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#include "ps3eye.hpp"
#include "compat/macros1.h"
#include "compat/thread-name.hpp"
#include "internal.hpp"
#include "urb.hpp"
#include "frame-queue.hpp"
#include "singleton.hpp"
#include "constants.hpp"
#include <memory>
#include <thread>
#include <mutex>
#include <condition_variable>
#include <chrono>
#include <atomic>
#include <optional>
#include <iterator>
#include <algorithm>
#include <cstdio>
#include <cstdlib>
#include <cstring>
#include <cstdint>
using namespace std::chrono_literals;
#define OV534_REG_ADDRESS 0xf1 /* sensor address */
#define OV534_REG_SUBADDR 0xf2
#define OV534_REG_WRITE 0xf3
#define OV534_REG_READ 0xf4
#define OV534_REG_OPERATION 0xf5
#define OV534_REG_STATUS 0xf6
#define OV534_OP_WRITE_3 0x37
#define OV534_OP_WRITE_2 0x33
#define OV534_OP_READ_2 0xf9
bool ps3eye_camera::devicesEnumerated = false;
std::vector<ps3eye_camera::device> ps3eye_camera::devices;
const std::vector<ps3eye_camera::device>& ps3eye_camera::get_devices(bool force_refresh)
{
if (devicesEnumerated && !force_refresh)
return devices;
devices.clear();
(void) USBMgr::instance().list_devices(devices);
devicesEnumerated = true;
return devices;
}
ps3eye_camera::ps3eye_camera(libusb_device *device) :
device_(device),
urb(std::make_shared<URBDesc>())
{
}
ps3eye_camera::~ps3eye_camera()
{
release();
}
void ps3eye_camera::release()
{
stop();
close_usb();
}
bool ps3eye_camera::init(uint32_t width, uint32_t height, uint16_t desiredFrameRate, format outputFormat)
{
uint16_t sensor_id;
// open usb device so we can setup and go
if(handle_ == nullptr && !open_usb())
return false;
// find best cam mode
if((width == 0 && height == 0) || width > 320 || height > 240)
{
frame_width = 640;
frame_height = 480;
} else {
frame_width = 320;
frame_height = 240;
}
frame_rate = ov534_set_frame_rate(desiredFrameRate, true);
frame_output_format = outputFormat;
/* reset bridge */
ov534_reg_write(0xe7, 0x3a);
ov534_reg_write(0xe0, 0x08);
std::this_thread::sleep_for(100ms);
/* initialize the sensor address */
ov534_reg_write(OV534_REG_ADDRESS, 0x42);
/* reset sensor */
sccb_reg_write(0x12, 0x80);
std::this_thread::sleep_for(100ms);
/* probe the sensor */
sccb_reg_read(0x0a);
sensor_id = (uint16_t)(sccb_reg_read(0x0a) << 8);
sccb_reg_read(0x0b);
sensor_id |= sccb_reg_read(0x0b);
debug("sensor id: %04x\n", sensor_id);
/* initialize */
reg_w_array(ov534_reg_initdata, std::size(ov534_reg_initdata));
ov534_set_led(1);
sccb_w_array(ov772x_reg_initdata, std::size(ov772x_reg_initdata));
ov534_reg_write(0xe0, 0x09);
ov534_set_led(0);
return true;
}
bool ps3eye_camera::start()
{
if (is_streaming_)
return true;
if (!isInitialized())
{
debug("call ps3eye_camera::init() first\n");
return false;
}
if (frame_width == 320) { /* 320x240 */
reg_w_array(bridge_start_qvga, std::size(bridge_start_qvga));
sccb_w_array(sensor_start_qvga, std::size(sensor_start_qvga));
} else { /* 640x480 */
reg_w_array(bridge_start_vga, std::size(bridge_start_vga));
sccb_w_array(sensor_start_vga, std::size(sensor_start_vga));
}
ov534_set_frame_rate(frame_rate);
set_auto_gain(autogain);
set_auto_white_balance(awb);
set_gain(gain);
set_hue(hue);
set_exposure(exposure);
set_brightness(brightness);
set_contrast(contrast);
set_sharpness(sharpness);
set_red_balance(redblc);
set_blue_balance(blueblc);
set_green_balance(greenblc);
set_flip(flip_h, flip_v);
ov534_set_led(1);
ov534_reg_write(0xe0, 0x00); // start stream
is_streaming_ = true;
// init and start urb
if (!urb->start_transfers(handle_, frame_width*frame_height))
{
debug("failed to start\n");
stop();
return false;
}
return true;
}
void ps3eye_camera::stop()
{
if (!is_streaming_)
return;
/* stop streaming data */
ov534_reg_write(0xe0, 0x09);
ov534_set_led(0);
// close urb
urb->close_transfers();
urb->free_transfers();
is_streaming_ = false;
}
#define MAX_USB_DEVICE_PORT_PATH 7
bool ps3eye_camera::getUSBPortPath(char *out_identifier, size_t max_identifier_length) const
{
bool success = false;
if (isInitialized())
{
uint8_t port_numbers[MAX_USB_DEVICE_PORT_PATH];
memset(out_identifier, 0, max_identifier_length);
memset(port_numbers, 0, std::size(port_numbers));
int port_count = libusb_get_port_numbers(device_, port_numbers, MAX_USB_DEVICE_PORT_PATH);
int bus_id = libusb_get_bus_number(device_);
snprintf(out_identifier, max_identifier_length, "b%d", bus_id);
if (port_count > 0)
{
success = true;
for (int port_index = 0; port_index < port_count; ++port_index)
{
uint8_t port_number = port_numbers[port_index];
char port_string[8];
snprintf(port_string, std::size(port_string), (port_index == 0) ? "_p%d" : ".%d", port_number);
if (strlen(out_identifier)+std::size(port_string)+1 <= max_identifier_length)
std::strcat(out_identifier, port_string);
else
{
success = false;
break;
}
}
}
}
return success;
}
uint32_t ps3eye_camera::get_depth() const
{
switch (frame_output_format)
{
case format_Bayer:
case format_Gray:
return 1;
case format_BGR:
case format_RGB:
return 3;
case format_BGRA:
case format_RGBA:
return 4;
default:
unreachable();
}
}
bool ps3eye_camera::get_frame(uint8_t* frame)
{
return urb->queue().Dequeue(frame, frame_width, frame_height, frame_output_format, flip_v);
}
bool ps3eye_camera::open_usb()
{
// open, set first config and claim interface
int res = libusb_open(device_, &handle_);
if(res != 0) {
debug("device open error: %d\n", res);
return false;
}
res = libusb_claim_interface(handle_, 0);
if(res != 0) {
debug("device claim interface error: %d\n", res);
return false;
}
return true;
}
void ps3eye_camera::close_usb()
{
if (handle_)
{
libusb_release_interface(handle_, 0);
libusb_close(handle_);
}
if (device_)
libusb_unref_device(device_);
handle_ = nullptr;
device_ = nullptr;
}
/* Two bits control LED: 0x21 bit 7 and 0x23 bit 7.
* (direction and output)? */
void ps3eye_camera::ov534_set_led(int status)
{
uint8_t data;
debug("led status: %d\n", status);
data = ov534_reg_read(0x21);
data |= 0x80;
ov534_reg_write(0x21, data);
data = ov534_reg_read(0x23);
if (status)
data |= 0x80;
else
data &= ~0x80;
ov534_reg_write(0x23, data);
if (!status) {
data = ov534_reg_read(0x21);
data &= ~0x80;
ov534_reg_write(0x21, data);
}
}
/* validate frame rate and (if not dry run) set it */
uint16_t ps3eye_camera::ov534_set_frame_rate(uint16_t fps, bool dry_run)
{
const struct rate_s *r;
int i;
if (frame_width == 640) {
r = rate_0;
i = std::size(rate_0);
} else {
r = rate_1;
i = std::size(rate_1);
}
while (--i > 0) {
if (fps >= r->fps)
break;
r++;
}
if (!dry_run) {
sccb_reg_write(0x11, r->r11);
sccb_reg_write(0x0d, r->r0d);
ov534_reg_write(0xe5, r->re5);
}
debug("frame_rate: %d\n", r->fps);
return r->fps;
}
void ps3eye_camera::ov534_reg_write(uint16_t reg, uint8_t val)
{
int ret;
//debug("reg=0x%04x, val=0%02x", reg, val);
usb_buf[0] = val;
constexpr int req_type = (int)LIBUSB_ENDPOINT_OUT |
(int)LIBUSB_REQUEST_TYPE_VENDOR |
(int)LIBUSB_RECIPIENT_DEVICE;
ret = libusb_control_transfer(handle_,
req_type,
0x01, 0x00, reg,
usb_buf, 1, 500);
if (ret < 0) {
debug("write failed\n");
}
}
uint8_t ps3eye_camera::ov534_reg_read(uint16_t reg)
{
int ret;
constexpr int req_type = (int)LIBUSB_ENDPOINT_IN |
(int)LIBUSB_REQUEST_TYPE_VENDOR |
(int)LIBUSB_RECIPIENT_DEVICE;
ret = libusb_control_transfer(handle_, req_type, 0x01, 0x00, reg, usb_buf, 1, 500);
//debug("reg=0x%04x, data=0x%02x", reg, usb_buf[0]);
if (ret < 0)
warn("read failed\n");
return usb_buf[0];
}
int ps3eye_camera::sccb_check_status()
{
uint8_t data;
int i;
for (i = 0; i < 5; i++) {
data = ov534_reg_read(OV534_REG_STATUS);
switch (data) {
case 0x00:
return 1;
case 0x04:
return 0;
case 0x03:
break;
default:
debug("sccb status 0x%02x, attempt %d/5\n",
data, i + 1);
}
}
return 0;
}
void ps3eye_camera::sccb_reg_write(uint8_t reg, uint8_t val)
{
//debug("reg: 0x%02x, val: 0x%02x", reg, val);
ov534_reg_write(OV534_REG_SUBADDR, reg);
ov534_reg_write(OV534_REG_WRITE, val);
ov534_reg_write(OV534_REG_OPERATION, OV534_OP_WRITE_3);
if (!sccb_check_status()) {
debug("sccb_reg_write failed\n");
}
}
uint8_t ps3eye_camera::sccb_reg_read(uint16_t reg)
{
ov534_reg_write(OV534_REG_SUBADDR, (uint8_t)reg);
ov534_reg_write(OV534_REG_OPERATION, OV534_OP_WRITE_2);
if (!sccb_check_status()) {
debug("sccb_reg_read failed 1\n");
}
ov534_reg_write(OV534_REG_OPERATION, OV534_OP_READ_2);
if (!sccb_check_status()) {
debug( "sccb_reg_read failed 2\n");
}
return ov534_reg_read(OV534_REG_READ);
}
/* output a bridge sequence (reg - val) */
void ps3eye_camera::reg_w_array(const uint8_t (*data)[2], int len)
{
while (--len >= 0) {
ov534_reg_write((*data)[0], (*data)[1]);
data++;
}
}
/* output a sensor sequence (reg - val) */
void ps3eye_camera::sccb_w_array(const uint8_t (*data)[2], int len)
{
while (--len >= 0) {
if ((*data)[0] != 0xff) {
sccb_reg_write((*data)[0], (*data)[1]);
} else {
sccb_reg_read((*data)[1]);
sccb_reg_write(0xff, 0x00);
}
data++;
}
}
void ps3eye_camera::set_auto_white_balance(bool val)
{
awb = val;
if (val) {
sccb_reg_write(0x63, 0xe0); //AWB ON
}else{
sccb_reg_write(0x63, 0xAA); //AWB OFF
}
}
void ps3eye_camera::set_gain(uint8_t val)
{
gain = val;
switch(val & 0x30){
case 0x00:
val &=0x0F;
break;
case 0x10:
val &=0x0F;
val |=0x30;
break;
case 0x20:
val &=0x0F;
val |=0x70;
break;
case 0x30:
val &=0x0F;
val |=0xF0;
break;
}
sccb_reg_write(0x00, val);
}
void ps3eye_camera::set_exposure(uint8_t val)
{
exposure = val;
sccb_reg_write(0x08, val>>7);
sccb_reg_write(0x10, val<<1);
}
void ps3eye_camera::set_sharpness(uint8_t val)
{
sharpness = val;
sccb_reg_write(0x91, val); //vga noise
sccb_reg_write(0x8E, val); //qvga noise
}
void ps3eye_camera::set_contrast(uint8_t val)
{
contrast = val;
sccb_reg_write(0x9C, val);
}
void ps3eye_camera::set_brightness(uint8_t val)
{
brightness = val;
sccb_reg_write(0x9B, val);
}
void ps3eye_camera::set_hue(uint8_t val)
{
hue = val;
sccb_reg_write(0x01, val);
}
void ps3eye_camera::set_red_balance(uint8_t val)
{
redblc = val;
sccb_reg_write(0x43, val);
}
void ps3eye_camera::set_blue_balance(uint8_t val)
{
blueblc = val;
sccb_reg_write(0x42, val);
}
void ps3eye_camera::set_green_balance(uint8_t val)
{
greenblc = val;
sccb_reg_write(0x44, val);
}
void ps3eye_camera::set_flip(bool horizontal, bool vertical)
{
flip_h = horizontal;
flip_v = vertical;
uint8_t val = sccb_reg_read(0x0c);
val &= ~0xc0;
if (!horizontal) val |= 0x40;
if (!vertical) val |= 0x80;
sccb_reg_write(0x0c, val);
}
void ps3eye_camera::set_test_pattern(bool enable)
{
testPattern = enable;
uint8_t val = sccb_reg_read(0x0C);
val &= ~0b00000001;
if (testPattern) val |= 0b00000001; // 0x80;
sccb_reg_write(0x0C, val);
}
bool ps3eye_camera::setFrameRate(uint8_t val)
{
if (is_streaming_) return false;
frame_rate = ov534_set_frame_rate(val, true);
return true;
}
void ps3eye_camera::set_auto_gain(bool val)
{
autogain = val;
if (val) {
sccb_reg_write(0x13, 0xf7); //AGC,AEC,AWB ON
sccb_reg_write(0x64, sccb_reg_read(0x64)|0x03);
} else {
sccb_reg_write(0x13, 0xf0); //AGC,AEC,AWB OFF
sccb_reg_write(0x64, sccb_reg_read(0x64)&0xFC);
set_gain(gain);
set_exposure(exposure);
}
}
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