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#define _DEFAULT_SOURCE
#define _BSD_SOURCE
#define _GNU_SOURCE
#include <stdio.h>
#include <stdlib.h>
#include <unistd.h>
#include <string.h>
#include <sys/time.h>
#include <pthread.h>
#include <assert.h>
#include <ufodecode.h>
#include <pcilib.h>
#include <pcilib/tools.h>
#include <pcilib/error.h>
#include "private.h"
#include "data.h"
// DS: Currently, on event_id overflow we are assuming the buffer is lost
static int ipecamera_resolve_event_id(ipecamera_t *ctx, pcilib_event_id_t evid) {
pcilib_event_id_t diff;
if (evid > ctx->event_id) {
diff = (((pcilib_event_id_t)-1) - ctx->event_id) + evid;
if (diff >= ctx->buffer_size) return -1;
} else {
diff = ctx->event_id - evid;
if (diff >= ctx->buffer_size) return -1;
}
// DS: Request buffer_size to be power of 2 and replace to shifts (just recompute in set_buffer_size)
return (evid - 1) % ctx->buffer_size;
}
inline static int ipecamera_decode_frame(ipecamera_t *ctx, pcilib_event_id_t event_id) {
int err = 0;
size_t res;
uint16_t *pixels;
int buf_ptr = ipecamera_resolve_event_id(ctx, event_id);
if (buf_ptr < 0) return PCILIB_ERROR_OVERWRITTEN;
if (ctx->frame[buf_ptr].event.image_ready) return 0;
if (ctx->frame[buf_ptr].event.info.flags&PCILIB_EVENT_INFO_FLAG_BROKEN) {
err = PCILIB_ERROR_INVALID_DATA;
ctx->frame[buf_ptr].event.image_broken = err;
goto ready;
}
pixels = ctx->image + buf_ptr * ctx->image_size;
memset(ctx->cmask + ctx->buffer_pos * ctx->dim.height, 0, ctx->dim.height * sizeof(ipecamera_change_mask_t));
ipecamera_debug_buffer(RAW_FRAMES, ctx->frame[buf_ptr].event.raw_size, ctx->buffer + buf_ptr * ctx->padded_size, PCILIB_DEBUG_BUFFER_MKDIR, "raw_frame.%4lu", ctx->event_id);
res = ufo_decoder_decode_frame(ctx->ipedec, ctx->buffer + buf_ptr * ctx->padded_size, ctx->frame[buf_ptr].event.raw_size, pixels, &ctx->frame[buf_ptr].event.meta);
if (!res) {
ipecamera_debug_buffer(BROKEN_FRAMES, ctx->frame[buf_ptr].event.raw_size, ctx->buffer + buf_ptr * ctx->padded_size, PCILIB_DEBUG_BUFFER_MKDIR, "broken_frame.%4lu", ctx->event_id);
err = PCILIB_ERROR_INVALID_DATA;
ctx->frame[buf_ptr].event.image_broken = err;
goto ready;
}
ctx->frame[buf_ptr].event.image_broken = 0;
ready:
ctx->frame[buf_ptr].event.image_ready = 1;
if (ipecamera_resolve_event_id(ctx, event_id) < 0) {
ctx->frame[buf_ptr].event.image_ready = 0;
return PCILIB_ERROR_OVERWRITTEN;
}
return err;
}
static int ipecamera_get_next_buffer_to_process(ipecamera_t *ctx, pcilib_event_id_t *evid) {
int err, res;
if (ctx->preproc_id == ctx->event_id) return -1;
if (ctx->preproc)
pthread_mutex_lock(&ctx->preproc_mutex);
if (ctx->preproc_id == ctx->event_id) {
if (ctx->preproc)
pthread_mutex_unlock(&ctx->preproc_mutex);
return -1;
}
if ((ctx->event_id - ctx->preproc_id) > (ctx->buffer_size - IPECAMERA_RESERVE_BUFFERS)) {
size_t preproc_id = ctx->preproc_id;
ctx->preproc_id = ctx->event_id - (ctx->buffer_size - 1 - IPECAMERA_RESERVE_BUFFERS - 1);
ipecamera_debug(HARDWARE, "Skipping preprocessing of events %zu to %zu as decoding is not fast enough. We are currently %zu buffers beyond, but only %zu buffers are available and safety limit is %zu",
preproc_id, ctx->preproc_id - 1, ctx->event_id - ctx->preproc_id, ctx->buffer_size, IPECAMERA_RESERVE_BUFFERS);
}
res = ctx->preproc_id%ctx->buffer_size;
if ((err = pthread_rwlock_trywrlock(&ctx->frame[res].mutex)) != 0) {
if (ctx->preproc)
pthread_mutex_unlock(&ctx->preproc_mutex);
ipecamera_debug(HARDWARE, "Can't lock buffer %i, errno %i", res, err);
return -1;
}
*evid = ++ctx->preproc_id;
if (ctx->preproc)
pthread_mutex_unlock(&ctx->preproc_mutex);
return res;
}
void *ipecamera_preproc_thread(void *user) {
int err;
int buf_ptr;
pcilib_event_id_t evid;
ipecamera_preprocessor_t *preproc = (ipecamera_preprocessor_t*)user;
ipecamera_t *ctx = preproc->ipecamera;
while (ctx->run_preprocessors) {
buf_ptr = ipecamera_get_next_buffer_to_process(ctx, &evid);
if (buf_ptr < 0) {
usleep(IPECAMERA_NOFRAME_PREPROC_SLEEP);
continue;
}
err = ipecamera_decode_frame(ctx, evid);
pthread_rwlock_unlock(&ctx->frame[buf_ptr].mutex);
#ifdef IPECAMERA_DEBUG_HARDWARE
if (err) {
switch (err) {
case PCILIB_ERROR_OVERWRITTEN:
ipecamera_debug(HARDWARE, "The frame (%zu) was overwritten while preprocessing", evid);
break;
case PCILIB_ERROR_INVALID_DATA:
ipecamera_debug(HARDWARE, "The frame (%zu) is corrupted, decoding have failed", evid);
break;
default:
ipecamera_debug(HARDWARE, "The frame (%zu) is corrupted, decoding have failed", evid);
}
}
}
#endif /* IPECAMERA_DEBUG_HARDWARE */
return NULL;
}
static int ipecamera_get_frame(ipecamera_t *ctx, pcilib_event_id_t event_id) {
int err;
int buf_ptr = (event_id - 1) % ctx->buffer_size;
if (!ctx->preproc) {
pthread_rwlock_rdlock(&ctx->frame[buf_ptr].mutex);
err = ipecamera_decode_frame(ctx, event_id);
if (err) {
pthread_rwlock_unlock(&ctx->frame[buf_ptr].mutex);
return err;
}
return 0;
}
while (!((volatile ipecamera_t*)ctx)->frame[buf_ptr].event.image_ready) {
usleep(IPECAMERA_NOFRAME_PREPROC_SLEEP);
buf_ptr = ipecamera_resolve_event_id(ctx, event_id);
if (buf_ptr < 0) return PCILIB_ERROR_OVERWRITTEN;
}
if (((volatile ipecamera_t*)ctx)->frame[buf_ptr].event.image_broken)
return ctx->frame[buf_ptr].event.image_broken;
pthread_rwlock_rdlock(&ctx->frame[buf_ptr].mutex);
buf_ptr = ipecamera_resolve_event_id(ctx, event_id);
if ((buf_ptr < 0)||(!ctx->frame[buf_ptr].event.image_ready)) {
pthread_rwlock_unlock(&ctx->frame[buf_ptr].mutex);
return PCILIB_ERROR_OVERWRITTEN;
}
return 0;
}
/*
We will lock the data for non-raw data to prevent ocasional overwritting. The
raw data will be overwritten by the reader thread anyway and we can't do
anything to prevent it for performance reasons.
*/
int ipecamera_get(pcilib_context_t *vctx, pcilib_event_id_t event_id, pcilib_event_data_type_t data_type, size_t arg_size, void *arg, size_t *size, void **ret) {
int err;
int buf_ptr;
size_t raw_size;
ipecamera_t *ctx = (ipecamera_t*)vctx;
void *data = *ret;
if (!ctx) {
pcilib_error("IPECamera imaging is not initialized");
return PCILIB_ERROR_NOTINITIALIZED;
}
ipecamera_debug(API, "ipecamera: get (data)");
buf_ptr = ipecamera_resolve_event_id(ctx, event_id);
if (buf_ptr < 0) {
ipecamera_debug(HARDWARE, "The data of the requested frame %zu has been meanwhile overwritten", event_id);
return PCILIB_ERROR_OVERWRITTEN;
}
switch ((ipecamera_data_type_t)data_type) {
case IPECAMERA_RAW_DATA:
raw_size = ctx->frame[buf_ptr].event.raw_size;
if (data) {
if ((!size)||(*size < raw_size)) {
pcilib_warning("The raw data associated with frame %zu is too big (%zu bytes) for user supplied buffer (%zu bytes)", event_id, raw_size, (size?*size:0));
return PCILIB_ERROR_TOOBIG;
}
memcpy(data, ctx->buffer + buf_ptr * ctx->padded_size, raw_size);
if (ipecamera_resolve_event_id(ctx, event_id) < 0) {
ipecamera_debug(HARDWARE, "The data of requested frame %zu was overwritten while copying", event_id);
return PCILIB_ERROR_OVERWRITTEN;
}
*size = raw_size;
return 0;
}
if (size) *size = raw_size;
*ret = ctx->buffer + buf_ptr * ctx->padded_size;
return 0;
case IPECAMERA_IMAGE_DATA:
err = ipecamera_get_frame(ctx, event_id);
if (err) {
#ifdef IPECAMERA_DEBUG_HARDWARE
switch (err) {
case PCILIB_ERROR_OVERWRITTEN:
ipecamera_debug(HARDWARE, "The requested frame (%zu) was overwritten", event_id);
break;
case PCILIB_ERROR_INVALID_DATA:
ipecamera_debug(HARDWARE, "The requested frame (%zu) is corrupted", event_id);
break;
default:
ipecamera_debug(HARDWARE, "Error getting the data associated with the requested frame (%zu), error %i", event_id, err);
}
#endif /* IPECAMERA_DEBUG_HARDWARE */
return err;
}
if (data) {
if ((!size)||(*size < ctx->image_size * sizeof(ipecamera_pixel_t))) {
pcilib_warning("The image associated with frame %zu is too big (%zu bytes) for user supplied buffer (%zu bytes)", event_id, ctx->image_size * sizeof(ipecamera_pixel_t), (size?*size:0));
return PCILIB_ERROR_TOOBIG;
}
memcpy(data, ctx->image + buf_ptr * ctx->image_size, ctx->image_size * sizeof(ipecamera_pixel_t));
pthread_rwlock_unlock(&ctx->frame[buf_ptr].mutex);
*size = ctx->image_size * sizeof(ipecamera_pixel_t);
return 0;
}
if (size) *size = ctx->image_size * sizeof(ipecamera_pixel_t);
*ret = ctx->image + buf_ptr * ctx->image_size;
return 0;
case IPECAMERA_CHANGE_MASK:
err = ipecamera_get_frame(ctx, event_id);
if (err) return err;
if (data) {
if ((!size)||(*size < ctx->dim.height * sizeof(ipecamera_change_mask_t))) return PCILIB_ERROR_TOOBIG;
memcpy(data, ctx->image + buf_ptr * ctx->dim.height, ctx->dim.height * sizeof(ipecamera_change_mask_t));
pthread_rwlock_unlock(&ctx->frame[buf_ptr].mutex);
*size = ctx->dim.height * sizeof(ipecamera_change_mask_t);
return 0;
}
if (size) *size = ctx->dim.height * sizeof(ipecamera_change_mask_t);
*ret = ctx->cmask + buf_ptr * ctx->dim.height;
return 0;
case IPECAMERA_DIMENSIONS:
if (size) *size = sizeof(ipecamera_image_dimensions_t);
ret = (void*)&ctx->dim;
return 0;
case IPECAMERA_IMAGE_REGION:
case IPECAMERA_PACKED_IMAGE:
// Shall we return complete image or only changed parts?
case IPECAMERA_PACKED_LINE:
case IPECAMERA_PACKED_PAYLOAD:
pcilib_error("Support for data type (%li) is not implemented yet", data_type);
return PCILIB_ERROR_NOTSUPPORTED;
default:
pcilib_error("Unknown data type (%li) is requested", data_type);
return PCILIB_ERROR_INVALID_REQUEST;
}
}
/*
We will unlock non-raw data and check if the raw data is not overwritten yet
*/
int ipecamera_return(pcilib_context_t *vctx, pcilib_event_id_t event_id, pcilib_event_data_type_t data_type, void *data) {
ipecamera_t *ctx = (ipecamera_t*)vctx;
if (!ctx) {
pcilib_error("IPECamera imaging is not initialized");
return PCILIB_ERROR_NOTINITIALIZED;
}
if ((ipecamera_data_type_t)data_type == IPECAMERA_RAW_DATA) {
if (ipecamera_resolve_event_id(ctx, event_id) < 0) return PCILIB_ERROR_OVERWRITTEN;
} else {
int buf_ptr = (event_id - 1) % ctx->buffer_size;
pthread_rwlock_unlock(&ctx->frame[buf_ptr].mutex);
}
ipecamera_debug(API, "ipecamera: return (data)");
return 0;
}
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