The DN of the manager that is used to bind to the LDAP server to search for users. Possible values are ANONYMOUS, SIMPLE, LDAPS, or START_TLS. How the connection to the LDAP server is authenticated.
![logger pro delete data point logger pro delete data point](https://edwardmallon.files.wordpress.com/2017/06/pinboards4.jpg)
The ldap-provider has the following properties: Property Name JKS is the preferred type, BCFKS and PKCS12 files will be loaded with Bounc圜astle provider. A secured instance with no Truststore will refuse all incoming connections. If not set, the value of will be used.įilename of the Truststore that will be used to authorize those connecting to NiFi.
LOGGER PRO DELETE DATA POINT PASSWORD
The password for the certificate in the Keystore.
![logger pro delete data point logger pro delete data point](https://edwardmallon.files.wordpress.com/2019/02/rtc_i2ccascadeportwdupontpins.jpg)
In order to run securely, the following properties must be set: Property Nameįilename of the Keystore that contains the server’s private key. "security properties" heading in the nifi.properties file. The most important properties are those under the NiFi provides several different configuration options for security purposes.
![logger pro delete data point logger pro delete data point](https://edwardmallon.files.wordpress.com/2019/01/joinboards.jpg)
Updating the Sensitive Properties Algorithm.Migrating a Flow with Sensitive Properties.
LOGGER PRO DELETE DATA POINT UPDATE
Update the Configuration Files for Your New NiFi Installation.Clear Activity and Shutdown Existing NiFi.Site to Site and Reverse Proxy Examples.Site to Site Routing Properties for Reverse Proxies.Volatile Provenance Repository Properties.Persistent Provenance Repository Properties.Encrypted Write Ahead Provenance Repository Properties.Write Ahead Provenance Repository Properties.Encrypted File System Content Repository Properties.File System Content Repository Properties.Encrypted Write Ahead FlowFile Repository Properties.Encrypted Passwords in Configuration Files.Java Cryptography Extension (JCE) Limited Strength Jurisdiction Policies.Legacy Authorized Users (NiFi Instance Upgrade).Initial Admin Identity (New NiFi Instance).Lightweight Directory Access Protocol (LDAP).For the most part, everything ran quite smoothly. Some of these points were slightly off, and this created some variety in the graphs. The inaccuracy at times in our graphs was due to the slight mistakes made in inputting points of the graph based on the video. It is clearly proven that there is no acceleration in the horizontal direction (therefore constant velocity), and there is a constant acceleration of -9.8m/s ² in the vertical direction due to gravity (therefore uniform increase in velocity). time graph illustrates Newton’s law of gravity by displayed a linear line with a slope near to -9.8m/s ² (which is the constant acceleration acted on an object due to gravity).Īlthough our graphs were lightly off in certain areas, the overall results gotten from this lab do conform to the laws and theories we were testing. time graph showed us that the projectile traveled in a parabolic path and had a maximum height of 1.19m. time graph showed us that the projectile traveled with a uniform acceleration of 0m/s ² based on the near to 0 slope that the graph creates. time graph showed us that the projectile traveled in a linear line with a positive slope of roughly 2 (which tells us that in the horizontal direction, the projectile was traveling at a constant acceleration). Through Logger Pro, the graphs presented showed us more about the projectile’s flight in detail. Using Logger Pro, we were able to further our studies and see how the projectile flew through the air throughout specific information such as its position and velocity based on the time in the air. By taking Newton’s law of gravity (constant acceleration of -9.8m/s ² ) into account, we were able to understand why and how a projectile takes the path it does. The purpose of this experiment was to observe, analyze, and understand the concept of projectile motion. The horizontal vector is positive because it is moving to right(positive) while the vertical vector is negative because it is falling down(negative).
![logger pro delete data point logger pro delete data point](https://edwardmallon.files.wordpress.com/2019/02/rtctape1.jpg)
The vector triangle displayed by the Logger Pro is exactly same as what I expected.