Added missing linux/modules.h include.
/******************************************************************************
*
* $Id$
*
* ec_rtdm.c Copyright (C) 2009-2010 Moehwald GmbH B.Benner
* 2011 IgH Andreas Stewering-Bone
*
*
* This file is part of the IgH EtherCAT master
*
* The IgH EtherCAT master 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; version 2.1
* of the License.
*
* The IgH EtherCAT master userspace 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 the IgH EtherCAT master userspace library. If not, see
* <http://www.gnu.org/licenses/>.
*
* The license mentioned above concerns the source code only. Using the
* EtherCAT technology and brand is only permitted in compliance with the
* industrial property and similar rights of Beckhoff Automation GmbH.
*
*****************************************************************************/
#include <linux/module.h>
#include <linux/mman.h>
#ifdef ENABLE_XENOMAI
#include <native/task.h>
#include <native/sem.h>
#include <native/mutex.h>
#include <native/timer.h>
#endif
#ifdef ENABLE_RTAI
#include <rtai_sched.h>
#include <rtai_sem.h>
#endif
#include <rtdm/rtdm_driver.h>
#include "../include/ecrt.h"
#include "../include/ec_rtdm.h"
#ifdef ENABLE_XENOMAI
#define my_mutex_create(X,Y) rt_mutex_create(X, Y)
#define my_mutex_acquire(X,Y) rt_mutex_acquire(X,Y)
#define my_mutex_release(X) rt_mutex_release(X)
#define my_mutex_delete(X) rt_mutex_delete(X)
#endif
#ifdef ENABLE_RTAI
#define my_mutex_create(X,Y) rt_sem_init(X, 1)
#define my_mutex_acquire(X,Y) rt_sem_wait(X)
#define my_mutex_release(X) rt_sem_signal(X)
#define my_mutex_delete(X) rt_sem_delete(X)
#define TM_INFINITE
#endif
#define EC_RTDM_MAX_MASTERS 5 /**< Maximum number of masters. */
#define EC_RTDM_GINFO(fmt, args...) \
rtdm_printk(KERN_INFO "EtherCATrtdm: " fmt, ##args)
#define EC_RTDM_GERR(fmt, args...) \
rtdm_printk(KERN_ERR "EtherCATrtdm ERROR: " fmt, ##args)
#define EC_RTDM_GWARN(fmt, args...) \
rtdm_printk(KERN_WARNING "EtherCATrtdm WARNING: " fmt, ##args)
#define EC_RTDM_INFO(devno, fmt, args...) \
rtdm_printk(KERN_INFO "EtherCATrtdm %u: " fmt, devno, ##args)
#define EC_RTDM_ERR(devno, fmt, args...) \
rtdm_printk(KERN_ERR "EtherCATrtdm %u ERROR: " fmt, devno, ##args)
#define EC_RTDM_WARN(devno, fmt, args...) \
rtdm_printk(KERN_WARNING "EtherCATrtdm %u WARNING: " fmt, devno, ##args)
typedef struct _EC_RTDM_DRV_STRUCT {
unsigned int isattached;
ec_master_t * master;
ec_domain_t * domain;
#ifdef ENABLE_XENOMAI
RT_MUTEX masterlock;
#endif
#ifdef ENABLE_RTAI
SEM masterlock;
#endif
unsigned int sendcnt;
unsigned int reccnt;
unsigned int sendcntlv;
unsigned int reccntlv;
char mutexname[64];
unsigned int masterno;
} EC_RTDM_DRV_STRUCT;
static EC_RTDM_DRV_STRUCT ec_rtdm_masterintf[EC_RTDM_MAX_MASTERS];
/* import from ethercat */
ec_master_t *ecrt_attach_master(unsigned int master_index /**< Index of the master to request. */
);
// driver context struct: used for storing various information
typedef struct _EC_RTDM_DRV_CONTEXT {
int dev_id;
EC_RTDM_DRV_STRUCT* pdrvstruc;
} EC_RTDM_DRV_CONTEXT;
/**********************************************************/
/* Utilities */
/**********************************************************/
static int _atoi(const char* text)
{
char b;
int wd=-1;
int nfak=1;
wd=0;
while ((*text==' ') || (*text=='\t')) text++;
if (*text=='-')
{
nfak=-1;
text++;
}
if (*text=='+')
{
text++;
}
while (*text!=0)
{
b = *text;
if ( (b>='0') && (b<='9') )
{
b=b-'0';
wd=wd*10+b;
}
text++;
}
return (nfak*wd);
}
/**********************************************************/
/* DRIVER lockcallback */
/**********************************************************/
void request_lock_callback(void *cb_data)
{
EC_RTDM_DRV_STRUCT * pdrvstruc;
pdrvstruc = (EC_RTDM_DRV_STRUCT*)cb_data;
if (pdrvstruc->master)
{
my_mutex_acquire(&pdrvstruc->masterlock,TM_INFINITE);
}
}
/*****************************************************************************/
void release_lock_callback(void *cb_data)
{
EC_RTDM_DRV_STRUCT * pdrvstruc;
pdrvstruc = (EC_RTDM_DRV_STRUCT*)cb_data;
if (pdrvstruc->master)
{
my_mutex_release(&pdrvstruc->masterlock);
}
}
void detach_master(EC_RTDM_DRV_STRUCT * pdrvstruc)
{
if (pdrvstruc->isattached)
{
EC_RTDM_INFO(pdrvstruc->masterno,"reseting callbacks!\n");
ecrt_master_callbacks(pdrvstruc->master,NULL,NULL,NULL);
EC_RTDM_INFO(pdrvstruc->masterno,"deleting mutex!\n");
my_mutex_delete(&pdrvstruc->masterlock);
pdrvstruc->master = NULL;
pdrvstruc->isattached=0;
EC_RTDM_INFO(pdrvstruc->masterno,"master detach done!\n");
}
}
/**********************************************************/
/* DRIVER OPEN */
/**********************************************************/
int ec_rtdm_open_rt(struct rtdm_dev_context *context,
rtdm_user_info_t *user_info,
int oflags)
{
EC_RTDM_DRV_CONTEXT* my_context;
EC_RTDM_DRV_STRUCT * pdrvstruc;
const char * p;
int dev_no;
unsigned int namelen;
//int ret;
int dev_id;
// get the context for our driver - used to store driver info
my_context = (EC_RTDM_DRV_CONTEXT*)context->dev_private;
dev_no = -1;
namelen = strlen(context->device->driver_name);
p = &context->device->driver_name[namelen-1];
if (p!=&context->device->driver_name[0])
{
while ((*p>='0') && (*p<='9'))
{
p--;
if (p==&context->device->driver_name[0]) break;
}
dev_no=_atoi(p);
if ((dev_no!=-1) && (dev_no<EC_RTDM_MAX_MASTERS))
{
dev_id = context->device->device_id;
pdrvstruc = (EC_RTDM_DRV_STRUCT*)&ec_rtdm_masterintf[dev_no];
my_context->dev_id = dev_id;
my_context->pdrvstruc = pdrvstruc;
// enable interrupt in RTDM
return 0;
}
}
EC_RTDM_GERR("open - Cannot detect master device no\n");
return -EFAULT;
}
/**********************************************************/
/* DRIVER CLOSE */
/**********************************************************/
int ec_rtdm_close_rt(struct rtdm_dev_context *context,
rtdm_user_info_t *user_info)
{
EC_RTDM_DRV_CONTEXT* my_context;
EC_RTDM_DRV_STRUCT * pdrvstruc;
// get the context
my_context = (EC_RTDM_DRV_CONTEXT*)context->dev_private;
pdrvstruc = my_context->pdrvstruc;
EC_RTDM_INFO(pdrvstruc->masterno,"close called!\n");
detach_master(pdrvstruc);
return 0;
}
/**********************************************************/
/* DRIVER IOCTL */
/**********************************************************/
int ec_rtdm_ioctl_rt(struct rtdm_dev_context *context,
rtdm_user_info_t *user_info,
int request,
void *arg)
{
EC_RTDM_DRV_CONTEXT* my_context;
EC_RTDM_DRV_STRUCT * pdrvstruc;
int ret;
unsigned int l_ioctlvalue[]={0,0,0,0,0,0,0,0};
ec_domain_state_t ds;
ec_master_state_t ms;
uint64_t app_time;
ret = 0;
// get the context
my_context = (EC_RTDM_DRV_CONTEXT*)context->dev_private;
pdrvstruc = my_context->pdrvstruc;
switch (request) {
case EC_RTDM_MASTERSTATE:
{
if (!pdrvstruc->isattached)
{
return -EFAULT;
}
if (pdrvstruc->master)
{
my_mutex_acquire(&pdrvstruc->masterlock,TM_INFINITE);
ecrt_master_state(pdrvstruc->master, &ms);
my_mutex_release(&pdrvstruc->masterlock);
}
if (rtdm_rw_user_ok(user_info, arg, sizeof(ms)))
{
// copy data to user
if (rtdm_copy_to_user(user_info, arg, &ms,sizeof(ms)))
{
return -EFAULT;
}
}
}
break;
case EC_RTDM_DOMAINSTATE:
{
if (!pdrvstruc->isattached)
{
return -EFAULT;
}
if (pdrvstruc->domain)
{
my_mutex_acquire(&pdrvstruc->masterlock,TM_INFINITE);
ecrt_domain_state(pdrvstruc->domain, &ds);
my_mutex_release(&pdrvstruc->masterlock);
}
if (rtdm_rw_user_ok(user_info, arg, sizeof(ds)))
{
// copy data to user
if (rtdm_copy_to_user(user_info, arg, &ds,sizeof(ds)))
{
return -EFAULT;
}
}
}
break;
case EC_RTDM_MASTER_RECEIVE:
{
if (pdrvstruc->isattached)
{
if (pdrvstruc->master)
{
my_mutex_acquire(&pdrvstruc->masterlock,TM_INFINITE);
ecrt_master_receive(pdrvstruc->master);
pdrvstruc->reccnt++;
my_mutex_release(&pdrvstruc->masterlock);
}
}
}
break;
case EC_RTDM_DOMAIN_PROCESS:
{
if (pdrvstruc->isattached)
{
my_mutex_acquire(&pdrvstruc->masterlock,TM_INFINITE);
ecrt_domain_process(pdrvstruc->domain);
my_mutex_release(&pdrvstruc->masterlock);
}
}
break;
case EC_RTDM_MASTER_SEND:
{
if (pdrvstruc->isattached)
{
if (pdrvstruc->master)
{
my_mutex_acquire(&pdrvstruc->masterlock,TM_INFINITE);
ecrt_master_send(pdrvstruc->master);
pdrvstruc->sendcnt++;
my_mutex_release(&pdrvstruc->masterlock);
}
}
}
break;
case EC_RTDM_DOMAIN_QUEQUE:
{
if (pdrvstruc->isattached)
{
my_mutex_acquire(&pdrvstruc->masterlock,TM_INFINITE);
ecrt_domain_queue(pdrvstruc->domain);
my_mutex_release(&pdrvstruc->masterlock);
}
}
break;
case EC_RTDM_MASTER_APP_TIME:
{
if (!pdrvstruc->isattached)
{
rtdm_printk("ERROR : No Master attached\n");
return -EFAULT;
}
if (rtdm_safe_copy_from_user(user_info, &app_time, arg, sizeof(app_time)))
{
rtdm_printk("ERROR : can't copy data to driver\n");
return -EFAULT;
}
if (pdrvstruc->master)
{
my_mutex_acquire(&pdrvstruc->masterlock,TM_INFINITE);
ecrt_master_application_time(pdrvstruc->master, app_time);
my_mutex_release(&pdrvstruc->masterlock);
}
}
break;
case EC_RTDM_SYNC_REF_CLOCK:
{
if (!pdrvstruc->isattached)
{
return -EFAULT;
}
if (pdrvstruc->master)
{
my_mutex_acquire(&pdrvstruc->masterlock,TM_INFINITE);
ecrt_master_sync_reference_clock(pdrvstruc->master);
my_mutex_release(&pdrvstruc->masterlock);
}
}
break;
case EC_RTDM_SYNC_SLAVE_CLOCK:
{
if (!pdrvstruc->isattached)
{
return -EFAULT;
}
if (pdrvstruc->master)
{
my_mutex_acquire(&pdrvstruc->masterlock,TM_INFINITE);
ecrt_master_sync_slave_clocks(pdrvstruc->master);
my_mutex_release(&pdrvstruc->masterlock);
}
}
break;
case EC_RTDM_MASTER_SYNC_MONITOR_QUEQUE:
{
if (!pdrvstruc->isattached)
{
return -EFAULT;
}
if (pdrvstruc->master)
{
my_mutex_acquire(&pdrvstruc->masterlock,TM_INFINITE);
ecrt_master_sync_monitor_queue(pdrvstruc->master);
my_mutex_release(&pdrvstruc->masterlock);
}
}
break;
case EC_RTDM_MASTER_SYNC_MONITOR_PROCESS:
{
uint32_t ret;
if (!pdrvstruc->isattached)
{
return -EFAULT;
}
if (pdrvstruc->master)
{
my_mutex_acquire(&pdrvstruc->masterlock,TM_INFINITE);
ret = ecrt_master_sync_monitor_process(pdrvstruc->master);
my_mutex_release(&pdrvstruc->masterlock);
if (rtdm_safe_copy_to_user(user_info, arg, &ret, sizeof(ret)))
{
EC_RTDM_ERR(pdrvstruc->masterno,"copy to user param failed!\n");
ret=-EFAULT;
}
}
}
break;
case EC_RTDM_MSTRATTACH:
{
unsigned int mstridx;
mstridx = 0;
ret = 0;
EC_RTDM_INFO(pdrvstruc->masterno,"Master attach start!\n");
if (user_info)
{
if (rtdm_read_user_ok(user_info, arg, sizeof(unsigned int)))
{
if (rtdm_copy_from_user(user_info, &l_ioctlvalue[0], arg,sizeof(unsigned int))==0)
{
pdrvstruc->domain = (ec_domain_t*)l_ioctlvalue[0];
}
else
{
EC_RTDM_ERR(pdrvstruc->masterno,"copy user param failed!\n");
ret=-EFAULT;
}
}
else
{
EC_RTDM_ERR(pdrvstruc->masterno,"user parameter domain missing!\n");
ret=-EFAULT;
}
}
if (ret!=0)
{
return ret;
}
if ( (pdrvstruc->master) && (pdrvstruc->isattached))
// master is allready attached
{
// master is allready attached
EC_RTDM_ERR(pdrvstruc->masterno,"Master is allready attached!\n");
ret = -EFAULT;
}
else
{
//mstr=ecrt_request_master(0);
mstridx = pdrvstruc->masterno;
pdrvstruc->master=ecrt_attach_master(mstridx);
if (pdrvstruc->master)
{
// Ok
EC_RTDM_INFO(pdrvstruc->masterno,"Master searching for domain!\n");
pdrvstruc->domain = ecrt_master_find_domain(pdrvstruc->master,l_ioctlvalue[0]);
if (!pdrvstruc->domain)
{
//
EC_RTDM_ERR(pdrvstruc->masterno,"Cannot find domain from index %u!\n",l_ioctlvalue[0]);
ret = -EFAULT;
}
else
{
// set device name
snprintf(&pdrvstruc->mutexname[0],sizeof(pdrvstruc->mutexname)-1,"ETHrtdmLOCK%d",pdrvstruc->masterno);
EC_RTDM_INFO(pdrvstruc->masterno,"Creating Master mutex %s!\n",&pdrvstruc->mutexname[0]);
my_mutex_create(&pdrvstruc->masterlock,&pdrvstruc->mutexname[0]);
ecrt_master_callbacks(pdrvstruc->master, request_lock_callback, release_lock_callback, pdrvstruc);
EC_RTDM_INFO(pdrvstruc->masterno,"MSTR ATTACH done domain=%u!\n",(unsigned int)pdrvstruc->domain);
pdrvstruc->isattached=1;
ret = 0;
}
}
else
{
EC_RTDM_ERR(pdrvstruc->masterno,"Master attach failed!\n");
pdrvstruc->master = NULL;
ret = -EFAULT;
}
}
}
break;
default:
ret = -ENOTTY;
}
return ret;
}
/**********************************************************/
/* DRIVER READ */
/**********************************************************/
int ec_rtdm_read_rt(struct rtdm_dev_context *context,
rtdm_user_info_t *user_info, void *buf, size_t nbyte)
{
int ret;
#if defined(USE_THIS)
EC_RTDM_DRV_CONTEXT* my_context;
char *out_pos;
int dev_id;
rtdm_toseq_t timeout_seq;
int ret;
out_pos = (char *)buf;
my_context = (EC_RTDM_DRV_CONTEXT*)context->dev_private;
// zero bytes requested ? return!
if (nbyte == 0)
return 0;
// check if R/W actions to user-space are allowed
if (user_info && !rtdm_rw_user_ok(user_info, buf, nbyte))
return -EFAULT;
dev_id = my_context->dev_id;
// in case we need to check if reading is allowed (locking)
/* if (test_and_set_bit(0, &ctx->in_lock))
return -EBUSY;
*/
/* // if we need to do some stuff with preemption disabled:
rtdm_lock_get_irqsave(&ctx->lock, lock_ctx);
// stuff here
rtdm_lock_put_irqrestore(&ctx->lock, lock_ctx);
*/
// wait: if ctx->timeout = 0, it will block infintely until
// rtdm_event_signal(&ctx->irq_event); is called from our
// interrupt routine
//ret = rtdm_event_timedwait(&ctx->irq_event, ctx->timeout, &timeout_seq);
// now write the requested stuff to user-space
if (rtdm_copy_to_user(user_info, out_pos,
dummy_buffer, BUFSIZE) != 0) {
ret = -EFAULT;
} else {
ret = BUFSIZE;
}
#else
ret = -EFAULT;
#endif
return ret;
}
/**********************************************************/
/* DRIVER WRITE */
/**********************************************************/
int ec_rtdm_write_rt(struct rtdm_dev_context *context,
rtdm_user_info_t *user_info,
const void *buf, size_t nbyte)
{
int ret;
#if defined(USE_THIS)
int dev_id;
char *in_pos = (char *)buf;
EC_RTDM_DRV_CONTEXT* my_context;
my_context = (EC_RTDM_DRV_CONTEXT*)context->dev_private;
if (nbyte == 0)
return 0;
if (user_info && !rtdm_read_user_ok(user_info, buf, nbyte))
return -EFAULT;
dev_id = my_context->dev_id;
if (rtdm_copy_from_user(user_info, dummy_buffer,
in_pos, BUFSIZE) != 0) {
ret = -EFAULT;
} else {
ret = BUFSIZE;
}
#else
ret = -EFAULT;
#endif
// used when it is atomic
// rtdm_mutex_unlock(&ctx->out_lock);
return ret;
}
/**********************************************************/
/* DRIVER OPERATIONS */
/**********************************************************/
// Template
static struct rtdm_device ec_rtdm_device_t = {
struct_version: RTDM_DEVICE_STRUCT_VER,
device_flags: RTDM_NAMED_DEVICE,
context_size: sizeof(EC_RTDM_DRV_CONTEXT),
device_name: EC_RTDM_DEV_FILE_NAME,
/* open and close functions are not real-time safe due kmalloc
and kfree. If you do not use kmalloc and kfree, and you made
sure that there is no syscall in the open/close handler, you
can declare the open_rt and close_rt handler.
*/
open_rt: NULL,
open_nrt: ec_rtdm_open_rt,
ops: {
close_rt: NULL,
close_nrt: ec_rtdm_close_rt,
ioctl_rt: ec_rtdm_ioctl_rt,
ioctl_nrt: ec_rtdm_ioctl_rt, // rtdm_mmap_to_user is not RT safe
read_rt: ec_rtdm_read_rt,
read_nrt: NULL,
write_rt: ec_rtdm_write_rt,
write_nrt: NULL,
recvmsg_rt: NULL,
recvmsg_nrt: NULL,
sendmsg_rt: NULL,
sendmsg_nrt: NULL,
},
device_class: RTDM_CLASS_EXPERIMENTAL,
device_sub_class: 222,
driver_name: EC_RTDM_DEV_FILE_NAME,
driver_version: RTDM_DRIVER_VER(1,0,1),
peripheral_name: EC_RTDM_DEV_FILE_NAME,
provider_name: "EtherLab Community",
// proc_name: ethcatrtdm_device.device_name,
};
static struct rtdm_device ec_rtdm_devices[EC_RTDM_MAX_MASTERS];
/**********************************************************/
/* INIT DRIVER */
/**********************************************************/
int init_module(void)
{
unsigned int i;
int ret;
ret = 0;
EC_RTDM_GINFO("Initlializing EtherCAT RTDM Interface to Igh EtherCAT Master\n");
memset(&ec_rtdm_masterintf[0],0,sizeof(ec_rtdm_masterintf));
for (i=0;( (i<EC_RTDM_MAX_MASTERS) && (ret==0) ) ;i++)
{
// master no to struct
ec_rtdm_masterintf[i].masterno = i;
// copy from template
memcpy(&ec_rtdm_devices[i],&ec_rtdm_device_t,sizeof(ec_rtdm_devices[0]));
// set device name
snprintf(&ec_rtdm_devices[i].device_name[0],RTDM_MAX_DEVNAME_LEN,"%s%d",EC_RTDM_DEV_FILE_NAME,i);
// set proc_name
ec_rtdm_devices[i].proc_name = &ec_rtdm_devices[i].device_name[0];
ec_rtdm_devices[i].driver_name = &ec_rtdm_devices[i].device_name[0];
ec_rtdm_devices[i].peripheral_name = &ec_rtdm_devices[i].device_name[0];
EC_RTDM_GINFO("Registering device %s!\n",ec_rtdm_devices[i].driver_name);
ret = rtdm_dev_register(&ec_rtdm_devices[i]);
}
if (ret!=0)
{
// register m
EC_RTDM_GERR("Initialization of EtherCAT RTDM Interface failed\n");
}
return ret;
}
/**********************************************************/
/* CLEANUP DRIVER */
/**********************************************************/
void cleanup_module(void)
{
unsigned int i;
EC_RTDM_GINFO("Cleanup EtherCAT RTDM Interface \n");
for (i=0;i<EC_RTDM_MAX_MASTERS;i++)
{
if (ec_rtdm_masterintf[i].isattached)
{
detach_master(&ec_rtdm_masterintf[i]);
}
EC_RTDM_GINFO("Unregistering device %s!\n",ec_rtdm_devices[i].driver_name);
rtdm_dev_unregister(&ec_rtdm_devices[i],1000);
}
}
MODULE_LICENSE("GPL");
MODULE_DESCRIPTION("EtherCAT RTDM Interface");