type_manager
Manages contents of element versions
Applicability
Product |
Command Type |
---|---|
VersionVault |
data structure |
Platform |
---|
UNIX® |
Linux® |
Windows® |
Synopsis
- UNIX® and
Linux—Type manager directory:
versionvault-home-dir/lib/mgrs/manager-name
- Windows—Type manager map file:
versionvault-home-dir\lib\mgrs\map
- Methods, some or all of which
are supported by each type manager:
annotate, compare, construct_version, create_branch, create_element, create_version, context_merge, delete_branches_versions, get_cont_info, merge, xcompare, xmerge
Description
A type manager is a suite of programs that manipulates files with a particular data format; different type managers process files with different formats. A directory type manager provides programs that compare and/or merge versions of directory elements. VersionVault provides several type managers. On UNIX® and Linux®, users can create additional ones.
Several version-control methods for file elements are implemented in two phases:
- Updating of the VOB database. This phase is independent of the element's data format and is handled directly by cleartool.
- Manipulation of the element's data. In this phase, the data format is extremely significant, and so is handled by a particular type manager. The type manager is invoked as a separate program, rather than as a subroutine. This provides flexibility and openness, allowing users to integrate their own data-manipulation routines with VersionVault.
For example, checking in a text_file element involves the following:
- Storing information in the VOB database about the creator of the new version, when it was created, and so on
- Computing and storing the delta (incremental difference) between the new version and its predecessor.
For a different type of element—for example, a bitmap file—the delta is computed differently, or not at all, and so requires a different type manager.
Type managers
Following are descriptions of the type managers:
Manager |
Function |
---|---|
whole_copy |
Stores any data. Stores a whole copy of each version in a separate data container file. |
z_whole_copy |
Stores any data. Stores each version in a separate, compressed data container file using the ccgzip compression program. (ccgzip is a utility that implements IETF RFC 1951 + 1952 compression using zlib source code). Note that compressed files generally take more time to check in (because they must be compressed) and to reconstruct when first accessed (first cleartext fetch). |
text_whole_copy | Stores text files only. The storage mechanism is the same as that for z_whole_copy. Different versions of a file can be stored in different character encodings. The compare and merge functionality is similar to that of the text_file_delta type manager. |
text_file_delta |
Stores text files only (including those with multibyte text characters). Stores all versions in a single structured data container file. (On UNIX® and Linux®, similar to an SCCS s. file or an RCS ,v file.) Uses incremental file differences to reconstruct individual versions on the fly. |
z_text_file_delta |
Stores text files only. Stores all versions in a single structured data container file, in compressed format using both the ccgzip compression program and deltas. |
binary_delta |
Stores any data. Stores each branch's versions in a separate, structured compressed data container file using ccgzip. Uses incremental file differences to reconstruct individual versions on the fly. Version deltas are determined by comparing files on a per-byte basis. |
_html |
Stores HTML source. Stores information and reconstructs versions in the same way as the text_file_delta manager from which it is derived. Has its own compare, xcompare, merge and xmerge methods. |
_html2 |
Same as the _html manager, except that _html2 is based on the binary_delta manager. |
_ms_word |
Stores Microsoft® Word documents. Stores information and reconstructs versions in the same way as the z_whole_copy manager from which it is derived. On Windows®, has its own xcompare and xmerge methods. |
utf8_file_delta |
Stores 8-bit Unicode Transformation Format source. The compare/merge functionality is similar to that of the text_file_delta type manager. |
utf16be_file_delta |
Stores 16-bit big-endian Unicode Transformation Format source. The compare/merge functionality is similar to that of the text_file_delta type manager. |
utf16le_file_delta |
Stores 16-bit little-endian Unicode Transformation Format source. The compare/merge functionality is similar to that of the text_file_delta type manager. |
utf32be_file_delta |
Stores 32-bit big-endian Unicode Transformation Format source. The compare/merge functionality is similar to that of the text_file_delta type manager. |
utf32le_file_delta |
Stores 32-bit little-endian Unicode Transformation Format source. The compare/merge functionality is similar to that of the text_file_delta type manager. |
_xml |
Stores XML source. Stores information and reconstructs versions in the same way as the text_file_delta manager from which it is derived. On Windows®, has its own compare, xcompare, merge, and xmerge methods. |
_xml2 |
Same as the _xml manager, except that _xml2 is based on the binary_delta manager. |
directory |
Not involved in storing or retrieving directory versions, which reside in the VOB database, not in a source storage pool. This type manager compares and merges versions of the same directory element. |
Using a type manager
To have a given file element use a particular type manager, you need to associate the file element with an element type that is associated with that particular type manager. You can establish these connections as follows:
- Verify that the VOB has an element type that is associated with the desired type manager. Use the lstype command to identify an existing element type. Alternatively, use the mkeltype –manager command to create a new element type that is associated with the desired type manager.
- Create the file element, specifying the element type with the –eltype option. If the file element already exists, use the chtype command to change its element type.
You can automate the assignment of the new element type to newly created elements using the file-typing facility, driven by .magic files. For more information, see the cc.magic reference page.
Note that UTF element types are not created by default; you must create such types explicitly and associate them with UTF type managers.
Type manager structure
A type manager uses different methods to manipulate VersionVault data. Methods are invoked at the appropriate time by a version-control command.
On UNIX®, and Linux® a type manager is a collection of programs in a subdirectory of versionvault-home-dir /lib/mgrs; the subdirectory name is the name by which the type manager is specified with the –manager option in a mkeltype command. Each program in a type manager subdirectory implements one method (data-manipulation operation). A method can be a compiled program, a shell script, or a link to an executable. It is invoked at the appropriate time by a VersionVault version-control command.
A type manager can include the following methods, which are invoked by a command or server process:
create_element |
Invoked by mkelem to create an element's initial data container. |
create_branch |
Invoked by mkbranch to create a branch in an element's version tree. |
create_version |
Invoked by checkin to store a new version of an element. |
annotate |
Invoked by annotate to produce an annotated listing of a version's contents. |
construct_version |
Invoked by a view's view_server process when a file element is opened, from versions stored in delta or compressed format. This method constructs a readable, cleartext copy of a particular version. After the cleartext version is constructed, its line terminators might be adjusted by the view_server, according to the view's text mode. See the mkeltype and mkview reference pages. |
get_cont_info |
Invoked by checkvob to determine the contents of a container. This method must be implemented to enable checkvob to fix container problems for the type manager. |
delete_branches_versions |
Invoked by rmver and rmbranch to delete versions of an element. |
compare, xcompare |
Invoked by diff to run a file-comparison program that is specific to the element's data format. |
merge, xmerge |
Invoked by merge to run a file-merge program that is specific to the element's data format. |
A type manager need not implement every method. For example, a type manager for bitmap graphics images might omit the merge method, because the operation does not make sense for that file format. In this case, the command cleartool merge produces an error when invoked on an element that uses this type manager.
UNIX® and Linux—Method inheritance and links
A type manager can use symbolic links to inherit one or more of its methods from another type manager. A typical use of symbolic links is to have individual methods be links to a master type manager program, which implements several (or all) of the methods. For an example, see directory versionvault-home-dir/lib/mgrs/z_whole_copy.
A link to the cleardiff program can implement the compare and/or merge method for text files. Similarly, a link to the xcleardiff program can implement the xcompare and/or xmerge method. Again, see directory versionvault-home-dir/lib/mgrs/z_whole_copy for an example.
Windows—The type manager map file
The map file, located in the versionvault-home-dir\lib\mgrs directory, associates type manager methods with the programs that carry them out. A map file entry has three fields: type manager, method, and program. Below are some example entries from the map file:
Manager |
Method |
Implementing Program |
---|---|---|
text_file_delta |
construct_version |
..\..\bin\tfdmgr.exe |
text_file_delta |
compare |
..\..\bin\cleardiff.exe |
z_whole_copy |
create_branch |
..\..\bin\zmgr.exe |
When a type manager is invoked by a VersionVault command, it scans through the map file, finds the matching type manager and method in the first and second fields, and then runs the program specified in the third field. Note that the entry in the third field must be either a pathname relative to versionvault-home-dir\lib\mgrs; for example, ..\..\bin\cleardiff.exe, a Windows® Registry key under HKEY_LOCAL_MACHINE that points to an absolute pathname, or an absolute pathname.
Data containers
Type managers process data containers, each of which stores the actual data for one or more versions of some element. (Although growth might cause a container to split, versions never span container boundaries.) All data containers are files, and are stored in the VOB's source pools, which are directories. Only type managers deal with data containers directly; users always manipulate data using the names of elements and UNIX® or Linux® links.
Performing the data manipulation for a version-control operation involves several programs. For example, when VersionVault creates a new version of an element:
- The pathname (within a source pool) is generated for a new data container.
- On the VOB host (where the VOB storage area resides), a vob_server process creates an empty file at that pathname.
- On the client host (where the user is working), the type manager fills the new data container with the data for the new version. (If the type manager implements deltas, it writes the data for one or more other versions to the new container, too.)
- The vob_server changes the access mode of the new data container, making it unwritable.
- The db_server updates the VOB database to reference the new container.
- Using the MGR_DELETE_KEEP_JUST_NEW exit status returned by the type manager, the vob_server deletes the old data container.
Source pool data container names
A container leaf name includes a type manager ID to aid checkvob in salvaging nonreferenced containers. Here is the format of a source pool data container name (in s/sdft, for example):
./nn/nn/type-mgr-id–orig-oid-str–xx
type-mrg-id is a one-, two-, or three-character string. One-character values correspond to the predefined type managers. Two-digit values correspond to type managers with names that begin with underscore (_), and three-digit values are computed by hashing user-defined type manager names.
Names of user-defined type managers must not begin with underscore.
UNIX® and Linux® files
- versionvault-home-dir/lib/mgrs/*
- versionvault-home-dir/lib/mgrs/mgr_info.h
- versionvault-home-dir/lib/mgrs/mgr_info.sh
Windows® files
- versionvault-home-dir\lib\mgrs\map