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Used with password properties, these values will be represented as “*” in step previews or in inspection screens during deployment.
When an application package is built and imported into XL Deploy, placeholder-aware types can display the detected placeholders.
If your configuration is embedded in the application, the application has to be in sync with the changes made to the underlying infrastructures, which are made by different teams in different timeframes.
In the best case, failure to handle these changes will result in manual configuration steps that need to be carried out during deployments; in the worst case, it will result in deployment failures.
Placeholders use the following syntax by default: .
So, your usual properties or XML configuration files become environment-independent and will typically look like this: Note: a best practice is to define a naming convention for variables and to use prefixes –“STOCK” above- to avoid ambiguity and collisions.
In this blog post, we’ll give a brief introduction into how you can create environment-independent packages and still handle environment-specific values such as database connection strings, with XL Deploy.
Creating environment-independent deployment packages When on-boarding a new project within XL Deploy, one of the very first steps is to generate XL Deploy packages, typically by adding build instructions to your favorite build or CI tool.
XL Deploy treats all placeholders in files as mandatory: To learn more about the different types of placeholders and special values such as , refer to Using placeholders in XL Deploy.
By default, XL Deploy will scan files with a predefined set of file extensions for placeholders: file. \.(cfg | conf | config | ini | properties | props | test | txt | asp | aspx | htm | html | jsf | jsp | xht | xhtml | sql | xml | xsd | xsl | xslt) If you need XL Deploy to scan files with other extensions too, you can simply change the appropriate configuration value, as described in Enable placeholder scanning for additional file types.
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