Centrally defined mailbox types.
/******************************************************************************
*
* $Id$
*
* Copyright (C) 2006-2012 Florian Pose, Ingenieurgemeinschaft IgH
*
* 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 General Public License version 2, as
* published by the Free Software Foundation.
*
* The IgH EtherCAT Master 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 the IgH EtherCAT Master; if not, write to the Free Software
* Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
*
* ---
*
* 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.
*
*****************************************************************************/
/**
\file
EtherCAT master structure.
*/
/*****************************************************************************/
#ifndef __EC_MASTER_H__
#define __EC_MASTER_H__
#include <linux/version.h>
#include <linux/list.h>
#include <linux/timer.h>
#include <linux/wait.h>
#include <linux/kthread.h>
#if LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 27)
#include <linux/semaphore.h>
#else
#include <asm/semaphore.h>
#endif
#include "device.h"
#include "domain.h"
#include "ethernet.h"
#include "fsm_master.h"
#include "cdev.h"
#ifdef EC_RTDM
#include "rtdm.h"
#endif
/*****************************************************************************/
/** Convenience macro for printing master-specific information to syslog.
*
* This will print the message in \a fmt with a prefixed "EtherCAT <INDEX>: ",
* where INDEX is the master index.
*
* \param master EtherCAT master
* \param fmt format string (like in printf())
* \param args arguments (optional)
*/
#define EC_MASTER_INFO(master, fmt, args...) \
printk(KERN_INFO "EtherCAT %u: " fmt, master->index, ##args)
/** Convenience macro for printing master-specific errors to syslog.
*
* This will print the message in \a fmt with a prefixed "EtherCAT <INDEX>: ",
* where INDEX is the master index.
*
* \param master EtherCAT master
* \param fmt format string (like in printf())
* \param args arguments (optional)
*/
#define EC_MASTER_ERR(master, fmt, args...) \
printk(KERN_ERR "EtherCAT ERROR %u: " fmt, master->index, ##args)
/** Convenience macro for printing master-specific warnings to syslog.
*
* This will print the message in \a fmt with a prefixed "EtherCAT <INDEX>: ",
* where INDEX is the master index.
*
* \param master EtherCAT master
* \param fmt format string (like in printf())
* \param args arguments (optional)
*/
#define EC_MASTER_WARN(master, fmt, args...) \
printk(KERN_WARNING "EtherCAT WARNING %u: " fmt, master->index, ##args)
/** Convenience macro for printing master-specific debug messages to syslog.
*
* This will print the message in \a fmt with a prefixed "EtherCAT <INDEX>: ",
* where INDEX is the master index.
*
* \param master EtherCAT master
* \param level Debug level. Master's debug level must be >= \a level for
* output.
* \param fmt format string (like in printf())
* \param args arguments (optional)
*/
#define EC_MASTER_DBG(master, level, fmt, args...) \
do { \
if (master->debug_level >= level) { \
printk(KERN_DEBUG "EtherCAT DEBUG %u: " fmt, \
master->index, ##args); \
} \
} while (0)
/** Size of the external datagram ring.
*
* The external datagram ring is used for slave FSMs.
*/
#define EC_EXT_RING_SIZE 32
/*****************************************************************************/
/** EtherCAT master phase.
*/
typedef enum {
EC_ORPHANED, /**< Orphaned phase. The master has no Ethernet device
attached. */
EC_IDLE, /**< Idle phase. An Ethernet device is attached, but the master
is not in use, yet. */
EC_OPERATION /**< Operation phase. The master was requested by a realtime
application. */
} ec_master_phase_t;
/*****************************************************************************/
/** Cyclic statistics.
*/
typedef struct {
unsigned int timeouts; /**< datagram timeouts */
unsigned int corrupted; /**< corrupted frames */
unsigned int unmatched; /**< unmatched datagrams (received, but not
queued any longer) */
unsigned long output_jiffies; /**< time of last output */
} ec_stats_t;
/*****************************************************************************/
/** Device statistics.
*/
typedef struct {
u64 tx_count; /**< Number of frames sent. */
u64 last_tx_count; /**< Number of frames sent of last statistics cycle. */
u64 rx_count; /**< Number of frames received. */
u64 last_rx_count; /**< Number of frames received of last statistics
cycle. */
u64 tx_bytes; /**< Number of bytes sent. */
u64 last_tx_bytes; /**< Number of bytes sent of last statistics cycle. */
u64 rx_bytes; /**< Number of bytes received. */
u64 last_rx_bytes; /**< Number of bytes received of last statistics cycle.
*/
u64 last_loss; /**< Tx/Rx difference of last statistics cycle. */
s32 tx_frame_rates[EC_RATE_COUNT]; /**< Transmit rates in frames/s for
different statistics cycle periods.
*/
s32 rx_frame_rates[EC_RATE_COUNT]; /**< Receive rates in frames/s for
different statistics cycle periods.
*/
s32 tx_byte_rates[EC_RATE_COUNT]; /**< Transmit rates in byte/s for
different statistics cycle periods. */
s32 rx_byte_rates[EC_RATE_COUNT]; /**< Receive rates in byte/s for
different statistics cycle periods. */
s32 loss_rates[EC_RATE_COUNT]; /**< Frame loss rates for different
statistics cycle periods. */
unsigned long jiffies; /**< Jiffies of last statistic cycle. */
} ec_device_stats_t;
/*****************************************************************************/
#if EC_MAX_NUM_DEVICES < 1
#error Invalid number of devices
#endif
/*****************************************************************************/
/** EtherCAT master.
*
* Manages slaves, domains and IO.
*/
struct ec_master {
unsigned int index; /**< Index. */
unsigned int reserved; /**< \a True, if the master is in use. */
ec_cdev_t cdev; /**< Master character device. */
#if LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 26)
struct device *class_device; /**< Master class device. */
#else
struct class_device *class_device; /**< Master class device. */
#endif
#ifdef EC_RTDM
ec_rtdm_dev_t rtdm_dev; /**< RTDM device. */
#endif
struct semaphore master_sem; /**< Master semaphore. */
ec_device_t devices[EC_MAX_NUM_DEVICES]; /**< EtherCAT devices. */
const uint8_t *macs[EC_MAX_NUM_DEVICES]; /**< Device MAC addresses. */
#if EC_MAX_NUM_DEVICES > 1
unsigned int num_devices; /**< Number of devices. Access this always via
ec_master_num_devices(), because it may be
optimized! */
#endif
struct semaphore device_sem; /**< Device semaphore. */
ec_device_stats_t device_stats; /**< Device statistics. */
ec_fsm_master_t fsm; /**< Master state machine. */
ec_datagram_t fsm_datagram; /**< Datagram used for state machines. */
ec_master_phase_t phase; /**< Master phase. */
unsigned int active; /**< Master has been activated. */
unsigned int config_changed; /**< The configuration changed. */
unsigned int injection_seq_fsm; /**< Datagram injection sequence number
for the FSM side. */
unsigned int injection_seq_rt; /**< Datagram injection sequence number
for the realtime side. */
ec_slave_t *slaves; /**< Array of slaves on the bus. */
unsigned int slave_count; /**< Number of slaves on the bus. */
/* Configuration applied by the application. */
struct list_head configs; /**< List of slave configurations. */
struct list_head domains; /**< List of domains. */
u64 app_time; /**< Time of the last ecrt_master_sync() call. */
u64 app_start_time; /**< Application start time. */
u8 has_app_time; /**< Application time is valid. */
ec_datagram_t ref_sync_datagram; /**< Datagram used for synchronizing the
reference clock to the master clock. */
ec_datagram_t sync_datagram; /**< Datagram used for DC drift
compensation. */
ec_datagram_t sync_mon_datagram; /**< Datagram used for DC synchronisation
monitoring. */
ec_slave_config_t *dc_ref_config; /**< Application-selected DC reference
clock slave config. */
ec_slave_t *dc_ref_clock; /**< DC reference clock slave. */
unsigned int scan_busy; /**< Current scan state. */
unsigned int allow_scan; /**< \a True, if slave scanning is allowed. */
struct semaphore scan_sem; /**< Semaphore protecting the \a scan_busy
variable and the \a allow_scan flag. */
wait_queue_head_t scan_queue; /**< Queue for processes that wait for
slave scanning. */
unsigned int config_busy; /**< State of slave configuration. */
struct semaphore config_sem; /**< Semaphore protecting the \a config_busy
variable and the allow_config flag. */
wait_queue_head_t config_queue; /**< Queue for processes that wait for
slave configuration. */
struct list_head datagram_queue; /**< Datagram queue. */
uint8_t datagram_index; /**< Current datagram index. */
struct list_head ext_datagram_queue; /**< Queue for non-application
datagrams. */
struct semaphore ext_queue_sem; /**< Semaphore protecting the \a
ext_datagram_queue. */
ec_datagram_t ext_datagram_ring[EC_EXT_RING_SIZE]; /**< External datagram
ring. */
unsigned int ext_ring_idx_rt; /**< Index in external datagram ring for RT
side. */
unsigned int ext_ring_idx_fsm; /**< Index in external datagram ring for
FSM side. */
unsigned int send_interval; /**< Interval between two calls to
ecrt_master_send(). */
size_t max_queue_size; /**< Maximum size of datagram queue */
ec_slave_t *fsm_slave; /**< Slave that is queried next for FSM exec. */
struct list_head fsm_exec_list; /**< Slave FSM execution list. */
unsigned int fsm_exec_count; /**< Number of entries in execution list. */
unsigned int debug_level; /**< Master debug level. */
ec_stats_t stats; /**< Cyclic statistics. */
struct task_struct *thread; /**< Master thread. */
#ifdef EC_EOE
struct task_struct *eoe_thread; /**< EoE thread. */
struct list_head eoe_handlers; /**< Ethernet over EtherCAT handlers. */
#endif
struct semaphore io_sem; /**< Semaphore used in \a IDLE phase. */
void (*send_cb)(void *); /**< Current send datagrams callback. */
void (*receive_cb)(void *); /**< Current receive datagrams callback. */
void *cb_data; /**< Current callback data. */
void (*app_send_cb)(void *); /**< Application's send datagrams
callback. */
void (*app_receive_cb)(void *); /**< Application's receive datagrams
callback. */
void *app_cb_data; /**< Application callback data. */
struct list_head sii_requests; /**< SII write requests. */
struct list_head emerg_reg_requests; /**< Emergency register access
requests. */
wait_queue_head_t request_queue; /**< Wait queue for external requests
from user space. */
};
/*****************************************************************************/
// static funtions
void ec_master_init_static(void);
// master creation/deletion
int ec_master_init(ec_master_t *, unsigned int, const uint8_t *,
const uint8_t *, dev_t, struct class *, unsigned int);
void ec_master_clear(ec_master_t *);
/** Number of Ethernet devices.
*/
#if EC_MAX_NUM_DEVICES > 1
#define ec_master_num_devices(MASTER) ((MASTER)->num_devices)
#else
#define ec_master_num_devices(MASTER) 1
#endif
// phase transitions
int ec_master_enter_idle_phase(ec_master_t *);
void ec_master_leave_idle_phase(ec_master_t *);
int ec_master_enter_operation_phase(ec_master_t *);
void ec_master_leave_operation_phase(ec_master_t *);
#ifdef EC_EOE
// EoE
void ec_master_eoe_start(ec_master_t *);
void ec_master_eoe_stop(ec_master_t *);
#endif
// datagram IO
void ec_master_receive_datagrams(ec_master_t *, ec_device_t *,
const uint8_t *, size_t);
void ec_master_queue_datagram(ec_master_t *, ec_datagram_t *);
void ec_master_queue_datagram_ext(ec_master_t *, ec_datagram_t *);
// misc.
void ec_master_set_send_interval(ec_master_t *, unsigned int);
void ec_master_attach_slave_configs(ec_master_t *);
ec_slave_t *ec_master_find_slave(ec_master_t *, uint16_t, uint16_t);
const ec_slave_t *ec_master_find_slave_const(const ec_master_t *, uint16_t,
uint16_t);
void ec_master_output_stats(ec_master_t *);
#ifdef EC_EOE
void ec_master_clear_eoe_handlers(ec_master_t *);
#endif
void ec_master_clear_slaves(ec_master_t *);
unsigned int ec_master_config_count(const ec_master_t *);
ec_slave_config_t *ec_master_get_config(
const ec_master_t *, unsigned int);
const ec_slave_config_t *ec_master_get_config_const(
const ec_master_t *, unsigned int);
unsigned int ec_master_domain_count(const ec_master_t *);
ec_domain_t *ec_master_find_domain(ec_master_t *, unsigned int);
const ec_domain_t *ec_master_find_domain_const(const ec_master_t *,
unsigned int);
#ifdef EC_EOE
uint16_t ec_master_eoe_handler_count(const ec_master_t *);
const ec_eoe_t *ec_master_get_eoe_handler_const(const ec_master_t *, uint16_t);
#endif
int ec_master_debug_level(ec_master_t *, unsigned int);
ec_domain_t *ecrt_master_create_domain_err(ec_master_t *);
ec_slave_config_t *ecrt_master_slave_config_err(ec_master_t *, uint16_t,
uint16_t, uint32_t, uint32_t);
void ec_master_calc_dc(ec_master_t *);
void ec_master_request_op(ec_master_t *);
void ec_master_internal_send_cb(void *);
void ec_master_internal_receive_cb(void *);
extern const unsigned int rate_intervals[EC_RATE_COUNT]; // see master.c
/*****************************************************************************/
#endif