/*
* Copyright (c) 2010-2013 embedded brains GmbH. All rights reserved.
*
* embedded brains GmbH
* Dornierstr. 4
* 82178 Puchheim
* Germany
* <rtems@embedded-brains.de>
*
* The license and distribution terms for this file may be
* found in the file LICENSE in this distribution or at
* http://www.rtems.org/license/LICENSE.
*/
#ifndef GEN5200_BESTCOMM_H
#define GEN5200_BESTCOMM_H
#include "bestcomm_ops.h"
#include <assert.h>
#include <rtems.h>
#include <bsp/mpc5200.h>
#include <bsp/bestcomm/bestcomm_api.h>
#include <bsp/bestcomm/bestcomm_glue.h>
#ifdef __cplusplus
extern "C" {
#endif /* __cplusplus */
/**
* @defgroup BestComm BestComm Support
*
* @ingroup RTEMSBSPsPowerPCGen5200
*
* @brief BestComm support.
*
* @{
*/
typedef struct {
uint32_t *tdt_begin;
uint32_t *tdt_last;
volatile uint32_t (*var_table)[32];
uint32_t fdt_and_pragmas;
uint32_t reserved_0;
uint32_t reserved_1;
uint32_t *context_begin;
uint32_t reserved_2;
} bestcomm_task_entry;
#define BESTCOMM_TASK_ENTRY_TABLE ((volatile bestcomm_task_entry *) 0xf0008000)
#define BESTCOMM_IRQ_EVENT RTEMS_EVENT_13
typedef struct {
int task_index;
rtems_id event_task_id;
} bestcomm_irq;
void bestcomm_irq_create(bestcomm_irq *self, int task_index);
void bestcomm_irq_destroy(const bestcomm_irq *self);
static inline void bestcomm_irq_enable(const bestcomm_irq *self)
{
bestcomm_glue_irq_enable(self->task_index);
}
static inline void bestcomm_irq_disable(const bestcomm_irq *self)
{
bestcomm_glue_irq_disable(self->task_index);
}
static inline void bestcomm_irq_clear(const bestcomm_irq *self)
{
SDMA_CLEAR_IEVENT(&mpc5200.sdma.IntPend, self->task_index);
}
static inline int bestcomm_irq_get_task_index(const bestcomm_irq *self)
{
return self->task_index;
}
static inline rtems_id bestcomm_irq_get_event_task_id(const bestcomm_irq *self)
{
return self->event_task_id;
}
static inline void bestcomm_irq_set_event_task_id(bestcomm_irq *self, rtems_id id)
{
self->event_task_id = id;
}
static inline void bestcomm_irq_wakeup_event_task(const bestcomm_irq *self)
{
rtems_status_code sc = rtems_event_send(self->event_task_id, BESTCOMM_IRQ_EVENT);
assert(sc == RTEMS_SUCCESSFUL);
(void) sc;
}
static inline void bestcomm_irq_wait(const bestcomm_irq *self)
{
rtems_event_set events;
rtems_status_code sc = rtems_event_receive(
BESTCOMM_IRQ_EVENT,
RTEMS_EVENT_ALL | RTEMS_WAIT,
RTEMS_NO_TIMEOUT,
&events
);
assert(sc == RTEMS_SUCCESSFUL);
assert(events == BESTCOMM_IRQ_EVENT);
(void) sc;
}
static inline bool bestcomm_irq_peek(const bestcomm_irq *self)
{
rtems_event_set events;
rtems_status_code sc = rtems_event_receive(0, 0, 0, &events);
assert(sc == RTEMS_SUCCESSFUL);
(void) sc;
return (events & BESTCOMM_IRQ_EVENT) != 0;
}
typedef struct {
volatile uint16_t *task_control_register;
volatile uint32_t (*variable_table)[32];
TaskId task_index;
bestcomm_irq irq;
uint32_t *tdt_begin;
size_t tdt_opcode_count;
} bestcomm_task;
void bestcomm_task_create(bestcomm_task *self, TaskId task_index);
void bestcomm_task_create_and_load(
bestcomm_task *self,
TaskId task_index,
const uint32_t *tdt_source_begin,
size_t tdt_size
);
void bestcomm_task_destroy(bestcomm_task *self);
void bestcomm_task_load(bestcomm_task *self, const uint32_t *tdt_source_begin, size_t tdt_size);
static inline void bestcomm_task_set_priority(bestcomm_task *self, int priority)
{
/* Allow higher priority initiator to block current initiator */
mpc5200.sdma.ipr[self->task_index] = SDMA_IPR_PRIOR(priority);
}
static inline void bestcomm_task_irq_enable(const bestcomm_task *self)
{
bestcomm_irq_enable(&self->irq);
}
static inline void bestcomm_task_irq_disable(const bestcomm_task *self)
{
bestcomm_irq_disable(&self->irq);
}
static inline void bestcomm_task_irq_clear(const bestcomm_task *self)
{
bestcomm_irq_clear(&self->irq);
}
static inline rtems_id bestcomm_task_get_event_task_id(const bestcomm_task *self)
{
return bestcomm_irq_get_event_task_id(&self->irq);
}
static inline void bestcomm_task_set_event_task_id(bestcomm_task *self, rtems_id id)
{
bestcomm_irq_set_event_task_id(&self->irq, id);
}
static inline void bestcomm_task_associate_with_current_task(bestcomm_task *self)
{
bestcomm_task_set_event_task_id(self, rtems_task_self());
}
static inline void bestcomm_task_start(const bestcomm_task *self)
{
*self->task_control_register = SDMA_TCR_EN | SDMA_TCR_HIGH_EN;
}
static inline void bestcomm_task_start_with_autostart(const bestcomm_task *self)
{
*self->task_control_register = (uint16_t)
(SDMA_TCR_EN | SDMA_TCR_HIGH_EN | SDMA_TCR_AUTO_START | SDMA_TCR_AS(self->task_index));
}
static inline void bestcomm_task_stop(const bestcomm_task *self)
{
*self->task_control_register = 0;
}
static inline void bestcomm_task_wakeup_event_task(const bestcomm_task *self)
{
bestcomm_irq_wakeup_event_task(&self->irq);
}
static inline void bestcomm_task_wait(const bestcomm_task *self)
{
bestcomm_irq_wait(&self->irq);
}
static inline bool bestcomm_task_peek(const bestcomm_task *self)
{
return bestcomm_irq_peek(&self->irq);
}
static inline bool bestcomm_task_is_running(const bestcomm_task *self)
{
return (*self->task_control_register & SDMA_TCR_EN) != 0;
}
static inline uint32_t bestcomm_get_task_variable(const bestcomm_task *self, size_t index)
{
assert(index < VAR_COUNT);
return (*self->variable_table)[index];
}
static inline volatile uint32_t *bestcomm_task_get_address_of_variable(const bestcomm_task *self, size_t index)
{
assert(index < VAR_COUNT);
return &(*self->variable_table)[index];
}
static inline void bestcomm_task_set_variable(const bestcomm_task *self, size_t index, uint32_t value)
{
assert(index < VAR_COUNT);
(*self->variable_table)[index] = value;
}
static inline uint32_t bestcomm_task_get_increment_and_condition(const bestcomm_task *self, size_t index)
{
assert(index < INC_COUNT);
return (*self->variable_table)[INC(index)];
}
static inline void bestcomm_task_set_increment_and_condition_32(
const bestcomm_task *self,
size_t index,
uint32_t inc_and_cond
)
{
assert(index < INC_COUNT);
(*self->variable_table)[INC(index)] = inc_and_cond;
}
static inline void bestcomm_task_set_increment_and_condition(
const bestcomm_task *self,
size_t index,
int16_t inc,
int cond
)
{
bestcomm_task_set_increment_and_condition_32(self, index, INC_INIT(cond, inc));
}
static inline void bestcomm_task_set_increment(const bestcomm_task *self, size_t index, int16_t inc)
{
bestcomm_task_set_increment_and_condition_32(self, index, INC_INIT(0, inc));
}
void bestcomm_task_clear_variables(const bestcomm_task *self);
static inline uint32_t bestcomm_task_get_opcode(const bestcomm_task *self, size_t index)
{
assert(index < self->tdt_opcode_count);
return self->tdt_begin[index];
}
static inline void bestcomm_task_set_opcode(bestcomm_task *self, size_t index, uint32_t opcode)
{
assert(index < self->tdt_opcode_count);
self->tdt_begin[index] = opcode;
}
static inline void bestcomm_task_set_initiator(const bestcomm_task *self, int initiator)
{
rtems_interrupt_level level;
rtems_interrupt_disable(level);
*self->task_control_register = BSP_BFLD16SET(*self->task_control_register, initiator, 3, 7);
rtems_interrupt_enable(level);
}
static inline volatile bestcomm_task_entry *bestcomm_task_get_task_entry(const bestcomm_task *self)
{
return &BESTCOMM_TASK_ENTRY_TABLE[self->task_index];
}
static inline void bestcomm_task_set_pragma(const bestcomm_task *self, int bit_pos, bool enable)
{
volatile bestcomm_task_entry *entry = bestcomm_task_get_task_entry(self);
uint32_t mask = BSP_BIT32(bit_pos);
uint32_t bit = enable ? mask : 0;
entry->fdt_and_pragmas = (entry->fdt_and_pragmas & ~mask) | bit;
}
static inline void bestcomm_task_enable_precise_increment(const bestcomm_task *self, bool enable)
{
bestcomm_task_set_pragma(self, SDMA_PRAGMA_BIT_PRECISE_INC, enable);
}
static inline void bestcomm_task_enable_error_reset(const bestcomm_task *self, bool enable)
{
bestcomm_task_set_pragma(self, SDMA_PRAGMA_BIT_RST_ERROR_NO, !enable);
}
static inline void bestcomm_task_enable_pack_data(const bestcomm_task *self, bool enable)
{
bestcomm_task_set_pragma(self, SDMA_PRAGMA_BIT_PACK, enable);
}
static inline void bestcomm_task_enable_integer_mode(const bestcomm_task *self, bool enable)
{
bestcomm_task_set_pragma(self, SDMA_PRAGMA_BIT_INTEGER, enable);
}
static inline void bestcomm_task_enable_speculative_read(const bestcomm_task *self, bool enable)
{
bestcomm_task_set_pragma(self, SDMA_PRAGMA_BIT_SPECREAD, enable);
}
static inline void bestcomm_task_enable_combined_write(const bestcomm_task *self, bool enable)
{
bestcomm_task_set_pragma(self, SDMA_PRAGMA_BIT_CW, enable);
}
static inline void bestcomm_task_enable_read_buffer(const bestcomm_task *self, bool enable)
{
bestcomm_task_set_pragma(self, SDMA_PRAGMA_BIT_RL, enable);
}
static inline volatile uint16_t *bestcomm_task_get_task_control_register(const bestcomm_task *self)
{
return self->task_control_register;
}
static inline int bestcomm_task_get_task_index(const bestcomm_task *self)
{
return self->task_index;
}
static inline void bestcomm_task_free_tdt(bestcomm_task *self)
{
bestcomm_free(self->tdt_begin);
self->tdt_begin = NULL;
}
static inline void bestcomm_task_clear_pragmas(const bestcomm_task *self)
{
volatile bestcomm_task_entry *entry = bestcomm_task_get_task_entry(self);
entry->fdt_and_pragmas &= ~0xffU;
}
/** @} */
#ifdef __cplusplus
}
#endif /* __cplusplus */
#endif /* GEN5200_BESTCOMM_H */
