nuttx/mm/mm_gran/mm_grantable.h

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/****************************************************************************
* mm/mm_gran/mm_grantable.h
*
* SPDX-License-Identifier: Apache-2.0
*
* Licensed to the Apache Software Foundation (ASF) under one or more
* contributor license agreements. See the NOTICE file distributed with
* this work for additional information regarding copyright ownership. The
* ASF licenses this file to you 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.
*
****************************************************************************/
#ifndef __MM_MM_GRAN_MM_GRANTABLE_H
#define __MM_MM_GRAN_MM_GRANTABLE_H
/****************************************************************************
* Pre-processor Definitions
****************************************************************************/
/* Granule arithmetics */
#define GRANSIZE(g) (1 << g->log2gran)
#define GRANMASK(g) (GRANSIZE(g) - 1)
#define NGRANULE(g, s) ((s + GRANMASK(g)) >> g->log2gran)
#define GRANBYTE(g) ((size_t)g->ngranules << g->log2gran)
#define GRANENDA(g) (GRANBYTE(g) + g->heapstart)
#define MEM2GRAN(g, m) ((((uintptr_t)m) - g->heapstart) >> g->log2gran)
#define GRAN2MEM(g, x) ((((uintptr_t)x) << g->log2gran) + g->heapstart)
#define ALIGNMASK(g) ((1 << g->log2align) - 1)
#define GRAN_ALIGNED(g, m) ((((uintptr_t)(m)) & ALIGNMASK(g)) == 0)
#define GRAN_INRANGE(g, m) (g->heapstart <= (uintptr_t)(m) && \
(uintptr_t)(m) < GRANENDA(g))
#define GRAN_PRODUCT(g, m) (GRAN_ALIGNED(g, m) && GRAN_INRANGE(g, m))
#define ALIGNDN(g, m) (((size_t)m) & ~GRANMASK(g))
#define ALIGNUP(g, m) ((((size_t)m) + GRANMASK(g)) & ~GRANMASK(g))
/* gran_reserve related */
#define MEM_RSRV(g, m) ALIGNDN(g, m)
#define END_RSRV(g, m, s) ALIGNUP(g, (((size_t)m) + s - 1))
#define NUM_RSRV(g, m, s) (((END_RSRV(g, m, s) - MEM_RSRV(g, m)) \
>> g->log2gran) + 1)
#define LEN_RSRV(g, m, s) ((size_t)(NUM_RSRV(g, m, s) << g->log2gran))
/* GAT table related */
#define GATC_BITS(g) (sizeof(g->gat[0]) << 3)
/****************************************************************************
* Public Types
****************************************************************************/
/* Structure for a range of granules in GAT */
struct gran_range_s
{
uint16_t sidx; /* index of the starting GAT cell */
uint16_t eidx; /* index of the ending GAT cell */
uint8_t soff; /* offset of bit in starting cell */
uint8_t eoff; /* offset of bit in ending cell */
uint16_t width; /* width of cell in bits */
uint32_t smask; /* mask of the starting GAT cell */
uint32_t emask; /* mask of the ending GAT cell */
};
typedef struct gran_range_s gatr_t;
typedef struct gran_s gran_t;
/****************************************************************************
* Public Function Prototypes
****************************************************************************/
/****************************************************************************
* Name: gran_range
*
* Description:
* populate a gran_range_s instance for later use
*
* Input Parameters:
* gran - Pointer to the gran state
* posi - Position of starting granule
* size - Length of range
*
* Output Parameters:
* rang - The range instance to be prepared
*
* Return value:
* OK or negative errno
****************************************************************************/
int gran_range(const gran_t *gran, size_t posi, size_t size, gatr_t *rang);
/****************************************************************************
* Name: gran_match
*
* Description:
* check if a continuous range of granules all have expected status
*
* Input Parameters:
* gran - Pointer to the gran state
* posi - Position of starting granule
* size - Length of range
* used - Expected state, true for used, false for empty.
*
* Output Parameters:
* mism - Optional last failed position upon free range matching.
*
* Return value:
* true for match, false otherwise.
****************************************************************************/
bool gran_match(const gran_t *gran, size_t posi, size_t size, bool used,
size_t *mism);
/****************************************************************************
* Name: gran_search
*
* Description:
* search for continuous range of free granules
*
* Input Parameters:
* gran - Pointer to the gran state
* size - Length of range
*
* Return value:
* position of negative error number.
****************************************************************************/
int gran_search(const gran_t *gran, size_t size);
/****************************************************************************
* Name: gran_set, gran_clear
*
* Description:
* Set or clear a range of granule in the GAT
*
* Input Parameters:
* gran - Pointer to the gran state
* posi - Range starting bit index
* size - Range size
*
* Return value:
* OK on success or negative value on error
****************************************************************************/
int gran_set(gran_t *gran, size_t posi, size_t size);
int gran_clear(gran_t *gran, size_t posi, size_t size);
#endif /* __MM_MM_GRAN_MM_GRANTABLE_H */