nes-proj/examples/rest-example
2014-12-01 20:13:09 +01:00
..
coap-client-example.c Converted u8_t to uint8_t and u16_t to uint16_t in the examples directory. 2012-02-21 08:33:25 -05:00
coap-client-server-example.csc SkyByteRadio was replaced by Msp802154Radio 2014-07-23 15:42:59 +02:00
Makefile Cleanup of the Contiki network layer configuration. Now using CONTIKI_WITH_IPV6, CONTIKI_WITH_IPV4, and CONTIKI_WITH_RIME in makefiles, and UIP_CONF_IPV6, UIP_CONF_IPV4, UIP_CONF_RIME in c code. Now only the stacks that are used are compiled (via makefile MODULES). Make IPv6 the default network stack. 2014-12-01 20:13:09 +01:00
project-conf.h Modified project setup for er-rest-example and rest-example to use 2014-04-15 22:59:20 +02:00
README.md Rename to md 2013-03-26 23:15:37 +01:00
rest-server-example.c Moved the sht11 driver to its own module 2014-01-26 23:20:30 +01:00
rest-server-example.csc SkyByteRadio was replaced by Msp802154Radio 2014-07-23 15:42:59 +02:00

REST example

Open a terminal and go to "<CONTIKI_HOME>/examples/rest-example/" directory.

MAIN EXAMPLE: rest-server-example.c : A RESTful server example showing how to use the REST layer to develop server-side applications (possible to run it over either COAP or HTTP) To use COAP as the underlying application protocol, one should define WITH_COAP = 1 in rest-example/Makefile. Otherwise, HTTP is used. Look at the source code to see which resources are available. (check the RESOURCE macros in the code). Each resource has a handler function which is called by the REST layer to serve the request. (i.e. "helloworld" resource has a handler function named "helloworld_handler" which is called when a web service request is received for "helloworld" resource.)

To run REST examples in COOJA on Linux

Accessing the server from outside:

  1. Start COOJA and load the simulation "rest-server-example.csc" by the following command.

     make TARGET=cooja rest-server-example.csc
    
  2. After loading the COOJA file, open another another terminal pointing to the same directory and connect to the COOJA simulation using tunslip6:

     make connect-router-cooja
    
  3. You need to use a COAP or HTTP client to interact with the COOJA nodes running REST code. In this setting, two servers are available: IP addresses are aaaa::0212:7402:0002:0202 and aaaa::0212:7403:0003:0303. COAP uses 61616, whereas HTTP uses 8080 port in default configuration. First, ping the COOJA nodes to test the connectivity.

     ping6 aaaa::0212:7402:0002:0202
     ping6 aaaa::0212:7403:0003:0303
    

HTTP Examples

You can use curl as an http client to interact with the COOJA motes running REST code.

curl -H "User-Agent: curl" aaaa::0212:7402:0002:0202:8080/helloworld #get helloworld plain text
curl -H "User-Agent: curl" aaaa::0212:7402:0002:0202:8080/led?color=green -d mode=off -i #turn off the green led
curl -H "User-Agent: curl" aaaa::0212:7402:0002:0202:8080/.well-known/core -i
curl -X POST -H "User-Agent: curl" aaaa::0212:7402:0002:0202:8080/helloworld #method not allowed

COAP Examples

You should run a COAP client on your computer. You can use the URLs and methods provided above in HTTP examples to test the COAP Server. For example, Matthias Kovatsch has developed a CoAP Firefox plug-in which is accessible via http://people.inf.ethz.ch/mkovatsc/#pro

Accessing the server inside the sensor network: (Note: Provided only for COAP implementation) Start COOJA and load the simulation "coap-client-server-example.csc" by the following command.

make TARGET=cooja coap-client-server-example.csc

coap-client-server-example.csc : Runs rest-server-example.c as the server (over COAP) (IP:aaaa::0212:7401:0001:0101) in one node and coap-client-example.c as the client (IP: aaaa::0212:7402:0002:0202) in another node. Client periodically accesses resources of server and prints the payload.

Note: If the generated binary is bigger than the MOTE code size, then you will get a "region text is full" error. Right now, REST+HTTP example uses (Contiki & ContikiMAC & uIPv6 & RPL & HTTP Server & REST Layer) which does not fit in Tmote Sky memory. To save same code space and make the example fit, you can define static routes rather than using RPL or use nullrdc rather than ContikiMAC. If border router does not fit, then first try to update the Makefile of border router in <CONTIKI_HOME>/examples/ipv6/rpl-border-router by setting WITH_WEBSERVER=0.

To run REST server on real nodes (i.e. tmote sky)

  1. Program the nodes with the rest-server-example

     make TARGET=sky rest-server-example.upload
    
  2. Disconnect the nodes and program one node with the RPL border router

     cd ../ipv6/rpl-border-router && make TARGET=sky border-router.upload
    
  3. Connect to the border router using tunslip6:

     make connect-router
    
  4. Reconnect the motes, open new terminal for each mote and run the following command to note their IP addresses (after running the command reset the corresponding mote to get IP address printed)

     make login TARGET=sky MOTE=2   #Shows the prints for first mote
     make login TARGET=sky MOTE=3   #For second mote and so on.
    
  5. Test the connectivity by pinging them.

     ping6 <IPv6 Address of the MOTE>
    
  6. Remaining parts are the same with the COOJA example. (i.e. if it is a COAP Server, it's available at <NODE_IP_ADDR>:61616)

To run REST server with minimal-net on Linux

  1. Compile with minimal-net setting.

     make rest-server-example TARGET=minimal-net
    
  2. Run the generated executable with sudo and note the IP address of the server which will be printed right after.

     sudo ./rest-server-example.minimal-net
    
  3. How to access and test the server is same with the other settings. (i.e. if it is a COAP Server, it's available at <IP_ADDRESS_FROM_STEP_2>:61616 and if it's a HTTP Server it is available at <IP_ADDRESS_FROM_STEP_2>:8080)

TODO

  • Better option handling needed - ex: critical options are not differentiated for now. Need to add support for some such as Tokens. Also, C/E difference should be added.
  • Reilable message sending is missing. i.e. client example should resend request in case ACK does not arrive. Same for server pushing (in case of subscriptions)
  • Add Block transfer example
  • Add Subscription example
  • Add an Android/Java COAP Client to Contikiprojects to be able to interact with Contiki.
  • COAP-specific Method Codes