Upgrading the PEM backend Postgres database v9
If you're updating PEM components and the PEM backend database, perform PEM component updates on the server and agent before updating the backend database. For more information about updating PEM component software, see Upgrading a PEM installation.
Note
From PEM 8.0 onwards, PostgreSQL or EPAS versions 11 or later are only supported as backend database servers. As a result, if your backend database server is earlier than version 11, you need to first upgrade your backend database server and then upgrade the PEM components.
After upgrading the backend database server, if you encounter this error while creating the server in the PEM web interface:
Resolve the error by updating the roles and granting appropriate permissions:
The update process uses the pg_upgrade utility to migrate from one version of the backend server to a more recent version. pg_upgrade enables migration between any supported version of Postgres and any subsequent release of Postgres that's supported on the same platform.
If the source PEM server is earlier than the 7.16 version, then you need to replace the following functions before you run pg_upgrade:
The
abstime
,reltime
, andtinterval
datatypes are deprecated from Postgres version 12 or later, hence to replace those dataypes withtimestamptz
data type use this command:Replace this function to avoid any alert errors:
pg_upgrade supports a transfer of data between servers of the same type. For example, you can use pg_upgrade to move data from a PostgreSQL 10 backend database to a PostgreSQL 11 backend database but not to an EDB Postgres Advanced Server 11 backend database. If you want to migrate to a different type of backend database (such as from a PostgreSQL server to EDB Postgres Advanced Server), see Moving the Postgres Enterprise Manager server.
You can find more information about using pg_upgrade at pg_upgrade.
Download and invoke the updated installer. Installers for PostgreSQL and EDB Postgres Advanced Server are available through the EDB website.
After downloading the installer for the server version you are upgrading to, invoke the installer on the host of the PEM server. Follow the onscreen instructions of the installation wizard to configure and install the Postgres server.
You can optionally use a custom-built PostgreSQL server as a host of the PEM backend database. If you're upgrading from a PostgreSQL backend database listening on port 5432, the new server must be configured to listen on a different port.
Configure SSL utilities on the new server. The new backend database must be running the same version of sslutils that the current backend database is running. You can download the SSL Utils package from the EDB website.
You don't need to manually add the sslutils extension when using the EDB Postgres Advanced Server as the new backend database. The process of configuring sslutils is platform specific.
On Linux
On an EDB Postgres Advanced Server backend database, the sslutils extension is installed by default.
If you're using PostgreSQL as a PEM backend database, verify that you have access to the PostgreSQL community repository, and use the command:
Where
<X>
is the server version.If you're using a EDB one-click installer of PostgreSQL as a PEM backend database, use the command:
Set the value of PATH so it can locate the pg_config program
Move into the
sslutils
folder, and enter:Use psql to create the sslutils extension
Debian 10 and Ubuntu 20 have increased the requirements to accept the certificates for security reasons. If you want to install the PEM agent on any of the machines, you must upgrade ssltuils to 1.3 where 4096-bit RSA key and sha256 signature algorithm support was added. If you don't upgrade sslutils to 1.3, then PEM agent might fail to connect to the PEM backend database server, and it might log the error "ca md too weak."
On Windows
You must compile sslutils on the new backend database with the same compiler that was used to compile sslutils on the original backend database. If you're moving to a Postgres database that was installed using a PostgreSQL one-click installer (from EDB) or an EDB Postgres Advanced Server installer, use Visual Studio to build sslutils. If you're upgrading to PostgreSQL 10 or later, use Visual Studio 2010.
For detailed information about building a specific version of Postgres on Windows, consult the core documentation for that version. Core documentation is available at the PostgreSQL project website.
While specific details of the process vary by platform and compiler, the basic steps on each platform are the same. The example that follows shows compiling OpenSSL support for PostgreSQL on a 32-bit Windows system.
Before compiling the OpenSSL extension, you must locate and install OpenSSL for your version of Windows. Before invoking the OpenSSL installer you might need to download and install a prerequisite redistributable (such as
vcredist_x86.exe
).After installing OpenSSL, download and unpack the sslutils utility package.
Copy the unpacked
sslutils
folder to the Postgres installation directory (C:\ProgramFiles\PostgreSQL\<x.x>
).Open the Visual Studio command line, and navigate into the
sslutils
directory. Use the following commands to build sslutils:
Where:
path_to_gettext
specifies the location of theGETTEXT
library and header files.path_to_openssl
specifies the location of the openssl library and header files.path_to_pg_installation_dir
specifies the location of the Postgres installation.
For example, the following set of commands builds OpenSSL support into the PostgreSQL 11 server:
When the build completes, the
sslutils
directory contains the following files:sslutils--1.3.sql
sslutils--unpackaged--1.3.sql
sslutils--pemagent.sql.in
sslutils.dll
Copy the compiled sslutils files to the appropriate directory for your installation; for example:
Stop the services of both the old backend database and the new backend database.
On RHEL 8.x, open a command line and assume the identity of a superuser. Enter the command:
Where
<service_name>
specifies the name of the Postgres service.On Windows, you can use the Services dialog box to control the service. To stop the service:
Use the pg_upgrade utility to perform an in-place transfer of existing data between the old backend database and the new backend database. If your server is configured to enforce md5 authentication, you might need to add an entry to the
.pgpass
file that specifies the connection properties (and password) for the database superuser. Or you might need to modify thepg_hba.conf
file to allow trust connections before invokingpg_upgrade
. For more information about creating an entry in the.pgpass
file, see the PostgreSQL core documentation.During the upgrade process, pg_upgrade writes a series of log files. The cluster owner must invoke pg_upgrade from a directory in which they have write privileges. If the upgrade completes successfully, pg_upgrade removes the log files when the upgrade completes. If you don't want pg_upgrade to delete the upgrade log files, include the
--retain
keyword when invoking pg_upgrade.To invoke pg_upgrade, assume the identity of the cluster owner, navigate to a directory in which the cluster owner has write privileges, and execute the command:
Where:
path_to_pg_upgrade
specifies the location of the pg_upgrade utility. By default, pg_upgrade is installed in thebin
directory under your Postgres directory.old_data_dir_path
specifies the complete path to the data directory of the old backend database.new_data_dir_path
specifies the complete path to the data directory of the new backend database.old_bin_dir_path
specifies the complete path to the bin directory of the old backend database.new_bin_dir_path
specifies the complete path to the bin directory of the old backend database.old_port
specifies the port on which the old server is listening.new_port
specifies the port on which the new server is listening.user_name
specifies the name of the cluster owner.
For example, the following command instructs pg_upgrade to migrate the PEM database from PostgreSQL 9.6 to PostgreSQL 11 on a Windows system (if the backend databases are installed in their default locations):
Once invoked, pg_upgrade performs consistency checks before moving the data to the new backend database. When the upgrade is finished, pg_upgrade notifies you that the upgrade is complete.
For detailed information about using pg_upgrade options or troubleshooting the upgrade process, see pg_upgrade.
Copy the following certificate files from the
data
directory of the old backend database to thedata
directory of the new backend database:ca_certificate.crt
ca_key.key
root.crt
root.crl
server.key
server.crt
Once in place on the target server, make sure the files have these platform-specific permissions:
Permissions and ownership on Linux
File name Owner Permissions ca_certificate.crt postgres -rw------- ca_key.key postgres -rw------- root.crt postgres -rw------- root.crl postgres -rw------- server.key postgres -rw------- server.crt postgres -rw-r--r-- On Linux, the certificate files must be owned by postgres. You can use the following command at the command line to modify the ownership of the files:
Where
file_name
specifies the name of the certificate file.Only the owner of the
server.crt
file can modify it, but any user can read it. You can use the following command to set the file permissions for theserver.crt
file:Only the owner of the other certificate files can modify or read the file. You can use the following command to set the file permissions:
Where
file_name
specifies the name of the file.Permissions and ownership on Windows
On Windows, the service account that performed the PEM server and backend database installation on the target host must own the certificate files moved from the source host. If you invoked the PEM server and Postgres installer using Run as Administrator from the context menu of the installer, the owner of the certificate files is Administrators.
To review and modify file permissions on Windows, right-click the file name and select Properties.
On the Security tab select a group or user name to view the assigned permissions. Select Edit or Advanced to open dialog boxes that allow you to modify the permissions associated with the selected user.
The
postgresql.conf
file contains parameter settings that specify server behavior. Modify thepostgresql.conf
file on the new server to match the configuration specified in thepostgresql.conf
file of the old server.By default, the
postgresql.conf
file is located:- For Postgres version earlier than 10 on Linux, in
/opt/PostgreSQL/<X>/data
- For Postgres version 10 or later when installed with graphical installers on Linux, in
/opt/PostgreSQL/<X>/data
- For Postgres version 10 or later when installed with an RPM on Linux, in
/usr/pgsql/<X>/data
- For any Postgres version on Windows, in
C:\Program Files\PostgreSQL\<X>\data
Where
<X>
is the version of Postgres on your system.Use your choice of editor to update the
postgresql.conf
file of the new server. Modify the following parameters:- The
port
parameter to listen on the port monitored by your original backend database (typically set to5432
). - The
ssl
parameter to be set toon
You must also ensure that the following parameters are enabled. If the parameters are commented out, remove the pound sign from in front of each
postgresql.conf
file entry:ssl_cert_file = 'server.crt' # (change requires restart)
ssl_key_file = 'server.key' # (change requires restart)
ssl_ca_file = 'root.crt' # (change requires restart)
ssl_crl_file = 'root.crl'
Your installation might have other parameter settings that require modification to ensure that the new backend database behaves like the old backend database. Review the
postgresql.conf
files carefully to ensure that the configuration of the new server matches the configuration of the old server.- For Postgres version earlier than 10 on Linux, in
The
pg_hba.conf
file contains parameter settings that specify how the server enforces host-based authentication. When you install the PEM server, the installer modifies thepg_hba.conf
file, adding entries to the top of the file:# Adding entries for PEM Agens and admins to connect to PEM server
hostssl pem +pem_user 192.168.2.0/24 md5
hostssl pem +pem_agent 192.168.2.0/24 cert
# Adding entries (localhost) for PEM Agens and admins to connect to PEM server
hostssl pem +pem_user 127.0.0.1/32 md5
hostssl postgres +pem_user 127.0.0.1/32 md5
hostssl pem +pem_user 127.0.0.1/32 md5
hostssl pem +pem_agent 127.0.0.1/32 cert
By default, the
pg_hba.conf
file is located at the following location:- For Postgres version earlier than 10 on Linux, in
/opt/PostgreSQL/<X>/data
- For Postgres version 10 or later when installed with graphical installers on Linux, in
/Opt/PostgreSQL/<X>/data
- For Postgres version 10 or later when installed with RPMs on Linux, in
/var/lib/pgsql/<X>/data
- For Advanced Server version 10 or later when installed with RPMs on Linux, in
/var/lib/edb/as<X>/data
- For any Postgres version on Windows, in
C:\Program Files\PostgreSQL\<X>\data
Where
<X>
is the version of Postgres on your system.Using your editor of choice, copy the entries from the
pg_hba.conf
file of the old server to thepg_hba.conf
file for the new server.- For Postgres version earlier than 10 on Linux, in
Restart the service of the new backend database.
On RHEL 8.x, at the command line as superuser enter:
Where
service_name
is the name of the backend database server.If you're using Windows, you can use the Services dialog box to control the service:
- In the Control Panel, select System and Security > Administrative Tools.
- Double-click the Services icon.
- In the Services dialog box, select the service name and start the service.