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Fork of ros_lib_kinetic by
ros/node_handle.h
- Committer:
- randalthor
- Date:
- 2017-05-19
- Revision:
- 2:af816ffd33df
- Parent:
- 0:9e9b7db60fd5
File content as of revision 2:af816ffd33df:
/* * Software License Agreement (BSD License) * * Copyright (c) 2011, Willow Garage, Inc. * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * * Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * Redistributions in binary form must reproduce the above * copyright notice, this list of conditions and the following * disclaimer in the documentation and/or other materials provided * with the distribution. * * Neither the name of Willow Garage, Inc. nor the names of its * contributors may be used to endorse or promote prducts derived * from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS * FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE * COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN * ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. */ #ifndef ROS_NODE_HANDLE_H_ #define ROS_NODE_HANDLE_H_ #include <stdint.h> #include "std_msgs/Time.h" #include "rosserial_msgs/TopicInfo.h" #include "rosserial_msgs/Log.h" #include "rosserial_msgs/RequestParam.h" #define SYNC_SECONDS 5 #define MODE_FIRST_FF 0 /* * The second sync byte is a protocol version. It's value is 0xff for the first * version of the rosserial protocol (used up to hydro), 0xfe for the second version * (introduced in hydro), 0xfd for the next, and so on. Its purpose is to enable * detection of mismatched protocol versions (e.g. hydro rosserial_python with groovy * rosserial_arduino. It must be changed in both this file and in * rosserial_python/src/rosserial_python/SerialClient.py */ #define MODE_PROTOCOL_VER 1 #define PROTOCOL_VER1 0xff // through groovy #define PROTOCOL_VER2 0xfe // in hydro #define PROTOCOL_VER PROTOCOL_VER2 #define MODE_SIZE_L 2 #define MODE_SIZE_H 3 #define MODE_SIZE_CHECKSUM 4 // checksum for msg size received from size L and H #define MODE_TOPIC_L 5 // waiting for topic id #define MODE_TOPIC_H 6 #define MODE_MESSAGE 7 #define MODE_MSG_CHECKSUM 8 // checksum for msg and topic id #define MSG_TIMEOUT 20 //20 milliseconds to recieve all of message data #include "ros/msg.h" namespace ros { class NodeHandleBase_{ public: virtual int publish(int id, const Msg* msg)=0; virtual int spinOnce()=0; virtual bool connected()=0; }; } #include "ros/publisher.h" #include "ros/subscriber.h" #include "ros/service_server.h" #include "ros/service_client.h" namespace ros { using rosserial_msgs::TopicInfo; /* Node Handle */ template<class Hardware, int MAX_SUBSCRIBERS=25, int MAX_PUBLISHERS=25, int INPUT_SIZE=512, int OUTPUT_SIZE=512> class NodeHandle_ : public NodeHandleBase_ { protected: Hardware hardware_; /* time used for syncing */ uint32_t rt_time; /* used for computing current time */ uint32_t sec_offset, nsec_offset; uint8_t message_in[INPUT_SIZE]; uint8_t message_out[OUTPUT_SIZE]; Publisher * publishers[MAX_PUBLISHERS]; Subscriber_ * subscribers[MAX_SUBSCRIBERS]; /* * Setup Functions */ public: NodeHandle_() : configured_(false) { for(unsigned int i=0; i< MAX_PUBLISHERS; i++) publishers[i] = 0; for(unsigned int i=0; i< MAX_SUBSCRIBERS; i++) subscribers[i] = 0; for(unsigned int i=0; i< INPUT_SIZE; i++) message_in[i] = 0; for(unsigned int i=0; i< OUTPUT_SIZE; i++) message_out[i] = 0; req_param_resp.ints_length = 0; req_param_resp.ints = NULL; req_param_resp.floats_length = 0; req_param_resp.floats = NULL; req_param_resp.ints_length = 0; req_param_resp.ints = NULL; } Hardware* getHardware(){ return &hardware_; } /* Start serial, initialize buffers */ void initNode(){ hardware_.init(); mode_ = 0; bytes_ = 0; index_ = 0; topic_ = 0; }; /* Start a named port, which may be network server IP, initialize buffers */ void initNode(char *portName){ hardware_.init(portName); mode_ = 0; bytes_ = 0; index_ = 0; topic_ = 0; }; protected: //State machine variables for spinOnce int mode_; int bytes_; int topic_; int index_; int checksum_; bool configured_; /* used for syncing the time */ uint32_t last_sync_time; uint32_t last_sync_receive_time; uint32_t last_msg_timeout_time; public: /* This function goes in your loop() function, it handles * serial input and callbacks for subscribers. */ virtual int spinOnce(){ /* restart if timed out */ uint32_t c_time = hardware_.time(); if( (c_time - last_sync_receive_time) > (SYNC_SECONDS*2200) ){ configured_ = false; } /* reset if message has timed out */ if ( mode_ != MODE_FIRST_FF){ if (c_time > last_msg_timeout_time){ mode_ = MODE_FIRST_FF; } } /* while available buffer, read data */ while( true ) { int data = hardware_.read(); if( data < 0 ) break; checksum_ += data; if( mode_ == MODE_MESSAGE ){ /* message data being recieved */ message_in[index_++] = data; bytes_--; if(bytes_ == 0) /* is message complete? if so, checksum */ mode_ = MODE_MSG_CHECKSUM; }else if( mode_ == MODE_FIRST_FF ){ if(data == 0xff){ mode_++; last_msg_timeout_time = c_time + MSG_TIMEOUT; } else if( hardware_.time() - c_time > (SYNC_SECONDS)){ /* We have been stuck in spinOnce too long, return error */ configured_=false; return -2; } }else if( mode_ == MODE_PROTOCOL_VER ){ if(data == PROTOCOL_VER){ mode_++; }else{ mode_ = MODE_FIRST_FF; if (configured_ == false) requestSyncTime(); /* send a msg back showing our protocol version */ } }else if( mode_ == MODE_SIZE_L ){ /* bottom half of message size */ bytes_ = data; index_ = 0; mode_++; checksum_ = data; /* first byte for calculating size checksum */ }else if( mode_ == MODE_SIZE_H ){ /* top half of message size */ bytes_ += data<<8; mode_++; }else if( mode_ == MODE_SIZE_CHECKSUM ){ if( (checksum_%256) == 255) mode_++; else mode_ = MODE_FIRST_FF; /* Abandon the frame if the msg len is wrong */ }else if( mode_ == MODE_TOPIC_L ){ /* bottom half of topic id */ topic_ = data; mode_++; checksum_ = data; /* first byte included in checksum */ }else if( mode_ == MODE_TOPIC_H ){ /* top half of topic id */ topic_ += data<<8; mode_ = MODE_MESSAGE; if(bytes_ == 0) mode_ = MODE_MSG_CHECKSUM; }else if( mode_ == MODE_MSG_CHECKSUM ){ /* do checksum */ mode_ = MODE_FIRST_FF; if( (checksum_%256) == 255){ if(topic_ == TopicInfo::ID_PUBLISHER){ requestSyncTime(); negotiateTopics(); last_sync_time = c_time; last_sync_receive_time = c_time; return -1; }else if(topic_ == TopicInfo::ID_TIME){ syncTime(message_in); }else if (topic_ == TopicInfo::ID_PARAMETER_REQUEST){ req_param_resp.deserialize(message_in); param_recieved= true; }else if(topic_ == TopicInfo::ID_TX_STOP){ configured_ = false; }else{ if(subscribers[topic_-100]) subscribers[topic_-100]->callback( message_in ); } } } } /* occasionally sync time */ if( configured_ && ((c_time-last_sync_time) > (SYNC_SECONDS*500) )){ requestSyncTime(); last_sync_time = c_time; } return 0; } /* Are we connected to the PC? */ virtual bool connected() { return configured_; }; /******************************************************************** * Time functions */ void requestSyncTime() { std_msgs::Time t; publish(TopicInfo::ID_TIME, &t); rt_time = hardware_.time(); } void syncTime(uint8_t * data) { std_msgs::Time t; uint32_t offset = hardware_.time() - rt_time; t.deserialize(data); t.data.sec += offset/1000; t.data.nsec += (offset%1000)*1000000UL; this->setNow(t.data); last_sync_receive_time = hardware_.time(); } Time now() { uint32_t ms = hardware_.time(); Time current_time; current_time.sec = ms/1000 + sec_offset; current_time.nsec = (ms%1000)*1000000UL + nsec_offset; normalizeSecNSec(current_time.sec, current_time.nsec); return current_time; } void setNow( Time & new_now ) { uint32_t ms = hardware_.time(); sec_offset = new_now.sec - ms/1000 - 1; nsec_offset = new_now.nsec - (ms%1000)*1000000UL + 1000000000UL; normalizeSecNSec(sec_offset, nsec_offset); } /******************************************************************** * Topic Management */ /* Register a new publisher */ bool advertise(Publisher & p) { for(int i = 0; i < MAX_PUBLISHERS; i++){ if(publishers[i] == 0){ // empty slot publishers[i] = &p; p.id_ = i+100+MAX_SUBSCRIBERS; p.nh_ = this; return true; } } return false; } /* Register a new subscriber */ template<typename SubscriberT> bool subscribe(SubscriberT& s){ for(int i = 0; i < MAX_SUBSCRIBERS; i++){ if(subscribers[i] == 0){ // empty slot subscribers[i] = static_cast<Subscriber_*>(&s); s.id_ = i+100; return true; } } return false; } /* Register a new Service Server */ template<typename MReq, typename MRes> bool advertiseService(ServiceServer<MReq,MRes>& srv){ bool v = advertise(srv.pub); for(int i = 0; i < MAX_SUBSCRIBERS; i++){ if(subscribers[i] == 0){ // empty slot subscribers[i] = static_cast<Subscriber_*>(&srv); srv.id_ = i+100; return v; } } return false; } /* Register a new Service Client */ template<typename MReq, typename MRes> bool serviceClient(ServiceClient<MReq, MRes>& srv){ bool v = advertise(srv.pub); for(int i = 0; i < MAX_SUBSCRIBERS; i++){ if(subscribers[i] == 0){ // empty slot subscribers[i] = static_cast<Subscriber_*>(&srv); srv.id_ = i+100; return v; } } return false; } void negotiateTopics() { rosserial_msgs::TopicInfo ti; int i; for(i = 0; i < MAX_PUBLISHERS; i++) { if(publishers[i] != 0) // non-empty slot { ti.topic_id = publishers[i]->id_; ti.topic_name = (char *) publishers[i]->topic_; ti.message_type = (char *) publishers[i]->msg_->getType(); ti.md5sum = (char *) publishers[i]->msg_->getMD5(); ti.buffer_size = OUTPUT_SIZE; publish( publishers[i]->getEndpointType(), &ti ); } } for(i = 0; i < MAX_SUBSCRIBERS; i++) { if(subscribers[i] != 0) // non-empty slot { ti.topic_id = subscribers[i]->id_; ti.topic_name = (char *) subscribers[i]->topic_; ti.message_type = (char *) subscribers[i]->getMsgType(); ti.md5sum = (char *) subscribers[i]->getMsgMD5(); ti.buffer_size = INPUT_SIZE; publish( subscribers[i]->getEndpointType(), &ti ); } } configured_ = true; } virtual int publish(int id, const Msg * msg) { if(id >= 100 && !configured_) return 0; /* serialize message */ uint16_t l = msg->serialize(message_out+7); /* setup the header */ message_out[0] = 0xff; message_out[1] = PROTOCOL_VER; message_out[2] = (uint8_t) ((uint16_t)l&255); message_out[3] = (uint8_t) ((uint16_t)l>>8); message_out[4] = 255 - ((message_out[2] + message_out[3])%256); message_out[5] = (uint8_t) ((int16_t)id&255); message_out[6] = (uint8_t) ((int16_t)id>>8); /* calculate checksum */ int chk = 0; for(int i =5; i<l+7; i++) chk += message_out[i]; l += 7; message_out[l++] = 255 - (chk%256); if( l <= OUTPUT_SIZE ){ hardware_.write(message_out, l); return l; }else{ logerror("Message from device dropped: message larger than buffer."); return -1; } } /******************************************************************** * Logging */ private: void log(char byte, const char * msg){ rosserial_msgs::Log l; l.level= byte; l.msg = (char*)msg; publish(rosserial_msgs::TopicInfo::ID_LOG, &l); } public: void logdebug(const char* msg){ log(rosserial_msgs::Log::ROSDEBUG, msg); } void loginfo(const char * msg){ log(rosserial_msgs::Log::INFO, msg); } void logwarn(const char *msg){ log(rosserial_msgs::Log::WARN, msg); } void logerror(const char*msg){ log(rosserial_msgs::Log::ERROR, msg); } void logfatal(const char*msg){ log(rosserial_msgs::Log::FATAL, msg); } /******************************************************************** * Parameters */ private: bool param_recieved; rosserial_msgs::RequestParamResponse req_param_resp; bool requestParam(const char * name, int time_out = 1000){ param_recieved = false; rosserial_msgs::RequestParamRequest req; req.name = (char*)name; publish(TopicInfo::ID_PARAMETER_REQUEST, &req); uint16_t end_time = hardware_.time() + time_out; while(!param_recieved ){ spinOnce(); if (hardware_.time() > end_time) return false; } return true; } public: bool getParam(const char* name, int* param, int length =1){ if (requestParam(name) ){ if (length == req_param_resp.ints_length){ //copy it over for(int i=0; i<length; i++) param[i] = req_param_resp.ints[i]; return true; } } return false; } bool getParam(const char* name, float* param, int length=1){ if (requestParam(name) ){ if (length == req_param_resp.floats_length){ //copy it over for(int i=0; i<length; i++) param[i] = req_param_resp.floats[i]; return true; } } return false; } bool getParam(const char* name, char** param, int length=1){ if (requestParam(name) ){ if (length == req_param_resp.strings_length){ //copy it over for(int i=0; i<length; i++) strcpy(param[i],req_param_resp.strings[i]); return true; } } return false; } }; } #endif