This application is the simplest one to utilize our mesh networking stack. It just joins your device to the unsecure 6LoWPAN-ND network. The canonical source for this example lives at https://github.com/ARMmbed/mbed-os-example-mesh-minimal

Example mesh application for Mbed OS

With this application, you can use our mesh networking stack. This application joins your device to the unsecure 6LoWPAN-ND network.

Setup

Building with Mbed CLI

If you'd like to use Mbed CLI to build this offline, then you should refer to the Mbed CLI documentation. The instructions here relate to using the Mbed Online Compiler

  1. Click `Import this application` button.
  2. Change the channel settings: See the file `mbed_app.json` for an example of defining an IEEE 802.15.4 channel to use.
  3. Compile the application

A binary is generated at the end of the build process.

Connect the RF shield to the board

By default, we are using the Atmel AT86RF233, which you can purchase. Place the shield on top of your board, and power it on.

Program the target

Drag and drop the binary to the target to program the application.

Update the firmware of the border router.

You can read the instructions on updating the firmware of your board working as 6LoWPAN border router here.

Please remember to connect the Ethernet cable between the border router and your router. Then, power up the board.

Testing

As soon as both the border router and the target are up and running, you can verify the correct behavior. Open a serial console, and see the IP address obtained by the device.

Note: This application uses a baud rate of 115200.

Quote:

connected. IP = 2001:db8:a0b:12f0::1

You can use this IP address to ping from your PC and verify that the connection is working correctly.

Changing the radio driver (optional)

To run a 6LoWPAN-ND network, you need a working RF driver for Nanostack. This example uses the Atmel AT86RF233 by default.

To change the RF driver:

  1. Uninstall the Atmel RF driver.
  2. Install the new driver. (For example, for the FRDM-CR20A radio shield based on the MCR20A device.)
  3. Recompile your application.

Jenkinsfile

Committer:
mbed_official
Date:
2017-03-09
Revision:
49:425a1889434d
Parent:
46:178b1dba32cc
Child:
50:5d4045379c2f

File content as of revision 49:425a1889434d:

properties ([[$class: 'ParametersDefinitionProperty', parameterDefinitions: [
  [$class: 'StringParameterDefinition', name: 'mbed_os_revision', defaultValue: 'mbed-os-5.4', description: 'Revision of mbed-os to build'],
  [$class: 'BooleanParameterDefinition', name: 'smoke_test', defaultValue: false, description: 'Enable to run HW smoke test after building']
  ]]])

echo "Run smoke tests: ${params.smoke_test}"

try {
  echo "Verifying build with mbed-os version ${mbed_os_revision}"
  env.MBED_OS_REVISION = "${mbed_os_revision}"
} catch (err) {
  def mbed_os_revision = "master"
  echo "Verifying build with mbed-os version ${mbed_os_revision}"
  env.MBED_OS_REVISION = "${mbed_os_revision}"
}

// Map RaaS instances to corresponding test suites
def raas = [
  "lowpan_mesh_minimal_smoke_k64f_atmel.json": "8001",
  "lowpan_mesh_minimal_smoke_k64f_mcr20.json": "8034",
  "lowpan_mesh_minimal_smoke_429zi_atmel.json": "8030",
  "lowpan_mesh_minimal_smoke_429zi_mcr20.json": "8033",
  "lowpan_mesh_minimal_smoke_ublox_atmel.json": "8031",
  "thread_mesh_minimal_smoke_k64f_atmel.json": "8007",
  "thread_mesh_minimal_smoke_k64f_mcr20.json": "8034",
  "thread_mesh_minimal_smoke_429zi_atmel.json": "8030",
  "thread_mesh_minimal_smoke_429zi_mcr20.json": "8033",
  "thread_mesh_minimal_smoke_ublox_atmel.json": "8031"
  ]

// List of targets with supported RF shields to compile
def targets = [
  "K64F": ["ATMEL", "MCR20"],
  "NUCLEO_F401RE": ["ATMEL", "MCR20"],
  "NUCLEO_F429ZI": ["ATMEL", "MCR20"],
  //"NCS36510": ["NCS36510"],
  "UBLOX_EVK_ODIN_W2": ["ATMEL"]
  ]

// Map toolchains to compilers
def toolchains = [
  ARM: "armcc",
  GCC_ARM: "arm-none-eabi-gcc",
  IAR: "iar_arm"
  ]

// Supported RF shields
def radioshields = [
  "ATMEL",
  "MCR20",
  "NCS36510"
  ]

// Mesh interfaces: 6LoWPAN and Thread
def meshinterfaces = [
  "6lp",
  "thd"
  ]

def stepsForParallel = [:]

// Jenkins pipeline does not support map.each, we need to use oldschool for loop
for (int i = 0; i < targets.size(); i++) {
  for(int j = 0; j < toolchains.size(); j++) {
    for(int k = 0; k < radioshields.size(); k++) {
      for(int l = 0; l < meshinterfaces.size(); l++) {
        def target = targets.keySet().asList().get(i)
        def allowed_shields = targets.get(target)
        def toolchain = toolchains.keySet().asList().get(j)
        def compilerLabel = toolchains.get(toolchain)
        def radioshield = radioshields.get(k)
        def meshInterface = meshinterfaces.get(l)

        // Skip unwanted combination
        if (target == "NUCLEO_F401RE" && toolchain == "IAR") {
          continue
        }

        def stepName = "${target} ${toolchain} ${radioshield} ${meshInterface}"
        if(allowed_shields.contains(radioshield)) {
          stepsForParallel[stepName] = buildStep(target, compilerLabel, toolchain, radioshield, meshInterface)
        }
      }
    }
  }
}

def parallelRunSmoke = [:]

// Need to compare boolean against string value
if ( params.smoke_test == true ) {
  // Generate smoke tests based on suite amount
  for(int i = 0; i < raas.size(); i++) {
    def suite_to_run = raas.keySet().asList().get(i)
    def raasPort = raas.get(suite_to_run)
    // Parallel execution needs unique step names. Remove .json file ending.
    def smokeStep = "${raasPort} ${suite_to_run.substring(0, suite_to_run.indexOf('.'))}"
    parallelRunSmoke[smokeStep] = run_smoke(targets, toolchains, radioshields, meshinterfaces, raasPort, suite_to_run)
  }
}

timestamps {
  parallel stepsForParallel
  parallel parallelRunSmoke
}

def buildStep(target, compilerLabel, toolchain, radioShield, meshInterface) {
  return {
    stage ("${target}_${compilerLabel}_${radioShield}_${meshInterface}") {
      node ("${compilerLabel}") {
        deleteDir()
        dir("mbed-os-example-mesh-minimal") {
          checkout scm

          if ("${radioShield}" == "MCR20") {
            // Replace default rf shield
            execute("sed -i 's/\"value\": \"ATMEL\"/\"value\": \"MCR20\"/' mbed_app.json")
          }

          if ("${radioShield}" == "NCS36510") {
            // Replace default rf shield
            execute("sed -i 's/\"value\": \"ATMEL\"/\"value\": \"NCS36510\"/' mbed_app.json")
          }

          if ("${meshInterface}" == "thd") {
            // Change mesh interface to thread
            execute("sed -i 's/\"value\": \"MESH_LOWPAN\"/\"value\": \"MESH_THREAD\"/' mbed_app.json")

            // Change operation mode to Thread router
            execute("sed -i 's/\"NANOSTACK\", \"LOWPAN_ROUTER\", \"COMMON_PAL\"/\"NANOSTACK\", \"THREAD_ROUTER\", \"COMMON_PAL\"/' mbed_app.json")

            // Increase HEAP size
            execute("sed -i 's/\"mbed-mesh-api.heap-size\": 14000/\"mbed-mesh-api.heap-size\": 32000/' mbed_app.json")

            // Use systest Thread border router for testing (CH=18, PANID=BAAB)
            execute("sed -i 's/\"mbed-mesh-api.thread-config-channel\": 22/\"mbed-mesh-api.thread-config-channel\": 18/' mbed_app.json")
            execute("sed -i 's/\"mbed-mesh-api.thread-config-panid\": \"0x0700\"/\"mbed-mesh-api.thread-config-panid\": \"0xBAAB\"/' mbed_app.json")
            // Activate traces
            execute("sed -i 's/\"mbed-trace.enable\": false/\"mbed-trace.enable\": true/' mbed_app.json")
          }

          if ("${meshInterface}" == "6lp") {
            // Use systest border router for testing (CH=17, PANID=ABBA)
            execute("sed -i 's/\"mbed-mesh-api.6lowpan-nd-channel\": 12/\"mbed-mesh-api.6lowpan-nd-channel\": 17/' mbed_app.json")
            execute("sed -i 's/\"mbed-mesh-api.6lowpan-nd-panid-filter\": \"0xffff\"/\"mbed-mesh-api.6lowpan-nd-panid-filter\": \"0xABBA\"/' mbed_app.json")
            // Activate traces
            execute("sed -i 's/\"mbed-trace.enable\": false/\"mbed-trace.enable\": true/' mbed_app.json")
          }

          // Set mbed-os to revision received as parameter
          execute ("mbed deploy --protocol ssh")
          dir ("mbed-os") {
            execute ("git checkout ${env.MBED_OS_REVISION}")
          }

          execute ("mbed compile --build out/${target}_${toolchain}_${radioShield}_${meshInterface}/ -m ${target} -t ${toolchain} -c")
        }
        stash name: "${target}_${toolchain}_${radioShield}_${meshInterface}", includes: '**/mbed-os-example-mesh-minimal.bin'
        archive '**/mbed-os-example-mesh-minimal.bin'
        step([$class: 'WsCleanup'])
      }
    }
  }
}

def run_smoke(targets, toolchains, radioshields, meshinterfaces, raasPort, suite_to_run) {
  return {
    // Remove .json from suite name
    def suiteName = suite_to_run.substring(0, suite_to_run.indexOf('.'))
    stage ("smoke_${raasPort}_${suiteName}") {
      node ("mesh-test") {
        deleteDir()
        dir("mbed-clitest") {
          git "git@github.com:ARMmbed/mbed-clitest.git"
          execute("git checkout ${env.LATEST_CLITEST_REL}")
          execute("git submodule update --init --recursive testcases")

          dir("testcases") {
            execute("git checkout master")
            dir("6lowpan") {
              execute("git checkout master")
            }
          }

          for (int i = 0; i < targets.size(); i++) {
            for(int j = 0; j < toolchains.size(); j++) {
              for(int k = 0; k < radioshields.size(); k++) {
                for(int l = 0; l < meshinterfaces.size(); l++) {
                  def target = targets.keySet().asList().get(i)
                  def allowed_shields = targets.get(target)
                  def toolchain = toolchains.keySet().asList().get(j)
                  def radioshield = radioshields.get(k)
                  def meshInterface = meshinterfaces.get(l)
                  // Skip unwanted combination
                  if (target == "NUCLEO_F401RE" && toolchain == "IAR") {
                    continue
                  }
                  if(allowed_shields.contains(radioshield)) {
                    unstash "${target}_${toolchain}_${radioshield}_${meshInterface}"
                  }
                }
              }
            }
          }
          env.RAAS_USERNAME = "user"
          env.RAAS_PASSWORD = "user"
          execute("python clitest.py --suitedir testcases/suites/ --suite ${suite_to_run} --type hardware --reset --raas 193.208.80.31:${raasPort} --failure_return_value -vvv -w --log log_${raasPort}_${suiteName}")
          archive "log_${raasPort}_${suiteName}/**/*"
        }
      }
    }
  }
}