<!-- $PostgreSQL: pgsql/doc/src/sgml/start.sgml,v 1.37 2004/12/17 04:50:32 tgl Exp $ --> <chapter id="tutorial-start"> <title>Getting Started</title> <sect1 id="tutorial-install"> <title>Installation</title> <para> Before you can use <productname>PostgreSQL</productname> you need to install it, of course. It is possible that <productname>PostgreSQL</productname> is already installed at your site, either because it was included in your operating system distribution or because the system administrator already installed it. If that is the case, you should obtain information from the operating system documentation or your system administrator about how to access <productname>PostgreSQL</productname>. </para> <para> If you are not sure whether <productname>PostgreSQL</productname> is already available or whether you can use it for your experimentation then you can install it yourself. Doing so is not hard and it can be a good exercise. <productname>PostgreSQL</productname> can be installed by any unprivileged user; no superuser (<systemitem>root</systemitem>) access is required. </para> <para> If you are installing <productname>PostgreSQL</productname> yourself, then refer to <xref linkend="installation"> for instructions on installation, and return to this guide when the installation is complete. Be sure to follow closely the section about setting up the appropriate environment variables. </para> <para> If your site administrator has not set things up in the default way, you may have some more work to do. For example, if the database server machine is a remote machine, you will need to set the <envar>PGHOST</envar> environment variable to the name of the database server machine. The environment variable <envar>PGPORT</envar> may also have to be set. The bottom line is this: if you try to start an application program and it complains that it cannot connect to the database, you should consult your site administrator or, if that is you, the documentation to make sure that your environment is properly set up. If you did not understand the preceding paragraph then read the next section. </para> </sect1> <sect1 id="tutorial-arch"> <title>Architectural Fundamentals</title> <para> Before we proceed, you should understand the basic <productname>PostgreSQL</productname> system architecture. Understanding how the parts of <productname>PostgreSQL</productname> interact will make this chapter somewhat clearer. </para> <para> In database jargon, <productname>PostgreSQL</productname> uses a client/server model. A <productname>PostgreSQL</productname> session consists of the following cooperating processes (programs): <itemizedlist> <listitem> <para> A server process, which manages the database files, accepts connections to the database from client applications, and performs actions on the database on behalf of the clients. The database server program is called <filename>postmaster</filename>. <indexterm><primary>postmaster</primary></indexterm> </para> </listitem> <listitem> <para> The user's client (frontend) application that wants to perform database operations. Client applications can be very diverse in nature: a client could be a text-oriented tool, a graphical application, a web server that accesses the database to display web pages, or a specialized database maintenance tool. Some client applications are supplied with the <productname>PostgreSQL</productname> distribution; most are developed by users. </para> </listitem> </itemizedlist> </para> <para> As is typical of client/server applications, the client and the server can be on different hosts. In that case they communicate over a TCP/IP network connection. You should keep this in mind, because the files that can be accessed on a client machine might not be accessible (or might only be accessible using a different file name) on the database server machine. </para> <para> The <productname>PostgreSQL</productname> server can handle multiple concurrent connections from clients. For that purpose it starts (<quote>forks</quote>) a new process for each connection. From that point on, the client and the new server process communicate without intervention by the original <filename>postmaster</filename> process. Thus, the <filename>postmaster</filename> is always running, waiting for client connections, whereas client and associated server processes come and go. (All of this is of course invisible to the user. We only mention it here for completeness.) </para> </sect1> <sect1 id="tutorial-createdb"> <title>Creating a Database</title> <indexterm zone="tutorial-createdb"> <primary>database</primary> <secondary>creating</secondary> </indexterm> <indexterm zone="tutorial-createdb"> <primary>createdb</primary> </indexterm> <para> The first test to see whether you can access the database server is to try to create a database. A running <productname>PostgreSQL</productname> server can manage many databases. Typically, a separate database is used for each project or for each user. </para> <para> Possibly, your site administrator has already created a database for your use. He should have told you what the name of your database is. In this case you can omit this step and skip ahead to the next section. </para> <para> To create a new database, in this example named <literal>mydb</literal>, you use the following command: <screen> <prompt>$</prompt> <userinput>createdb mydb</userinput> </screen> This should produce as response: <screen> CREATE DATABASE </screen> If so, this step was successful and you can skip over the remainder of this section. </para> <para> If you see a message similar to <screen> createdb: command not found </screen> then <productname>PostgreSQL</> was not installed properly. Either it was not installed at all or the search path was not set correctly. Try calling the command with an absolute path instead: <screen> <prompt>$</prompt> <userinput>/usr/local/pgsql/bin/createdb mydb</userinput> </screen> The path at your site might be different. Contact your site administrator or check back in the installation instructions to correct the situation. </para> <para> Another response could be this: <screen> createdb: could not connect to database template1: could not connect to server: No such file or directory Is the server running locally and accepting connections on Unix domain socket "/tmp/.s.PGSQL.5432"? </screen> This means that the server was not started, or it was not started where <command>createdb</command> expected it. Again, check the installation instructions or consult the administrator. </para> <para> If you do not have the privileges required to create a database, you will see the following: <screen> createdb: database creation failed: ERROR: permission denied to create database </screen> Not every user has authorization to create new databases. If <productname>PostgreSQL</productname> refuses to create databases for you then the site administrator needs to grant you permission to create databases. Consult your site administrator if this occurs. If you installed <productname>PostgreSQL</productname> yourself then you should log in for the purposes of this tutorial under the user account that you started the server as. <footnote> <para> As an explanation for why this works: <productname>PostgreSQL</productname> user names are separate from operating system user accounts. If you connect to a database, you can choose what <productname>PostgreSQL</productname> user name to connect as; if you don't, it will default to the same name as your current operating system account. As it happens, there will always be a <productname>PostgreSQL</productname> user account that has the same name as the operating system user that started the server, and it also happens that that user always has permission to create databases. Instead of logging in as that user you can also specify the <option>-U</option> option everywhere to select a <productname>PostgreSQL</productname> user name to connect as. </para> </footnote> </para> <para> You can also create databases with other names. <productname>PostgreSQL</productname> allows you to create any number of databases at a given site. Database names must have an alphabetic first character and are limited to 63 characters in length. A convenient choice is to create a database with the same name as your current user name. Many tools assume that database name as the default, so it can save you some typing. To create that database, simply type <screen> <prompt>$</prompt> <userinput>createdb</userinput> </screen> </para> <para> If you do not want to use your database anymore you can remove it. For example, if you are the owner (creator) of the database <literal>mydb</literal>, you can destroy it using the following command: <screen> <prompt>$</prompt> <userinput>dropdb mydb</userinput> </screen> (For this command, the database name does not default to the user account name. You always need to specify it.) This action physically removes all files associated with the database and cannot be undone, so this should only be done with a great deal of forethought. </para> <para> More about <command>createdb</command> and <command>dropdb</command> may be found in <xref linkend="APP-CREATEDB"> and <xref linkend="APP-DROPDB"> respectively. </para> </sect1> <sect1 id="tutorial-accessdb"> <title>Accessing a Database</title> <indexterm zone="tutorial-accessdb"> <primary>psql</primary> </indexterm> <para> Once you have created a database, you can access it by: <itemizedlist spacing="compact" mark="bullet"> <listitem> <para> Running the <productname>PostgreSQL</productname> interactive terminal program, called <application><firstterm>psql</></application>, which allows you to interactively enter, edit, and execute <acronym>SQL</acronym> commands. </para> </listitem> <listitem> <para> Using an existing graphical frontend tool like <application>PgAccess</application> or an office suite with <acronym>ODBC</acronym> support to create and manipulate a database. These possibilities are not covered in this tutorial. </para> </listitem> <listitem> <para> Writing a custom application, using one of the several available language bindings. These possibilities are discussed further in <xref linkend="client-interfaces">. </para> </listitem> </itemizedlist> You probably want to start up <command>psql</command>, to try out the examples in this tutorial. It can be activated for the <literal>mydb</literal> database by typing the command: <screen> <prompt>$</prompt> <userinput>psql mydb</userinput> </screen> If you leave off the database name then it will default to your user account name. You already discovered this scheme in the previous section. </para> <para> In <command>psql</command>, you will be greeted with the following message: <screen> Welcome to psql &version;, the PostgreSQL interactive terminal. Type: \copyright for distribution terms \h for help with SQL commands \? for help with psql commands \g or terminate with semicolon to execute query \q to quit mydb=> </screen> <indexterm><primary>superuser</primary></indexterm> The last line could also be <screen> mydb=# </screen> That would mean you are a database superuser, which is most likely the case if you installed <productname>PostgreSQL</productname> yourself. Being a superuser means that you are not subject to access controls. For the purpose of this tutorial this is not of importance. </para> <para> If you have encountered problems starting <command>psql</command> then go back to the previous section. The diagnostics of <command>psql</command> and <command>createdb</command> are similar, and if the latter worked the former should work as well. </para> <para> The last line printed out by <command>psql</command> is the prompt, and it indicates that <command>psql</command> is listening to you and that you can type <acronym>SQL</acronym> queries into a work space maintained by <command>psql</command>. Try out these commands: <indexterm><primary>version</primary></indexterm> <screen> <prompt>mydb=></prompt> <userinput>SELECT version();</userinput> version ---------------------------------------------------------------- PostgreSQL &version; on i586-pc-linux-gnu, compiled by GCC 2.96 (1 row) <prompt>mydb=></prompt> <userinput>SELECT current_date;</userinput> date ------------ 2002-08-31 (1 row) <prompt>mydb=></prompt> <userinput>SELECT 2 + 2;</userinput> ?column? ---------- 4 (1 row) </screen> </para> <para> The <command>psql</command> program has a number of internal commands that are not SQL commands. They begin with the backslash character, <quote><literal>\</literal></quote>. Some of these commands were listed in the welcome message. For example, you can get help on the syntax of various <productname>PostgreSQL</productname> <acronym>SQL</acronym> commands by typing: <screen> <prompt>mydb=></prompt> <userinput>\h</userinput> </screen> </para> <para> To get out of <command>psql</command>, type <screen> <prompt>mydb=></prompt> <userinput>\q</userinput> </screen> and <command>psql</command> will quit and return you to your command shell. (For more internal commands, type <literal>\?</literal> at the <command>psql</command> prompt.) The full capabilities of <command>psql</command> are documented in <xref linkend="app-psql">. If <productname>PostgreSQL</> is installed correctly you can also type <literal>man psql</literal> at the operating system shell prompt to see the documentation. In this tutorial we will not use these features explicitly, but you can use them yourself when you see fit. </para> </sect1> </chapter> <!-- Keep this comment at the end of the file Local variables: mode:sgml sgml-omittag:t sgml-shorttag:t sgml-minimize-attributes:nil sgml-always-quote-attributes:t sgml-indent-step:1 sgml-indent-data:t sgml-parent-document:nil sgml-default-dtd-file:"./reference.ced" sgml-exposed-tags:nil sgml-local-catalogs:("/usr/lib/sgml/catalog") sgml-local-ecat-files:nil End: -->