Config::Model::BackendMgr - Load configuration node on demand
version 2.070
# Use BackendMgr to write data in perl data file use Config::Model; use Log::Log4perl qw(:easy); Log::Log4perl->easy_init($WARN); # define configuration tree object my $model = Config::Model->new; $model->create_config_class( name => "Foo", element => [ [qw/foo bar/] => { type => 'leaf', value_type => 'string' }, ] ); $model->create_config_class( name => "MyClass", # read_config spec is used by Config::Model::BackendMgr read_config => [ { backend => 'perl_file', config_dir => '/tmp/', file => 'my_class.pl', auto_create => 1, }, ], element => [ [qw/foo bar/] => { type => 'leaf', value_type => 'string' }, hash_of_nodes => { type => 'hash', # hash id index_type => 'string', cargo => { type => 'node', config_class_name => 'Foo' }, }, ], ); my $inst = $model->node->instance( root_class_name => 'MyClass' ); my $root = $inst->config_root; # put data my $step = 'foo=FOO hash_of_nodes:fr foo=bonjour - hash_of_nodes:en foo=hello '; $root->load( step => $step ); $inst->write_back; # now look at file /tmp/my_class.pl
This class provides a way to specify how to load or store configuration data within the model (instead of writing dedicated perl code).
With these specifications, all the configuration information is read during creation of a node.
This load/store can be done with different backend:
backend
Config dump string (cds) in a file. I.e. a string that describes the content of a configuration tree is loaded from or saved in a text file. See Config::Model::Dumper.
INI files (written with Config::Model::Backend::IniFile. See limitations in "Limitations depending on storage".
Perl data structure (perl) in a file. See Config::Model::DumpAsData for details on the data structure.
Any format when the user provides a dedicated class and function to read and load the configuration tree.
After loading the data, the object registers itself to the instance. Then the user can call the write_back method on the instance (See Config::Model::Instance) to store all configuration information back.
write_back
cds_file, ini_file and perl_file backend must be specified with mandatory config_dir parameter. For instance:
cds_file
ini_file
perl_file
config_dir
read_config => { backend => 'cds_file' , config_dir => '/etc/cfg_dir', file => 'cfg_file.cds', #optional },
If file is not specified, a file name will be constructed with <config_class_name>.<suffix> where suffix is pl or ini or cds.
file
<config_class_name>.<suffix>
pl
ini
cds
A plugin backend class can also be specified with:
read_config => [ { backend => 'foo' , config_dir => '/etc/cfg_dir' file => 'foo.conf', # optional } ]
In this case, this class will try to load Config::Model::Backend::Foo. (The class name is constructed with ucfirst($backend_name))
Config::Model::Backend::Foo
ucfirst($backend_name)
read_config can also have custom parameters that will passed verbatim to Config::Model::Backend::Foo methods:
read_config
read_config => [ { backend => 'foo' , config_dir => '/etc/cfg_dir', my_param => 'my_value', } ]
This Config::Model::Backend::Foo class is expected to provide the following methods:
with parameters:
node => ref_to_config_model_node
new() must return the newly created object
new()
%custom_parameters, # model data root => $root_dir, # mostly used for tests config_dir => $read_dir, # path below root file_path => $full_name, # full file name (root+path+file) io_handle => $io_file # IO::File object check => [ yes|no|skip]
Must return 1 if the read was successful, 0 otherwise.
Following the my_param example above, %custom_parameters will contain ( 'my_param' , 'my_value' ) , so read() will also be called with root, config_dir, file_path, io_handle and my_param => 'my_value'.
my_param
%custom_parameters
( 'my_param' , 'my_value' )
read()
root
file_path
io_handle
my_param => 'my_value'
%$write, # model data auto_create => $auto_create, # from model backend => $backend, # backend name config_dir => $write_dir, # override from instance io_handle => $fh, # IO::File object write => 1, # always check => [ yes|no|skip] , root => $root_dir, backup => [ undef || '' || suffix ] # backup strategy required by user
Must return 1 if the write was successful, 0 otherwise
If io_handle is defined, the backup has already been done while opening the config file. If io_handle is not defined, there's not enough information in the model to read the configuration file and create the backup. Your write() method will have to do the backup requested by user.
Custom backend must be specified with a class name that will features the methods used to write and read the configuration files:
read_config => [ { backend => 'custom' , class => 'MyRead', config_dir => '/etc/foo', # optional file => 'foo.conf', # optional } ]
custom backend parameters are:
custom
Specify the class that contain the read method
Specify configuration directory. This parameter is optional as the directory can be hardcoded in the custom class. config_dir beginning with '~' will be munged so ~ is replaced by File::HomeDir->my_data. See File::HomeDir for details.
~
File::HomeDir->my_data
Specify alternate location of a configuration directory depending on the OS (as returned by $^O, see "PLATFORMS" in perlport). For instance:
$^O
config_dir => '/etc/ssh', os_config_dir => { darwin => '/etc' }
optional. Configuration file. This parameter may not apply if the configuration is stored in several files. By default, the instance name is used as configuration file name.
Optional. Specifies where to find a global configuration file that specifies default values. For instance, this is used by OpenSSH to specify a global configuration file (/etc/ssh/ssh_config) that is overridden by user's file:
/etc/ssh/ssh_config
'default_layer' => { os_config_dir => { 'darwin' => '/etc' }, config_dir => '/etc/ssh', file => 'ssh_config' }
Only the 3 above parameters can be specified in default_layer.
default_layer
Function name that will be called back to read the file. See "read callback" for details. (default is read)
read
By default, an exception is thrown if no read was successful. This behavior can be overridden by specifying auto_create => 1 in one of the backend specification. For instance:
auto_create => 1
read_config => [ { backend => 'cds_file', config_dir => '/etc/my_cfg/' } , { backend => 'custom', class => 'Bar' , auto_create => 1 }, ],
This feature is necessary to create a configuration from scratch
When set in write backend, missing directory and files will be created with current umask. Default is false.
Write specification is similar to read_specification. Except that the default value for function is write. Here's an example:
function
write
write_config => [ { backend => 'cds_file', config_dir => '/etc/my_cfg/' } , { backend => 'custom', class => 'Bar' , function => 'my_write', }, ],
Some storage system will limit the structure of the model you can map to the file.
Structure of the Config::Model must be very simple. Either:
A single class with hash of leaves elements.
2 levels of classes. The top level has nodes elements. All other classes have only leaf elements.
A configuration class will be declared with optional read_config parameter:
read_config => [ { backend => 'cds_file', config_dir => '/etc/my_cfg/' } , { backend => 'custom', class => 'Bar' }, ],
The read backends will be tried in the specified order:
First the cds file whose name depend on the parameters used in model creation and instance creation: <model_config_dir>/<instance_name>.cds The syntax of the cds file is described in Config::Model::Dumper.
<model_config_dir>/<instance_name>.cds
A callback to Bar::read. See ""read callback" for details.
Bar::read
When a read operation is successful, the remaining read methods will be skipped.
A configuration class will be declared with optional write_config parameters (along with read_config parameter):
write_config
write_config => [ { backend => 'cds_file', config_dir => '/etc/my_cfg/', auto_create => 1, }, { backend => 'custom', class => 'NewFormat' } ],
By default, the specifications are tried in order, until the first succeeds.
When required by the user, all configuration information is written back using all the write specifications. See "write_back ( ... )" in Config::Model::Instance for details.
The write class declared with custom backend must provide a call-back. See "write callback" for details.
By default, configurations files are read from the directory specified by config_dir parameter specified in the model. You may override the root directory for test.
Read callback function will be called with these parameters:
object => $obj, # Config::Model::Node object root => './my_test', # fake root directory, userd for tests config_dir => /etc/foo', # absolute path file => 'foo.conf', # file name file_path => './my_test/etc/foo/foo.conf' io_handle => $io # IO::File object with binmode :utf8 check => [yes|no|skip]
The IO::File object is undef if the file cannot be read.
The callback must return 0 on failure and 1 on successful read.
Write callback function will be called with these parameters:
object => $obj, # Config::Model::Node object root => './my_test', # fake root directory, userd for tests config_dir => /etc/foo', # absolute path file => 'foo.conf', # file name file_path => './my_test/etc/foo/foo.conf' io_handle => $io # IO::File object opened in write mode # with binmode :utf8 auto_create => 1 # create dir as needed check => [yes|no|skip]
The IO::File object is undef if the file cannot be written to.
The callback must return 0 on failure and 1 on successful write.
When both config_dir and file are specified, this class will write-open the configuration file (and thus clobber it) before calling the write call-back and pass the file handle with io_handle parameter. write should use this handle to write data in the target configuration file.
If this behavior causes problem (e.g. with augeas backend), the solution is either to:
Set file to undef or an empty string in the write_config specification.
Create a skip_open function in your backend class that returns 1
skip_open
1
In the example below, only a cds file is written. But, both custom format and cds file are tried for read. This is also an example of a graceful migration from a customized format to a cds format.
read_config => [ { backend => 'cds_file', config_dir => '/etc/my_cfg/' } , { backend => 'custom', class => 'Bar' }, ], write_config => [{ backend => 'cds_file', config_dir => '/etc/my_cfg/' }],
You can choose also to read and write only customized files:
read_config => [{ backend => 'custom', class => 'Bar'}],
Or to read and write only cds files :
read_config => [{ backend => 'cds_file'}] ,
You can also specify more parameters that must be passed to your custom class:
read_config => [{ backend => 'custom', class => 'Bar', config_dir => '/etc/foo'}],
To migrate from an old format to a new format:
read_config => [ { backend => 'custom', class => 'OldFormat', function => 'old_read' } , { backend => 'custom', class => 'NewFormat', function => 'new_read' } ], write_config => [ { backend => 'custom', class => 'NewFormat' } ],
If write_config is missing, the data provided by read_config will be used. For instance:
read_config => [ { backend => 'custom', class => 'Bar', config_dir => '/etc/foo' } ],
In this case, configuration data will be read by Bar::read in directory /etc/foo and will be written back there by Bar::write.
/etc/foo
Bar::write
Try to run all subroutines registered by auto_write_init write the configuration information until one succeeds (returns true).
You can specify here a pseudo root directory or another config directory to write configuration data back with root and config_dir parameters. This will override the model specifications.
You can force to use a backend by specifying backend => xxx. For instance, backend => 'perl_file' or backend => 'custom'.
backend => xxx
backend => 'perl_file'
backend => 'custom'
You can force to use all backend to write the files by specifying backend => 'all'.
backend => 'all'
You can force a specific config file to write with config_file => 'foo/bar.conf'
config_file => 'foo/bar.conf'
write_back will croak if no write call-back are known for this node.
Dominique Dumont, (ddumont at cpan dot org)
Config::Model, Config::Model::Instance, Config::Model::Node, Config::Model::Dumper
Dominique Dumont
This software is Copyright (c) 2015 by Dominique Dumont.
This is free software, licensed under:
The GNU Lesser General Public License, Version 2.1, February 1999
To install Config::Model, copy and paste the appropriate command in to your terminal.
cpanm
cpanm Config::Model
CPAN shell
perl -MCPAN -e shell install Config::Model
For more information on module installation, please visit the detailed CPAN module installation guide.