2001-07-18 01:28:01 +00:00
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2003-02-09 20:18:23 +00:00
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// gcc cache2.c ../osdep/shmem.o -o cache2
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2001-07-18 01:28:01 +00:00
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// Initial draft of my new cache system...
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// includes some simulation code, using usleep() to emulate limited bandwith
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// TODO: seeking, data consistency checking
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#define READ_SPEED 20
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#define FILL_SPEED 10
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#include <stdio.h>
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#include <stdlib.h>
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#include <string.h>
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2003-02-09 20:18:23 +00:00
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#include "../osdep/shmem.h"
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2001-07-18 01:28:01 +00:00
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typedef struct {
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// constats:
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void *buffer; // base pointer of the alllocated buffer memory
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int buffer_size; // size of the alllocated buffer memory
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int sector_size; // size of a single sector (2048/2324)
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// Note: buffer_size should be N*sector_size, where N is integer...
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int back_size; // we should keep back_size amount of old bytes for backward seek
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int fill_limit; // we should fill buffer if space>fill_limit
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// reader's pointers:
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int read_filepos;
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// filler's pointers:
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int min_filepos; // buffer contain only a part of the file, from min-max pos
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int max_filepos;
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int offset; // filepos <-> bufferpos offset value (filepos of the buffer's first byte)
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// commands/locking:
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int cmd_lock; // 1 if we will seek/reset buffer, 2 if we are ready for cmd
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int fifo_flag; // 1 if we should use FIFO to notice cache about buffer reads.
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} cache_vars_t;
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int min_fill=0;
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int sleep_flag=0;
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void cache_stats(cache_vars_t* s){
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int newb=s->max_filepos-s->read_filepos; // new bytes in the buffer
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printf("0x%06X [0x%06X] 0x%06X ",s->min_filepos,s->read_filepos,s->max_filepos);
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printf("%3d %% (%3d%%)\n",100*newb/s->buffer_size,100*min_fill/s->buffer_size);
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}
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int cache_read(cache_vars_t* s,int size){
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int total=0;
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while(size>0){
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int pos,newb,len;
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pos=s->read_filepos - s->offset;
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if(pos<0) pos+=s->buffer_size; else
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if(pos>=s->buffer_size) pos-=s->buffer_size;
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newb=s->max_filepos-s->read_filepos; // new bytes in the buffer
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if(newb<min_fill) min_fill=newb; // statistics...
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if(newb<=0){
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// waiting for buffer fill...
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usleep(10000); // 10ms
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continue;
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}
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// printf("*** newb: %d bytes ***\n",newb);
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if(newb>s->buffer_size-pos) newb=s->buffer_size-pos; // handle wrap...
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if(newb>size) newb=size;
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// len=write(mem,newb)
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printf("Buffer read: %d bytes\n",newb);
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len=newb;usleep(len*READ_SPEED*sleep_flag);
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// ...
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s->read_filepos+=len;
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size-=len;
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total+=len;
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}
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return total;
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}
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int cache_fill(cache_vars_t* s){
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int read,back,newb,space,len,pos,endpos;
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read=s->read_filepos;
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// calc number of back-bytes:
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back=read - s->min_filepos;
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if(back<0) back=0; // strange...
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if(back>s->back_size) back=s->back_size;
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// calc number of new bytes:
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newb=s->max_filepos - read;
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if(newb<0) newb=0; // strange...
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// calc free buffer space:
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space=s->buffer_size - (newb+back);
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// calc bufferpos:
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pos=s->max_filepos - s->offset;
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if(pos>=s->buffer_size) pos-=s->buffer_size; // wrap-around
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if(space<s->fill_limit){
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// printf("Buffer is full (%d bytes free, limit: %d)\n",space,s->fill_limit);
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return 0; // no fill...
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}
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// printf("### read=0x%X back=%d newb=%d space=%d pos=%d\n",read,back,newb,space,pos);
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// reduce space if needed:
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if(space>s->buffer_size-pos) space=s->buffer_size-pos;
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if(space>32768) space=32768; // limit one-time block size
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s->min_filepos=read-back; // avoid seeking-back to temp area...
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// ....
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printf("Buffer fill: %d bytes of %d\n",space,s->buffer_size);
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len=space; usleep(len*FILL_SPEED*sleep_flag);
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// ....
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s->max_filepos+=len;
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if(pos+len>=s->buffer_size){
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// wrap...
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s->offset+=s->buffer_size;
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}
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return len;
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}
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cache_vars_t* cache_init(int size,int sector){
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int num;
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cache_vars_t* s=shmem_alloc(sizeof(cache_vars_t));
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memset(s,0,sizeof(cache_vars_t));
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num=size/sector;
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s->buffer_size=num*sector;
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s->sector_size=sector;
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s->buffer=shmem_alloc(s->buffer_size);
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s->fill_limit=8*sector;
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s->back_size=size/2;
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return s;
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}
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int main(){
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cache_vars_t* s=cache_init(1024*1024,2048);
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// while(cache_fill(s)){ } // fill buffer:
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min_fill=s->buffer_size;
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sleep_flag=1; // start simulation
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if(fork()){
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while(1){
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if(!cache_fill(s)) usleep(10000); // wait 10ms for buffer space
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//cache_stats(s);
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}
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} else {
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srand(12345);
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while(1){
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int len=10+rand()&8191;
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cache_stats(s);
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cache_read(s,len);
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}
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}
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}
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