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libdc/src/irda.c
Jef Driesen a985b11859 Replace the filter parameters with an alternative 
The USB I/O backend needs some additional information (e.g. interface
number and in/out endpoints) to setup the USB connection. This info is
currently maintained inside the descriptor filter function and gets
passed to the USB backend by means of the filter parameters.

This approach is not only unnecessary complex, but also makes it very
difficult to expose the filter function in the public api because the
data structures for those parameters are private.

Therefore, this data exchange is replaced with a direct mapping between
the USB VID/PID and the configuration info in the USB backend itself.
2023-08-24 17:18:24 +02:00

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/*
* libdivecomputer
*
* Copyright (C) 2008 Jef Driesen
*
* 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
*/
#ifdef HAVE_CONFIG_H
#include "config.h"
#endif
#include <stdlib.h> // malloc, free
#include <string.h>
#include "socket.h"
#ifdef _WIN32
#ifdef HAVE_AF_IRDA_H
#define IRDA
#include <af_irda.h>
#endif
#else
#ifdef HAVE_LINUX_IRDA_H
#define IRDA
#include <linux/types.h>
#include <linux/irda.h>
#endif
#endif
#include <libdivecomputer/irda.h>
#include "common-private.h"
#include "context-private.h"
#include "iostream-private.h"
#include "iterator-private.h"
#include "descriptor-private.h"
#include "array.h"
#include "platform.h"
#define ISINSTANCE(device) dc_iostream_isinstance((device), &dc_irda_vtable)
#define DISCOVER_MAX_DEVICES 16 // Maximum number of devices.
#define DISCOVER_MAX_RETRIES 4 // Maximum number of retries.
#ifdef _WIN32
#define DISCOVER_BUFSIZE sizeof (DEVICELIST) + \
sizeof (IRDA_DEVICE_INFO) * (DISCOVER_MAX_DEVICES - 1)
#else
#define DISCOVER_BUFSIZE sizeof (struct irda_device_list) + \
sizeof (struct irda_device_info) * (DISCOVER_MAX_DEVICES - 1)
#endif
struct dc_irda_device_t {
unsigned int address;
unsigned int charset;
unsigned int hints;
char name[22];
};
#ifdef IRDA
static dc_status_t dc_irda_iterator_next (dc_iterator_t *iterator, void *item);
typedef struct dc_irda_iterator_t {
dc_iterator_t base;
dc_irda_device_t items[DISCOVER_MAX_DEVICES];
size_t count;
size_t current;
} dc_irda_iterator_t;
static const dc_iterator_vtable_t dc_irda_iterator_vtable = {
sizeof(dc_irda_iterator_t),
dc_irda_iterator_next,
NULL,
};
static const dc_iostream_vtable_t dc_irda_vtable = {
sizeof(dc_socket_t),
dc_socket_set_timeout, /* set_timeout */
NULL, /* set_break */
NULL, /* set_dtr */
NULL, /* set_rts */
NULL, /* get_lines */
dc_socket_get_available, /* get_available */
NULL, /* configure */
dc_socket_poll, /* poll */
dc_socket_read, /* read */
dc_socket_write, /* write */
dc_socket_ioctl, /* ioctl */
NULL, /* flush */
NULL, /* purge */
dc_socket_sleep, /* sleep */
dc_socket_close, /* close */
};
#endif
unsigned int
dc_irda_device_get_address (dc_irda_device_t *device)
{
if (device == NULL)
return 0;
return device->address;
}
const char *
dc_irda_device_get_name (dc_irda_device_t *device)
{
if (device == NULL || device->name[0] == '\0')
return NULL;
return device->name;
}
void
dc_irda_device_free (dc_irda_device_t *device)
{
free (device);
}
dc_status_t
dc_irda_iterator_new (dc_iterator_t **out, dc_context_t *context, dc_descriptor_t *descriptor)
{
#ifdef IRDA
dc_status_t status = DC_STATUS_SUCCESS;
dc_irda_iterator_t *iterator = NULL;
if (out == NULL)
return DC_STATUS_INVALIDARGS;
iterator = (dc_irda_iterator_t *) dc_iterator_allocate (context, &dc_irda_iterator_vtable);
if (iterator == NULL) {
SYSERROR (context, S_ENOMEM);
return DC_STATUS_NOMEMORY;
}
// Initialize the socket library.
status = dc_socket_init (context);
if (status != DC_STATUS_SUCCESS) {
goto error_free;
}
// Open the socket.
s_socket_t fd = socket (AF_IRDA, SOCK_STREAM, 0);
if (fd == S_INVALID) {
s_errcode_t errcode = S_ERRNO;
SYSERROR (context, errcode);
status = dc_socket_syserror(errcode);
goto error_socket_exit;
}
unsigned char data[DISCOVER_BUFSIZE] = {0};
#ifdef _WIN32
DEVICELIST *list = (DEVICELIST *) data;
#else
struct irda_device_list *list = (struct irda_device_list *) data;
#endif
s_socklen_t size = sizeof (data);
int rc = 0;
unsigned int nretries = 0;
while ((rc = getsockopt (fd, SOL_IRLMP, IRLMP_ENUMDEVICES, (char *) data, &size)) != 0 ||
#ifdef _WIN32
list->numDevice == 0)
#else
list->len == 0)
#endif
{
// Automatically retry the discovery when no devices were found.
// On Linux, getsockopt fails with EAGAIN when no devices are
// discovered, while on Windows it succeeds and sets the number
// of devices to zero. Both situations are handled the same here.
if (rc != 0) {
s_errcode_t errcode = S_ERRNO;
if (errcode != S_EAGAIN) {
SYSERROR (context, errcode);
status = dc_socket_syserror(errcode);
goto error_socket_close;
}
}
// Abort if the maximum number of retries is reached.
if (nretries++ >= DISCOVER_MAX_RETRIES) {
break;
}
// Restore the size parameter in case it was
// modified by the previous getsockopt call.
size = sizeof (data);
dc_platform_sleep (1000);
}
S_CLOSE (fd);
dc_socket_exit (context);
unsigned int count = 0;
#ifdef _WIN32
for (size_t i = 0; i < list->numDevice; ++i) {
const char *name = list->Device[i].irdaDeviceName;
unsigned int address = array_uint32_le (list->Device[i].irdaDeviceID);
unsigned int charset = list->Device[i].irdaCharSet;
unsigned int hints = (list->Device[i].irdaDeviceHints1 << 8) +
list->Device[i].irdaDeviceHints2;
#else
for (size_t i = 0; i < list->len; ++i) {
const char *name = list->dev[i].info;
unsigned int address = list->dev[i].daddr;
unsigned int charset = list->dev[i].charset;
unsigned int hints = array_uint16_be (list->dev[i].hints);
#endif
INFO (context, "Discover: address=%08x, name=%s, charset=%02x, hints=%04x",
address, name, charset, hints);
if (!dc_descriptor_filter (descriptor, DC_TRANSPORT_IRDA, name)) {
continue;
}
strncpy(iterator->items[count].name, name, sizeof(iterator->items[count].name) - 1);
iterator->items[count].name[sizeof(iterator->items[count].name) - 1] = '\0';
iterator->items[count].address = address;
iterator->items[count].charset = charset;
iterator->items[count].hints = hints;
count++;
}
iterator->current = 0;
iterator->count = count;
*out = (dc_iterator_t *) iterator;
return DC_STATUS_SUCCESS;
error_socket_close:
S_CLOSE (fd);
error_socket_exit:
dc_socket_exit (context);
error_free:
dc_iterator_deallocate ((dc_iterator_t *) iterator);
return status;
#else
return DC_STATUS_UNSUPPORTED;
#endif
}
#ifdef IRDA
static dc_status_t
dc_irda_iterator_next (dc_iterator_t *abstract, void *out)
{
dc_irda_iterator_t *iterator = (dc_irda_iterator_t *) abstract;
dc_irda_device_t *device = NULL;
if (iterator->current >= iterator->count)
return DC_STATUS_DONE;
device = (dc_irda_device_t *) malloc (sizeof(dc_irda_device_t));
if (device == NULL) {
SYSERROR (abstract->context, S_ENOMEM);
return DC_STATUS_NOMEMORY;
}
*device = iterator->items[iterator->current++];
*(dc_irda_device_t **) out = device;
return DC_STATUS_SUCCESS;
}
#endif
dc_status_t
dc_irda_open (dc_iostream_t **out, dc_context_t *context, unsigned int address, unsigned int lsap)
{
#ifdef IRDA
dc_status_t status = DC_STATUS_SUCCESS;
dc_socket_t *device = NULL;
if (out == NULL)
return DC_STATUS_INVALIDARGS;
INFO (context, "Open: address=%08x, lsap=%u", address, lsap);
// Allocate memory.
device = (dc_socket_t *) dc_iostream_allocate (context, &dc_irda_vtable, DC_TRANSPORT_IRDA);
if (device == NULL) {
SYSERROR (context, S_ENOMEM);
return DC_STATUS_NOMEMORY;
}
// Open the socket.
status = dc_socket_open (&device->base, AF_IRDA, SOCK_STREAM, 0);
if (status != DC_STATUS_SUCCESS) {
goto error_free;
}
#ifdef _WIN32
SOCKADDR_IRDA peer;
peer.irdaAddressFamily = AF_IRDA;
peer.irdaDeviceID[0] = (address ) & 0xFF;
peer.irdaDeviceID[1] = (address >> 8) & 0xFF;
peer.irdaDeviceID[2] = (address >> 16) & 0xFF;
peer.irdaDeviceID[3] = (address >> 24) & 0xFF;
dc_platform_snprintf (peer.irdaServiceName, sizeof(peer.irdaServiceName), "LSAP-SEL%u", lsap);
#else
struct sockaddr_irda peer;
peer.sir_family = AF_IRDA;
peer.sir_addr = address;
peer.sir_lsap_sel = lsap;
memset (peer.sir_name, 0x00, sizeof(peer.sir_name));
#endif
status = dc_socket_connect (&device->base, (struct sockaddr *) &peer, sizeof (peer));
if (status != DC_STATUS_SUCCESS) {
goto error_close;
}
*out = (dc_iostream_t *) device;
return DC_STATUS_SUCCESS;
error_close:
dc_socket_close (&device->base);
error_free:
dc_iostream_deallocate ((dc_iostream_t *) device);
return status;
#else
return DC_STATUS_UNSUPPORTED;
#endif
}
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