Unified API Developer Manual / Version 2110
Table Of ContentsThe SearchService provides full-text search capabilities. You can use its methods to quickly find contents based on their current property values and some of their implied properties (such as content creator).
Client search requests are routed through the CoreMedia Content Server to the CoreMedia Search Engine. The CoreMedia Search Engine is a facade to a configured third-party search server which by default is an Apache Solr instance. The search server returns the search result back to the CoreMedia Content Server and the requesting client.
Note
Note, that the index of the CoreMedia Search Engine is updated asynchronously and therefore does not always represent the current state of the content repository. Note further, that the CoreMedia Search Engine does not allow searching in old document versions.
If you need up-to-date results or want to search for document versions, you should consider using the QueryService.
The SearchService has the following methods:
isSearchEnabled
returns true, if search service is enabled, false otherwise.search
methods to search for not deleted contents using a simple query language as described below.searchNative
to search in a search server specific search query language, like Apache Solr Query Language described below.
Caution
Note, that search
, and searchNative
methods may return contents
for which the user of the current session does not have read rights. You must handle rights
yourself and filter out unreadable contents if needed.
Search with Simple Query Language
Use one of the search
methods to perform a simple search for not deleted
contents. There are multiple search methods with different parameters to restrict the query
to contents of a given type and below a given folder. See the API documentation for details.
These methods take a query string in a simple query language which consists of terms and/or phrases separated by white space. The terms and/or phrases are combined with a logical AND.
A query term is basically a word to search for. Only alphanumeric characters are allowed here.
You can prefix the term with a minus operator ('-
') to indicate a NOT expression,
that is the word must not appear in the search results. Likewise, you can use a plus operator
('+
') as prefix but it is the default and will be ignored. The following example
query will search for contents which contain the word news
but not the word
sport
:
news -sport
The query term may end with an asterisk ('*
') to perform a wildcard query which
matches all words that start with the characters before the asterisk. Note, that the asterisk
may appear at the end of the term only. The next example returns all contents containing
words that start with test
:
test*
A phrase to search for is enclosed in double quotes. Wildcards are not allowed in phrases and
plus and minus operators are ignored. A search for contents containing the phrase Hello
World
can be performed with:
"hello world"
The following example searches for documents of any type (but not folders) which contain the word
hamburg
below a folder /Site
. The list obtained from the
SearchResult
contains the found
Content
objects sorted by their name. Sorting is explained in a following section.
Content site = contentRepository.getChild("Site"); ContentType type = contentRepository.getDocumentContentType(); SearchResult result = searchService.search("hamburg", // the query string "name", true, // sort ascending by name site, true, // below folder site type, true, // documents only 0, 100); // max. 100 hits List<Content> hits = result.getMatches();
Search with Solr Query Language
If you need a more powerful search with Apache Solr directly, you can use the more generic
searchNative
method and perform a query in the Solr Query Language. For details
on the query language refer to the Apache Solr documentation.
One of the fields in the Solr schema is creator
which contains the ID of the user
who created the content. The following example searches for all contents created by user
admin
that are located below the folder /Site
and contain the word
test
.
User user = userRepository.getUserByName("admin"); int userId = IdHelper.parseUserId(user.getId()); Content folder = contentRepository.getChild("/Sites"); int folderId = IdHelper.parseContentId(folder.getId()); String query = "feederstate:SUCCESS" + " creator:" + userId + " folderpath:" + folderId + " test"; SearchResult result = searchService.searchNative( query, "name", true, // sort ascending by name 0, 100); // max. 100 hits List<Content> hits = result.getMatches();
An important thing to note is the term feederstate:SUCCESS
within the query
string. You must specify this term in every query except when searching for contents that
were not successfully indexed. In the latter case you must include the term
feederstate:ERROR
. If you don't want to find contents in the recycle bin, you
must either search below a given folder, as shown in the example above, or include the term
isdeleted:false
.
The term test
is not prefixed with the name of an index field. In that case the
default field textbody
is used and the search is performed on the full-text
content.
Sort search results
You can use method parameters of the search
and searchNative
methods
to specify the sorting of the returned results. The search methods take the name of the search
field and whether sorting should be ascending or descending as parameters and return the
results sorted accordingly. Sorting is handled by the search engine which is much more
efficient than client-side sorting could be.