8bf1194fe5
Freescale's QorIQ line includes a new ethernet controller, based on their Datapath Acceleration Architecture (DPAA). This uses a combination of a Frame manager, Buffer manager, and Queue manager to improve performance across all interfaces by being able to pass data directly between hardware acceleration interfaces. As part of this import, Freescale's Netcomm Software (ncsw) driver is imported. This was an attempt by Freescale to create an OS-agnostic sub-driver for managing the hardware, using shims to interface to the OS-specific APIs. This work was abandoned, and Freescale's primary work is in the Linux driver (dual BSD/GPL license). Hence, this was imported directly to sys/contrib, rather than going through the vendor area. Going forward, FreeBSD-specific changes may be made to the ncsw code, diverging from the upstream in potentially incompatible ways. An alternative could be to import the Linux driver itself, using the linuxKPI layer, as that would maintain parity with the vendor-maintained driver. However, the Linux driver has not been evaluated for reliability yet, and may have issues with the import, whereas the ncsw-based driver in this commit was completed by Semihalf 4 years ago, and is very stable. Other SoC modules based on DPAA, which could be added in the future: * Security and Encryption engine (SEC4.x, SEC5.x) * RAID engine Additional work to be done: * Implement polling mode * Test vlan support * Add support for the Pattern Matching Engine, which can do regular expression matching on packets. This driver has been tested on the P5020 QorIQ SoC. Others listed in the dtsec(4) manual page are expected to work as the same DPAA engine is included in all. Obtained from: Semihalf Relnotes: Yes Sponsored by: Alex Perez/Inertial Computing
301 lines
14 KiB
C
301 lines
14 KiB
C
/* Copyright (c) 2008-2011 Freescale Semiconductor, Inc.
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* All rights reserved.
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*
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* Redistribution and use in source and binary forms, with or without
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* modification, are permitted provided that the following conditions are met:
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* * Redistributions of source code must retain the above copyright
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* notice, this list of conditions and the following disclaimer.
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* * Redistributions in binary form must reproduce the above copyright
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* notice, this list of conditions and the following disclaimer in the
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* documentation and/or other materials provided with the distribution.
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* * Neither the name of Freescale Semiconductor nor the
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* names of its contributors may be used to endorse or promote products
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* derived from this software without specific prior written permission.
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*
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*
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* ALTERNATIVELY, this software may be distributed under the terms of the
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* GNU General Public License ("GPL") as published by the Free Software
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* Foundation, either version 2 of that License or (at your option) any
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* later version.
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*
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* THIS SOFTWARE IS PROVIDED BY Freescale Semiconductor ``AS IS'' AND ANY
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* EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
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* WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
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* DISCLAIMED. IN NO EVENT SHALL Freescale Semiconductor BE LIABLE FOR ANY
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* DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
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* (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
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* LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
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* ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
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* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
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* SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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*/
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/**************************************************************************//**
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@File mm_ext.h
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@Description Memory Manager Application Programming Interface
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*//***************************************************************************/
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#ifndef __MM_EXT
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#define __MM_EXT
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#include "std_ext.h"
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#define MM_MAX_ALIGNMENT 20 /* Alignments from 2 to 128 are available
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where maximum alignment defined as
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MM_MAX_ALIGNMENT power of 2 */
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#define MM_MAX_NAME_LEN 32
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/**************************************************************************//**
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@Group etc_id Utility Library Application Programming Interface
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@Description External routines.
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@{
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*//***************************************************************************/
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/**************************************************************************//**
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@Group mm_grp Flexible Memory Manager
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@Description Flexible Memory Manager module functions,definitions and enums.
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(All of the following functions,definitions and enums can be found in mm_ext.h)
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@{
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*//***************************************************************************/
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/**************************************************************************//**
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@Function MM_Init
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@Description Initializes a new MM object.
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It initializes a new memory block consisting of base address
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and size of the available memory by calling to MemBlock_Init
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routine. It is also initializes a new free block for each
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by calling FreeBlock_Init routine, which is pointed to
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the almost all memory started from the required alignment
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from the base address and to the end of the memory.
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The handle to the new MM object is returned via "MM"
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argument (passed by reference).
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@Param[in] h_MM - Handle to the MM object.
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@Param[in] base - Base address of the MM.
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@Param[in] size - Size of the MM.
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@Return E_OK is returned on success. E_NOMEMORY is returned if the new MM object or a new free block can not be initialized.
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*//***************************************************************************/
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t_Error MM_Init(t_Handle *h_MM, uint64_t base, uint64_t size);
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/**************************************************************************//**
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@Function MM_Get
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@Description Allocates a block of memory according to the given size and the alignment.
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The Alignment argument tells from which
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free list allocate a block of memory. 2^alignment indicates
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the alignment that the base address of the allocated block
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should have. So, the only values 1, 2, 4, 8, 16, 32 and 64
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are available for the alignment argument.
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The routine passes through the specific free list of free
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blocks and seeks for a first block that have anough memory
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that is required (best fit).
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After the block is found and data is allocated, it calls
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the internal MM_CutFree routine to update all free lists
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do not include a just allocated block. Of course, each
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free list contains a free blocks with the same alignment.
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It is also creates a busy block that holds
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information about an allocated block.
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@Param[in] h_MM - Handle to the MM object.
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@Param[in] size - Size of the MM.
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@Param[in] alignment - Index as a power of two defines a required
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alignment (in bytes); Should be 1, 2, 4, 8, 16, 32 or 64
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@Param[in] name - The name that specifies an allocated block.
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@Return base address of an allocated block ILLEGAL_BASE if can't allocate a block
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*//***************************************************************************/
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uint64_t MM_Get(t_Handle h_MM, uint64_t size, uint64_t alignment, char *name);
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/**************************************************************************//**
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@Function MM_GetBase
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@Description Gets the base address of the required MM objects.
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@Param[in] h_MM - Handle to the MM object.
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@Return base address of the block.
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*//***************************************************************************/
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uint64_t MM_GetBase(t_Handle h_MM);
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/**************************************************************************//**
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@Function MM_GetForce
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@Description Force memory allocation.
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It means to allocate a block of memory of the given
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size from the given base address.
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The routine checks if the required block can be allocated
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(that is it is free) and then, calls the internal MM_CutFree
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routine to update all free lists do not include that block.
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@Param[in] h_MM - Handle to the MM object.
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@Param[in] base - Base address of the MM.
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@Param[in] size - Size of the MM.
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@Param[in] name - Name that specifies an allocated block.
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@Return base address of an allocated block, ILLEGAL_BASE if can't allocate a block.
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*//***************************************************************************/
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uint64_t MM_GetForce(t_Handle h_MM, uint64_t base, uint64_t size, char *name);
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/**************************************************************************//**
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@Function MM_GetForceMin
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@Description Allocates a block of memory according to the given size, the alignment and minimum base address.
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The Alignment argument tells from which
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free list allocate a block of memory. 2^alignment indicates
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the alignment that the base address of the allocated block
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should have. So, the only values 1, 2, 4, 8, 16, 32 and 64
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are available for the alignment argument.
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The minimum baser address forces the location of the block
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to be from a given address onward.
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The routine passes through the specific free list of free
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blocks and seeks for the first base address equal or smaller
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than the required minimum address and end address larger than
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than the required base + its size - i.e. that may contain
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the required block.
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After the block is found and data is allocated, it calls
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the internal MM_CutFree routine to update all free lists
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do not include a just allocated block. Of course, each
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free list contains a free blocks with the same alignment.
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It is also creates a busy block that holds
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information about an allocated block.
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@Param[in] h_MM - Handle to the MM object.
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@Param[in] size - Size of the MM.
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@Param[in] alignment - Index as a power of two defines a required
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alignment (in bytes); Should be 1, 2, 4, 8, 16, 32 or 64
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@Param[in] min - The minimum base address of the block.
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@Param[in] name - Name that specifies an allocated block.
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@Return base address of an allocated block,ILLEGAL_BASE if can't allocate a block.
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*//***************************************************************************/
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uint64_t MM_GetForceMin(t_Handle h_MM,
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uint64_t size,
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uint64_t alignment,
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uint64_t min,
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char *name);
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/**************************************************************************//**
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@Function MM_Put
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@Description Puts a block of memory of the given base address back to the memory.
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It checks if there is a busy block with the
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given base address. If not, it returns 0, that
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means can't free a block. Otherwise, it gets parameters of
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the busy block and after it updates lists of free blocks,
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removes that busy block from the list by calling to MM_CutBusy
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routine.
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After that it calls to MM_AddFree routine to add a new free
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block to the free lists.
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@Param[in] h_MM - Handle to the MM object.
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@Param[in] base - Base address of the MM.
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@Return The size of bytes released, 0 if failed.
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*//***************************************************************************/
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uint64_t MM_Put(t_Handle h_MM, uint64_t base);
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/**************************************************************************//**
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@Function MM_PutForce
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@Description Releases a block of memory of the required size from the required base address.
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First, it calls to MM_CutBusy routine
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to cut a free block from the busy list. And then, calls to
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MM_AddFree routine to add the free block to the free lists.
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@Param[in] h_MM - Handle to the MM object.
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@Param[in] base - Base address of of a block to free.
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@Param[in] size - Size of a block to free.
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@Return The number of bytes released, 0 on failure.
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*//***************************************************************************/
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uint64_t MM_PutForce(t_Handle h_MM, uint64_t base, uint64_t size);
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/**************************************************************************//**
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@Function MM_Add
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@Description Adds a new memory block for memory allocation.
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When a new memory block is initialized and added to the
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memory list, it calls to MM_AddFree routine to add the
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new free block to the free lists.
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@Param[in] h_MM - Handle to the MM object.
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@Param[in] base - Base address of the memory block.
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@Param[in] size - Size of the memory block.
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@Return E_OK on success, otherwise returns an error code.
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*//***************************************************************************/
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t_Error MM_Add(t_Handle h_MM, uint64_t base, uint64_t size);
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/**************************************************************************//**
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@Function MM_Dump
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@Description Prints results of free and busy lists into the file.
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@Param[in] h_MM - Handle to the MM object.
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@Param[in] buff - A pointer to a buffer
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*//***************************************************************************/
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void MM_Dump(t_Handle h_MM, void *buff);
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/**************************************************************************//**
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@Function MM_Free
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@Description Releases memory allocated for MM object.
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@Param[in] h_MM - Handle of the MM object.
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*//***************************************************************************/
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void MM_Free(t_Handle h_MM);
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/**************************************************************************//**
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@Function MM_GetMemBlock
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@Description Returns base address of the memory block specified by the index.
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If index is 0, returns base address
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of the first memory block, 1 - returns base address
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of the second memory block, etc.
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Note, those memory blocks are allocated by the
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application before MM_Init or MM_Add and have to
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be released by the application before or after invoking
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the MM_Free routine.
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@Param[in] h_MM - Handle to the MM object.
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@Param[in] index - Index of the memory block.
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@Return valid base address or ILLEGAL_BASE if no memory block specified by the index.
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*//***************************************************************************/
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uint64_t MM_GetMemBlock(t_Handle h_MM, int index);
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/**************************************************************************//**
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@Function MM_InRange
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@Description Checks if a specific address is in the memory range of the passed MM object.
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@Param[in] h_MM - Handle to the MM object.
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@Param[in] addr - The address to be checked.
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@Return TRUE if the address is in the address range of the block, FALSE otherwise.
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*//***************************************************************************/
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bool MM_InRange(t_Handle h_MM, uint64_t addr);
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/** @} */ /* end of mm_grp group */
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/** @} */ /* end of etc_id group */
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#endif /* __MM_EXT_H */
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