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nuttx/drivers/sensors/sensor_rpmsg.c
lilei19 38f64f559d change strcpy to strlcpy 
Signed-off-by: lilei19 <lilei19@xiaomi.com>
2023-02-24 12:15:40 +08:00

1395 lines
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/****************************************************************************
* drivers/sensors/sensor_rpmsg.c
*
* Licensed to the Apache Software Foundation (ASF) under one or more
* contributor license agreements. See the NOTICE file distributed with
* this work for additional information regarding copyright ownership. The
* ASF licenses this file to you under the Apache License, Version 2.0 (the
* "License"); you may not use this file except in compliance with the
* License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
* WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
* License for the specific language governing permissions and limitations
* under the License.
*
****************************************************************************/
/****************************************************************************
* Included Files
****************************************************************************/
#include <nuttx/config.h>
#include <fcntl.h>
#include <debug.h>
#include <nuttx/list.h>
#include <nuttx/kmalloc.h>
#include <nuttx/mutex.h>
#include <nuttx/sensors/sensor.h>
#include <nuttx/rptun/openamp.h>
/****************************************************************************
* Pre-processor Definitions
****************************************************************************/
#define SENSOR_RPMSG_EPT_NAME "rpmsg-sensor"
#define SENSOR_RPMSG_ADVERTISE 0
#define SENSOR_RPMSG_ADVERTISE_ACK 1
#define SENSOR_RPMSG_UNADVERTISE 2
#define SENSOR_RPMSG_SUBSCRIBE 3
#define SENSOR_RPMSG_SUBSCRIBE_ACK 4
#define SENSOR_RPMSG_UNSUBSCRIBE 5
#define SENSOR_RPMSG_PUBLISH 6
#define SENSOR_RPMSG_IOCTL 7
#define SENSOR_RPMSG_IOCTL_ACK 8
#define SENSOR_RPMSG_FUNCTION(name, cmd, arg1, arg2, size, wait) \
static int sensor_rpmsg_##name(FAR struct sensor_lowerhalf_s *lower, \
FAR struct file *filep, \
unsigned long arg1) \
{ \
FAR struct sensor_rpmsg_dev_s *dev = lower->priv; \
FAR struct sensor_lowerhalf_s *drv = dev->drv; \
int ret; \
\
if (drv->ops->name) \
{ \
return drv->ops->name(drv, filep, arg2); \
} \
else if (!(filep->f_oflags & SENSOR_REMOTE)) \
{ \
ret = sensor_rpmsg_ioctl(dev, cmd, arg1, size, wait); \
return wait ? ret : 0; \
} \
else \
{ \
return wait ? -ENOTSUP : 0; \
} \
} \
/****************************************************************************
* Private Types
****************************************************************************/
/* This structure describes the context of sensor rpmsg device driver. */
struct sensor_rpmsg_dev_s
{
struct sensor_lowerhalf_s lower;
FAR struct sensor_lowerhalf_s *drv;
struct list_node node;
struct list_node stublist;
struct list_node proxylist;
uint8_t nadvertisers;
uint8_t nsubscribers;
FAR void *upper;
sensor_push_event_t push_event;
char path[1];
};
/* This structure describes the context of sensor rpmsg endpoint. */
struct sensor_rpmsg_ept_s
{
struct list_node node;
struct rpmsg_endpoint ept;
FAR struct rpmsg_device *rdev;
struct work_s work;
rmutex_t lock;
FAR void *buffer;
uint64_t expire;
uint32_t space;
size_t written;
};
/* This structure describes the stub info about remote subscribers. */
struct sensor_rpmsg_stub_s
{
struct list_node node;
FAR struct rpmsg_endpoint *ept;
uint64_t cookie;
struct file file;
};
/* This structure describes the proxy info about remote advertisers. */
struct sensor_rpmsg_proxy_s
{
struct list_node node;
FAR struct rpmsg_endpoint *ept;
uint64_t cookie;
};
/* Remote message structure */
/* This structure describes the message about initiating a remote
* subscription and remote advertisement.
*/
struct sensor_rpmsg_advsub_s
{
uint32_t command;
uint32_t nbuffer;
uint64_t cookie;
uint32_t persist;
char path[1];
};
/* The structure sensor_rpmsg_cell_s describes a data message,
* include remote receiver, the length of data and the data payload.
* The structure sensor_rpmsg_data_s describes a set of data message.
*/
struct sensor_rpmsg_cell_s
{
uint64_t cookie;
uint32_t nbuffer;
uint32_t len;
char data[0];
};
struct sensor_rpmsg_data_s
{
uint32_t command;
uint32_t reserved;
struct sensor_rpmsg_cell_s cell[0];
};
/* This structure uses to send ioctl from remote device to physical device,
* it supports pass pointer to remove device by cookie_xx member.
*/
struct sensor_rpmsg_ioctl_cookie_s
{
sem_t sem;
FAR void *data;
int result;
};
struct sensor_rpmsg_ioctl_s
{
uint32_t command;
int32_t result;
uint64_t cookie;
uint64_t proxy;
int32_t request;
uint32_t arglen;
union
{
uint64_t arg;
char argbuf[0];
};
};
/****************************************************************************
* Private Function Prototypes
****************************************************************************/
static int sensor_rpmsg_open(FAR struct sensor_lowerhalf_s *lower,
FAR struct file *filep);
static int sensor_rpmsg_close(FAR struct sensor_lowerhalf_s *lower,
FAR struct file *filep);
static int sensor_rpmsg_activate(FAR struct sensor_lowerhalf_s *lower,
FAR struct file *filep,
bool enable);
static int sensor_rpmsg_set_interval(FAR struct sensor_lowerhalf_s *lower,
FAR struct file *filep,
FAR unsigned long *period_us);
static int sensor_rpmsg_batch(FAR struct sensor_lowerhalf_s *lower,
FAR struct file *filep,
FAR unsigned long *latency_us);
static int sensor_rpmsg_selftest(FAR struct sensor_lowerhalf_s *lower,
FAR struct file *filep,
unsigned long arg);
static int sensor_rpmsg_set_calibvalue(FAR struct sensor_lowerhalf_s *lower,
FAR struct file *filep,
unsigned long arg);
static int sensor_rpmsg_calibrate(FAR struct sensor_lowerhalf_s *lower,
FAR struct file *filep,
unsigned long arg);
static int sensor_rpmsg_control(FAR struct sensor_lowerhalf_s *lower,
FAR struct file *filep,
int cmd, unsigned long arg);
static int sensor_rpmsg_adv_handler(FAR struct rpmsg_endpoint *ept,
FAR void *data, size_t len,
uint32_t src, FAR void *priv);
static int sensor_rpmsg_advack_handler(FAR struct rpmsg_endpoint *ept,
FAR void *data, size_t len,
uint32_t src, FAR void *priv);
static int sensor_rpmsg_unadv_handler(FAR struct rpmsg_endpoint *ept,
FAR void *data, size_t len,
uint32_t src, FAR void *priv);
static int sensor_rpmsg_sub_handler(FAR struct rpmsg_endpoint *ept,
FAR void *data, size_t len,
uint32_t src, FAR void *priv);
static int sensor_rpmsg_suback_handler(FAR struct rpmsg_endpoint *ept,
FAR void *data, size_t len,
uint32_t src, FAR void *priv);
static int sensor_rpmsg_unsub_handler(FAR struct rpmsg_endpoint *ept,
FAR void *data, size_t len,
uint32_t src, FAR void *priv);
static int sensor_rpmsg_publish_handler(FAR struct rpmsg_endpoint *ept,
FAR void *data, size_t len,
uint32_t src, FAR void *priv);
static int sensor_rpmsg_ioctl_handler(FAR struct rpmsg_endpoint *ept,
FAR void *data, size_t len,
uint32_t src, FAR void *priv);
static int sensor_rpmsg_ioctlack_handler(FAR struct rpmsg_endpoint *ept,
FAR void *data, size_t len,
uint32_t src, FAR void *priv);
static void sensor_rpmsg_push_event_one(FAR struct sensor_rpmsg_dev_s *dev,
FAR struct sensor_rpmsg_stub_s *stub);
/****************************************************************************
* Private Data
****************************************************************************/
static const struct sensor_ops_s g_sensor_rpmsg_ops =
{
.open = sensor_rpmsg_open,
.close = sensor_rpmsg_close,
.activate = sensor_rpmsg_activate,
.set_interval = sensor_rpmsg_set_interval,
.batch = sensor_rpmsg_batch,
.selftest = sensor_rpmsg_selftest,
.set_calibvalue = sensor_rpmsg_set_calibvalue,
.calibrate = sensor_rpmsg_calibrate,
.control = sensor_rpmsg_control
};
static const rpmsg_ept_cb g_sensor_rpmsg_handler[] =
{
[SENSOR_RPMSG_ADVERTISE] = sensor_rpmsg_adv_handler,
[SENSOR_RPMSG_ADVERTISE_ACK] = sensor_rpmsg_advack_handler,
[SENSOR_RPMSG_UNADVERTISE] = sensor_rpmsg_unadv_handler,
[SENSOR_RPMSG_SUBSCRIBE] = sensor_rpmsg_sub_handler,
[SENSOR_RPMSG_SUBSCRIBE_ACK] = sensor_rpmsg_suback_handler,
[SENSOR_RPMSG_UNSUBSCRIBE] = sensor_rpmsg_unsub_handler,
[SENSOR_RPMSG_PUBLISH] = sensor_rpmsg_publish_handler,
[SENSOR_RPMSG_IOCTL] = sensor_rpmsg_ioctl_handler,
[SENSOR_RPMSG_IOCTL_ACK] = sensor_rpmsg_ioctlack_handler,
};
static struct list_node g_devlist = LIST_INITIAL_VALUE(g_devlist);
static struct list_node g_eptlist = LIST_INITIAL_VALUE(g_eptlist);
static rmutex_t g_ept_lock = NXRMUTEX_INITIALIZER;
static rmutex_t g_dev_lock = NXRMUTEX_INITIALIZER;
/****************************************************************************
* Private Functions
****************************************************************************/
static void sensor_rpmsg_lock(FAR struct sensor_rpmsg_dev_s *dev)
{
dev->lower.sensor_lock(dev->upper);
}
static void sensor_rpmsg_unlock(FAR struct sensor_rpmsg_dev_s *dev)
{
dev->lower.sensor_unlock(dev->upper);
}
static void sensor_rpmsg_advsub_one(FAR struct sensor_rpmsg_dev_s *dev,
FAR struct rpmsg_endpoint *ept,
int command)
{
FAR struct sensor_rpmsg_advsub_s *msg;
uint32_t space;
int len = strlen(dev->path) + 1;
int ret;
msg = rpmsg_get_tx_payload_buffer(ept, &space, true);
if (!msg)
{
snerr("ERROR: advsub:%d get buffer failed:%s, %s\n",
command, dev->path, rpmsg_get_cpuname(ept->rdev));
return;
}
msg->command = command;
msg->cookie = (uint64_t)(uintptr_t)dev;
msg->nbuffer = dev->lower.nbuffer;
msg->persist = dev->lower.persist;
memcpy(msg->path, dev->path, len);
ret = rpmsg_send_nocopy(ept, msg, sizeof(*msg) + len);
if (ret < 0)
{
snerr("ERROR: advsub:%d rpmsg send failed:%s, %d, %s\n",
command, dev->path, ret, rpmsg_get_cpuname(ept->rdev));
}
}
static void sensor_rpmsg_advsub(FAR struct sensor_rpmsg_dev_s *dev,
int command)
{
FAR struct sensor_rpmsg_ept_s *sre;
/* Broadcast advertise/subscribe message to all ready ept */
nxrmutex_lock(&g_ept_lock);
list_for_every_entry(&g_eptlist, sre, struct sensor_rpmsg_ept_s,
node)
{
sensor_rpmsg_advsub_one(dev, &sre->ept, command);
}
nxrmutex_unlock(&g_ept_lock);
}
static int sensor_rpmsg_ioctl(FAR struct sensor_rpmsg_dev_s *dev,
int cmd, unsigned long arg, size_t len,
bool wait)
{
struct sensor_rpmsg_ioctl_cookie_s cookie;
FAR struct sensor_rpmsg_proxy_s *proxy;
FAR struct sensor_rpmsg_ioctl_s *msg;
uint32_t space;
int ret = -ENOTTY;
if (wait)
{
cookie.data = (FAR void *)(uintptr_t)arg;
cookie.result = -ENXIO;
nxsem_init(&cookie.sem, 0, 0);
}
/* All control is always send to own proxy(remote advertisers),
* if device doesn't have proxy, it must return -ENOTTY.
*/
sensor_rpmsg_lock(dev);
list_for_every_entry(&dev->proxylist, proxy,
struct sensor_rpmsg_proxy_s, node)
{
msg = rpmsg_get_tx_payload_buffer(proxy->ept, &space, true);
if (!msg)
{
ret = -ENOMEM;
snerr("ERROR: ioctl get buffer failed:%s, %s\n",
dev->path, rpmsg_get_cpuname(proxy->ept->rdev));
break;
}
msg->command = SENSOR_RPMSG_IOCTL;
msg->cookie = wait ? (uint64_t)(uintptr_t)&cookie : 0;
msg->proxy = proxy->cookie;
msg->request = cmd;
msg->arglen = len;
if (len > 0)
{
memcpy(msg->argbuf, (FAR void *)(uintptr_t)arg, len);
}
else
{
msg->arg = arg;
}
ret = rpmsg_send_nocopy(proxy->ept, msg, sizeof(*msg) + len);
if (ret < 0)
{
snerr("ERROR: ioctl rpmsg send failed:%s, %d, %s\n",
dev->path, ret, rpmsg_get_cpuname(proxy->ept->rdev));
break;
}
if (!wait)
{
continue;
}
sensor_rpmsg_unlock(dev);
ret = rpmsg_wait(proxy->ept, &cookie.sem);
sensor_rpmsg_lock(dev);
if (ret < 0)
{
snerr("ERROR: ioctl rpmsg wait failed:%s, %d, %s\n",
dev->path, ret, rpmsg_get_cpuname(proxy->ept->rdev));
break;
}
ret = cookie.result;
if (ret < 0 && ret != -ENOTTY)
{
break;
}
}
sensor_rpmsg_unlock(dev);
if (wait)
{
nxsem_destroy(&cookie.sem);
}
return ret;
}
static FAR struct sensor_rpmsg_proxy_s *
sensor_rpmsg_alloc_proxy(FAR struct sensor_rpmsg_dev_s *dev,
FAR struct rpmsg_endpoint *ept,
FAR struct sensor_rpmsg_advsub_s *msg)
{
FAR struct sensor_rpmsg_proxy_s *proxy;
struct sensor_state_s state;
struct file file;
int ret;
sensor_rpmsg_lock(dev);
list_for_every_entry(&dev->proxylist, proxy,
struct sensor_rpmsg_proxy_s, node)
{
if (proxy->ept == ept && proxy->cookie == msg->cookie)
{
sensor_rpmsg_unlock(dev);
return proxy;
}
}
sensor_rpmsg_unlock(dev);
/* Create new proxy to represent a remote advertiser */
proxy = kmm_malloc(sizeof(*proxy));
if (!proxy)
{
return NULL;
}
proxy->ept = ept;
proxy->cookie = msg->cookie;
ret = file_open(&file, dev->path, SENSOR_REMOTE);
if (ret < 0)
{
kmm_free(proxy);
return NULL;
}
file_ioctl(&file, SNIOC_SET_BUFFER_NUMBER, msg->nbuffer);
file_ioctl(&file, SNIOC_GET_STATE, &state);
file_close(&file);
sensor_rpmsg_lock(dev);
if (msg->persist)
{
dev->drv->persist = true;
dev->lower.persist = true;
}
list_add_tail(&dev->proxylist, &proxy->node);
sensor_rpmsg_unlock(dev);
/* sync interval and latency */
if (state.min_interval != ULONG_MAX)
{
sensor_rpmsg_ioctl(dev, SNIOC_SET_INTERVAL, state.min_interval,
0, false);
}
if (state.min_latency != ULONG_MAX)
{
sensor_rpmsg_ioctl(dev, SNIOC_BATCH, state.min_latency, 0, false);
}
return proxy;
}
static FAR struct sensor_rpmsg_stub_s *
sensor_rpmsg_alloc_stub(FAR struct sensor_rpmsg_dev_s *dev,
FAR struct rpmsg_endpoint *ept,
uint64_t cookie)
{
FAR struct sensor_rpmsg_stub_s *stub;
int ret;
sensor_rpmsg_lock(dev);
list_for_every_entry(&dev->stublist, stub,
struct sensor_rpmsg_stub_s, node)
{
if (stub->ept == ept && stub->cookie == cookie)
{
sensor_rpmsg_unlock(dev);
return stub;
}
}
sensor_rpmsg_unlock(dev);
/* Create new stub to represent a remote subscribers */
stub = kmm_malloc(sizeof(*stub));
if (!stub)
{
return NULL;
}
stub->ept = ept;
stub->cookie = cookie;
ret = file_open(&stub->file, dev->path,
O_RDOK | O_NONBLOCK | SENSOR_REMOTE);
if (ret < 0)
{
kmm_free(stub);
return NULL;
}
sensor_rpmsg_lock(dev);
list_add_tail(&dev->stublist, &stub->node);
if (dev->lower.persist)
{
sensor_rpmsg_push_event_one(dev, stub);
}
sensor_rpmsg_unlock(dev);
return stub;
}
static void sensor_rpmsg_free_proxy(FAR struct sensor_rpmsg_proxy_s *proxy)
{
list_delete(&proxy->node);
kmm_free(proxy);
}
static void sensor_rpmsg_free_stub(FAR struct sensor_rpmsg_stub_s *stub)
{
list_delete(&stub->node);
file_close(&stub->file);
kmm_free(stub);
}
static int sensor_rpmsg_open(FAR struct sensor_lowerhalf_s *lower,
FAR struct file *filep)
{
FAR struct sensor_rpmsg_dev_s *dev = lower->priv;
FAR struct sensor_lowerhalf_s *drv = dev->drv;
int ret;
if (drv->ops->open)
{
ret = drv->ops->open(drv, filep);
if (ret < 0)
{
return ret;
}
}
if (filep->f_oflags & SENSOR_REMOTE)
{
return 0;
}
sensor_rpmsg_lock(dev);
if (filep->f_oflags & O_WROK)
{
if (dev->nadvertisers++ == 0)
{
sensor_rpmsg_advsub(dev, SENSOR_RPMSG_ADVERTISE);
}
}
if (filep->f_oflags & O_RDOK)
{
if (dev->nsubscribers++ == 0)
{
sensor_rpmsg_advsub(dev, SENSOR_RPMSG_SUBSCRIBE);
}
}
sensor_rpmsg_unlock(dev);
return 0;
}
static int sensor_rpmsg_close(FAR struct sensor_lowerhalf_s *lower,
FAR struct file *filep)
{
FAR struct sensor_rpmsg_dev_s *dev = lower->priv;
FAR struct sensor_lowerhalf_s *drv = dev->drv;
FAR struct sensor_rpmsg_proxy_s *proxy;
FAR struct sensor_rpmsg_proxy_s *ptmp;
FAR struct sensor_rpmsg_stub_s *stub;
FAR struct sensor_rpmsg_stub_s *stmp;
int ret = 0;
if (drv->ops->close)
{
ret = drv->ops->close(drv, filep);
}
if (filep->f_oflags & SENSOR_REMOTE)
{
return ret;
}
sensor_rpmsg_lock(dev);
if (filep->f_oflags & O_WROK)
{
if (dev->nadvertisers == 1)
{
sensor_rpmsg_advsub(dev, SENSOR_RPMSG_UNADVERTISE);
list_for_every_entry_safe(&dev->stublist, stub, stmp,
struct sensor_rpmsg_stub_s, node)
{
sensor_rpmsg_free_stub(stub);
}
}
dev->nadvertisers--;
}
if (filep->f_oflags & O_RDOK)
{
if (dev->nsubscribers == 1)
{
sensor_rpmsg_advsub(dev, SENSOR_RPMSG_UNSUBSCRIBE);
list_for_every_entry_safe(&dev->proxylist, proxy, ptmp,
struct sensor_rpmsg_proxy_s, node)
{
sensor_rpmsg_free_proxy(proxy);
}
}
dev->nsubscribers--;
}
sensor_rpmsg_unlock(dev);
return ret;
}
static int sensor_rpmsg_activate(FAR struct sensor_lowerhalf_s *lower,
FAR struct file *filep,
bool enable)
{
FAR struct sensor_rpmsg_dev_s *dev = lower->priv;
FAR struct sensor_lowerhalf_s *drv = dev->drv;
if (drv->ops->activate)
{
return drv->ops->activate(drv, filep, enable);
}
return 0;
}
SENSOR_RPMSG_FUNCTION(set_interval, SNIOC_SET_INTERVAL,
*interval, interval, 0, false)
SENSOR_RPMSG_FUNCTION(batch, SNIOC_BATCH, *latency, latency, 0, false)
SENSOR_RPMSG_FUNCTION(selftest, SNIOC_SELFTEST, arg, arg, 0, true)
SENSOR_RPMSG_FUNCTION(set_calibvalue, SNIOC_SET_CALIBVALUE,
arg, arg, 256, true)
SENSOR_RPMSG_FUNCTION(calibrate, SNIOC_CALIBRATE, arg, arg, 256, true)
static int sensor_rpmsg_control(FAR struct sensor_lowerhalf_s *lower,
FAR struct file *filep,
int cmd, unsigned long arg)
{
FAR struct sensor_rpmsg_dev_s *dev = lower->priv;
FAR struct sensor_lowerhalf_s *drv = dev->drv;
FAR struct sensor_ioctl_s *ioctl = (FAR void *)(uintptr_t)arg;
if (drv->ops->control)
{
return drv->ops->control(drv, filep, cmd, arg);
}
else if (!(filep->f_oflags & SENSOR_REMOTE) && _SNIOCVALID(cmd))
{
return sensor_rpmsg_ioctl(dev, cmd, arg,
sizeof(*ioctl) + ioctl->len, true);
}
return -ENOTTY;
}
static void sensor_rpmsg_data_worker(FAR void *arg)
{
FAR struct sensor_rpmsg_ept_s *sre = arg;
nxrmutex_lock(&sre->lock);
if (sre->buffer)
{
rpmsg_send_nocopy(&sre->ept, sre->buffer, sre->written);
sre->buffer = NULL;
}
nxrmutex_unlock(&sre->lock);
}
static void sensor_rpmsg_push_event_one(FAR struct sensor_rpmsg_dev_s *dev,
FAR struct sensor_rpmsg_stub_s *stub)
{
FAR struct sensor_rpmsg_cell_s *cell;
FAR struct sensor_rpmsg_ept_s *sre;
FAR struct sensor_rpmsg_data_s *msg;
struct sensor_ustate_s state;
uint64_t now;
bool updated;
int ret;
/* Get state of device to do send data with timeout */
ret = file_ioctl(&stub->file, SNIOC_GET_USTATE, &state);
if (ret < 0)
{
return;
}
if (state.interval == ULONG_MAX)
{
state.interval = 0;
}
sre = container_of(stub->ept, struct sensor_rpmsg_ept_s, ept);
nxrmutex_lock(&sre->lock);
/* Cancel work to fill new data to buffer */
if (sre->buffer)
{
work_cancel(HPWORK, &sre->work);
}
for (; ; )
{
ret = file_ioctl(&stub->file, SNIOC_UPDATED, &updated);
if (ret < 0 || !updated)
{
break;
}
/* If buffer isn't created or it doesn't have enough space to fill
* new data, you should create or send this buffer at once.
*/
if (!sre->buffer ||
sre->written + sizeof(*cell) + state.esize > sre->space)
{
if (sre->buffer)
{
rpmsg_send_nocopy(&sre->ept, sre->buffer, sre->written);
}
msg = rpmsg_get_tx_payload_buffer(&sre->ept, &sre->space, true);
sre->buffer = msg;
if (!msg)
{
snerr("ERROR: push event get buffer failed:%s\n",
rpmsg_get_cpuname(sre->ept.rdev));
nxrmutex_unlock(&sre->lock);
return;
}
msg->command = SENSOR_RPMSG_PUBLISH;
sre->written = sizeof(*msg);
sre->expire = UINT64_MAX;
}
cell = sre->buffer + sre->written;
ret = file_read(&stub->file, cell->data,
sre->space - sre->written - sizeof(*cell));
if (ret <= 0)
{
break;
}
cell->len = ret;
cell->cookie = stub->cookie;
cell->nbuffer = dev->lower.nbuffer;
sre->written += (sizeof(*cell) + ret + 0x7) & ~0x7;
}
/* If buffer timeout is expired, do rpmsg_send_nocopy, otherwise using
* delay work to send data.
*/
now = sensor_get_timestamp();
if (sre->expire <= now && sre->buffer)
{
ret = rpmsg_send_nocopy(&sre->ept, sre->buffer, sre->written);
sre->buffer = NULL;
if (ret < 0)
{
snerr("ERROR: push event rpmsg send failed:%d, %s\n",
ret, rpmsg_get_cpuname(sre->ept.rdev));
}
}
else
{
if (sre->expire == UINT64_MAX ||
sre->expire - now > state.interval / 2)
{
sre->expire = now + state.interval / 2;
}
work_queue(HPWORK, &sre->work, sensor_rpmsg_data_worker, sre,
(sre->expire - now) / USEC_PER_TICK);
}
nxrmutex_unlock(&sre->lock);
}
static ssize_t sensor_rpmsg_push_event(FAR void *priv, FAR const void *data,
size_t bytes)
{
FAR struct sensor_rpmsg_dev_s *dev = priv;
FAR struct sensor_rpmsg_stub_s *stub;
ssize_t ret;
/* Push new data to upperhalf driver's circular buffer */
ret = dev->push_event(dev->upper, data, bytes);
if (ret < 0)
{
return ret;
}
/* Send new data to own proxy(remote subscribers), don't care whether
* is successful, and must return length of written.
*/
sensor_rpmsg_lock(dev);
list_for_every_entry(&dev->stublist, stub,
struct sensor_rpmsg_stub_s, node)
{
sensor_rpmsg_push_event_one(dev, stub);
}
sensor_rpmsg_unlock(dev);
return ret;
}
static FAR struct sensor_rpmsg_dev_s *
sensor_rpmsg_find_dev(FAR const char *path)
{
FAR struct sensor_rpmsg_dev_s *dev;
nxrmutex_lock(&g_dev_lock);
list_for_every_entry(&g_devlist, dev, struct sensor_rpmsg_dev_s, node)
{
if (strcmp(dev->path, path) == 0)
{
nxrmutex_unlock(&g_dev_lock);
return dev;
}
}
nxrmutex_unlock(&g_dev_lock);
return NULL;
}
static int sensor_rpmsg_adv_handler(FAR struct rpmsg_endpoint *ept,
FAR void *data, size_t len,
uint32_t src, FAR void *priv)
{
FAR struct sensor_rpmsg_advsub_s *msg = data;
FAR struct sensor_rpmsg_proxy_s *proxy;
FAR struct sensor_rpmsg_dev_s *dev;
int ret;
dev = sensor_rpmsg_find_dev(msg->path);
if (!dev || !dev->nsubscribers)
{
return 0;
}
proxy = sensor_rpmsg_alloc_proxy(dev, ept, msg);
if (!proxy)
{
snerr("ERROR: adv alloc proxy failed:%s\n", dev->path);
}
else
{
msg->cookie = (uint64_t)(uintptr_t)dev;
msg->command = SENSOR_RPMSG_ADVERTISE_ACK;
ret = rpmsg_send(ept, msg, len);
if (ret < 0)
{
sensor_rpmsg_lock(dev);
sensor_rpmsg_free_proxy(proxy);
sensor_rpmsg_unlock(dev);
snerr("ERROR: adv rpmsg send failed:%s, %d, %s\n",
dev->path, ret, rpmsg_get_cpuname(ept->rdev));
}
}
return 0;
}
static int sensor_rpmsg_advack_handler(FAR struct rpmsg_endpoint *ept,
FAR void *data, size_t len,
uint32_t src, FAR void *priv)
{
FAR struct sensor_rpmsg_advsub_s *msg = data;
FAR struct sensor_rpmsg_dev_s *dev;
dev = sensor_rpmsg_find_dev(msg->path);
if (dev && !sensor_rpmsg_alloc_stub(dev, ept, msg->cookie))
{
sensor_rpmsg_advsub_one(dev, ept, SENSOR_RPMSG_UNADVERTISE);
snerr("ERROR: advack failed:%s, %s\n", dev->path,
rpmsg_get_cpuname(ept->rdev));
}
return 0;
}
static int sensor_rpmsg_unadv_handler(FAR struct rpmsg_endpoint *ept,
FAR void *data, size_t len,
uint32_t src, FAR void *priv)
{
FAR struct sensor_rpmsg_advsub_s *msg = data;
FAR struct sensor_rpmsg_proxy_s *proxy;
FAR struct sensor_rpmsg_dev_s *dev;
dev = sensor_rpmsg_find_dev(msg->path);
if (!dev)
{
return 0;
}
sensor_rpmsg_lock(dev);
list_for_every_entry(&dev->proxylist, proxy,
struct sensor_rpmsg_proxy_s, node)
{
if (proxy->ept == ept && proxy->cookie == msg->cookie)
{
sensor_rpmsg_free_proxy(proxy);
break;
}
}
sensor_rpmsg_unlock(dev);
return 0;
}
static int sensor_rpmsg_sub_handler(FAR struct rpmsg_endpoint *ept,
FAR void *data, size_t len,
uint32_t src, FAR void *priv)
{
FAR struct sensor_rpmsg_advsub_s *msg = data;
FAR struct sensor_rpmsg_dev_s *dev;
FAR struct sensor_rpmsg_stub_s *stub;
int ret;
dev = sensor_rpmsg_find_dev(msg->path);
if (!dev)
{
return 0;
}
stub = sensor_rpmsg_alloc_stub(dev, ept, msg->cookie);
if (!stub)
{
snerr("ERROR: sub alloc stub failed:%s\n", dev->path);
}
else
{
msg->cookie = (uint64_t)(uintptr_t)dev;
msg->command = SENSOR_RPMSG_SUBSCRIBE_ACK;
msg->nbuffer = dev->lower.nbuffer;
msg->persist = dev->lower.persist;
ret = rpmsg_send(ept, msg, len);
if (ret < 0)
{
sensor_rpmsg_lock(dev);
sensor_rpmsg_free_stub(stub);
sensor_rpmsg_unlock(dev);
snerr("ERROR: sub rpmsg send failed:%s, %d, %s\n",
dev->path, ret, rpmsg_get_cpuname(ept->rdev));
}
}
return 0;
}
static int sensor_rpmsg_suback_handler(FAR struct rpmsg_endpoint *ept,
FAR void *data, size_t len,
uint32_t src, FAR void *priv)
{
FAR struct sensor_rpmsg_advsub_s *msg = data;
FAR struct sensor_rpmsg_dev_s *dev;
dev = sensor_rpmsg_find_dev(msg->path);
if (dev && (!dev->nsubscribers ||
!sensor_rpmsg_alloc_proxy(dev, ept, msg)))
{
sensor_rpmsg_advsub_one(dev, ept, SENSOR_RPMSG_UNSUBSCRIBE);
snerr("ERROR: suback failed:%s\n", dev->path);
}
return 0;
}
static int sensor_rpmsg_unsub_handler(FAR struct rpmsg_endpoint *ept,
FAR void *data, size_t len,
uint32_t src, FAR void *priv)
{
FAR struct sensor_rpmsg_advsub_s *msg = data;
FAR struct sensor_rpmsg_dev_s *dev;
FAR struct sensor_rpmsg_stub_s *stub;
dev = sensor_rpmsg_find_dev(msg->path);
if (!dev)
{
return 0;
}
sensor_rpmsg_lock(dev);
list_for_every_entry(&dev->stublist, stub,
struct sensor_rpmsg_stub_s, node)
{
if (stub->ept == ept && stub->cookie == msg->cookie)
{
sensor_rpmsg_free_stub(stub);
break;
}
}
sensor_rpmsg_unlock(dev);
return 0;
}
static int sensor_rpmsg_publish_handler(FAR struct rpmsg_endpoint *ept,
FAR void *data, size_t len,
uint32_t src, FAR void *priv)
{
FAR struct sensor_rpmsg_data_s *msg = data;
FAR struct sensor_rpmsg_cell_s *cell;
FAR struct sensor_rpmsg_dev_s *dev;
size_t written = sizeof(*msg);
while (written < len)
{
cell = (FAR struct sensor_rpmsg_cell_s *)
((FAR char *)data + written);
dev = (FAR struct sensor_rpmsg_dev_s *)(uintptr_t)cell->cookie;
if (cell->nbuffer > dev->lower.nbuffer)
{
struct file file;
int ret;
ret = file_open(&file, dev->path, SENSOR_REMOTE);
if (ret >= 0)
{
file_ioctl(&file, SNIOC_SET_BUFFER_NUMBER, cell->nbuffer);
file_close(&file);
}
}
dev->push_event(dev->upper, cell->data, cell->len);
written += sizeof(*cell) + cell->len + 0x7;
written &= ~0x7;
}
return 0;
}
static int sensor_rpmsg_ioctl_handler(FAR struct rpmsg_endpoint *ept,
FAR void *data, size_t len,
uint32_t src, FAR void *priv)
{
FAR struct sensor_rpmsg_ioctl_s *msg = data;
FAR struct sensor_rpmsg_stub_s *stub;
FAR struct sensor_rpmsg_dev_s *dev;
unsigned long arg;
int ret;
arg = msg->arglen > 0 ? (unsigned long)(uintptr_t)msg->argbuf :
msg->arg;
dev = (FAR struct sensor_rpmsg_dev_s *)(uintptr_t)msg->proxy;
sensor_rpmsg_lock(dev);
list_for_every_entry(&dev->stublist, stub,
struct sensor_rpmsg_stub_s, node)
{
if (stub->ept == ept)
{
msg->result = file_ioctl(&stub->file, msg->request, arg);
if (msg->cookie)
{
msg->command = SENSOR_RPMSG_IOCTL_ACK;
ret = rpmsg_send(ept, msg, len);
if (ret < 0)
{
snerr("ERROR: ioctl rpmsg send failed:%s, %d, %s\n",
dev->path, ret, rpmsg_get_cpuname(ept->rdev));
}
}
break;
}
}
sensor_rpmsg_unlock(dev);
return 0;
}
static int sensor_rpmsg_ioctlack_handler(FAR struct rpmsg_endpoint *ept,
FAR void *data, size_t len,
uint32_t src, FAR void *priv)
{
FAR struct sensor_rpmsg_ioctl_cookie_s *cookie;
FAR struct sensor_rpmsg_ioctl_s *msg = data;
cookie = (FAR struct sensor_rpmsg_ioctl_cookie_s *)
(uintptr_t)msg->cookie;
cookie->result = msg->result;
if (msg->result >= 0 && msg->arglen > 0)
{
memcpy(cookie->data, msg->argbuf, msg->arglen);
}
rpmsg_post(ept, &cookie->sem);
return 0;
}
static int sensor_rpmsg_ept_cb(FAR struct rpmsg_endpoint *ept,
FAR void *data, size_t len, uint32_t src,
FAR void *priv)
{
FAR struct sensor_rpmsg_advsub_s *msg = data;
if (msg->command < sizeof(g_sensor_rpmsg_handler) /
sizeof(g_sensor_rpmsg_handler[0]))
{
return g_sensor_rpmsg_handler[msg->command](ept, data, len, src, priv);
}
return -EINVAL;
}
static void sensor_rpmsg_ns_unbind_cb(FAR struct rpmsg_endpoint *ept)
{
FAR struct sensor_rpmsg_ept_s *sre;
FAR struct sensor_rpmsg_dev_s *dev;
FAR struct sensor_rpmsg_stub_s *stub;
FAR struct sensor_rpmsg_proxy_s *proxy;
sre = container_of(ept, struct sensor_rpmsg_ept_s, ept);
/* Remove all proxy and stub info in sensor device with the ept
* destoryed.
*/
nxrmutex_lock(&g_dev_lock);
list_for_every_entry(&g_devlist, dev,
struct sensor_rpmsg_dev_s, node)
{
sensor_rpmsg_lock(dev);
list_for_every_entry(&dev->proxylist, proxy,
struct sensor_rpmsg_proxy_s, node)
{
if (proxy->ept == ept)
{
sensor_rpmsg_free_proxy(proxy);
break;
}
}
list_for_every_entry(&dev->stublist, stub,
struct sensor_rpmsg_stub_s, node)
{
if (stub->ept == ept)
{
sensor_rpmsg_free_stub(stub);
break;
}
}
sensor_rpmsg_unlock(dev);
}
nxrmutex_unlock(&g_dev_lock);
nxrmutex_lock(&g_ept_lock);
list_delete(&sre->node);
nxrmutex_unlock(&g_ept_lock);
nxrmutex_destroy(&sre->lock);
kmm_free(sre);
rpmsg_destroy_ept(ept);
}
static void sensor_rpmsg_device_ns_bound(FAR struct rpmsg_endpoint *ept)
{
FAR struct sensor_rpmsg_ept_s *sre;
FAR struct sensor_rpmsg_dev_s *dev;
sre = container_of(ept, struct sensor_rpmsg_ept_s, ept);
nxrmutex_lock(&g_ept_lock);
list_add_tail(&g_eptlist, &sre->node);
nxrmutex_unlock(&g_ept_lock);
/* Broadcast all device to ready ept */
nxrmutex_lock(&g_dev_lock);
list_for_every_entry(&g_devlist, dev,
struct sensor_rpmsg_dev_s, node)
{
sensor_rpmsg_lock(dev);
if (dev->nadvertisers > 0)
{
sensor_rpmsg_advsub_one(dev, ept, SENSOR_RPMSG_ADVERTISE);
}
if (dev->nsubscribers > 0)
{
sensor_rpmsg_advsub_one(dev, ept, SENSOR_RPMSG_SUBSCRIBE);
}
sensor_rpmsg_unlock(dev);
}
nxrmutex_unlock(&g_dev_lock);
}
static void sensor_rpmsg_device_created(FAR struct rpmsg_device *rdev,
FAR void *priv)
{
FAR struct sensor_rpmsg_ept_s *sre;
sre = kmm_zalloc(sizeof(*sre));
if (!sre)
{
return;
}
sre->rdev = rdev;
sre->ept.priv = sre;
nxrmutex_init(&sre->lock);
sre->ept.ns_bound_cb = sensor_rpmsg_device_ns_bound;
if (rpmsg_create_ept(&sre->ept, rdev, SENSOR_RPMSG_EPT_NAME,
RPMSG_ADDR_ANY, RPMSG_ADDR_ANY,
sensor_rpmsg_ept_cb,
sensor_rpmsg_ns_unbind_cb) < 0)
{
nxrmutex_destroy(&sre->lock);
kmm_free(sre);
}
}
/****************************************************************************
* Public Functions
****************************************************************************/
/****************************************************************************
* Name: sensor_rpmsg_register
*
* Description:
* This function registers rpmsg takeover for the real lower half, and
* initialize rpmsg resource.
*
* Input Parameters:
* lower - The instance of lower half sensor driver.
* path - The path of character node, ex: /dev/uorb/xxx.
*
* Returned Value:
* The takeover rpmsg lowerhalf returned on success, NULL on failure.
****************************************************************************/
FAR struct sensor_lowerhalf_s *
sensor_rpmsg_register(FAR struct sensor_lowerhalf_s *lower,
FAR const char *path)
{
FAR struct sensor_rpmsg_ept_s *sre;
FAR struct sensor_rpmsg_dev_s *dev;
size_t size;
if (lower->ops->fetch)
{
return lower;
}
size = strlen(path);
dev = kmm_zalloc(sizeof(*dev) + size);
if (!dev)
{
return NULL;
}
/* Initialize the sensor rpmsg device structure */
list_initialize(&dev->stublist);
list_initialize(&dev->proxylist);
strlcpy(dev->path, path, size + 1);
dev->nadvertisers = !!lower->ops->activate;
dev->push_event = lower->push_event;
dev->upper = lower->priv;
lower->push_event = sensor_rpmsg_push_event;
lower->priv = dev;
memcpy(&dev->lower, lower, sizeof(*lower));
dev->lower.ops = &g_sensor_rpmsg_ops;
dev->drv = lower;
/* If openamp is ready, send advertisement to remote proc */
nxrmutex_lock(&g_dev_lock);
list_add_tail(&g_devlist, &dev->node);
nxrmutex_unlock(&g_dev_lock);
if (lower->ops->activate)
{
nxrmutex_lock(&g_ept_lock);
list_for_every_entry(&g_eptlist, sre, struct sensor_rpmsg_ept_s,
node)
{
sensor_rpmsg_advsub_one(dev, &sre->ept, SENSOR_RPMSG_ADVERTISE);
}
nxrmutex_unlock(&g_ept_lock);
}
return &dev->lower;
}
/****************************************************************************
* Name: sensor_rpmsg_unregister
*
* Description:
* This function unregisters rpmsg takeover for the real lower half, and
* release rpmsg resource. This API corresponds to sensor_rpmsg_register.
*
* Input Parameters:
* lower - The instance of lower half sensor driver.
****************************************************************************/
void sensor_rpmsg_unregister(FAR struct sensor_lowerhalf_s *lower)
{
FAR struct sensor_rpmsg_dev_s *dev = lower->priv;
if (lower->ops != &g_sensor_rpmsg_ops)
{
return;
}
nxrmutex_lock(&g_dev_lock);
list_delete(&dev->node);
nxrmutex_unlock(&g_dev_lock);
kmm_free(dev);
}
/****************************************************************************
* Name: sensor_rpmsg_initialize
*
* Description:
* This function initializes the context of sensor rpmsg, registers
* rpmsg callback and prepares enviroment to intercat with remote sensor.
*
* Returned Value:
* OK on success; A negated errno value is returned on any failure.
****************************************************************************/
int sensor_rpmsg_initialize(void)
{
return rpmsg_register_callback(NULL, sensor_rpmsg_device_created,
NULL, NULL, NULL);
}
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