1 System Principles
1.1 Starting the System
An Erlang runtime system is started with the command erl:
% erl
Erlang/OTP 17 [erts-6.0] [hipe] [smp:8:8]
Eshell V6.0 (abort with ^G)
1>
erl understands a number of command line arguments, see erl(1). A number of them are also described in this chapter.
Application programs can access the values of the command line arguments by calling one of the functions init:get_argument(Key), or init:get_arguments(). See init(3).
1.2 Restarting and Stopping the System
The runtime system can be halted by calling halt/0,1. See erlang(3).
The module init contains function for restarting, rebooting and stopping the runtime system. See init(3).
init:restart() init:reboot() init:stop()
Also, the runtime system will terminate if the Erlang shell is terminated.
1.3 Boot Scripts
The runtime system is started using a boot script. The boot script contains instructions on which code to load and which processes and applications to start.
A boot script file has the extension .script. The runtime system uses a binary version of the script. This binary boot script file has the extension .boot.
Which boot script to use is specified by the command line flag -boot. The extension .boot should be omitted. Example, using the boot script start_all.boot:
% erl -boot start_all
If no boot script is specified, it defaults to ROOT/bin/start, see Default Boot Scripts below.
The command line flag -init_debug makes the init process write some debug information while interpreting the boot script:
% erl -init_debug
{progress,preloaded}
{progress,kernel_load_completed}
{progress,modules_loaded}
{start,heart}
{start,error_logger}
...
See script(4) for a detailed description of the syntax and contents of the boot script.
Default Boot Scripts
Erlang/OTP comes with two boot scripts:
- start_clean.boot
-
Loads the code for and starts the applications Kernel and STDLIB.
- start_sasl.boot
-
Loads the code for and starts the applications Kernel, STDLIB and SASL.
- no_dot_erlang.boot
-
Loads the code for and starts the applications Kernel and STDLIB, skips loading the .erlang file. Useful for scripts and other tools that should be behave the same regardless of user preferences.
Which of start_clean and start_sasl to use as default is decided by the user when installing Erlang/OTP using Install. The user is asked "Do you want to use a minimal system startup instead of the SASL startup". If the answer is yes, then start_clean is used, otherwise start_sasl is used. A copy of the selected boot script is made, named start.boot and placed in the ROOT/bin directory.
User-Defined Boot Scripts
It is sometimes useful or necessary to create a user-defined boot script. This is true especially when running Erlang in embedded mode, see Code Loading Strategy.
It is possible to write a boot script manually. The recommended way to create a boot script, however, is to generate the boot script from a release resource file Name.rel, using the function systools:make_script/1,2. This requires that the source code is structured as applications according to the OTP design principles. (The program does not have to be started in terms of OTP applications but can be plain Erlang).
Read more about .rel files in OTP Design Principles and rel(4).
The binary boot script file Name.boot is generated from the boot script file Name.script using the function systools:script2boot(File).
1.4 Code Loading Strategy
The runtime system can be started in either embedded or interactive mode. Which one is decided by the command line flag -mode.
% erl -mode embedded
Default mode is interactive.
- In embedded mode, all code is loaded during system start-up according to the boot script. (Code can also be loaded later by explicitly ordering the code server to do so).
- In interactive mode, code is dynamically loaded when first referenced. When a call to a function in a module is made, and the module is not loaded, the code server searches the code path and loads the module into the system.
Initially, the code path consists of the current working directory and all object code directories under ROOT/lib, where ROOT is the installation directory of Erlang/OTP. Directories can be named Name[-Vsn] and the code server, by default, chooses the directory with the highest version number among those which have the same Name. The -Vsn suffix is optional. If an ebin directory exists under the Name[-Vsn] directory, it is this directory which is added to the code path.
The code path can be extended by using the command line flags -pa Directories and -pz Directories. These will add Directories to the head or end of the code path, respectively. Example
% erl -pa /home/arne/mycode
The code server module code contains a number of functions for modifying and checking the search path, see code(3).
1.5 File Types
The following file types are defined in Erlang/OTP:
File Type | File Name/Extension | Documented in |
module | .erl | Erlang Reference Manual |
include file | .hrl | Erlang Reference Manual |
release resource file | .rel | rel(4) |
application resource file | .app | app(4) |
boot script | .script | script(4) |
binary boot script | .boot | - |
configuration file | .config | config(4) |
application upgrade file | .appup | appup(4) |
release upgrade file | relup | relup(4) |