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Applicationsapplications.xml
This section is to be read with the app(4) and
application(3) manual pages in Kernel.
Application Concept
When you have written code implementing some specific functionality
you might want to make the code into an application,
that is, a component that can be started and stopped as a unit,
and which can also be reused in other systems.
To do this, create an
application callback module,
and describe how the application is to be started and stopped.
Then, an application specification is needed, which is
put in an
application resource file.
Among other things, this file specifies which modules the application
consists of and the name of the callback module.
If you use systools, the Erlang/OTP tools for packaging code
(see Releases),
the code for each application is placed in a
separate directory following a pre-defined
directory structure.
Application Callback Module
How to start and stop the code for the application, that is,
the supervision tree, is described by two callback functions:
start(StartType, StartArgs) -> {ok, Pid} | {ok, Pid, State}
stop(State)
start is called when starting the application and is to
create the supervision tree by starting the top supervisor. It is
expected to return the pid of the top supervisor and an optional
term, State, which defaults to []. This term is passed
as is to stop.StartType is usually the atom normal. It has other
values only in the case of a takeover or failover, see
Distributed Applications.
StartArgs is defined by the key mod in the
application
resource file.stop/1 is called after the application has been
stopped and is to do any necessary cleaning up. The actual stopping of
the application, that is, the shutdown of the supervision tree, is
handled automatically as described in
Starting and Stopping Applications.
Example of an application callback module for packaging
the supervision tree from
Supervisor Behaviour:
A library application that cannot be started or stopped, does not
need any application callback module.
Application Resource File
To define an application, an application specification is
created, which is put in an application resource file, or in
short an .app file:
{application, Application, [Opt1,...,OptN]}.Application, an atom, is the name of the application.
The file must be named Application.app.Each Opt is a tuple {Key,Value}, which define a
certain property of the application. All keys are optional.
Default values are used for any omitted keys.
The contents of a minimal .app file for a library
application libapp looks as follows:
{application, libapp, []}.
The contents of a minimal .app file ch_app.app for
a supervision tree application like ch_app looks as follows:
{application, ch_app,
[{mod, {ch_app,[]}}]}.
The key mod defines the callback module and start argument of
the application, in this case ch_app and [], respectively.
This means that the following is called when the application is to be
started:
ch_app:start(normal, [])
The following is called when the application is stopped.
ch_app:stop([])
When using systools, the Erlang/OTP tools for packaging
code (see Section
Releases), the keys
description, vsn, modules, registered,
and applications are also to be specified:
{application, ch_app,
[{description, "Channel allocator"},
{vsn, "1"},
{modules, [ch_app, ch_sup, ch3]},
{registered, [ch3]},
{applications, [kernel, stdlib, sasl]},
{mod, {ch_app,[]}}
]}.description - A short description, a string. Defaults to
"".vsn - Version number, a string. Defaults to "".modules - All modules introduced by this
application. systools uses this list when generating boot scripts
and tar files. A module must be defined in only one application.
Defaults to [].registered - All names of registered processes in the
application. systools uses this list to detect name clashes
between applications. Defaults to [].applications - All applications that must be
started before this application is started. systools uses this
list to generate correct boot scripts. Defaults to []. Notice
that all applications have dependencies to at least Kernel
and STDLIB.
For details about the syntax and contents of the application
resource file, see the app
manual page in Kernel.
Directory Structure
When packaging code using systools, the code for each
application is placed in a separate directory,
lib/Application-Vsn, where Vsn is the version number.
This can be useful to know, even if systools is not used,
since Erlang/OTP is packaged according to the OTP principles
and thus comes with a specific directory structure. The code server
(see the code(3) manual
page in Kernel) automatically uses code from
the directory with the highest version number, if more than one
version of an application is present.
Directory Structure guidelines for a Development Environment
Any directory structure for development will suffice as long as the released directory structure
adhere to the description below,
but it is encouraged that the same directory structure
also be used in a development environment. The version number should be omitted from the
application directory name since this is an artifact of the release step.
Some sub-directories are required. Some sub-directories are optional, meaning that it should
only be used if the application itself requires it. Finally, some sub-directories are recommended,
meaning it is encouraged that it is used and used as described here. For example, both documentation
and tests are encouraged to exist in an application for it to be deemed a proper OTP application.
─ ${application}
├── doc
│ ├── internal
│ ├── examples
│ └── src
├── include
├── priv
├── src
│ └── ${application}.app.src
└── test
src - Required. Contains the Erlang source code, the source of the .app file
and internal include files used by the application itself. Additional sub-directories within
src can be used as namespaces to organize source files. These directories should never
be deeper than one level.priv - Optional. Used for application specific files. include - Optional. Used for public include files that must be reachable from
other applications.doc - Recommended. Any source documentation should be placed in sub-directories here.doc/internal - Recommended. Any documentation that describes implementation details about
this application, not intended for publication, should be placed here.doc/examples - Recommended. Source code for examples on how to use this application should
be placed here. It is encouraged that examples are sourced to the public documentation from
this directory.doc/src - Recommended. All source files for documentation, such as Markdown, AsciiDoc or
XML-files, should be placed here.test - Recommended. All files regarding tests, such as test suites and test specifications,
should be placed here.
Other directories in the development environment may be needed. If source code from languages other
than Erlang is used, for instance C-code for NIFs, that code should be placed in a separate directory.
By convention it is recommended to prefix such directories with the language name, for example
c_src for C, java_src for Java or go_src for Go. Directories with _src
suffix indicates that it is a part of the application and the compilation step. The final build artifacts
should target the priv/lib or priv/bin directories.
The priv directory holds assets that the application needs during runtime. Executables should
reside in priv/bin and dynamically-linked libraries should reside in priv/lib. Other assets
are free to reside within the priv directory but it is recommended it does so in a structured manner.
Source files from other languages that generate Erlang code, such as ASN.1 or Mibs, should be placed
in directories, at the top level or in src, with the same name as the source language, for example
asn1 and mibs. Build artifacts should be placed in their respective language directory,
such as src for Erlang code or java_src for Java code.
The .app file for release may reside in the ebin-directory in a development environment
but it is encouraged that this is an artifact of the build step. By convention a .app.src file
is used, which resides in the src directory. This file is nearly identical as the
.app file but certain fields may be replaced during the build step, such as the application version.
Directory names should not be capitalized.
It is encouraged to omit empty directories.
Directory Structure for a Released System
A released application must follow a certain structure.
─ ${application}-${version}
├── bin
├── doc
│ ├── html
│ ├── man[1-9]
│ ├── pdf
│ ├── internal
│ └── examples
├── ebin
│ └── ${application}.app
├── include
├── priv
│ ├── lib
│ └── bin
└── src
src - Optional. Contains the Erlang source code and internal include files
used by the application itself. This directory is no longer required in a released application.ebin - Required. Contains the Erlang object code, the beam files.
The .app file must also be placed here.priv - Optional. Used for application specific files. code:priv_dir/1
is to be used to access this directory.priv/lib - Recommended. Any shared-object files that are used by the application,
such as NIFs or linked-in-drivers, should be placed here.priv/bin - Recommended. Any executable that is used by the application,
such as port-programs, should be placed here.include - Optional. Used for public include files that must be reachable from
other applications.bin - Optional. Any executable that is a product of the application,
such as escripts or shell-scripts, should be placed here.doc - Optional. Any released documentation should be placed in
sub-directories here.doc/man1 - Recommended. Man pages for Application executables.doc/man3 - Recommended. Man pages for module APIs.doc/man6 - Recommended. Man pages for Application overview.doc/html - Optional. HTML pages for the entire Application.doc/pdf - Optional. PDF documentation for the entire Application.
The src directory could be useful to release for debugging purposes but is not required.
The include directory should only be released if the applications has public include files.
The only documentation that is recommended to be released in this way are the man pages. HTML and PDF
will normally be distributed in some other manner.
It is encouraged to omit empty directories.
Application Controller
When an Erlang runtime system is started, a number of processes
are started as part of the Kernel application. One of these
processes is the application controller process,
registered as application_controller.
All operations on applications are coordinated by the application
controller. It is interacted through the functions in
the module application, see the application(3)
manual page in Kernel. In particular, applications can be
loaded, unloaded, started, and stopped.
Loading and Unloading Applications
Before an application can be started, it must be loaded.
The application controller reads and stores the information from
the .app file:
An application that has been stopped, or has never been started,
can be unloaded. The information about the application is
erased from the internal database of the application controller.
If the application is not already loaded, the application
controller first loads it using application:load/1. It
checks the value of the applications key, to ensure
that all applications that are to be started before this
application are running.
The application controller then creates an
application master for the application. The application
master becomes the group leader of all the processes in the
application. I/O is forwarded to the previous group leader,
though, this is just a way to identify processes that belong to
the application. Used for example to find itself from any process,
or, reciprocally, to kill them all when it terminates.
The application master starts the application by calling
the application callback function start/2 in the module,
and with the start argument, defined by the mod key in
the .app file.
An application is stopped, but not unloaded, by calling:
7> application:stop(ch_app).
ok
The application master stops the application by telling the top
supervisor to shut down. The top supervisor tells all its child
processes to shut down, and so on; the entire tree is terminated in
reversed start order. The application master then calls
the application callback function stop/1 in the module
defined by the mod key.
Configuring an Application
An application can be configured using
configuration parameters. These are a list of
{Par,Val} tuples
specified by a key env in the .app file:
Par is to be an atom. Val is any term.
The application can retrieve the value of a configuration
parameter by calling application:get_env(App, Par) or a
number of similar functions, see the application(3)
manual page in Kernel.
Example:
% erl
Erlang (BEAM) emulator version 5.2.3.6 [hipe] [threads:0]
Eshell V5.2.3.6 (abort with ^G)
1> application:start(ch_app).
ok
2> application:get_env(ch_app, file).
{ok,"/usr/local/log"}
The values in the .app file can be overridden by values
in a system configuration file. This is a file that
contains configuration parameters for relevant applications:
The system configuration is to be called Name.config and
Erlang is to be started with the command-line argument
-config Name. For details, see the config(4)
manual page in Kernel.
Example:
A file test.config is created with the following contents:
[{ch_app, [{file, "testlog"}]}].
The value of file overrides the value of file
as defined in the .app file:
% erl -config test
Erlang (BEAM) emulator version 5.2.3.6 [hipe] [threads:0]
Eshell V5.2.3.6 (abort with ^G)
1> application:start(ch_app).
ok
2> application:get_env(ch_app, file).
{ok,"testlog"}
If
release handling
is used, exactly one system configuration file is to be used and
that file is to be called sys.config.
The values in the .app file and the values in a
system configuration file can be overridden directly from
the command line:
% erl -ApplName Par1 Val1 ... ParN ValN
Example:
% erl -ch_app file '"testlog"'
Erlang (BEAM) emulator version 5.2.3.6 [hipe] [threads:0]
Eshell V5.2.3.6 (abort with ^G)
1> application:start(ch_app).
ok
2> application:get_env(ch_app, file).
{ok,"testlog"}
Application Start Types
A start type is defined when starting the application:
application:start(Application, Type)
application:start(Application) is the same as calling
application:start(Application, temporary). The type can
also be permanent or transient:
If a permanent application terminates, all other
applications and the runtime system are also terminated.If a transient application terminates with reason
normal, this is reported but no other applications are
terminated. If a transient application terminates abnormally,
that is with any other reason than normal, all other
applications and the runtime system are also terminated.If a temporary application terminates, this is reported but
no other applications are terminated.
An application can always be stopped explicitly by
calling application:stop/1. Regardless of the mode, no
other applications are affected.
The transient mode is of little practical use, since when
a supervision tree terminates, the reason is set to
shutdown, not normal.