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path: root/src/task_proto.cc
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/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
/* vim: set et sw=2 ts=2: */
/***************************************************************************
 *            task_proto.cc
 *
 *  Fri Feb 24 08:23:16 CET 2012
 *  Copyright 2012 Bent Bisballe Nyeng
 *  deva@aasimon.org
 ****************************************************************************/

/*
 *  This file is part of Munia.
 *
 *  Munia 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 2 of the License, or
 *  (at your option) any later version.
 *
 *  Munia 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 Munia; if not, write to the Free Software
 *  Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307  USA.
 */
#include "task_proto.h"

#include <stdio.h>
#include <string.h>

#include <queue>
#include <map>

#include "task.h"
#include "messageparser.h"
#include "xmlparser.h"

static void dump_handshake_info(struct lws_tokens *lwst)
{
  int n;
  static const char *token_names[WSI_TOKEN_COUNT] = {
    /*[WSI_TOKEN_GET_URI]     =*/ "GET URI",
    /*[WSI_TOKEN_HOST]        =*/ "Host",
    /*[WSI_TOKEN_CONNECTION]  =*/ "Connection",
    /*[WSI_TOKEN_KEY1]        =*/ "key 1",
    /*[WSI_TOKEN_KEY2]        =*/ "key 2",
    /*[WSI_TOKEN_PROTOCOL]    =*/ "Protocol",
    /*[WSI_TOKEN_UPGRADE]     =*/ "Upgrade",
    /*[WSI_TOKEN_ORIGIN]      =*/ "Origin",
    /*[WSI_TOKEN_DRAFT]       =*/ "Draft",
    /*[WSI_TOKEN_CHALLENGE]   =*/ "Challenge",

    /* new for 04 */
    /*[WSI_TOKEN_KEY]         =*/ "Key",
    /*[WSI_TOKEN_VERSION]     =*/ "Version",
    /*[WSI_TOKEN_SWORIGIN]    =*/ "Sworigin",

    /* new for 05 */
    /*[WSI_TOKEN_EXTENSIONS]  =*/ "Extensions",

    /* client receives these */
    /*[WSI_TOKEN_ACCEPT]      =*/ "Accept",
    /*[WSI_TOKEN_NONCE]       =*/ "Nonce",
    /*[WSI_TOKEN_HTTP]        =*/ "Http",
    /*[WSI_TOKEN_MUXURL]      =*/ "MuxURL",
  };

  for (n = 0; n < WSI_TOKEN_COUNT; n++) {
    if (lwst[n].token == NULL || lwst[n].token_len == 0) continue;
    fprintf(stderr, "    %s = ", token_names[n]);
    if(fwrite(lwst[n].token, 1, lwst[n].token_len, stderr)) {}
    fprintf(stderr, "\n");
  }
}

static std::map<struct libwebsocket *, std::queue<std::string> > msgqueue;

int callback_lws_task(struct libwebsocket_context * context,
                      struct libwebsocket *wsi,
                      enum libwebsocket_callback_reasons reason,
                      void *user, void *in, size_t len)
{
  int n;
  struct per_session_data__lws_task *pss =
    (struct per_session_data__lws_task *)user;

  switch (reason) {
    printf("============= Reason %d\n", reason);
  case LWS_CALLBACK_ESTABLISHED:
    {
      fprintf(stderr, "callback_lws_task: LWS_CALLBACK_ESTABLISHED\n");
      //      pss->ringbuffer_tail = ringbuffer_head;
      pss->wsi = wsi;
    /*

      // send all current tasks
      //      char buf[512];
      std::string init_str;
      TaskList::iterator it;
      for(it = tasklist.begin(); it != tasklist.end(); it++) {
        task_t &t = *it;

                printf("add %d %s %s %d;",
                        t.id, t.title.c_str(), t.desc.c_str(), t.parent_id);

        //        init_str.append(task_cmd(t));
        init_str += msg_tostring(create_msg(cmd::add, t));
      }

      std::string msg;
      msg.append((size_t)LWS_SEND_BUFFER_PRE_PADDING, ' ');
      msg.append(init_str);
      msg.append((size_t)LWS_SEND_BUFFER_POST_PADDING, ' ');
      msgqueue[wsi].push(msg);

      libwebsocket_callback_on_writable(context, wsi);
    */
    }
    break;

  case LWS_CALLBACK_CLOSED:
    {
      printf("Closing connection\n");
      msgqueue.erase(wsi);
    }
    break;

  case LWS_CALLBACK_SERVER_WRITEABLE:
    {
      printf("LWS_CALLBACK_SERVER_WRITEABLE\n");

      //      if(pss->ringbuffer_tail != ringbuffer_head) {
      if(msgqueue[wsi].size() > 0) {
        std::string msg = msgqueue[wsi].front();
        msgqueue[wsi].pop();
        n = libwebsocket_write(wsi, (unsigned char *)
                               msg.c_str() +
                               LWS_SEND_BUFFER_PRE_PADDING,
                               msg.length() - LWS_SEND_BUFFER_POST_PADDING - LWS_SEND_BUFFER_PRE_PADDING,
                               LWS_WRITE_TEXT);
        if(n < 0) {
          fprintf(stderr, "ERROR writing to socket");
          exit(1);
        }
      }

      if(msgqueue[wsi].size()) {
        libwebsocket_rx_flow_control(wsi, 1);
        libwebsocket_callback_on_writable(context, wsi);
      }
    }
    break;

  case LWS_CALLBACK_BROADCAST:
    printf("LWS_CALLBACK_BROADCAST\n");
    n = libwebsocket_write(wsi, (unsigned char*)in, len, LWS_WRITE_TEXT);
    if (n < 0) fprintf(stderr, "task write failed\n");
    break;

  case LWS_CALLBACK_RECEIVE:
    {
      printf("LWS_CALLBACK_RECEIVE\n");

      printf("%s\n", (char*)in);
      std::string data;
      data.append((char*)in, len);

      /*
        struct a_message &msg = ringbuffer[ringbuffer_head];
        if(msg.payload) {
        free(msg.payload);
        msg.payload = NULL;
        }

      */
      //      char buf[1024];
      //      size_t buf_len = 0;

      // print tasklist
      TaskList::iterator it_taskbegin;
      printf("-->[");
      for(it_taskbegin = tasklist.begin(); 
          it_taskbegin != tasklist.end(); 
          it_taskbegin++) {
        printf(" %d", it_taskbegin->id);
      }
      printf("]\n");

      std::string buf_str;

      MsgVector msglist = parse_msg(data);
      MsgVector::iterator it_msg;
      for(it_msg = msglist.begin(); it_msg != msglist.end(); it_msg++) {
        msg_t m = *it_msg;
        switch(m.cmd) {
        case cmd::add: {
          printf("Handling add cmd\n");

          //          task_t t = create_task(m.add.title, m.add.desc,
          //                                 m.add.x, m.add.y);
          task_t t = create_task(m.add.title, m.add.desc,
                                 m.add.parent_id);
          tasklist.insert(t);
          //          buf_len = sprintf(buf, "add %d %s %s %d %d;",
          //              t.id, t.title.c_str(), t.desc.c_str(), 
          //              t.x, t.y);

          //          msg_t tm = create_msg(cmd::add, t);
          //          std::string str = msg_tostring(tm);
          buf_str = msg_tostring(create_msg(cmd::add, t));

          printf("Adding task: %s\n", buf_str.c_str());
          break;
        }
        case cmd::del: {
          printf("Delete\n");
          printf("Deleting task with id %d\n", m.del.id);

          // todo: delete all children recursively
          task_t deleted_task;
          //          tasklist.erase(m.del.id, &deleted_task);
          bool id_found = false;
          TaskList::iterator it;
          for(it = tasklist.begin(); it != tasklist.end(); it++) {
            task_t &t = *it;
            if(t.id == m.del.id) {
              id_found = true;
              deleted_task = t;
              tasklist.erase(it);
              break;
            }
          }

          if(!id_found) {
            printf("\t!!!Could not locate task with id %d\n", m.del.id);
          }
          else {
            //          buf_len = sprintf(buf, "del %d;", m.del.id);
            buf_str = msg_tostring(create_msg(cmd::del, deleted_task));
            printf("Deleting task: %s\n", buf_str.c_str());
          }
          break;
        }
        case cmd::move: {
          printf("Move\n");

          printf("Moving task with id %d to %d\n", m.move.id, m.move.parent_id);

          bool id_found = false;
          TaskList::iterator it;

          //          int x = m.move.x / 300 * 300;

          task_t moved_task;
          for(it = tasklist.begin(); it != tasklist.end(); it++) {
            task_t &t = *it;
            if(t.id == m.move.id) {
              id_found = true;
              //              t.x = x;
              //              t.y = m.move.y;
              t.parent_id = m.move.parent_id;
              moved_task = t;
              tasklist.move(t);
              break;
            }
          }

          if(!id_found) {
            printf("\t!!!Could not locate task with id %d\n", m.move.id);
          }

          //          buf_len = sprintf(buf, "move %d %d %d;", m.move.id, x, m.move.y);
          buf_str = msg_tostring(create_msg(cmd::move, moved_task));
          printf("Moving task: %s\n", buf_str.c_str());
          break;
        }
        case cmd::update: {
          printf("Updating %d\n", m.update.id);

          bool id_found = false;
          TaskList::iterator it;

          task_t updated_task;
          for(it = tasklist.begin(); it != tasklist.end(); it++) {
            task_t &t = *it;
            if(t.id == m.update.id) {
              id_found = true;
              t.title = m.update.title;
              t.desc = m.update.desc;
              updated_task = t;
              break;
            }
          }

          if(!id_found) {
            printf("\t!!!Could not locate task with id %d\n", m.update.id);
          }

          buf_str = msg_tostring(create_msg(cmd::update, updated_task));
          printf("Updating task: %s\n", buf_str.c_str());

          break;
        }
        default:
          printf("Wrong command :(\n");
          break;
        }

        if(!save_tasklist_to_file(tasklist, "/tmp/muniad.db")) {
          printf("Could not flush db to file\n");
        }
        else { 
          //          XmlParser xml("/tmp/muniad.db");
          //          xml.parse();
          //          tasklist = xml.tasklist;
        }

      // print tasklist
      TaskList::iterator it_taskend;
      printf("<--[");
      for(it_taskend = tasklist.begin(); 
          it_taskend != tasklist.end(); 
          it_taskend++) {
        printf(" %d", it_taskend->id);
      }
      printf("]\n");

        //      msg.payload = malloc(LWS_SEND_BUFFER_PRE_PADDING + len + LWS_SEND_BUFFER_POST_PADDING);
        //      msg.len = len;
        //      memcpy((char *)msg.payload + LWS_SEND_BUFFER_PRE_PADDING, in, len);
        //      if(ringbuffer_head == (MAX_MESSAGE_QUEUE - 1)) ringbuffer_head = 0;
        //      else ringbuffer_head++;
        /*
          msg.payload = malloc(LWS_SEND_BUFFER_PRE_PADDING + buf_len 
          + LWS_SEND_BUFFER_POST_PADDING);
          msg.len = buf_len;
          memcpy((char *)msg.payload + LWS_SEND_BUFFER_PRE_PADDING, 
          buf, buf_len);
          if(ringbuffer_head == (MAX_MESSAGE_QUEUE - 1)) ringbuffer_head = 0;
          else ringbuffer_head++;
        */
        std::string msg;
        msg.append((size_t)LWS_SEND_BUFFER_PRE_PADDING, ' ');
        //      msg.append(buf, buf_len);
        msg.append(buf_str);
        msg.append((size_t)LWS_SEND_BUFFER_POST_PADDING, ' ');

        std::map<struct libwebsocket *, std::queue<std::string> >::iterator it = msgqueue.begin();
        while(it != msgqueue.end()) {      
          printf("!!\n");
          it->second.push(msg);
          it++;
        }
        /*
          if(((ringbuffer_head - pss->ringbuffer_tail) % MAX_MESSAGE_QUEUE) > (MAX_MESSAGE_QUEUE - 10))
          libwebsocket_rx_flow_control(wsi, 0);
        */
        libwebsocket_callback_on_writable_all_protocol(libwebsockets_get_protocol(wsi));
        //libwebsocket_rx_flow_control(wsi, 0);
      }
    }
    break;
    /*
     * this just demonstrates how to use the protocol filter. If you won't
     * study and reject connections based on header content, you don't need
     * to handle this callback
     */

  case LWS_CALLBACK_FILTER_PROTOCOL_CONNECTION:
    printf("LWS_CALLBACK_FILTER_PROTOCOL_CONNECTION\n");
    dump_handshake_info((struct lws_tokens *)(long)user);
    /* you could return non-zero here and kill the connection */
    break;

  default:
    break;
  }

  return 0;
}