const char *sysfs_dir)
{
struct linux_device_priv *priv = __device_priv(dev);
unsigned char *dev_buf;
char path[PATH_MAX];
int fd;
int active_config = 0;
int device_configured = 1;
ssize_t r;
dev->bus_number = busnum;
dev->device_address = devaddr;
if (sysfs_dir) {
priv->sysfs_dir = malloc(strlen(sysfs_dir) + 1);
if (!priv->sysfs_dir)
return LIBUSB_ERROR_NO_MEM;
strcpy(priv->sysfs_dir, sysfs_dir);
}
if (sysfs_has_descriptors)
return 0;
/* cache device descriptor in memory so that we can retrieve it later
* without waking the device up (op_get_device_descriptor) */
priv->dev_descriptor = NULL;
priv->config_descriptor = NULL;
if (sysfs_can_relate_devices) {
int tmp = sysfs_get_active_config(dev, &active_config);
if (tmp < 0)
return tmp;
if (active_config == -1)
device_configured = 0;
}
__get_usbfs_path(dev, path);
fd = open(path, O_RDWR);
if (fd < 0 && errno == EACCES) {
fd = open(path, O_RDONLY);
/* if we only have read-only access to the device, we cannot
* send a control message to determine the active config. just
* assume the first one is active. */
active_config = -1;
}
if (fd < 0) {
usbi_err(DEVICE_CTX(dev), "open failed, ret=%d errno=%d", fd, errno);
return LIBUSB_ERROR_IO;
}
if (!sysfs_can_relate_devices) {
if (active_config == -1) {
/* if we only have read-only access to the device, we cannot
* send a control message to determine the active config. just
* assume the first one is active. */
usbi_warn(DEVICE_CTX(dev), "access to %s is read-only; cannot "
"determine active configuration descriptor", path);
} else {
active_config = usbfs_get_active_config(dev, fd);
if (active_config < 0) {
close(fd);
return active_config;
} else if (active_config == 0) {
/* some buggy devices have a configuration 0, but we're
* reaching into the corner of a corner case here, so let's
* not support buggy devices in these circumstances.
* stick to the specs: a configuration value of 0 means
* unconfigured. */
usbi_dbg("assuming unconfigured device");
device_configured = 0;
}
}
}
dev_buf = malloc(DEVICE_DESC_LENGTH);
if (!dev_buf) {
close(fd);
return LIBUSB_ERROR_NO_MEM;
}
r = read(fd, dev_buf, DEVICE_DESC_LENGTH);
if (r < 0) {
usbi_err(DEVICE_CTX(dev),
"read descriptor failed ret=%d errno=%d", fd, errno);
free(dev_buf);
close(fd);
return LIBUSB_ERROR_IO;
} else if (r < DEVICE_DESC_LENGTH) {
usbi_err(DEVICE_CTX(dev), "short descriptor read (%d)", r);
free(dev_buf);
close(fd);
return LIBUSB_ERROR_IO;
}
/* bit of a hack: set num_configurations now because cache_active_config()
* calls usbi_get_config_index_by_value() which uses it */
dev->num_configurations = dev_buf[DEVICE_DESC_LENGTH - 1];
if (device_configured) {
r = cache_active_config(dev, fd, active_config);
if (r < 0) {
close(fd);
free(dev_buf);
return r;
}
}
close(fd);
priv->dev_descriptor = dev_buf;
return 0;
}
static int enumerate_device(struct libusb_context *ctx,
struct discovered_devs **_discdevs, uint8_t busnum, uint8_t devaddr,
const char *sysfs_dir)
{
struct discovered_devs *discdevs;
unsigned long session_id;
int need_unref = 0;
struct libusb_device *dev;
int r = 0;
/* FIXME: session ID is not guaranteed unique as addresses can wrap and
* will be reused. instead we should add a simple sysfs attribute with
* a session ID. */
session_id = busnum << 8 | devaddr;
usbi_dbg("busnum %d devaddr %d session_id %ld", busnum, devaddr,
session_id);
dev = usbi_get_device_by_session_id(ctx, session_id);
if (dev) {
usbi_dbg("using existing device for %d/%d (session %ld)",
busnum, devaddr, session_id);
} else {
usbi_dbg("allocating new device for %d/%d (session %ld)",
busnum, devaddr, session_id);
dev = usbi_alloc_device(ctx, session_id);
if (!dev)
return LIBUSB_ERROR_NO_MEM;
need_unref = 1;
r = initialize_device(dev, busnum, devaddr, sysfs_dir);
if (r < 0)
goto out;
r = usbi_sanitize_device(dev);
if (r < 0)
goto out;
}
discdevs = discovered_devs_append(*_discdevs, dev);
if (!discdevs)
r = LIBUSB_ERROR_NO_MEM;
else
*_discdevs = discdevs;
out:
if (need_unref)
libusb_unref_device(dev);
return r;
}
/* open a bus directory and adds all discovered devices to discdevs. on
* failure (non-zero return) the pre-existing discdevs should be destroyed
* (and devices freed). on success, the new discdevs pointer should be used
* as it may have been moved. */
static int usbfs_scan_busdir(struct libusb_context *ctx,
struct discovered_devs **_discdevs, uint8_t busnum)
{
DIR *dir;
char dirpath[PATH_MAX];
struct dirent *entry;
struct discovered_devs *discdevs = *_discdevs;
int r = 0;
snprintf(dirpath, PATH_MAX, "%s/%03d", usbfs_path, busnum);
usbi_dbg("%s", dirpath);
dir = opendir(dirpath);
if (!dir) {
usbi_err(ctx, "opendir '%s' failed, errno=%d", dirpath, errno);
/* FIXME: should handle valid race conditions like hub unplugged
* during directory iteration - this is not an error */
return LIBUSB_ERROR_IO;
}
while ((entry = readdir(dir))) {
int devaddr;
if (entry->d_name[0] == '.')
continue;
devaddr = atoi(entry->d_name);
if (devaddr == 0) {
usbi_dbg("unknown dir entry %s", entry->d_name);
continue;
}
r = enumerate_device(ctx, &discdevs, busnum, (uint8_t) devaddr, NULL);
if (r < 0)
goto out;
}
*_discdevs = discdevs;
out:
closedir(dir);
return r;
}
static int usbfs_get_device_list(struct libusb_context *ctx,
struct discovered_devs **_discdevs)
{
struct dirent *entry;
DIR *buses = opendir(usbfs_path);
struct discovered_devs *discdevs = *_discdevs;
int r = 0;
if (!buses) {
usbi_err(ctx, "opendir buses failed errno=%d", errno);
return LIBUSB_ERROR_IO;
}
while ((entry = readdir(buses))) {
struct discovered_devs *discdevs_new = discdevs;
int busnum;
if (entry->d_name[0] == '.')
continue;
busnum = atoi(entry->d_name);
if (busnum == 0) {
usbi_dbg("unknown dir entry %s", entry->d_name);
continue;
}
r = usbfs_scan_busdir(ctx, &discdevs_new, busnum);
if (r < 0)
goto out;
discdevs = discdevs_new;
}
out:
closedir(buses);
*_discdevs = discdevs;
return r;
}
static int sysfs_scan_device(struct libusb_context *ctx,
struct discovered_devs **_discdevs, const char *devname,
int *usbfs_fallback)
{
int r;
FILE *fd;
char filename[PATH_MAX];
int busnum;
int devaddr;
usbi_dbg("scan %s", devname);
/* determine descriptors presence ahead of time, we need to know this
* when we reach initialize_device */
if (sysfs_has_descriptors == -1) {
struct stat statbuf;
snprintf(filename, PATH_MAX, "%s/%s/descriptors", SYSFS_DEVICE_PATH,
devname);
r = stat(filename, &statbuf);
if (r == 0 && S_ISREG(statbuf.st_mode)) {
usbi_dbg("sysfs descriptors available");
sysfs_has_descriptors = 1;
} else {
usbi_dbg("sysfs descriptors not available");
sysfs_has_descriptors = 0;
}
}
snprintf(filename, PATH_MAX, "%s/%s/busnum", SYSFS_DEVICE_PATH, devname);
fd = fopen(filename, "r");
if (!fd) {
if (errno == ENOENT) {
usbi_dbg("busnum not found, cannot relate sysfs to usbfs, "
"falling back on pure usbfs");
sysfs_can_relate_devices = 0;
*usbfs_fallback = 1;
return LIBUSB_ERROR_OTHER;
}
usbi_err(ctx, "open busnum failed, errno=%d", errno);
return LIBUSB_ERROR_IO;
}
sysfs_can_relate_devices = 1;
r = fscanf(fd, "%d", &busnum);
fclose(fd);
if (r != 1) {
usbi_err(ctx, "fscanf busnum returned %d, errno=%d", r, errno);
return LIBUSB_ERROR_IO;
}
snprintf(filename, PATH_MAX, "%s/%s/devnum", SYSFS_DEVICE_PATH, devname);
fd = fopen(filename, "r");
if (!fd) {
usbi_err(ctx, "open devnum failed, errno=%d", errno);
return LIBUSB_ERROR_IO;
}
r = fscanf(fd, "%d", &devaddr);
fclose(fd);
if (r != 1) {
usbi_err(ctx, "fscanf devnum returned %d, errno=%d", r, errno);
return LIBUSB_ERROR_IO;
}
usbi_dbg("bus=%d dev=%d", busnum, devaddr);
if (busnum > 255 || devaddr > 255)
return LIBUSB_ERROR_INVALID_PARAM;
return enumerate_device(ctx, _discdevs, busnum & 0xff, devaddr & 0xff,
devname);
}
static int sysfs_get_device_list(struct libusb_context *ctx,
struct discovered_devs **_discdevs, int *usbfs_fallback)
{
struct discovered_devs *discdevs = *_discdevs;
DIR *devices = opendir(SYSFS_DEVICE_PATH);
struct dirent *entry;
int r = 0;
if (!devices) {
usbi_err(ctx, "opendir devices failed errno=%d", errno);
return LIBUSB_ERROR_IO;
}
while ((entry = readdir(devices))) {
struct discovered_devs *discdevs_new = discdevs;
if ((!isdigit(entry->d_name[0]) && strncmp(entry->d_name, "usb", 3))
|| strchr(entry->d_name, ':'))
continue;
r = sysfs_scan_device(ctx, &discdevs_new, entry->d_name,
usbfs_fallback);
if (r < 0)
goto out;
discdevs = discdevs_new;
}
out:
closedir(devices);
*_discdevs = discdevs;
return r;
}
static int op_get_device_list(struct libusb_context *ctx,
struct discovered_devs **_discdevs)
{
/* we can retrieve device list and descriptors from sysfs or usbfs.
* sysfs is preferable, because if we use usbfs we end up resuming
* any autosuspended USB devices. however, sysfs is not available
* everywhere, so we need a usbfs fallback too.
*
* as described in the "sysfs vs usbfs" comment, sometimes we have
* sysfs but not enough information to relate sysfs devices to usbfs
* nodes. the usbfs_fallback variable is used to indicate that we should
* fall back on usbfs.
*/
if (sysfs_can_relate_devices != 0) {
int usbfs_fallback = 0;
int r = sysfs_get_device_list(ctx, _discdevs, &usbfs_fallback);
if (!usbfs_fallback)
return r;
}
return usbfs_get_device_list(ctx, _discdevs);
}
static int op_open(struct libusb_device_handle *handle)
{
struct linux_device_handle_priv *hpriv = __device_handle_priv(handle);
char filename[PATH_MAX];
__get_usbfs_path(handle->dev, filename);
hpriv->fd = open(filename, O_RDWR);
if (hpriv->fd < 0) {
if (errno == EACCES) {
fprintf(stderr, "libusb couldn't open USB device %s: "
"Permission denied.\n"
"libusb requires write access to USB device nodes.\n",
filename);
return LIBUSB_ERROR_ACCESS;
} else if (errno == ENOENT) {
return LIBUSB_ERROR_NO_DEVICE;
} else {
usbi_err(HANDLE_CTX(handle),
"open failed, code %d errno %d", hpriv->fd, errno);
return LIBUSB_ERROR_IO;
}
}
return usbi_add_pollfd(HANDLE_CTX(handle), hpriv->fd, POLLOUT);
}
static void op_close(struct libusb_device_handle *dev_handle)
{
int fd = __device_handle_priv(dev_handle)->fd;
usbi_remove_pollfd(HANDLE_CTX(dev_handle), fd);
close(fd);
}
static int op_get_configuration(struct libusb_device_handle *handle,
int *config)
{
int r;
if (sysfs_can_relate_devices != 1)
return LIBUSB_ERROR_NOT_SUPPORTED;
r = sysfs_get_active_config(handle->dev, config);
if (*config == -1)
*config = 0;
return 0;
}
static int op_set_configuration(struct libusb_device_handle *handle, int config)
{
struct linux_device_priv *priv = __device_priv(handle->dev);
int fd = __device_handle_priv(handle)->fd;
int r = ioctl(fd, IOCTL_USBFS_SETCONFIG, &config);
if (r) {
if (errno == EINVAL)
return LIBUSB_ERROR_NOT_FOUND;
else if (errno == EBUSY)
return LIBUSB_ERROR_BUSY;
else if (errno == ENODEV)
return LIBUSB_ERROR_NO_DEVICE;
usbi_err(HANDLE_CTX(handle), "failed, error %d errno %d", r, errno);
return LIBUSB_ERROR_OTHER;
}
if (!sysfs_has_descriptors) {
/* update our cached active config descriptor */
if (config == -1) {
if (priv->config_descriptor) {
free(priv->config_descriptor);
priv->config_descriptor = NULL;
}
} else {
r = cache_active_config(handle->dev, fd, config);
if (r < 0)
usbi_warn(HANDLE_CTX(handle),
"failed to update cached config descriptor, error %d", r);
}
}
return 0;
}
static int op_claim_interface(struct libusb_device_handle *handle, int iface)
{
int fd = __device_handle_priv(handle)->fd;
int r = ioctl(fd, IOCTL_USBFS_CLAIMINTF, &iface);
if (r) {
if (errno == ENOENT)
return LIBUSB_ERROR_NOT_FOUND;
else if (errno == EBUSY)
return LIBUSB_ERROR_BUSY;
else if (errno == ENODEV)
return LIBUSB_ERROR_NO_DEVICE;
usbi_err(HANDLE_CTX(handle),
"claim interface failed, error %d errno %d", r, errno);
return LIBUSB_ERROR_OTHER;
}
return 0;
}
static int op_release_interface(struct libusb_device_handle *handle, int iface)
{
int fd = __device_handle_priv(handle)->fd;
int r = ioctl(fd, IOCTL_USBFS_RELEASEINTF, &iface);
if (r) {
if (errno == ENODEV)
return LIBUSB_ERROR_NO_DEVICE;
usbi_err(HANDLE_CTX(handle),
"release interface failed, error %d errno %d", r, errno);
return LIBUSB_ERROR_OTHER;
}
return 0;
}
static int op_set_interface(struct libusb_device_handle *handle, int iface,
int altsetting)
{
int fd = __device_handle_priv(handle)->fd;
struct usbfs_setinterface setintf;
int r;
setintf.interface = iface;
setintf.altsetting = altsetting;
r = ioctl(fd, IOCTL_USBFS_SETINTF, &setintf);
if (r) {
if (errno == EINVAL)
return LIBUSB_ERROR_NOT_FOUND;
else if (errno == ENODEV)
return LIBUSB_ERROR_NO_DEVICE;
usbi_err(HANDLE_CTX(handle),
"setintf failed error %d errno %d", r, errno);
return LIBUSB_ERROR_OTHER;
}
return 0;
}
static int op_clear_halt(struct libusb_device_handle *handle,
unsigned char endpoint)
{
int fd = __device_handle_priv(handle)->fd;
unsigned int _endpoint = endpoint;
int r = ioctl(fd, IOCTL_USBFS_CLEAR_HALT, &_endpoint);
if (r) {
if (errno == ENOENT)
return LIBUSB_ERROR_NOT_FOUND;
else if (errno == ENODEV)
return LIBUSB_ERROR_NO_DEVICE;
usbi_err(HANDLE_CTX(handle),
"clear_halt failed error %d errno %d", r, errno);
return LIBUSB_ERROR_OTHER;
}
return 0;
}
static int op_reset_device(struct libusb_device_handle *handle)
{
int fd = __device_handle_priv(handle)->fd;
int r = ioctl(fd, IOCTL_USBFS_RESET, NULL);
if (r) {
if (errno == ENODEV)
return LIBUSB_ERROR_NOT_FOUND;
usbi_err(HANDLE_CTX(handle),
"reset failed error %d errno %d", r, errno);
return LIBUSB_ERROR_OTHER;
}
return 0;
}
static int op_kernel_driver_active(struct libusb_device_handle *handle,
int interface)
{
int fd = __device_handle_priv(handle)->fd;
struct usbfs_getdriver getdrv;
int r;
getdrv.interface = interface;
r = ioctl(fd, IOCTL_USBFS_GETDRIVER, &getdrv);
if (r) {
if (errno == ENODATA)
return 0;
else if (errno == ENODEV)
return LIBUSB_ERROR_NO_DEVICE;
usbi_err(HANDLE_CTX(handle),
"get driver failed error %d errno %d", r, errno);
return LIBUSB_ERROR_OTHER;
}
return 1;
}
static int op_detach_kernel_driver(struct libusb_device_handle *handle,
int interface)
{
int fd = __device_handle_priv(handle)->fd;
struct usbfs_ioctl command;
int r;
command.ifno = interface;
command.ioctl_code = IOCTL_USBFS_DISCONNECT;
command.data = NULL;
r = ioctl(fd, IOCTL_USBFS_IOCTL, &command);
if (r) {
if (errno == ENODATA)
return LIBUSB_ERROR_NOT_FOUND;
else if (errno == EINVAL)
return LIBUSB_ERROR_INVALID_PARAM;
else if (errno == ENODEV)
return LIBUSB_ERROR_NO_DEVICE;
usbi_err(HANDLE_CTX(handle),
"detach failed error %d errno %d", r, errno);
return LIBUSB_ERROR_OTHER;
}
return 0;
}
static int op_attach_kernel_driver(struct libusb_device_handle *handle,
int interface)
{
int fd = __device_handle_priv(handle)->fd;
struct usbfs_ioctl command;
int r;
command.ifno = interface;
command.ioctl_code = IOCTL_USBFS_CONNECT;
command.data = NULL;
r = ioctl(fd, IOCTL_USBFS_IOCTL, &command);
if (r < 0) {
if (errno == ENODATA)
return LIBUSB_ERROR_NOT_FOUND;
else if (errno == EINVAL)
return LIBUSB_ERROR_INVALID_PARAM;
else if (errno == ENODEV)
return LIBUSB_ERROR_NO_DEVICE;
else if (errno == EBUSY)
return LIBUSB_ERROR_BUSY;
usbi_err(HANDLE_CTX(handle),
"attach failed error %d errno %d", r, errno);
return LIBUSB_ERROR_OTHER;
} else if (r == 0) {
return LIBUSB_ERROR_NOT_FOUND;
}
return 0;
}
static void op_destroy_device(struct libusb_device *dev)
{
struct linux_device_priv *priv = __device_priv(dev);
if (!sysfs_has_descriptors) {
if (priv->dev_descriptor)
free(priv->dev_descriptor);
if (priv->config_descriptor)
free(priv->config_descriptor);
}
if (priv->sysfs_dir)
free(priv->sysfs_dir);
}
static void free_iso_urbs(struct linux_transfer_priv *tpriv)
{
int i;
for (i = 0; i < tpriv->num_urbs; i++) {
struct usbfs_urb *urb = tpriv->iso_urbs[i];
if (!urb)
break;
free(urb);
}
free(tpriv->iso_urbs);
tpriv->iso_urbs = NULL;
}
static int submit_bulk_transfer(struct usbi_transfer *itransfer,
unsigned char urb_type)
{
struct libusb_transfer *transfer =
__USBI_TRANSFER_TO_LIBUSB_TRANSFER(itransfer);
struct linux_transfer_priv *tpriv = usbi_transfer_get_os_priv(itransfer);
struct linux_device_handle_priv *dpriv =
__device_handle_priv(transfer->dev_handle);
struct usbfs_urb *urbs;
int r;
int i;
size_t alloc_size;
if (tpriv->urbs)
return LIBUSB_ERROR_BUSY;
/* usbfs places a 16kb limit on bulk URBs. we divide up larger requests
* into smaller units to meet such restriction, then fire off all the
* units at once. it would be simpler if we just fired one unit at a time,
* but there is a big performance gain through doing it this way. */
int num_urbs = transfer->length / MAX_BULK_BUFFER_LENGTH;
int last_urb_partial = 0;
if (transfer->length == 0) {
num_urbs = 1;
} else if ((transfer->length % MAX_BULK_BUFFER_LENGTH) > 0) {
last_urb_partial = 1;
num_urbs++;
}
usbi_dbg("need %d urbs for new transfer with length %d", num_urbs,
transfer->length);
alloc_size = num_urbs * sizeof(struct usbfs_urb);
urbs = malloc(alloc_size);
if (!urbs)
return LIBUSB_ERROR_NO_MEM;
memset(urbs, 0, alloc_size);
tpriv->urbs = urbs;
tpriv->num_urbs = num_urbs;
tpriv->num_retired = 0;
tpriv->reap_action = NORMAL;
for (i = 0; i < num_urbs; i++) {
struct usbfs_urb *urb = &urbs[i];
urb->usercontext = itransfer;
urb->type = urb_type;
urb->endpoint = transfer->endpoint;
urb->buffer = transfer->buffer + (i * MAX_BULK_BUFFER_LENGTH);
if (i == num_urbs - 1 && last_urb_partial)
urb->buffer_length = transfer->length % MAX_BULK_BUFFER_LENGTH;
else if (transfer->length == 0)
urb->buffer_length = 0;
else
urb->buffer_length = MAX_BULK_BUFFER_LENGTH;
r = ioctl(dpriv->fd, IOCTL_USBFS_SUBMITURB, urb);
if (r < 0) {
int j;
if (errno == ENODEV) {
r = LIBUSB_ERROR_NO_DEVICE;
} else {
usbi_err(TRANSFER_CTX(transfer),
"submiturb failed error %d errno=%d", r, errno);
r = LIBUSB_ERROR_IO;
}
/* if the first URB submission fails, we can simply free up and
* return failure immediately. */
if (i == 0) {
usbi_dbg("first URB failed, easy peasy");
free(urbs);
tpriv->urbs = NULL;
return r;
}
/* if it's not the first URB that failed, the situation is a bit
* tricky. we must discard all previous URBs. there are
* complications:
* - discarding is asynchronous - discarded urbs will be reaped
* later. the user must not have freed the transfer when the
* discarded URBs are reaped, otherwise libusb will be using
* freed memory.
* - the earlier URBs may have completed successfully and we do
* not want to throw away any data.
* so, in this case we discard all the previous URBs BUT we report
* that the transfer was submitted successfully. then later when
* the final discard completes we can report error to the user.
*/
tpriv->reap_action = SUBMIT_FAILED;
/* The URBs we haven't submitted yet we count as already
* retired. */
tpriv->num_retired += num_urbs - i;
for (j = 0; j < i; j++) {
int tmp = ioctl(dpriv->fd, IOCTL_USBFS_DISCARDURB, &urbs[j]);
if (tmp && errno != EINVAL)
usbi_warn(TRANSFER_CTX(transfer),
"unrecognised discard errno %d", errno);
}
usbi_dbg("reporting successful submission but waiting for %d "
"discards before reporting error", i);
return 0;
}
}
return 0;
}
static int submit_iso_transfer(struct usbi_transfer *itransfer)
{
struct libusb_transfer *transfer =
__USBI_TRANSFER_TO_LIBUSB_TRANSFER(itransfer);
struct linux_transfer_priv *tpriv = usbi_transfer_get_os_priv(itransfer);
struct linux_device_handle_priv *dpriv =
__device_handle_priv(transfer->dev_handle);
struct usbfs_urb **urbs;
size_t alloc_size;
int num_packets = transfer->num_iso_packets;
int i;
int this_urb_len = 0;
int num_urbs = 1;
int packet_offset = 0;
unsigned int packet_len;
unsigned char *urb_buffer = transfer->buffer;
if (tpriv->iso_urbs)
return LIBUSB_ERROR_BUSY;
/* usbfs places a 32kb limit on iso URBs. we divide up larger requests
* into smaller units to meet such restriction, then fire off all the
* units at once. it would be simpler if we just fired one unit at a time,
* but there is a big performance gain through doing it this way. */
/* calculate how many URBs we need */
for (i = 0; i < num_packets; i++) {
int space_remaining = MAX_ISO_BUFFER_LENGTH - this_urb_len;
packet_len = transfer->iso_packet_desc[i].length;
if (packet_len > space_remaining) {
num_urbs++;
this_urb_len = packet_len;
} else {
this_urb_len += packet_len;
}
}
usbi_dbg("need %d 32k URBs for transfer", num_urbs);
alloc_size = num_urbs * sizeof(*urbs);
urbs = malloc(alloc_size);
if (!urbs)
return LIBUSB_ERROR_NO_MEM;
memset(urbs, 0, alloc_size);
tpriv->iso_urbs = urbs;
tpriv->num_urbs = num_urbs;
tpriv->num_retired = 0;
tpriv->reap_action = NORMAL;
tpriv->iso_packet_offset = 0;
/* allocate + initialize each URB with the correct number of packets */
for (i = 0; i < num_urbs; i++) {
struct usbfs_urb *urb;
int space_remaining_in_urb = MAX_ISO_BUFFER_LENGTH;
int urb_packet_offset = 0;
unsigned char *urb_buffer_orig = urb_buffer;
int j;
int k;
/* swallow up all the packets we can fit into this URB */
while (packet_offset < transfer->num_iso_packets) {
packet_len = transfer->iso_packet_desc[packet_offset].length;
if (packet_len <= space_remaining_in_urb) {
/* throw it in */
urb_packet_offset++;
packet_offset++;
space_remaining_in_urb -= packet_len;
urb_buffer += packet_len;
} else {
/* it can't fit, save it for the next URB */
break;
}
}
alloc_size = sizeof(*urb)
+ (urb_packet_offset * sizeof(struct usbfs_iso_packet_desc));
urb = malloc(alloc_size);
if (!urb) {
free_iso_urbs(tpriv);
return LIBUSB_ERROR_NO_MEM;
}
memset(urb, 0, alloc_size);
urbs[i] = urb;
/* populate packet lengths */
for (j = 0, k = packet_offset - urb_packet_offset;
k < packet_offset; k++, j++) {
packet_len = transfer->iso_packet_desc[k].length;
urb->iso_frame_desc[j].length = packet_len;
}
urb->usercontext = itransfer;
urb->type = USBFS_URB_TYPE_ISO;
/* FIXME: interface for non-ASAP data? */
urb->flags = USBFS_URB_ISO_ASAP;
urb->endpoint = transfer->endpoint;
urb->number_of_packets = urb_packet_offset;
urb->buffer = urb_buffer_orig;
}
/* submit URBs */
for (i = 0; i < num_urbs; i++) {
int r = ioctl(dpriv->fd, IOCTL_USBFS_SUBMITURB, urbs[i]);
if (r < 0) {
int j;
if (errno == ENODEV) {
r = LIBUSB_ERROR_NO_DEVICE;
} else {
usbi_err(TRANSFER_CTX(transfer),
"submiturb failed error %d errno=%d", r, errno);
r = LIBUSB_ERROR_IO;
}
/* if the first URB submission fails, we can simply free up and
* return failure immediately. */
if (i == 0) {
usbi_dbg("first URB failed, easy peasy");
free_iso_urbs(tpriv);
return r;
}
/* if it's not the first URB that failed, the situation is a bit
* tricky. we must discard all previous URBs. there are
* complications:
* - discarding is asynchronous - discarded urbs will be reaped
* later. the user must not have freed the transfer when the
* discarded URBs are reaped, otherwise libusb will be using
* freed memory.
* - the earlier URBs may have completed successfully and we do
* not want to throw away any data.
* so, in this case we discard all the previous URBs BUT we report
* that the transfer was submitted successfully. then later when
* the final discard completes we can report error to the user.
*/
tpriv->reap_action = SUBMIT_FAILED;
/* The URBs we haven't submitted yet we count as already
* retired. */
tpriv->num_retired = num_urbs - i;
for (j = 0; j < i; j++) {
int tmp = ioctl(dpriv->fd, IOCTL_USBFS_DISCARDURB, urbs[j]);
if (tmp && errno != EINVAL)
usbi_warn(TRANSFER_CTX(transfer),
"unrecognised discard errno %d", errno);
}
usbi_dbg("reporting successful submission but waiting for %d "
"discards before reporting error", i);
return 0;
}
}
return 0;
}
static int submit_control_transfer(struct usbi_transfer *itransfer)
{
struct linux_transfer_priv *tpriv = usbi_transfer_get_os_priv(itransfer);
struct libusb_transfer *transfer =
__USBI_TRANSFER_TO_LIBUSB_TRANSFER(itransfer);
struct linux_device_handle_priv *dpriv =
__device_handle_priv(transfer->dev_handle);
struct usbfs_urb *urb;
int r;
if (tpriv->urbs)
return LIBUSB_ERROR_BUSY;
if (transfer->length - LIBUSB_CONTROL_SETUP_SIZE > MAX_CTRL_BUFFER_LENGTH)
return LIBUSB_ERROR_INVALID_PARAM;
urb = malloc(sizeof(struct usbfs_urb));
if (!urb)
return LIBUSB_ERROR_NO_MEM;
memset(urb, 0, sizeof(struct usbfs_urb));
tpriv->urbs = urb;
tpriv->reap_action = NORMAL;
urb->usercontext = itransfer;
urb->type = USBFS_URB_TYPE_CONTROL;
urb->endpoint = transfer->endpoint;
urb->buffer = transfer->buffer;
urb->buffer_length = transfer->length;
r = ioctl(dpriv->fd, IOCTL_USBFS_SUBMITURB, urb);
if (r < 0) {
free(urb);
tpriv->urbs = NULL;
if (errno == ENODEV)
return LIBUSB_ERROR_NO_DEVICE;
usbi_err(TRANSFER_CTX(transfer),
"submiturb failed error %d errno=%d", r, errno);
return LIBUSB_ERROR_IO;
}
return 0;
}
static int op_submit_transfer(struct usbi_transfer *itransfer)
{
struct libusb_transfer *transfer =
__USBI_TRANSFER_TO_LIBUSB_TRANSFER(itransfer);
switch (transfer->type) {
case LIBUSB_TRANSFER_TYPE_CONTROL:
return submit_control_transfer(itransfer);
case LIBUSB_TRANSFER_TYPE_BULK:
return submit_bulk_transfer(itransfer, USBFS_URB_TYPE_BULK);
case LIBUSB_TRANSFER_TYPE_INTERRUPT:
return submit_bulk_transfer(itransfer, USBFS_URB_TYPE_INTERRUPT);
case LIBUSB_TRANSFER_TYPE_ISOCHRONOUS:
return submit_iso_transfer(itransfer);
default:
usbi_err(TRANSFER_CTX(transfer),
"unknown endpoint type %d", transfer->type);
return LIBUSB_ERROR_INVALID_PARAM;
}
}
static int cancel_control_transfer(struct usbi_transfer *itransfer)
{
struct linux_transfer_priv *tpriv = usbi_transfer_get_os_priv(itransfer);
struct libusb_transfer *transfer =
__USBI_TRANSFER_TO_LIBUSB_TRANSFER(itransfer);
struct linux_device_handle_priv *dpriv =
__device_handle_priv(transfer->dev_handle);
int r;
if (!tpriv->urbs)
return LIBUSB_ERROR_NOT_FOUND;
tpriv->reap_action = CANCELLED;
r = ioctl(dpriv->fd, IOCTL_USBFS_DISCARDURB, tpriv->urbs);
if(r) {
if (errno == EINVAL) {
usbi_dbg("URB not found --> assuming ready to be reaped");
return 0;
} else {
usbi_err(TRANSFER_CTX(transfer),
"unrecognised DISCARD code %d", errno);
return LIBUSB_ERROR_OTHER;
}
}
return 0;
}
static int cancel_bulk_transfer(struct usbi_transfer *itransfer)
{
struct linux_transfer_priv *tpriv = usbi_transfer_get_os_priv(itransfer);
struct libusb_transfer *transfer =
__USBI_TRANSFER_TO_LIBUSB_TRANSFER(itransfer);
struct linux_device_handle_priv *dpriv =
__device_handle_priv(transfer->dev_handle);
int i;
if (!tpriv->urbs)
return LIBUSB_ERROR_NOT_FOUND;
tpriv->reap_action = CANCELLED;
for (i = 0; i < tpriv->num_urbs; i++) {
int tmp = ioctl(dpriv->fd, IOCTL_USBFS_DISCARDURB, &tpriv->urbs[i]);
if (tmp && errno != EINVAL)
usbi_warn(TRANSFER_CTX(transfer),
"unrecognised discard errno %d", errno);
}
return 0;
}
static int cancel_iso_transfer(struct usbi_transfer *itransfer)
{
struct linux_transfer_priv *tpriv = usbi_transfer_get_os_priv(itransfer);
struct libusb_transfer *transfer =
__USBI_TRANSFER_TO_LIBUSB_TRANSFER(itransfer);
struct linux_device_handle_priv *dpriv =
__device_handle_priv(transfer->dev_handle);
int i;
if (!tpriv->iso_urbs)
return LIBUSB_ERROR_NOT_FOUND;
tpriv->reap_action = CANCELLED;
for (i = 0; i < tpriv->num_urbs; i++) {
int tmp = ioctl(dpriv->fd, IOCTL_USBFS_DISCARDURB, tpriv->iso_urbs[i]);
if (tmp && errno != EINVAL)
usbi_warn(TRANSFER_CTX(transfer),
"unrecognised discard errno %d", errno);
}
return 0;
}
static int op_cancel_transfer(struct usbi_transfer *itransfer)
{
struct libusb_transfer *transfer =
__USBI_TRANSFER_TO_LIBUSB_TRANSFER(itransfer);
switch (transfer->type) {
case LIBUSB_TRANSFER_TYPE_CONTROL:
return cancel_control_transfer(itransfer);
case LIBUSB_TRANSFER_TYPE_BULK:
case LIBUSB_TRANSFER_TYPE_INTERRUPT:
return cancel_bulk_transfer(itransfer);
case LIBUSB_TRANSFER_TYPE_ISOCHRONOUS:
return cancel_iso_transfer(itransfer);
default:
usbi_err(TRANSFER_CTX(transfer),
"unknown endpoint type %d", transfer->type);
return LIBUSB_ERROR_INVALID_PARAM;
}
}
static void op_clear_transfer_priv(struct usbi_transfer *itransfer)
{
struct libusb_transfer *transfer =
__USBI_TRANSFER_TO_LIBUSB_TRANSFER(itransfer);
struct linux_transfer_priv *tpriv = usbi_transfer_get_os_priv(itransfer);
switch (transfer->type) {
case LIBUSB_TRANSFER_TYPE_CONTROL:
case LIBUSB_TRANSFER_TYPE_BULK:
case LIBUSB_TRANSFER_TYPE_INTERRUPT:
free(tpriv->urbs);
tpriv->urbs = NULL;
break;
case LIBUSB_TRANSFER_TYPE_ISOCHRONOUS:
free_iso_urbs(tpriv);
break;
default:
usbi_err(TRANSFER_CTX(transfer),
"unknown endpoint type %d", transfer->type);
}
}
static int handle_bulk_completion(struct usbi_transfer *itransfer,
struct usbfs_urb *urb)
{
struct linux_transfer_priv *tpriv = usbi_transfer_get_os_priv(itransfer);
int num_urbs = tpriv->num_urbs;
int urb_idx = urb - tpriv->urbs;
enum libusb_transfer_status status = LIBUSB_TRANSFER_COMPLETED;
usbi_dbg("handling completion status %d of bulk urb %d/%d", urb->status,
urb_idx + 1, num_urbs);
tpriv->num_retired++;
if (urb->status == 0 ||
(urb->status == -EOVERFLOW && urb->actual_length > 0))
itransfer->transferred += urb->actual_length;
if (tpriv->reap_action != NORMAL) {
/* cancelled, submit_fail, or completed early */
if (urb->status == 0 && tpriv->reap_action == COMPLETED_EARLY) {
/* FIXME we could solve this extreme corner case with a memmove
* or something */
usbi_warn(ITRANSFER_CTX(itransfer), "SOME DATA LOST! "
"(completed early but remaining urb completed)");
}
usbi_dbg("CANCEL: urb status %d", urb->status);
if (tpriv->num_retired == num_urbs) {
usbi_dbg("CANCEL: last URB handled, reporting");
if (tpriv->reap_action == CANCELLED) {
free(tpriv->urbs);
tpriv->urbs = NULL;
usbi_handle_transfer_cancellation(itransfer);
return 0;
}
if (tpriv->reap_action != COMPLETED_EARLY)
status = LIBUSB_TRANSFER_ERROR;
goto out;
}
return 0;
}
switch (urb->status) {
case 0:
break;
case -EPIPE:
usbi_dbg("detected endpoint stall");
status = LIBUSB_TRANSFER_STALL;
goto out;
case -EOVERFLOW:
/* overflow can only ever occur in the last urb */
usbi_dbg("overflow, actual_length=%d", urb->actual_length);
status = LIBUSB_TRANSFER_OVERFLOW;
goto out;
case -ETIME:
case -EPROTO:
case -EILSEQ:
usbi_dbg("low level error %d", urb->status);
status = LIBUSB_TRANSFER_ERROR;
goto out;
default:
usbi_warn(ITRANSFER_CTX(itransfer),
"unrecognised urb status %d", urb->status);
status = LIBUSB_TRANSFER_ERROR;
goto out;
}
/* if we're the last urb or we got less data than requested then we're
* done */
if (urb_idx == num_urbs - 1) {
usbi_dbg("last URB in transfer --> complete!");
} else if (urb->actual_length < urb->buffer_length) {
struct libusb_transfer *transfer =
__USBI_TRANSFER_TO_LIBUSB_TRANSFER(itransfer);
struct linux_device_handle_priv *dpriv =
__device_handle_priv(transfer->dev_handle);
int i;
usbi_dbg("short transfer %d/%d --> complete!", urb->actual_length,
urb->buffer_length);
/* we have to cancel the remaining urbs and wait for their completion
* before reporting results */
tpriv->reap_action = COMPLETED_EARLY;
for (i = urb_idx + 1; i < tpriv->num_urbs; i++) {
int r = ioctl(dpriv->fd, IOCTL_USBFS_DISCARDURB, &tpriv->urbs[i]);
if (r && errno != EINVAL)
usbi_warn(TRANSFER_CTX(transfer),
"unrecognised discard errno %d", errno);
}
return 0;
} else {
return 0;
}
out:
free(tpriv->urbs);
tpriv->urbs = NULL;
usbi_handle_transfer_completion(itransfer, status);
return 0;
}
static int handle_iso_completion(struct usbi_transfer *itransfer,
struct usbfs_urb *urb)
{
struct libusb_transfer *transfer =
__USBI_TRANSFER_TO_LIBUSB_TRANSFER(itransfer);
struct linux_transfer_priv *tpriv = usbi_transfer_get_os_priv(itransfer);
int num_urbs = tpriv->num_urbs;
int urb_idx = 0;
int i;
for (i = 0; i < num_urbs; i++) {
if (urb == tpriv->iso_urbs[i]) {
urb_idx = i + 1;
break;
}
}
if (urb_idx == 0) {
usbi_err(TRANSFER_CTX(transfer), "could not locate urb!");
return LIBUSB_ERROR_NOT_FOUND;
}
usbi_dbg("handling completion status %d of iso urb %d/%d", urb->status,
urb_idx, num_urbs);
if (urb->status == 0) {
/* copy isochronous results back in */
for (i = 0; i < urb->number_of_packets; i++) {
struct usbfs_iso_packet_desc *urb_desc = &urb->iso_frame_desc[i];
struct libusb_iso_packet_descriptor *lib_desc =
&transfer->iso_packet_desc[tpriv->iso_packet_offset++];
lib_desc->status = urb_desc->status;
lib_desc->actual_length = urb_desc->actual_length;
}
}
tpriv->num_retired++;
if (tpriv->reap_action != NORMAL) { /* cancelled or submit_fail */
usbi_dbg("CANCEL: urb status %d", urb->status);
if (tpriv->num_retired == num_urbs) {
usbi_dbg("CANCEL: last URB handled, reporting");
free_iso_urbs(tpriv);
if (tpriv->reap_action == CANCELLED)
usbi_handle_transfer_cancellation(itransfer);
else
usbi_handle_transfer_completion(itransfer,
LIBUSB_TRANSFER_ERROR);
}
return 0;
}
switch (urb->status) {
case 0:
break;
case -ETIME:
case -EPROTO:
case -EILSEQ:
usbi_dbg("low-level USB error %d", urb->status);
break;
default:
usbi_warn(TRANSFER_CTX(transfer),
"unrecognised urb status %d", urb->status);
break;
}
/* if we're the last urb or we got less data than requested then we're
* done */
if (urb_idx == num_urbs) {
usbi_dbg("last URB in transfer --> complete!");
free_iso_urbs(tpriv);
usbi_handle_transfer_completion(itransfer, LIBUSB_TRANSFER_COMPLETED);
}
return 0;
}
static int handle_control_completion(struct usbi_transfer *itransfer,
struct usbfs_urb *urb)
{
struct linux_transfer_priv *tpriv = usbi_transfer_get_os_priv(itransfer);
int status;
usbi_dbg("handling completion status %d", urb->status);
if (urb->status == 0)
itransfer->transferred += urb->actual_length;
if (tpriv->reap_action == CANCELLED) {
if (urb->status != 0 && urb->status != -ENOENT)
usbi_warn(ITRANSFER_CTX(itransfer),
"cancel: unrecognised urb status %d", urb->status);
free(tpriv->urbs);
tpriv->urbs = NULL;
usbi_handle_transfer_cancellation(itransfer);
return 0;
}
switch (urb->status) {
case 0:
itransfer->transferred = urb->actual_length;
status = LIBUSB_TRANSFER_COMPLETED;
break;
case -EPIPE:
usbi_dbg("unsupported control request");
status = LIBUSB_TRANSFER_STALL;
break;
case -ETIME:
case -EPROTO:
case -EILSEQ:
usbi_dbg("low-level bus error occurred");
status = LIBUSB_TRANSFER_ERROR;
break;
default:
usbi_warn(ITRANSFER_CTX(itransfer),
"unrecognised urb status %d", urb->status);
status = LIBUSB_TRANSFER_ERROR;
break;
}
free(tpriv->urbs);
tpriv->urbs = NULL;
usbi_handle_transfer_completion(itransfer, status);
return 0;
}
static int reap_for_handle(struct libusb_device_handle *handle)
{
struct linux_device_handle_priv *hpriv = __device_handle_priv(handle);
int r;
struct usbfs_urb *urb;
struct usbi_transfer *itransfer;
struct libusb_transfer *transfer;
r = ioctl(hpriv->fd, IOCTL_USBFS_REAPURBNDELAY, &urb);
if (r == -1 && errno == EAGAIN)
return 1;
if (r < 0) {
if (errno == ENODEV)
return LIBUSB_ERROR_NO_DEVICE;
usbi_err(HANDLE_CTX(handle), "reap failed error %d errno=%d",
r, errno);
return LIBUSB_ERROR_IO;
}
itransfer = urb->usercontext;
transfer = __USBI_TRANSFER_TO_LIBUSB_TRANSFER(itransfer);
usbi_dbg("urb type=%d status=%d transferred=%d", urb->type, urb->status,
urb->actual_length);
switch (transfer->type) {
case LIBUSB_TRANSFER_TYPE_ISOCHRONOUS:
return handle_iso_completion(itransfer, urb);
case LIBUSB_TRANSFER_TYPE_BULK:
case LIBUSB_TRANSFER_TYPE_INTERRUPT:
return handle_bulk_completion(itransfer, urb);
case LIBUSB_TRANSFER_TYPE_CONTROL:
return handle_control_completion(itransfer, urb);
default:
usbi_err(HANDLE_CTX(handle), "unrecognised endpoint type %x",
transfer->type);
return LIBUSB_ERROR_OTHER;
}
}
static int op_handle_events(struct libusb_context *ctx,
struct pollfd *fds, nfds_t nfds, int num_ready)
{
int r;
int i = 0;
pthread_mutex_lock(&ctx->open_devs_lock);
for (i = 0; i < nfds && num_ready > 0; i++) {
struct pollfd *pollfd = &fds[i];
struct libusb_device_handle *handle;
struct linux_device_handle_priv *hpriv = NULL;
if (!pollfd->revents)
continue;
num_ready--;
list_for_each_entry(handle, &ctx->open_devs, list) {
hpriv = __device_handle_priv(handle);
if (hpriv->fd == pollfd->fd)
break;
}
if (pollfd->revents & POLLERR) {
usbi_remove_pollfd(HANDLE_CTX(handle), hpriv->fd);
usbi_handle_disconnect(handle);
continue;
}
r = reap_for_handle(handle);
if (r == 1 || r == LIBUSB_ERROR_NO_DEVICE)
continue;
else if (r < 0)
goto out;
}
r = 0;
out:
pthread_mutex_unlock(&ctx->open_devs_lock);
return r;
}
static int op_clock_gettime(int clk_id, struct timespec *tp)
{
switch (clk_id) {
case USBI_CLOCK_MONOTONIC:
return clock_gettime(CLOCK_MONOTONIC, tp);
case USBI_CLOCK_REALTIME:
return clock_gettime(CLOCK_REALTIME, tp);
default:
return LIBUSB_ERROR_INVALID_PARAM;
}
}
const struct usbi_os_backend linux_usbfs_backend = {
.name = "Linux usbfs",
.init = op_init,
.exit = NULL,
.get_device_list = op_get_device_list,
.get_device_descriptor = op_get_device_descriptor,
.get_active_config_descriptor = op_get_active_config_descriptor,
.get_config_descriptor = op_get_config_descriptor,
.open = op_open,
.close = op_close,
.get_configuration = op_get_configuration,
.set_configuration = op_set_configuration,
.claim_interface = op_claim_interface,
.release_interface = op_release_interface,
.set_interface_altsetting = op_set_interface,
.clear_halt = op_clear_halt,
.reset_device = op_reset_device,
.kernel_driver_active = op_kernel_driver_active,
.detach_kernel_driver = op_detach_kernel_driver,
.attach_kernel_driver = op_attach_kernel_driver,
.destroy_device = op_destroy_device,
.submit_transfer = op_submit_transfer,
.cancel_transfer = op_cancel_transfer,
.clear_transfer_priv = op_clear_transfer_priv,
.handle_events = op_handle_events,
.clock_gettime = op_clock_gettime,
.device_priv_size = sizeof(struct linux_device_priv),
.device_handle_priv_size = sizeof(struct linux_device_handle_priv),
.transfer_priv_size = sizeof(struct linux_transfer_priv),
.add_iso_packet_size = 0,
};
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