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This page presents an brief overview about webPA 2.0 (xmidt) components required for a reference webPA cluster setup and explains how to setup the cluster & establish an end-to-end connection with CPE devices.
WebPA is a secure web protocol messaging system for bi-directional communication between cloud server and RDK devices. It was built from the ground up specifically with security and performance as priorities. WebPA 2.0 commonly known as Xmidt (pronounced "transmit") is a combination of a server cluster and client that provide a highly available data path to devices deployed all over the world.
Operating system | Centos 7.6 |
---|---|
Architecture | x86_64 |
Memory | > 2048 MB |
Disk space | > 10 GB free space |
It is good to disable the firewall (iptables ) during initial setup for avoiding connection related confusions.
Commands described in this page are executed with super user (root) permission
Only Applicable for Older CentOS 6.x releases
Supervisor is a client/server system that allows its users to monitor and control a number of processes on UNIX-like operating systems.
Unlike other system initialization services, it is not meant to be run as a substitute for init. Instead it is meant to be used to control processes related to a project or a customer, and is meant to start like any other program at boot time.
a) Enable Extra Packages for Enterprise Linux (EPEL) $ wget http://dl.fedoraproject.org/pub/epel/6/x86_64/epel-release-6-8.noarch.rpm $ rpm -Uvh epel-release-6-8.noarch.rpm b) Install Python meld3 $ yum install python-meld3 c) Install supervisor $ yum install supervisor
Only Applicable for Older CentOS 6.x releases
ZooKeeper is a high-performance coordination service for distributed applications. It exposes common services - such as naming, configuration management, synchronization, and group services - in a simple interface so you don't have to write them from scratch. You can use it off-the-shelf to implement consensus, group management, leader election, and presence protocols. And you can build on it for your own, specific needs.
$ yum install zookeeper
# cat /etc/init.d/zookeeper #!bin/bash # # zookeeper Startup Script # # chkconfig: 345 90 14 # description: Zookeeper Application Startup Script # Source function library . /etc/rc.d/init.d/functions #------------------------------------------------------------------------------- start() { echo -n $"Starting Zookeeper: " /usr/lib/zookeeper/bin/zkServer.sh start RETVAL=$? echo [ $RETVAL -eq 0 ] && echo "[ OK ]" } stop() { echo -n $"Stopping Zookeeper: " /usr/lib/zookeeper/bin/zkServer.sh stop RETVAL=$? echo [ $RETVAL -eq 0 ] && echo "[ OK ]" } restart() { stop start } case "$1" in start) start ;; stop) stop ;; restart|force-reload|reload) restart ;; status) /usr/lib/zookeeper/bin/zkServer.sh status RETVAL=$? ;; *) echo $"Usage: $0 {start|stop|status|restart|reload|force-reload}" exit 1 esac exit $RETVAL
Launch system-config-services from a console and enable the zookeeper service from the services list.
Below is the list of components needed for a Xmidt (webPA 2.0) cluster setup. For a single node reference setup, few of the services are not mandatory hence not used.
Component | Type | Description | Used in current setup |
---|---|---|---|
Talaria | Server | Talaria maintains the secure websocket connections from the device and passes the messages from or to the device. | Yes |
Scytale | Server | Scytale accepts the inbound requests and delivers the messages to the Talaria machines that could be hosting the device connection. | Yes |
tr1d1um | Server | The Webpa micro-service that encode TR-181 requests. | Yes |
petasos | Server | Petasos helps reduce the load on the Talaria machines by calculating which specific Talaria a device should connect to & redirecting the incoming request. | No |
caduceus | Server | Caduceus provides the pub-sub message delivery (notification) mechanism for xmidt. | No |
parodus | Client | Parodus is the light weight client that reaches out to the xmidt cloud to establish the connection from CPE devices. | Yes |
a) Import the GPG Key (Required once, common for all the packages) $ rpm --import https://github.com/xmidt-org/talaria/releases/download/v0.1.3/RPM-GPG-KEY-xmidt b) Install the packages $ yum install https://github.com/xmidt-org/talaria/releases/download/v0.1.3/talaria-0.1.3-1.el7.x86_64.rpm $ yum install https://github.com/xmidt-org/scytale/releases/download/v0.1.4/scytale-0.1.4-1.el7.x86_64.rpm $ yum install https://github.com/xmidt-org/tr1d1um/releases/download/v0.1.2/tr1d1um-0.1.2-1.el7.x86_64.rpm Note: Change version number for downloading the required package.
If pre-built RPM packages are already installed as explained in previous section & we want to use the same, Skip to configuration section
Required for compiling server components written in go language.
$ sudo yum install golang
Glide is a package manager for Go that is conceptually similar to package managers for other languages. Glide provides the following functionality:
glide.yaml
file. This includes a name, version or version range, version control information for private repo or when the type cannot be detected, and more.glide.lock
file. This enables recursively fetching the dependency tree.vendor/
directories, known as the Vendor Experiment, so that different projects can have differing versions of the same dependencies.$ wget -c https://github.com/Masterminds/glide/releases/download/v0.13.1/glide-v0.13.1-linux-amd64.tar.gz $ tar -xzf glide-v0.13.1-linux-amd64.tar.gz -C /opt $ echo "export PATH=$PATH:/opt/linux-amd64/" >> $HOME/.bash_profile
1. create a directory in $HOME say webpa_modules $ mkdir $HOME/webpa_modules && cd $HOME/webpa_modules 2. Checkout the components from GitHub repository. $ git clone https://github.com/Comcast/talaria.git $ git clone https://github.com/Comcast/scytale.git $ git clone https://github.com/Comcast/tr1d1um.git
1. Set the GOPATH & change to the source directory, e.g. $ export GOPATH=$HOME/webpa_modules/petasos/ $ cd $HOME/webpa_modules/petasos/src/petasos 2. Resolve package dependencies using glide. $ glide install --strip-vendor 3. Build the component from source $ go build petasos 4. Create the package $ mkdir $HOME/rpmbuild $ ./build_rpm.sh --no-sign 5. Install the locally built webPA component package e.g. $ cd /root/rpmbuild/RPMS/x86_64/ $ rpm -Uvh petasos-0.1.1-87.el6.x86_64.rpm
If running build_rpm.sh complains about following:
error: Macro %_releaseno has empty body
error: Macro %_releaseno has empty body
Then, modify the following in script to change build number to appropriate value
If build_rpm.sh prompts for password, modify the rpmbuild command to disable the signing option
yes "" | rpmbuild -ba \
--define "_signature gpg" \
--define "_ver $release" \
--define "_releaseno ${BUILD_NUMBER}" \
--define "_fullver $new_release" \
${NAME}.spec
If the script terminates with "error: Bad owner/group: /root/webpa_modules/petasos/petasos.spec"
change the ownership to match current user name
$ chown root.root petasos.spec
WebPA server components as well as requesting application has to use a authorization token for bearer authentication. We can either use a basic authorization token or make use of a key server for obtaining a bearer token.
For example, a UI application needs to invoke some Preference setting or to obtain some diagnostics information on behalf of a MSO partner, deviceId, serviceAccountId or combination of the three. It will first obtain or use a predefined AUTH token, set it as a HTTP header and then invoke the GET/SET operation.
In a production environment, webPA server components & requesting applications use SAT as a bearer token for AUTHZ and AUTHN. SAT stands for Service Access Token. As the name implies, it is used by the calling applications to request access to CPE API's. From a implementation point of view, A SAT is a Json Web Token which if shortened to "jwt". It is a base64 encoded strings of pre-defined bytes with 3 distinct parts separated by a period.
However in the standalone setup, we have used basic base64 encoded authorization token because SAT requires access to operator specific key servers. This auth token will be used when configuring different webPA components as well while performing GET/SET requests to the CPE from a 3rd party application.
We can use either of the below 2 methods to generate a basic authorization string.
Note: For newer releases the basic auth token should be in username:password format. 1. Using openssl command to generate the base64 encoded token. [root@webpa-node1 ~]# openssl enc -base64 <<< "user123:webpa@1234567890" [OUTPUT] : dXNlcjEyMzp3ZWJwYUAxMjM0NTY3ODkwCg== 2. Using Linux coreutils tools to generate the base64 encoded token [root@webpa-node1 ~]# echo "user123:webpa@1234567890"|base64 [OUTPUT] : dXNlcjEyMzp3ZWJwYUAxMjM0NTY3ODkwCg==
Edit the configuration file & modify port values if you need to run talaria service in a different port (default value is 8080).
--- ######################################## # Labeling/Tracing via HTTP Headers Configuration ######################################## # The unique fully-qualified-domain-name of the server. It is provided to # the X-Talaria-Server header for showing what server fulfilled the request # sent. # (Optional) fqdn: <Fully Qualified Domain Name / IP> server: "xxx.xxx.xxx.xxx" env: test scheme: http # Provides this build number to the X-Tr1d1um-Build header for # showing machine version information. The build number SHOULD # match the scheme `version-build` but there is not a strict requirement. # (Optional) build: "0.1.3-1" # Provides the region information to the X-Tr1d1um-Region header # for showing what region this machine is located in. The region # is arbitrary and optional. # (Optional) region: "east" # Provides the flavor information to the X-Tr1d1um-Flavor header # for showing what flavor this machine is associated with. The flavor # is arbitrary and optional. # (Optional) flavor: "mint" primary: address: ":8080" health: address: ":8180" pprof: address: ":8280" control: address: ":8203" metric: address: ":8380" metricsOptions: namespace: "xmidt" subsystem: "talaria" ######################################## # Service Discovery Configuration ######################################## # service defines the parameters needed to interact with the consul cluster # for service discovery. Presently only consul is supported. This is # presently only used by Prometheus to discover machines to monitor, but # in the not-too-distant future talaria will use this interaction to load # balance across all caduceus machines instead of using DNS. # (Optional) service: # consul configures the consul library in caduceus to use the local # service discovery agent consul: # client defines how to connect to the local consul agent (on the same # VM/container) client: # address is the address of the local consul agent address: "127.0.0.1:8500" # scheme is how the consul library should interact with the local # consul agent scheme: "http" # waitTime is TBD waitTime: "30s" # disableGenerateID is TBD disableGenerateID: true # registrations defines what services caduceus should register with # consul # # id - the VM/container instance name registered with consul # name - the name of service being registered # tags - a list of tags to associate with this registration # address - the mechanism to reach the service (generally unique fqdn) # port - the port to reach the service at # checks - the list of checks to perform to determine if the service # is available/healthy # checkID - TBD # ttl - how long the check is valid for # deregisterCriticalServiceAfter - the duration to wait before the # service is removed due to check # failures registrations: - id: "example_talaria.xmidt.net" name: "talaria" tags: - "prod" - "mint" - "stage=prod" - "flavor=mint" address: "54.148.37.189" port: 6001 checks: - checkID: "example_talaria.xmidt.net:ttl" ttl: "30s" deregisterCriticalServiceAfter: "70s" log: file: "/var/log/talaria/talaria.log" level: "DEBUG" json: false device: manager: upgrader: handshakeTimeout: "10s" initialCapacity: 100000 maxDevices: 100 deviceMessageQueueSize: 100 pingPeriod: "45s" idlePeriod: "135s" requestTimeout: "15s" outbound: method: "POST" eventEndpoints: default: http://127.0.0.1:6300/api/v3/notify requestTimeout: "125s" defaultScheme: "http" allowedSchemes: - "http" - "https" outboundQueueSize: 1000 workerPoolSize: 100 transport: maxIdleConns: 0 maxIdleConnsPerHost: 100 idleConnTimeout: "120s" clientTimeout: "160s" authKey: <xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx> inbound: authKey: <xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx> eventMap: default: http://127.0.0.1:6300/api/v3/notify service: defaultScheme: http fixed: - http://127.0.0.1:8080
Edit the configuration file under /etc/scytale and modify following values
"fqdn" : Fully qualified domain name of the server
"server" : Listening IP address (using "localhost" will allow connections only from the current machine.)
"endpoints" : Under "fanout" section, change the IP / Port value to match to the one where Talaria service is listening.
"authHeader" : Auth token Use the auth token which was generated in previous section
"file" : Under "log" section, change the value from "stdout" to a file name if we need to redirect debug messages to a separate log file.
Add the "aws" section with following values for suppressing few error messages
"aws": {
"accessKey": "fake",
"secretKey": "fake",
"env": "fake",
"sns": {
"region": "us-east-1",
"topicArn": "arn:aws:sns:us-east-1:999999999999:fake",
"urlPath" : "/api/v2/aws/sns"
}
},
This will set AWS & SNS parameters with fake ones since we don't use actual keys and SNS (amazon simple notification service) in the current setup.
--- ######################################## # Labeling/Tracing via HTTP Headers Configuration ######################################## # The unique fully-qualified-domain-name of the server. It is provided to # the X-Scytale-Server header for showing what server fulfilled the request # sent. # (Optional) server: "xxx.xxx.xxx.xxx" # Provides this build number to the X-Tr1d1um-Build header for # showing machine version information. The build number SHOULD # match the scheme `version-build` but there is not a strict requirement. # (Optional) build: "0.1.4-1" # Provides the region information to the X-Tr1d1um-Region header # for showing what region this machine is located in. The region # is arbitrary and optional. # (Optional) region: "east" # Provides the flavor information to the X-Tr1d1um-Flavor header # for showing what flavor this machine is associated with. The flavor # is arbitrary and optional. # (Optional) flavor: "mint" ############################################################################## # WebPA Service configuration ############################################################################## # For a complete view of the service config structure, # checkout https://godoc.org/github.com/Comcast/webpa-common/server#WebPA ######################################## # Primary Endpoint Configuration ######################################## # primary provides the configuration for the main server for this application primary: address: ":7000" ######################################## # Health Endpoint Configuration ######################################## # health defines the details needed for the health check endpoint. The # health check endpoint is generally used by services (like AWS Route53 # or consul) to determine if this particular machine is healthy or not. health: address: ":7001" ######################################## # Debugging/Pprof Configuration ######################################## # pprof defines the details needed for the pprof debug endpoint. # (Optional) pprof: address: ":7002" ######################################## # Metrics Configuration ######################################## # metric defines the details needed for the prometheus metrics endpoint # (Optional) metric: address: ":7082" metricsOptions: # namespace is the namespace of the metrics provided # (Optional) namespace: "webpa" # subsystem is the subsystem of the metrics provided # (Optional) subsystem: "scytale" fanout: fanoutTimeout: "125s" clientTimeout: "45s" endpoints: - "http://localhost:8080/api/v2/device" authorization: <xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx> ######################################## # Logging Related Configuration ######################################## # log configures the logging subsystem details log: # file is the name of the most recent log file. If set to "stdout" this # will log to os.Stdout. # (Optional) defaults to os.TempDir() file: "/var/log/scytale/scytale.log" # level is the logging level to use - INFO, DEBUG, WARN, ERROR # (Optional) defaults to ERROR level: "DEBUG" # maxsize is the maximum log file size in MB # (Optional) defaults to max 100MB maxsize: 50 # maxage is the maximum number of days to retain old log files # (Optional) defaults to ignore age limit (0) maxage: 30 # maxbackups is the maximum number of old log files to retain # (Optional) defaults to retain all (0) maxbackups: 10 # json is a flag indicating whether JSON logging output should be used. # (Optional) defaults to false json: true aws: accessKey: "fake-accessKey" secretKey: "fake-secretKey" env: "fake-env" sns: awsEndpoint: http://goaws:4100 region: "ap-east-1" topicArn: "arn:aws:sns:ap-east-1:999999999991:fake-env" urlPath: "/api/v2/aws/sns" waitForDns: 0 authHeader: ["xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx"] start: duration: 1 apiPath: http://127.0.0.1:6300/hooks authHeader: <xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx>
Edit the configuration file from /etc/tr1d1um to set following parameters
"fqdn" : Fully qualified domain name of server
"server" : IP Address to which the service has to listen
"version" : Current version of the service
"region" : Region of deployment
"flavor" : Development, Production etc.
"address" : Under "primary" section, change the value to point to the port where tr1d1um service will listen for incoming requests.
"targetURL" : Change to IP-Address:Port value where SCYTALE service is running.
"authHeader" : Auth token Use the auth token which was generated in previous section.
"aws" : Add fake values as described previously.
--- ######################################## # Labeling/Tracing via HTTP Headers Configuration ######################################## # The unique fully-qualified-domain-name of the server. It is provided to # the X-Tr1d1um-Server header for showing what server fulfilled the request # sent. # (Optional) server: "xxx.xxx.xxx.xxx" # Provides this build number to the X-Tr1d1um-Build header for # showing machine version information. The build number SHOULD # match the scheme `version-build` but there is not a strict requirement. # (Optional) build: "0.1.2-1" # Provides the region information to the X-Tr1d1um-Region header # for showing what region this machine is located in. The region # is arbitrary and optional. # (Optional) region: "east" # Provides the flavor information to the X-Tr1d1um-Flavor header # for showing what flavor this machine is associated with. The flavor # is arbitrary and optional. # (Optional) flavor: "mint" ############################################################################## # WebPA Service configuration ############################################################################## # For a complete view of the service config structure, # checkout https://godoc.org/github.com/Comcast/webpa-common/server#WebPA ######################################## # Primary Endpoint Configuration ######################################## # primary provides the configuration for the main server for this application primary: address: ":9003" ######################################## # Health Endpoint Configuration ######################################## # health defines the details needed for the health check endpoint. The # health check endpoint is generally used by services (like AWS Route53 # or consul) to determine if this particular machine is healthy or not. health: address: ":9004" ######################################## # Debugging/Pprof Configuration ######################################## # pprof defines the details needed for the pprof debug endpoint. # (Optional) pprof: address: ":9005" ######################################## # Metrics Configuration ######################################## # metric defines the details needed for the prometheus metrics endpoint # (Optional) metric: address: ":9082" metricsOptions: # namespace is the namespace of the metrics provided # (Optional) namespace: "webpa" # subsystem is the subsystem of the metrics provided # (Optional) subsystem: "tr1d1um" ######################################## # Logging Related Configuration ######################################## # log configures the logging subsystem details log: # file is the name of the most recent log file. If set to "stdout" this # will log to os.Stdout. # (Optional) defaults to os.TempDir() file: "/var/log/tr1d1um/tr1d1um.log" # level is the logging level to use - INFO, DEBUG, WARN, ERROR # (Optional) defaults to ERROR level: "DEBUG" # maxsize is the maximum log file size in MB # (Optional) defaults to max 100MB maxsize: 50 # maxage is the maximum number of days to retain old log files # (Optional) defaults to ignore age limit (0) maxage: 30 # maxbackups is the maximum number of old log files to retain # (Optional) defaults to retain all (0) maxbackups: 10 # json is a flag indicating whether JSON logging output should be used. # (Optional) defaults to false json: true ############################################################################## # Webhooks Related configuration ############################################################################## # webhooksEnabled indicates whether or not the webhooks server should be started # It is disabled for local testing webhooksEnabled: false # The unique fully-qualified-domain-name of the server. The webhooks library uses it # to know which host to use to confirm this service is ready to receive events # (Optional if not running webhooks) fqdn: "tr1d1um-local-instance-123.example.com" # start contains configuration for the logic by which Tr1d1um can # fetch the current WebPA webhooks without having to wait for SNS # It does so by pinging the rest of the cluter at the specified apiPath # More detaisl at https://godoc.org/github.com/Comcast/webpa-common/webhook#StartConfig start: # duration is the max amount of time allowed to wait for webhooks data to be retrieved duration: "20s" # path used to query the existing webhooks apiPath: http://localhost:6100/hooks ######################################## # Webhooks DNS readiness Configuration ######################################## # WaitForDns is the duration the webhooks library will wait for this server's DNS record to be # propagated. This waiting logic is important so AWS SNS webhook confirmations are not missed waitForDns: "30s" #soa stands for Start of Authority and it's a type of record in a DNS soa: # provider is the SOA provider used to verify DNS record readiness of this service provider: "example-123.awsdns-00.com:17" ######################################## # Webhooks AWS SNS Configuration ######################################## # aws provides the AWS SNS configurations the webhooks library needs aws: #AWS access key accessKey: "fake-accessKey" #AWS secret key secretKey: "fake-secretKey" env: local-dev sns: # awsEndpoint is the AWS endpoint # this must be left out in produ awsEndpoint: http://goaws:4100 #region is the AWS SNS region region: "us-east-1" # topicArn describes the SNS topic this server needs to subscribe to topicArn: arn:aws:sns:us-east-1:000000000000:xmidt-local-caduceus #urlPath is the URL path SNS will use to confirm a subscription with this server urlPath: "/api/v2/aws/sns" ############################################################################## # Testing Authorization Credentials ############################################################################## # authHeader is a list of Basic Auth credentials intended to be used for local testing purposes # WARNING! Be sure to remove this from your production config authHeader: "xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx" ############################################################################## # WRP and XMiDT Cloud configurations ############################################################################## # targetURL is the base URL of the XMiDT cluster targetURL: http://localhost:7000 # WRPSource is used as 'source' field for all outgoing WRP Messages WRPSource: "dns:tr1d1um.xmidt.comcast.net" # supportedServices is a list of endpoints we support for the WRP producing endpoints # we will soon drop this configuration supportedServices: - "config" ############################################################################## # HTTP Transaction Configurations ############################################################################## # clientTimeout is the timeout for the HTTP clients used to contact the XMiDT cloud clientTimeout: "135s" # respWaitTimeout is the max time Tr1d1um will wait for responses from the XMiDT cloud respWaitTimeout: "129s" # netDialerTimeout is the timeout used for the net dialer used within HTTP clients netDialerTimeout: "5s" # requestRetryInterval is the time between HTTP request retries against XMiDT requestRetryInterval: "2s" # requestMaxRetries is the max number of times an HTTP request is retried against XMiDT in # case of ephemeral errors requestMaxRetries: 2
CentOS 7 uses a systemd based boot-up mechanism. Hence below commands will enable the required services.
$ sudo systemctl enable talaria $ sudo systemctl enable scytale $ sudo systemctl enable tr1d1um
Parodus is the client-end service running on the RDK-V CPE devices which establishes a connection with webPA service on device boot-up and delivers request-response between the webPA server & CPE device services. Parodus provides following functionalities in a CPE device.
Websocket client: Nopoll library used as Websocket Client. It allows building pure WebSocket solutions or to provide WebSocket support to existing TCP oriented applications. Nopoll handles all the messages coming from or to the server asynchronously.
Nanomsg Server: Parodus acts as Nanomsg server to distribute messages upstream and downstream.
Edit parodus startup script for enabling the CPE device to use local webPA server
--webpa-url : Set with IP Address and Port of talaria service
--force-ipv4 : Force use of IPv4 for communication.
vi /lib/rdk/startParodus.sh /bin/systemctl set-environment PARODUS_CMD=" --hw-mac=$HwMac --webpa-ping-time=$PingWaitTime --webpa-interface-used=$NwInterface --webpa-url=http://<WEBPA_SERVER_IP> --partner-id=comcast --webpa-backoff-max=9 --force-ipv4 --ssl-cert-path=$SSL_CERT_FILE"
Restart the service after changes are done.
# systemctl restart parodus
Remove the jwt related parameters from PARODUS_CMD e.g. (-acquire-jwt, --dns-txt-url, --jwt-public-key-file, --jwt-algo etc.)
Edit parodus startup script for enabling the CPE device to use local webPA server
ServerURL : Set to IP Address and Port of talaria service.
--force-ipv4 : Force use of IPv4 for communication.
vi /lib/rdk/parodus_start.sh ServerURL=http://<webpa-ip>:8080 command="/usr/bin/parodus --hw-model=$ModelName --hw-serial-number=$SerialNumber --hw-manufacturer=$Manufacturer --hw-last-reboot-reason=$LastRebootReason --fw-name=$FirmwareName --boot-time=$BootTime --hw-mac=$HW_MAC --webpa-ping-time=180 --webpa-interface-used=erouter0 --webpa-url=$ServerURL --webpa-backoff-max=$BackOffMax --parodus-local-url=$PARODUS_URL --partner-id= --ssl-cert-path=$SSL_CERT_PATH --force-ipv4 "
start the service after changes are done.
# systemctl restart parodus
Parodus service log file is located as /opt/logs/parodus.log, provides debug information such as connection details, service initialization, which protocols are enabled/disabled etc.
When we see an error similar to the below, it is related to zookeeper service failed to load or not running currently. restarting zookeeper & subsequent restart of other services solves the issue.
$ cat talariaLog.log ts=2018-01-16T13:14:55.143587713Z caller=talaria.go:133 level=error msg="Unable to obtain service discovery instancer" error="zk: could not connect to a server"
[External Application --> CPE Device] (e.g. Query from a dashboard application to request for how long has a specific router been up):
[CPE Device --> external service] (e.g. WebPA client notifications to external services, for instance, at boot time):
Postman is a powerful HTTP client for testing web services.Get Postman from here
AUTH_TOKEN : Basic base64 encoded auth token or SAT (if enabled).
WEBPA-URL : URL of Tr1d1um service in IP:PORT format.
DEVICE_MAC : MAC address of the CPE device.
PARAMETER : GET/SET Parameter that need to be requested.
$ curl -H ''Authorization:Basic <AUTH_TOKEN>' -i http://<WEBPA-URL>/api/v2/device/mac:<DEVICE_MAC>/config?names=<PARAMETER> e.g. $ curl -H 'Authorization:Basic d2VicGFAMTIzNDU2Nzg5MA==' -i http://54.166.121.187:9003/api/v2/device/mac:84e058575831/config?names=Device.DeviceInfo.ModelName
$ curl -X PATCH http://<IP>:9003/api/v2/device/mac:<MAC>/config -d '{"parameters": [ {"dataType": 0, "name": "<TR181_PARAM>", "value": "<Value-to-Set>"}]}' -H 'Authorization:Basic <TOKEN>' e.g. $ curl -X PATCH http://35.155.171.121:9003/api/v2/device/mac:b827eb5681cd/config -d '{"parameters": [ {"dataType": 0, "name": "Device.WiFi.SSID.10001.SSID", "value": "Testing"}]}' -H 'Authorization:Basic d2VicGFAMTIzNDU2Nzg5MAo='
$ curl -H "<AUTH_TOKEN>" http://<IP>:8080/api/v2/devices e.g. curl -H "Authorization: Basic d2VicGFAMTIzNDU2Nzg5MA==" http://54.166.121.187:8080/api/v2/devices
Below details can be used by RDK community members for using the reference WebPA server in configuration of any client device
IP : 54.148.37.189 Authorization Key : “d3B1c2VyOndlYnBhQDEyMzQ1Njc4OTAK” Client device interface (talaria) Port: 8080 API interface (tr1d1um) port : 9003