I am rather surprised at the accepted answer here, and the number of upvotes it has garnered. With the exception of the answer by Marcio Mazzucato, there is no discussion of the relative merits / weaknesses of any of multiple approaches.
The options I see are:
File based mechanisms
These require that your code look in specific locations to find the ini file. This is a difficult problem to solve and one which always crops up in large PHP applications. However you will likely need to solve the problem in order to find the PHP code which gets incorporated / re-used at runtime.
Common approaches to this are to always use relative directories, or to search from the current directory upwards to find a file exclusively named in the base directory of the application.
Common file formats used for config files are PHP code, ini formatted files, JSON, XML, YAML and serialized PHP
This provides a huge amount of flexibility for representing different data structures, and (assuming it is processed via include or require) the parsed code will be available from the opcode cache - giving a performance benefit.
The include_path provides a means for abstracting the potential locations of the file without relying on additional code.
On the other hand, one of the main reasons for separating configuration from code is to separate responsibilities. It provides a route for injecting additional code into the runtime.
If the configuration is created from a tool, it may be possible to validate the data in the tool, but there is no standard function to escape data for embedding into PHP code as exists for HTML, URLs, MySQL statements, shell commands....
This is relatively efficient for small amounts of configuration (up to around 200 items) and allows for use of any PHP data structure. It requires very little code to create/parse the data file (so you can instead expend your efforts on ensuring that the file is only written with appropriate authorization).
Escaping of content written to the file is handled automatically.
Since you can serialize objects, it does create an opportunity for invoking code simply by reading the configuration file (the __wakeup magic method).
Storing it as a INI file as suggested by Marcel or JSON or XML also provides a simple api to map the file into a PHP data structure (and with the exception of XML, to escape the data and create the file) while eliminating the code invocation vulnerability using serialized PHP data.
It will have similar performance characteristics to the serialized data.
This is best considered where you have a huge amount of configuration but are selective in what is needed for the current task - I was surprised to find that at around 150 data items, it was quicker to retrieve the data from a local MySQL instance than to unserialize a datafile.
OTOH its not a good place to store the credentials you use to connect to your database!
The execution environment
You can set values in the execution environment PHP is running in.
This removes any requirement for the PHP code to look in a specific place for the config. OTOH it does not scale well to large amounts of data and is difficult to change universally at runtime.
On the client
One place I've not mentioned for storing configuration data is at the client. Again the network overhead means that this does not scale well to large amounts of configuration. And since the end user has control over the data it must be stored in a format where any tampering is detectable (i.e. with a cryptographic signature) and should not contain any information which is compromised by its disclosure (i.e. reversibly encrypted).
Conversely, this has a lot of benefits for storing sensitive information which is owned by the end user - if you are not storing this on the server, it cannot be stolen from there.
Another interesting place to store configuration information is in DNS / LDAP. This will work for a small number of small pieces of information - but you don't need to stick to 1st normal form - consider, for example SPF.
The infrastucture supports caching, replication and distribution. Hence it works well for very large infrastructures.
Version Control systems
Configuration, like code should be managed and version controlled - hence getting the configuration directly from your VC system is a viable solution. But often this comes with a significant performance overhead hence caching may be advisable.