Mercurial > hg > orthanc-book
view Sphinx/source/faq/orthanc-storage.rst @ 140:ec849c2ee427
removing google analytics
author | Sebastien Jodogne <s.jodogne@gmail.com> |
---|---|
date | Fri, 25 May 2018 17:26:57 +0200 |
parents | 12b204ee328d |
children | 365427cebb64 |
line wrap: on
line source
.. _orthanc-storage: How does Orthanc store its database? ==================================== Storage folder -------------- **By default** (i.e. if no database plugin such as :ref:`PostgreSQL <postgresql>` is used), Orthanc stores all the DICOM files it receives in a folder called ``OrthancStorage`` on the filesystem. Orthanc also associates each incoming DICOM file with a JSON file that summarizes all its DICOM tags, which speeds up subsequent processing by avoiding a costly DICOM parsing. More generally, the ``OrthancStorage`` folder contains a set of so-called **attachments**, that may correspond to either a DICOM file, a JSON file, or any user-defined file. Internally, each attachment is automatically associated with an `universally unique identifier (UUID) <https://en.wikipedia.org/wiki/Universally_unique_identifier>`__. Orthanc can be configured to compress these files on-the-fly in order to save disk space (cf. the ``StorageCompression`` :ref:`configuration option <configuration>`). To reduce the number of files in a single directory (which is something that some operating systems might not like), a 3-level hierarchy of directories is created to store the attachments: The first two hexadecimal characters of the UUID give the first-level folder, and the two next characters give the second-level folder. SQLite index ------------ Inside the same ``OrthancStorage`` folder, Orthanc maintains a `SQLite database <https://en.wikipedia.org/wiki/SQLite>`__ called ``index`` that **indexes** all these attachments. The database records, for each attachment, its compression method, and its MD5 hashes before and after compression in order to detect disk corruption (cf. the ``StoreMD5ForAttachments`` :ref:`configuration option <configuration>`). One attachment must be associated with one :ref:`DICOM resource <model-world>` (patient, study, series, or instance). Incoming DICOM files and associated JSON summary are associated with one instance-level resource, but user-defined attachments can be associated with any kind of resource. Given one DICOM resource, all of its child attachments are identified by a number between 0 and 65535. Identifiers <= 1023 are reserved for the Orthanc core, whereas identifiers >= 1024 can be user-defined for external applications. Direct access ------------- Directly accessing the content of the ``OrthancStorage`` folder and the content of the SQLite database is strongly discouraged for several reasons: * This internal organization is only true when no database plugin is used (e.g. the :ref:`PostgreSQL plugin <postgresql>` can be configured to store the attachments inside a database). * Orthanc can be configured to compress the attachments before writing them on the disk (cf. the ``StorageCompression`` option). * By directly reading the content of ``OrthancStorage``, you bypass all the locking mechanisms used by Orthanc, which might result in data corruption. * One SQLite database should be accessed by at most one process at any time to avoid any problem (e.g. with NFS filesystems), for reasons that are `explained in the SQLite FAQ <https://www.sqlite.org/faq.html#q5>`__. Orthanc will stop if it receives the ``SQLITE_BUSY`` status. As a consequence, it is **HIGHLY recommended NOT to directly access** the ``OrthancStorage`` folder and the SQLite database. Use the :ref:`REST API <rest>` instead, which contains primitives to access the attachments (cf. the ``.../attachments/...`` URIs). The only exception to this rule is for **read-only access when Orthanc is stopped**, e.g. as a part of a :ref:`backup <backup>` or :ref:`upgrade/replication <replication>` process.