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gfiber / vendor / opensource / bluez / 4bea860211a1c441ed68b0e9dbbc95757f8040e0 / . / profiles / cyclingspeed / cyclingspeed.c
blob: e44772560fbfd028b7ed94b3c46d272ff1613bb4 [file] [log] [blame]
/*
*
* BlueZ - Bluetooth protocol stack for Linux
*
* Copyright (C) 2012 Tieto Poland
*
* 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., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
*
*/
#ifdef HAVE_CONFIG_H
#include <config.h>
#endif
#include <errno.h>
#include <stdbool.h>
#include <glib.h>
#include "lib/bluetooth.h"
#include "lib/sdp.h"
#include "lib/uuid.h"
#include "gdbus/gdbus.h"
#include "src/plugin.h"
#include "src/adapter.h"
#include "src/device.h"
#include "src/profile.h"
#include "src/service.h"
#include "src/dbus-common.h"
#include "src/shared/util.h"
#include "src/error.h"
#include "attrib/gattrib.h"
#include "attrib/att.h"
#include "attrib/gatt.h"
#include "src/attio.h"
#include "src/log.h"
/* min length for ATT indication or notification: opcode (1b) + handle (2b) */
#define ATT_HDR_LEN 3
#define ATT_TIMEOUT 30
#define CYCLINGSPEED_INTERFACE "org.bluez.CyclingSpeed1"
#define CYCLINGSPEED_MANAGER_INTERFACE "org.bluez.CyclingSpeedManager1"
#define CYCLINGSPEED_WATCHER_INTERFACE "org.bluez.CyclingSpeedWatcher1"
#define WHEEL_REV_SUPPORT 0x01
#define CRANK_REV_SUPPORT 0x02
#define MULTI_SENSOR_LOC_SUPPORT 0x04
#define WHEEL_REV_PRESENT 0x01
#define CRANK_REV_PRESENT 0x02
#define SET_CUMULATIVE_VALUE 0x01
#define START_SENSOR_CALIBRATION 0x02
#define UPDATE_SENSOR_LOC 0x03
#define REQUEST_SUPPORTED_SENSOR_LOC 0x04
#define RESPONSE_CODE 0x10
#define RSP_SUCCESS 0x01
#define RSP_NOT_SUPPORTED 0x02
#define RSP_INVALID_PARAM 0x03
#define RSP_FAILED 0x04
struct csc;
struct controlpoint_req {
struct csc *csc;
uint8_t opcode;
guint timeout;
GDBusPendingReply reply_id;
DBusMessage *msg;
uint8_t pending_location;
};
struct csc_adapter {
struct btd_adapter *adapter;
GSList *devices; /* list of registered devices */
GSList *watchers;
};
struct csc {
struct btd_device *dev;
struct csc_adapter *cadapter;
GAttrib *attrib;
guint attioid;
/* attio id for measurement characteristics value notifications */
guint attio_measurement_id;
/* attio id for SC Control Point characteristics value indications */
guint attio_controlpoint_id;
struct att_range *svc_range;
uint16_t measurement_ccc_handle;
uint16_t controlpoint_val_handle;
uint16_t feature;
gboolean has_location;
uint8_t location;
uint8_t num_locations;
uint8_t *locations;
struct controlpoint_req *pending_req;
};
struct watcher {
struct csc_adapter *cadapter;
guint id;
char *srv;
char *path;
};
struct measurement {
struct csc *csc;
bool has_wheel_rev;
uint32_t wheel_rev;
uint16_t last_wheel_time;
bool has_crank_rev;
uint16_t crank_rev;
uint16_t last_crank_time;
};
struct characteristic {
struct csc *csc;
char uuid[MAX_LEN_UUID_STR + 1];
};
static GSList *csc_adapters = NULL;
static const char * const location_enum[] = {
"other", "top-of-shoe", "in-shoe", "hip", "front-wheel", "left-crank",
"right-crank", "left-pedal", "right-pedal", "front-hub",
"rear-dropout", "chainstay", "rear-wheel", "rear-hub"
};
static const char *location2str(uint8_t value)
{
if (value < G_N_ELEMENTS(location_enum))
return location_enum[value];
info("Body Sensor Location [%d] is RFU", value);
return location_enum[0];
}
static int str2location(const char *location)
{
size_t i;
for (i = 0; i < G_N_ELEMENTS(location_enum); i++)
if (!strcmp(location_enum[i], location))
return i;
return -1;
}
static int cmp_adapter(gconstpointer a, gconstpointer b)
{
const struct csc_adapter *cadapter = a;
const struct btd_adapter *adapter = b;
if (adapter == cadapter->adapter)
return 0;
return -1;
}
static int cmp_device(gconstpointer a, gconstpointer b)
{
const struct csc *csc = a;
const struct btd_device *dev = b;
if (dev == csc->dev)
return 0;
return -1;
}
static int cmp_watcher(gconstpointer a, gconstpointer b)
{
const struct watcher *watcher = a;
const struct watcher *match = b;
int ret;
ret = g_strcmp0(watcher->srv, match->srv);
if (ret != 0)
return ret;
return g_strcmp0(watcher->path, match->path);
}
static struct csc_adapter *find_csc_adapter(struct btd_adapter *adapter)
{
GSList *l = g_slist_find_custom(csc_adapters, adapter, cmp_adapter);
if (!l)
return NULL;
return l->data;
}
static void destroy_watcher(gpointer user_data)
{
struct watcher *watcher = user_data;
g_free(watcher->path);
g_free(watcher->srv);
g_free(watcher);
}
static struct watcher *find_watcher(GSList *list, const char *sender,
const char *path)
{
struct watcher *match;
GSList *l;
match = g_new0(struct watcher, 1);
match->srv = g_strdup(sender);
match->path = g_strdup(path);
l = g_slist_find_custom(list, match, cmp_watcher);
destroy_watcher(match);
if (l != NULL)
return l->data;
return NULL;
}
static void remove_watcher(gpointer user_data)
{
struct watcher *watcher = user_data;
g_dbus_remove_watch(btd_get_dbus_connection(), watcher->id);
}
static void destroy_csc_adapter(gpointer user_data)
{
struct csc_adapter *cadapter = user_data;
g_slist_free_full(cadapter->watchers, remove_watcher);
g_free(cadapter);
}
static void destroy_csc(gpointer user_data)
{
struct csc *csc = user_data;
if (csc->attioid > 0)
btd_device_remove_attio_callback(csc->dev, csc->attioid);
if (csc->attrib != NULL) {
g_attrib_unregister(csc->attrib, csc->attio_measurement_id);
g_attrib_unregister(csc->attrib, csc->attio_controlpoint_id);
g_attrib_unref(csc->attrib);
}
btd_device_unref(csc->dev);
g_free(csc->svc_range);
g_free(csc->locations);
g_free(csc);
}
static void char_write_cb(guint8 status, const guint8 *pdu, guint16 len,
gpointer user_data)
{
char *msg = user_data;
if (status != 0)
error("%s failed", msg);
g_free(msg);
}
static gboolean controlpoint_timeout(gpointer user_data)
{
struct controlpoint_req *req = user_data;
if (req->opcode == UPDATE_SENSOR_LOC) {
g_dbus_pending_property_error(req->reply_id,
ERROR_INTERFACE ".Failed",
"Operation failed (timeout)");
} else if (req->opcode == SET_CUMULATIVE_VALUE) {
DBusMessage *reply;
reply = btd_error_failed(req->msg,
"Operation failed (timeout)");
g_dbus_send_message(btd_get_dbus_connection(), reply);
dbus_message_unref(req->msg);
}
req->csc->pending_req = NULL;
g_free(req);
return FALSE;
}
static void controlpoint_write_cb(guint8 status, const guint8 *pdu, guint16 len,
gpointer user_data)
{
struct controlpoint_req *req = user_data;
if (status == 0) {
req->timeout = g_timeout_add_seconds(ATT_TIMEOUT,
controlpoint_timeout,
req);
return;
}
error("SC Control Point write failed (opcode=%d)", req->opcode);
if (req->opcode == UPDATE_SENSOR_LOC) {
g_dbus_pending_property_error(req->reply_id,
ERROR_INTERFACE ".Failed",
"Operation failed (%d)", status);
} else if (req->opcode == SET_CUMULATIVE_VALUE) {
DBusMessage *reply;
reply = btd_error_failed(req->msg, "Operation failed");
g_dbus_send_message(btd_get_dbus_connection(), reply);
dbus_message_unref(req->msg);
}
req->csc->pending_req = NULL;
g_free(req);
}
static void read_supported_locations(struct csc *csc)
{
struct controlpoint_req *req;
req = g_new0(struct controlpoint_req, 1);
req->csc = csc;
req->opcode = REQUEST_SUPPORTED_SENSOR_LOC;
csc->pending_req = req;
gatt_write_char(csc->attrib, csc->controlpoint_val_handle,
&req->opcode, sizeof(req->opcode),
controlpoint_write_cb, req);
}
static void read_feature_cb(guint8 status, const guint8 *pdu, guint16 len,
gpointer user_data)
{
struct csc *csc = user_data;
uint8_t value[2];
ssize_t vlen;
if (status) {
error("CSC Feature read failed: %s", att_ecode2str(status));
return;
}
vlen = dec_read_resp(pdu, len, value, sizeof(value));
if (vlen < 0) {
error("Protocol error");
return;
}
if (vlen != sizeof(value)) {
error("Invalid value length for CSC Feature");
return;
}
csc->feature = get_le16(value);
if ((csc->feature & MULTI_SENSOR_LOC_SUPPORT)
&& (csc->locations == NULL))
read_supported_locations(csc);
}
static void read_location_cb(guint8 status, const guint8 *pdu,
guint16 len, gpointer user_data)
{
struct csc *csc = user_data;
uint8_t value;
ssize_t vlen;
if (status) {
error("Sensor Location read failed: %s", att_ecode2str(status));
return;
}
vlen = dec_read_resp(pdu, len, &value, sizeof(value));
if (vlen < 0) {
error("Protocol error");
return;
}
if (vlen != sizeof(value)) {
error("Invalid value length for Sensor Location");
return;
}
csc->has_location = TRUE;
csc->location = value;
g_dbus_emit_property_changed(btd_get_dbus_connection(),
device_get_path(csc->dev),
CYCLINGSPEED_INTERFACE, "Location");
}
static void discover_desc_cb(guint8 status, GSList *descs, gpointer user_data)
{
struct characteristic *ch = user_data;
struct gatt_desc *desc;
uint8_t attr_val[2];
char *msg = NULL;
if (status != 0) {
error("Discover %s descriptors failed: %s", ch->uuid,
att_ecode2str(status));
goto done;
}
/* There will be only one descriptor on list and it will be CCC */
desc = descs->data;
if (g_strcmp0(ch->uuid, CSC_MEASUREMENT_UUID) == 0) {
ch->csc->measurement_ccc_handle = desc->handle;
if (g_slist_length(ch->csc->cadapter->watchers) == 0) {
put_le16(0x0000, attr_val);
msg = g_strdup("Disable measurement");
} else {
put_le16(GATT_CLIENT_CHARAC_CFG_NOTIF_BIT,
attr_val);
msg = g_strdup("Enable measurement");
}
} else if (g_strcmp0(ch->uuid, SC_CONTROL_POINT_UUID) == 0) {
put_le16(GATT_CLIENT_CHARAC_CFG_IND_BIT, attr_val);
msg = g_strdup("Enable SC Control Point indications");
} else {
goto done;
}
gatt_write_char(ch->csc->attrib, desc->handle, attr_val,
sizeof(attr_val), char_write_cb, msg);
done:
g_free(ch);
}
static void discover_desc(struct csc *csc, struct gatt_char *c,
struct gatt_char *c_next)
{
struct characteristic *ch;
uint16_t start, end;
bt_uuid_t uuid;
start = c->value_handle + 1;
if (c_next != NULL) {
if (start == c_next->handle)
return;
end = c_next->handle - 1;
} else if (c->value_handle != csc->svc_range->end) {
end = csc->svc_range->end;
} else {
return;
}
ch = g_new0(struct characteristic, 1);
ch->csc = csc;
memcpy(ch->uuid, c->uuid, sizeof(c->uuid));
bt_uuid16_create(&uuid, GATT_CLIENT_CHARAC_CFG_UUID);
gatt_discover_desc(csc->attrib, start, end, &uuid, discover_desc_cb,
ch);
}
static void update_watcher(gpointer data, gpointer user_data)
{
struct watcher *w = data;
struct measurement *m = user_data;
struct csc *csc = m->csc;
const char *path = device_get_path(csc->dev);
DBusMessageIter iter;
DBusMessageIter dict;
DBusMessage *msg;
msg = dbus_message_new_method_call(w->srv, w->path,
CYCLINGSPEED_WATCHER_INTERFACE, "MeasurementReceived");
if (msg == NULL)
return;
dbus_message_iter_init_append(msg, &iter);
dbus_message_iter_append_basic(&iter, DBUS_TYPE_OBJECT_PATH , &path);
dbus_message_iter_open_container(&iter, DBUS_TYPE_ARRAY,
DBUS_DICT_ENTRY_BEGIN_CHAR_AS_STRING
DBUS_TYPE_STRING_AS_STRING DBUS_TYPE_VARIANT_AS_STRING
DBUS_DICT_ENTRY_END_CHAR_AS_STRING, &dict);
if (m->has_wheel_rev) {
dict_append_entry(&dict, "WheelRevolutions",
DBUS_TYPE_UINT32, &m->wheel_rev);
dict_append_entry(&dict, "LastWheelEventTime",
DBUS_TYPE_UINT16, &m->last_wheel_time);
}
if (m->has_crank_rev) {
dict_append_entry(&dict, "CrankRevolutions",
DBUS_TYPE_UINT16, &m->crank_rev);
dict_append_entry(&dict, "LastCrankEventTime",
DBUS_TYPE_UINT16, &m->last_crank_time);
}
dbus_message_iter_close_container(&iter, &dict);
dbus_message_set_no_reply(msg, TRUE);
g_dbus_send_message(btd_get_dbus_connection(), msg);
}
static void process_measurement(struct csc *csc, const uint8_t *pdu,
uint16_t len)
{
struct measurement m;
uint8_t flags;
flags = *pdu;
pdu++;
len--;
memset(&m, 0, sizeof(m));
if ((flags & WHEEL_REV_PRESENT) && (csc->feature & WHEEL_REV_SUPPORT)) {
if (len < 6) {
error("Wheel revolutions data fields missing");
return;
}
m.has_wheel_rev = true;
m.wheel_rev = get_le32(pdu);
m.last_wheel_time = get_le16(pdu + 4);
pdu += 6;
len -= 6;
}
if ((flags & CRANK_REV_PRESENT) && (csc->feature & CRANK_REV_SUPPORT)) {
if (len < 4) {
error("Crank revolutions data fields missing");
return;
}
m.has_crank_rev = true;
m.crank_rev = get_le16(pdu);
m.last_crank_time = get_le16(pdu + 2);
pdu += 4;
len -= 4;
}
/* Notify all registered watchers */
m.csc = csc;
g_slist_foreach(csc->cadapter->watchers, update_watcher, &m);
}
static void measurement_notify_handler(const uint8_t *pdu, uint16_t len,
gpointer user_data)
{
struct csc *csc = user_data;
/* should be at least opcode (1b) + handle (2b) */
if (len < 3) {
error("Invalid PDU received");
return;
}
process_measurement(csc, pdu + 3, len - 3);
}
static void controlpoint_property_reply(struct controlpoint_req *req,
uint8_t code)
{
switch (code) {
case RSP_SUCCESS:
g_dbus_pending_property_success(req->reply_id);
break;
case RSP_NOT_SUPPORTED:
g_dbus_pending_property_error(req->reply_id,
ERROR_INTERFACE ".NotSupported",
"Feature is not supported");
break;
case RSP_INVALID_PARAM:
g_dbus_pending_property_error(req->reply_id,
ERROR_INTERFACE ".InvalidArguments",
"Invalid arguments in method call");
break;
case RSP_FAILED:
g_dbus_pending_property_error(req->reply_id,
ERROR_INTERFACE ".Failed",
"Operation failed");
break;
default:
g_dbus_pending_property_error(req->reply_id,
ERROR_INTERFACE ".Failed",
"Operation failed (%d)", code);
break;
}
}
static void controlpoint_method_reply(struct controlpoint_req *req,
uint8_t code)
{
DBusMessage *reply;
switch (code) {
case RSP_SUCCESS:
reply = dbus_message_new_method_return(req->msg);
break;
case RSP_NOT_SUPPORTED:
reply = btd_error_not_supported(req->msg);
break;
case RSP_INVALID_PARAM:
reply = btd_error_invalid_args(req->msg);
break;
case RSP_FAILED:
reply = btd_error_failed(req->msg, "Failed");
break;
default:
reply = btd_error_failed(req->msg, "Unknown error");
break;
}
g_dbus_send_message(btd_get_dbus_connection(), reply);
dbus_message_unref(req->msg);
}
static void controlpoint_ind_handler(const uint8_t *pdu, uint16_t len,
gpointer user_data)
{
struct csc *csc = user_data;
struct controlpoint_req *req = csc->pending_req;
uint8_t opcode;
uint8_t req_opcode;
uint8_t rsp_code;
uint8_t *opdu;
uint16_t olen;
size_t plen;
if (len < ATT_HDR_LEN) {
error("Invalid PDU received");
return;
}
/* skip ATT header */
pdu += ATT_HDR_LEN;
len -= ATT_HDR_LEN;
if (len < 1) {
error("Op Code missing");
goto done;
}
opcode = *pdu;
pdu++;
len--;
if (opcode != RESPONSE_CODE) {
DBG("Unsupported Op Code received (%d)", opcode);
goto done;
}
if (len < 2) {
error("Invalid Response Code PDU received");
goto done;
}
req_opcode = *pdu;
rsp_code = *(pdu + 1);
pdu += 2;
len -= 2;
if (req == NULL || req->opcode != req_opcode) {
DBG("Indication received without pending request");
goto done;
}
switch (req->opcode) {
case SET_CUMULATIVE_VALUE:
controlpoint_method_reply(req, rsp_code);
break;
case REQUEST_SUPPORTED_SENSOR_LOC:
if (rsp_code == RSP_SUCCESS) {
csc->num_locations = len;
csc->locations = g_memdup(pdu, len);
} else {
error("Failed to read Supported Sendor Locations");
}
break;
case UPDATE_SENSOR_LOC:
csc->location = req->pending_location;
controlpoint_property_reply(req, rsp_code);
g_dbus_emit_property_changed(btd_get_dbus_connection(),
device_get_path(csc->dev),
CYCLINGSPEED_INTERFACE, "Location");
break;
}
csc->pending_req = NULL;
g_source_remove(req->timeout);
g_free(req);
done:
opdu = g_attrib_get_buffer(csc->attrib, &plen);
olen = enc_confirmation(opdu, plen);
if (olen > 0)
g_attrib_send(csc->attrib, 0, opdu, olen, NULL, NULL, NULL);
}
static void discover_char_cb(uint8_t status, GSList *chars, void *user_data)
{
struct csc *csc = user_data;
uint16_t feature_val_handle = 0;
if (status) {
error("Discover CSCS characteristics: %s",
att_ecode2str(status));
return;
}
for (; chars; chars = chars->next) {
struct gatt_char *c = chars->data;
struct gatt_char *c_next =
(chars->next ? chars->next->data : NULL);
if (g_strcmp0(c->uuid, CSC_MEASUREMENT_UUID) == 0) {
csc->attio_measurement_id =
g_attrib_register(csc->attrib,
ATT_OP_HANDLE_NOTIFY, c->value_handle,
measurement_notify_handler, csc, NULL);
discover_desc(csc, c, c_next);
} else if (g_strcmp0(c->uuid, CSC_FEATURE_UUID) == 0) {
feature_val_handle = c->value_handle;
} else if (g_strcmp0(c->uuid, SENSOR_LOCATION_UUID) == 0) {
DBG("Sensor Location supported");
gatt_read_char(csc->attrib, c->value_handle,
read_location_cb, csc);
} else if (g_strcmp0(c->uuid, SC_CONTROL_POINT_UUID) == 0) {
DBG("SC Control Point supported");
csc->controlpoint_val_handle = c->value_handle;
csc->attio_controlpoint_id = g_attrib_register(
csc->attrib, ATT_OP_HANDLE_IND,
c->value_handle,
controlpoint_ind_handler, csc, NULL);
discover_desc(csc, c, c_next);
}
}
if (feature_val_handle > 0)
gatt_read_char(csc->attrib, feature_val_handle,
read_feature_cb, csc);
}
static void enable_measurement(gpointer data, gpointer user_data)
{
struct csc *csc = data;
uint16_t handle = csc->measurement_ccc_handle;
uint8_t value[2];
char *msg;
if (csc->attrib == NULL || !handle)
return;
put_le16(GATT_CLIENT_CHARAC_CFG_NOTIF_BIT, value);
msg = g_strdup("Enable measurement");
gatt_write_char(csc->attrib, handle, value, sizeof(value),
char_write_cb, msg);
}
static void disable_measurement(gpointer data, gpointer user_data)
{
struct csc *csc = data;
uint16_t handle = csc->measurement_ccc_handle;
uint8_t value[2];
char *msg;
if (csc->attrib == NULL || !handle)
return;
put_le16(0x0000, value);
msg = g_strdup("Disable measurement");
gatt_write_char(csc->attrib, handle, value, sizeof(value),
char_write_cb, msg);
}
static void attio_connected_cb(GAttrib *attrib, gpointer user_data)
{
struct csc *csc = user_data;
DBG("");
csc->attrib = g_attrib_ref(attrib);
gatt_discover_char(csc->attrib, csc->svc_range->start,
csc->svc_range->end, NULL,
discover_char_cb, csc);
}
static void attio_disconnected_cb(gpointer user_data)
{
struct csc *csc = user_data;
DBG("");
if (csc->attio_measurement_id > 0) {
g_attrib_unregister(csc->attrib, csc->attio_measurement_id);
csc->attio_measurement_id = 0;
}
if (csc->attio_controlpoint_id > 0) {
g_attrib_unregister(csc->attrib, csc->attio_controlpoint_id);
csc->attio_controlpoint_id = 0;
}
g_attrib_unref(csc->attrib);
csc->attrib = NULL;
}
static void watcher_exit_cb(DBusConnection *conn, void *user_data)
{
struct watcher *watcher = user_data;
struct csc_adapter *cadapter = watcher->cadapter;
DBG("cycling watcher [%s] disconnected", watcher->path);
cadapter->watchers = g_slist_remove(cadapter->watchers, watcher);
g_dbus_remove_watch(conn, watcher->id);
if (g_slist_length(cadapter->watchers) == 0)
g_slist_foreach(cadapter->devices, disable_measurement, 0);
}
static DBusMessage *register_watcher(DBusConnection *conn, DBusMessage *msg,
void *data)
{
struct csc_adapter *cadapter = data;
struct watcher *watcher;
const char *sender = dbus_message_get_sender(msg);
char *path;
if (!dbus_message_get_args(msg, NULL, DBUS_TYPE_OBJECT_PATH, &path,
DBUS_TYPE_INVALID))
return btd_error_invalid_args(msg);
watcher = find_watcher(cadapter->watchers, sender, path);
if (watcher != NULL)
return btd_error_already_exists(msg);
watcher = g_new0(struct watcher, 1);
watcher->cadapter = cadapter;
watcher->id = g_dbus_add_disconnect_watch(conn, sender, watcher_exit_cb,
watcher, destroy_watcher);
watcher->srv = g_strdup(sender);
watcher->path = g_strdup(path);
if (g_slist_length(cadapter->watchers) == 0)
g_slist_foreach(cadapter->devices, enable_measurement, 0);
cadapter->watchers = g_slist_prepend(cadapter->watchers, watcher);
DBG("cycling watcher [%s] registered", path);
return dbus_message_new_method_return(msg);
}
static DBusMessage *unregister_watcher(DBusConnection *conn, DBusMessage *msg,
void *data)
{
struct csc_adapter *cadapter = data;
struct watcher *watcher;
const char *sender = dbus_message_get_sender(msg);
char *path;
if (!dbus_message_get_args(msg, NULL, DBUS_TYPE_OBJECT_PATH, &path,
DBUS_TYPE_INVALID))
return btd_error_invalid_args(msg);
watcher = find_watcher(cadapter->watchers, sender, path);
if (watcher == NULL)
return btd_error_does_not_exist(msg);
cadapter->watchers = g_slist_remove(cadapter->watchers, watcher);
g_dbus_remove_watch(conn, watcher->id);
if (g_slist_length(cadapter->watchers) == 0)
g_slist_foreach(cadapter->devices, disable_measurement, 0);
DBG("cycling watcher [%s] unregistered", path);
return dbus_message_new_method_return(msg);
}
static const GDBusMethodTable cyclingspeed_manager_methods[] = {
{ GDBUS_METHOD("RegisterWatcher",
GDBUS_ARGS({ "agent", "o" }), NULL,
register_watcher) },
{ GDBUS_METHOD("UnregisterWatcher",
GDBUS_ARGS({ "agent", "o" }), NULL,
unregister_watcher) },
{ }
};
static int csc_adapter_probe(struct btd_profile *p, struct btd_adapter *adapter)
{
struct csc_adapter *cadapter;
cadapter = g_new0(struct csc_adapter, 1);
cadapter->adapter = adapter;
if (!g_dbus_register_interface(btd_get_dbus_connection(),
adapter_get_path(adapter),
CYCLINGSPEED_MANAGER_INTERFACE,
cyclingspeed_manager_methods,
NULL, NULL, cadapter,
destroy_csc_adapter)) {
error("D-Bus failed to register %s interface",
CYCLINGSPEED_MANAGER_INTERFACE);
destroy_csc_adapter(cadapter);
return -EIO;
}
csc_adapters = g_slist_prepend(csc_adapters, cadapter);
return 0;
}
static void csc_adapter_remove(struct btd_profile *p,
struct btd_adapter *adapter)
{
struct csc_adapter *cadapter;
cadapter = find_csc_adapter(adapter);
if (cadapter == NULL)
return;
csc_adapters = g_slist_remove(csc_adapters, cadapter);
g_dbus_unregister_interface(btd_get_dbus_connection(),
adapter_get_path(cadapter->adapter),
CYCLINGSPEED_MANAGER_INTERFACE);
}
static gboolean property_get_location(const GDBusPropertyTable *property,
DBusMessageIter *iter, void *data)
{
struct csc *csc = data;
const char *loc;
if (!csc->has_location)
return FALSE;
loc = location2str(csc->location);
dbus_message_iter_append_basic(iter, DBUS_TYPE_STRING, &loc);
return TRUE;
}
static void property_set_location(const GDBusPropertyTable *property,
DBusMessageIter *iter,
GDBusPendingPropertySet id, void *data)
{
struct csc *csc = data;
char *loc;
int loc_val;
uint8_t att_val[2];
struct controlpoint_req *req;
if (csc->pending_req != NULL) {
g_dbus_pending_property_error(id,
ERROR_INTERFACE ".InProgress",
"Operation already in progress");
return;
}
if (!(csc->feature & MULTI_SENSOR_LOC_SUPPORT)) {
g_dbus_pending_property_error(id,
ERROR_INTERFACE ".NotSupported",
"Feature is not supported");
return;
}
if (dbus_message_iter_get_arg_type(iter) != DBUS_TYPE_STRING) {
g_dbus_pending_property_error(id,
ERROR_INTERFACE ".InvalidArguments",
"Invalid arguments in method call");
return;
}
dbus_message_iter_get_basic(iter, &loc);
loc_val = str2location(loc);
if (loc_val < 0) {
g_dbus_pending_property_error(id,
ERROR_INTERFACE ".InvalidArguments",
"Invalid arguments in method call");
return;
}
req = g_new(struct controlpoint_req, 1);
req->csc = csc;
req->reply_id = id;
req->opcode = UPDATE_SENSOR_LOC;
req->pending_location = loc_val;
csc->pending_req = req;
att_val[0] = UPDATE_SENSOR_LOC;
att_val[1] = loc_val;
gatt_write_char(csc->attrib, csc->controlpoint_val_handle, att_val,
sizeof(att_val), controlpoint_write_cb, req);
}
static gboolean property_exists_location(const GDBusPropertyTable *property,
void *data)
{
struct csc *csc = data;
return csc->has_location;
}
static gboolean property_get_locations(const GDBusPropertyTable *property,
DBusMessageIter *iter, void *data)
{
struct csc *csc = data;
DBusMessageIter entry;
int i;
if (!(csc->feature & MULTI_SENSOR_LOC_SUPPORT))
return FALSE;
dbus_message_iter_open_container(iter, DBUS_TYPE_ARRAY,
DBUS_TYPE_STRING_AS_STRING, &entry);
for (i = 0; i < csc->num_locations; i++) {
char *loc = g_strdup(location2str(csc->locations[i]));
dbus_message_iter_append_basic(&entry, DBUS_TYPE_STRING, &loc);
g_free(loc);
}
dbus_message_iter_close_container(iter, &entry);
return TRUE;
}
static gboolean property_exists_locations(const GDBusPropertyTable *property,
void *data)
{
struct csc *csc = data;
return !!(csc->feature & MULTI_SENSOR_LOC_SUPPORT);
}
static gboolean property_get_wheel_rev_sup(const GDBusPropertyTable *property,
DBusMessageIter *iter, void *data)
{
struct csc *csc = data;
dbus_bool_t val;
val = !!(csc->feature & WHEEL_REV_SUPPORT);
dbus_message_iter_append_basic(iter, DBUS_TYPE_BOOLEAN, &val);
return TRUE;
}
static gboolean property_get_multi_loc_sup(const GDBusPropertyTable *property,
DBusMessageIter *iter, void *data)
{
struct csc *csc = data;
dbus_bool_t val;
val = !!(csc->feature & MULTI_SENSOR_LOC_SUPPORT);
dbus_message_iter_append_basic(iter, DBUS_TYPE_BOOLEAN, &val);
return TRUE;
}
static const GDBusPropertyTable cyclingspeed_device_properties[] = {
{ "Location", "s", property_get_location, property_set_location,
property_exists_location },
{ "SupportedLocations", "as", property_get_locations, NULL,
property_exists_locations },
{ "WheelRevolutionDataSupported", "b", property_get_wheel_rev_sup },
{ "MultipleLocationsSupported", "b", property_get_multi_loc_sup },
{ }
};
static DBusMessage *set_cumulative_wheel_rev(DBusConnection *conn,
DBusMessage *msg, void *data)
{
struct csc *csc = data;
dbus_uint32_t value;
struct controlpoint_req *req;
uint8_t att_val[5]; /* uint8 opcode + uint32 value */
if (!dbus_message_get_args(msg, NULL, DBUS_TYPE_UINT32, &value,
DBUS_TYPE_INVALID))
return btd_error_invalid_args(msg);
if (csc->pending_req != NULL)
return btd_error_in_progress(msg);
req = g_new(struct controlpoint_req, 1);
req->csc = csc;
req->opcode = SET_CUMULATIVE_VALUE;
req->msg = dbus_message_ref(msg);
csc->pending_req = req;
att_val[0] = SET_CUMULATIVE_VALUE;
put_le32(value, att_val + 1);
gatt_write_char(csc->attrib, csc->controlpoint_val_handle, att_val,
sizeof(att_val), controlpoint_write_cb, req);
return NULL;
}
static const GDBusMethodTable cyclingspeed_device_methods[] = {
{ GDBUS_ASYNC_METHOD("SetCumulativeWheelRevolutions",
GDBUS_ARGS({ "value", "u" }), NULL,
set_cumulative_wheel_rev) },
{ }
};
static int csc_device_probe(struct btd_service *service)
{
struct btd_device *device = btd_service_get_device(service);
struct btd_adapter *adapter;
struct csc_adapter *cadapter;
struct csc *csc;
struct gatt_primary *prim;
prim = btd_device_get_primary(device, CYCLING_SC_UUID);
if (prim == NULL)
return -EINVAL;
adapter = device_get_adapter(device);
cadapter = find_csc_adapter(adapter);
if (cadapter == NULL)
return -1;
csc = g_new0(struct csc, 1);
csc->dev = btd_device_ref(device);
csc->cadapter = cadapter;
if (!g_dbus_register_interface(btd_get_dbus_connection(),
device_get_path(device),
CYCLINGSPEED_INTERFACE,
cyclingspeed_device_methods,
NULL,
cyclingspeed_device_properties,
csc, destroy_csc)) {
error("D-Bus failed to register %s interface",
CYCLINGSPEED_INTERFACE);
destroy_csc(csc);
return -EIO;
}
csc->svc_range = g_new0(struct att_range, 1);
csc->svc_range->start = prim->range.start;
csc->svc_range->end = prim->range.end;
cadapter->devices = g_slist_prepend(cadapter->devices, csc);
csc->attioid = btd_device_add_attio_callback(device, attio_connected_cb,
attio_disconnected_cb, csc);
return 0;
}
static void csc_device_remove(struct btd_service *service)
{
struct btd_device *device = btd_service_get_device(service);
struct btd_adapter *adapter;
struct csc_adapter *cadapter;
struct csc *csc;
GSList *l;
adapter = device_get_adapter(device);
cadapter = find_csc_adapter(adapter);
if (cadapter == NULL)
return;
l = g_slist_find_custom(cadapter->devices, device, cmp_device);
if (l == NULL)
return;
csc = l->data;
cadapter->devices = g_slist_remove(cadapter->devices, csc);
g_dbus_unregister_interface(btd_get_dbus_connection(),
device_get_path(device),
CYCLINGSPEED_INTERFACE);
}
static struct btd_profile cscp_profile = {
.name = "Cycling Speed and Cadence GATT Driver",
.remote_uuid = CYCLING_SC_UUID,
.adapter_probe = csc_adapter_probe,
.adapter_remove = csc_adapter_remove,
.device_probe = csc_device_probe,
.device_remove = csc_device_remove,
};
static int cyclingspeed_init(void)
{
return btd_profile_register(&cscp_profile);
}
static void cyclingspeed_exit(void)
{
btd_profile_unregister(&cscp_profile);
}
BLUETOOTH_PLUGIN_DEFINE(cyclingspeed, VERSION,
BLUETOOTH_PLUGIN_PRIORITY_DEFAULT,
cyclingspeed_init, cyclingspeed_exit)