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ardupilot/libraries/SITL/SIM_JSON_Master.cpp

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/*
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
/*
Send and receve JSON backend data to alow a second AP instance to ride along
*/
#include "SIM_JSON_Master.h"
#if HAL_SIM_JSON_MASTER_ENABLED
#include <AP_Logger/AP_Logger.h>
#include <errno.h>
using namespace SITL;
void JSON_Master::init(const int32_t num_slaves)
{
socket_list *list = &_list;
uint8_t i = 1;
for (i = 1 ; i <= num_slaves; i++) {
// init each socket and instance
list->instance = i;
uint16_t port = 9002 + 10 * i;
if (!list->sock_in.reuseaddress()) {
AP_HAL::panic("JSON master: socket reuseaddress failed on port: %d - %s\n", port, strerror(errno));
}
if (!list->sock_in.bind("127.0.0.1", port)) {
AP_HAL::panic("JSON master: socket reuseaddress failed on port: %d - %s\n", port, strerror(errno));
}
if (!list->sock_in.set_blocking(false)) {
AP_HAL::panic( "JSON master: socket set_blocking(false) failed on port: %d - %s\n", port, strerror(errno));
}
printf("Slave %u: listening on %u\n", list->instance, port);
list->next = new socket_list;
list = list->next;
initialized = true;
}
}
// Receive PWM outs from ride along controlers
void JSON_Master::receive(struct sitl_input &input)
{
if (!initialized) {
return;
}
uint8_t master_instance = AP::sitl()->ride_along_master.get();
for (socket_list *list = &_list; list->next; list=list->next) {
// cycle through all ride along instances
struct servo_packet {
uint16_t magic;
uint16_t frame_rate;
uint32_t frame_count;
uint16_t pwm[16];
} buffer;
while (true) {
ssize_t ret = list->sock_in.recv(&buffer, sizeof(buffer), 100);
if (ret == 0) {
// wait some more
continue;
}
if (buffer.magic != 18458) {
// magic value does not match
continue;
}
if (!list->connected) {
// connect back to the last address for send
uint16_t port;
const char *_ip = nullptr;
list->sock_in.last_recv_address(_ip, port);
list->connected = list->sock_out.connect(_ip, port) && (port != 0);
if (list->connected) {
printf("Slave %u connected to %s:%u\n", list->instance, _ip, port);
}
}
if (list->connected) {
break;
}
}
const bool use_servos = list->instance == master_instance;
// @LoggerMessage: SLV1
// @Description: Log data received from JSON simulator 1
// @Field: TimeUS: Time since system startup (us)
// @Field: Instance: Slave instance
// @Field: magic: magic JSON protocol key
// @Field: frame_rate: Slave instance's desired frame rate
// @Field: frame_count: Slave instance's current frame count
// @Field: active: 1 if the servo outputs are being used from this instance
AP::logger().WriteStreaming("SLV1", "TimeUS,Instance,magic,frame_rate,frame_count,active",
"s#----",
"F?????",
"QBHHIB",
AP_HAL::micros64(),
list->instance,
buffer.magic,
buffer.frame_rate,
buffer.frame_count,
use_servos);
// @LoggerMessage: SLV2
// @Description: Log data received from JSON simulator 2
// @Field: TimeUS: Time since system startup
// @Field: Instance: Slave instance
// @Field: C1: channel 1 output
// @Field: C2: channel 2 output
// @Field: C3: channel 3 output
// @Field: C4: channel 4 output
// @Field: C5: channel 5 output
// @Field: C6: channel 6 output
// @Field: C7: channel 7 output
// @Field: C8: channel 8 output
// @Field: C9: channel 9 output
// @Field: C10: channel 10 output
// @Field: C11: channel 11 output
// @Field: C12: channel 12 output
// @Field: C13: channel 13 output
// @Field: C14: channel 14 output
// @Field: C15: channel 15 output
AP::logger().WriteStreaming("SLV2", "TimeUS,Instance,C1,C2,C3,C4,C5,C6,C7,C8,C9,C10,C11,C12,C13,C14,C15",
"s#YYYYYYYYYYYYYY",
"F?--------------",
"QBHHHHHHHHHHHHHH",
AP_HAL::micros64(),
list->instance,
buffer.pwm[0],
buffer.pwm[1],
buffer.pwm[2],
buffer.pwm[3],
buffer.pwm[4],
buffer.pwm[5],
buffer.pwm[6],
buffer.pwm[7],
buffer.pwm[8],
buffer.pwm[9],
buffer.pwm[10],
buffer.pwm[11],
buffer.pwm[12],
buffer.pwm[13],
buffer.pwm[14]);
if (list->instance == master_instance) {
// Use the servo outs from this instance
memcpy(input.servos,buffer.pwm,sizeof(input.servos));
}
}
}
// send vehicle state to ride along controlers
void JSON_Master::send(const struct sitl_fdm &output, const Vector3d &position)
{
if (!initialized) {
return;
}
// message is the same to all slaves
int length = asprintf(&json_out,"\n{\"timestamp\":%f,\"imu\":{\"gyro\":[%f,%f,%f],\"accel_body\":[%f,%f,%f]},\"position\":[%f,%f,%f],\"quaternion\":[%f,%f,%f,%f],\"velocity\":[%f,%f,%f],\"no_time_sync\":1}\n",
output.timestamp_us * 1e-6,
radians(output.rollRate), radians(output.pitchRate), radians(output.yawRate),
output.xAccel, output.yAccel, output.zAccel,
position.x, position.y, position.z,
output.quaternion.q1, output.quaternion.q2, output.quaternion.q3, output.quaternion.q4,
output.speedN, output.speedE, output.speedD);
for (socket_list *list = &_list; list->next; list=list->next) {
list->sock_out.send(json_out,length);
}
}
#endif // HAL_SIM_JSON_MASTER_ENABLED
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