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caa17577ef
zephyr/kernel/nanokernel/nano_lifo.c
Juan Manuel Cruz caa17577ef debug: kernel's object tracing api 
Restructure the kernel's object tracing implementation
to provide a public API that allows debug tools to use
the debug hooks easier and allows kernel developers
to extend the kernel's object tracing scope and include
new kernel objects easier.

The API provides the trace list abstraction to keep track
of different types of kernel objects. The API contains
a simple single-linked list implementation that allows
to save space and simplifies the access to the data for
debug tools such as gdb.

Change-Id: Ic4d393d584576f67f2c5b706e61bae08869debba
Signed-off-by: Juan Manuel Cruz <juan.m.cruz.alcaraz@intel.com>
2016-03-11 12:00:07 +00:00

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/*
* Copyright (c) 2010-2015 Wind River Systems, Inc.
*
* Licensed 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.
*/
/** @file
*
* @brief Nanokernel dynamic-size LIFO queue object
*
* This module provides the nanokernel LIFO object implementation, including
* the following APIs:
*
* nano_lifo_init
* nano_fiber_lifo_put, nano_task_lifo_put, nano_isr_lifo_put
* nano_fiber_lifo_get, nano_task_lifo_get, nano_isr_lifo_get
* nano_lifo_get
*/
/** INTERNAL
*
* In some cases the compiler "alias" attribute is used to map two or more
* APIs to the same function, since they have identical implementations.
*/
#include <nano_private.h>
#include <misc/debug/object_tracing_common.h>
#include <toolchain.h>
#include <sections.h>
#include <wait_q.h>
/** INTERNAL
*
* Although the existing implementation will support invocation from an ISR
* context, for future flexibility, this API will be restricted from ISR
* level invocation.
*/
void nano_lifo_init(struct nano_lifo *lifo)
{
lifo->list = (void *) 0;
_nano_wait_q_init(&lifo->wait_q);
SYS_TRACING_OBJ_INIT(nano_lifo, lifo);
}
FUNC_ALIAS(_lifo_put_non_preemptible, nano_isr_lifo_put, void);
FUNC_ALIAS(_lifo_put_non_preemptible, nano_fiber_lifo_put, void);
/** INTERNAL
*
* This function is capable of supporting invocations from both a fiber and an
* ISR context. However, the nano_isr_lifo_put and nano_fiber_lifo_put aliases
* are created to support any required implementation differences in the future
* without introducing a source code migration issue.
*/
void _lifo_put_non_preemptible(struct nano_lifo *lifo, void *data)
{
struct tcs *tcs;
unsigned int imask;
imask = irq_lock();
tcs = _nano_wait_q_remove(&lifo->wait_q);
if (tcs) {
_nano_timeout_abort(tcs);
fiberRtnValueSet(tcs, (unsigned int) data);
} else {
*(void **) data = lifo->list;
lifo->list = data;
}
irq_unlock(imask);
}
void nano_task_lifo_put(struct nano_lifo *lifo, void *data)
{
struct tcs *tcs;
unsigned int imask;
imask = irq_lock();
tcs = _nano_wait_q_remove(&lifo->wait_q);
if (tcs) {
_nano_timeout_abort(tcs);
fiberRtnValueSet(tcs, (unsigned int) data);
_Swap(imask);
return;
}
*(void **) data = lifo->list;
lifo->list = data;
irq_unlock(imask);
}
void nano_lifo_put(struct nano_lifo *lifo, void *data)
{
static void (*func[3])(struct nano_lifo *, void *) = {
nano_isr_lifo_put,
nano_fiber_lifo_put,
nano_task_lifo_put
};
func[sys_execution_context_type_get()](lifo, data);
}
FUNC_ALIAS(_lifo_get, nano_isr_lifo_get, void *);
FUNC_ALIAS(_lifo_get, nano_fiber_lifo_get, void *);
void *_lifo_get(struct nano_lifo *lifo, int32_t timeout_in_ticks)
{
void *data = NULL;
unsigned int imask;
imask = irq_lock();
if (likely(lifo->list != NULL)) {
data = lifo->list;
lifo->list = *(void **) data;
} else if (timeout_in_ticks != TICKS_NONE) {
_NANO_TIMEOUT_ADD(&lifo->wait_q, timeout_in_ticks);
_nano_wait_q_put(&lifo->wait_q);
data = (void *) _Swap(imask);
return data;
}
irq_unlock(imask);
return data;
}
void *nano_task_lifo_get(struct nano_lifo *lifo, int32_t timeout_in_ticks)
{
int64_t cur_ticks;
int64_t limit = 0x7fffffffffffffffll;
unsigned int imask;
imask = irq_lock();
cur_ticks = _NANO_TIMEOUT_TICK_GET();
if (timeout_in_ticks != TICKS_UNLIMITED) {
limit = cur_ticks + timeout_in_ticks;
}
do {
/*
* Predict that the branch will be taken to break out of the
* loop. There is little cost to a misprediction since that
* leads to idle.
*/
if (likely(lifo->list != NULL)) {
void *data = lifo->list;
lifo->list = *(void **) data;
irq_unlock(imask);
return data;
}
if (timeout_in_ticks != TICKS_NONE) {
_NANO_TIMEOUT_SET_TASK_TIMEOUT(timeout_in_ticks);
/* see explanation in
* nano_stack.c:nano_task_stack_pop()
*/
nano_cpu_atomic_idle(imask);
imask = irq_lock();
cur_ticks = _NANO_TIMEOUT_TICK_GET();
}
} while (cur_ticks < limit);
irq_unlock(imask);
return NULL;
}
void *nano_lifo_get(struct nano_lifo *lifo, int32_t timeout)
{
static void *(*func[3])(struct nano_lifo *, int32_t) = {
nano_isr_lifo_get,
nano_fiber_lifo_get,
nano_task_lifo_get
};
return func[sys_execution_context_type_get()](lifo, timeout);
}
/*
* @brief Get first element from lifo and panic if NULL
*
* Get the first element from the specified lifo but generate a fatal error
* if the element is NULL.
*
* @param lifo LIFO from which to receive.
*
* @return Pointer to first element in the list
*/
void *_nano_fiber_lifo_get_panic(struct nano_lifo *lifo)
{
void *element;
element = nano_fiber_lifo_get(lifo, TICKS_NONE);
if (element == NULL) {
_NanoFatalErrorHandler(_NANO_ERR_ALLOCATION_FAIL, &_default_esf);
}
return element;
}
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