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cc3dsfs/source/CaptureDeviceSpecific/DSCapture_FTD2/dscapture_ftd2_libusb_acquisition.cpp
Lorenzooone 8e87c7afd1
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2025-04-08 04:20:02 +02:00

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#include "dscapture_ftd2_libusb_acquisition.hpp"
#include "dscapture_ftd2_libusb_comms.hpp"
#include "dscapture_ftd2_general.hpp"
#include "dscapture_ftd2_compatibility.hpp"
#include "devicecapture.hpp"
#include "usb_generic.hpp"
#include <cstring>
#include <thread>
#include <chrono>
#include <iostream>
#define EXPECTED_IGNORED_HALFWORDS 1
#define IGNORE_FIRST_FEW_FRAMES_SYNC (NUM_CAPTURE_RECEIVED_DATA_BUFFERS * 2)
#define RESYNC_TIMEOUT 0.050
static void ftd2_libusb_cancel_callback(ftd2_async_callback_data* cb_data) {
cb_data->transfer_data_access.lock();
if(cb_data->transfer_data)
libusb_cancel_transfer((libusb_transfer*)cb_data->transfer_data);
cb_data->transfer_data_access.unlock();
}
static void STDCALL ftd2_libusb_read_callback(libusb_transfer* transfer) {
ftd2_async_callback_data* cb_data = (ftd2_async_callback_data*)transfer->user_data;
FTD2CaptureReceivedData* user_data = (FTD2CaptureReceivedData*)cb_data->actual_user_data;
cb_data->transfer_data_access.lock();
cb_data->transfer_data = NULL;
cb_data->is_transfer_done_mutex->specific_unlock(cb_data->internal_index);
cb_data->transfer_data_access.unlock();
cb_data->function((void*)user_data, transfer->actual_length, transfer->status);
}
// Read from bulk
static void ftd2_libusb_schedule_read(ftd2_async_callback_data* cb_data, uint8_t* buffer_raw, int length) {
libusb_transfer *transfer_in = libusb_alloc_transfer(0);
if(!transfer_in)
return;
cb_data->transfer_data_access.lock();
cb_data->transfer_data = transfer_in;
cb_data->is_transfer_done_mutex->specific_try_lock(cb_data->internal_index);
length = (int)ftd2_libusb_get_expanded_length(length);
cb_data->requested_length = length;
ftd2_libusb_async_bulk_in_prepare_and_submit(cb_data->handle, (void*)transfer_in, buffer_raw, length, (void*)ftd2_libusb_read_callback, (void*)cb_data, NUM_CAPTURE_RECEIVED_DATA_BUFFERS);
cb_data->transfer_data_access.unlock();
}
static int get_ftd2_libusb_status(FTD2CaptureReceivedData* received_data_buffers) {
return *received_data_buffers[0].status;
}
static void error_ftd2_libusb_status(FTD2CaptureReceivedData* received_data_buffers, int error) {
*received_data_buffers[0].status = error;
}
static void wait_all_ftd2_libusb_buffers_free(FTD2CaptureReceivedData* received_data_buffers) {
if(received_data_buffers == NULL)
return;
if(*received_data_buffers[0].status < 0) {
for(int i = 0; i < NUM_CAPTURE_RECEIVED_DATA_BUFFERS; i++)
ftd2_libusb_cancel_callback(&received_data_buffers[i].cb_data);
}
for(int i = 0; i < NUM_CAPTURE_RECEIVED_DATA_BUFFERS; i++)
while(received_data_buffers[i].in_use)
received_data_buffers[i].is_buffer_free_shared_mutex->specific_timed_lock(i);
}
static void wait_one_ftd2_libusb_buffer_free(FTD2CaptureReceivedData* received_data_buffers) {
bool done = false;
while(!done) {
for(int i = 0; i < NUM_CAPTURE_RECEIVED_DATA_BUFFERS; i++) {
if(!received_data_buffers[i].in_use)
done = true;
}
if(!done) {
if(*received_data_buffers[0].status < 0)
return;
int dummy = 0;
received_data_buffers[0].is_buffer_free_shared_mutex->general_timed_lock(&dummy);
}
}
}
static FTD2CaptureReceivedData* ftd2_libusb_get_free_buffer(FTD2CaptureReceivedData* received_data_buffers) {
wait_one_ftd2_libusb_buffer_free(received_data_buffers);
if(*received_data_buffers[0].status < 0)
return NULL;
for(int i = 0; i < NUM_CAPTURE_RECEIVED_DATA_BUFFERS; i++)
if(!received_data_buffers[i].in_use) {
received_data_buffers[i].is_buffer_free_shared_mutex->specific_try_lock(i);
received_data_buffers[i].in_use = true;
return &received_data_buffers[i];
}
return NULL;
}
static void ftd2_libusb_start_read(FTD2CaptureReceivedData* received_data_buffer, int index, size_t size) {
if(received_data_buffer == NULL)
return;
CaptureDataSingleBuffer* full_data_buf = received_data_buffer->capture_data->data_buffers.GetWriterBuffer(received_data_buffer->cb_data.internal_index);
CaptureReceived* data_buffer = &full_data_buf->capture_buf;
received_data_buffer->buffer_raw = (uint8_t*)&data_buffer->ftd2_received_old_ds_normal_plus_raw.raw_data;
received_data_buffer->buffer_target = (uint32_t*)data_buffer;
received_data_buffer->index = index;
ftd2_libusb_schedule_read(&received_data_buffer->cb_data, received_data_buffer->buffer_raw, (int)size);
}
static void ftd2_libusb_copy_buffer_to_target_and_skip(uint8_t* buffer_written, uint8_t* buffer_target, const int max_packet_size, size_t length, size_t header_packet_size, size_t ignored_bytes) {
// This could be made faster for small "ignored_bytes", however this scales well...
// Plus, most of the time is used up by the memcpy routine, so...
// Remove the small headers every 512 bytes...
// The "- header_packet_size" instead of "-1" covers for partial header transfers...
int real_packet_size = (int)(max_packet_size - header_packet_size);
int num_iters = (int)((length + real_packet_size) / max_packet_size);
if(num_iters <= 0)
return;
size_t inner_length = length - (num_iters * header_packet_size);
size_t fully_ignored_iters = ignored_bytes / real_packet_size;
size_t partially_ignored_iters = (ignored_bytes + real_packet_size - 1) / real_packet_size;
num_iters -= (int)fully_ignored_iters;
if(num_iters <= 0)
return;
buffer_written += fully_ignored_iters * max_packet_size;
// Skip inside a packet, since it's misaligned
if(partially_ignored_iters != fully_ignored_iters) {
size_t offset_bytes = ignored_bytes % real_packet_size;
int rem_size = (int)(inner_length - (real_packet_size * fully_ignored_iters));
if(rem_size > real_packet_size)
rem_size = real_packet_size;
rem_size -= (int)offset_bytes;
if(rem_size > 0) {
memcpy(buffer_target, buffer_written + header_packet_size + offset_bytes, rem_size);
buffer_written += max_packet_size;
buffer_target += rem_size;
}
}
if(length <= (max_packet_size * partially_ignored_iters))
return;
ftd2_libusb_copy_buffer_to_target(buffer_written, buffer_target, max_packet_size, length - (max_packet_size * partially_ignored_iters), header_packet_size);
}
static size_t ftd2_libusb_copy_buffer_to_target_and_skip_synch(uint8_t* in_buffer, uint32_t* out_buffer, int read_length, size_t* sync_offset) {
// This is because the actual data seems to always start with a SYNCH
const size_t max_packet_size = MAX_PACKET_SIZE_USB2;
const size_t header_packet_size = FTD2_INTRA_PACKET_HEADER_SIZE;
size_t ignored_halfwords = 0;
uint16_t* in_u16 = (uint16_t*)in_buffer;
size_t real_length = ftd2_libusb_get_actual_length(max_packet_size, read_length, header_packet_size);
while((ignored_halfwords < (real_length / 2)) && (in_u16[ignored_halfwords + 1 + (ignored_halfwords / (max_packet_size / 2))] == FTD2_OLDDS_SYNCH_VALUES))
ignored_halfwords++;
size_t copy_offset = ignored_halfwords * 2;
ftd2_libusb_copy_buffer_to_target_and_skip(in_buffer, (uint8_t*)out_buffer, max_packet_size, read_length, header_packet_size, copy_offset);
if((copy_offset == 0) || (copy_offset >= (max_packet_size - header_packet_size))) {
size_t internal_sync_offset = 0;
bool is_synced = synchronization_check((uint16_t*)out_buffer, real_length, NULL, &internal_sync_offset);
if(!is_synced) {
*sync_offset = (internal_sync_offset / (max_packet_size - header_packet_size)) * (max_packet_size - header_packet_size);
return 0;
}
else
*sync_offset = 0;
}
else
*sync_offset = 0;
uint16_t* out_u16 = (uint16_t*)out_buffer;
for(size_t i = 0; i < ignored_halfwords; i++)
out_u16[(real_length / 2) - ignored_halfwords + i] = FTD2_OLDDS_SYNCH_VALUES;
return remove_synch_from_final_length(out_buffer, real_length);
}
static void end_ftd2_libusb_read_frame_cb(FTD2CaptureReceivedData* received_data_buffer, bool has_succeded) {
if(!has_succeded)
received_data_buffer->capture_data->data_buffers.ReleaseWriterBuffer(received_data_buffer->cb_data.internal_index, false);
received_data_buffer->in_use = false;
received_data_buffer->is_buffer_free_shared_mutex->specific_unlock(received_data_buffer->cb_data.internal_index);
}
static void output_to_thread(CaptureData* capture_data, int internal_index, uint8_t* buffer_raw, uint32_t* buffer_target, std::chrono::time_point<std::chrono::high_resolution_clock> &base_time, int read_length, size_t* sync_offset) {
// For some reason, there is usually one.
// Though make this generic enough
const auto curr_time = std::chrono::high_resolution_clock::now();
const std::chrono::duration<double> diff = curr_time - base_time;
base_time = curr_time;
// Copy data to buffer, with special memcpy which accounts for ftd2 header data and skips synch bytes
size_t real_length = ftd2_libusb_copy_buffer_to_target_and_skip_synch(buffer_raw, buffer_target, read_length, sync_offset);
capture_data->data_buffers.WriteToBuffer(NULL, real_length, diff.count(), &capture_data->status.device, internal_index);
if(capture_data->status.cooldown_curr_in)
capture_data->status.cooldown_curr_in = capture_data->status.cooldown_curr_in - 1;
// Signal that there is data available
capture_data->status.video_wait.unlock();
capture_data->status.audio_wait.unlock();
}
static void ftd2_libusb_capture_process_data(void* in_user_data, int transfer_length, int transfer_status) {
// Note: sometimes the data returned has length 0...
// It's because the code is too fast...
FTD2CaptureReceivedData* user_data = (FTD2CaptureReceivedData*)in_user_data;
if((*user_data->status) < 0)
return end_ftd2_libusb_read_frame_cb(user_data, false);
if(transfer_status != LIBUSB_TRANSFER_COMPLETED) {
*user_data->status = LIBUSB_ERROR_OTHER;
return end_ftd2_libusb_read_frame_cb(user_data, false);
}
if(((size_t)transfer_length) < user_data->cb_data.requested_length)
return end_ftd2_libusb_read_frame_cb(user_data, false);
if(((int32_t)(user_data->index - (*user_data->last_used_index))) <= 0) {
//*user_data->status = LIBUSB_ERROR_INTERRUPTED;
return end_ftd2_libusb_read_frame_cb(user_data, false);
}
*user_data->last_used_index = user_data->index;
// For some reason, saving the raw buffer and then passing it
// like this is way faster than loading it.
// Even if it's still needed to get the writer buffer...
output_to_thread(user_data->capture_data, user_data->cb_data.internal_index, user_data->buffer_raw, user_data->buffer_target, *user_data->clock_start, transfer_length, user_data->curr_offset);
end_ftd2_libusb_read_frame_cb(user_data, true);
}
static void resync_offset(FTD2CaptureReceivedData* received_data_buffers, uint32_t &index, size_t full_size) {
size_t wanted_offset = *received_data_buffers[0].curr_offset;
if(wanted_offset == 0)
return;
wait_all_ftd2_libusb_buffers_free(received_data_buffers);
if(get_ftd2_libusb_status(received_data_buffers) != 0)
return;
wanted_offset = *received_data_buffers[0].curr_offset;
if(wanted_offset == 0)
return;
*received_data_buffers[0].curr_offset = 0;
#if defined(__APPLE__) || defined(_WIN32)
// Literally throw a die... Seems to work!
default_sleep(1);
return;
#endif
FTD2OldDSCaptureReceivedRaw* buffer_raw = new FTD2OldDSCaptureReceivedRaw;
FTD2OldDSCaptureReceived* buffer = new FTD2OldDSCaptureReceived;
CaptureData* capture_data = received_data_buffers[0].capture_data;
bool is_synced = false;
size_t chosen_transfer_size = ftd2_libusb_get_actual_length(MAX_PACKET_SIZE_USB2 * 4);
while((!is_synced) && (capture_data->status.connected && capture_data->status.running)) {
int retval = ftd2_libusb_force_read_with_timeout(received_data_buffers[0].cb_data.handle, (uint8_t*)buffer_raw, (uint8_t*)buffer, chosen_transfer_size, RESYNC_TIMEOUT);
if(ftd2_is_error(retval, true)) {
//error_ftd2_libusb_status(received_data_buffers, retval);
delete buffer_raw;
delete buffer;
return;
}
size_t internal_sync_offset = 0;
is_synced = synchronization_check((uint16_t*)buffer, chosen_transfer_size, NULL, &internal_sync_offset, true);
if((!is_synced) && (internal_sync_offset < chosen_transfer_size))
is_synced = true;
else
is_synced = false;
}
int retval = ftd2_libusb_force_read_with_timeout(received_data_buffers[0].cb_data.handle, (uint8_t*)buffer_raw, (uint8_t*)buffer, full_size - chosen_transfer_size, RESYNC_TIMEOUT);
if(ftd2_is_error(retval, true)) {
error_ftd2_libusb_status(received_data_buffers, retval);
delete buffer_raw;
delete buffer;
return;
}
capture_data->status.cooldown_curr_in = IGNORE_FIRST_FEW_FRAMES_SYNC;
delete buffer_raw;
delete buffer;
}
void ftd2_capture_main_loop_libusb(CaptureData* capture_data) {
const bool is_ftd2_libusb = true;
bool is_done = false;
auto clock_start = std::chrono::high_resolution_clock::now();
FTD2CaptureReceivedData* received_data_buffers = new FTD2CaptureReceivedData[NUM_CAPTURE_RECEIVED_DATA_BUFFERS];
int status = 0;
uint32_t last_used_index = -1;
uint32_t index = 0;
size_t curr_offset = 0;
const size_t full_size = (size_t)get_capture_size(capture_data->status.device.is_rgb_888);
libusb_register_to_event_thread();
SharedConsumerMutex is_buffer_free_shared_mutex(NUM_CAPTURE_RECEIVED_DATA_BUFFERS);
SharedConsumerMutex is_transfer_done_mutex(NUM_CAPTURE_RECEIVED_DATA_BUFFERS);
for(int i = 0; i < NUM_CAPTURE_RECEIVED_DATA_BUFFERS; i++) {
received_data_buffers[i].actual_length = 0;
received_data_buffers[i].is_data_ready = false;
received_data_buffers[i].in_use = false;
received_data_buffers[i].is_buffer_free_shared_mutex = &is_buffer_free_shared_mutex;
received_data_buffers[i].status = &status;
received_data_buffers[i].index = 0;
received_data_buffers[i].curr_offset = &curr_offset;
received_data_buffers[i].last_used_index = &last_used_index;
received_data_buffers[i].capture_data = capture_data;
received_data_buffers[i].clock_start = &clock_start;
received_data_buffers[i].cb_data.function = ftd2_libusb_capture_process_data;
received_data_buffers[i].cb_data.actual_user_data = &received_data_buffers[i];
received_data_buffers[i].cb_data.transfer_data = NULL;
received_data_buffers[i].cb_data.handle = capture_data->handle;
received_data_buffers[i].cb_data.is_transfer_done_mutex = &is_transfer_done_mutex;
received_data_buffers[i].cb_data.internal_index = i;
received_data_buffers[i].cb_data.requested_length = 0;
}
if(!enable_capture(capture_data->handle, is_ftd2_libusb)) {
capture_error_print(true, capture_data, "Capture enable error");
is_done = true;
}
for(int i = 0; i < NUM_CAPTURE_RECEIVED_DATA_BUFFERS; i++)
ftd2_libusb_start_read(ftd2_libusb_get_free_buffer(received_data_buffers), index++, full_size);
while(capture_data->status.connected && capture_data->status.running) {
if(get_ftd2_libusb_status(received_data_buffers) != 0) {
capture_error_print(true, capture_data, "Disconnected: Read error");
is_done = true;
}
if(is_done)
break;
ftd2_libusb_start_read(ftd2_libusb_get_free_buffer(received_data_buffers), index++, full_size);
resync_offset(received_data_buffers, index, full_size);
}
wait_all_ftd2_libusb_buffers_free(received_data_buffers);
libusb_unregister_from_event_thread();
delete []received_data_buffers;
}
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