kernel/microkernel/k_memory_map.c - third_party/github/zephyrproject-rtos/zephyr - Git at Google

 /*
  * Copyright (c) 1997-2010, 2013-2014 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 Memory map kernel services.
  */

 #include <micro_private.h>
 #include <sections.h>

 #include <microkernel/memory_map.h>

 extern kmemory_map_t _k_mem_map_ptr_start[];
 extern kmemory_map_t _k_mem_map_ptr_end[];

 /**
  * @brief Initialize kernel memory map subsystem
  *
  * Perform any initialization of memory maps that wasn't done at build time.
  */
 void _k_mem_map_init(void)
 {
 	int j, w;
 	kmemory_map_t *id;
 	struct _k_mem_map_struct *M;

 	for (id = _k_mem_map_ptr_start; id < _k_mem_map_ptr_end; id++) {
 		char *p;
 		char *q;

 		M = (struct _k_mem_map_struct *)(*id);

 		M->waiters = NULL;

 		w = OCTET_TO_SIZEOFUNIT(M->element_size);

 		p = M->base;
 		q = NULL;

 		for (j = 0; j < M->Nelms; j++) {
 			*(char **)p = q;
 			q = p;
 			p += w;
 		}
 		M->free = q;
 		M->num_used = 0;
 		M->high_watermark = 0;
 		M->count = 0;
 	}
 }

 /**
  * @brief Finish handling a memory map block allocation request that timed out
  */
 void _k_mem_map_alloc_timeout(struct k_args *A)
 {
 	_k_timeout_free(A->Time.timer);
 	REMOVE_ELM(A);
 	A->Time.rcode = RC_TIME;
 	_k_state_bit_reset(A->Ctxt.task, TF_ALLO);
 }

 /**
  * @brief Handle a request to allocate a memory map block
  */
 void _k_mem_map_alloc(struct k_args *A)
 {
 	struct _k_mem_map_struct *M =
 	    (struct _k_mem_map_struct *)(A->args.a1.mmap);

 	if (M->free != NULL) {
 		*(A->args.a1.mptr) = M->free;
 		M->free = *(char **)(M->free);
 		M->num_used++;

 #ifdef CONFIG_OBJECT_MONITOR
 		M->count++;
 		if (M->high_watermark < M->num_used)
 			M->high_watermark = M->num_used;
 #endif

 		A->Time.rcode = RC_OK;
 		return;
 	}

 	*(A->args.a1.mptr) = NULL;

 	if (likely(A->Time.ticks != TICKS_NONE)) {
 		A->priority = _k_current_task->priority;
 		A->Ctxt.task = _k_current_task;
 		_k_state_bit_set(_k_current_task, TF_ALLO);
 		INSERT_ELM(M->waiters, A);
 #ifdef CONFIG_SYS_CLOCK_EXISTS
 		if (A->Time.ticks == TICKS_UNLIMITED)
 			A->Time.timer = NULL;
 		else {
 			A->Comm = _K_SVC_MEM_MAP_ALLOC_TIMEOUT;
 			_k_timeout_alloc(A);
 		}
 #endif
 	} else
 		A->Time.rcode = RC_FAIL;
 }

 int task_mem_map_alloc(kmemory_map_t mmap, void **mptr, int32_t timeout)
 {
 	struct k_args A;

 	A.Comm = _K_SVC_MEM_MAP_ALLOC;
 	A.Time.ticks = timeout;
 	A.args.a1.mmap = mmap;
 	A.args.a1.mptr = mptr;
 	KERNEL_ENTRY(&A);
 	return A.Time.rcode;
 }

 /**
  * @brief Handle a request to free a memory map block
  *
  * Give block to a waiting task, if there is one.
  */
 void _k_mem_map_dealloc(struct k_args *A)
 {
 	struct _k_mem_map_struct *M =
 	    (struct _k_mem_map_struct *)(A->args.a1.mmap);
 	struct k_args *X;

 	**(char ***)(A->args.a1.mptr) = M->free;
 	M->free = *(char **)(A->args.a1.mptr);
 	*(A->args.a1.mptr) = NULL;

 	X = M->waiters;
 	if (X) {
 		M->waiters = X->next;
 		*(X->args.a1.mptr) = M->free;
 		M->free = *(char **)(M->free);

 #ifdef CONFIG_SYS_CLOCK_EXISTS
 		if (X->Time.timer) {
 			_k_timeout_free(X->Time.timer);
 			X->Comm = _K_SVC_NOP;
 		}
 #endif
 		X->Time.rcode = RC_OK;
 		_k_state_bit_reset(X->Ctxt.task, TF_ALLO);

 #ifdef CONFIG_OBJECT_MONITOR
 		M->count++;
 #endif

 		return;
 	}
 	M->num_used--;
 }

 void _task_mem_map_free(kmemory_map_t mmap, void **mptr)
 {
 	struct k_args A;

 	A.Comm = _K_SVC_MEM_MAP_DEALLOC;
 	A.args.a1.mmap = mmap;
 	A.args.a1.mptr = mptr;
 	KERNEL_ENTRY(&A);
 }

 int task_mem_map_used_get(kmemory_map_t mmap)
 {
 	struct _k_mem_map_struct *M = (struct _k_mem_map_struct *)mmap;

 	return M->num_used;
 }
	/*
	* Copyright (c) 1997-2010, 2013-2014 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 Memory map kernel services.
	*/

	#include <micro_private.h>
	#include <sections.h>

	#include <microkernel/memory_map.h>

	extern kmemory_map_t _k_mem_map_ptr_start[];
	extern kmemory_map_t _k_mem_map_ptr_end[];

	/**
	* @brief Initialize kernel memory map subsystem
	*
	* Perform any initialization of memory maps that wasn't done at build time.
	*/
	void _k_mem_map_init(void)
	{
	int j, w;
	kmemory_map_t *id;
	struct _k_mem_map_struct *M;

	for (id = _k_mem_map_ptr_start; id < _k_mem_map_ptr_end; id++) {
	char *p;
	char *q;

	M = (struct _k_mem_map_struct )(id);

	M->waiters = NULL;

	w = OCTET_TO_SIZEOFUNIT(M->element_size);

	p = M->base;
	q = NULL;

	for (j = 0; j < M->Nelms; j++) {
	(char *)p = q;
	q = p;
	p += w;
	}
	M->free = q;
	M->num_used = 0;
	M->high_watermark = 0;
	M->count = 0;
	}
	}

	/**
	* @brief Finish handling a memory map block allocation request that timed out
	*/
	void _k_mem_map_alloc_timeout(struct k_args *A)
	{
	_k_timeout_free(A->Time.timer);
	REMOVE_ELM(A);
	A->Time.rcode = RC_TIME;
	_k_state_bit_reset(A->Ctxt.task, TF_ALLO);
	}

	/**
	* @brief Handle a request to allocate a memory map block
	*/
	void _k_mem_map_alloc(struct k_args *A)
	{
	struct _k_mem_map_struct *M =
	(struct _k_mem_map_struct *)(A->args.a1.mmap);

	if (M->free != NULL) {
	*(A->args.a1.mptr) = M->free;
	M->free = (char *)(M->free);
	M->num_used++;

	#ifdef CONFIG_OBJECT_MONITOR
	M->count++;
	if (M->high_watermark < M->num_used)
	M->high_watermark = M->num_used;
	#endif

	A->Time.rcode = RC_OK;
	return;
	}

	*(A->args.a1.mptr) = NULL;

	if (likely(A->Time.ticks != TICKS_NONE)) {
	A->priority = _k_current_task->priority;
	A->Ctxt.task = _k_current_task;
	_k_state_bit_set(_k_current_task, TF_ALLO);
	INSERT_ELM(M->waiters, A);
	#ifdef CONFIG_SYS_CLOCK_EXISTS
	if (A->Time.ticks == TICKS_UNLIMITED)
	A->Time.timer = NULL;
	else {
	A->Comm = _K_SVC_MEM_MAP_ALLOC_TIMEOUT;
	_k_timeout_alloc(A);
	}
	#endif
	} else
	A->Time.rcode = RC_FAIL;
	}

	int task_mem_map_alloc(kmemory_map_t mmap, void **mptr, int32_t timeout)
	{
	struct k_args A;

	A.Comm = _K_SVC_MEM_MAP_ALLOC;
	A.Time.ticks = timeout;
	A.args.a1.mmap = mmap;
	A.args.a1.mptr = mptr;
	KERNEL_ENTRY(&A);
	return A.Time.rcode;
	}

	/**
	* @brief Handle a request to free a memory map block
	*
	* Give block to a waiting task, if there is one.
	*/
	void _k_mem_map_dealloc(struct k_args *A)
	{
	struct _k_mem_map_struct *M =
	(struct _k_mem_map_struct *)(A->args.a1.mmap);
	struct k_args *X;

	(char *)(A->args.a1.mptr) = M->free;
	M->free = (char *)(A->args.a1.mptr);
	*(A->args.a1.mptr) = NULL;

	X = M->waiters;
	if (X) {
	M->waiters = X->next;
	*(X->args.a1.mptr) = M->free;
	M->free = (char *)(M->free);

	#ifdef CONFIG_SYS_CLOCK_EXISTS
	if (X->Time.timer) {
	_k_timeout_free(X->Time.timer);
	X->Comm = _K_SVC_NOP;
	}
	#endif
	X->Time.rcode = RC_OK;
	_k_state_bit_reset(X->Ctxt.task, TF_ALLO);

	#ifdef CONFIG_OBJECT_MONITOR
	M->count++;
	#endif

	return;
	}
	M->num_used--;
	}

	void _task_mem_map_free(kmemory_map_t mmap, void **mptr)
	{
	struct k_args A;

	A.Comm = _K_SVC_MEM_MAP_DEALLOC;
	A.args.a1.mmap = mmap;
	A.args.a1.mptr = mptr;
	KERNEL_ENTRY(&A);
	}

	int task_mem_map_used_get(kmemory_map_t mmap)
	{
	struct _k_mem_map_struct M = (struct _k_mem_map_struct )mmap;

	return M->num_used;
	}