2.2 Release Notes

Red Hat Software Collections 2.2

Release Notes for Red Hat Software Collections 2.2

Lenka Špačková

Red Hat Customer Content Services

Jaromír Hradílek

Red Hat Customer Content Services

Eliška Slobodová

Red Hat Customer Content Services

Abstract

The Red Hat Software Collections 2.2 Release Notes document the major features and contain important information about known problems in Red Hat Software Collections 2.2.
The Red Hat Developer Toolset collection is documented in the Red Hat Developer Toolset Release Notes and the Red Hat Developer Toolset User Guide.

Chapter 1. Red Hat Software Collections 2.2

This chapter serves as an overview of the Red Hat Software Collections 2.2 content set. It provides a list of components and their descriptions, sums up changes in this version, documents relevant compatibility information, and lists known issues.

1.1. About Red Hat Software Collections

For certain applications, more recent versions of some software components are often needed in order to use their latest new features. Red Hat Software Collections is a Red Hat offering that provides a set of dynamic programming languages, database servers, and various related packages that are either more recent than their equivalent versions included in the base Red Hat Enterprise Linux system, or are available for this system for the first time.
Red Hat Software Collections 2.2 is be available for Red Hat Enterprise Linux 7; selected new components and previously released components also for Red Hat Enterprise Linux 6. For a complete list of components that are distributed as part of Red Hat Software Collections and a brief summary of their features, see Section 1.2, “Main Features”.
Red Hat Software Collections does not replace the default system tools provided with Red Hat Enterprise Linux 6 or Red Hat Enterprise Linux 7. Instead, a parallel set of tools is installed in the /opt/ directory and can be optionally enabled per application by the user using the supplied scl utility. The default versions of Perl or PostgreSQL, for example, remain those provided by the base Red Hat Enterprise Linux system.
All Red Hat Software Collections components are fully supported under Red Hat Enterprise Linux Subscription Level Agreements, are functionally complete, and are intended for production use. Important bug fix and security errata are issued to Red Hat Software Collections subscribers in a similar manner to Red Hat Enterprise Linux for at least two years from the release of each major version. In each major release stream, each version of a selected component remains backward compatible. For detailed information about length of support for individual components, refer to the Red Hat Software Collections Product Life Cycle document.
Red Hat Developer Toolset is now part of Red Hat Software Collections, included as a separate Software Collection. For more information about Red Hat Developer Toolset, refer to the Red Hat Developer Toolset Release Notes and the Red Hat Developer Toolset User Guide.

1.2. Main Features

Red Hat Software Collections 2.2 provides recent stable versions of the tools listed in Table 1.1, “Red Hat Software Collections 2.2 Components”.

Table 1.1. Red Hat Software Collections 2.2 Components

Component Software Collection Description
Red Hat Developer Toolset 4.1 devtoolset-4 Red Hat Developer Toolset is designed for developers working on the Red Hat Enterprise Linux platform. It provides current versions of the GNU Compiler Collection, GNU Debugger, Eclipse development platform, and other development, debugging, and performance monitoring tools. For a complete list of components, see the Red Hat Developer Toolset Components table in the Red Hat Developer Toolset User Guide.
Perl 5.20.1 rh-perl520 A release of Perl, a high-level programming language that is commonly used for system administration utilities and web programming. The rh-perl520 Software Collection provides additional utilities, scripts, and database connectors for MySQL and PostgreSQL. Also, it includes the DateTime Perl module and the mod_perl Apache httpd module, which is supported only with the httpd24 Software Collection.
PHP 5.4.40 php54 A release of PHP with PEAR 1.9.4 and a number of additional extensions. PHP 5.4 provides a number of language and interface improvements. The memcache and Zend OPcache extensions are also included.
PHP 5.5.21 php55 A release of PHP with PEAR 1.9.4 and enhanced language features including better exception handling, generators, and Zend OPcache. The memcache and mongodb extensions are also included.
PHP 5.6.5 rh-php56 A release of PHP with PEAR 1.9.5 and enhanced language features including constant expressions, variadic functions, arguments unpacking, and the interactive debugger. The memcache, mongo, and XDebug extensions are also included.
Python 2.7.8 python27 A release of Python 2.7 with a number of additional utilities. This Python version provides various new features and enhancements, including a new ordered dictionary type, faster I/O operations, and improved forward compatibility with Python 3. The python27 Software Collections contains the Python 2.7.8 interpreter, a set of extension libraries useful for programming web applications and mod_wsgi (only supported with the httpd24 Software Collection), MySQL and PostgreSQL database connectors, and numpy and scipy.
Python 3.4.2 rh-python34 A release of Python 3 with a number of additional utilities. This Software Collection gives developers on Red Hat Enterprise Linux access to Python 3 and allows them to benefit from various advantages and new features of this version. The rh-python34 Software Collection contains Python 3.4.2 interpreter, a set of extension libraries useful for programming web applications and mod_wsgi (only supported with the httpd24 Software Collection), PostgreSQL database connector, and numpy and scipy.
Python 3.5.1[a] rh-python35 The rh-python35 Software Collection contains Python 3.5.1 interpreter, a set of extension libraries useful for programming web applications and mod_wsgi (only supported with the httpd24 Software Collection), PostgreSQL database connector, and numpy and scipy.
Ruby 2.2.2 rh-ruby22 A release of Ruby 2.2. This version provides substantial performance and reliability improvements, including incremental and symbol garbage collection and many others, while maintaining source level backward compatibility with Ruby 2.0.0 and Ruby 1.9.3.
Ruby 2.3.0[a] rh-ruby23 A release of Ruby 2.3. This version introduces a command-line option to freeze all string literals in the source files, a safe navigation operator, and multiple performance enhancements, while maintaining source level backward compatibility with Ruby 2.2.2, Ruby 2.0.0, and Ruby 1.9.3.
Ruby on Rails 4.1.5 rh-ror41 A release of Ruby on Rails 4.1, a web application development framework written in the Ruby language. This version provides a number of new features including Spring application preloader, config/secrets.yml, Action Pack variants, and Action Mailer previews. This Software Collection is supported together with the rh-ruby22 Collection.
Ruby on Rails 4.2.6[a] rh-ror42 A release of Ruby on Rails 4.2, the latest version of the web application framework written in the Ruby language. Highlights in this release include Active Job, asynchronous mails, Adequate Record, Web Console, and foreign key support. This Software Collection is supported together with the rh-ruby23 and rh-nodejs4 Collections.
MariaDB 10.0.25 rh-mariadb100 A release of MariaDB, an alternative to MySQL for users of Red Hat Enterprise Linux. For all practical purposes, MySQL is binary compatible with MariaDB and can be replaced with it without any data conversions. This version adds the PAM authentication plugin to MariaDB.
MariaDB 10.1.14 rh-mariadb101 A release of MariaDB, an alternative to MySQL for users of Red Hat Enterprise Linux. For all practical purposes, MySQL is binary compatible with MariaDB and can be replaced with it without any data conversions. This version adds the Galera Cluster support.
MongoDB 2.6.9 rh-mongodb26 A release of MongoDB, a cross-platform document-oriented database system classified as a NoSQL database. This Software Collection includes the mongo-java-driver package version 2.14.1.
MongoDB 3.2.6[a] rh-mongodb32 A release of MongoDB, a cross-platform document-oriented database system classified as a NoSQL database. This Software Collection includes the mongo-java-driver package version 3.2.1.
MongoDB 3.0.11 upgrade collection[a] rh-mongodb30upg A limited version of MongoDB 3.0 is available to provide an upgrade path from MongoDB 2.6 to MongoDB 3.2 for customers with existing MongoDB databases.
MySQL 5.6.30 rh-mysql56 A release of MySQL, which provides a number of new features and enhancements, including improved performance.
PostgreSQL 9.4.6 rh-postgresql94 A release of PostgreSQL, which provides a new data type to store JSON more efficiently and a new SQL command for changing configuration files, reduces lock strength for some commands, allows materialized views without blocking concurrent reads, supports logical decoding of WAL data to allow stream changes in a customizable format and enable background worker processes to be dynamically registered, started, and terminated.
PostgreSQL 9.5.2 rh-postgresql95 A release of PostgreSQL, which provides a number of enhancements, including row-level security control, introduces replication progress tracking, improves handling of large tables with high number of columns, and improves performance for sorting and multi-CPU machines.
Node.js 0.10 nodejs010 A release of Node.js with npm 1.4.28 and support for the SPDY protocol version 3.1. This Software Collection gives users of Red Hat Enterprise Linux access to this programming platform.
Node.js 4.4.2 rh-nodejs4 A release of Node.js with npm 2.15.1 and support for the SPDY protocol version 3.1. This Software Collection gives users of Red Hat Enterprise Linux access to this programming platform.
rh-nginx 1.8.0 rh-nginx18 A release of nginx, a web and proxy server with a focus on high concurrency, performance and low memory usage. This version introduces a number of new features, including back-end SSL certificate verification, logging to syslog, thread pools support for offloading I/O requests, or hash load balancing method.
Apache httpd 2.4.18 httpd24 A release of the Apache HTTP Server (httpd), including a high performance event-based processing model, enhanced SSL module and FastCGI support. The mod_auth_kerb module is also included.
Varnish Cache 4.0.3 rh-varnish4 A release of Varnish Cache, a high-performance HTTP reverse proxy. Varnish Cache stores files or fragments of files in memory that are used to reduce the response time and network bandwidth consumption on future equivalent requests.
Thermostat 1.4.4 thermostat1 A release of Thermostat, a monitoring and instrumentation tool for the OpenJDK HotSpot JVM, with support for monitoring multiple JVM instances. This Software Collection depends on the rh-mongodb26 and rh-java-common components.
DevAssistant 0.9.3 devassist09 A release of DevAssistant, a tool designed to assist developers with creating and setting up basic projects in various programming languages, installing dependencies, setting up a development environment, and working with source control. DevAssistant supports the C, C++, Java, and Python programming languages but it is able to support working with any other language, framework, or tool due to its modular architecture.
Maven 3.0.5 maven30 A release of Maven, a software project management and comprehension tool used primarily for Java projects. Based on the concept of a project object model (POM), Maven can manage a project's build, reporting, and documentation from a central piece of information.
Maven 3.3.9[a] rh-maven33 A release of Maven, a software project management and comprehension tool used primarily for Java projects. This version provides various enhancements, for example, improved core extension mechanism.
Passenger 4.0.50 rh-passenger40 A release of Phusion Passenger, a web and application server, designed to be fast, robust, and lightweight. It supports Ruby using the ruby193, ruby200, or rh-ruby22 Software Collections together with Ruby on Rails using the ror40 or rh-ror41 Collections. It can also be used with nginx 1.6 from the nginx16 Software Collection and with Apache httpd from the httpd24 Software Collection.
Common Java Packages 1.1 rh-java-common This Software Collection provides common Java libraries and tools used by other collections. The rh-java-common Software Collection is required by the devtoolset-4, devtoolset-3, rh-maven33, maven30, rh-mongodb32, rh-mongodb26, and thermostat1 components and it is not supposed to be installed directly by users.
V8 3.14.5.10 v8314 This Software Collection provides the V8 JavaScript engine and is supported only as a dependency for the mongodb24, rh-mongodb26, rh-mongodb30upg, ruby193, ror40, rh-ror41, and nodejs010 Software Collections.
[a] This Software Collection is available only for Red Hat Enterprise Linux 7
Previously released Software Collections remain available in the same distribution channels. For example, the git19 Software Collection, which provides Git 1.9.4, has not been updated since Red Hat Software Collections 1.2 but still can be installed along with the Red Hat Software Collections 2.2 components or other previously released components.
All currently available Software Collections are listed in the Table 1.2, “All Available Software Collections”. For detailed information regarding components that have not been updated since Red Hat Software Collections 1, refer to the Red Hat Software Collections 1.2 Release Notes. See the Red Hat Software Collections Product Life Cycle document for information on the length of support for individual components.

Table 1.2. All Available Software Collections

Component Software Collection Availability
Components New in Red Hat Software Collections 2.2
MariaDB 10.1.14rh-mariadb101RHEL6, RHEL7
Maven 3.3.9rh-maven33RHEL7
MongoDB 3.0.11 upgrade collection rh-mongodb30upgRHEL7
MongoDB 3.2.6rh-mongodb32RHEL7
Node.js 4.4.2rh-nodejs4RHEL6, RHEL7
PostgreSQL 9.5.2rh-postgresql95RHEL6, RHEL7
Python 3.5.1rh-python35RHEL7
Ruby on Rails 4.2.6rh-ror42RHEL7
Ruby 2.3.0rh-ruby23RHEL7
Components Updated in Red Hat Software Collections 2.2
Red Hat Developer Toolset 4.1devtoolset-4RHEL6, RHEL7
Apache httpd 2.4.18httpd24RHEL6, RHEL7
Python 2.7.8python27RHEL6, RHEL7
Common Java Packages 1.1rh-java-commonRHEL6, RHEL7
MongoDB 2.6.9rh-mongodb26RHEL6, RHEL7
Thermostat 1.4.4thermostat1RHEL6, RHEL7
Components Not Updated since Red Hat Software Collections 2.1
Varnish Cache 4.0.3rh-varnish4RHEL6, RHEL7
nginx 1.8.0rh-nginx18RHEL6, RHEL7
Node.js 0.10nodejs010RHEL6, RHEL7
Maven 3.0.5maven30RHEL6, RHEL7
V8 3.14.5.10v8314RHEL6, RHEL7
Components Not Updated since Red Hat Software Collections 2.0
Perl 5.20.1rh-perl520RHEL6, RHEL7
PHP 5.6.5rh-php56RHEL6, RHEL7
Python 3.4.2rh-python34RHEL6, RHEL7
Ruby 2.2.2rh-ruby22RHEL6, RHEL7
Ruby on Rails 4.1.5rh-ror41RHEL6, RHEL7
MariaDB 10.0.25rh-mariadb100RHEL6, RHEL7
MySQL 5.6.30rh-mysql56RHEL6, RHEL7
PostgreSQL 9.4.6rh-postgresql94RHEL6, RHEL7
Passenger 4.0.50rh-passenger40RHEL6, RHEL7
PHP 5.4.40php54RHEL6, RHEL7
PHP 5.5.21php55RHEL6, RHEL7
nginx 1.6.2nginx16RHEL6, RHEL7
DevAssistant 0.9.3devassist09RHEL6, RHEL7
Components Not Updated since Red Hat Software Collections 1
Git 1.9.4git19RHEL6, RHEL7
Perl 5.16.3perl516RHEL6, RHEL7
Python 3.3.2python33RHEL6, RHEL7
Ruby 1.9.3ruby193RHEL6, RHEL7
Ruby 2.0.0ruby200RHEL6, RHEL7
Ruby on Rails 4.0.2ror40RHEL6, RHEL7
MariaDB 5.5.44mariadb55RHEL6, RHEL7
MongoDB 2.4.9mongodb24RHEL6, RHEL7
MySQL 5.5.45mysql55RHEL6, RHEL7
PostgreSQL 9.2.15postgresql92RHEL6, RHEL7
RHEL6 — Red Hat Enterprise Linux 6
RHEL7 — Red Hat Enterprise Linux 7
The tables above list the latest versions available through asynchronous updates.
Note that Software Collections released in Red Hat Software Collections 2.0 and later include a rh- prefix in their names.

1.3. Changes in Red Hat Software Collections 2.2

1.3.1. Overview

New Software Collections

Red Hat Software Collections 2.2 adds these new Software Collections:
Additionally, Red Hat Software Collections 2.2 includes the following new packages, which are not Software Collections but dependencies of other components:
  • gperftools — Performance Tools is a collection of performance analysis tools, including a high-performance multi-threaded malloc() implementation that works particularly well with threads and Standard Template Library (STL), a thread-friendly heap-checker, a heap profiler, and a cpu-profiler. This is a metapackage which pulls in all of the gperftools (and pprof) binaries, libraries, and development headers. Note that this package is a dependency of the rh-mongodb32 and rh-mongodb30upg Software Collections, and it is available in the Optional channel.
  • libunwind — The libunwind packages contain a C API to determine the call chain of a program. This API is necessary for compatibility with Performance Tools (gperftools). This package is a dependency of the rh-mongodb32 and rh-mongodb30upg Software Collections, and it is available in the Optional channel.

Updated Software Collections

The following components have been updated in Red Hat Software Collections 2.2:

Red Hat Software Collections Container Images

Container images based on Red Hat Software Collections 2.2 are now available, in addition to the previously released Red Hat Software Collections 2.0 container images.
The available container images include applications, daemons, and databases. The images can be run on Red Hat Enterprise Linux 7 Server and Red Hat Enterprise Linux Atomic Host. For information about their usage, see the Knowledgebase article at https://access.redhat.com/articles/1752723. For details about images based on the Red Hat Developer Toolset components, refer to the Red Hat Developer Toolset User Guide.
The following container images are new in Red Hat Software Collections 2.2:
  • rhscl/devtoolset-4-perftools-rhel7
  • rhscl/mariadb-101-rhel7
  • rhscl/mongodb-32-rhel7
  • rhscl/nginx-18-rhel7
  • rhscl/nodejs-4-rhel7
  • rhscl/postgresql-95-rhel7
  • rhscl/python-35-rhel7
  • rhscl/ror-42-rhel7
  • rhscl/ruby-23-rhel7
  • rhscl/thermostat-1-agent-rhel7
  • rhscl/varnish-4-rhel7
The following container images have been updated in Red Hat Software Collections 2.2:
  • rhscl/devtoolset-4-toolchain-rhel7
  • rhscl/httpd-24-rhel7
  • rhscl/python-27-rhel7
The following container images are based on Red Hat Software Collections 2.0:
  • rhscl/mariadb-100-rhel7
  • rhscl/mongodb-26-rhel7
  • rhscl/mysql-56-rhel7
  • rhscl/nginx-16-rhel7
  • rhscl/passenger-40-rhel7
  • rhscl/perl-520-rhel7
  • rhscl/php-56-rhel7
  • rhscl/postgresql-94-rhel7
  • rhscl/python-34-rhel7
  • rhscl/ror-41-rhel7
  • rhscl/ruby-22-rhel7
  • rhscl/s2i-base-rhel7

1.3.2. Changes in Red Hat Developer Toolset

The following components have been upgraded in Red Hat Developer Toolset 4.1 compared to the previous release of Red Hat Software Collections:
  • Eclipse to version 4.5.2
  • GCC to version 5.3.1
  • binutils to version 2.25.1
  • elfutils to version 0.166
  • GDB to version 7.11
  • SystemTap to version 2.9
  • Valgrind to version 3.11.0
  • Dyninst to version 9.1.0
For detailed information on changes in Red Hat Developer Toolset 4.1, see Red Hat Developer Toolset User Guide.

1.3.3. Changes in Python

Python 2

The python27 Software Collection has been updated to a later version, which provides a number of bug fixes and enhancements over the previous version. Among others:
  • The python27-PyYAML package has been added, which contains a Python YAML module. PyYAML is a YAML parser and emitter for Python; it is applicable for a broad range of tasks from complex configuration files to object serialization and persistance.
  • Network security enhancements, described in the Python Enhancent Proposal 466, have been backported to the Python standard library. The security enhancements include, for example, new features in the ssl module, such as support for Server Name Indication (SNI) as well as support for new TLSv1.x protocols, new hash algorithms in the hashlib module, and much more.
  • The cert-verification.cfg has been added. It contains new options that allow users to globally enable or disable SSL/TLS certificate verification in the HTTP clients (such as urllib, httplib, or xmlrpclib) of the Python standard library. The options are described in the Python Enhancement Proposal 493.
  • The python27-python-pip package has been upgraded to version 7.1.0.
  • The python27-python-virtualenv package has been upgraded to verion 13.1.0.
  • The python27-python-pymongo package has been upgraded to version 3.2.1.

Python 3

The new rh-python35 Software Collection, available for Red Hat Enterprise Linux 7, includes Python 3.5.1. This version provides a number of security fixes, bug fixes, and enhancements. Among others:
  • Security improvements
    • SSLv3 is now disabled throughout the standard library
    • HTTP cookie parsing is now stricter, to protect against potential injection attacks
  • New syntax features
    • The Python Enhancement Proposal 492 has been implemented, which greatly improves support for asynchronous programming in Python by adding awaitable objects, coroutine functions, asynchronous iteration, and asynchronous context managers
    • A new @ infix operator has been added for matrix multiplication. Matrix multiplication is a notably common operation in many fields of mathematics, science, engineering, and the addition of @ allows writing cleaner code with specialized libraries like numpy. This new operator is described in the Python Enhancement Proposal 465
  • CPython implementation improvements
    • The .pyo files are no longer used and have been replaced by a more flexible scheme that includes the optimization level explicitly in the .pyc file names; see the Python Enhancement Proposal 488 for details.
For detailed changes, see the Python 3.5.1 documentation and Python 3.5 release highlights.

1.3.4. Changes in Ruby

The new rh-ruby23 Software Collection, available for Red Hat Enterprise Linux 7, contains Ruby 2.3.0. This version provides several new features, including:
  • Safe navigation operator, also known as a lonely operator
  • Frozen String Literal Pragma
  • A new command-line option to freeze all string literals in the source files
  • A new magic comment
  • The did_you_mean gem shows the candidates on the NameError and NoMethodError exceptions to ease debugging. The did_you_mean gem is bundled.
For detailed changes, see the upstream documentation.
Ruby 2.3 is backward compatible with Ruby 2.2.2, Ruby 2.0.0, and Ruby 1.9.3. The ruby193, rh-ruby22, and ruby200 Software Collections are still available. For information about length of support for these components, refer to the Red Hat Software Collections Product Life Cycle document.
Note that the safe levels $SAFE=2 and $SAFE=3 are obsolete.

1.3.5. Changes in Ruby on Rails

Ruby on Rails 4.2.6, shipped in the new rh-ror42 Software Collection, provides the following major new features:
  • Active Job
  • Asynchronous mails
  • Adequate Record
  • Web Console
  • Foreign key support
  • GlobalID serialization
For detailed changes, see the upstream documentation.
The rh-ror42 Software Collection is supported together with the rh-ruby23 and rh-nodejs4 Collections and is available only for Red Hat Enterprise Linux 7.

1.3.6. Changes in MariaDB

The new rh-mariadb101 Software Collection includes MariaDB 10.1.14. It provides a number of bug fixes and new features, for example:
For detailed changes, refer to the upstream documentation.
For information on how to migrate to MariaDB 10.1, see Section 5.1, “Migrating to MariaDB 10.1”.

1.3.7. Changes in MongoDB

MongoDB 2.6

The rh-mongodb26 Software Collection contains the upgraded rh-mongodb26-mongo-java-driver package to the latest compatible version 2.14.1, which provides a number of bug fixes and includes support for functions from later versions of MongoDB.

MongoDB 3.0 Upgrade Collection

The new rh-mongodb30upg Collection contains a limited version of MongoDB 3.0.11 to provide an upgrade path from MongoDB 2.6 to MongoDB 3.2 for customers with existing MongoDB databases. This Software Collection includes neither MongoDB Java Driver nor MongoDB Tools and is available only for Red Hat Enterprise Linux 7.
See the Release Notes for MongoDB 3.0 for more details.

MongoDB 3.2

The new rh-mongodb32 Software Collection, available for Red Hat Enterprise Linux 7, includes MongoDB 3.2.6. It provides a number of bug fixes and new features, for example:
  • New storage engine WiredTiger, which is now default; it provides better performance and document-level locking and compression
  • Simplified data governance with document validation
  • Support for partial indexes
  • New JavaScript engine SpiderMonkey, which replaces V8
  • Increased number of replica set members
  • A new SCRAM-SHA-1 challenge-response user authentication mechanism.
Note that the mongo-java-driver package from the rh-mongodb32 Software Collection is incompatible with mongo-java-driver included in the previously released mongodb24 and rh-mongodb26 Collections. See details in the upstream documentation.
For detailed changes, refer to the Release Notes for MongoDB 3.2.
For information on how to migrate to MongoDB 3.2, see Section 5.2, “Migrating to MongoDB 3.2”.

1.3.8. Changes in PostgreSQL

The new rh-postgresql95 Software Collection includes PostgreSQL 9.5.2, which provides a number of enhancements. For example:
  • INSERT operations that would generate constraint conflicts are now allowed to be turned into UPDATE operations or ignored (UPSERT operations)
  • GROUP BY analysis features have been added: GROUPING SETS, CUBE, and ROLLUP
  • Row-level security control has been added
  • Mechanisms for tracking the progress of replication have been created, including methods for identifying the origin of individual changes during logical replication
  • Block Range Indexes (BRIN) have been added
  • Substantial performance improvements for sorting
  • Substantial performance improvements for multi-CPU machines
  • The rh-postgresql95-postgresql-static package includes the libpgport.a and libpgcommon.a libraries. These libraries are required by certain third-party packages to build, for example, by the pg_bulkload and pglogical packages.
For details, see the upstream documentation.
For information on how to migrate to PostgreSQL 9.5, see Section 5.4, “Migrating to PostgreSQL 9.5”.

1.3.9. Changes in Node.js

The new rh-nodejs4 Software Collection, includes Node.js 4.4.2. This version includes npm 2.15.1 and provides numerous security and bug fixes.
For details, see the upstream release notes and upstream documentation.
Note that the rh-nodejs4 Software Collection has been made available also for Red Hat Enterprise Linux 6 through an asynchronous update.

1.3.10. Changes in Apache httpd

The httpd24 Software Collection has been upgraded to version 2.4.18, which provides numerous bug fixes and enhancements. Notable changes are as follows:
Experimental support for the HTTP/2.0 protocol has been added, provided by the new mod_http2 module. HTTP/2 support can be enabled using the new Protocols directive. Upgrading to HTTP/2.0 over TLS is supported using the next protocol negotiation (NPN) TLS extension.
Version 7.47.1 of the curl command-line tool, with HTTP/2.0 support enabled, has been added to the Software Collection to facilitate testing.

1.3.11. Changes in Thermostat

The thermostat1 Software Collection has been upgraded to version 1.4.4, which provides numerous enhancements and bug fixes over the previous version.
  • New features:
    • A new first-run setup wizard to automatically set up credentials and related information
    • The number of threads is now always recorded
    • A new tree-map visualization for viewing the heap
    • Identification of which garbage collector is being used
    • Custom prompt for the Thermostat shell
    • Tab completion in the Thermostat shell
    • Progress display in the UI for long-running operations
    • Graphical representation for Thread deadlock
    • A new manual page for Thermostat
  • Bug fixes:
    • Various actions are now correctly disabled when the JVM they target is no longer alive
  • Security-related changes:
    • Remote Method Invocation (RMI) is no longer used in the agent
    • The command channel now runs as a separate process isolating network-facing code from everything else
  • Other improvements:
    • New helper classes in storage API for getting the oldest or newest POJOs
    • Efficiency improvements, such as implementation of fast-tail paths and querying less data when possible.
See the change log for details.

1.3.12. Changes in Maven

The new rh-maven33 Software Collection, available for Red Hat Enterprise Linux 7, includes Maven 3.3.9. This version provides numerous bug fixes and several new features. Among others:
  • Maven now requires JDK version 1.7 or later to run
  • The core extension mechanism has been improved; its usage is now simpler
  • New means of passing options to Maven and configuring JVM on per-project basis have been added
  • It is now possible to exclude all transitive dependencies using wildcards
  • Maven reactor is now pluggable.
For detailed changes, see the upstream release notes for versions 3.3.1, 3.2.1, and 3.1.1.

1.3.13. Changes in the Common Java Packages

The rh-java-common Software Collection has been updated and extended to comply with the changes in the dependent components.

1.4. Compatibility Information

Red Hat Software Collections 2.2 is available for all supported releases of Red Hat Enterprise Linux 7 on AMD64 and Intel 64 architectures. Certain components are available also for all supported releases of Red Hat Enterprise Linux 6 on AMD64 and Intel 64 architectures.
For a full list of available components, see Table 1.2, “All Available Software Collections”.

1.5. Known Issues

rh-nodejs4 component, BZ#1334856
Multiple packages from the rh-nodej4 Software Collection for Red Hat Enterprise Linux 7 are missing license information or contain incorrect license information.
python27 component, BZ#1330489
The python27-python-pymongo package has been updated to version 3.2.1 in Red Hat Software Collections 2.2. Note that this version is not fully compatible with the previously shipped version 2.5.2. For details, see https://api.mongodb.org/python/current/changelog.html.
httpd24 component, BZ#1327548
The mod_ssl module does not support the Application-Layer Protocol Negotiation (ALPN) protocol on Red Hat Enterprise Linux. Consequently, clients that support upgrading TLS connections to HTTP/2.0 only using ALPN are limited to HTTP/1.1 support. Clients that support the NPN protocol in addition to ALPN (such as Mozilla Firefox) are able to successfully upgrade to HTTP/2.0.
httpd24 component, BZ#1329639
On Red Hat Enterprise Linux 7, running the service httpd24-httpd configtest command fails with an error message. To work around this problem, run the following command: 
scl enable httpd24 'apachectl configtest'
rh-maven33 component
When the user has installed both the Red Hat Enterprise Linux system version of maven-local package and the rh-maven33-maven-local package, XMvn, a tool used for building Java RPM packages, run from the rh-maven33 Software Collection tries to read the configuration file from the base system and fails. To work around this problem, uninstall the maven-local package from the base Red Hat Enterprise Linux system.
rh-nodejs4 component, BZ#1316626
The /opt/rh/rh-nodejs4/root/usr/share/licenses/ directory is not owned by any package. Consequently, when the rh-nodejs4 collection is uninstalled, this directory is not removed. To work around this problem, remove the directory manually after uninstalling rh-nodejs4.
rh-mysql56, rh-mariadb100, rh-mariadb101 components, BZ#1194611
The rh-mysql56-mysql-server, rh-mariadb100-mariadb-server, and rh-mariadb101-mariadb-server packages no longer provide the test database by default. Although this database is not created during initialization, the grant tables are prefilled with the same values as when test was created by default. As a consequence, upon a later creation of the test or test_* databases, these databases have less restricted access rights than is default for new databases.
Additionally, when running benchmarks, the run-all-tests script no longer works out of the box with example parameters. You need to create a test database before running the tests and specify the database name in the --database parameter. If the parameter is not specified, test is taken by default but you need to make sure the test database exist.
httpd24 component, BZ#1224763
When using the mod_proxy_fcgi module with FastCGI Process Manager (PHP-FPM), httpd uses port 8000 for the FastCGI protocol by default instead of the correct port 9000. To work around this problem, specify the correct port explicitly in configuration.
rh-passenger40 component, BZ#1196555
When Passenger from the rh-passenger40 Software Collection is run as a module for httpd, the functionality is restricted by SELinux policy. To work around this problem, switch the passenger domain to permissive mode by running the following command as root: 
semanage permissive -a passenger_t
Standalone server and nginx integration are not affected by this issue.
mongodb24 component
The mongodb24 Software Collection from Red Hat Software Collections 1.2 cannot be rebuilt with the rh-java-common and maven30 Software Collections shipped with Red Hat Software Collections 2.2. Additionally, the mongodb24-build and mongodb24-scldevel packages cannot be installed with Red Hat Software Collections 2.2 due to unsatisfied requires on the maven30-javapackages-tools and maven30-maven-local packages. When the mongodb24-scldevel package is installed, broken dependencies are reported and the yum --skip-broken command skips too many packages. Users are advised to update to the rh-mongodb26 Software Collection.
perl component
When the user tries to use the mod_perl module from both the rh-perl520 and perl516 Software Collections, a conflict in the /opt/rh/httpd24/root/usr/lib64/httpd/modules/mod_perl.so file occurs. As a consequence, it is impossible to use mod_perl from more than one Perl Software Collection.
nodejs010 component
Shared libraries provided by the nodejs010 Software Collection, namely libcares, libhttp_parser, and libuv, are not properly prefixed with the Collection name. As a consequence, conflicts with the corresponding system libraries might occur.
nodejs-hawk component
The nodejs-hawk package uses an implementation of the SHA-1 and SHA-256 algorithms adopted from the CryptoJS project. In this release, the client-side JavaScript is obfuscated. The future fix will involve using crypto features directly from the CryptoJS library.
postgresql component
The postgresql92, rh-postgresql94, and rh-postgresql95 packages for Red Hat Enterprise Linux 6 do not provide the sepgsql module as this feature requires installation of libselinux version 2.0.99, which is not available in Red Hat Enterprise Linux 6.
httpd, mariadb, mongodb, mysql, nodejs, perl, php55, rh-php56, python, ruby, ror, thermostat, and v8314 components, BZ#1072319
When uninstalling the httpd24, mariadb55, rh-mariadb100, mongodb24, rh-mongodb26, mysql55, rh-mysql56, nodejs010, perl516, rh-perl520, php55, rh-php56, python27, python33, rh-python34, ruby193, ruby200, rh-ruby22, ror40, rh-ror41, thermostat1, or v8314 packages, the order of uninstalling can be relevant due to ownership of dependent packages. As a consequence, some directories and files might not be removed properly and might remain on the system.
mariadb, mysql, postgresql, mongodb components
Red Hat Software Collections 2.2 contains the MySQL 5.6, MariaDB 10.0, MariaDB 10.1, PostgreSQL 9.4, PostgreSQL 9.5, MongoDB 2.6, and MongoDB 3.2 databases. The core Red Hat Enterprise Linux 6 provides earlier versions of the MySQL and PostgreSQL databases (client library and daemon). The core Red Hat Enterprise Linux 7 provides earlier versions of the MariaDB and PostgreSQL databases (client library and daemon). Client libraries are also used in database connectors for dynamic languages, libraries, and so on.
The client library packaged in the Red Hat Software Collections database packages in the PostgreSQL component is not supposed to be used, as it is included only for purposes of server utilities and the daemon. Users are instead expected to use the system library and the database connectors provided with the core system.
A protocol, which is used between the client library and the daemon, is stable across database versions, so, for example, using the PostgreSQL 9.2 client library with the PostgreSQL 9.4 or 9.5 daemon works as expected.
The core Red Hat Enterprise Linux 6 and Red Hat Enterprise Linux 7 do not include the client library for MongoDB. In order to use this client library for your application, you should use the client library from Red Hat Software Collections and always use the scl enable ... call every time you run an application linked against this MongoDB client library.
mariadb, mysql, mongodb components
MariaDB, MySQL, and MongoDB do not make use of the /opt/provider/collection/root prefix when creating log files. Note that log files are saved in the /var/opt/provider/collection/log/ directory, not in /opt/provider/collection/root/var/log/.
httpd component
Compiling external applications against the Apache Portable Runtime (APR) and APR-util libraries from the httpd24 Software Collection is not supported. The LD_LIBRARY_PATH environment variable is not set in httpd24 because it is not required by any application in this Software Collection.
python27 component
In Red Hat Enterprise Linux 7, when the user tries to install the python27-python-debuginfo package, the /usr/src/debug/Python-2.7.5/Modules/socketmodule.c file conflicts with the corresponding file from the python-debuginfo package installed on the core system. Consequently, installation of the python27-python-debuginfo fails. To work around this problem, uninstall the python-debuginfo package and then install the python27-python-debuginfo package.
devassist component
When the user tries to rebuild the devassist09-PyYAML package on Red Hat Enterprise Linux 6, the build fails due to a soft dependency, if the Pyrex or Cython programming languages are detected. To work around this problem, make sure the pyrex or cython packages are not installed on your system.

Other Notes

rh-ruby22, rh-python34, rh-php56 components
Using Software Collections on a read-only NFS has several limitations.
  • Ruby gems cannot be installed while the rh-ruby22 Software Collection is on a read-only NFS. Consequently, for example, when the user tries to install the ab gem using the gem install ab command, the following error message is displayed: 
    ERROR:  While executing gem ... (Errno::EROFS)
    Read-only file system @ dir_s_mkdir - /opt/rh/rh-ruby22/root/usr/local/share/gems
    The same problem occurs when the user tries to update or install gems from an external source by running the bundle update or bundle install commands.
  • When installing Python packages on a read-only NFS using the Python Package Index (PyPI), running the pip command fails with an error message similar to this: 
    Read-only file system: '/opt/rh/rh-python34/root/usr/lib/python3.4/site-packages/ipython-3.1.0.dist-info'
  • Installing packages from PHP Extension and Application Repository (PEAR) on a read-only NFS using the pear command fails with the error message: 
    Cannot install, php_dir for channel "pear.php.net" is not writeable by the current user
This is an expected behavior.
thermostat component
The thermostat1-thermostat-tomcat start command, which starts the Thermostat web storage endpoint, can be used only on Red Hat Enterprise Linux 6 and Red Hat Enterprise Linux 7.0. On Red Hat Enterprise Linux 7.1 and later versions, use service tomcat@thermostat start instead.
httpd component
Language modules for Apache are supported only with the Red Hat Software Collections version of Apache httpd and not with the Red Hat Enterprise Linux system versions of httpd. For example, the mod_wsgi module from the rh-python34 Collection can be used only with the httpd24 Collection.
all components
Since Red Hat Software Collections 2.0, configuration files, variable data, and runtime data of individual Collections are stored in different directories than in previous versions of Red Hat Software Collections.
coreutils, util-linux, screen components
Some utilities, for example, su, login, or screen, do not export environment settings in all cases, which can lead to unexpected results. It is therefore recommended to use sudo instead of su and set the env_keep environment variable in the /etc/sudoers file. Alternatively, you can run commands in a reverse order; for example: 
su -l postgres -c "scl enable rh-postgresql94 psql"
instead of 
scl enable rh-postgresql94 bash
su -l postgres -c psql
When using tools like screen or login, you can use the following command to preserve the environment settings: 
source /opt/rh/<collection_name>/enable
php54 component
Note that Alternative PHP Cache (APC) in Red Hat Software Collections is provided only for user data cache. For opcode cache, Zend OPcache is provided.
python component
When the user tries to install more than one scldevel package from the python27, python33, and rh-python34 Software Collections, a transaction check error message is returned. This is an expected behavior because the user can install only one set of the macro files provided by the packages (%scl_python, %scl_prefix_python).
php component
When the user tries to install more than one scldevel package from the php54, php55, and rh-php56 Software Collections, a transaction check error message is returned. This is an expected behavior because the user can install only one set of the macro files provided by the packages (%scl_php, %scl_prefix_php).
ruby component
When the user tries to install more than one scldevel package from the ruby193, ruby200, and rh-ruby22 Software Collections, a transaction check error message is returned. This is an expected behavior because the user can install only one set of the macro files provided by the packages (%scl_ruby, %scl_prefix_ruby).
perl component
When the user tries to install more than one scldevel package from the perl516 and rh-perl520 Software Collections, a transaction check error message is returned. This is an expected behavior because the user can install only one set of the macro files provided by the packages (%scl_perl, %scl_prefix_perl).
nginx component
When the user tries to install more than one scldevel package from the nginx16 and rh-nginx18 Software Collections, a transaction check error message is returned. This is an expected behavior because the user can install only one set of the macro files provided by the packages (%scl_nginx, %scl_prefix_nginx).
nodejs component
When installing the nodejs010 Software Collection, nodejs010 installs GCC in the base Red Hat Enterprise Linux system as a dependency, unless the gcc packages are already installed.

Chapter 2. Installation

This chapter describes in detail how to get access to the content set, install Red Hat Software Collections 2.2 on the system, and rebuild Red Hat Software Collections.

2.1. Getting Access to Red Hat Software Collections

The Red Hat Software Collections content set is available to customers with Red Hat Enterprise Linux 6 and Red Hat Enterprise Linux 7 subscriptions listed at https://access.redhat.com/solutions/472793. Depending on the subscription management service with which you registered your Red Hat Enterprise Linux system, you can either enable Red Hat Software Collections by using Red Hat Subscription Management, or by using RHN Classic. For detailed instructions on how to enable Red Hat Software Collections using RHN Classic or Red Hat Subscription Management, see the respective section below. For information on how to register your system with one of these subscription management services, see Using and Configuring Red Hat Subscription Manager.
Since Red Hat Software Collections 2.2, the Red Hat Software Collections and Red Hat Developer Toolset content is available also in the ISO format at https://access.redhat.com/downloads, specifically for Server and Workstation. Note that packages that require the Optional channel, which are listed in Section 2.1.3, “Packages from the Optional Channel”, cannot be installed from the ISO image.

2.1.1. Using Red Hat Subscription Management

If your system is registered with Red Hat Subscription Management, complete the following steps to attach the subscription that provides access to the repository for Red Hat Software Collections and enable the repository:
  1. Display a list of all subscriptions that are available for your system and determine the pool ID of a subscription that provides Red Hat Software Collections. To do so, type the following at a shell prompt as root: 
    subscription-manager list --available
    For each available subscription, this command displays its name, unique identifier, expiration date, and other details related to it. The pool ID is listed on a line beginning with Pool Id.
  2. Attach the appropriate subscription to your system by running the following command as root: 
    subscription-manager attach --pool=pool_id
    Replace pool_id with the pool ID you determined in the previous step. To verify the list of subscriptions your system has currently attached, type as root: 
    subscription-manager list --consumed
  3. Display the list of available Yum list repositories to retrieve repository metadata and determine the exact name of the Red Hat Software Collections repositories. As root, type: 
    subscription-manager repos --list
    Or alternatively, run yum repolist all for a brief list.
    The repository names depend on the specific version of Red Hat Enterprise Linux you are using and are in the following format: 
    rhel-variant-rhscl-6-rpms
rhel-variant-rhscl-6-debug-rpms
rhel-variant-rhscl-6-source-rpms

rhel-server-rhscl-6-eus-rpms
rhel-server-rhscl-6-eus-source-rpms
rhel-server-rhscl-6-eus-debug-rpms

rhel-variant-rhscl-7-rpms
rhel-variant-rhscl-7-debug-rpms
rhel-variant-rhscl-7-source-rpms

rhel-server-rhscl-7-eus-rpms
rhel-server-rhscl-7-eus-source-rpms
rhel-server-rhscl-7-eus-debug-rpms
    Replace variant with the Red Hat Enterprise Linux system variant, that is, server or workstation. Note that Red Hat Software Collections is supported neither on the Client nor on the ComputeNode variant.
  4. Enable the appropriate repository by running the following command as root: 
    subscription-manager repos --enable repository
Once the subscription is attached to the system, you can install Red Hat Software Collections as described in Section 2.2, “Installing Red Hat Software Collections”. For more information on how to register your system using Red Hat Subscription Management and associate it with subscriptions, see Using and Configuring Red Hat Subscription Manager.

2.1.2. Using RHN Classic

If your system is registered with RHN Classic, complete the following steps to subscribe to Red Hat Software Collections:
  1. Display a list of all channels that are available to you and determine the exact name of the Red Hat Software Collections channel. To do so, type the following at a shell prompt as root: 
    rhn-channel --available-channels
    The name of the channel depends on the specific version of Red Hat Enterprise Linux you are using and is in the following format, where variant is the Red Hat Enterprise Linux system variant (server or workstation): 
    rhel-x86_64-variant-6-rhscl-1

rhel-x86_64-server-6.5.z-rhscl-1
rhel-x86_64-server-6.6.z-rhscl-1

rhel-x86_64-variant-7-rhscl-1

rhel-x86_64-server-7.1.eus-rhscl-1
    Red Hat Enterprise Linux 7 channels are accessible only through Red Hat Satellite instances.

    Note

    Red Hat Software Collections 2.x are distributed in the same channels as Red Hat Software Collections 1.x.
  2. Subscribe the system to the Red Hat Software Collections channel by running the following command as root: 
    rhn-channel --add --channel=channel_name
    Replace channel_name with the name you determined in the previous step.
  3. Verify the list of channels you are subscribed to. As root, type: 
    rhn-channel --list
When the system is subscribed, you can install Red Hat Software Collections as described in Section 2.2, “Installing Red Hat Software Collections”. For more information on how to register your system with RHN Classic, see Using and Configuring Red Hat Subscription Manager.

2.1.3. Packages from the Optional Channel

Some of the Red Hat Software Collections 2.2 packages require the Optional channel to be enabled in order to complete the full installation of these packages. For detailed instructions on how to subscribe your system to this channel, see the relevant Knowledgebase articles on Red Hat Customer Portal: https://access.redhat.com/solutions/392003 for Red Hat Subscription Management or https://access.redhat.com/solutions/70019 if your system is registered with RHN Classic.
Packages from Software Collections for Red Hat Enterprise Linux 6 that require the Optional channel to be enabled are listed in the following table.

Table 2.1. Packages Requiring Enabling of the Optional Channel in Red Hat Enterprise Linux 6

Package from a Software CollectionRequired Package from the Optional Channel
devtoolset-4-dyninst-testsuiteglibc-static
devtoolset-4-elfutils-develxz-devel
devtoolset-4-gcc-plugin-develmpfr
devtoolset-4-libgccjitmpfr
git19-git-allcvsps, subversion-perl
git19-git-cvscvsps
git19-git-svnperl-YAML, subversion-perl
git19-perl-Git-SVNperl-YAML, subversion-perl
mariadb55-mariadb-benchperl-GD
mysql55-mysql-benchperl-GD
php54-php-imaplibc-client
php54-php-recoderecode
php55-php-imaplibc-client
php55-php-recoderecode
rh-mariadb100-mariadb-benchperl-GD
rh-mariadb101-boost-devellibicu-devel
rh-mariadb101-boost-exampleslibicu-devel
rh-mariadb101-boost-staticlibicu-devel
rh-mariadb101-mariadb-benchperl-GD
rh-mysql56-mysql-benchperl-GD
rh-php56-php-imaplibc-client
rh-php56-php-recoderecode
Software Collections packages that require the Optional channel in Red Hat Enterprise Linux 7 are listed in the table below.

Table 2.2. Packages Requiring Enabling of the Optional Channel in Red Hat Enterprise Linux 7

Package from a Software CollectionRequired Package from the Optional Channel
devtoolset-4-dyninst-testsuiteglibc-static
devtoolset-4-gcc-plugin-devellibmpc-devel
git19-git-allcvsps, subversion-perl
git19-git-cvscvsps
git19-git-svnsubversion-perl
git19-perl-Git-SVNsubversion-perl
httpd24-mod_ldapapr-util-ldap
nodejs010c-ares-devel
nodejs010-node-gypc-ares-devel
nodejs010-nodejs-columnifyc-ares-devel
nodejs010-nodejs-develc-ares-devel
nodejs010-nodejs-npmconfc-ares-devel
nodejs010-nodejs-wcwidthc-ares-devel
nodejs010-npmc-ares-devel
rh-mongodb30upggperftools, gperftools-devel, gperftools-libs, libunwind, pprof
rh-mongodb32gperftools, gperftools-devel, gperftools-libs, libunwind, pprof
rh-perl520-perl-Pod-Perldocgroff
Note that packages from the Optional channel are not supported. For details, see the Knowledgebase article https://access.redhat.com/articles/1150793.

2.2. Installing Red Hat Software Collections

Red Hat Software Collections is distributed as a collection of RPM packages that can be installed, updated, and uninstalled by using the standard package management tools included in Red Hat Enterprise Linux. Note that a valid subscription is required to install Red Hat Software Collections on your system. For detailed instructions on how to associate your system with an appropriate subscription and get access to Red Hat Software Collections, see Section 2.1, “Getting Access to Red Hat Software Collections”.
Use of Red Hat Software Collections 2.2 requires the removal of any earlier pre-release versions, including Beta releases. If you have installed any previous version of Red Hat Software Collections 2.2, uninstall it from your system and install the new version as described in the Section 2.3, “Uninstalling Red Hat Software Collections” and Section 2.2.1, “Installing Individual Software Collections” sections.
The in-place upgrade from Red Hat Enterprise Linux 6 to Red Hat Enterprise Linux 7 is not supported by Red Hat Software Collections. As a consequence, the installed Software Collections might not work correctly after the upgrade. If you want to upgrade from Red Hat Enterprise Linux 6 to Red Hat Enterprise Linux 7, it is strongly recommended to remove all Red Hat Software Collections packages, perform the in-place upgrade, update the Red Hat Software Collections repository, and install the Software Collections packages again. It is advisable to back up all data before upgrading.

2.2.1. Installing Individual Software Collections

To install any of the Software Collections that are listed in Table 1.1, “Red Hat Software Collections 2.2 Components”, install the corresponding meta package by typing the following at a shell prompt as root: 
yum install software_collection...
Replace software_collection with a space-separated list of Software Collections you want to install. For example, to install php54 and rh-mariadb100, type as root: 
~]# yum install php54 rh-mariadb100
This installs the main meta package for the selected Software Collection and a set of required packages as its dependencies. For information on how to install additional packages such as additional modules, see Section 2.2.2, “Installing Optional Packages”.

2.2.2. Installing Optional Packages

Each component of Red Hat Software Collections is distributed with a number of optional packages that are not installed by default. To list all packages that are part of a certain Software Collection but are not installed on your system, type the following at a shell prompt: 
yum list available software_collection-\*
To install any of these optional packages, type as root: 
yum install package_name...
Replace package_name with a space-separated list of packages that you want to install. For example, to install the rh-perl520-perl-CPAN and rh-perl520-perl-Archive-Tar, type: 
~]# yum install rh-perl520-perl-CPAN rh-perl520-perl-Archive-Tar

2.2.3. Installing Debugging Information

To install debugging information for any of the Red Hat Software Collections packages, make sure that the yum-utils package is installed and type the following command as root: 
debuginfo-install package_name
For example, to install debugging information for the rh-ruby22-ruby package, type: 
~]# debuginfo-install rh-ruby22-ruby
Note that in order to use this command, you need to have access to the repository with these packages. If your system is registered with Red Hat Subscription Management, enable the rhel-variant-rhscl-6-debug-rpms or rhel-variant-rhscl-7-debug-rpms repository as described in Section 2.1.1, “Using Red Hat Subscription Management”. If your system is registered with RHN Classic, subscribe the system to the rhel-x86_64-variant-6-rhscl-1-debuginfo or rhel-x86_64-variant-7-rhscl-1-debuginfo channel as described in Section 2.1.2, “Using RHN Classic”. For more information on how to get access to debuginfo packages, see https://access.redhat.com/solutions/9907.

2.3. Uninstalling Red Hat Software Collections

To uninstall any of the Software Collections components, type the following at a shell prompt as root: 
yum remove software_collection\*
Replace software_collection with the Software Collection component you want to uninstall.
Note that uninstallation of the packages provided by Red Hat Software Collections does not affect the Red Hat Enterprise Linux system versions of these tools.

2.4. Rebuilding Red Hat Software Collections

<collection>-build packages are not provided by default. If you wish to rebuild a collection and do not want or cannot use the rpmbuild --define 'scl foo' command, you first need to rebuild the metapackage, which provides the <collection>-build package.
Note that existing collections should not be rebuilt with different content. To add new packages into an existing collection, you need to create a new collection containing the new packages and make it dependent on packages from the original collection. The original collection has to be used without changes.
For detailed information on building Software Collections, refer to the Red Hat Software Collections Packaging Guide.

Chapter 3. Usage

This chapter describes the necessary steps for rebuilding and using Red Hat Software Collections 2.2, and deploying applications that use Red Hat Software Collections.

3.1. Using Red Hat Software Collections

3.1.1. Running an Executable from a Software Collection

To run an executable from a particular Software Collection, type the following command at a shell prompt: 
scl enable software_collection... 'command...'
Or, alternatively, use the following command: 
scl enable software_collection... -- command...
Replace software_collection with a space-separated list of Software Collections you want to use and command with the command you want to run. For example, to execute a Perl program stored in a file named hello.pl with the Perl interpreter from the perl516 Software Collection, type: 
~]$ scl enable perl516 'perl hello.pl'
Hello, World!
You can execute any command using the scl utility, causing it to be run with the executables from a selected Software Collection in preference to their possible Red Hat Enterprise Linux system equivalents. For a complete list of Software Collections that are distributed with Red Hat Software Collections, see Table 1.1, “Red Hat Software Collections 2.2 Components”.

3.1.2. Running a Shell Session with a Software Collection as Default

To start a new shell session with executables from a selected Software Collection in preference to their Red Hat Enterprise Linux equivalents, type the following at a shell prompt: 
scl enable software_collection... bash
Replace software_collection with a space-separated list of Software Collections you want to use. For example, to start a new shell session with the python27 and postgresql92 Software Collections as default, type: 
~]$ scl enable python27 postgresql92 bash
The list of Software Collections that are enabled in the current session is stored in the $X_SCLS environment variable, for instance: 
~]$ echo $X_SCLS
python27 postgresql92
For a complete list of Software Collections that are distributed with Red Hat Software Collections, see Table 1.1, “Red Hat Software Collections 2.2 Components”.

3.1.3. Running a System Service from a Software Collection

Software Collections that include system services install corresponding init scripts in the /etc/rc.d/init.d/ directory. To start such a service in the current session, type the following at a shell prompt as root: 
service software_collection-service_name start
Replace software_collection with the name of the Software Collection and service_name with the name of the service you want to start. To configure this service to start automatically at boot time, type the following command as root: 
chkconfig software_collection-service_name on
For example, to start the postgresql service from the postgresql92 Software Collection and enable it in runlevels 2, 3, 4, and 5, type as root: 
~]# service postgresql92-postgresql start
Starting postgresql92-postgresql service:                  [  OK  ]
~]# chkconfig postgresql92-postgresql on
For more information on how to manage system services in Red Hat Enterprise Linux 6, refer to the Red Hat Enterprise Linux 6 Deployment Guide. For a complete list of Software Collections that are distributed with Red Hat Software Collections, see Table 1.1, “Red Hat Software Collections 2.2 Components”.

3.2. Accessing a Manual Page from a Software Collection

Every Software Collection contains a general manual page that describes the content of this component. Each manual page has the same name as the component and it is located in the/opt/rh directory.
To read a manual page for a Software Collection, type the following command: 
scl enable software_collection 'man software_collection'
Replace software_collection with the particular Red Hat Software Collections component. For example, to display the manual page for mariadb55, type: 
~]$ scl enable mariadb55 "man mariadb55"

3.3. Deploying Applications That Use Red Hat Software Collections

In general, you can use one of the following two approaches to deploy an application that depends on a component from Red Hat Software Collections in production:
  • Install all required Software Collections and packages manually and then deploy your application, or
  • Create a new Software Collection for your application and specify all required Software Collections and other packages as dependencies.
For more information on how to manually install individual Red Hat Software Collections components, see Section 2.2, “Installing Red Hat Software Collections”. For further details on how to use Red Hat Software Collections, see Section 3.1, “Using Red Hat Software Collections”. For a detailed explanation of how to create a custom Software Collection or extend an existing one, read the Red Hat Software Collections Packaging Guide.

3.4. Dockerfiles for Red Hat Software Collections

Red Hat Software Collections is shipped with Dockerfiles for the following Software Collections:
  • httpd24
  • mariadb55
  • mongodb24
  • mysql55
  • nginx16
  • nodejs010
  • perl516
  • php54
  • php55
  • postgresql92
  • python27
  • python33
  • rh-mariadb100
  • rh-mongodb26
  • rh-mysql56
  • rh-passenger40
  • rh-perl520
  • rh-php56
  • rh-postgresql94
  • rh-python34
  • rh-ror41
  • rh-ruby22
  • ror40
  • ruby193
  • ruby200
The Dockerfiles are included in the rhscl-dockerfiles package distributed with Red Hat Software Collections. Dockerfiles are text files that define how a Docker image is created. Note that the rhscl-dockerfiles package has not been updated since Red Hat Software Collections 2.0.

Note

The docker package, which contains the Docker daemon, command line tool, and other necessary components for building and using docker-formatted container images, is currently only available for the Server variant of the Red Hat Enterprise Linux 7 product. Red Hat Software Collections Dockerfiles are distributed for Red Hat Enterprise Linux 6 as well, but the images built using them can only be deployed on Red Hat Enterprise Linux 7 Server.
Each Dockerfile creates a minimal Docker image from Red Hat Enterprise Linux 6 or Red Hat Enterprise Linux 7 plus the Software Collection. Each Dockerfile will create an image which:
  • Installs the basic set of packages from each Software Collection,
  • Exposes some TCP ports; for example, port 80 and 443 for the httpd24 collection.
The Dockerfiles are provided as examples, using which customers can build more complex containers.
Dockerfiles are available also for previously released Software Collections. For detailed information about them, refer to the Red Hat Software Collections documentation and the Red Hat Software Collections Product Life Cycle document.

3.4.1. Installation and Usage

To install the rhscl-dockerfiles package, type the following command as root: 
yum install rhscl-dockerfiles
Use these Dockerfiles to create Docker images for the covered Software Collections.
For more information about building an image from a Dockerfile, see the Get Started with Docker Formatted Container Images chapter in the Getting Started with Containers documentation.

3.4.2. Deploying Software Collections Dependent on the Red Hat Software Collections Docker Images

You can use a Red Hat Software Collections Docker image as a base image and create your own containerized Software Collection on top of it as a separate image.
For more information about creating a new Docker image, see the Creating Docker Images section in the Getting Started with Containers documentation.

Chapter 4. Specifics of Individual Software Collections

This chapter is focused on the specifics of certain Software Collections and provides additional details concerning these components.

4.1. Red Hat Developer Toolset

Red Hat Developer Toolset is designed for developers working on the Red Hat Enterprise Linux platform. Red Hat Developer Toolset provides current versions of the GNU Compiler Collection, GNU Debugger, Eclipse development platform, and other development, debugging, and performance monitoring tools. Similarly to other Software Collections, an additional set of tools is installed into the /opt/ directory. These tools are enabled by the user on demand using the supplied scl utility. Similarly to other Software Collections, these do not replace the Red Hat Enterprise Linux system versions of these tools, nor will they be used in preference to those system versions unless explicitly invoked using the scl utility.
For an overview of features, refer to the Main Features section of the Red Hat Developer Toolset Release Notes.
For a complete list of components, see the Red Hat Developer Toolset Components table in the Red Hat Developer Toolset User Guide.
Note that since Red Hat Developer Toolset 3.1, Red Hat Developer Toolset requires the rh-java-common Software Collection.

4.2. Thermostat 1

The Thermostat Software Collection provides a monitoring and instrumentation tool for the OpenJDK HotSpot JVM, with support for monitoring multiple JVM instances. The system is made up of two components: an Agent, which collects data, and a Client, which allows users to visualize collected data. These components communicate via a storage layer: either directly via MongoDB or indirectly via a Web layer for increased security. A pluggable agent and GUI framework allows for collection and visualization of performance data beyond what is included out of the box.
To install the thermostat1 collection, type the following command as root: 
yum install thermostat1
Note that since Red Hat Software Collections 2.0, the thermostat1 Software Collection requires the rh-java-common Collection.
To enable the thermostat1 collection, type the following command at a shell prompt: 
scl enable thermostat1 bash
For more information, refer to the Thermostat User Guide. In order to deploy Thermostat securely, see the Configuration and Administration Guide.

4.3. Ruby on Rails 4.2

Red Hat Software Collections 2.2 adds the rh-ruby23 Software Collection together with the rh-ror42 Collection.
To install Ruby on Rails 4.2, type the following command as root: 
yum install rh-ror42
Installing any package from the rh-ror42 Software Collection automatically pulls in rh-ruby23 and rh-nodejs4 as dependencies.
The rh-nodejs4 Collection is used by certain gems in an asset pipeline to post-process web resources, for example, sass or coffee-script source files. To run the rails s command without requiring rh-nodejs4, disable the coffee-rails and uglifier gems in the Gemfile.
The Ruby on Rails Collection can be enabled by the following command, which will automatically enable rh-ruby23: 
scl enable rh-ror42 bash
These two Collections are supported together and available only for Red Hat Enterprise Linux 7. On Red Hat Enterprise Linux 6, use the rh-ruby22 and rh-ror41 Software Collections.

4.4. MongoDB 3.2

To install the rh-mongodb32 collection, which is available for Red Hat Enterprise Linux 7, type the following command as root: 
yum install rh-mongodb32
Note that the rh-mongodb32 Software Collection requires the rh-java-common Collection.
To run the MongoDB shell utility, type the following command: 
scl enable rh-mongodb32 'mongo'
To start the MongoDB daemon, type the following command as root: 
systemctl start rh-mongodb32-mongod.service
To start the MongoDB daemon on boot, type this command as root: 
systemctl enable rh-mongodb32-mongod.service
To start the MongoDB sharding server, type the following command as root: 
systemctl start rh-mongodb32-mongos.service
To start the MongoDB sharding server on boot, type this command as root: 
systemctl enable rh-mongodb32-mongos.service
Note that the MongoDB sharding server does not work unless the user starts at least one configuration server and specifies it in the mongos.conf file.

4.5. DevAssistant

DevAssistant is a tool designed to assist developers with creating and setting up basic projects in various programming languages, installing dependencies, setting up a development environment, and working with source control. The devassist09 Software Collection supports several programming languages, namely C, C++, Java, and Python. Additionally, DevAssistant is able to support working with any other language, framework, or tool due to its modular architecture.
DevAssistant is a framework that runs plug-ins called assistants. Each assistant can have several subassistants.

4.5.1. Getting Started with DevAssistant

To install the devassist09 Software Collection, type the following command as root: 
yum install devassist09
To enable this collection, type the following command at a shell prompt: 
scl enable devassist09 bash
To get help for DevAssistant, use the following command: 
devassistant --help
or the shorter variant of the same command: 
da -h
It is advisable to use the --help option on each level to list your possible next steps, until you reach the level of an executable subassistant (see Example 4.1, “Creating a New Python Library Project”).
To access the graphical user interface, type this command at a shell prompt: 
devassistant-gui
or the shortened variant: 
da-gui
Please note that the GUI is available only if you install the devassist09 Software Collection on Red Hat Enterprise Linux 7. The functionalities and procedures are the same as when using the command line interface.
Note that the devassistant and da commands are equal. Further in the text, we will use only the shorter variant, the da command.

4.5.2. Running Assistants

DevAssistant provides the following functionalities: create, modify, prepare, and task. To run an assistant, use the following command: 
da [--debug] {create,modify,prepare,task} [assistant [arguments]] ...
The four basic commands and descriptions related to these functionalities are listed in the following table:

Table 4.1. Functionalities of DevAssistant

Command Shortened Command Description
da create da crt Creating a new project from scratch
da modify da mod Working with an existing project
da prepare da prep Preparing a development environment for an upstream project
da task Performing a custom task not related to a specific project
The devassist09 Software Collection does not include any assistants for the modify, prepare, and task functionalities. These categories are available for users who want to create their own assistants.

4.5.3. Creating Projects with DevAssistant

The devassist09 Software Collection includes the following assistants for creating projects:

Table 4.2. Assistants for Creating Projects

Assistant Subassistant Description
c app An application in C
lib A dynamically linked library in C
cpp app An application in C++
lib A dynamically linked library in C++
java maven A simple project using Maven
python lib A simple library for Python
The following example demonstrates creating a new Python library project by following instructions displayed by the --help option.

Example 4.1. Creating a New Python Library Project

To create a new Python library project, complete the following steps:
  1. Enable the devassist09 Software Collection by running this command: 
    ~]$ scl enable devassist09 bash
  2. Display help about DevAssistant by using the --help option: 
    ~]$ da --help
You can either run assistants with:
da [--debug] {create,modify,prepare,task} [ASSISTANT [ARGUMENTS]] ...

Where:
create   used for creating new projects
modify   used for working with existing projects
prepare  used for preparing environment for upstream projects
task     used for performing custom tasks not related to a specific project
You can shorten "create" to "crt", "modify" to "mod" and "prepare" to "prep".

Or you can run a custom action:
da [--debug] [ACTION] [ARGUMENTS]

Available actions:
help     Print detailed help
version  Print version
  3. List the possible next steps for creating a project by typing: 
    ~]$ da create --help
usage:  create [-h] [--deps-only] {c,cpp,java,python} ...

Kickstart new projects easily with DevAssistant.

optional arguments:
  -h, --help           show this help message and exit
  --deps-only          Only install dependencies

subassistants:
  Following subassistants will help you with setting up your project.

  {c,cpp,java,python}
  4. Display help on the python assistant by typing at a shell prompt: 
    ~]$ da create python --help
usage: create python [-h] {lib} ...

This is a base Python assistant, you have to select a subassistant.

optional arguments:
  -h, --help  show this help message and exit

subassistants:
  Following subassistants will help you with setting up your project.

  {lib}
  5. List your choices for the only python subassistant, lib, by running this command: 
    ~]$ da create python lib --help
usage: create python lib [-h] [-e [ECLIPSE]] -n NAME

Scaffolds a simple Python library project.

optional arguments:
  -h, --help            show this help message and exit
  -e [ECLIPSE], --eclipse [ECLIPSE]
                        Configure as Eclipse project (uses ~/workspace or
                        specified directory)
  -n NAME, --name NAME  Name of project to create
  6. Run the assistant to create your new Python library project named mypythonlib by using the following command: 
    ~]$ da create python lib -n mypythonlib
To get more information about the upstream version of DevAssistant, refer to the DevAssistant User Documentation. Please note that though the basic concept of the upstream application is the same as in the devassist09 Software Collection, individual plug-ins and their functionalities might differ.

4.5.4. Backward Compatibility in DevAssistant

The updated version of DevAssistant can cause incompatibility in assistants that have not been provided by the devassist09-devassistant-assistants-dts package, that is, in your own assistants.
  • Since DevAssistant 0.9.3, the variable names in the assistant files are no longer derived from the argument flags but from the argument names. In the following example, the $foo variable is initialized instead of the $bar variable: 
    args:
   foo:
     ...
     flags: [-b, --bar]
     ...
  • Unknown attributes in the arguments section in the assistant file are no longer allowed. Since DevAssistant 0.9.3, an error message is returned in the following example because the unknown_attribute is not known to the parser: 
    args:
   foo:
     ...
     unknown_attribute: foo bar baz
     ...

4.6. Maven

The rh-maven33 Software Collection provides a software project management and comprehension tool. Based on the concept of a project object model (POM), Maven can manage a project's build, reporting, and documentation from a central piece of information.
To install the rh-maven33 Collection, type the following command as root: 
yum install rh-maven33
To enable this collection, type the following command at a shell prompt: 
scl enable rh-maven33 bash
Global Maven settings, such as remote repositories or mirrors, can be customized by editing the /opt/rh/rh-maven33/root/etc/maven/settings.xml file.
For more information about using Maven, refer to the Maven documentation. Usage of plug-ins is described in this section; to find documentation regarding individual plug-ins, see the index of plug-ins.

4.7. Passenger

The rh-passenger40 Software Collection provides Phusion Passenger, a web and application server designed to be fast, robust and lightweight.
The rh-passenger40 Collection supports multiple versions of Ruby, particularly the ruby193, ruby200, and rh-ruby22 Software Collections together with Ruby on Rails using the ror40 or rh-ror41 Collections. Prior to using Passenger with any of the Ruby Software Collections, install the corresponding package from the rh-passenger40 Collection: the rh-passenger-ruby193, rh-passenger-ruby200, or rh-passenger-ruby22 package.
The rh-passenger40 Software Collection can also be used with Apache httpd from the httpd24 Software Collection. To do so, install the rh-passenger40-mod_passenger package. Refer to the default configuration file /opt/rh/httpd24/root/etc/httpd/conf.d/passenger.conf for an example of Apache httpd configuration, which shows how to use multiple Ruby versions in a single Apache httpd instance.
Additionally, the rh-passenger40 Software Collection can be used with the nginx 1.6 web server from the nginx16 Software Collection. To use nginx 1.6 with rh-passenger40, you can run Passenger in Standalone mode using the following command in the web appplication's directory: 
scl enable nginx16 rh-passenger40 'passenger start'
Alternatively, edit the nginx16 configuration files as described in the upstream Passenger documentation.

Chapter 5. Migration

This chapter provides information on migrating to versions of components included in Red Hat Software Collections 2.2.

5.1. Migrating to MariaDB 10.1

Red Hat Enterprise Linux 6 contains MySQL 5.1 as the default MySQL implementation. Red Hat Enterprise Linux 7 includes MariaDB 5.5 as the default MySQL implementation. MariaDB is a community-developed drop-in replacement for MySQL. MariaDB 10.0 has been available as a Software Collection since Red Hat Software Collections 2.0; Red Hat Software Collections 2.2 is distributed with MariaDB 10.1.
The rh-mariadb101 Software Collection, available for both Red Hat Enterprise Linux 6 and Red Hat Enterprise Linux 7, does not conflict with the mysql or mariadb packages from the core systems, so it is possible to install the rh-mariadb101 Software Collection together with the mysql or mariadb packages. It is also possible to run both versions at the same time, however, the port number and the socket in the my.cnf files need to be changed to prevent these specific resources from conflicting. Additionally, it is possible to install the rh-mariadb101 Software Collection while the rh-mariadb100 Collection is still installed and even running.
Note that if you are using an MariaDB 5.5, it is necessary to upgrade to the rh-mariadb100 Software Collection first, which is described in the Red Hat Software Collections 2.0 Release Notes.
For more information about MariaDB 10.1, see the upstream documentation about changes in version 10.1 and about upgrading.

Note

The rh-mariadb101 Software Collection supports neither mounting over NFS nor dynamical registering using the scl register command.

5.1.1. Notable Differences Between the mariadb100 and rh-mariadb101 Software Collections

  • Galera Cluster, a synchronous multi-master cluster, which is a standard part of MariaDB 10.1. See the Knowledgebase article about setting up Galera Cluster with the rh-mariadb101 Software Collection.
  • Since MariaDB 10.1.7, the SQL_MODE variable is by default set to NO_ENGINE_SUBSTITUTION,NO_AUTO_CREATE_USER while in earlier versions of MariaDB no default was set. Consequently, the GRANT statement does not create a user by default. The setting of the SQL_MODE variable can be changed in the configuration file. See the upstream documentation for details.

5.1.2. Upgrading from the rh-mariadb100 to the rh-mariadb101 Software Collection

Important

Prior to upgrading, back up all your data, including any MariaDB databases.
  1. Install the rh-mariadb101 Software Collection. 
    yum install rh-mariadb101-mariadb-server
  2. Inspect the configuration of rh-mariadb101, which is stored in the /etc/opt/rh/rh-mariadb101/my.cnf file and the /etc/opt/rh/rh-mariadb101/my.cnf.d/ directory. Compare it with the configuration of rh-mariadb100 stored in /etc/opt/rh/rh-mariadb100/my.cnf and /etc/opt/rh/rh-mariadb100/my.cnf.d/ and adjust it if necessary.
  3. Stop the rh-mariadb100 database server, if it is still running. 
    service rh-mariadb100-mariadb stop
  4. All the data of the rh-mariadb100 Software Collection is stored in the /var/opt/rh/rh-mariadb100/lib/mysql/ directory. Copy the whole content of this directory to /var/opt/rh/rh-mariadb101/lib/mysql/. You can also move the content but remember to back up your data before you continue to upgrade.
  5. Start the rh-mariadb101 database server. 
    service rh-mariadb101-mariadb start
  6. Perform the data migration. 
    scl enable rh-mariadb101 mysql_upgrade
    If the root user has a non-empty password defined (it should have a password defined), it is necessary to call the mysql_upgrade utility with the -p option and specify the password. 
    scl enable rh-mariadb101 -- mysql_upgrade -p

5.2. Migrating to MongoDB 3.2

Red Hat Software Collections 2.2 is shipped with MongoDB 3.2, provided by the rh-mongodb32 Software Collection and available for Red Hat Enterprise Linux 7. Previously released MongoDB Software Collections, mongodb24 and rh-mongodb26 are available for both Red Hat Enterprise Linux 6 and Red Hat Enterprise Linux 7. See the Red Hat Software Collections 2.0 Release Notes if you need to upgrade to MongoDB 2.6.
Note that when migrating from the rh-mongodb26 to the rh-mongodb32 Software Collection, it is necessary to first upgrade to the 3.0-series release of MongoDB, which is provided by the rh-mongodb30upg Collection.

5.2.1. Notable Differences Between MongoDB 2.6 and MongoDB 3.2

General Changes

The rh-mongodb32 Software Collection introduces several general changes listed below.
  • MongoDB now ships configuration files in the YAML format
  • MongoDB server and tools are no longer shipped in a single package; MongoDB tools are packaged in rh-mongodb32-mongo-tools
  • Improved MongoDB testsuite provided by the rh-mongodb32-mongodb-test package. For more information about usage, install this package and read the /opt/rh/rh-mongodb32/root/usr/share/mongodb-test/README file.

Compatibility Changes

MongoDB 3.2 includes various minor changes that can affect compatibility with previous versions of MongoDB.

Compatibility Changes in MongoDB 3.0

  • Configuration file options changes due to inclusion of additional storage engines
  • Data files must correspond to the configured storage engine; if files in the dbPath directory were created by a storage engine other than the current one, an error is returned
  • Changes due to using the WiredTiger storage engine: oplog entries generated by versions of MongoDB earlier than 2.2.1 are overwritten
  • Replica set configuration validation
  • The w:majority semantics has been changed so that the w:majority value is satisfied when a majority of the voting members replicates a write operation
  • The local.slaves collection has been removed
  • The FATAL replica set state no longer exists
  • The mongodump, mongorestore, mongoexport, mongoimport, mongofiles, and mongooplog tools must connect to a running MongoDB instance
  • The MongoDB 2.4 user model has been removed
  • The localhost exception has been changed so that it allows to create only the first user on the admin database
  • The db.addUser() function has been removed; use db.createUser() and db.updateUser() instead
  • TLS/SSL changes
  • The mongo shell versions earlier than 3.0 are not compatible with 3.0 deployments of MongoDB
  • Index changes
  • Direct access to the system.indexes and system.namespaces collections has been deprecated
  • The following commands have been deprecated: closeAllDatabases, getoptime, text, indexStats, db.collection.getIndexStats(), and db.collection.indexStats()
  • The Date and Timestamp data types are no longer equivalent for comparison purposes
For details regarding compatibility changes in Mongodb 3.0, refer to the upstream release notes.

Compatibility Changes in MongoDB 3.2

  • The WiredTiger storage engine is now the default one
  • The JavaScript engine has been changed from V8 to SpiderMonkey
  • Creation of version 0 indexes is now disallowed
  • Aggregation compatibility changes
For detailed compatibility changes in MongoDB 3.2, see the upstream release notes.

5.2.2. Upgrading from the rh-mongodb26 to the rh-mongodb32 Software Collection

Note that once you have upgraded to MongoDB 3.2 and started using new features, you cannot downgrade to any earlier version.

Important

Before migrating from the rh-mongodb26 to the rh-mongodb32 Software Collection, back up all your data, including any MongoDB databases, which are by default stored in the /var/opt/rh/rh-mongodb26/lib/mongodb/ directory.
To upgrade to the rh-mongodb32 Software Collection, perform the following steps.
  1. Install the MongoDB servers and shells from the rh-mongodb30upg and rh-mongodb32 Software Collections: 
    ~]# yum install rh-mongodb30upg rh-mongodb30upg-mongodb rh-mongodb32 rh-mongodb32-mongodb
  2. Connect the mongo shell from the rh-mongodb26 Collection to your MongoDB 2.6 server (for example, running on localhost, port 27017). 
    ~]$ scl enable rh-mongodb26 'mongo --host localhost --port 27017 admin'
  3. In the mongo shell, check your data set for compatibility issues mentioned above and fix the ones that affect your application.
  4. Stop the MongoDB 2.6 server: 
    ~]# systemctl stop rh-mongodb26-mongod.service
  5. Copy your data to the new location: 
    ~]# cp -a /var/opt/rh/rh-mongodb26/lib/mongodb/* /var/opt/rh/rh-mongodb32/lib/mongodb
  6. Change the dbpath variable in the /etc/opt/rh/rh-mongodb30upg/mongod.conf file to /var/opt/rh/rh-mongodb32/lib/mongodb/.
  7. Start the MongoDB server from the rh-mongodb30upg Software Collection: 
    ~]# systemctl start rh-mongodb30upg-mongod.service
  8. Connect the mongo shell from the rh-mongodb32 Collection to your MongoDB 3.0 server (for example, running on localhost, port 27017). 
    ~]$ scl enable rh-mongodb30upg 'mongo --host localhost --port 27017 admin'
  9. In the mongo shell, check your data set for compatibility issues mentioned above and fix the ones that affect your application.
  10. Stop the MongoDB 3.0 server. 
    ~]# systemctl stop rh-mongodb30upg-mongod.service
  11. Configure the rh-mongodb32-mongod daemon in the /etc/opt/rh/rh-mongodb32/mongod.conf file.
  12. MongoDB 3.2 has the new default storage engine, WiredTiger, which introduces performance improvements. To be able to run the MongoDB server with old data, configure the rh-mongodb32-mongod daemon to use the old storage engine. Uncomment the engine property in the storage section in the /etc/opt/rh/rh-mongodb32/mongod.conf file and change its value to mmapv1.
  13. Start the MongoDB 3.2 server. 
    ~]# systemctl start rh-mongodb32-mongod.service
  14. If you want to use the WiredTiger storage engine, you have to perform additional migration steps described in the MongoDB documentation. 
    ~]# yum install rh-mongodb32-mongo-tools
~]$ scl enable rh-mongodb32 'mongodump --out ~/mongodb.dump'
~]# systemctl stop rh-mongodb32-mongod.service
~]# rm -rf /var/opt/rh/rh-mongodb32/lib/mongodb/*
    Change the engine property in the /etc/opt/rh/rh-mongodb32/mongod.conf to wiredTiger. 
    ~]# systemctl start rh-mongodb32-mongod.service
~]$ scl enable rh-mongodb32 'mongorestore ~/mongodb.dump'
For detailed information about upgrading, see the upstream MongoDB 3.0 and MongoDB 3.2 release notes.
For information about upgrading a Replica Set, see the upstream MongoDB Manual.
For information about upgrading a Sharded Cluster, see the upstream MongoDB Manual.

5.3. Migrating to MySQL 5.6

Red Hat Enterprise Linux 6 contains MySQL 5.1 as the default MySQL implementation. Red Hat Enterprise Linux 7 includes MariaDB 5.5 as the default MySQL implementation. In addition to these basic versions, MySQL 5.5 has been available as a Software Collection for Red Hat Enterprise Linux 6 since Red Hat Software Collections 1.0 and for Red Hat Enterprise Linux 7 since Red Hat Software Collections 1.1.
The rh-mysql56 Software Collection available for both Red Hat Enterprise Linux 6 and Red Hat Enterprise Linux 7 does not conflict with the mysql or mariadb packages from the core systems, so it is possible to install the rh-mysql56 Software Collection together with the mysql or mariadb packages. It is also possible to run both versions at the same time, however, the port number and the socket in the my.cnf files need to be changed to prevent these specific resources from conflicting.
Note that it is possible to upgrade to MySQL 5.6 only from MySQL 5.5. If you need to upgrade from an earlier version, upgrade to MySQL 5.5 first. Instructions how to upgrade to MySQL 5.5 are available in the Red Hat Software Collections 1.2 Release Notes.

5.3.1. Notable Differences Between MySQL 5.5 and MySQL 5.6

The rh-mysql56 Software Collection introduces the following notable changes:
  • The service has been renamed to rh-mysql56-mysqld in both Red Hat Enterprise Linux 6 and Red Hat Enterprise Linux 7
  • The test database is no longer created by default
  • Configuration files for the rh-mysql56 Software Collection are the /etc/opt/rh/rh-mysql56/my.cnf file and in the /etc/opt/rh/rh-mysql56/my.cnf.d/ directory
  • Variable files including the database files for the rh-mysql56 Software Collection are located in the /var/opt/rh/rh-mysql56/lib/ directory
  • The log file for the MySQL daemon is /var/opt/rh/rh-mysql56/log/mysql/mysqld.log
  • The pid file for the daemon is /var/run/rh-mysql56-mysqld/mysqld.pid
Note that the rh-mysql56 Software Collection supports neither mounting over NFS nor dynamical registering using the scl register command.
For detailed changes, refer to the MySQL documentation.

5.3.2. Upgrading to the rh-mysql56 Software Collection

Important

Prior to upgrading, back-up all your data, including any MySQL databases.
Upgrading can be performed either by using the mysqldump and mysqlimport utilities or using an in-place upgrade.
  • In the former scenario, the whole dump of all databases from one database is generated and mysql is run with the dump file as an input using the mysqlimport or LOAD DATA INFILE SQL command within the other database. At the same time, the appropriate daemons have to be running during both dumping and restoring. You can use the --all-databases option in the mysqldump call to include all databases in the dump. The --routines, --triggers, and --events options can also be used if needed.
  • During the in-place upgrade, the data files are copied from one database directory to another database directory. The daemons must not be running at the time of copying. Set appropriate permissions and SELinux context for the copied files.
After upgrading, start the server and run the mysql_upgrade command. Running mysql_upgrade is necessary to check and repair internal tables.
In case the root user has a non-empty password defined (it should have a password defined), it is necessary to call the mysql_upgrade utility with the -p option and specify the password.
Service names and paths bellow depend on which version you are upgrading from.

Example 5.1. Dump and Restore Upgrade

  1. Create a backup from the mysql55 Software Collection: 
    ~]# service mysql55-mysqld start
Starting mysql55-mysqld:                                   [  OK  ]
~]# scl enable mysql55 -- mysqldump --all-databases --routines --events > dump.sql
~]# service mysql55-mysqld stop
Stopping mysql55-mysqld:                                   [  OK  ]
    For upgrading from the mariadb55 Software Collection in Red Hat Enterprise Linux 6, use mariadb55-mysqld as the service name.
    For upgrading from the mariadb55 Software Collection in Red Hat Enterprise Linux 7, use mariadb55-mariadb as the service name.
    For upgrading from MariaDB 5.5 from base Red Hat Enterprise Linux 7, use mariadb as the service name and do not use scl enable mysql55 -- when creating the dump.
  2. Import the dumped database into the rh-mysql56 Software Collection: 
    ~]# service rh-mysql56-mysqld start
Starting rh-mysql56-mysqld:                                [  OK  ]
~]# scl enable rh-mysql56 'mysql' < dump.sql
~]# scl enable rh-mysql56 'mysql_upgrade -u root -p'
Enter password:
Looking for 'mysql' as: mysql
Looking for 'mysqlcheck' as: mysqlcheck
Running 'mysqlcheck with default connection arguments
Running 'mysqlcheck with default connection arguments
a.t1                                               OK
mysql.columns_priv                                 OK
<skipped tables list>
mysql.user                                         OK
Running 'mysql_fix_privilege_tables'...
OK

Example 5.2. In-place Upgrade from MySQL 5.5

If you are upgrading from the mysql55 Software Collection, perform the upgrade as shown in the following example: 
~]# service mysql55-mysqld stop
Stopping mysql55-mysqld                                    [  OK  ]
~]# service rh-mysql56-mysqld stop
Stopping rh-mysql56-mysqld:                                [  OK  ]
~]# rm -rf /var/opt/rh/rh-mysql56/lib/mysql/
~]# cp -r /opt/rh/mysql55/root/var/lib/mysql/ /var/opt/rh/rh-mysql56/lib/mysql/
~]# chown -R mysql:mysql /var/opt/rh/rh-mysql56/lib/mysql/
~]# restorecon -R /var/opt/rh/rh-mysql56/lib/mysql/
~]# service rh-mysql56-mysqld start
Starting rh-mysql56-mysqld:                                [  OK  ]
~]# scl enable rh-mysql56 'mysql_upgrade -u root -p'
Enter password:
Looking for 'mysql' as: mysql
Looking for 'mysqlcheck' as: mysqlcheck
Running 'mysqlcheck with default connection arguments
Running 'mysqlcheck with default connection arguments
a.t1                                               OK
mysql.columns_priv                                 OK
<skipped tables list>
mysql.user                                         OK
Running 'mysql_fix_privilege_tables'...
OK
For upgrading from the mariadb55 Software Collection, use the /opt/rh/mariadb55/root/var/lib/mysql/ as a source when copying the data.
For upgrading from MariaDB 5.5 from base Red Hat Enterprise Linux 7, use the /var/lib/mysql/ as a source when copying the data.
For more details about migration to MySQL 5.6, refer to the MySQL documentation.

5.4. Migrating to PostgreSQL 9.5

Red Hat Software Collections 2.2 is distributed with PostgreSQL 9.5, which can be safely installed on the same machine in parallel with PostgreSQL 8.4 from Red Hat Enterprise Linux 6, PostgreSQL 9.2 from Red Hat Enterprise Linux 7 or Red Hat Software Collections 1, or PostgreSQL 9.4 from Red Hat Software Collections 2. It is also possible to run more than one version of PostgreSQL on a machine at the same time, but you need to use different ports or IP addresses and adjust SELinux policy.

5.4.1. Notable Differences Between PostgreSQL 9.4 and PostgreSQL 9.5

The most notable changes between PostgreSQL 9.4 and PostgreSQL 9.5 are desribed in the upstream release notes for versions 9.5, 9.5.1, and 9.5.2.
The following table provides an overview of different paths in a Red Hat Enterprise Linux system version of PostgreSQL (postgresql) and in the postgresql92, rh-postgresql94, and rh-postgresql95 Software Collections. Note that the paths of PostgreSQL 8.4 distributed with Red Hat Enterprise Linux 6 and the system version of PostgreSQL 9.2 shipped with Red Hat Enterprise Linux 7 are the same.

Table 5.1. Diferences in the PostgreSQL paths

Contentpostgresqlpostgresql92rh-postgresql94rh-postgresql95
Executables/usr/bin//opt/rh/postgresql92/root/usr/bin//opt/rh/rh-postgresql94/root/usr/bin//opt/rh/rh-postgresql95/root/usr/bin/
Libraries/usr/lib64//opt/rh/postgresql92/root/usr/lib64//opt/rh/rh-postgresql94/root/usr/lib64//opt/rh/rh-postgresql95/root/usr/lib64/
Documentation/usr/share/doc/postgresql/html//opt/rh/postgresql92/root/usr/share/doc/postgresql/html//opt/rh/rh-postgresql94/root/usr/share/doc/postgresql/html//opt/rh/rh-postgresql95/root/usr/share/doc/postgresql/html/
PDF documentation/usr/share/doc/postgresql-docs//opt/rh/postgresql92/root/usr/share/doc/postgresql-docs//opt/rh/rh-postgresql94/root/usr/share/doc/postgresql-docs//opt/rh/rh-postgresql95/root/usr/share/doc/postgresql-docs/
Contrib documentation/usr/share/doc/postgresql-contrib//opt/rh/postgresql92/root/usr/share/doc/postgresql-contrib//opt/rh/rh-postgresql94/root/usr/share/doc/postgresql-contrib//opt/rh/rh-postgresql95/root/usr/share/doc/postgresql-contrib/
Sourcenot installednot installednot installednot installed
Data/var/lib/pgsql/data//opt/rh/postgresql92/root/var/lib/pgsql/data//var/opt/rh/rh-postgresql94/lib/pgsql/data//var/opt/rh/rh-postgresql95/lib/pgsql/data/
Backup area/var/lib/pgsql/backups//opt/rh/postgresql92/root/var/lib/pgsql/backups//var/opt/rh/rh-postgresql94/lib/pgsql/backups//var/opt/rh/rh-postgresql95/lib/pgsql/backups/
Templates/usr/share/pgsql//opt/rh/postgresql92/root/usr/share/pgsql//opt/rh/rh-postgresql94/root/usr/share/pgsql//opt/rh/rh-postgresql95/root/usr/share/pgsql/
Procedural Languages/usr/lib64/pgsql//opt/rh/postgresql92/root/usr/lib64/pgsql//opt/rh/rh-postgresql94/root/usr/lib64/pgsql//opt/rh/rh-postgresql95/root/usr/lib64/pgsql/
Development Headers/usr/include/pgsql//opt/rh/postgresql92/root/usr/include/pgsql//opt/rh/rh-postgresql94/root/usr/include/pgsql//opt/rh/rh-postgresql95/root/usr/include/pgsql/
Other shared data/usr/share/pgsql//opt/rh/postgresql92/root/usr/share/pgsql//opt/rh/rh-postgresql94/root/usr/share/pgsql//opt/rh/rh-postgresql95/root/usr/share/pgsql/
Regression tests/usr/lib64/pgsql/test/regress/ (in the -test package)/opt/rh/postgresql92/root/usr/lib64/pgsql/test/regress/ (in the -test package)/opt/rh/rh-postgresql94/root/usr/lib64/pgsql/test/regress/ (in the -test package)/opt/rh/rh-postgresql95/root/usr/lib64/pgsql/test/regress/ (in the -test package)
For detailed changes, see the upstream PostgreSQL 9.5 Release Notes. For changes between PostgreSQL 8.4 and PostgreSQL 9.2, refer to the Red Hat Software Collections 1.2 Release Notes. Notable changes between PostgreSQL 9.2 and PostgreSQL 9.4 are described in Red Hat Software Collections 2.0 Release Notes.

5.4.2. Migrating from a Red Hat Enterprise Linux System Version of PostgreSQL to the PostgreSQL 9.5 Software Collection

Red Hat Enterprise Linux 6 includes PostgreSQL 8.4, Red Hat Enterprise Linux 7 is distributed with PostgreSQL 9.2. To migrate your data from a Red Hat Enterprise Linux system version of PostgreSQL to the rh-postgresql95 Software Collection, you can either perform a fast upgrade using the pg_upgrade tool (recommended), or dump the database data into a text file with SQL commands and import it in the new database. Note that the second method is usually significantly slower and may require manual fixes; see the PostgreSQL documentation for more information about this upgrade method. The following procedures are applicable for both Red Hat Enterprise Linux 6 and Red Hat Enterprise Linux 7 system versions of PostgreSQL.

Important

Before migrating your data from a Red Hat Enterprise Linux system version of PostgreSQL to PostgreSQL 9.5, make sure that you back up all your data, including the PostgreSQL database files, which are by default located in the /var/lib/pgsql/data/ directory.

Procedure 5.1. Fast Upgrade Using the pg_upgrade Tool

To perform a fast upgrade of your PostgreSQL server, complete the following steps:
  1. Stop the old PostgreSQL server to ensure that the data is not in an inconsistent state. To do so, type the following at a shell prompt as root: 
    service postgresql stop
    To verify that the server is not running, type: 
    service postgresql status
  2. Verify that the old directory /var/lib/pgsql/data/ exists: 
    file /var/lib/pgsql/data/
    and back up your data.
  3. Verify that the new data directory /var/opt/rh/rh-postgresql95/lib/pgsql/data/ does not exist: 
    file /var/opt/rh/rh-postgresql95/lib/pgsql/data/
    If you are running a fresh installation of PostgreSQL 9.5, this directory should not be present in your system. If it is, back it up by running the following command as root: 
    mv /var/opt/rh/rh-postgresql95/lib/pgsql/data{,-scl-backup}
  4. Upgrade the database data for the new server by running the following command as root: 
    scl enable rh-postgresql95 -- postgresql-setup --upgrade
    Alternatively, you can use the /opt/rh/rh-postgresql95/root/usr/bin/postgresql-setup --upgrade command.
    Note that you can use the --upgrade-from option for upgrade from different versions of PostgreSQL. The list of possible upgrade scenarios is available using the --upgrade-ids option.
    It is recommended that you read the resulting /var/lib/pgsql/upgrade_rh-postgresql95-postgresql.log log file to find out if any problems occurred during the upgrade.
  5. Start the new server as root: 
    service rh-postgresql95-postgresql start
    It is also advised that you run the analyze_new_cluster.sh script as follows: 
    su - postgres -c 'scl enable rh-postgresql95 ~/analyze_new_cluster.sh'
  6. Optionally, you can configure the PostgreSQL 9.5 server to start automatically at boot time. To disable the old system PostgreSQL server, type the following command as root: 
    chkconfig postgresql off
    To enable the PostgreSQL 9.5 server, type as root: 
    chkconfig rh-postgresql95-postgresql on
  7. If your configuration differs from the default one, make sure to update configuration files, especially the /var/opt/rh/rh-postgresql95/lib/pgsql/data/pg_hba.conf configuration file. Otherwise only the postgres user will be allowed to access the database.

Procedure 5.2. Performing a Dump and Restore Upgrade

To perform a dump and restore upgrade of your PostgreSQL server, complete the following steps:
  1. Ensure that the old PostgreSQL server is running by typing the following at a shell prompt as root: 
    service postgresql start
  2. Dump all data in the PostgreSQL database into a script file. As root, type: 
    su - postgres -c 'pg_dumpall > ~/pgdump_file.sql'
  3. Stop the old server by running the following command as root: 
    service postgresql stop
  4. Initialize the data directory for the new server as root: 
    scl enable rh-postgresql95-postgresql -- postgresql-setup --initdb
  5. Start the new server as root: 
    service rh-postgresql95-postgresql start
  6. Import data from the previously created SQL file: 
    su - postgres -c 'scl enable rh-postgresql95 "psql -f ~/pgdump_file.sql postgres"'
  7. Optionally, you can configure the PostgreSQL 9.5 server to start automatically at boot time. To disable the old system PostgreSQL server, type the following command as root: 
    chkconfig postgresql off
    To enable the PostgreSQL 9.5 server, type as root: 
    chkconfig rh-postgresql95-postgresql on
  8. If your configuration differs from the default one, make sure to update configuration files, especially the /var/opt/rh/rh-postgresql95/lib/pgsql/data/pg_hba.conf configuration file. Otherwise only the postgres user will be allowed to access the database.

5.4.3. Migrating from the PostgreSQL 9.4 Software Collection to the PostgreSQL 9.5 Software Collection

To migrate your data from the rh-postgresql94 Software Collection to the rh-postgresql95 Collection included in Red Hat Software Collections 2.2, you can either perform a fast upgrade using the pg_upgrade tool (recommended), or dump the database data into a text file with SQL commands and import it in the new database. Note that the second method is usually significantly slower and may require manual fixes; see the PostgreSQL documentation for more information about this upgrade method.

Important

Before migrating your data from PostgreSQL 9.4 to PostgreSQL 9.5, make sure that you back up all your data, including the PostgreSQL database files, which are by default located in the /var/opt/rh/rh-postgresql94/lib/pgsql/data/ directory.

Procedure 5.3. Fast Upgrade Using the pg_upgrade Tool

To perform a fast upgrade of your PostgreSQL server, complete the following steps:
  1. Stop the old PostgreSQL server to ensure that the data is not in an inconsistent state. To do so, type the following at a shell prompt as root: 
    service rh-postgresql94-postgresql stop
    To verify that the server is not running, type: 
    service rh-postgresql94-postgresql status
  2. Verify that the old directory /var/opt/rh/rh-postgresql94/lib/pgsql/data/ exists: 
    file /var/opt/rh/rh-postgresql94/lib/pgsql/data/
    and back up your data.
  3. Verify that the new data directory /var/opt/rh/rh-postgresql95/lib/pgsql/data/ does not exist: 
    file /var/opt/rh/rh-postgresql95/lib/pgsql/data/
    If you are running a fresh installation of PostgreSQL 9.5, this directory should not be present in your system. If it is, back it up by running the following command as root: 
    mv /var/opt/rh/rh-postgresql95/lib/pgsql/data{,-scl-backup}
  4. Upgrade the database data for the new server by running the following command as root: 
    scl enable rh-postgresql95 -- postgresql-setup --upgrade --upgrade-from=rh-postgresql94-postgresql
    Alternatively, you can use the /opt/rh/rh-postgresql95/root/usr/bin/postgresql-setup --upgrade --upgrade-from=rh-postgresql94-postgresql command.
    Note that you can use the --upgrade-from option for upgrading from different versions of PostgreSQL. The list of possible upgrade scenarios is available using the --upgrade-ids option.
    It is recommended that you read the resulting /var/lib/pgsql/upgrade_rh-postgresql95-postgresql.log log file to find out if any problems occurred during the upgrade.
  5. Start the new server as root: 
    service rh-postgresql95-postgresql start
    It is also advised that you run the analyze_new_cluster.sh script as follows: 
    su - postgres -c 'scl enable rh-postgresql95 ~/analyze_new_cluster.sh'
  6. Optionally, you can configure the PostgreSQL 9.5 server to start automatically at boot time. To disable the old PostgreSQL 9.4 server, type the following command as root: 
    chkconfig rh-postgresql94-postgreqsql off
    To enable the PostgreSQL 9.5 server, type as root: 
    chkconfig rh-postgresql95-postgresql on
  7. If your configuration differs from the default one, make sure to update configuration files, especially the /var/opt/rh/rh-postgresql95/lib/pgsql/data/pg_hba.conf configuration file. Otherwise only the postgres user will be allowed to access the database.

Procedure 5.4. Performing a Dump and Restore Upgrade

To perform a dump and restore upgrade of your PostgreSQL server, complete the following steps:
  1. Ensure that the old PostgreSQL server is running by typing the following at a shell prompt as root: 
    service rh-postgresql94-postgresql start
  2. Dump all data in the PostgreSQL database into a script file. As root, type: 
    su - postgres -c 'scl enable rh-postgresql94 "pg_dumpall > ~/pgdump_file.sql"'
  3. Stop the old server by running the following command as root: 
    service rh-postgresql94-postgresql stop
  4. Initialize the data directory for the new server as root: 
    scl enable rh-postgresql95-postgresql -- postgresql-setup --initdb
  5. Start the new server as root: 
    service rh-postgresql95-postgresql start
  6. Import data from the previously created SQL file: 
    su - postgres -c 'scl enable rh-postgresql95 "psql -f ~/pgdump_file.sql postgres"'
  7. Optionally, you can configure the PostgreSQL 9.5 server to start automatically at boot time. To disable the old PostgreSQL 9.4 server, type the following command as root: 
    chkconfig rh-postgresql94-postgresql off
    To enable the PostgreSQL 9.5 server, type as root: 
    chkconfig rh-postgresql95-postgresql on
  8. If your configuration differs from the default one, make sure to update configuration files, especially the /var/opt/rh/rh-postgresql95/lib/pgsql/data/pg_hba.conf configuration file. Otherwise only the postgres user will be allowed to access the database.
If you need to migrate from the postgresql92 Software Collection, refer to Red Hat Software Collections 2.0 Release Notes; the procedure is the same, you just need to adjust the version of the new Collection.

5.5. Migrating to nginx 1.8

The root directory for the rh-nginx18 Software Collection is located in /opt/rh/rh-nginx18/root/. The error log is stored in /var/opt/rh/rh-nginx18/log/nginx by default, and the init script is called rh-nginx18-nginx.
Configuration files are now stored in the /etc/opt/rh/rh-nginx18/nginx/ directory. Configuration files in nginx 1.8 have the same format as in the previous versions and they are compatible among versions 1.4, 1.6, and 1.8.

Important

Before upgrading from nginx 1.6 to nginx 1.8, back up all your data, including web pages and configuration files located in the /opt/rh/nginx16/root/ tree.
If you have made any specific changes, such as changing configuration files or setting up web applications, in the /opt/rh/nginx16/root/ tree, replicate those changes in the new /opt/rh/rh-nginx18/root/ and /etc/opt/rh/rh-nginx18/nginx/ directories, too.
You can use this procedure to upgrade directly from nginx 1.4 to nginx 1.8. Use the appropriate paths for nginx 1.4 in this case.
For the official nginx documentation, refer to http://nginx.org/en/docs/.

Chapter 6. Additional Resources

This chapter provides references to other relevant sources of information about Red Hat Software Collections 2.2 and Red Hat Enterprise Linux.

6.1. Red Hat Enterprise Linux Developer Program Group

Users of Red Hat Software Collections can access the Red Hat Enterprise Linux Developer Program Group in the Red Hat Customer Portal to get developer related information for the development tools available for Red Hat Enterprise Linux. In addition, users can find developer related papers and videos on topics that are of interest to developers, for example RPM building, threaded programming, performance tuning, debugging, and so on.
To visit the Red Hat Enterprise Linux Developer Program Group, log in to the Red Hat Customer Portal, click Products & Services at the top of the page, choose Services, and then Red Hat Enterprise Linux Developer Program from the list.

6.2. Red Hat Product Documentation

The following documents are directly or indirectly relevant to this book:
  • Red Hat Software Collections 2.2 Packaging Guide — The Packaging Guide for Red Hat Software Collections explains the concept of Software Collections, documents the scl utility, and provides a detailed explanation of how to create a custom Software Collection or extend an existing one.
  • Red Hat Developer Toolset 4.1 Release Notes — The Release Notes for Red Hat Developer Toolset document known problems, possible issues, changes, and other important information about this Software Collection.
  • Red Hat Developer Toolset 4.1 User Guide — The User Guide for Red Hat Developer Toolset contains more information about installing and using this Software Collection.
  • Using Red Hat Software Collections Container Images — This article provides information on how to use container images based on Red Hat Software Collections. The available container images include applications, daemons, and databases. The images can be run on Red Hat Enterprise Linux 7 Server and Red Hat Enterprise Linux Atomic Host.
  • Get Started with Docker Formatted Container Images — This guide contains a comprehensive overview of information about building and using docker-formatted container images on Red Hat Enterprise Linux 7 and Red Hat Enterprise Linux Atomic Host.
  • Using and Configuring Red Hat Subscription Manager — The Using and Configuring Red Hat Subscription Manager book provides detailed information on how to register Red Hat Enterprise Linux systems, manage subscriptions, and view notifications for the registered systems.
  • Red Hat Enterprise Linux 6 Deployment Guide — The Deployment Guide for Red Hat Enterprise Linux 6 provides relevant information regarding the deployment, configuration, and administration of this system.
  • Red Hat Enterprise Linux 7 System Administrator's Guide — The System Administrator's Guide for Red Hat Enterprise Linux 7 provides information on deployment, configuration, and administration of this system.

6.3. Red Hat Developer Blog

Red Hat Developer Blog content is directed to designers and developers of applications based on Red Hat technologies. It contains links to product team blogs and other relevant internal and external resources. Its goal is to inform and engage the developer community with up-to-date information, best practices, opinion, product and program announcements as well as pointers to sample code and other resources.

Appendix A. Revision History

Revision History
Revision 2.2-14Tue Dec 18 2018Lenka Špačková
Fixed syntax of a command in the PostgreSQL migration chapter.
Revision 2.2-13Tue Apr 04 2017Lenka Špačková
Fixed a container image name.
Revision 2.2-12Fri Jul 01 2016Lenka Špačková
Added a link to a Knowledgebase article about setting up Galera Cluster with MariaDB 10.1.
Revision 2.2-10Tue Jun 21 2016Lenka Špačková
The rh-nodejs4 Software Collection is now available also for Red Hat Enterprise Linux 6.
Revision 2.2-9Thu Jun 09 2016Lenka Špačková
Updated a link to content in the ISO format.
Revision 2.2-8Tue May 31 2016Lenka Špačková
Release of Red Hat Software Collections 2.2 Release Notes.
Revision 2.2-3Thu May 05 2016Lenka Špačková
Release of Red Hat Software Collections 2.2 Beta Release Notes.

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