Daiki Kato
Send the data of GR-PEACH_HVC-P2_sample to the cloud.
Dependencies: AsciiFont GR-PEACH_video GraphicsFramework LCD_shield_config R_BSP USBHost_custom easy-connect-gr-peach
Fork of
mbed-os-example-client
by 
mbed-os-examples
Note at the time of sample import
Please not check the "Update all libraries to the latest version" at the time of import.
Warning!
When exporting and using it, increase the following stack size.
mbed-os/features/FEATURE_LWIP/lwip-interface/lwipopts.h
#define TCPIP_THREAD_STACKSIZE 1024 -> #define TCPIP_THREAD_STACKSIZE 2048
Overview
This is a sample to send the analysis result of GR-PEACH_HVC-P2_sample to the cloud using mbed-client. Please refer to following for operation of HVC-P2.
Import programGR-PEACH_HVC-P2_sample
Sample to operate omron HVC-P2 on GR-PEACH.
Last commit 28 Sep 2018 by 
Renesas
Required hardware
- GR-PEACH ( https://developer.mbed.org/platforms/Renesas-GR-PEACH/ )
- HVC-P2( https://developer.mbed.org/teams/Renesas/code/GR-PEACH_HVC-P2_sample/ )
- LCD Shield ( https://developer.mbed.org/teams/Renesas/wiki/LCD-shield )
- BP3595 ( https://developer.mbed.org/components/BP3595-for-GR-PEACH/ )
- Ethernet cable and connection to the internet
Application setup
Client credentials
To register the application to mbed Device Connector, you need to create and set the client side certificate.
- Go to https://connector.mbed.com/ and log in with your mbed account
- On mbed Device Connector, go to https://connector.mbed.com/#credentials and click the Get my device security credentials button to get new credentials for your device.
- Replace the contents in security.h of this example with content copied above.
Ethernet settings
This sample uses Ethernet as the default connection type. To change the connection type, set WIFI_BP3595 in mbed_app.json:
mbed_app.json
"network-interface":{
"help": "Options are ETHERNET, WIFI_ESP8266, WIFI_BP3595",
"value": "ETHERNET"
},
To specify MAC address, add fllowing function to main.cpp. (When using Wifi, setting of MAC address is not necessary.)
Specify MAC address
// set mac address
void mbed_mac_address(char *mac) {
mac[0] = 0x00;
mac[1] = 0x02;
mac[2] = 0xF7;
mac[3] = 0xF0;
mac[4] = 0x00;
mac[5] = 0x00;
}
Wifi settings
This example can use BP3595 Wifi Interface for managing the wireless connectivity. To run this example using Wifi, you need:
- A BP3595 Wifi module ( https://developer.mbed.org/components/BP3595-for-GR-PEACH/ )
- Mount BP3595 onto GR-PEACH
- Close GR-PEACH's JP21 (https://developer.mbed.org/teams/Renesas/wiki/Jumper-settings-of-GR-PEACH)
- In the mbed_app.json file, change
mbed_app.json
"network-interface":{
"help": "Options are ETHERNET, WIFI_ESP8266, WIFI_BP3595",
"value": "WIFI_BP3595"
},
Provide your Wifi SSID and password here and leave \" in the beginning and end of your SSID and password as shown in the example below:
mbed_app.json
"wifi-ssid": {
"help": "WiFi SSID",
"value": "\"SSID\""
},
"wifi-password": {
"help": "WIFI Password",
"value": "\"Password\""
}
Specify the security type for connection to be used. When the security type is WPA2, you need to specify
NSAPI_SECURITY_WAP as follows:
mbed_app.json
"wifi-security":{
"help": "Options are NSAPI_SECURITY_WEP, NSAPI_SECURITY_WPA, NSAPI_SECURITY_WPA2, NSAPI_SECURITY_WPA_WPA2",
"value": "NSAPI_SECURITY_WEP"
},
By default, NSAPI_SECURITY_WPA_WPA2 is specified here.
Application resources
This example exposes four resources listed below:
- 3202/0/5700. Recognition result from HVC-P2 (GET).
- 3201/0/5850. Blink function, blinks LED when executed (POST).
- 3201/0/5853. Blink pattern, used by the blink function to determine how to blink. In the format of 1000:500:1000:500:1000:500 (PUT).
- 3201/0/5855. Blink color, used by the blink function. Any of red, green, blue, cyan, yellow and magenta is acceptable (PUT).
For more info on how to get notifications when resource 1 changes, or how to use resource 2, 3 and 4, please look at
Import programGR-PEACH_mbed-connector-ZXingSample-node
Node.js based Web Application for mbed Device Connector specific to GR-PEACH_mbed-os-client-ZXingSample
Last commit 10 Mar 2017 by Renesas
# This is a Web Application for GR-PEACH_mbed-os-client-ZXingSample, but it can also be used for this sample.
Jenkinsfile
- Committer:
- dkato
- Date:
- 2017-03-14
- Revision:
- 74:bf6d9bd511bd
- Parent:
- 66:8079b3572c2e
File content as of revision 74:bf6d9bd511bd:
properties ([[$class: 'ParametersDefinitionProperty', parameterDefinitions: [
[$class: 'StringParameterDefinition', name: 'mbed_os_revision', defaultValue: 'latest', description: 'Revision of mbed-os to build']
]]])
try {
echo "Verifying build with mbed-os version ${mbed_os_revision}"
env.MBED_OS_REVISION = "${mbed_os_revision}"
} catch (err) {
def mbed_os_revision = "latest"
echo "Verifying build with mbed-os version ${mbed_os_revision}"
env.MBED_OS_REVISION = "${mbed_os_revision}"
}
// List of targets to compile
def targets = [
"K64F",
"NUCLEO_F429ZI",
"UBLOX_EVK_ODIN_W2"
]
// Map toolchains to compilers
def toolchains = [
ARM: "armcc",
GCC_ARM: "arm-none-eabi-gcc",
IAR: "iar_arm"
]
def configurations = [
"def": ["ETH"],
"thd": ["ATMEL", "MCR20"],
"6lp": ["ATMEL", "MCR20"]
]
def connectiontypes = [
"ETH",
"ATMEL",
"MCR20"
]
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 < configurations.size(); k++) {
for(int l = 0; l < connectiontypes.size(); l++) {
def target = targets.get(i)
def toolchain = toolchains.keySet().asList().get(j)
def compilerLabel = toolchains.get(toolchain)
def config = configurations.keySet().asList().get(k)
def allowed_configs = configurations.get(config)
def connectiontype = connectiontypes.get(l)
def stepName = "${target} ${toolchain} ${config} ${connectiontype}"
if(allowed_configs.contains(connectiontype)) {
stepsForParallel[stepName] = buildStep(target, compilerLabel, toolchain, config, connectiontype)
}
}
}
}
}
timestamps {
parallel stepsForParallel
}
def buildStep(target, compilerLabel, toolchain, configName, connectiontype) {
return {
stage ("${target}_${compilerLabel}_${configName}_${connectiontype}") {
node ("${compilerLabel}") {
deleteDir()
dir("mbed-os-example-client") {
checkout scm
if ("${configName}" == "thd") {
// Change device type to Thread router
execute("sed -i 's/\"NANOSTACK\", \"LOWPAN_ROUTER\", \"COMMON_PAL\"/\"NANOSTACK\", \"THREAD_ROUTER\", \"COMMON_PAL\"/' mbed_app.json")
// Change connection type to thread
execute ("sed -i 's/\"value\": \"ETHERNET\"/\"value\": \"MESH_THREAD\"/' mbed_app.json")
// Reuse 6lowpan channel to Thread channel
execute("sed -i 's/\"mbed-mesh-api.6lowpan-nd-channel\": 12/\"mbed-mesh-api.thread-config-channel\": 18/' mbed_app.json")
// Reuse 6lowpan channel page to Thread PANID
execute("sed -i 's/\"mbed-mesh-api.6lowpan-nd-channel-page\": 0/\"mbed-mesh-api.thread-config-panid\": \"0xBAAB\"/' mbed_app.json")
}
if ("${configName}" == "6lp") {
// Change connection type to 6LoWPAN
execute ("sed -i 's/\"value\": \"ETHERNET\"/\"value\": \"MESH_LOWPAN_ND\"/' mbed_app.json")
// Change channel for HW tests
execute ("sed -i 's/\"mbed-mesh-api.6lowpan-nd-channel\": 12/\"mbed-mesh-api.6lowpan-nd-channel\": 17/' mbed_app.json")
//Use PANID filter
execute ("sed -i '/6lowpan-nd-channel\":/a \"mbed-mesh-api.6lowpan-nd-panid-filter\": \"0xABBA\",' mbed_app.json")
}
if ("${connectiontype}" == "MCR20") {
// Replace default rf shield
execute ("sed -i 's/\"value\": \"ATMEL\"/\"value\": \"MCR20\"/' mbed_app.json")
}
// Copy security.h to build
mbed.getSecurityFile()
// 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}_${toolchain}_${configName}_${connectiontype}/ -m ${target} -t ${toolchain} -c")
}
archive '**/mbed-os-example-client.bin'
step([$class: 'WsCleanup'])
}
}
}
}