mirror of
https://github.com/SoftEtherVPN/SoftEtherVPN.git
synced 2024-09-20 02:30:40 +03:00
386 lines
11 KiB
C
386 lines
11 KiB
C
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/*
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* Copyright (c) 2001 - 2003
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* NetGroup, Politecnico di Torino (Italy)
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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
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* are met:
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*
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* 1. 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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* 2. 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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* 3. Neither the name of the Politecnico di Torino nor the names of its
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* contributors may be used to endorse or promote products derived from
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* this software without specific prior written permission.
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*
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* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
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* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
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* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
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* A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
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* OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
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* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
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* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
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* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
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* 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
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* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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*
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*/
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#include <GlobalConst.h>
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#include "tme.h"
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/* resizes extended memory */
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uint32 init_extended_memory(uint32 size, MEM_TYPE *mem_ex)
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{
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uint8 *tmp;
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if ((mem_ex==NULL)||(mem_ex->buffer==NULL)||(size==0))
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return TME_ERROR; /* awfully never reached!!!! */
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tmp=mem_ex->buffer;
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mem_ex->buffer=NULL;
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FREE_MEMORY(tmp);
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ALLOCATE_MEMORY(tmp,uint8,size);
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if (tmp==NULL)
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return TME_ERROR; /* no memory */
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mem_ex->size=size;
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mem_ex->buffer=tmp;
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return TME_SUCCESS;
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}
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/* activates a block of the TME */
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uint32 set_active_tme_block(TME_CORE *tme, uint32 block)
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{
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if ((block>=MAX_TME_DATA_BLOCKS)||(!IS_VALIDATED(tme->validated_blocks,block)))
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return TME_ERROR;
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tme->active=block;
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tme->working=block;
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return TME_SUCCESS;
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}
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/* simply inserts default values in a TME block */
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/* it DOESN'T initialize the block in the core!! */
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/* FIXME default values are defined at compile time, */
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/* it will be useful to store them in the registry */
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uint32 init_tme_block(TME_CORE *tme, uint32 block)
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{
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TME_DATA *data;
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if (block>=MAX_TME_DATA_BLOCKS)
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return TME_ERROR;
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data=&(tme->block_data[block]);
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tme->working=block;
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ZERO_MEMORY(data,sizeof(TME_DATA));
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/* entries in LUT */
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data->lut_entries=TME_LUT_ENTRIES_DEFAULT;
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/* blocks */
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data->shared_memory_blocks=TME_SHARED_MEMORY_BLOCKS_DEFAULT;
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/* block size */
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data->block_size=TME_BLOCK_SIZE_DEFAULT;
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/* lookup function */
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data->lookup_code=lut_fcn_mapper(TME_LOOKUP_CODE_DEFAULT);
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/* rehashing value */
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data->rehashing_value=TME_REHASHING_VALUE_DEFAULT;
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/* out lut function */
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data->out_lut_exec=TME_OUT_LUT_EXEC_DEFAULT;
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/* default function */
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data->default_exec=TME_DEFAULT_EXEC_DEFAULT;
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/* extra segment size */
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data->extra_segment_size=TME_EXTRA_SEGMENT_SIZE_DEFAULT;
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data->enable_deletion=FALSE;
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data->last_read.tv_sec=0;
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data->last_read.tv_usec=0;
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return TME_SUCCESS;
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}
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/* it validates a TME block and */
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/* (on OK) inserts the block in the core */
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uint32 validate_tme_block(MEM_TYPE *mem_ex, TME_CORE *tme, uint32 block, uint32 mem_ex_offset)
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{
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uint32 required_memory;
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uint8 *base=mem_ex_offset+mem_ex->buffer;
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TME_DATA *data;
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/* FIXME soluzione un po' posticcia... */
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if (mem_ex_offset==0)
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return TME_ERROR;
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if (block>=MAX_TME_DATA_BLOCKS)
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return TME_ERROR;
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data=&tme->block_data[block];
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if (data->lut_entries==0)
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return TME_ERROR;
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if (data->key_len==0)
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return TME_ERROR;
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if (data->shared_memory_blocks==0)
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return TME_ERROR;
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if (data->block_size==0)
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return TME_ERROR;
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/* checks if the lookup function is valid */
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if (data->lookup_code==NULL)
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return TME_ERROR;
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/* checks if the out lut exec function is valid */
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if (exec_fcn_mapper(data->out_lut_exec)==NULL)
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return TME_ERROR;
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/* checks if the default exec function is valid */
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if (exec_fcn_mapper(data->default_exec)==NULL)
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return TME_ERROR;
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/* let's calculate memory needed */
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required_memory=data->lut_entries*sizeof(RECORD); /*LUT*/
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required_memory+=data->block_size*data->shared_memory_blocks; /*shared segment*/
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required_memory+=data->extra_segment_size; /*extra segment*/
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if (required_memory>(mem_ex->size-mem_ex_offset))
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return TME_ERROR; /*not enough memory*/
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/* the TME block can be initialized */
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ZERO_MEMORY(base,required_memory);
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data->lut_base_address=base;
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data->shared_memory_base_address=
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data->lut_base_address+
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data->lut_entries*sizeof(RECORD);
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data->extra_segment_base_address=
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data->shared_memory_base_address+
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data->block_size*data->shared_memory_blocks;
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data->filled_blocks=1;
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VALIDATE(tme->validated_blocks,block);
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tme->active=block;
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tme->working=block;
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return TME_SUCCESS;
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}
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/* I/F between the bpf machine and the callbacks, just some checks */
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uint32 lookup_frontend(MEM_TYPE *mem_ex, TME_CORE *tme,uint32 mem_ex_offset, struct time_conv *time_ref)
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{
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if (tme->active==TME_NONE_ACTIVE)
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return TME_FALSE;
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return (tme->block_data[tme->active].lookup_code)(mem_ex_offset+mem_ex->buffer,&tme->block_data[tme->active],mem_ex, time_ref);
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}
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/* I/F between the bpf machine and the callbacks, just some checks */
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uint32 execute_frontend(MEM_TYPE *mem_ex, TME_CORE *tme, uint32 pkt_size, uint32 offset)
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{
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exec_fcn tmp;
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TME_DATA *data;
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uint8 *block;
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uint8 *mem_data;
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if (tme->active==TME_NONE_ACTIVE)
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return TME_ERROR;
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data=&tme->block_data[tme->active];
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if (data->last_found==NULL)
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{ /*out lut exec */
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tmp=exec_fcn_mapper(data->out_lut_exec);
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block=data->shared_memory_base_address;
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}
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else
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{ /*checks if last_found is valid */
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if ((data->last_found<data->lut_base_address)||(data->last_found>=data->shared_memory_base_address))
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return TME_ERROR;
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else
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{
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tmp=exec_fcn_mapper(SW_ULONG_AT(&((RECORD*)data->last_found)->exec_fcn,0));
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if (tmp==NULL)
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return TME_ERROR;
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block=SW_ULONG_AT(&((RECORD*)data->last_found)->block,0)+mem_ex->buffer;
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if ((block<data->shared_memory_base_address)||(block>=data->extra_segment_base_address))
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return TME_ERROR;
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}
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}
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if (offset>=mem_ex->size)
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return TME_ERROR;
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mem_data=mem_ex->buffer+offset;
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return tmp(block,pkt_size,data,mem_ex,mem_data);
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}
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/*resets all the TME core*/
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uint32 reset_tme(TME_CORE *tme)
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{
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if (tme==NULL)
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return TME_ERROR;
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ZERO_MEMORY(tme, sizeof(TME_CORE));
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return TME_SUCCESS;
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}
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/* returns a register value of the active TME block */
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/* FIXME last found in maniera elegante e veloce ?!?! */
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uint32 get_tme_block_register(TME_DATA *data,MEM_TYPE *mem_ex,uint32 rgstr,uint32 *rval)
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{
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switch(rgstr)
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{
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case TME_LUT_ENTRIES:
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*rval=data->lut_entries;
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return TME_SUCCESS;
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case TME_MAX_FILL_STATE:
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*rval=data->max_fill_state;
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return TME_SUCCESS;
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case TME_REHASHING_VALUE:
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*rval=data->rehashing_value;
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return TME_SUCCESS;
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case TME_KEY_LEN:
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*rval=data->key_len;
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return TME_SUCCESS;
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case TME_SHARED_MEMORY_BLOCKS:
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*rval=data->shared_memory_blocks;
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return TME_SUCCESS;
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case TME_FILLED_ENTRIES:
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*rval=data->filled_entries;
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return TME_SUCCESS;
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case TME_BLOCK_SIZE:
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*rval=data->block_size;
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return TME_SUCCESS;
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case TME_EXTRA_SEGMENT_SIZE:
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*rval=data->extra_segment_size;
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return TME_SUCCESS;
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case TME_FILLED_BLOCKS:
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*rval=data->filled_blocks;
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return TME_SUCCESS;
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case TME_DEFAULT_EXEC:
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*rval=data->default_exec;
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return TME_SUCCESS;
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case TME_OUT_LUT_EXEC:
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*rval=data->out_lut_exec;
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return TME_SUCCESS;
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case TME_SHARED_MEMORY_BASE_ADDRESS:
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*rval=data->shared_memory_base_address-mem_ex->buffer;
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return TME_SUCCESS;
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case TME_LUT_BASE_ADDRESS:
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*rval=data->lut_base_address-mem_ex->buffer;
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return TME_SUCCESS;
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case TME_EXTRA_SEGMENT_BASE_ADDRESS:
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*rval=data->extra_segment_base_address-mem_ex->buffer;
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return TME_SUCCESS;
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case TME_LAST_FOUND_BLOCK:
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if (data->last_found==NULL)
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*rval=0;
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else
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*rval=data->last_found-mem_ex->buffer;
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return TME_SUCCESS;
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default:
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return TME_ERROR;
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}
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}
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/* sets a register value in the active block */
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/* FIXME last found in maniera elegante e veloce ?!?! */
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uint32 set_tme_block_register(TME_DATA *data,MEM_TYPE *mem_ex,uint32 rgstr,uint32 value, int32 init)
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{ /* very very very dangerous!!!!!!!!!!! */
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lut_fcn tmp;
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switch(rgstr)
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{
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case TME_MAX_FILL_STATE:
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data->max_fill_state=value;
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return TME_SUCCESS;
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case TME_REHASHING_VALUE:
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data->rehashing_value=value;
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return TME_SUCCESS;
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case TME_FILLED_ENTRIES:
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data->filled_entries=value;
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return TME_SUCCESS;
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case TME_FILLED_BLOCKS:
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if (value<=data->shared_memory_blocks)
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{
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data->filled_blocks=value;
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return TME_SUCCESS;
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}
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else
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return TME_ERROR;
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case TME_DEFAULT_EXEC:
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data->default_exec=value;
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return TME_SUCCESS;
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case TME_OUT_LUT_EXEC:
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data->out_lut_exec=value;
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return TME_SUCCESS;
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case TME_LOOKUP_CODE:
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tmp=lut_fcn_mapper(value);
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if (tmp==NULL)
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return TME_ERROR;
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else
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data->lookup_code=tmp;
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return TME_SUCCESS;
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default:
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break;
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}
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if (init)
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switch (rgstr)
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{
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case TME_LUT_ENTRIES:
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data->lut_entries=value;
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return TME_SUCCESS;
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case TME_KEY_LEN:
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data->key_len=value;
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return TME_SUCCESS;
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case TME_SHARED_MEMORY_BLOCKS:
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data->shared_memory_blocks=value;
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return TME_SUCCESS;
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case TME_BLOCK_SIZE:
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data->block_size=value;
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return TME_SUCCESS;
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case TME_EXTRA_SEGMENT_SIZE:
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data->extra_segment_size=value;
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return TME_SUCCESS;
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default:
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return TME_ERROR;
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}
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else
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return TME_ERROR;
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}
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/* chooses the TME block for read */
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uint32 set_active_read_tme_block(TME_CORE *tme, uint32 block)
|
||
|
|
{
|
||
|
|
|
||
|
|
if ((block>=MAX_TME_DATA_BLOCKS)||(!IS_VALIDATED(tme->validated_blocks,block)))
|
||
|
|
return TME_ERROR;
|
||
|
|
tme->active_read=block;
|
||
|
|
return TME_SUCCESS;
|
||
|
|
|
||
|
|
}
|
||
|
|
|
||
|
|
/* chooses if the autodeletion must be used */
|
||
|
|
uint32 set_autodeletion(TME_DATA *data, uint32 value)
|
||
|
|
{
|
||
|
|
if (value==0) /* no autodeletion */
|
||
|
|
data->enable_deletion=FALSE;
|
||
|
|
else
|
||
|
|
data->enable_deletion=TRUE;
|
||
|
|
|
||
|
|
return TME_SUCCESS;
|
||
|
|
}
|