410 lines
8.7 KiB
C
410 lines
8.7 KiB
C
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#include "circlebuffer.h"
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#include <assert.h>
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#include <stdlib.h>
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#include <stdio.h>
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#include <string.h> /* memory copy */
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#include "duck_mem.h"
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/* this is just a debugging trick so that we can "see" the free space */
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void* circleread_memcpy(void* dst, void* src, int64_t count);
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void* circleread_memcpy(void* dst, void* src, int64_t count)
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{
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return duck_memcpy64(dst, src, count);
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}
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void CircleReport(const CircleBuffer_t* cb, const char* title)
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{
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printf("-----(%s)------\n", title);
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printf("max Size cb = %ld\n", cb->bufSize);
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printf("fills at = %ld\n", cb->bufSize * cb->percent / 100 );
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printf("Current amount = %ld, level = %ld\n", cb->count, cb->count * 100 / cb->bufSize);
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}
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int ForwardBuffer(CircleBuffer_t* cb, int64_t len)
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{
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if (len >= (int64_t)cb->count)
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return -1;
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if ( (cb->head + len) < cb->bufSize )
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cb->head += (int)len;
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else
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cb->head = (int)len - (cb->bufSize - cb->head);
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cb->count -= (int)len;
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return 0;
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}
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int RewindBuffer(CircleBuffer_t* cb, int64_t len)
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{
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if (len >= (int64_t)(cb->bufSize - cb->count) )
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return -1; /* not enough history in buffer ! */
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if (cb->head <= (size_t)len)
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{
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if (cb->wrapped == 0)
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return -1;
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cb->head = cb->bufSize - ((int)len - cb->head);
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cb->count += (int)len;
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return 0;
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}
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else
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{
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cb->head -= (int)len;
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cb->count += (int)len;
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}
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return 0;
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}
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void destroyCircleBuffer(CircleBuffer_t* cb)
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{
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assert(cb);
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if (cb->buffer)
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free(cb->buffer);
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if (cb->maxChunk)
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free(cb->maxChunk);
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}
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int resetCircleBuffer(CircleBuffer_t* cb)
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{
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cb->count = 0;
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cb->bytesConsumed = 0;
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cb->wrapped = 0;
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cb->starvedBytes = 0;
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cb->starvedRequests = 0;
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return 0;
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}
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int initCircleBuffer(
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CircleBuffer_t* cb,
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size_t countRecords,
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int percent,
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size_t maxChunk,
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FuncLock_t lock,
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FuncLock_t unlock
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)
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{
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assert(cb);
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cb->buffer = (unsigned char * ) calloc(1, countRecords);
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cb->maxChunk = (unsigned char *) calloc(1, maxChunk);
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cb->maxChunkLen = maxChunk;
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if (cb->buffer)
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{
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cb->head = cb->count = 0;
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cb->balance = 0;
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cb->bufSize = countRecords;
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cb->bytesConsumed = 0;
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cb->muted = false;
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cb->percent = percent;
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cb->wrapped = 0;
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cb->lock = lock;
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cb->unlock = unlock;
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return 0;
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}
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else
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{
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return -1; /* error */
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}
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}
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/* return zero if plenty of room and success */
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/*-------------------------------------------*/
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/* free space nested in the middle of the buffer is consider endSpace */
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/* and when free space nested in middle, startSpace is considered to be zero */
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/*---------------------------------------------------------------------------*/
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int addToCircleBuffer(CircleBuffer_t* cb, void* data, size_t requestSpace)
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{
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int64_t freeSpace; /* count total free space in buffer */
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int64_t head = cb->head; /* offset start of valid data */
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int64_t tail = (cb->head + cb->count) % cb->bufSize; /* offest first free byte after valid data */
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int64_t endSpace;
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freeSpace = cb->bufSize - cb->count;
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/* if not enough room to do the add */
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/*----------------------------------*/
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if (requestSpace > freeSpace)
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{
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assert(0);
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return CB_FULL;
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}
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endSpace = cb->bufSize - tail;
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if (tail >= head && requestSpace > endSpace) /* additional data write will wrap */
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{
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duck_memcpy64(&cb->buffer[tail], data, endSpace);
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duck_memcpy64(
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cb->buffer,
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(unsigned char *)data+endSpace,
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requestSpace - endSpace);
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}
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else /* existing data wrapped around from end of buffer through beginning of buffer. */
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{
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memcpy(&cb->buffer[tail], data, requestSpace);
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}
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cb->count += requestSpace;
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cb->balance += 1;
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return 0; /* -1 will mean error,m zero is OK */
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}
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/* get info need so we can write direct as in memcpy into the circle buffer */
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/*--------------------------------------------------------------------------*/
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void FreeWrapless(const CircleBuffer_t* cb, void* handle, int64_t* sizeWrapless)
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{
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int64_t tail = (cb->head + cb->count) % cb->bufSize;
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if ((cb->head + cb->count) < cb->bufSize)
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{
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*((void **) handle) = &cb->buffer[tail];
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*sizeWrapless = (cb->bufSize -(cb->head + cb->count));
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}
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else
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{
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*((void **) handle) = &cb->buffer[tail];
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*sizeWrapless = (cb->bufSize - cb->count);
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}
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}
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/* Please clone this sucker from readFromCircleBuffer */
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int accessCircleBuffer(CircleBuffer_t* cb, void* handle1, size_t requestSize)
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{
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int64_t head = cb->head;
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int64_t tail = (cb->head + cb->count) % cb->bufSize;
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void** handle = (void **) handle1;
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void* dest = *handle;
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if (requestSize <= 0)
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{
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return requestSize;
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}
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if (cb->count < requestSize)
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{
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return -1;
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}
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if (tail > head) /* the data does not wrap ! */
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{
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*handle = &cb->buffer[head];
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}
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else /* the current data does wrap */
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{
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/* but our read does not wrap */
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if (head + requestSize < cb->bufSize)
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{
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*handle = &cb->buffer[head];
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}
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else if (head + requestSize == cb->bufSize)
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{
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*handle = &cb->buffer[head];
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}
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else /* our read will wrap ! */
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{
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int64_t temp = cb->bufSize - head;
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dest = cb->maxChunk;
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assert(cb->maxChunkLen >= requestSize);
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circleread_memcpy(
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dest,
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&cb->buffer[head],
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temp);
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circleread_memcpy(
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((unsigned char *) dest) + temp,
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cb->buffer,
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requestSize - temp);
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*handle = dest;
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}
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}
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cb->head = (cb->head + requestSize) % cb->bufSize;
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cb->count -= requestSize;
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cb->bytesConsumed += requestSize;
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cb->balance -= 1;
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return requestSize; /* records (16 bit or maybe other in future) */
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}
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/* return count read , or -1 if not enough data */
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/*----------------------------------------------*/
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int readFromCircleBuffer(CircleBuffer_t* cb, void* dest, size_t requestSize)
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{
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int64_t head = cb->head;
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int64_t tail = (cb->head + cb->count) % cb->bufSize;
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if (cb->count < requestSize)
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{
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requestSize = cb->count; /* Give them what we have */
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}
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if (requestSize <= 0)
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{
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return (int)requestSize;
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}
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if (tail > head) /* the data does not wrap ! */
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{
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circleread_memcpy(dest, &cb->buffer[head], requestSize);
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}
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else /* the current data does wrap */
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{
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/* but our read does not wrap */
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if (head + requestSize < cb->bufSize)
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{
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circleread_memcpy(dest, &cb->buffer[head], requestSize);
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}
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else if (head + requestSize == cb->bufSize)
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{
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circleread_memcpy(dest, &cb->buffer[head], requestSize);
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memset(&cb->buffer[head], 0, (size_t)requestSize); /* optional, debug */
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}
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else /* our read will wrap ! */
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{
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int64_t temp = cb->bufSize - head;
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circleread_memcpy(
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dest,
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&cb->buffer[head],
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temp);
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circleread_memcpy(
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((unsigned char *) dest) + temp,
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cb->buffer,
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requestSize - temp);
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}
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}
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cb->head = (cb->head + requestSize) % cb->bufSize;
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cb->count -= requestSize;
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cb->bytesConsumed += requestSize;
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cb->balance -= 1;
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return (int)requestSize; /* records (16 bit or maybe other in future) */
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}
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void testCircleBuffer()
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{
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CircleBuffer_t temp;
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size_t bufSize = 256;
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const size_t maxInput = 256*3;
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size_t count = 0;
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size_t t;
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int i;
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const int maxRandom = 32;
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size_t chunkOut = 30;
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CircleRecord_t data[256*3];
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initCircleBuffer(&temp, bufSize, 75, 256, 0, 0);
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/* who cares ... take the default seed value. */
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while (count < maxInput || temp.count > chunkOut)
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{
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t = rand();
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/* for whatever reason this seems to be a 16 bit random number */
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t = t / ( 2 << (16 - 7) ) ;
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for(i = 0; i < (int)t; i++)
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{
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data[i] = (unsigned char ) ( count + i );
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}
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if (
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((temp.bufSize - temp.count) >= t*sizeof(short)+1) &&
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(count < (maxInput - maxRandom))
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) /* add 1 to keep buffer being completely filled */
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{
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int64_t tail = (temp.head + temp.count) % temp.bufSize;
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addToCircleBuffer(&temp, data, t);
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printf("Add to buffer count = %ld. head = %ld, tail = %ld\n", t, temp.head, tail);
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count += t;
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}
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else /* not enough space in buffer, try to empty some out */
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{
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int r;
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r = readFromCircleBuffer(&temp, data, chunkOut);
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if (r >= 0)
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{
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int64_t tail = (temp.head + temp.count) % temp.bufSize;
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for(i = 0; i < r; i++)
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printf("%ld ", data[i]);
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printf("\nRead from buffer. head = %ld, tail = %ld\n", temp.head, tail);
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}
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}
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} /* while we have not accumulated a large eough test ... */
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}
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int CirclePercent(CircleBuffer_t* cb)
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{
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return (int)(cb->count * 100 / cb->bufSize);
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}
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int CircleAtLevel(CircleBuffer_t* cb)
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{
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return (int)(cb->count * 100 / cb->bufSize) >= cb->percent;
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}
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int CircleOverLevel(CircleBuffer_t* cb)
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{
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return (int)(cb->count * 100 / cb->bufSize) > cb->percent;
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}
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