This changes and organizes facts into a base class Facts and several
sub classes that implement the necessary functionality. The classes
are:
- Facts: base class. Implements basic facts that should be common to a
number of platforms. It is also where SSH keys and SELinux facts are
set.
- Hardware: A subclass of Facts that should be further
subclassed per platform for CPU, memory, and related facts.
- LinuxHardware: subclass of Hardware for Linux platforms
- SunOSHardware: subclass of Hardware for SunOS platforms
- FreeBSDHardware: subclass of Hardware for FreeBSD
- Network: A subclass of Facts that that should be further
subclassed per platform for IP, both IPv4 and IPv6, information.
- LinuxNetwork: Currently only implementation for determining network
facts.
- Virtual: A subclass of Facts that that should be further
subclassed per platform to determine virtual environment facts.
- LinuxVirtual: Currently only implementation for determining virtual
facts.
If facts are needed for additional platforms, one of the above classes
(eg Network) can be further subclassed and implement the necessary
functionality.
In addition, it fixes get_network_facts() to work on Fedora17. That
broke due to changes to ifconfig output.
should be a huge reduction of total ansible source, at a slight cost of difficulty in original module development.
We need to apply this now to all modules, but may need to have some exemptions to things like command, which should
subclass this module.
The service module was printing stuff to stderr, returning two
JSON dicts, not using consistent 'failed' values, had dead code
and unused variables. Added detection for the case when service
status returns 'xxx is dead and pid file exists' and made the
code a bit easier to read.
(Also a fix for the user module error handling when the user
is not present at the time of the return. This can only really be caused by multiple ansible executions).
Takes a lot of the fixes to the user module and applies them to the
group module: provide stdout/stderr in result if available and call
fail_json() if the attempted action fails.
The user module now returns the output, both stdout and stderr, from
useradd, usermod, and userdel. This should help debug cases why one of
those commands fail. In addition, the user module will now call
fail_json() when the attempted command failed so as to properly
communicate a failure in a playbook.
This flag will show playbook output from non-failing commands. -v is also added to /usr/bin/ansible, but not yet used.
I also gutted some internals code dealing with 'invocations' which allowed the callback to know what module invoked
it. This is not something 0.5 does or needed, so callbacks have been simplified.
- Added Upstart support
- Added an initial unknown state
- Prevented state changes when the current state is not recognized
- Changed the keyword recognition to a safer method
Tested with OS X local connection and Linux remote. The paths to the
md5sum and md5 commands are hardcoded to the most common location. This
will definitely fail if the commands are elsewhere, or if the md5
command doesn't support the -q 'quiet' option.
This adds a module that concatenates (ie. assembles) a file from
fragments in a directory in alphabetical order. It chains the file
module afterward to fix up ownership and permission. This also adds
tests for the assemble module with fragments in assemble.d.
This switches to using selinux library calls instead of parsing the
output of sestatus. This fixes issue #428 where the output was slightly
different than expected on F17. Tested against debian (non-selinux),
centos5, centos6, and fedora17.
I think when we stopped using stderr for debugging modules because
paramiko didn't like it, many modules used the idiom of defining
a debug function that used standard error. The def's and calls were
removed.
This looks like a stray debug() that didn't get removed and didn't
show up unless you alter a user's groups. If it's hit, 'user' fails
with a global undefined function error.
The ohai and facter modules use /usr/bin/logger to log the fact that
they have been invoked. I added 'import os' to the ping module
so that it could have the same syslog statements as the other modules.
I separated the condensed:
shlex.split(open(argfile, 'r').read())
into two separate statements similar to the other modules.
This adds some logic when usings groups possibly in combination with append
if just specifying groups and the current groups do not match the list
set groups
if specifying groups with append and any group thats not in the current groups
set groups with -a
Checks if update-rc.d (Ubuntu) or chkconfig (RHEL) should be used.
Adds basic bin path search for those binaries
Adds 'enable' and 'disable' options for 'enable' command since it's the
arguments that update-rc.d uses (this might be somewhat confusing to
have a command line with 'enable=enable', but probably mkes sense for
Ubuntu users).
Allows use of mixed case for 'list' and 'state' commands.
This removes the 'context' option and replaces it with checks for
'_default' value for seuser, serole, setype, or (maybe) selevel.
If '_default' is provided *and* there is a default context for the given
file, this will set the file context to the available default.
Creates system accounts/groups; corresponds to the '-r' option for {user,group}add.
The option is only honored when users/groups are added, not when modified.
When running the service module via sudo, `$PATH` didn't contain `/sbin`,
so the service binary couldn't be found. This just runs `/sbin/service`
directly. Output is spewed to stderr on error.
Added `list=status` to include the output of `service <cmd> status`.
This adds selinux_mls_enabled() and selinux_enabled() to detect a)
whether selinux is MLS aware (ie supports selevel) and b) whether
selinux is enabled. If selinux is not enabled, all selinux operations
are punted on -- same as if python's selinux module were not available.
In set_context_if_different(), I now iterate over the current context
instead of the context argument. Even if the system supports MLS, it
may not return the selevel from selinux.lgetfilecon(). Lastly, this
drops selinux_has_selevel() in lieu of the current approach.
Older versions of selinux, such as that deployed on rhel5, only return a
context of user:role:type instead of user:role:type:level. This detects
whether the tuple has three elements (old-style) or four. If the
old-style, it keeps the secontext list at three elements.
The value is passed to apt-get's "-t" option. Useful for installing backports, e.g.:
ansible webservers -m apt -a "pkg=nginx state=latest default-release=squeeze-backports"
This adjusts behavior of file module such that removal of se* option
does not revert the file's selinux context to the default. In order to
go back to the default context according to the policy, you can use the
context=default option.
This collects various facts from the host so that it isn't necessary to
have facter or ohai installed. It gets various platform/distribution
facts, information about the type of hardware, whether a virtual
environment and what type, assorted interface facts, and ssh host public
keys. Most facts are flat. The two exceptions are 'processor' and all
interface facts. Interface facts are presented as:
ansible_lo : {
"macaddress": "00:00:00:00:00:00",
"ipv4": { "address": "127.0.0.1", "netmask": "255.0.0.0" },
"ipv6": [
{ "address": "::1", "prefix": "128", "scope": "host" }
]
}
This adds the options: seuser, serole, setype, and serange to the file
module. If the python selinux module doesn't exist, this will set
HAVE_SELINUX to False and punt in the related modules.
This takes the options the user provides and applies those to the
default selinux context as provided from matchpathcon(). If there is no
default context, this uses the value from the current context. This
implies that if you set the setype and later remove it, the file module
will rever the setype to the default if available.