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52 Commits
0.0.6 ... 0.0.8

Author SHA1 Message Date
James Shubin
19760be0bc golint: Fix some golint issues 2016-12-21 03:10:25 -05:00
James Shubin
b3ea33f88d test: Allow devel versions to run gofmt 
Let tip builds pass in travis too!
 2016-12-21 02:48:50 -05:00
James Shubin
5b3425a689 pgraph: Remember to unpause the vertices! 
Forgot this part earlier, sorry! Should work correctly now :)
 2016-12-21 02:39:54 -05:00
James Shubin
a3d157bde6 pgraph: Mutex must be a pointer 
This should be done the same way as the WaitGroup so that we don't
panic!
 2016-12-20 05:49:17 -05:00
James Shubin
2c8c9264a4 pgraph: Simplify graph exit waiting 
I think the vertex resource exiting can be done in a single stage
instead of the previous two stage exit.
 2016-12-20 05:49:17 -05:00
James Shubin
0009d9b20e pgraph, resources: Integrate properly with the startup logic 
This signals which resources have to run their initial pokes, and
removes the racy retry timer. We actually get a proper signal when
things are running too!
 2016-12-20 05:49:17 -05:00
James Shubin
dd8d17232f pgraph: Build the sync group into the graph structure 
This hides the sync/wait logic inside the graph itself.
 2016-12-20 05:49:17 -05:00
James Shubin
6312b9225f gapi: Rename SwitchStream to Next 
This is more concise and I think more logical. Complains welcome!
 2016-12-20 05:49:17 -05:00
James Shubin
68cc09fef2 resources: file: Fix small typo in the compare function 2016-12-20 05:49:16 -05:00
James Shubin
0651c9de65 docs: Add resource guide 
Sorry I never published this earlier. Thanks to everyone who has managed
to write a native resource without this.
 2016-12-20 05:49:16 -05:00
James Shubin
38261ec809 resources: msg: Remove legacy comment 
This doesn't apply anymore. Remove it!
 2016-12-20 05:47:40 -05:00
James Shubin
067932aebf resources: Remove SetWatching/IsWatching code from Watch 
This removes some boilerplate from the Watch methods which can be baked
into the engine instead.

This code should be checked for races and locks to make sure we only
start resources when it makes sense to.
 2016-12-20 05:47:40 -05:00
James Shubin
af47511d58 resources: Don't dirty resource when poked with activity 
When we receive a poke with the activity flag set it probably means we
are receiving a refresh notification. This doesn't necessarily mean that
the resource state should be dirty as a result, in particular if the
resource doesn't support refreshing. As a result, don't automatically
mark it as dirty. (The engine knows not to skip the CheckApply when the
refresh flag is set!)
 2016-12-20 05:47:40 -05:00
James Shubin
36b916f27f resources: Simplify resource Converger and Startup code 
This takes the Converged initialization and Startup patterns that are
common in all resources, and bakes it into the core engine. This way
resource writing is much more concise and there is less boilerplate!
 2016-12-20 05:47:40 -05:00
James Shubin
e519811893 docs: Create a dedicated documentation folder 2016-12-09 17:32:50 -05:00
James Shubin
4803be1987 misc: Rename mgmtmain to lib and remove global package 
This refactor should make it cleaner to use mgmt.
 2016-12-08 23:31:45 -05:00
James Shubin
1f415db44f readme: Add new blog post about send/recv 2016-12-07 14:22:01 -05:00
James Shubin
0e316b1d55 gapi: Add world interface and refactor existing code to use it 
This is the initial base of what will hopefully become a powerful API
that machines will use to communicate. It will be the basis of the
stateful data store that can be used for exported resources, fact
exchange, state machine flags, locks, and much more.
 2016-12-07 02:39:14 -05:00
James Shubin
eb545e75fb resources: Re-order send/recv display messages. 
The updated order is more logical, and follows the time sequence.
 2016-12-06 14:42:06 -05:00
James Shubin
6edb5c30d5 resources: Actually verify which send/recv elements changed 
When updating the code, I forgot to actually verify if there were
changes or not. This caused erroneous changed messages when none were
actually sent.
 2016-12-06 14:22:34 -05:00
James Shubin
597ed6eaa0 resources: Polish the password PoC and build out send/recv 
This polishes the password resource so that it can actually avoid
writing the password to disk, and so that the work actually happens in
CheckApply where it can properly interact with the graph. This resource
now re-generates the password when it receives a notification.

The send/recv plumbing has been extended so that receivers can detect
when they're receiving new values. This is particularly important if
they might otherwise not expect those values to change and cache them
for efficiency purposes.
 2016-12-06 02:29:47 -05:00
Nicolas Nadeau
2b47d7494e pgp: Base pgp code 2016-12-05 02:10:15 -05:00
James Shubin
213a88f62f misc: Improve gofmt test case 
Add new golang versions, and fail if one is not found.
 2016-12-04 21:11:36 -05:00
James Shubin
07fd2e88a2 resources: Fix poke/refresh race 
Clearly the use of errgroup is flawed.
1) You can't pass in variables, so this is likely to race.
2) You can't get a set of errors, so this is a bad API.

For the second problem, it would be much more sane to return a multierr
or a list of errors. If there's no fix for the first, I think it should
be removed from the lib.
 2016-12-04 21:06:08 -05:00
James Shubin
639afe881c resources: Reduce logging on Send/Recv 
This was too noisy, let's tone it down a bit.
 2016-12-03 01:44:36 -05:00
James Shubin
2e718c0e9d resources: Improve notification system and notify refreshes 
Resources can send "refresh" notifications along edges. These messages
are sent whenever the upstream (initiating vertex) changes state. When
the changed state propagates downstream, it will be paired with a
refresh flag which can be queried in the CheckApply method of that
resource.

Future work will include a stateful refresh tracking mechanism so that
if a refresh event is generated and not consumed, it will be saved
across an interrupt (shutdown) or a crash so that it can be re-applied
on the subsequent run. This is important because the unapplied refresh
is a form of hysteresis which needs to be tracked and remembered or we
won't be able to determine that the state is wrong!

Still to do:
* Update the autogrouping code to handle the edge notify properties!
* Actually finish the stateful bool code
 2016-12-03 01:35:31 -05:00
James Shubin
b0a8fc165c resources: Improve the state/cache system 
Refactor the state cache into the engine. This makes resource writing
less error prone, and paves the way for better notifications.
 2016-12-03 00:07:29 -05:00
James Shubin
ba6044e9e8 resources, pgraph: split logical chunks into separate files 2016-12-03 00:07:29 -05:00
James Shubin
7f1c13a576 resources: Implement Send -> Recv 
This is a new design idea which I had. Whether it stays around or not is
up for debate. For now it's a rough POC.

The idea is that any resource can _produce_ data, and any resource can
_consume_ data. This is what we call send and recv. By linking the two
together, data can be passed directly between resources, which will
maximize code re-use, and allow for some interesting logical graphs.

For example, you might have an HTTP resource which puts its output in a
particular file. This avoids having to overload the HTTP resource with
all of the special behaviours of the File resource.

For our POC, I implemented a `password` resource which generates a
random string which can then be passed to a receiver such as a file. At
this point the password resource isn't recommended for sensitive
applications because it caches the password as plain text.

Still to do:
* Statically check all of the type matching before we run the graph
* Verify that our autogrouping works correctly around this feature
* Verify that appropriate edges exist between send->recv pairs
* Label the password as generated instead of storing the plain text
* Consider moving password logic from Init() to CheckApply()
* Consider combining multiple send values (list?) into a single receiver
* Consider intermediary transformation nodes for value combining
 2016-12-03 00:07:29 -05:00
James Shubin
63c5e35e2b misc: Cleanup unnecessary use of %v and small nitpicks 2016-12-03 00:07:29 -05:00
James Shubin
62e6a7d7fa resources: Add VarDir support 
This gives resources a private directory where they can store state.
 2016-12-03 00:07:29 -05:00
James Shubin
e5a3dae332 misc: Exclude vendor/ directory from ack matching 
This is almost always what we want.
 2016-12-03 00:07:29 -05:00
James Shubin
b45a7663b3 readme: Add video from NLUUG 
This video shows the virt+cockpit PoC & the live remote execution demo.
 2016-12-03 00:06:03 -05:00
Vinzenz Feenstra
6ef904f62b misc: Prefer dnf over yum when present 
Signed-off-by: Vinzenz Feenstra <vfeenstr@redhat.com>
 2016-11-22 12:26:17 +01:00
James Shubin
6d21cf3084 readme: Add video link from High Load Strategy 2016-11-18 16:16:51 -05:00
James Shubin
32bd96b6e2 resources: nspawn: Update grammer for Joe 
Joe says this is the correct grammar. I incorrectly changed it wrongly.
 2016-11-18 16:15:21 -05:00
James Shubin
fb5da76247 resources: Add stable go-systemd branch for now 
We'll update this to point to upstream or JoeJulian once it stops
randomly changing and breaking git master!
 2016-11-14 20:03:19 -05:00
James Shubin
e588f51824 resources: nspawn: Use new API 
We broke the API (*cough* Joe), this updates it with the new version.
 2016-11-14 19:36:13 -05:00
Joe Julian
3e419c4955 nspawn: bump go-systemd commit 
joejulian/go-systemd was updated to provide more machine1 features and
was rebased to the latest master
 2016-11-14 11:45:07 -08:00
James Shubin
606d2bafac resources: nspawn: Tweaks and updates 
Here are some small fixes to enhance the original nspawn patch.
 2016-11-12 00:43:55 -05:00
Joe Julian
8ac3c49286 nspawn: Add systemd-machined support for nspawn containers 
This adds a rudimentary resource for systemd-machined's nspawn
containers, ensuring they're either started or stopped.
 2016-11-11 14:55:14 -08:00
James Shubin
534aa84ed0 etcd: Watch for obvious failures on first startup 
We should probably wait for this signal elsewhere too.
 2016-11-11 07:37:36 -05:00
Vinzenz Feenstra
04d17cb580 examples: rename hostname.yml to hostname.yaml 
Signed-off-by: Vinzenz Feenstra <vfeenstr@redhat.com>
 2016-11-11 12:51:55 +01:00
Vinzenz Feenstra
d039006eb4 resources: Add new hostname resource 
This resource allows to set and watch the hostname on a system.

Signed-off-by: Vinzenz Feenstra <vfeenstr@redhat.com>
 2016-11-11 12:42:04 +01:00
James Shubin
fb04f62115 resources: file: Allow undefined file contents 
An undefined file contents means we aren't managing that state!
 2016-11-10 06:06:41 -05:00
James Shubin
3bffccc48e resources: Clean up errors and string printing 2016-11-08 03:49:27 -05:00
Vinzenz Feenstra
eef9abf0bf virt: Authentication support 
Signed-off-by: Vinzenz Feenstra <vfeenstr@redhat.com>
 2016-11-07 13:28:30 +01:00
Vinzenz Feenstra
de5ada30b7 virt: Avoid parsing URI all the time 
Signed-off-by: Vinzenz Feenstra <vfeenstr@redhat.com>
 2016-11-07 13:22:40 +01:00
Joe Julian
12f7d0a516 virt: Add logic to parse the libvirt uri 
Guess the domain and os types from the libvirt uri and add the ability
to set the init for lxc containers.
 2016-11-07 13:22:40 +01:00
Joe Julian
0aa9c7c592 Add IntelliJ Idea to .gitignore 2016-11-07 13:22:40 +01:00
Joe Julian
2216c8dc1c virt: Do not restrict VIR_ERR_NO_DOMAIN to qemu. 
Consider it sufficent that a libvirt.VIR_ERR_NO_DOMAIN was reported
without concerning ourselves over who reported it.
 2016-11-07 13:22:40 +01:00
James Shubin
984270ebe1 pgraph: Fix ineffassign warning 
This ineffassign didn't seem to cause problems, but perhaps we didn't
exhaustively test all the areas.

Watch out to make sure this doesn't break any of the sync requirements,
eg: "A WaitGroup must not be copied after first use."
https://golang.org/pkg/sync/#WaitGroup
 2016-11-04 02:47:13 -04:00
52 changed files with 3985 additions and 1274 deletions
Expand all files Collapse all files

1
.ackrc
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@@ -1,2 +1,3 @@
--ignore-dir=old/
--ignore-dir=tmp/
--ignore-dir=vendor/

3
.gitignore vendored
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@@ -1,10 +1,11 @@
.idea/
.omv/
.ssh/
.vagrant/
mgmt-documentation.pdf
old/
tmp/
*_stringer.go
mgmt
mgmt.static
mgmt.iml
rpmbuild/

3
.gitmodules vendored
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@@ -10,3 +10,6 @@
[submodule "vendor/gopkg.in/fsnotify.v1"]
path = vendor/gopkg.in/fsnotify.v1
url = https://gopkg.in/fsnotify.v1
[submodule "vendor/github.com/purpleidea/go-systemd"]
path = vendor/github.com/purpleidea/go-systemd
url = https://github.com/purpleidea/go-systemd

4
Makefile
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@@ -138,8 +138,8 @@ format: gofmt yamlfmt
docs: $(PROGRAM)-documentation.pdf
$(PROGRAM)-documentation.pdf: DOCUMENTATION.md
pandoc DOCUMENTATION.md -o '$(PROGRAM)-documentation.pdf'
$(PROGRAM)-documentation.pdf: docs/documentation.md
pandoc docs/documentation.md -o docs/'$(PROGRAM)-documentation.pdf'
#
# build aliases

9
README.md
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@@ -4,7 +4,7 @@
[![Go Report Card](https://goreportcard.com/badge/github.com/purpleidea/mgmt)](https://goreportcard.com/report/github.com/purpleidea/mgmt)
[![Build Status](https://secure.travis-ci.org/purpleidea/mgmt.png?branch=master)](http://travis-ci.org/purpleidea/mgmt)
[![Documentation](https://img.shields.io/docs/markdown.png)](DOCUMENTATION.md)
[![Documentation](https://img.shields.io/docs/markdown.png)](docs/documentation.md)
[![GoDoc](https://godoc.org/github.com/purpleidea/mgmt?status.svg)](https://godoc.org/github.com/purpleidea/mgmt)
[![IRC](https://img.shields.io/irc/%23mgmtconfig.png)](https://webchat.freenode.net/?channels=#mgmtconfig)
[![Jenkins](https://img.shields.io/jenkins/status.png)](https://ci.centos.org/job/purpleidea-mgmt/)
@@ -23,7 +23,7 @@ With your help you'll be able to influence our design and get us there sooner!
## Questions:
Please join the [#mgmtconfig](https://webchat.freenode.net/?channels=#mgmtconfig) IRC community!
If you have a well phrased question that might benefit others, consider asking it by sending a patch to the documentation [FAQ](https://github.com/purpleidea/mgmt/blob/master/DOCUMENTATION.md#usage-and-frequently-asked-questions) section. I'll merge your question, and a patch with the answer!
If you have a well phrased question that might benefit others, consider asking it by sending a patch to the documentation [FAQ](https://github.com/purpleidea/mgmt/blob/master/docs/documentation.md#usage-and-frequently-asked-questions) section. I'll merge your question, and a patch with the answer!
## Quick start:
* Make sure you have golang version 1.6 or greater installed.
@@ -49,7 +49,7 @@ cd $GOPATH/src/github.com/purpleidea/mgmt
Please look in the [examples/](examples/) folder for more examples!
## Documentation:
Please see: the manually created [DOCUMENTATION.md](DOCUMENTATION.md) (also available as [PDF](https://pdfdoc-purpleidea.rhcloud.com/pdf/https://github.com/purpleidea/mgmt/blob/master/DOCUMENTATION.md)) and the automatically generated [GoDoc documentation](https://godoc.org/github.com/purpleidea/mgmt).
Please see: the manually created [documentation.md](docs/documentation.md) (also available as [PDF](https://pdfdoc-purpleidea.rhcloud.com/pdf/https://github.com/purpleidea/mgmt/blob/master/docs/documentation.md)) and the automatically generated [GoDoc documentation](https://godoc.org/github.com/purpleidea/mgmt).
## Roadmap:
Please see: [TODO.md](TODO.md) for a list of upcoming work and TODO items.
@@ -104,6 +104,9 @@ We'd love to have your patches! Please send them by email, or as a pull request.
* Felix Frank; blog: [Translating All The Things (puppet to mgmt translation warnings)](https://ffrank.github.io/features/2016/08/19/translating-all-the-things/)
* James Shubin; video: [Recording from systemd.conf 2016](https://www.youtube.com/watch?v=jB992Zb3nH0&html5=1)
* James Shubin; blog: [Remote execution in mgmt](https://ttboj.wordpress.com/2016/10/07/remote-execution-in-mgmt/)
* James Shubin; video: [Recording from High Load Strategy 2016](https://vimeo.com/191493409)
* James Shubin; video: [Recording from NLUUG 2016](https://www.youtube.com/watch?v=MmpwOQAb_SE&html5=1)
* James Shubin; blog: [Send/Recv in mgmt](https://ttboj.wordpress.com/2016/12/07/sendrecv-in-mgmt/)
##

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@@ -0,0 +1 @@
mgmt-documentation.pdf

38
DOCUMENTATION.md → docs/documentation.md
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@@ -23,7 +23,7 @@ along with this program. If not, see <http://www.gnu.org/licenses/>.
####Available from:
####[https://github.com/purpleidea/mgmt/](https://github.com/purpleidea/mgmt/)
####This documentation is available in: [Markdown](https://github.com/purpleidea/mgmt/blob/master/DOCUMENTATION.md) or [PDF](https://pdfdoc-purpleidea.rhcloud.com/pdf/https://github.com/purpleidea/mgmt/blob/master/DOCUMENTATION.md) format.
####This documentation is available in: [Markdown](https://github.com/purpleidea/mgmt/blob/master/docs/documentation.md) or [PDF](https://pdfdoc-purpleidea.rhcloud.com/pdf/https://github.com/purpleidea/mgmt/blob/master/docs/documentation.md) format.
####Table of Contents
@@ -218,8 +218,11 @@ parameter with the [Noop](#Noop) resource.
* [Exec](#Exec): Execute shell commands on the system.
* [File](#File): Manage files and directories.
* [Hostname](#Hostname): Manages the hostname on the system.
* [Msg](#Msg): Send log messages.
* [Noop](#Noop): A simple resource that does nothing.
* [Nspawn](#Nspawn): Manage systemd-machined nspawn containers.
* [Password](#Password): Create random password strings.
* [Pkg](#Pkg): Manage system packages with PackageKit.
* [Svc](#Svc): Manage system systemd services.
* [Timer](#Timer): Manage system systemd services.
@@ -263,6 +266,30 @@ The force property is required if we want the file resource to be able to change
a file into a directory or vice-versa. If such a change is needed, but the force
property is not set to `true`, then this file resource will error.
###Hostname
The hostname resource manages static, transient/dynamic and pretty hostnames
on the system and watches them for changes.
#### static_hostname
The static hostname is the one configured in /etc/hostname or a similar
file.
It is chosen by the local user. It is not always in sync with the current
host name as returned by the gethostname() system call.
#### transient_hostname
The transient / dynamic hostname is the one configured via the kernel's
sethostbyname().
It can be different from the static hostname in case DHCP or mDNS have been
configured to change the name based on network information.
#### pretty_hostname
The pretty hostname is a free-form UTF8 host name for presentation to the user.
#### hostname
Hostname is the fallback value for all 3 fields above, if only `hostname` is
specified, it will set all 3 fields to this value.
###Msg
The msg resource sends messages to the main log, or an external service such
@@ -273,6 +300,15 @@ as systemd's journal.
The noop resource does absolutely nothing. It does have some utility in testing
`mgmt` and also as a placeholder in the resource graph.
###Nspawn
The nspawn resource is used to manage systemd-machined style containers.
###Password
The password resource can generate a random string to be used as a password. It
will re-generate the password if it receives a refresh notification.
###Pkg
The pkg resource is used to manage system packages. This resource works on many

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@@ -14,7 +14,7 @@ This document goes into detail on how this works, and lists
some pitfalls and limitations.
For basic instructions on how to use the Puppet support, see
the [main documentation](DOCUMENTATION.md#puppet-support).
the [main documentation](documentation.md#puppet-support).
##Prerequisites

534
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@@ -0,0 +1,534 @@
#mgmt
<!--
Mgmt
Copyright (C) 2013-2016+ James Shubin and the project contributors
Written by James Shubin <james@shubin.ca> and the project contributors
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU Affero General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU Affero General Public License for more details.
You should have received a copy of the GNU Affero General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
-->
##mgmt resource guide by [James](https://ttboj.wordpress.com/)
####Available from:
####[https://github.com/purpleidea/mgmt/](https://github.com/purpleidea/mgmt/)
####This documentation is available in: [Markdown](https://github.com/purpleidea/mgmt/blob/master/docs/resource-guide.md) or [PDF](https://pdfdoc-purpleidea.rhcloud.com/pdf/https://github.com/purpleidea/mgmt/blob/master/docs/resource-guide.md) format.
####Table of Contents
1. [Overview](#overview)
2. [Theory - Resource theory in mgmt](#theory)
3. [Resource API - Getting started with mgmt](#resource-api)
* [Init - Initialize the resource](#init)
* [CheckApply - Check and apply resource state](#checkapply)
* [Watch - Detect resource changes](#watch)
* [Compare - Compare resource with another](#compare)
4. [Further considerations - More information about resource writing](#further-considerations)
5. [Automatic edges - Adding automatic resources dependencies](#automatic-edges)
6. [Automatic grouping - Grouping multiple resources into one](#automatic-grouping)
7. [Send/Recv - Communication between resources](#send-recv)
8. [Composite resources - Importing code from one resource into another](#composite-resources)
9. [FAQ - Frequently asked questions](#frequently-asked-questions)
10. [Suggestions - API change suggestions](#suggestions)
11. [Authors - Authors and contact information](#authors)
##Overview
The `mgmt` tool has built-in resource primitives which make up the building
blocks of any configuration. Each instance of a resource is mapped to a single
vertex in the resource [graph](https://en.wikipedia.org/wiki/Directed_acyclic_graph).
This guide is meant to instruct developers on how to write a brand new resource.
Since `mgmt` and the core resources are written in golang, some prior golang
knowledge is assumed.
##Theory
Resources in `mgmt` are similar to resources in other systems in that they are
[idempotent](https://en.wikipedia.org/wiki/Idempotence). Our resources are
uniquely different in that they can detect when their state has changed, and as
a result can run to revert or repair this change instantly. For some background
on this design, please read the
[original article](https://ttboj.wordpress.com/2016/01/18/next-generation-configuration-mgmt/)
on the subject.
##Resource API
To implement a resource in `mgmt` it must satisfy the
[`Res`](https://github.com/purpleidea/mgmt/blob/master/resources/resources.go)
interface. What follows are each of the method signatures and a description of
each.
###Init
```golang
Init() error
```
This is called to initialize the resource. If something goes wrong, it should
return an error. It should set the resource `kind`, do any resource specific
work, and finish by calling the `Init` method of the base resource.
####Example
```golang
// Init initializes the Foo resource.
func (obj *FooRes) Init() error {
obj.BaseRes.kind = "Foo" // must set capitalized resource kind
// run the resource specific initialization, and error if anything fails
if some_error {
return err // something went wrong!
}
return obj.BaseRes.Init() // call the base resource init
}
```
###CheckApply
```golang
CheckApply(apply bool) (checkOK bool, err error)
```
`CheckApply` is where the real _work_ is done. Under normal circumstances, this
function should check if the state of this resource is correct, and if so, it
should return: `(true, nil)`. If the `apply` variable is set to `true`, then
this means that we should then proceed to run the changes required to bring the
resource into the correct state. If the `apply` variable is set to `false`, then
the resource is operating in _noop_ mode and _no operations_ should be executed!
After having executed the necessary operations to bring the resource back into
the desired state, or after having detected that the state was incorrect, but
that changes can't be made because `apply` is `false`, you should then return
`(false, nil)`.
You must cause the resource to converge during a single execution of this
function. If you cannot, then you must return an error! The exception to this
rule is that if an external force changes the state of the resource while it is
being remedied, it is possible to return from this function even though the
resource isn't now converged. This is not a bug, as the resources `Watch`
facility will detect the change, ultimately resulting in a subsequent call to
`CheckApply`.
####Example
```golang
// CheckApply does the idempotent work of checking and applying resource state.
func (obj *FooRes) CheckApply(apply bool) (bool, error) {
// check the state
if state_is_okay { return true, nil } // done early! :)
// state was bad
if !apply { return false, nil } // don't apply; !stateok, nil
// do the apply!
return false, nil // after success applying
if any_error { return false, err } // anytime there's an err!
}
```
The `CheckApply` function is called by the `mgmt` engine when it believes a call
is necessary. Under certain conditions when a `Watch` call does not invalidate
the state of the resource, and no refresh call was sent, its execution might be
skipped. This is an engine optimization, and not a bug. It is mentioned here in
the documentation in case you are confused as to why a debug message you've
added to the code isn't always printed.
####Refresh notifications
Some resources may choose to support receiving refresh notifications. In general
these should be avoided if possible, but nevertheless, they do make sense in
certain situations. Resources that support these need to verify if one was sent
during the CheckApply phase of execution. This is accomplished by calling the
`Refresh() bool` method of the resource, and inspecting the return value. This
is only necessary if you plan to perform a refresh action. Refresh actions
should still respect the `apply` variable, and no system changes should be made
if it is `false`. Refresh notifications are generated by any resource when an
action is applied by that resource and are transmitted through graph edges which
have enabled their propagation. Resources that currently perform some refresh
action include `svc`, `timer`, and `password`.
####Paired execution
For many resources it is not uncommon to see `CheckApply` run twice in rapid
succession. This is usually not a pathological occurrence, but rather a healthy
pattern which is a consequence of the event system. When the state of the
resource is incorrect, `CheckApply` will run to remedy the state. In response to
having just changed the state, it is usually the case that this repair will
trigger the `Watch` code! In response, a second `CheckApply` is triggered, which
will likely find the state to now be correct.
####Summary
* Anytime an error occurs during `CheckApply`, you should return `(false, err)`.
* If the state is correct and no changes are needed, return `(true, nil)`.
* You should only make changes to the system if `apply` is set to `true`.
* After checking the state and possibly applying the fix, return `(false, nil)`.
* Returning `(true, err)` is a programming error and will cause a `Fatal`.
###Watch
```golang
Watch(chan Event) error
```
`Watch` is a main loop that runs and sends messages when it detects that the
state of the resource might have changed. To send a message you should write to
the input `Event` channel using the `DoSend` helper method. The Watch function
should run continuously until a shutdown message is received. If at any time
something goes wrong, you should return an error, and the `mgmt` engine will
handle possibly restarting the main loop based on the `retry` meta parameters.
It is better to send an event notification which turns out to be spurious, than
to miss a possible event. Resources which can miss events are incorrect and need
to be re-engineered so that this isn't the case. If you have an idea for a
resource which would fit this criteria, but you can't find a solution, please
contact the `mgmt` maintainers so that this problem can be investigated and a
possible system level engineering fix can be found.
You may have trouble deciding how much resource state checking should happen in
the `Watch` loop versus deferring it all to the `CheckApply` method. You may
want to put some simple fast path checking in `Watch` to avoid generating
obviously spurious events, but in general it's best to keep the `Watch` method
as simple as possible. Contact the `mgmt` maintainers if you're not sure.
If the resource is activated in `polling` mode, the `Watch` method will not get
executed. As a result, the resource must still work even if the main loop is not
running.
####Select
The lifetime of most resources `Watch` method should be spent in an infinite
loop that is bounded by a `select` call. The `select` call is the point where
our method hands back control to the engine (and the kernel) so that we can
sleep until something of interest wakes us up. In this loop we must process
events from the engine via the `<-obj.Events()` call, wait for the converged
timeout with `<-cuid.ConvergedTimer()`, and receive events for our resource
itself!
####Events
If we receive an internal event from the `<-obj.Events()` method, we can read it
with the ReadEvent helper function. This function tells us if we should shutdown
our resource, and if we should generate an event. When we want to send an event,
we use the `DoSend` helper function. It is also important to mark the resource
state as `dirty` if we believe it might have changed. We do this with the
`StateOK(false)` function.
####Startup
Once the `Watch` function has finished starting up successfully, it is important
to generate one event to notify the `mgmt` engine that we're now listening
successfully, so that it can run an initial `CheckApply` to ensure we're safely
tracking a healthy state and that we didn't miss anything when `Watch` was down
or from before `mgmt` was running. It does this by calling the `Running` method.
####Converged
The engine might be asked to shutdown when the entire state of the system has
not seen any changes for some duration of time. In order for the engine to be
able to make this determination, each resource must report its converged state.
To do this, the `Watch` method should get the `ConvergedUID` handle that has
been prepared for it by the engine. This is done by calling the `Converger`
method on the resource object. The result can be used to set the converged
status with `SetConverged`, and to notify when the particular timeout has been
reached by waiting on `ConvergedTimer`.
Instead of interacting with the `ConvergedUID` with these two methods, we can
instead use the `StartTimer` and `ResetTimer` methods which accomplish the same
thing, but provide a `select`-free interface for different coding situations.
####Example
```golang
// Watch is the listener and main loop for this resource.
func (obj *FooRes) Watch(processChan chan event.Event) error {
cuid := obj.Converger() // get the converger uid used to report status
// setup the Foo resource
var err error
if err, obj.foo = OpenFoo(); err != nil {
return err // we couldn't startup
}
defer obj.whatever.CloseFoo() // shutdown our
// notify engine that we're running
if err := obj.Running(processChan); err != nil {
return err // bubble up a NACK...
}
var send = false // send event?
var exit = false
for {
obj.SetState(ResStateWatching) // reset
select {
case event := <-obj.Events():
cuid.SetConverged(false)
// we avoid sending events on unpause
if exit, send = obj.ReadEvent(&event); exit {
return nil // exit
}
// the actual events!
case event := <-obj.foo.Events:
if is_an_event {
send = true // used below
cuid.SetConverged(false)
obj.StateOK(false) // dirty
}
// event errors
case err := <-obj.foo.Errors:
cuuid.SetConverged(false)
return err // will cause a retry or permanent failure
case <-cuid.ConvergedTimer():
cuid.SetConverged(true) // converged!
continue
}
// do all our event sending all together to avoid duplicate msgs
if send {
send = false
if exit, err := obj.DoSend(processChan, ""); exit || err != nil {
return err // we exit or bubble up a NACK...
}
}
}
}
```
####Summary
* Remember to call the appropriate `converger` methods throughout the resource.
* Remember to call `Startup` when the `Watch` is running successfully.
* Remember to process internal events and shutdown promptly if asked to.
* Ensure the design of your resource is well thought out.
* Have a look at the existing resources for a rough idea of how this all works.
###Compare
```golang
Compare(Res) bool
```
Each resource must have a `Compare` method. This takes as input another resource
and must return whether they are identical or not. This is used for identifying
if an existing resource can be used in place of a new one with a similar set of
parameters. In particular, when switching from one graph to a new (possibly
identical) graph, this avoids recomputing the state for resources which don't
change or that are sufficiently similar that they don't need to be swapped out.
In general if all the resource properties are identical, then they usually don't
need to be changed. On occasion, not all of them need to be compared, in
particular if they store some generated state, or if they aren't significant in
some way.
####Example
```golang
// Compare two resources and return if they are equivalent.
func (obj *FooRes) Compare(res Res) bool {
switch res.(type) {
case *FooRes: // only compare to other resources of the Foo kind!
res := res.(*FileRes)
if !obj.BaseRes.Compare(res) { // call base Compare
return false
}
if obj.Name != res.Name {
return false
}
if obj.whatever != res.whatever {
return false
}
if obj.Flag != res.Flag {
return false
}
default:
return false // different kind of resource
}
return true // they must match!
}
```
###Validate
```golang
Validate() error
```
This method is used to validate if the populated resource struct is a valid
representation of the resource kind. If it does not conform to the resource
specifications, it should generate an error. If you notice that this method is
quite large, it might be an indication that you might want to reconsider the
parameter list and interface to this resource.
###GetUIDs
```golang
GetUIDs() []ResUID
```
The `GetUIDs` method returns a list of `ResUID` interfaces that represent the
particular resource uniquely. This is used with the AutoEdges API to determine
if another resource can match a dependency to this one.
###AutoEdges
```golang
AutoEdges() AutoEdge
```
This returns a struct that implements the `AutoEdge` interface. This struct
is used to match other resources that might be relevant dependencies for this
resource.
###CollectPattern
```golang
CollectPattern() string
```
This is currently a stub and will be updated once the DSL is further along.
##Further considerations
There is some additional information that any resource writer will need to know.
Each issue is listed separately below!
###Resource struct
Each resource will implement methods as pointer receivers on a resource struct.
The resource struct must include an anonymous reference to the `BaseRes` struct.
The naming convention for resources is that they end with a `Res` suffix. If
you'd like your resource to be accessible by the `YAML` graph API (GAPI), then
you'll need to include the appropriate YAML fields as shown below.
####Example
```golang
type FooRes struct {
BaseRes `yaml:",inline"` // base properties
Whatever string `yaml:"whatever"` // you pick!
Bar int // no yaml, used as public output value for send/recv
Baz bool `yaml:"baz"` // something else
something string // some private field
}
```
###YAML
In addition to labelling your resource struct with YAML fields, you must also
add an entry to the internal `GraphConfig` struct. It is a fairly straight
forward one line patch.
```golang
type GraphConfig struct {
// [snip...]
Resources struct {
Noop []*resources.NoopRes `yaml:"noop"`
File []*resources.FileRes `yaml:"file"`
// [snip...]
Foo []*resources.FooRes `yaml:"foo"` // tada :)
}
}
```
###Gob registration
All resources must be registered with the `golang` _gob_ module so that they can
be encoded and decoded. Make sure to include the following code snippet for this
to work.
```golang
import "encoding/gob"
func init() { // special golang method that runs once
gob.Register(&FooRes{}) // substitude your resource here
}
```
##Automatic edges
Automatic edges in `mgmt` are well described in [this article](https://ttboj.wordpress.com/2016/03/14/automatic-edges-in-mgmt/).
The best example of this technique can be seen in the `svc` resource.
Unfortunately no further documentation about this subject has been written. To
expand this section, please send a patch! Please contact us if you'd like to
work on a resource that uses this feature, or to add it to an existing one!
##Automatic grouping
Automatic grouping in `mgmt` is well described in [this article](https://ttboj.wordpress.com/2016/03/30/automatic-grouping-in-mgmt/).
The best example of this technique can be seen in the `pkg` resource.
Unfortunately no further documentation about this subject has been written. To
expand this section, please send a patch! Please contact us if you'd like to
work on a resource that uses this feature, or to add it to an existing one!
##Send/Recv
In `mgmt` there is a novel concept called _Send/Recv_. For some background,
please [read the introductory article](https://ttboj.wordpress.com/2016/12/07/sendrecv-in-mgmt/).
When using this feature, the engine will automatically send the user specified
value to the intended destination without requiring any resource specific code.
Any time that one of the destination values is changed, the engine automatically
marks the resource state as `dirty`. To detect if a particular value was
received, and if it changed (during this invocation of CheckApply) from the
previous value, you can query the Recv parameter. It will contain a `map` of all
the keys which can be received on, and the value has a `Changed` property which
will indicate whether the value was updated on this particular `CheckApply`
invocation. The type of the sending key must match that of the receiving one.
This can _only_ be done inside of the `CheckApply` function!
```golang
// inside CheckApply, probably near the top
if val, exists := obj.Recv["SomeKey"]; exists {
log.Printf("SomeKey was sent to us from: %s[%s].%s", val.Res.Kind(), val.Res.GetName(), val.Key)
if val.Changed {
log.Printf("SomeKey was just updated!")
// you may want to invalidate some local cache
}
}
```
Astute readers will note that there isn't anything that prevents a user from
sending an identically typed value to some arbitrary (public) key that the
resource author hadn't considered! While this is true, resources should probably
work within this problem space anyways. The rule of thumb is that any public
parameter which is normally used in a resource can be used safely.
One subtle scenario is that if a resource creates a local cache or stores a
computation that depends on the value of a public parameter and will require
invalidation should that public parameter change, then you must detect that
scenario and invalidate the cache when it occurs. This *must* be processed
before there is a possibility of failure in CheckApply, because if we fail (and
possibly run again) the subsequent send->recv transfer might not have a new
value to copy, and therefore we won't see this notification of change.
Therefore, it is important to process these promptly, if they must not be lost,
such as for cache invalidation.
Remember, `Send/Recv` only changes your resource code if you cache state.
##Composite resources
Composite resources are resources which embed one or more existing resources.
This is useful to prevent code duplication in higher level resource scenarios.
The best example of this technique can be seen in the `nspawn` resource which
can be seen to partially embed a `svc` resource, but without its `Watch`.
Unfortunately no further documentation about this subject has been written. To
expand this section, please send a patch! Please contact us if you'd like to
work on a resource that uses this feature, or to add it to an existing one!
##Frequently asked questions
(Send your questions as a patch to this FAQ! I'll review it, merge it, and
respond by commit with the answer.)
###Can I write resources in a different language?
Currently `golang` is the only supported language for built-in resources. We
might consider allowing external resources to be imported in the future. This
will likely require a language that can expose a C-like API, such as `python` or
`ruby`. Custom `golang` resources are already possible when using mgmt as a lib.
Higher level resource collections will be possible once the `mgmt` DSL is ready.
###What new resource primitives need writing?
There are still many ideas for new resources that haven't been written yet. If
you'd like to contribute one, please contact us and tell us about your idea!
###Where can I find more information about mgmt?
Additional blog posts, videos and other material [is available!](https://github.com/purpleidea/mgmt/#on-the-web).
##Suggestions
If you have any ideas for API changes or other improvements to resource writing,
please let us know! We're still pre 1.0 and pre 0.1 and happy to break API in
order to get it right!
##Authors
Copyright (C) 2013-2016+ James Shubin and the project contributors
Please see the
[AUTHORS](https://github.com/purpleidea/mgmt/tree/master/AUTHORS) file
for more information.
* [github](https://github.com/purpleidea/)
* [&#64;purpleidea](https://twitter.com/#!/purpleidea)
* [https://ttboj.wordpress.com/](https://ttboj.wordpress.com/)

131
etcd/etcd.go
View File

@@ -64,7 +64,6 @@ import (
"github.com/purpleidea/mgmt/converger"
"github.com/purpleidea/mgmt/event"
"github.com/purpleidea/mgmt/global"
"github.com/purpleidea/mgmt/resources"
"github.com/purpleidea/mgmt/util"
@@ -154,6 +153,13 @@ type TN struct {
data *etcd.TxnResponse
}
// Flags are some constant flags which are used throughout the program.
type Flags struct {
Debug bool // add additional log messages
Trace bool // add execution flow log messages
Verbose bool // add extra log message output
}
// EmbdEtcd provides the embedded server and client etcd functionality
type EmbdEtcd struct { // EMBeddeD etcd
// etcd client connection related
@@ -190,6 +196,7 @@ type EmbdEtcd struct { // EMBeddeD etcd
delq chan *DL // delete queue
txnq chan *TN // txn queue
flags Flags
prefix string // folder prefix to use for misc storage
converger converger.Converger // converged tracking
@@ -200,7 +207,7 @@ type EmbdEtcd struct { // EMBeddeD etcd
}
// NewEmbdEtcd creates the top level embedded etcd struct client and server obj
func NewEmbdEtcd(hostname string, seeds, clientURLs, serverURLs etcdtypes.URLs, noServer bool, idealClusterSize uint16, prefix string, converger converger.Converger) *EmbdEtcd {
func NewEmbdEtcd(hostname string, seeds, clientURLs, serverURLs etcdtypes.URLs, noServer bool, idealClusterSize uint16, flags Flags, prefix string, converger converger.Converger) *EmbdEtcd {
endpoints := make(etcdtypes.URLsMap)
if hostname == seedSentinel { // safety
return nil
@@ -229,6 +236,7 @@ func NewEmbdEtcd(hostname string, seeds, clientURLs, serverURLs etcdtypes.URLs,
idealClusterSize: idealClusterSize,
converger: converger,
flags: flags,
prefix: prefix,
dataDir: path.Join(prefix, "etcd"),
}
@@ -273,7 +281,7 @@ func (obj *EmbdEtcd) GetConfig() etcd.Config {
// Connect connects the client to a server, and then builds the *API structs.
// If reconnect is true, it will force a reconnect with new config endpoints.
func (obj *EmbdEtcd) Connect(reconnect bool) error {
if global.DEBUG {
if obj.flags.Debug {
log.Println("Etcd: Connect...")
}
obj.cLock.Lock()
@@ -308,7 +316,7 @@ func (obj *EmbdEtcd) Connect(reconnect bool) error {
if emax > maxClientConnectRetries {
log.Printf("Etcd: The dataDir (%s) might be inconsistent or corrupt.", obj.dataDir)
log.Printf("Etcd: Please see: %s", "https://github.com/purpleidea/mgmt/blob/master/DOCUMENTATION.md#what-does-the-error-message-about-an-inconsistent-datadir-mean")
obj.cError = fmt.Errorf("Can't find an available endpoint.")
obj.cError = fmt.Errorf("can't find an available endpoint")
return obj.cError
}
err = &CtxDelayErr{time.Duration(emax) * time.Second, "No endpoints available yet!"} // retry with backoff...
@@ -529,29 +537,29 @@ func (obj *EmbdEtcd) CtxError(ctx context.Context, err error) (context.Context,
var isTimeout = false
var iter int // = 0
if ctxerr, ok := ctx.Value(ctxErr).(error); ok {
if global.DEBUG {
if obj.flags.Debug {
log.Printf("Etcd: CtxError: err(%v), ctxerr(%v)", err, ctxerr)
}
if i, ok := ctx.Value(ctxIter).(int); ok {
iter = i + 1 // load and increment
if global.DEBUG {
if obj.flags.Debug {
log.Printf("Etcd: CtxError: Iter: %v", iter)
}
}
isTimeout = err == context.DeadlineExceeded
if global.DEBUG {
if obj.flags.Debug {
log.Printf("Etcd: CtxError: isTimeout: %v", isTimeout)
}
if !isTimeout {
iter = 0 // reset timer
}
err = ctxerr // restore error
} else if global.DEBUG {
} else if obj.flags.Debug {
log.Printf("Etcd: CtxError: No value found")
}
ctxHelper := func(tmin, texp, tmax int) context.Context {
t := expBackoff(tmin, texp, iter, tmax)
if global.DEBUG {
if obj.flags.Debug {
log.Printf("Etcd: CtxError: Timeout: %v", t)
}
@@ -638,13 +646,13 @@ func (obj *EmbdEtcd) CtxError(ctx context.Context, err error) (context.Context,
fallthrough
case isGrpc(grpc.ErrClientConnClosing):
if global.DEBUG {
if obj.flags.Debug {
log.Printf("Etcd: CtxError: Error(%T): %+v", err, err)
log.Printf("Etcd: Endpoints are: %v", obj.client.Endpoints())
log.Printf("Etcd: Client endpoints are: %v", obj.endpoints)
}
if global.DEBUG {
if obj.flags.Debug {
log.Printf("Etcd: CtxError: Locking...")
}
obj.rLock.Lock()
@@ -665,7 +673,7 @@ func (obj *EmbdEtcd) CtxError(ctx context.Context, err error) (context.Context,
obj.ctxErr = fmt.Errorf("Etcd: Permanent connect error: %v", err)
return ctx, obj.ctxErr
}
if global.DEBUG {
if obj.flags.Debug {
log.Printf("Etcd: CtxError: Unlocking...")
}
obj.rLock.Unlock()
@@ -709,7 +717,7 @@ func (obj *EmbdEtcd) CbLoop() {
if !re.skipConv { // if we want to count it...
cuid.ResetTimer() // activity!
}
if global.TRACE {
if obj.flags.Trace {
log.Printf("Trace: Etcd: CbLoop: Event: StartLoop")
}
for {
@@ -717,11 +725,11 @@ func (obj *EmbdEtcd) CbLoop() {
//re.resp.NACK() // nope!
break
}
if global.TRACE {
if obj.flags.Trace {
log.Printf("Trace: Etcd: CbLoop: rawCallback()")
}
err := rawCallback(ctx, re)
if global.TRACE {
if obj.flags.Trace {
log.Printf("Trace: Etcd: CbLoop: rawCallback(): %v", err)
}
if err == nil {
@@ -733,7 +741,7 @@ func (obj *EmbdEtcd) CbLoop() {
break // TODO: it's bad, break or return?
}
}
if global.TRACE {
if obj.flags.Trace {
log.Printf("Trace: Etcd: CbLoop: Event: FinishLoop")
}
@@ -761,11 +769,11 @@ func (obj *EmbdEtcd) Loop() {
select {
case aw := <-obj.awq:
cuid.ResetTimer() // activity!
if global.TRACE {
if obj.flags.Trace {
log.Printf("Trace: Etcd: Loop: PriorityAW: StartLoop")
}
obj.loopProcessAW(ctx, aw)
if global.TRACE {
if obj.flags.Trace {
log.Printf("Trace: Etcd: Loop: PriorityAW: FinishLoop")
}
continue // loop to drain the priority channel first!
@@ -777,18 +785,18 @@ func (obj *EmbdEtcd) Loop() {
// add watcher
case aw := <-obj.awq:
cuid.ResetTimer() // activity!
if global.TRACE {
if obj.flags.Trace {
log.Printf("Trace: Etcd: Loop: AW: StartLoop")
}
obj.loopProcessAW(ctx, aw)
if global.TRACE {
if obj.flags.Trace {
log.Printf("Trace: Etcd: Loop: AW: FinishLoop")
}
// set kv pair
case kv := <-obj.setq:
cuid.ResetTimer() // activity!
if global.TRACE {
if obj.flags.Trace {
log.Printf("Trace: Etcd: Loop: Set: StartLoop")
}
for {
@@ -805,7 +813,7 @@ func (obj *EmbdEtcd) Loop() {
break // TODO: it's bad, break or return?
}
}
if global.TRACE {
if obj.flags.Trace {
log.Printf("Trace: Etcd: Loop: Set: FinishLoop")
}
@@ -814,7 +822,7 @@ func (obj *EmbdEtcd) Loop() {
if !gq.skipConv {
cuid.ResetTimer() // activity!
}
if global.TRACE {
if obj.flags.Trace {
log.Printf("Trace: Etcd: Loop: Get: StartLoop")
}
for {
@@ -832,14 +840,14 @@ func (obj *EmbdEtcd) Loop() {
break // TODO: it's bad, break or return?
}
}
if global.TRACE {
if obj.flags.Trace {
log.Printf("Trace: Etcd: Loop: Get: FinishLoop")
}
// delete value
case dl := <-obj.delq:
cuid.ResetTimer() // activity!
if global.TRACE {
if obj.flags.Trace {
log.Printf("Trace: Etcd: Loop: Delete: StartLoop")
}
for {
@@ -857,14 +865,14 @@ func (obj *EmbdEtcd) Loop() {
break // TODO: it's bad, break or return?
}
}
if global.TRACE {
if obj.flags.Trace {
log.Printf("Trace: Etcd: Loop: Delete: FinishLoop")
}
// run txn
case tn := <-obj.txnq:
cuid.ResetTimer() // activity!
if global.TRACE {
if obj.flags.Trace {
log.Printf("Trace: Etcd: Loop: Txn: StartLoop")
}
for {
@@ -882,7 +890,7 @@ func (obj *EmbdEtcd) Loop() {
break // TODO: it's bad, break or return?
}
}
if global.TRACE {
if obj.flags.Trace {
log.Printf("Trace: Etcd: Loop: Txn: FinishLoop")
}
@@ -936,7 +944,7 @@ func (obj *EmbdEtcd) Set(key, value string, opts ...etcd.OpOption) error {
// rawSet actually implements the key set operation
func (obj *EmbdEtcd) rawSet(ctx context.Context, kv *KV) error {
if global.TRACE {
if obj.flags.Trace {
log.Printf("Trace: Etcd: rawSet()")
}
// key is the full key path
@@ -945,7 +953,7 @@ func (obj *EmbdEtcd) rawSet(ctx context.Context, kv *KV) error {
response, err := obj.client.KV.Put(ctx, kv.key, kv.value, kv.opts...)
obj.rLock.RUnlock()
log.Printf("Etcd: Set(%s): %v", kv.key, response) // w00t... bonus
if global.TRACE {
if obj.flags.Trace {
log.Printf("Trace: Etcd: rawSet(): %v", err)
}
return err
@@ -970,7 +978,7 @@ func (obj *EmbdEtcd) ComplexGet(path string, skipConv bool, opts ...etcd.OpOptio
}
func (obj *EmbdEtcd) rawGet(ctx context.Context, gq *GQ) (result map[string]string, err error) {
if global.TRACE {
if obj.flags.Trace {
log.Printf("Trace: Etcd: rawGet()")
}
obj.rLock.RLock()
@@ -986,7 +994,7 @@ func (obj *EmbdEtcd) rawGet(ctx context.Context, gq *GQ) (result map[string]stri
result[bytes.NewBuffer(x.Key).String()] = bytes.NewBuffer(x.Value).String()
}
if global.TRACE {
if obj.flags.Trace {
log.Printf("Trace: Etcd: rawGet(): %v", result)
}
return
@@ -1004,7 +1012,7 @@ func (obj *EmbdEtcd) Delete(path string, opts ...etcd.OpOption) (int64, error) {
}
func (obj *EmbdEtcd) rawDelete(ctx context.Context, dl *DL) (count int64, err error) {
if global.TRACE {
if obj.flags.Trace {
log.Printf("Trace: Etcd: rawDelete()")
}
count = -1
@@ -1014,7 +1022,7 @@ func (obj *EmbdEtcd) rawDelete(ctx context.Context, dl *DL) (count int64, err er
if err == nil {
count = response.Deleted
}
if global.TRACE {
if obj.flags.Trace {
log.Printf("Trace: Etcd: rawDelete(): %v", err)
}
return
@@ -1032,13 +1040,13 @@ func (obj *EmbdEtcd) Txn(ifcmps []etcd.Cmp, thenops, elseops []etcd.Op) (*etcd.T
}
func (obj *EmbdEtcd) rawTxn(ctx context.Context, tn *TN) (*etcd.TxnResponse, error) {
if global.TRACE {
if obj.flags.Trace {
log.Printf("Trace: Etcd: rawTxn()")
}
obj.rLock.RLock()
response, err := obj.client.KV.Txn(ctx).If(tn.ifcmps...).Then(tn.thenops...).Else(tn.elseops...).Commit()
obj.rLock.RUnlock()
if global.TRACE {
if obj.flags.Trace {
log.Printf("Trace: Etcd: rawTxn(): %v, %v", response, err)
}
return response, err
@@ -1072,7 +1080,7 @@ func (obj *EmbdEtcd) rawAddWatcher(ctx context.Context, aw *AW) (func(), error)
err := response.Err()
isCanceled := response.Canceled || err == context.Canceled
if response.Header.Revision == 0 { // by inspection
if global.DEBUG {
if obj.flags.Debug {
log.Printf("Etcd: Watch: Received empty message!") // switched client connection
}
isCanceled = true
@@ -1093,7 +1101,7 @@ func (obj *EmbdEtcd) rawAddWatcher(ctx context.Context, aw *AW) (func(), error)
}
locked = false
} else {
if global.DEBUG {
if obj.flags.Debug {
log.Printf("Etcd: Watch: Error: %v", err) // probably fixable
}
// this new context is the fix for a tricky set
@@ -1142,9 +1150,6 @@ func rawCallback(ctx context.Context, re *RE) error {
// NOTE: the callback must *not* block!
// FIXME: do we need to pass ctx in via *RE, or in the callback signature ?
err = callback(re) // run the callback
if global.TRACE {
log.Printf("Trace: Etcd: rawCallback(): %v", err)
}
if !re.errCheck || err == nil {
return nil
}
@@ -1160,7 +1165,7 @@ func rawCallback(ctx context.Context, re *RE) error {
// FIXME: we might need to respond to member change/disconnect/shutdown events,
// see: https://github.com/coreos/etcd/issues/5277
func (obj *EmbdEtcd) volunteerCallback(re *RE) error {
if global.TRACE {
if obj.flags.Trace {
log.Printf("Trace: Etcd: volunteerCallback()")
defer log.Printf("Trace: Etcd: volunteerCallback(): Finished!")
}
@@ -1348,7 +1353,7 @@ func (obj *EmbdEtcd) volunteerCallback(re *RE) error {
// nominateCallback runs to respond to the nomination list change events
// functionally, it controls the starting and stopping of the server process
func (obj *EmbdEtcd) nominateCallback(re *RE) error {
if global.TRACE {
if obj.flags.Trace {
log.Printf("Trace: Etcd: nominateCallback()")
defer log.Printf("Trace: Etcd: nominateCallback(): Finished!")
}
@@ -1397,7 +1402,7 @@ func (obj *EmbdEtcd) nominateCallback(re *RE) error {
_, exists := obj.nominated[obj.hostname]
// FIXME: can we get rid of the len(obj.nominated) == 0 ?
newCluster := len(obj.nominated) == 0 || (len(obj.nominated) == 1 && exists)
if global.DEBUG {
if obj.flags.Debug {
log.Printf("Etcd: nominateCallback(): newCluster: %v; exists: %v; obj.server == nil: %t", newCluster, exists, obj.server == nil)
}
// XXX: check if i have actually volunteered first of all...
@@ -1500,7 +1505,7 @@ func (obj *EmbdEtcd) nominateCallback(re *RE) error {
// endpointCallback runs to respond to the endpoint list change events
func (obj *EmbdEtcd) endpointCallback(re *RE) error {
if global.TRACE {
if obj.flags.Trace {
log.Printf("Trace: Etcd: endpointCallback()")
defer log.Printf("Trace: Etcd: endpointCallback(): Finished!")
}
@@ -1566,7 +1571,7 @@ func (obj *EmbdEtcd) endpointCallback(re *RE) error {
// idealClusterSizeCallback runs to respond to the ideal cluster size changes
func (obj *EmbdEtcd) idealClusterSizeCallback(re *RE) error {
if global.TRACE {
if obj.flags.Trace {
log.Printf("Trace: Etcd: idealClusterSizeCallback()")
defer log.Printf("Trace: Etcd: idealClusterSizeCallback(): Finished!")
}
@@ -1672,6 +1677,14 @@ func (obj *EmbdEtcd) StartServer(newCluster bool, peerURLsMap etcdtypes.URLsMap)
obj.serverwg.Add(1) // add for the DestroyServer()
obj.DestroyServer()
return e
// TODO: should we wait for this notification elsewhere?
case <-obj.server.Server.StopNotify(): // it's going down now...
e := fmt.Errorf("Etcd: StartServer: Received stop notification.")
log.Printf(e.Error())
obj.server.Server.Stop() // trigger a shutdown
obj.serverwg.Add(1) // add for the DestroyServer()
obj.DestroyServer()
return e
}
//log.Fatal(<-obj.server.Err()) XXX
log.Printf("Etcd: StartServer: Server running...")
@@ -1705,7 +1718,7 @@ func (obj *EmbdEtcd) DestroyServer() error {
// EtcdNominate nominates a particular client to be a server (peer)
func EtcdNominate(obj *EmbdEtcd, hostname string, urls etcdtypes.URLs) error {
if global.TRACE {
if obj.flags.Trace {
log.Printf("Trace: Etcd: EtcdNominate(%v): %v", hostname, urls.String())
defer log.Printf("Trace: Etcd: EtcdNominate(%v): Finished!", hostname)
}
@@ -1747,7 +1760,7 @@ func EtcdNominated(obj *EmbdEtcd) (etcdtypes.URLsMap, error) {
return nil, fmt.Errorf("Etcd: Nominated: Data format error!: %v", err)
}
nominated[name] = urls // add to map
if global.DEBUG {
if obj.flags.Debug {
log.Printf("Etcd: Nominated(%v): %v", name, val)
}
}
@@ -1756,7 +1769,7 @@ func EtcdNominated(obj *EmbdEtcd) (etcdtypes.URLsMap, error) {
// EtcdVolunteer offers yourself up to be a server if needed
func EtcdVolunteer(obj *EmbdEtcd, urls etcdtypes.URLs) error {
if global.TRACE {
if obj.flags.Trace {
log.Printf("Trace: Etcd: EtcdVolunteer(%v): %v", obj.hostname, urls.String())
defer log.Printf("Trace: Etcd: EtcdVolunteer(%v): Finished!", obj.hostname)
}
@@ -1779,7 +1792,7 @@ func EtcdVolunteer(obj *EmbdEtcd, urls etcdtypes.URLs) error {
// EtcdVolunteers returns a urls map of available etcd server volunteers
func EtcdVolunteers(obj *EmbdEtcd) (etcdtypes.URLsMap, error) {
if global.TRACE {
if obj.flags.Trace {
log.Printf("Trace: Etcd: EtcdVolunteers()")
defer log.Printf("Trace: Etcd: EtcdVolunteers(): Finished!")
}
@@ -1802,7 +1815,7 @@ func EtcdVolunteers(obj *EmbdEtcd) (etcdtypes.URLsMap, error) {
return nil, fmt.Errorf("Etcd: Volunteers: Data format error!: %v", err)
}
volunteers[name] = urls // add to map
if global.DEBUG {
if obj.flags.Debug {
log.Printf("Etcd: Volunteer(%v): %v", name, val)
}
}
@@ -1811,7 +1824,7 @@ func EtcdVolunteers(obj *EmbdEtcd) (etcdtypes.URLsMap, error) {
// EtcdAdvertiseEndpoints advertises the list of available client endpoints
func EtcdAdvertiseEndpoints(obj *EmbdEtcd, urls etcdtypes.URLs) error {
if global.TRACE {
if obj.flags.Trace {
log.Printf("Trace: Etcd: EtcdAdvertiseEndpoints(%v): %v", obj.hostname, urls.String())
defer log.Printf("Trace: Etcd: EtcdAdvertiseEndpoints(%v): Finished!", obj.hostname)
}
@@ -1834,7 +1847,7 @@ func EtcdAdvertiseEndpoints(obj *EmbdEtcd, urls etcdtypes.URLs) error {
// EtcdEndpoints returns a urls map of available etcd server endpoints
func EtcdEndpoints(obj *EmbdEtcd) (etcdtypes.URLsMap, error) {
if global.TRACE {
if obj.flags.Trace {
log.Printf("Trace: Etcd: EtcdEndpoints()")
defer log.Printf("Trace: Etcd: EtcdEndpoints(): Finished!")
}
@@ -1857,7 +1870,7 @@ func EtcdEndpoints(obj *EmbdEtcd) (etcdtypes.URLsMap, error) {
return nil, fmt.Errorf("Etcd: Endpoints: Data format error!: %v", err)
}
endpoints[name] = urls // add to map
if global.DEBUG {
if obj.flags.Debug {
log.Printf("Etcd: Endpoint(%v): %v", name, val)
}
}
@@ -1866,7 +1879,7 @@ func EtcdEndpoints(obj *EmbdEtcd) (etcdtypes.URLsMap, error) {
// EtcdSetHostnameConverged sets whether a specific hostname is converged.
func EtcdSetHostnameConverged(obj *EmbdEtcd, hostname string, isConverged bool) error {
if global.TRACE {
if obj.flags.Trace {
log.Printf("Trace: Etcd: EtcdSetHostnameConverged(%s): %v", hostname, isConverged)
defer log.Printf("Trace: Etcd: EtcdSetHostnameConverged(%v): Finished!", hostname)
}
@@ -1880,7 +1893,7 @@ func EtcdSetHostnameConverged(obj *EmbdEtcd, hostname string, isConverged bool)
// EtcdHostnameConverged returns a map of every hostname's converged state.
func EtcdHostnameConverged(obj *EmbdEtcd) (map[string]bool, error) {
if global.TRACE {
if obj.flags.Trace {
log.Printf("Trace: Etcd: EtcdHostnameConverged()")
defer log.Printf("Trace: Etcd: EtcdHostnameConverged(): Finished!")
}
@@ -1925,7 +1938,7 @@ func EtcdAddHostnameConvergedWatcher(obj *EmbdEtcd, callbackFn func(map[string]b
// EtcdSetClusterSize sets the ideal target cluster size of etcd peers
func EtcdSetClusterSize(obj *EmbdEtcd, value uint16) error {
if global.TRACE {
if obj.flags.Trace {
log.Printf("Trace: Etcd: EtcdSetClusterSize(): %v", value)
defer log.Printf("Trace: Etcd: EtcdSetClusterSize(): Finished!")
}
@@ -2019,7 +2032,7 @@ func EtcdMembers(obj *EmbdEtcd) (map[uint64]string, error) {
return nil, fmt.Errorf("Exiting...")
}
obj.rLock.RLock()
if global.TRACE {
if obj.flags.Trace {
log.Printf("Trace: Etcd: EtcdMembers(): Endpoints are: %v", obj.client.Endpoints())
}
response, err = obj.client.MemberList(ctx)
@@ -2271,9 +2284,7 @@ func ApplyDeltaEvents(re *RE, urlsmap etcdtypes.URLsMap) (etcdtypes.URLsMap, err
if _, exists := urlsmap[key]; !exists {
// this can happen if we retry an operation b/w
// a reconnect so ignore if we are reconnecting
if global.DEBUG {
log.Printf("Etcd: ApplyDeltaEvents: Inconsistent key: %v", key)
}
return nil, errApplyDeltaEventsInconsistent
}
delete(urlsmap, key)

43
etcd/world.go Normal file
View File

@@ -0,0 +1,43 @@
// Mgmt
// Copyright (C) 2013-2016+ James Shubin and the project contributors
// Written by James Shubin <james@shubin.ca> and the project contributors
//
// This program is free software: you can redistribute it and/or modify
// it under the terms of the GNU Affero General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
//
// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU Affero General Public License for more details.
//
// You should have received a copy of the GNU Affero General Public License
// along with this program. If not, see <http://www.gnu.org/licenses/>.
package etcd
import (
"github.com/purpleidea/mgmt/resources"
)
// World is an etcd backed implementation of the World interface.
type World struct {
Hostname string // uuid for the consumer of these
EmbdEtcd *EmbdEtcd
}
// ResExport exports a list of resources under our hostname namespace.
// Subsequent calls replace the previously set collection atomically.
func (obj *World) ResExport(resourceList []resources.Res) error {
return EtcdSetResources(obj.EmbdEtcd, obj.Hostname, resourceList)
}
// ResCollect gets the collection of exported resources which match the filter.
// It does this atomically so that a call always returns a complete collection.
func (obj *World) ResCollect(hostnameFilter, kindFilter []string) ([]resources.Res, error) {
// XXX: should we be restricted to retrieving resources that were
// exported with a tag that allows or restricts our hostname? We could
// enforce that here if the underlying API supported it... Add this?
return EtcdGetResources(obj.EmbdEtcd, hostnameFilter, kindFilter)
}

7
examples/hostname.yaml Normal file
View File

@@ -0,0 +1,7 @@
---
graph: mygraph
resources:
hostname:
- name: Hostname Watcher @ TestHost
hostname: test.hostname.example.com
edges: []

8
examples/lib/libmgmt1.go
View File

@@ -11,7 +11,7 @@ import (
"time"
"github.com/purpleidea/mgmt/gapi"
mgmt "github.com/purpleidea/mgmt/mgmtmain"
mgmt "github.com/purpleidea/mgmt/lib"
"github.com/purpleidea/mgmt/pgraph"
"github.com/purpleidea/mgmt/resources"
"github.com/purpleidea/mgmt/yamlgraph"
@@ -81,12 +81,12 @@ func (obj *MyGAPI) Graph() (*pgraph.Graph, error) {
Comment: "comment!",
}
g, err := gc.NewGraphFromConfig(obj.data.Hostname, obj.data.EmbdEtcd, obj.data.Noop)
g, err := gc.NewGraphFromConfig(obj.data.Hostname, obj.data.World, obj.data.Noop)
return g, err
}
// SwitchStream returns nil errors every time there could be a new graph.
func (obj *MyGAPI) SwitchStream() chan error {
// Next returns nil errors every time there could be a new graph.
func (obj *MyGAPI) Next() chan error {
if obj.data.NoWatch || obj.Interval <= 0 {
return nil
}

8
examples/lib/libmgmt2.go
View File

@@ -12,7 +12,7 @@ import (
"time"
"github.com/purpleidea/mgmt/gapi"
mgmt "github.com/purpleidea/mgmt/mgmtmain"
mgmt "github.com/purpleidea/mgmt/lib"
"github.com/purpleidea/mgmt/pgraph"
"github.com/purpleidea/mgmt/resources"
)
@@ -74,12 +74,12 @@ func (obj *MyGAPI) Graph() (*pgraph.Graph, error) {
vertex = v // save
}
//g, err := config.NewGraphFromConfig(obj.data.Hostname, obj.data.EmbdEtcd, obj.data.Noop)
//g, err := config.NewGraphFromConfig(obj.data.Hostname, obj.data.World, obj.data.Noop)
return g, nil
}
// SwitchStream returns nil errors every time there could be a new graph.
func (obj *MyGAPI) SwitchStream() chan error {
// Next returns nil errors every time there could be a new graph.
func (obj *MyGAPI) Next() chan error {
if obj.data.NoWatch || obj.Interval <= 0 {
return nil
}

225
examples/lib/libmgmt3.go Normal file
View File

@@ -0,0 +1,225 @@
// libmgmt example of send->recv
package main
import (
"fmt"
"log"
"os"
"os/signal"
"sync"
"syscall"
"time"
"github.com/purpleidea/mgmt/gapi"
mgmt "github.com/purpleidea/mgmt/lib"
"github.com/purpleidea/mgmt/pgraph"
"github.com/purpleidea/mgmt/resources"
)
// MyGAPI implements the main GAPI interface.
type MyGAPI struct {
Name string // graph name
Interval uint // refresh interval, 0 to never refresh
data gapi.Data
initialized bool
closeChan chan struct{}
wg sync.WaitGroup // sync group for tunnel go routines
}
// NewMyGAPI creates a new MyGAPI struct and calls Init().
func NewMyGAPI(data gapi.Data, name string, interval uint) (*MyGAPI, error) {
obj := &MyGAPI{
Name: name,
Interval: interval,
}
return obj, obj.Init(data)
}
// Init initializes the MyGAPI struct.
func (obj *MyGAPI) Init(data gapi.Data) error {
if obj.initialized {
return fmt.Errorf("Already initialized!")
}
if obj.Name == "" {
return fmt.Errorf("The graph name must be specified!")
}
obj.data = data // store for later
obj.closeChan = make(chan struct{})
obj.initialized = true
return nil
}
// Graph returns a current Graph.
func (obj *MyGAPI) Graph() (*pgraph.Graph, error) {
if !obj.initialized {
return nil, fmt.Errorf("libmgmt: MyGAPI is not initialized")
}
g := pgraph.NewGraph(obj.Name)
content := "Delete me to trigger a notification!\n"
f0 := &resources.FileRes{
BaseRes: resources.BaseRes{
Name: "README",
},
Path: "/tmp/mgmt/README",
Content: &content,
State: "present",
}
v0 := pgraph.NewVertex(f0)
g.AddVertex(v0)
p1 := &resources.PasswordRes{
BaseRes: resources.BaseRes{
Name: "password1",
},
Length: 8, // generated string will have this many characters
Saved: true, // this causes passwords to be stored in plain text!
}
v1 := pgraph.NewVertex(p1)
g.AddVertex(v1)
f1 := &resources.FileRes{
BaseRes: resources.BaseRes{
Name: "file1",
// send->recv!
Recv: map[string]*resources.Send{
"Content": {Res: p1, Key: "Password"},
},
},
Path: "/tmp/mgmt/secret",
//Content: p1.Password, // won't work
State: "present",
}
v2 := pgraph.NewVertex(f1)
g.AddVertex(v2)
n1 := &resources.NoopRes{
BaseRes: resources.BaseRes{
Name: "noop1",
},
}
v3 := pgraph.NewVertex(n1)
g.AddVertex(v3)
e0 := pgraph.NewEdge("e0")
e0.Notify = true // send a notification from v0 to v1
g.AddEdge(v0, v1, e0)
g.AddEdge(v1, v2, pgraph.NewEdge("e1"))
e2 := pgraph.NewEdge("e2")
e2.Notify = true // send a notification from v2 to v3
g.AddEdge(v2, v3, e2)
//g, err := config.NewGraphFromConfig(obj.data.Hostname, obj.data.World, obj.data.Noop)
return g, nil
}
// Next returns nil errors every time there could be a new graph.
func (obj *MyGAPI) Next() chan error {
if obj.data.NoWatch || obj.Interval <= 0 {
return nil
}
ch := make(chan error)
obj.wg.Add(1)
go func() {
defer obj.wg.Done()
defer close(ch) // this will run before the obj.wg.Done()
if !obj.initialized {
ch <- fmt.Errorf("libmgmt: MyGAPI is not initialized")
return
}
// arbitrarily change graph every interval seconds
ticker := time.NewTicker(time.Duration(obj.Interval) * time.Second)
defer ticker.Stop()
for {
select {
case <-ticker.C:
log.Printf("libmgmt: Generating new graph...")
ch <- nil // trigger a run
case <-obj.closeChan:
return
}
}
}()
return ch
}
// Close shuts down the MyGAPI.
func (obj *MyGAPI) Close() error {
if !obj.initialized {
return fmt.Errorf("libmgmt: MyGAPI is not initialized")
}
close(obj.closeChan)
obj.wg.Wait()
obj.initialized = false // closed = true
return nil
}
// Run runs an embedded mgmt server.
func Run() error {
obj := &mgmt.Main{}
obj.Program = "libmgmt" // TODO: set on compilation
obj.Version = "0.0.1" // TODO: set on compilation
obj.TmpPrefix = true // disable for easy debugging
//prefix := "/tmp/testprefix/"
//obj.Prefix = &p // enable for easy debugging
obj.IdealClusterSize = -1
obj.ConvergedTimeout = -1
obj.Noop = false // FIXME: careful!
obj.GAPI = &MyGAPI{ // graph API
Name: "libmgmt", // TODO: set on compilation
Interval: 60 * 10, // arbitrarily change graph every 15 seconds
}
if err := obj.Init(); err != nil {
return err
}
// install the exit signal handler
exit := make(chan struct{})
defer close(exit)
go func() {
signals := make(chan os.Signal, 1)
signal.Notify(signals, os.Interrupt) // catch ^C
//signal.Notify(signals, os.Kill) // catch signals
signal.Notify(signals, syscall.SIGTERM)
select {
case sig := <-signals: // any signal will do
if sig == os.Interrupt {
log.Println("Interrupted by ^C")
obj.Exit(nil)
return
}
log.Println("Interrupted by signal")
obj.Exit(fmt.Errorf("Killed by %v", sig))
return
case <-exit:
return
}
}()
if err := obj.Run(); err != nil {
return err
}
return nil
}
func main() {
log.Printf("Hello!")
if err := Run(); err != nil {
fmt.Println(err)
os.Exit(1)
return
}
log.Printf("Goodbye!")
}

7
examples/nspawn1.yaml Normal file
View File

@@ -0,0 +1,7 @@
---
graph: mygraph
resources:
nspawn:
- name: mgmt-nspawn1
state: running
edges: []

7
examples/nspawn2.yaml Normal file
View File

@@ -0,0 +1,7 @@
---
graph: mygraph
resources:
nspawn:
- name: mgmt-nspawn2
state: stopped
edges: []

15
gapi/gapi.go
View File

@@ -19,14 +19,23 @@
package gapi
import (
"github.com/purpleidea/mgmt/etcd"
"github.com/purpleidea/mgmt/pgraph"
"github.com/purpleidea/mgmt/resources"
)
// World is an interface to the rest of the different graph state. It allows
// the GAPI to store state and exchange information throughout the cluster. It
// is the interface each machine uses to communicate with the rest of the world.
type World interface { // TODO: is there a better name for this interface?
ResExport([]resources.Res) error
// FIXME: should this method take a "filter" data struct instead of many args?
ResCollect(hostnameFilter, kindFilter []string) ([]resources.Res, error)
}
// Data is the set of input values passed into the GAPI structs via Init.
type Data struct {
Hostname string // uuid for the host, required for GAPI
EmbdEtcd *etcd.EmbdEtcd
World World
Noop bool
NoWatch bool
// NOTE: we can add more fields here if needed by GAPI endpoints
@@ -36,6 +45,6 @@ type Data struct {
type GAPI interface {
Init(Data) error // initializes the GAPI and passes in useful data
Graph() (*pgraph.Graph, error) // returns the most recent pgraph
SwitchStream() chan error // returns a stream of switch events
Next() chan error // returns a stream of switch events
Close() error // shutdown the GAPI
}

36
mgmtmain/cli.go → lib/cli.go
View File

@@ -15,7 +15,7 @@
// You should have received a copy of the GNU Affero General Public License
// along with this program. If not, see <http://www.gnu.org/licenses/>.
package mgmtmain
package lib
import (
"fmt"
@@ -37,6 +37,11 @@ func run(c *cli.Context) error {
obj.Program = c.App.Name
obj.Version = c.App.Version
if val, exists := c.App.Metadata["flags"]; exists {
if flags, ok := val.(Flags); ok {
obj.Flags = flags
}
}
if h := c.String("hostname"); c.IsSet("hostname") && h != "" {
obj.Hostname = &h
@@ -96,6 +101,16 @@ func run(c *cli.Context) error {
obj.NoCaching = c.Bool("no-caching")
obj.Depth = uint16(c.Int("depth"))
obj.NoPgp = c.Bool("no-pgp")
if kp := c.String("pgp-key-path"); c.IsSet("pgp-key-path") {
obj.PgpKeyPath = &kp
}
if us := c.String("pgp-identity"); c.IsSet("pgp-identity") {
obj.PgpIdentity = &us
}
if err := obj.Init(); err != nil {
return err
}
@@ -133,7 +148,7 @@ func run(c *cli.Context) error {
}
// CLI is the entry point for using mgmt normally from the CLI.
func CLI(program, version string) error {
func CLI(program, version string, flags Flags) error {
// test for sanity
if program == "" || version == "" {
@@ -143,6 +158,9 @@ func CLI(program, version string) error {
app.Name = program // App.name and App.version pass these values through
app.Version = version
app.Usage = "next generation config management"
app.Metadata = map[string]interface{}{ // additional flags
"flags": flags,
}
//app.Action = ... // without a default action, help runs
app.Commands = []cli.Command{
@@ -288,6 +306,20 @@ func CLI(program, version string) error {
Value: 0,
Usage: "specify depth in remote hierarchy",
},
cli.BoolFlag{
Name: "no-pgp",
Usage: "don't create pgp keys",
},
cli.StringFlag{
Name: "pgp-key-path",
Value: "",
Usage: "path for instance key pair",
},
cli.StringFlag{
Name: "pgp-identity",
Value: "",
Usage: "default identity used for generation",
},
},
},
}

131
mgmtmain/main.go → lib/main.go
View File

@@ -15,22 +15,24 @@
// You should have received a copy of the GNU Affero General Public License
// along with this program. If not, see <http://www.gnu.org/licenses/>.
package mgmtmain
package lib
import (
"fmt"
"io/ioutil"
"log"
"os"
"sync"
"path"
"time"
"github.com/purpleidea/mgmt/converger"
"github.com/purpleidea/mgmt/etcd"
"github.com/purpleidea/mgmt/gapi"
"github.com/purpleidea/mgmt/pgp"
"github.com/purpleidea/mgmt/pgraph"
"github.com/purpleidea/mgmt/recwatch"
"github.com/purpleidea/mgmt/remote"
"github.com/purpleidea/mgmt/resources"
"github.com/purpleidea/mgmt/util"
etcdtypes "github.com/coreos/etcd/pkg/types"
@@ -39,11 +41,20 @@ import (
errwrap "github.com/pkg/errors"
)
// Flags are some constant flags which are used throughout the program.
type Flags struct {
Debug bool // add additional log messages
Trace bool // add execution flow log messages
Verbose bool // add extra log message output
}
// Main is the main struct for running the mgmt logic.
type Main struct {
Program string // the name of this program, usually set at compile time
Version string // the version of this program, usually set at compile time
Flags Flags // static global flags that are set at compile time
Hostname *string // hostname to use; nil if undefined
Prefix *string // prefix passed in; nil if undefined
@@ -72,14 +83,16 @@ type Main struct {
NoCaching bool // don't allow remote caching of remote execution binary
Depth uint16 // depth in remote hierarchy; for internal use only
DEBUG bool
VERBOSE bool
seeds etcdtypes.URLs // processed seeds value
clientURLs etcdtypes.URLs // processed client urls value
serverURLs etcdtypes.URLs // processed server urls value
idealClusterSize uint16 // processed ideal cluster size value
NoPgp bool // disallow pgp functionality
PgpKeyPath *string // import a pre-made key pair
PgpIdentity *string
pgpKeys *pgp.PGP // agent key pair
exit chan error // exit signal
}
@@ -159,7 +172,7 @@ func (obj *Main) Run() error {
var start = time.Now().UnixNano()
var flags int
if obj.DEBUG || true { // TODO: remove || true
if obj.Flags.Debug || true { // TODO: remove || true
flags = log.LstdFlags | log.Lshortfile
}
flags = (flags - log.Ldate) // remove the date for now
@@ -167,7 +180,7 @@ func (obj *Main) Run() error {
// un-hijack from capnslog...
log.SetOutput(os.Stderr)
if obj.VERBOSE {
if obj.Flags.Verbose {
capnslog.SetFormatter(capnslog.NewLogFormatter(os.Stderr, "(etcd) ", flags))
} else {
capnslog.SetFormatter(capnslog.NewNilFormatter())
@@ -205,8 +218,54 @@ func (obj *Main) Run() error {
}
}
log.Printf("Main: Working prefix is: %s", prefix)
pgraphPrefix := fmt.Sprintf("%s/", path.Join(prefix, "pgraph")) // pgraph namespace
if err := os.MkdirAll(pgraphPrefix, 0770); err != nil {
return errwrap.Wrapf(err, "Can't create pgraph prefix")
}
if !obj.NoPgp {
pgpPrefix := fmt.Sprintf("%s/", path.Join(prefix, "pgp"))
if err := os.MkdirAll(pgpPrefix, 0770); err != nil {
return errwrap.Wrapf(err, "Can't create pgp prefix")
}
pgpKeyringPath := path.Join(pgpPrefix, pgp.DefaultKeyringFile) // default path
if p := obj.PgpKeyPath; p != nil {
pgpKeyringPath = *p
}
var err error
if obj.pgpKeys, err = pgp.Import(pgpKeyringPath); err != nil && !os.IsNotExist(err) {
return errwrap.Wrapf(err, "Can't import pgp key")
}
if obj.pgpKeys == nil {
identity := fmt.Sprintf("%s <%s> %s", obj.Program, "root@"+hostname, "generated by "+obj.Program)
if p := obj.PgpIdentity; p != nil {
identity = *p
}
name, comment, email, err := pgp.ParseIdentity(identity)
if err != nil {
return errwrap.Wrapf(err, "Can't parse user string")
}
// TODO: Make hash configurable
if obj.pgpKeys, err = pgp.Generate(name, comment, email, nil); err != nil {
return errwrap.Wrapf(err, "Can't creating pgp key")
}
if err := obj.pgpKeys.SaveKey(pgpKeyringPath); err != nil {
return errwrap.Wrapf(err, "Can't save pgp key")
}
}
// TODO: Import admin key
}
var wg sync.WaitGroup
var G, oldGraph *pgraph.Graph
// exit after `max-runtime` seconds for no reason at all...
@@ -237,6 +296,11 @@ func (obj *Main) Run() error {
obj.serverURLs,
obj.NoServer,
obj.idealClusterSize,
etcd.Flags{
Debug: obj.Flags.Debug,
Trace: obj.Flags.Trace,
Verbose: obj.Flags.Verbose,
},
prefix,
converger,
)
@@ -268,33 +332,37 @@ func (obj *Main) Run() error {
var gapiChan chan error // stream events are nil errors
if obj.GAPI != nil {
data := gapi.Data{
Hostname: hostname,
// NOTE: alternate implementations can be substituted in
World: &etcd.World{
Hostname: hostname,
EmbdEtcd: EmbdEtcd,
},
Noop: obj.Noop,
NoWatch: obj.NoWatch,
}
if err := obj.GAPI.Init(data); err != nil {
obj.Exit(fmt.Errorf("Main: GAPI: Init failed: %v", err))
} else if !obj.NoWatch {
gapiChan = obj.GAPI.SwitchStream() // stream of graph switch events!
gapiChan = obj.GAPI.Next() // stream of graph switch events!
}
}
exitchan := make(chan struct{}) // exit on close
go func() {
startchan := make(chan struct{}) // start signal
go func() { startchan <- struct{}{} }()
startChan := make(chan struct{}) // start signal
go func() { startChan <- struct{}{} }()
log.Println("Etcd: Starting...")
etcdchan := etcd.EtcdWatch(EmbdEtcd)
etcdChan := etcd.EtcdWatch(EmbdEtcd)
first := true // first loop or not
for {
log.Println("Main: Waiting...")
select {
case <-startchan: // kick the loop once at start
case <-startChan: // kick the loop once at start
// pass
case b := <-etcdchan:
case b := <-etcdChan:
if !b { // ignore the message
continue
}
@@ -302,6 +370,10 @@ func (obj *Main) Run() error {
case err, ok := <-gapiChan:
if !ok { // channel closed
if obj.Flags.Debug {
log.Printf("Main: GAPI exited")
}
gapiChan = nil // disable it
continue
}
if err != nil {
@@ -338,11 +410,18 @@ func (obj *Main) Run() error {
log.Printf("Config: Error creating new graph: %v", err)
// unpause!
if !first {
G.Start(&wg, first) // sync
G.Start(first) // sync
converger.Start() // after G.Start()
}
continue
}
newGraph.Flags = pgraph.Flags{Debug: obj.Flags.Debug}
// pass in the information we need
newGraph.AssociateData(&resources.Data{
Converger: converger,
Prefix: pgraphPrefix,
Debug: obj.Flags.Debug,
})
// apply the global noop parameter if requested
if obj.Noop {
@@ -359,7 +438,7 @@ func (obj *Main) Run() error {
log.Printf("Config: Error running graph sync: %v", err)
// unpause!
if !first {
G.Start(&wg, first) // sync
G.Start(first) // sync
converger.Start() // after G.Start()
}
continue
@@ -370,6 +449,7 @@ func (obj *Main) Run() error {
G.AutoEdges() // add autoedges; modifies the graph
G.AutoGroup() // run autogroup; modifies the graph
// TODO: do we want to do a transitive reduction?
// FIXME: run a type checker that verifies all the send->recv relationships
log.Printf("Graph: %v", G) // show graph
if obj.GraphvizFilter != "" {
@@ -379,19 +459,19 @@ func (obj *Main) Run() error {
log.Printf("Graphviz: Successfully generated graph!")
}
}
G.AssociateData(converger)
// G.Start(...) needs to be synchronous or wait,
// because if half of the nodes are started and
// some are not ready yet and the EtcdWatch
// loops, we'll cause G.Pause(...) before we
// even got going, thus causing nil pointer errors
G.Start(&wg, first) // sync
G.Start(first) // sync
converger.Start() // after G.Start()
first = false
}
}()
configWatcher := recwatch.NewConfigWatcher()
configWatcher.Flags = recwatch.Flags{Debug: obj.Flags.Debug}
events := configWatcher.Events()
if !obj.NoWatch {
configWatcher.Add(obj.Remotes...) // add all the files...
@@ -428,7 +508,10 @@ func (obj *Main) Run() error {
prefix,
converger,
convergerCb,
obj.Program,
remote.Flags{
Program: obj.Program,
Debug: obj.Flags.Debug,
},
)
// TODO: is there any benefit to running the remotes above in the loop?
@@ -457,23 +540,21 @@ func (obj *Main) Run() error {
reterr = multierr.Append(reterr, err) // list of errors
}
G.Exit() // tell all the children to exit
// tell inner main loop to exit
close(exitchan)
G.Exit() // tell all the children to exit, and waits for them to do so
// cleanup etcd main loop last so it can process everything first
if err := EmbdEtcd.Destroy(); err != nil { // shutdown and cleanup etcd
err = errwrap.Wrapf(err, "Etcd exited poorly!")
reterr = multierr.Append(reterr, err) // list of errors
}
if obj.DEBUG {
log.Printf("Graph: %v", G)
if obj.Flags.Debug {
log.Printf("Main: Graph: %v", G)
}
wg.Wait() // wait for primary go routines to exit
// TODO: wait for each vertex to exit...
log.Println("Goodbye!")
return reterr

16
main.go
View File

@@ -21,7 +21,14 @@ import (
"fmt"
"os"
"github.com/purpleidea/mgmt/mgmtmain"
mgmt "github.com/purpleidea/mgmt/lib"
)
// These constants are some global variables that are used throughout the code.
const (
DEBUG = false // add additional log messages
TRACE = false // add execution flow log messages
VERBOSE = false // add extra log message output
)
// set at compile time
@@ -31,7 +38,12 @@ var (
)
func main() {
if err := mgmtmain.CLI(program, version); err != nil {
flags := mgmt.Flags{
Debug: DEBUG,
Trace: TRACE,
Verbose: VERBOSE,
}
if err := mgmt.CLI(program, version, flags); err != nil {
fmt.Println(err)
os.Exit(1)
return

7
misc/make-deps.sh
View File

@@ -12,7 +12,14 @@ fi
sudo_command=$(which sudo)
YUM=`which yum 2>/dev/null`
DNF=`which dnf 2>/dev/null`
APT=`which apt-get 2>/dev/null`
# if DNF is available use it
if [ -x "$DNF" ]; then
YUM=$DNF
fi
if [ -z "$YUM" -a -z "$APT" ]; then
echo "The package managers can't be found."
exit 1

230
pgp/pgp.go Normal file
View File

@@ -0,0 +1,230 @@
// Mgmt
// Copyright (C) 2013-2016+ James Shubin and the project contributors
// Written by James Shubin <james@shubin.ca> and the project contributors
//
// This program is free software: you can redistribute it and/or modify
// it under the terms of the GNU Affero General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
//
// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU Affero General Public License for more details.
//
// You should have received a copy of the GNU Affero General Public License
// along with this program. If not, see <http://www.gnu.org/licenses/>.
package pgp
import (
"bufio"
"bytes"
"crypto"
"encoding/base64"
"io/ioutil"
"log"
"os"
"strings"
errwrap "github.com/pkg/errors"
"golang.org/x/crypto/openpgp"
"golang.org/x/crypto/openpgp/packet"
)
// DefaultKeyringFile is the default file name for keyrings.
const DefaultKeyringFile = "keyring.pgp"
// CONFIG set default Hash.
var CONFIG packet.Config
func init() {
CONFIG.DefaultHash = crypto.SHA256
}
// PGP contains base entity.
type PGP struct {
Entity *openpgp.Entity
}
// Import private key from defined path.
func Import(privKeyPath string) (*PGP, error) {
privKeyFile, err := os.Open(privKeyPath)
if err != nil {
return nil, err
}
defer privKeyFile.Close()
file := packet.NewReader(bufio.NewReader(privKeyFile))
entity, err := openpgp.ReadEntity(file)
if err != nil {
return nil, errwrap.Wrapf(err, "can't read entity from path")
}
obj := &PGP{
Entity: entity,
}
log.Printf("PGP: Imported key: %s", obj.Entity.PrivateKey.KeyIdShortString())
return obj, nil
}
// Generate creates new key pair. This key pair must be saved or it will be lost.
func Generate(name, comment, email string, hash *crypto.Hash) (*PGP, error) {
if hash != nil {
CONFIG.DefaultHash = *hash
}
// generate a new public/private key pair
entity, err := openpgp.NewEntity(name, comment, email, &CONFIG)
if err != nil {
return nil, errwrap.Wrapf(err, "can't generate entity")
}
obj := &PGP{
Entity: entity,
}
log.Printf("PGP: Created key: %s", obj.Entity.PrivateKey.KeyIdShortString())
return obj, nil
}
// SaveKey writes the whole entity (including private key!) to a .gpg file.
func (obj *PGP) SaveKey(path string) error {
f, err := os.Create(path)
if err != nil {
return errwrap.Wrapf(err, "can't create file from given path")
}
w := bufio.NewWriter(f)
if err != nil {
return errwrap.Wrapf(err, "can't create writer")
}
if err := obj.Entity.SerializePrivate(w, &CONFIG); err != nil {
return errwrap.Wrapf(err, "can't serialize private key")
}
for _, ident := range obj.Entity.Identities {
for _, sig := range ident.Signatures {
if err := sig.Serialize(w); err != nil {
return errwrap.Wrapf(err, "can't serialize signature")
}
}
}
if err := w.Flush(); err != nil {
return errwrap.Wrapf(err, "enable to flush writer")
}
return nil
}
// WriteFile from given buffer in specified path.
func (obj *PGP) WriteFile(path string, buff *bytes.Buffer) error {
w, err := createWriter(path)
if err != nil {
return errwrap.Wrapf(err, "can't create writer")
}
buff.WriteTo(w)
if err := w.Flush(); err != nil {
return errwrap.Wrapf(err, "can't flush buffered data")
}
return nil
}
// CreateWriter remove duplicate function.
func createWriter(path string) (*bufio.Writer, error) {
f, err := os.Create(path)
if err != nil {
return nil, errwrap.Wrapf(err, "can't create file from given path")
}
return bufio.NewWriter(f), nil
}
// Encrypt message for specified entity.
func (obj *PGP) Encrypt(to *openpgp.Entity, msg string) (string, error) {
buf, err := obj.EncryptMsg(to, msg)
if err != nil {
return "", errwrap.Wrapf(err, "can't encrypt message")
}
// encode to base64
bytes, err := ioutil.ReadAll(buf)
if err != nil {
return "", errwrap.Wrapf(err, "can't read unverified body")
}
return base64.StdEncoding.EncodeToString(bytes), nil
}
// EncryptMsg encrypts the message.
func (obj *PGP) EncryptMsg(to *openpgp.Entity, msg string) (*bytes.Buffer, error) {
ents := []*openpgp.Entity{to}
buf := new(bytes.Buffer)
w, err := openpgp.Encrypt(buf, ents, obj.Entity, nil, nil)
if err != nil {
return nil, errwrap.Wrapf(err, "can't encrypt message")
}
_, err = w.Write([]byte(msg))
if err != nil {
return nil, errwrap.Wrapf(err, "can't write to buffer")
}
if err = w.Close(); err != nil {
return nil, errwrap.Wrapf(err, "can't close writer")
}
return buf, nil
}
// Decrypt an encrypted msg.
func (obj *PGP) Decrypt(encString string) (string, error) {
entityList := openpgp.EntityList{obj.Entity}
// decode the base64 string
dec, err := base64.StdEncoding.DecodeString(encString)
if err != nil {
return "", errwrap.Wrapf(err, "fail at decoding encrypted string")
}
// decrypt it with the contents of the private key
md, err := openpgp.ReadMessage(bytes.NewBuffer(dec), entityList, nil, nil)
if err != nil {
return "", errwrap.Wrapf(err, "can't read message")
}
bytes, err := ioutil.ReadAll(md.UnverifiedBody)
if err != nil {
return "", errwrap.Wrapf(err, "can't read unverified body")
}
return string(bytes), nil
}
// GetIdentities return the first identities from current object.
func (obj *PGP) GetIdentities() (string, error) {
identities := []*openpgp.Identity{}
for _, v := range obj.Entity.Identities {
identities = append(identities, v)
}
return identities[0].Name, nil
}
// ParseIdentity parses an identity into name, comment and email components.
func ParseIdentity(identity string) (name, comment, email string, err error) {
// get name
n := strings.Split(identity, " <")
if len(n) != 2 {
return "", "", "", errwrap.Wrap(err, "user string mal formated")
}
// get email and comment
ec := strings.Split(n[1], "> ")
if len(ec) != 2 {
return "", "", "", errwrap.Wrap(err, "user string mal formated")
}
return n[0], ec[1], ec[0], nil
}

535
pgraph/actions.go Normal file
View File

@@ -0,0 +1,535 @@
// Mgmt
// Copyright (C) 2013-2016+ James Shubin and the project contributors
// Written by James Shubin <james@shubin.ca> and the project contributors
//
// This program is free software: you can redistribute it and/or modify
// it under the terms of the GNU Affero General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
//
// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU Affero General Public License for more details.
//
// You should have received a copy of the GNU Affero General Public License
// along with this program. If not, see <http://www.gnu.org/licenses/>.
package pgraph
import (
"fmt"
"log"
"math"
"sync"
"time"
"github.com/purpleidea/mgmt/event"
"github.com/purpleidea/mgmt/resources"
errwrap "github.com/pkg/errors"
)
// GetTimestamp returns the timestamp of a vertex
func (v *Vertex) GetTimestamp() int64 {
return v.timestamp
}
// UpdateTimestamp updates the timestamp on a vertex and returns the new value
func (v *Vertex) UpdateTimestamp() int64 {
v.timestamp = time.Now().UnixNano() // update
return v.timestamp
}
// OKTimestamp returns true if this element can run right now?
func (g *Graph) OKTimestamp(v *Vertex) bool {
// these are all the vertices pointing TO v, eg: ??? -> v
for _, n := range g.IncomingGraphVertices(v) {
// if the vertex has a greater timestamp than any pre-req (n)
// then we can't run right now...
// if they're equal (eg: on init of 0) then we also can't run
// b/c we should let our pre-req's go first...
x, y := v.GetTimestamp(), n.GetTimestamp()
if g.Flags.Debug {
log.Printf("%s[%s]: OKTimestamp: (%v) >= %s[%s](%v): !%v", v.Kind(), v.GetName(), x, n.Kind(), n.GetName(), y, x >= y)
}
if x >= y {
return false
}
}
return true
}
// Poke notifies nodes after me in the dependency graph that they need refreshing...
// NOTE: this assumes that this can never fail or need to be rescheduled
func (g *Graph) Poke(v *Vertex, activity bool) error {
var wg sync.WaitGroup
// these are all the vertices pointing AWAY FROM v, eg: v -> ???
for _, n := range g.OutgoingGraphVertices(v) {
// XXX: if we're in state event and haven't been cancelled by
// apply, then we can cancel a poke to a child, right? XXX
// XXX: if n.Res.getState() != resources.ResStateEvent || activity { // is this correct?
if true || activity { // XXX: ???
if g.Flags.Debug {
log.Printf("%s[%s]: Poke: %s[%s]", v.Kind(), v.GetName(), n.Kind(), n.GetName())
}
wg.Add(1)
go func(nn *Vertex) error {
defer wg.Done()
edge := g.Adjacency[v][nn] // lookup
notify := edge.Notify && edge.Refresh()
// FIXME: is it okay that this is sync?
nn.SendEvent(event.EventPoke, true, notify)
// TODO: check return value?
return nil // never error for now...
}(n)
} else {
if g.Flags.Debug {
log.Printf("%s[%s]: Poke: %s[%s]: Skipped!", v.Kind(), v.GetName(), n.Kind(), n.GetName())
}
}
}
wg.Wait() // wait for all the pokes to complete
return nil
}
// BackPoke pokes the pre-requisites that are stale and need to run before I can run.
func (g *Graph) BackPoke(v *Vertex) {
// these are all the vertices pointing TO v, eg: ??? -> v
for _, n := range g.IncomingGraphVertices(v) {
x, y, s := v.GetTimestamp(), n.GetTimestamp(), n.Res.GetState()
// if the parent timestamp needs poking AND it's not in state
// ResStateEvent, then poke it. If the parent is in ResStateEvent it
// means that an event is pending, so we'll be expecting a poke
// back soon, so we can safely discard the extra parent poke...
// TODO: implement a stateLT (less than) to tell if something
// happens earlier in the state cycle and that doesn't wrap nil
if x >= y && (s != resources.ResStateEvent && s != resources.ResStateCheckApply) {
if g.Flags.Debug {
log.Printf("%s[%s]: BackPoke: %s[%s]", v.Kind(), v.GetName(), n.Kind(), n.GetName())
}
// FIXME: is it okay that this is sync?
n.SendEvent(event.EventBackPoke, true, false)
} else {
if g.Flags.Debug {
log.Printf("%s[%s]: BackPoke: %s[%s]: Skipped!", v.Kind(), v.GetName(), n.Kind(), n.GetName())
}
}
}
}
// RefreshPending determines if any previous nodes have a refresh pending here.
// If this is true, it means I am expected to apply a refresh when I next run.
func (g *Graph) RefreshPending(v *Vertex) bool {
var refresh bool
for _, edge := range g.IncomingGraphEdges(v) {
// if we asked for a notify *and* if one is pending!
if edge.Notify && edge.Refresh() {
refresh = true
break
}
}
return refresh
}
// SetUpstreamRefresh sets the refresh value to any upstream vertices.
func (g *Graph) SetUpstreamRefresh(v *Vertex, b bool) {
for _, edge := range g.IncomingGraphEdges(v) {
if edge.Notify {
edge.SetRefresh(b)
}
}
}
// SetDownstreamRefresh sets the refresh value to any downstream vertices.
func (g *Graph) SetDownstreamRefresh(v *Vertex, b bool) {
for _, edge := range g.OutgoingGraphEdges(v) {
// if we asked for a notify *and* if one is pending!
if edge.Notify {
edge.SetRefresh(b)
}
}
}
// Process is the primary function to execute for a particular vertex in the graph.
func (g *Graph) Process(v *Vertex) error {
obj := v.Res
if g.Flags.Debug {
log.Printf("%s[%s]: Process()", obj.Kind(), obj.GetName())
}
obj.SetState(resources.ResStateEvent)
var ok = true
var applied = false // did we run an apply?
// is it okay to run dependency wise right now?
// if not, that's okay because when the dependency runs, it will poke
// us back and we will run if needed then!
if g.OKTimestamp(v) {
if g.Flags.Debug {
log.Printf("%s[%s]: OKTimestamp(%v)", obj.Kind(), obj.GetName(), v.GetTimestamp())
}
obj.SetState(resources.ResStateCheckApply)
// connect any senders to receivers and detect if values changed
if updated, err := obj.SendRecv(obj); err != nil {
return errwrap.Wrapf(err, "could not SendRecv in Process")
} else if len(updated) > 0 {
for _, changed := range updated {
if changed { // at least one was updated
obj.StateOK(false) // invalidate cache, mark as dirty
break
}
}
}
var noop = obj.Meta().Noop // lookup the noop value
var refresh bool
var checkOK bool
var err error
if g.Flags.Debug {
log.Printf("%s[%s]: CheckApply(%t)", obj.Kind(), obj.GetName(), !noop)
}
// lookup the refresh (notification) variable
refresh = g.RefreshPending(v) // do i need to perform a refresh?
obj.SetRefresh(refresh) // tell the resource
// check cached state, to skip CheckApply; can't skip if refreshing
if !refresh && obj.IsStateOK() {
checkOK, err = true, nil
// NOTE: technically this block is wrong because we don't know
// if the resource implements refresh! If it doesn't, we could
// skip this, but it doesn't make a big difference under noop!
} else if noop && refresh { // had a refresh to do w/ noop!
checkOK, err = false, nil // therefore the state is wrong
// run the CheckApply!
} else {
// if this fails, don't UpdateTimestamp()
checkOK, err = obj.CheckApply(!noop)
}
if checkOK && err != nil { // should never return this way
log.Fatalf("%s[%s]: CheckApply(): %t, %+v", obj.Kind(), obj.GetName(), checkOK, err)
}
if g.Flags.Debug {
log.Printf("%s[%s]: CheckApply(): %t, %v", obj.Kind(), obj.GetName(), checkOK, err)
}
// if CheckApply ran without noop and without error, state should be good
if !noop && err == nil { // aka !noop || checkOK
obj.StateOK(true) // reset
if refresh {
g.SetUpstreamRefresh(v, false) // refresh happened, clear the request
obj.SetRefresh(false)
}
}
if !checkOK { // if state *was* not ok, we had to have apply'ed
if err != nil { // error during check or apply
ok = false
} else {
applied = true
}
}
// when noop is true we always want to update timestamp
if noop && err == nil {
ok = true
}
if ok {
// did we actually do work?
activity := applied
if noop {
activity = false // no we didn't do work...
}
if activity { // add refresh flag to downstream edges...
g.SetDownstreamRefresh(v, true)
}
// update this timestamp *before* we poke or the poked
// nodes might fail due to having a too old timestamp!
v.UpdateTimestamp() // this was touched...
obj.SetState(resources.ResStatePoking) // can't cancel parent poke
if err := g.Poke(v, activity); err != nil {
return errwrap.Wrapf(err, "the Poke() failed")
}
}
// poke at our pre-req's instead since they need to refresh/run...
return errwrap.Wrapf(err, "could not Process() successfully")
}
// else... only poke at the pre-req's that need to run
go g.BackPoke(v)
return nil
}
// SentinelErr is a sentinal as an error type that wraps an arbitrary error.
type SentinelErr struct {
err error
}
// Error is the required method to fulfill the error type.
func (obj *SentinelErr) Error() string {
return obj.err.Error()
}
// Worker is the common run frontend of the vertex. It handles all of the retry
// and retry delay common code, and ultimately returns the final status of this
// vertex execution.
func (g *Graph) Worker(v *Vertex) error {
// listen for chan events from Watch() and run
// the Process() function when they're received
// this avoids us having to pass the data into
// the Watch() function about which graph it is
// running on, which isolates things nicely...
obj := v.Res
// TODO: is there a better system for the `Watching` flag?
obj.SetWatching(true)
defer obj.SetWatching(false)
processChan := make(chan event.Event)
go func() {
running := false
var timer = time.NewTimer(time.Duration(math.MaxInt64)) // longest duration
if !timer.Stop() {
<-timer.C // unnecessary, shouldn't happen
}
var delay = time.Duration(v.Meta().Delay) * time.Millisecond
var retry = v.Meta().Retry // number of tries left, -1 for infinite
var saved event.Event
Loop:
for {
// this has to be synchronous, because otherwise the Res
// event loop will keep running and change state,
// causing the converged timeout to fire!
select {
case event, ok := <-processChan: // must use like this
if running && ok {
// we got an event that wasn't a close,
// while we were waiting for the timer!
// if this happens, it might be a bug:(
log.Fatalf("%s[%s]: Worker: Unexpected event: %+v", v.Kind(), v.GetName(), event)
}
if !ok { // processChan closed, let's exit
break Loop // no event, so no ack!
}
// the above mentioned synchronous part, is the
// running of this function, paired with an ack.
if e := g.Process(v); e != nil {
saved = event
log.Printf("%s[%s]: CheckApply errored: %v", v.Kind(), v.GetName(), e)
if retry == 0 {
// wrap the error in the sentinel
event.ACKNACK(&SentinelErr{e}) // fail the Watch()
break Loop
}
if retry > 0 { // don't decrement the -1
retry--
}
log.Printf("%s[%s]: CheckApply: Retrying after %.4f seconds (%d left)", v.Kind(), v.GetName(), delay.Seconds(), retry)
// start the timer...
timer.Reset(delay)
running = true
continue
}
retry = v.Meta().Retry // reset on success
event.ACK() // sync
case <-timer.C:
if !timer.Stop() {
//<-timer.C // blocks, docs are wrong!
}
running = false
log.Printf("%s[%s]: CheckApply delay expired!", v.Kind(), v.GetName())
// re-send this failed event, to trigger a CheckApply()
go func() { processChan <- saved }()
// TODO: should we send a fake event instead?
//saved = nil
}
}
}()
var err error // propagate the error up (this is a permanent BAD error!)
// the watch delay runs inside of the Watch resource loop, so that it
// can still process signals and exit if needed. It shouldn't run any
// resource specific code since this is supposed to be a retry delay.
// NOTE: we're using the same retry and delay metaparams that CheckApply
// uses. This is for practicality. We can separate them later if needed!
var watchDelay time.Duration
var watchRetry = v.Meta().Retry // number of tries left, -1 for infinite
// watch blocks until it ends, & errors to retry
for {
// TODO: do we have to stop the converged-timeout when in this block (perhaps we're in the delay block!)
// TODO: should we setup/manage some of the converged timeout stuff in here anyways?
// if a retry-delay was requested, wait, but don't block our events!
if watchDelay > 0 {
//var pendingSendEvent bool
timer := time.NewTimer(watchDelay)
Loop:
for {
select {
case <-timer.C: // the wait is over
break Loop // critical
// TODO: resources could have a separate exit channel to avoid this complexity!?
case event := <-obj.Events():
// NOTE: this code should match the similar Res code!
//cuid.SetConverged(false) // TODO: ?
if exit, send := obj.ReadEvent(&event); exit {
return nil // exit
} else if send {
// if we dive down this rabbit hole, our
// timer.C won't get seen until we get out!
// in this situation, the Watch() is blocked
// from performing until CheckApply returns
// successfully, or errors out. This isn't
// so bad, but we should document it. Is it
// possible that some resource *needs* Watch
// to run to be able to execute a CheckApply?
// That situation shouldn't be common, and
// should probably not be allowed. Can we
// avoid it though?
//if exit, err := doSend(); exit || err != nil {
// return err // we exit or bubble up a NACK...
//}
// Instead of doing the above, we can
// add events to a pending list, and
// when we finish the delay, we can run
// them.
//pendingSendEvent = true // all events are identical for now...
}
}
}
timer.Stop() // it's nice to cleanup
log.Printf("%s[%s]: Watch delay expired!", v.Kind(), v.GetName())
// NOTE: we can avoid the send if running Watch guarantees
// one CheckApply event on startup!
//if pendingSendEvent { // TODO: should this become a list in the future?
// if exit, err := obj.DoSend(processChan, ""); exit || err != nil {
// return err // we exit or bubble up a NACK...
// }
//}
}
// TODO: reset the watch retry count after some amount of success
v.Res.RegisterConverger()
e := v.Res.Watch(processChan)
v.Res.UnregisterConverger()
if e == nil { // exit signal
err = nil // clean exit
break
}
if sentinelErr, ok := e.(*SentinelErr); ok { // unwrap the sentinel
err = sentinelErr.err
break // sentinel means, perma-exit
}
log.Printf("%s[%s]: Watch errored: %v", v.Kind(), v.GetName(), e)
if watchRetry == 0 {
err = fmt.Errorf("Permanent watch error: %v", e)
break
}
if watchRetry > 0 { // don't decrement the -1
watchRetry--
}
watchDelay = time.Duration(v.Meta().Delay) * time.Millisecond
log.Printf("%s[%s]: Watch: Retrying after %.4f seconds (%d left)", v.Kind(), v.GetName(), watchDelay.Seconds(), watchRetry)
// We need to trigger a CheckApply after Watch restarts, so that
// we catch any lost events that happened while down. We do this
// by getting the Watch resource to send one event once it's up!
//v.SendEvent(eventPoke, false, false)
}
close(processChan)
return err
}
// Start is a main kick to start the graph. It goes through in reverse topological
// sort order so that events can't hit un-started vertices.
func (g *Graph) Start(first bool) { // start or continue
log.Printf("State: %v -> %v", g.setState(graphStateStarting), g.getState())
defer log.Printf("State: %v -> %v", g.setState(graphStateStarted), g.getState())
var wg sync.WaitGroup
t, _ := g.TopologicalSort()
// TODO: only calculate indegree if `first` is true to save resources
indegree := g.InDegree() // compute all of the indegree's
for _, v := range Reverse(t) {
// selective poke: here we reduce the number of initial pokes
// to the minimum required to activate every vertex in the
// graph, either by direct action, or by getting poked by a
// vertex that was previously activated. if we poke each vertex
// that has no incoming edges, then we can be sure to reach the
// whole graph. Please note: this may mask certain optimization
// failures, such as any poke limiting code in Poke() or
// BackPoke(). You might want to disable this selective start
// when experimenting with and testing those elements.
// if we are unpausing (since it's not the first run of this
// function) we need to poke to *unpause* every graph vertex,
// and not just selectively the subset with no indegree.
if (!first) || indegree[v] == 0 {
v.Res.Starter(true) // let the startup code know to poke
}
if !v.Res.IsWatching() { // if Watch() is not running...
g.wg.Add(1)
// must pass in value to avoid races...
// see: https://ttboj.wordpress.com/2015/07/27/golang-parallelism-issues-causing-too-many-open-files-error/
go func(vv *Vertex) {
defer g.wg.Done()
// TODO: if a sufficient number of workers error,
// should something be done? Will these restart
// after perma-failure if we have a graph change?
if err := g.Worker(vv); err != nil { // contains the Watch and CheckApply loops
log.Printf("%s[%s]: Exited with failure: %v", vv.Kind(), vv.GetName(), err)
return
}
log.Printf("%s[%s]: Exited", vv.Kind(), vv.GetName())
}(v)
}
// let the vertices run their startup code in parallel
wg.Add(1)
go func(vv *Vertex) {
defer wg.Done()
vv.Res.Started() // block until started
}(v)
if !first { // unpause!
v.Res.SendEvent(event.EventStart, true, false) // sync!
}
}
wg.Wait() // wait for everyone
}
// Pause sends pause events to the graph in a topological sort order.
func (g *Graph) Pause() {
log.Printf("State: %v -> %v", g.setState(graphStatePausing), g.getState())
defer log.Printf("State: %v -> %v", g.setState(graphStatePaused), g.getState())
t, _ := g.TopologicalSort()
for _, v := range t { // squeeze out the events...
v.SendEvent(event.EventPause, true, false)
}
}
// Exit sends exit events to the graph in a topological sort order.
func (g *Graph) Exit() {
if g == nil {
return
} // empty graph that wasn't populated yet
t, _ := g.TopologicalSort()
for _, v := range t { // squeeze out the events...
// turn off the taps...
// XXX: consider instead doing this by closing the Res.events channel instead?
// XXX: do this by sending an exit signal, and then returning
// when we hit the 'default' in the select statement!
// XXX: we can do this to quiesce, but it's not necessary now
v.SendEvent(event.EventExit, true, false)
}
g.wg.Wait() // for now, this doesn't need to be a separate Wait() method
}

5
pgraph/autoedge.go
View File

@@ -22,7 +22,6 @@ import (
"fmt"
"log"
"github.com/purpleidea/mgmt/global"
"github.com/purpleidea/mgmt/resources"
)
@@ -39,7 +38,7 @@ func (g *Graph) addEdgesByMatchingUIDS(v *Vertex, uids []resources.ResUID) []boo
if v == vv { // skip self
continue
}
if global.DEBUG {
if g.Flags.Debug {
log.Printf("Compile: AutoEdge: Match: %v[%v] with UID: %v[%v]", vv.Kind(), vv.GetName(), uid.Kind(), uid.GetName())
}
// we must match to an effective UID for the resource,
@@ -85,7 +84,7 @@ func (g *Graph) AutoEdges() {
log.Printf("%v[%v]: Config: The auto edge list is empty!", v.Kind(), v.GetName())
break // inner loop
}
if global.DEBUG {
if g.Flags.Debug {
log.Println("Compile: AutoEdge: UIDS:")
for i, u := range uids {
log.Printf("Compile: AutoEdge: UID%d: %v", i, u)

10
pgraph/autogroup.go
View File

@@ -21,8 +21,6 @@ import (
"fmt"
"log"
"github.com/purpleidea/mgmt/global"
errwrap "github.com/pkg/errors"
)
@@ -221,7 +219,7 @@ func (g *Graph) VertexMerge(v1, v2 *Vertex, vertexMergeFn func(*Vertex, *Vertex)
}
// 2) edges that point towards v2 from X now point to v1 from X (no dupes)
for _, x := range g.IncomingGraphEdges(v2) { // all to vertex v (??? -> v)
for _, x := range g.IncomingGraphVertices(v2) { // all to vertex v (??? -> v)
e := g.Adjacency[x][v2] // previous edge
r := g.Reachability(x, v1)
// merge e with ex := g.Adjacency[x][v1] if it exists!
@@ -248,7 +246,7 @@ func (g *Graph) VertexMerge(v1, v2 *Vertex, vertexMergeFn func(*Vertex, *Vertex)
}
// 3) edges that point from v2 to X now point from v1 to X (no dupes)
for _, x := range g.OutgoingGraphEdges(v2) { // all from vertex v (v -> ???)
for _, x := range g.OutgoingGraphVertices(v2) { // all from vertex v (v -> ???)
e := g.Adjacency[v2][x] // previous edge
r := g.Reachability(v1, x)
// merge e with ex := g.Adjacency[v1][x] if it exists!
@@ -279,7 +277,7 @@ func (g *Graph) VertexMerge(v1, v2 *Vertex, vertexMergeFn func(*Vertex, *Vertex)
if v, err := vertexMergeFn(v1, v2); err != nil {
return err
} else if v != nil { // replace v1 with the "merged" version...
v1 = v // XXX: will this replace v1 the way we want?
*v1 = *v // TODO: is this safe? (replacing mutexes is undefined!)
}
}
g.DeleteVertex(v2) // remove grouped vertex
@@ -312,7 +310,7 @@ func (g *Graph) autoGroup(ag AutoGrouper) chan string {
wStr := fmt.Sprintf("%s", w)
if err := ag.vertexCmp(v, w); err != nil { // cmp ?
if global.DEBUG {
if g.Flags.Debug {
strch <- fmt.Sprintf("Compile: Grouping: !GroupCmp for: %s into %s", wStr, vStr)
}

110
pgraph/graphviz.go Normal file
View File

@@ -0,0 +1,110 @@
// Mgmt
// Copyright (C) 2013-2016+ James Shubin and the project contributors
// Written by James Shubin <james@shubin.ca> and the project contributors
//
// This program is free software: you can redistribute it and/or modify
// it under the terms of the GNU Affero General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
//
// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU Affero General Public License for more details.
//
// You should have received a copy of the GNU Affero General Public License
// along with this program. If not, see <http://www.gnu.org/licenses/>.
package pgraph
import (
"fmt"
"io/ioutil"
"os"
"os/exec"
"strconv"
"syscall"
)
// Graphviz outputs the graph in graphviz format.
// https://en.wikipedia.org/wiki/DOT_%28graph_description_language%29
func (g *Graph) Graphviz() (out string) {
//digraph g {
// label="hello world";
// node [shape=box];
// A [label="A"];
// B [label="B"];
// C [label="C"];
// D [label="D"];
// E [label="E"];
// A -> B [label=f];
// B -> C [label=g];
// D -> E [label=h];
//}
out += fmt.Sprintf("digraph %s {\n", g.GetName())
out += fmt.Sprintf("\tlabel=\"%s\";\n", g.GetName())
//out += "\tnode [shape=box];\n"
str := ""
for i := range g.Adjacency { // reverse paths
out += fmt.Sprintf("\t%s [label=\"%s[%s]\"];\n", i.GetName(), i.Kind(), i.GetName())
for j := range g.Adjacency[i] {
k := g.Adjacency[i][j]
// use str for clearer output ordering
str += fmt.Sprintf("\t%s -> %s [label=%s];\n", i.GetName(), j.GetName(), k.Name)
}
}
out += str
out += "}\n"
return
}
// ExecGraphviz writes out the graphviz data and runs the correct graphviz
// filter command.
func (g *Graph) ExecGraphviz(program, filename string) error {
switch program {
case "dot", "neato", "twopi", "circo", "fdp":
default:
return fmt.Errorf("Invalid graphviz program selected!")
}
if filename == "" {
return fmt.Errorf("No filename given!")
}
// run as a normal user if possible when run with sudo
uid, err1 := strconv.Atoi(os.Getenv("SUDO_UID"))
gid, err2 := strconv.Atoi(os.Getenv("SUDO_GID"))
err := ioutil.WriteFile(filename, []byte(g.Graphviz()), 0644)
if err != nil {
return fmt.Errorf("Error writing to filename!")
}
if err1 == nil && err2 == nil {
if err := os.Chown(filename, uid, gid); err != nil {
return fmt.Errorf("Error changing file owner!")
}
}
path, err := exec.LookPath(program)
if err != nil {
return fmt.Errorf("Graphviz is missing!")
}
out := fmt.Sprintf("%s.png", filename)
cmd := exec.Command(path, "-Tpng", fmt.Sprintf("-o%s", out), filename)
if err1 == nil && err2 == nil {
cmd.SysProcAttr = &syscall.SysProcAttr{}
cmd.SysProcAttr.Credential = &syscall.Credential{
Uid: uint32(uid),
Gid: uint32(gid),
}
}
_, err = cmd.Output()
if err != nil {
return fmt.Errorf("Error writing to image!")
}
return nil
}

569
pgraph/pgraph.go
View File

@@ -20,20 +20,10 @@ package pgraph
import (
"fmt"
"io/ioutil"
"log"
"math"
"os"
"os/exec"
"sort"
"strconv"
"sync"
"syscall"
"time"
"github.com/purpleidea/mgmt/converger"
"github.com/purpleidea/mgmt/event"
"github.com/purpleidea/mgmt/global"
"github.com/purpleidea/mgmt/resources"
errwrap "github.com/pkg/errors"
@@ -50,6 +40,11 @@ const (
graphStatePaused
)
// Flags contains specific constants used by the graph.
type Flags struct {
Debug bool
}
// Graph is the graph structure in this library.
// The graph abstract data type (ADT) is defined as follows:
// * the directed graph arrows point from left to right ( -> )
@@ -59,8 +54,10 @@ const (
type Graph struct {
Name string
Adjacency map[*Vertex]map[*Vertex]*Edge // *Vertex -> *Vertex (edge)
Flags Flags
state graphState
mutex sync.Mutex // used when modifying graph State variable
mutex *sync.Mutex // used when modifying graph State variable
wg *sync.WaitGroup
}
// Vertex is the primary vertex struct in this library.
@@ -72,6 +69,9 @@ type Vertex struct {
// Edge is the primary edge struct in this library.
type Edge struct {
Name string
Notify bool // should we send a refresh notification along this edge?
refresh bool // is there a notify pending for the dest vertex ?
}
// NewGraph builds a new graph.
@@ -80,6 +80,9 @@ func NewGraph(name string) *Graph {
Name: name,
Adjacency: make(map[*Vertex]map[*Vertex]*Edge),
state: graphStateNil,
// ptr b/c: Mutex/WaitGroup must not be copied after first use
mutex: &sync.Mutex{},
wg: &sync.WaitGroup{},
}
}
@@ -97,12 +100,25 @@ func NewEdge(name string) *Edge {
}
}
// Refresh returns the pending refresh status of this edge.
func (obj *Edge) Refresh() bool {
return obj.refresh
}
// SetRefresh sets the pending refresh status of this edge.
func (obj *Edge) SetRefresh(b bool) {
obj.refresh = b
}
// Copy makes a copy of the graph struct
func (g *Graph) Copy() *Graph {
newGraph := &Graph{
Name: g.Name,
Adjacency: make(map[*Vertex]map[*Vertex]*Edge, len(g.Adjacency)),
Flags: g.Flags,
state: g.state,
mutex: g.mutex,
wg: g.wg,
}
for k, v := range g.Adjacency {
newGraph.Adjacency[k] = v // copy
@@ -259,92 +275,9 @@ func (v *Vertex) String() string {
return fmt.Sprintf("%s[%s]", v.Res.Kind(), v.Res.GetName())
}
// Graphviz outputs the graph in graphviz format.
// https://en.wikipedia.org/wiki/DOT_%28graph_description_language%29
func (g *Graph) Graphviz() (out string) {
//digraph g {
// label="hello world";
// node [shape=box];
// A [label="A"];
// B [label="B"];
// C [label="C"];
// D [label="D"];
// E [label="E"];
// A -> B [label=f];
// B -> C [label=g];
// D -> E [label=h];
//}
out += fmt.Sprintf("digraph %v {\n", g.GetName())
out += fmt.Sprintf("\tlabel=\"%v\";\n", g.GetName())
//out += "\tnode [shape=box];\n"
str := ""
for i := range g.Adjacency { // reverse paths
out += fmt.Sprintf("\t%v [label=\"%v[%v]\"];\n", i.GetName(), i.Kind(), i.GetName())
for j := range g.Adjacency[i] {
k := g.Adjacency[i][j]
// use str for clearer output ordering
str += fmt.Sprintf("\t%v -> %v [label=%v];\n", i.GetName(), j.GetName(), k.Name)
}
}
out += str
out += "}\n"
return
}
// ExecGraphviz writes out the graphviz data and runs the correct graphviz
// filter command.
func (g *Graph) ExecGraphviz(program, filename string) error {
switch program {
case "dot", "neato", "twopi", "circo", "fdp":
default:
return fmt.Errorf("Invalid graphviz program selected!")
}
if filename == "" {
return fmt.Errorf("No filename given!")
}
// run as a normal user if possible when run with sudo
uid, err1 := strconv.Atoi(os.Getenv("SUDO_UID"))
gid, err2 := strconv.Atoi(os.Getenv("SUDO_GID"))
err := ioutil.WriteFile(filename, []byte(g.Graphviz()), 0644)
if err != nil {
return fmt.Errorf("Error writing to filename!")
}
if err1 == nil && err2 == nil {
if err := os.Chown(filename, uid, gid); err != nil {
return fmt.Errorf("Error changing file owner!")
}
}
path, err := exec.LookPath(program)
if err != nil {
return fmt.Errorf("Graphviz is missing!")
}
out := fmt.Sprintf("%v.png", filename)
cmd := exec.Command(path, "-Tpng", fmt.Sprintf("-o%v", out), filename)
if err1 == nil && err2 == nil {
cmd.SysProcAttr = &syscall.SysProcAttr{}
cmd.SysProcAttr.Credential = &syscall.Credential{
Uid: uint32(uid),
Gid: uint32(gid),
}
}
_, err = cmd.Output()
if err != nil {
return fmt.Errorf("Error writing to image!")
}
return nil
}
// IncomingGraphEdges returns an array (slice) of all directed vertices to
// IncomingGraphVertices returns an array (slice) of all directed vertices to
// vertex v (??? -> v). OKTimestamp should probably use this.
func (g *Graph) IncomingGraphEdges(v *Vertex) []*Vertex {
func (g *Graph) IncomingGraphVertices(v *Vertex) []*Vertex {
// TODO: we might be able to implement this differently by reversing
// the Adjacency graph and then looping through it again...
var s []*Vertex
@@ -358,9 +291,9 @@ func (g *Graph) IncomingGraphEdges(v *Vertex) []*Vertex {
return s
}
// OutgoingGraphEdges returns an array (slice) of all vertices that vertex v
// OutgoingGraphVertices returns an array (slice) of all vertices that vertex v
// points to (v -> ???). Poke should probably use this.
func (g *Graph) OutgoingGraphEdges(v *Vertex) []*Vertex {
func (g *Graph) OutgoingGraphVertices(v *Vertex) []*Vertex {
var s []*Vertex
for k := range g.Adjacency[v] { // forward paths
s = append(s, k)
@@ -368,15 +301,46 @@ func (g *Graph) OutgoingGraphEdges(v *Vertex) []*Vertex {
return s
}
// GraphEdges returns an array (slice) of all vertices that connect to vertex v.
// This is the union of IncomingGraphEdges and OutgoingGraphEdges.
func (g *Graph) GraphEdges(v *Vertex) []*Vertex {
// GraphVertices returns an array (slice) of all vertices that connect to vertex v.
// This is the union of IncomingGraphVertices and OutgoingGraphVertices.
func (g *Graph) GraphVertices(v *Vertex) []*Vertex {
var s []*Vertex
s = append(s, g.IncomingGraphEdges(v)...)
s = append(s, g.OutgoingGraphEdges(v)...)
s = append(s, g.IncomingGraphVertices(v)...)
s = append(s, g.OutgoingGraphVertices(v)...)
return s
}
// IncomingGraphEdges returns all of the edges that point to vertex v (??? -> v).
func (g *Graph) IncomingGraphEdges(v *Vertex) []*Edge {
var edges []*Edge
for v1 := range g.Adjacency { // reverse paths
for v2, e := range g.Adjacency[v1] {
if v2 == v {
edges = append(edges, e)
}
}
}
return edges
}
// OutgoingGraphEdges returns all of the edges that point from vertex v (v -> ???).
func (g *Graph) OutgoingGraphEdges(v *Vertex) []*Edge {
var edges []*Edge
for _, e := range g.Adjacency[v] { // forward paths
edges = append(edges, e)
}
return edges
}
// GraphEdges returns an array (slice) of all edges that connect to vertex v.
// This is the union of IncomingGraphEdges and OutgoingGraphEdges.
func (g *Graph) GraphEdges(v *Vertex) []*Edge {
var edges []*Edge
edges = append(edges, g.IncomingGraphEdges(v)...)
edges = append(edges, g.OutgoingGraphEdges(v)...)
return edges
}
// DFS returns a depth first search for the graph, starting at the input vertex.
func (g *Graph) DFS(start *Vertex) []*Vertex {
var d []*Vertex // discovered
@@ -392,7 +356,7 @@ func (g *Graph) DFS(start *Vertex) []*Vertex {
if !VertexContains(v, d) { // if not discovered
d = append(d, v) // label as discovered
for _, w := range g.GraphEdges(v) {
for _, w := range g.GraphVertices(v) {
s = append(s, w)
}
}
@@ -405,7 +369,7 @@ func (g *Graph) FilterGraph(name string, vertices []*Vertex) *Graph {
newgraph := NewGraph(name)
for k1, x := range g.Adjacency {
for k2, e := range x {
//log.Printf("Filter: %v -> %v # %v", k1.Name, k2.Name, e.Name)
//log.Printf("Filter: %s -> %s # %s", k1.Name, k2.Name, e.Name)
if VertexContains(k1, vertices) || VertexContains(k2, vertices) {
newgraph.AddEdge(k1, k2, e)
}
@@ -539,7 +503,7 @@ func (g *Graph) Reachability(a, b *Vertex) []*Vertex {
if a == nil || b == nil {
return nil
}
vertices := g.OutgoingGraphEdges(a) // what points away from a ?
vertices := g.OutgoingGraphVertices(a) // what points away from a ?
if len(vertices) == 0 {
return []*Vertex{} // nope
}
@@ -567,391 +531,6 @@ func (g *Graph) Reachability(a, b *Vertex) []*Vertex {
return result
}
// GetTimestamp returns the timestamp of a vertex
func (v *Vertex) GetTimestamp() int64 {
return v.timestamp
}
// UpdateTimestamp updates the timestamp on a vertex and returns the new value
func (v *Vertex) UpdateTimestamp() int64 {
v.timestamp = time.Now().UnixNano() // update
return v.timestamp
}
// OKTimestamp returns true if this element can run right now?
func (g *Graph) OKTimestamp(v *Vertex) bool {
// these are all the vertices pointing TO v, eg: ??? -> v
for _, n := range g.IncomingGraphEdges(v) {
// if the vertex has a greater timestamp than any pre-req (n)
// then we can't run right now...
// if they're equal (eg: on init of 0) then we also can't run
// b/c we should let our pre-req's go first...
x, y := v.GetTimestamp(), n.GetTimestamp()
if global.DEBUG {
log.Printf("%v[%v]: OKTimestamp: (%v) >= %v[%v](%v): !%v", v.Kind(), v.GetName(), x, n.Kind(), n.GetName(), y, x >= y)
}
if x >= y {
return false
}
}
return true
}
// Poke notifies nodes after me in the dependency graph that they need refreshing...
// NOTE: this assumes that this can never fail or need to be rescheduled
func (g *Graph) Poke(v *Vertex, activity bool) {
// these are all the vertices pointing AWAY FROM v, eg: v -> ???
for _, n := range g.OutgoingGraphEdges(v) {
// XXX: if we're in state event and haven't been cancelled by
// apply, then we can cancel a poke to a child, right? XXX
// XXX: if n.Res.getState() != resources.ResStateEvent { // is this correct?
if true { // XXX
if global.DEBUG {
log.Printf("%v[%v]: Poke: %v[%v]", v.Kind(), v.GetName(), n.Kind(), n.GetName())
}
n.SendEvent(event.EventPoke, false, activity) // XXX: can this be switched to sync?
} else {
if global.DEBUG {
log.Printf("%v[%v]: Poke: %v[%v]: Skipped!", v.Kind(), v.GetName(), n.Kind(), n.GetName())
}
}
}
}
// BackPoke pokes the pre-requisites that are stale and need to run before I can run.
func (g *Graph) BackPoke(v *Vertex) {
// these are all the vertices pointing TO v, eg: ??? -> v
for _, n := range g.IncomingGraphEdges(v) {
x, y, s := v.GetTimestamp(), n.GetTimestamp(), n.Res.GetState()
// if the parent timestamp needs poking AND it's not in state
// ResStateEvent, then poke it. If the parent is in ResStateEvent it
// means that an event is pending, so we'll be expecting a poke
// back soon, so we can safely discard the extra parent poke...
// TODO: implement a stateLT (less than) to tell if something
// happens earlier in the state cycle and that doesn't wrap nil
if x >= y && (s != resources.ResStateEvent && s != resources.ResStateCheckApply) {
if global.DEBUG {
log.Printf("%v[%v]: BackPoke: %v[%v]", v.Kind(), v.GetName(), n.Kind(), n.GetName())
}
n.SendEvent(event.EventBackPoke, false, false) // XXX: can this be switched to sync?
} else {
if global.DEBUG {
log.Printf("%v[%v]: BackPoke: %v[%v]: Skipped!", v.Kind(), v.GetName(), n.Kind(), n.GetName())
}
}
}
}
// Process is the primary function to execute for a particular vertex in the graph.
func (g *Graph) Process(v *Vertex) error {
obj := v.Res
if global.DEBUG {
log.Printf("%v[%v]: Process()", obj.Kind(), obj.GetName())
}
obj.SetState(resources.ResStateEvent)
var ok = true
var apply = false // did we run an apply?
// is it okay to run dependency wise right now?
// if not, that's okay because when the dependency runs, it will poke
// us back and we will run if needed then!
if g.OKTimestamp(v) {
if global.DEBUG {
log.Printf("%v[%v]: OKTimestamp(%v)", obj.Kind(), obj.GetName(), v.GetTimestamp())
}
obj.SetState(resources.ResStateCheckApply)
// if this fails, don't UpdateTimestamp()
checkok, err := obj.CheckApply(!obj.Meta().Noop)
if checkok && err != nil { // should never return this way
log.Fatalf("%v[%v]: CheckApply(): %t, %+v", obj.Kind(), obj.GetName(), checkok, err)
}
if global.DEBUG {
log.Printf("%v[%v]: CheckApply(): %t, %v", obj.Kind(), obj.GetName(), checkok, err)
}
if !checkok { // if state *was* not ok, we had to have apply'ed
if err != nil { // error during check or apply
ok = false
} else {
apply = true
}
}
// when noop is true we always want to update timestamp
if obj.Meta().Noop && err == nil {
ok = true
}
if ok {
// update this timestamp *before* we poke or the poked
// nodes might fail due to having a too old timestamp!
v.UpdateTimestamp() // this was touched...
obj.SetState(resources.ResStatePoking) // can't cancel parent poke
g.Poke(v, apply)
}
// poke at our pre-req's instead since they need to refresh/run...
return err
}
// else... only poke at the pre-req's that need to run
go g.BackPoke(v)
return nil
}
// SentinelErr is a sentinal as an error type that wraps an arbitrary error.
type SentinelErr struct {
err error
}
// Error is the required method to fulfill the error type.
func (obj *SentinelErr) Error() string {
return obj.err.Error()
}
// Worker is the common run frontend of the vertex. It handles all of the retry
// and retry delay common code, and ultimately returns the final status of this
// vertex execution.
func (g *Graph) Worker(v *Vertex) error {
// listen for chan events from Watch() and run
// the Process() function when they're received
// this avoids us having to pass the data into
// the Watch() function about which graph it is
// running on, which isolates things nicely...
obj := v.Res
chanProcess := make(chan event.Event)
go func() {
running := false
var timer = time.NewTimer(time.Duration(math.MaxInt64)) // longest duration
if !timer.Stop() {
<-timer.C // unnecessary, shouldn't happen
}
var delay = time.Duration(v.Meta().Delay) * time.Millisecond
var retry = v.Meta().Retry // number of tries left, -1 for infinite
var saved event.Event
Loop:
for {
// this has to be synchronous, because otherwise the Res
// event loop will keep running and change state,
// causing the converged timeout to fire!
select {
case event, ok := <-chanProcess: // must use like this
if running && ok {
// we got an event that wasn't a close,
// while we were waiting for the timer!
// if this happens, it might be a bug:(
log.Fatalf("%v[%v]: Worker: Unexpected event: %+v", v.Kind(), v.GetName(), event)
}
if !ok { // chanProcess closed, let's exit
break Loop // no event, so no ack!
}
// the above mentioned synchronous part, is the
// running of this function, paired with an ack.
if e := g.Process(v); e != nil {
saved = event
log.Printf("%v[%v]: CheckApply errored: %v", v.Kind(), v.GetName(), e)
if retry == 0 {
// wrap the error in the sentinel
event.ACKNACK(&SentinelErr{e}) // fail the Watch()
break Loop
}
if retry > 0 { // don't decrement the -1
retry--
}
log.Printf("%v[%v]: CheckApply: Retrying after %.4f seconds (%d left)", v.Kind(), v.GetName(), delay.Seconds(), retry)
// start the timer...
timer.Reset(delay)
running = true
continue
}
retry = v.Meta().Retry // reset on success
event.ACK() // sync
case <-timer.C:
if !timer.Stop() {
//<-timer.C // blocks, docs are wrong!
}
running = false
log.Printf("%s[%s]: CheckApply delay expired!", v.Kind(), v.GetName())
// re-send this failed event, to trigger a CheckApply()
go func() { chanProcess <- saved }()
// TODO: should we send a fake event instead?
//saved = nil
}
}
}()
var err error // propagate the error up (this is a permanent BAD error!)
// the watch delay runs inside of the Watch resource loop, so that it
// can still process signals and exit if needed. It shouldn't run any
// resource specific code since this is supposed to be a retry delay.
// NOTE: we're using the same retry and delay metaparams that CheckApply
// uses. This is for practicality. We can separate them later if needed!
var watchDelay time.Duration
var watchRetry = v.Meta().Retry // number of tries left, -1 for infinite
// watch blocks until it ends, & errors to retry
for {
// TODO: do we have to stop the converged-timeout when in this block (perhaps we're in the delay block!)
// TODO: should we setup/manage some of the converged timeout stuff in here anyways?
// if a retry-delay was requested, wait, but don't block our events!
if watchDelay > 0 {
//var pendingSendEvent bool
timer := time.NewTimer(watchDelay)
Loop:
for {
select {
case <-timer.C: // the wait is over
break Loop // critical
// TODO: resources could have a separate exit channel to avoid this complexity!?
case event := <-obj.Events():
// NOTE: this code should match the similar Res code!
//cuid.SetConverged(false) // TODO: ?
if exit, send := obj.ReadEvent(&event); exit {
return nil // exit
} else if send {
// if we dive down this rabbit hole, our
// timer.C won't get seen until we get out!
// in this situation, the Watch() is blocked
// from performing until CheckApply returns
// successfully, or errors out. This isn't
// so bad, but we should document it. Is it
// possible that some resource *needs* Watch
// to run to be able to execute a CheckApply?
// That situation shouldn't be common, and
// should probably not be allowed. Can we
// avoid it though?
//if exit, err := doSend(); exit || err != nil {
// return err // we exit or bubble up a NACK...
//}
// Instead of doing the above, we can
// add events to a pending list, and
// when we finish the delay, we can run
// them.
//pendingSendEvent = true // all events are identical for now...
}
}
}
timer.Stop() // it's nice to cleanup
log.Printf("%s[%s]: Watch delay expired!", v.Kind(), v.GetName())
// NOTE: we can avoid the send if running Watch guarantees
// one CheckApply event on startup!
//if pendingSendEvent { // TODO: should this become a list in the future?
// if exit, err := obj.DoSend(chanProcess, ""); exit || err != nil {
// return err // we exit or bubble up a NACK...
// }
//}
}
// TODO: reset the watch retry count after some amount of success
e := v.Res.Watch(chanProcess)
if e == nil { // exit signal
err = nil // clean exit
break
}
if sentinelErr, ok := e.(*SentinelErr); ok { // unwrap the sentinel
err = sentinelErr.err
break // sentinel means, perma-exit
}
log.Printf("%v[%v]: Watch errored: %v", v.Kind(), v.GetName(), e)
if watchRetry == 0 {
err = fmt.Errorf("Permanent watch error: %v", e)
break
}
if watchRetry > 0 { // don't decrement the -1
watchRetry--
}
watchDelay = time.Duration(v.Meta().Delay) * time.Millisecond
log.Printf("%v[%v]: Watch: Retrying after %.4f seconds (%d left)", v.Kind(), v.GetName(), watchDelay.Seconds(), watchRetry)
// We need to trigger a CheckApply after Watch restarts, so that
// we catch any lost events that happened while down. We do this
// by getting the Watch resource to send one event once it's up!
//v.SendEvent(eventPoke, false, false)
}
close(chanProcess)
return err
}
// Start is a main kick to start the graph. It goes through in reverse topological
// sort order so that events can't hit un-started vertices.
func (g *Graph) Start(wg *sync.WaitGroup, first bool) { // start or continue
log.Printf("State: %v -> %v", g.setState(graphStateStarting), g.getState())
defer log.Printf("State: %v -> %v", g.setState(graphStateStarted), g.getState())
t, _ := g.TopologicalSort()
// TODO: only calculate indegree if `first` is true to save resources
indegree := g.InDegree() // compute all of the indegree's
for _, v := range Reverse(t) {
if !v.Res.IsWatching() { // if Watch() is not running...
wg.Add(1)
// must pass in value to avoid races...
// see: https://ttboj.wordpress.com/2015/07/27/golang-parallelism-issues-causing-too-many-open-files-error/
go func(vv *Vertex) {
defer wg.Done()
// TODO: if a sufficient number of workers error,
// should something be done? Will these restart
// after perma-failure if we have a graph change?
if err := g.Worker(vv); err != nil { // contains the Watch and CheckApply loops
log.Printf("%s[%s]: Exited with failure: %v", vv.Kind(), vv.GetName(), err)
return
}
log.Printf("%v[%v]: Exited", vv.Kind(), vv.GetName())
}(v)
}
// selective poke: here we reduce the number of initial pokes
// to the minimum required to activate every vertex in the
// graph, either by direct action, or by getting poked by a
// vertex that was previously activated. if we poke each vertex
// that has no incoming edges, then we can be sure to reach the
// whole graph. Please note: this may mask certain optimization
// failures, such as any poke limiting code in Poke() or
// BackPoke(). You might want to disable this selective start
// when experimenting with and testing those elements.
// if we are unpausing (since it's not the first run of this
// function) we need to poke to *unpause* every graph vertex,
// and not just selectively the subset with no indegree.
if (!first) || indegree[v] == 0 {
// ensure state is started before continuing on to next vertex
for !v.SendEvent(event.EventStart, true, false) {
if global.DEBUG {
// if SendEvent fails, we aren't up yet
log.Printf("%v[%v]: Retrying SendEvent(Start)", v.Kind(), v.GetName())
// sleep here briefly or otherwise cause
// a different goroutine to be scheduled
time.Sleep(1 * time.Millisecond)
}
}
}
}
}
// Pause sends pause events to the graph in a topological sort order.
func (g *Graph) Pause() {
log.Printf("State: %v -> %v", g.setState(graphStatePausing), g.getState())
defer log.Printf("State: %v -> %v", g.setState(graphStatePaused), g.getState())
t, _ := g.TopologicalSort()
for _, v := range t { // squeeze out the events...
v.SendEvent(event.EventPause, true, false)
}
}
// Exit sends exit events to the graph in a topological sort order.
func (g *Graph) Exit() {
if g == nil {
return
} // empty graph that wasn't populated yet
t, _ := g.TopologicalSort()
for _, v := range t { // squeeze out the events...
// turn off the taps...
// XXX: consider instead doing this by closing the Res.events channel instead?
// XXX: do this by sending an exit signal, and then returning
// when we hit the 'default' in the select statement!
// XXX: we can do this to quiesce, but it's not necessary now
v.SendEvent(event.EventExit, true, false)
}
}
// GraphSync updates the oldGraph so that it matches the newGraph receiver. It
// leaves identical elements alone so that they don't need to be refreshed.
// FIXME: add test cases
@@ -1040,10 +619,10 @@ func (g *Graph) GraphMetas() []*resources.MetaParams {
return metas
}
// AssociateData associates some data with the object in the graph in question
func (g *Graph) AssociateData(converger converger.Converger) {
for v := range g.GetVerticesChan() {
v.Res.AssociateData(converger)
// AssociateData associates some data with the object in the graph in question.
func (g *Graph) AssociateData(data *resources.Data) {
for k := range g.Adjacency {
k.Res.AssociateData(data)
}
}

6
puppet/gapi.go
View File

@@ -70,12 +70,12 @@ func (obj *GAPI) Graph() (*pgraph.Graph, error) {
if config == nil {
return nil, fmt.Errorf("Puppet: ParseConfigFromPuppet returned nil!")
}
g, err := config.NewGraphFromConfig(obj.data.Hostname, obj.data.EmbdEtcd, obj.data.Noop)
g, err := config.NewGraphFromConfig(obj.data.Hostname, obj.data.World, obj.data.Noop)
return g, err
}
// SwitchStream returns nil errors every time there could be a new graph.
func (obj *GAPI) SwitchStream() chan error {
// Next returns nil errors every time there could be a new graph.
func (obj *GAPI) Next() chan error {
if obj.data.NoWatch {
return nil
}

9
puppet/puppet.go
View File

@@ -26,17 +26,18 @@ import (
"strconv"
"strings"
"github.com/purpleidea/mgmt/global"
"github.com/purpleidea/mgmt/yamlgraph"
)
const (
// PuppetYAMLBufferSize is the maximum buffer size for the yaml input data
PuppetYAMLBufferSize = 65535
// Debug is a local debug constant used in this module
Debug = false // FIXME: integrate with global debug flag
)
func runPuppetCommand(cmd *exec.Cmd) ([]byte, error) {
if global.DEBUG {
if Debug {
log.Printf("Puppet: running command: %v", cmd)
}
@@ -71,7 +72,7 @@ func runPuppetCommand(cmd *exec.Cmd) ([]byte, error) {
// will choke on an oversized slice. http://stackoverflow.com/a/33726617/3356612
result = append(result, data[0:count]...)
}
if global.DEBUG {
if Debug {
log.Printf("Puppet: read %v bytes of data from puppet", len(result))
}
for scanner := bufio.NewScanner(stderr); scanner.Scan(); {
@@ -117,7 +118,7 @@ func ParseConfigFromPuppet(puppetParam, puppetConf string) *yamlgraph.GraphConfi
// PuppetInterval returns the graph refresh interval from the puppet configuration.
func PuppetInterval(puppetConf string) int {
if global.DEBUG {
if Debug {
log.Printf("Puppet: determining graph refresh interval")
}
var cmd *exec.Cmd

11
recwatch/configwatch.go
View File

@@ -20,12 +20,12 @@ package recwatch
import (
"log"
"sync"
"github.com/purpleidea/mgmt/global"
)
// ConfigWatcher returns events on a channel anytime one of its files events.
type ConfigWatcher struct {
Flags Flags
ch chan string
wg sync.WaitGroup
closechan chan struct{}
@@ -56,7 +56,7 @@ func (obj *ConfigWatcher) Add(file ...string) {
obj.wg.Add(1)
go func() {
defer obj.wg.Done()
ch := ConfigWatch(file[0])
ch := obj.ConfigWatch(file[0])
for {
select {
case e := <-ch:
@@ -100,7 +100,7 @@ func (obj *ConfigWatcher) Close() {
}
// ConfigWatch writes on the channel every time an event is seen for the path.
func ConfigWatch(file string) chan error {
func (obj *ConfigWatcher) ConfigWatch(file string) chan error {
ch := make(chan error)
go func() {
recWatcher, err := NewRecWatcher(file, false)
@@ -109,9 +109,10 @@ func ConfigWatch(file string) chan error {
close(ch)
return
}
recWatcher.Flags = obj.Flags
defer recWatcher.Close()
for {
if global.DEBUG {
if obj.Flags.Debug {
log.Printf("Watching: %v", file)
}
select {

13
global/global.go → recwatch/flags.go
View File

@@ -15,12 +15,9 @@
// You should have received a copy of the GNU Affero General Public License
// along with this program. If not, see <http://www.gnu.org/licenses/>.
// Package global holds some global variables that are used throughout the code.
package global
package recwatch
// These constants are used throughout the program.
const (
DEBUG = false // add additional log messages
TRACE = false // add execution flow log messages
VERBOSE = false // add extra log message output
)
// Flags contains all the constant flags that recwatch needs.
type Flags struct {
Debug bool
}

10
recwatch/recwatch.go
View File

@@ -29,7 +29,6 @@ import (
"sync"
"syscall"
"github.com/purpleidea/mgmt/global" // XXX: package mgmtmain instead?
"github.com/purpleidea/mgmt/util"
"gopkg.in/fsnotify.v1"
@@ -46,6 +45,7 @@ type Event struct {
type RecWatcher struct {
Path string // computed path
Recurse bool // should we watch recursively?
Flags Flags
isDir bool // computed isDir
safename string // safe path
watcher *fsnotify.Watcher
@@ -150,12 +150,12 @@ func (obj *RecWatcher) Watch() error {
if current == "" { // the empty string top is the root dir ("/")
current = "/"
}
if global.DEBUG {
if obj.Flags.Debug {
log.Printf("Watching: %s", current) // attempting to watch...
}
// initialize in the loop so that we can reset on rm-ed handles
if err := obj.watcher.Add(current); err != nil {
if global.DEBUG {
if obj.Flags.Debug {
log.Printf("watcher.Add(%s): Error: %v", current, err)
}
@@ -178,7 +178,7 @@ func (obj *RecWatcher) Watch() error {
select {
case event := <-obj.watcher.Events:
if global.DEBUG {
if obj.Flags.Debug {
log.Printf("Watch(%s), Event(%s): %v", current, event.Name, event.Op)
}
// the deeper you go, the bigger the deltaDepth is...
@@ -291,7 +291,7 @@ func (obj *RecWatcher) addSubFolders(p string) error {
}
// look at all subfolders...
walkFn := func(path string, info os.FileInfo, err error) error {
if global.DEBUG {
if obj.Flags.Debug {
log.Printf("Walk: %s (%v): %v", path, info, err)
}
if err != nil {

61
remote/remote.go
View File

@@ -62,7 +62,6 @@ import (
"time"
cv "github.com/purpleidea/mgmt/converger"
"github.com/purpleidea/mgmt/global"
"github.com/purpleidea/mgmt/util"
"github.com/purpleidea/mgmt/yamlgraph"
@@ -85,6 +84,12 @@ const (
nonInteractivePasswordTimeout = 5 * 2 // five minutes
)
// Flags are constants required by the remote lib.
type Flags struct {
Program string
Debug bool
}
// The SSH struct is the unit building block for a single remote SSH connection.
type SSH struct {
hostname string // uuid of the host, as used by the --hostname argument
@@ -116,7 +121,7 @@ type SSH struct {
lock sync.Mutex // mutex to avoid exit races
exiting bool // flag to let us know if we're exiting
program string // name of the binary
flags Flags // constant runtime values
remotewd string // path to remote working directory
execpath string // path to remote mgmt binary
filepath string // path to remote file config
@@ -151,11 +156,11 @@ func (obj *SSH) Sftp() error {
var err error
if obj.client == nil {
return fmt.Errorf("Not dialed!")
return fmt.Errorf("not dialed")
}
// this check is needed because the golang path.Base function is weird!
if strings.HasSuffix(obj.file, "/") {
return fmt.Errorf("File must not be a directory.")
return fmt.Errorf("file must not be a directory")
}
// we run local operations first so that remote clean up is easier...
@@ -224,7 +229,7 @@ func (obj *SSH) Sftp() error {
break
}
obj.execpath = path.Join(obj.remotewd, obj.program) // program is a compile time string
obj.execpath = path.Join(obj.remotewd, obj.flags.Program) // program is a compile time string
log.Printf("Remote: Remote path is: %s", obj.execpath)
var same bool
@@ -249,7 +254,7 @@ func (obj *SSH) Sftp() error {
// make file executable; don't cache this in case it didn't ever happen
// TODO: do we want the group or other bits set?
if err := obj.sftp.Chmod(obj.execpath, 0770); err != nil {
return fmt.Errorf("Can't set file mode bits!")
return fmt.Errorf("can't set file mode bits")
}
// copy graph file
@@ -268,7 +273,7 @@ func (obj *SSH) Sftp() error {
// SftpGraphCopy is a helper function used for re-copying the graph definition.
func (obj *SSH) SftpGraphCopy() (int64, error) {
if obj.filepath == "" {
return -1, fmt.Errorf("Sftp session isn't ready yet!")
return -1, fmt.Errorf("sftp session isn't ready yet")
}
return obj.SftpCopy(obj.file, obj.filepath)
}
@@ -276,7 +281,7 @@ func (obj *SSH) SftpGraphCopy() (int64, error) {
// SftpCopy is a simple helper function that runs a local -> remote sftp copy.
func (obj *SSH) SftpCopy(src, dst string) (int64, error) {
if obj.sftp == nil {
return -1, fmt.Errorf("Sftp session is not active!")
return -1, fmt.Errorf("sftp session is not active")
}
var err error
// TODO: add a check to make sure we don't run two copies of this
@@ -308,7 +313,7 @@ func (obj *SSH) SftpCopy(src, dst string) (int64, error) {
return n, fmt.Errorf("Can't copy to remote path: %v", err)
}
if n <= 0 {
return n, fmt.Errorf("Zero bytes copied!")
return n, fmt.Errorf("zero bytes copied")
}
return n, nil
}
@@ -386,10 +391,10 @@ func (obj *SSH) Tunnel() error {
var err error
if len(obj.clientURLs) < 1 {
return fmt.Errorf("Need at least one client URL to tunnel!")
return fmt.Errorf("need at least one client URL to tunnel")
}
if len(obj.remoteURLs) < 1 {
return fmt.Errorf("Need at least one remote URL to tunnel!")
return fmt.Errorf("need at least one remote URL to tunnel")
}
// TODO: do something less arbitrary about which one we pick?
@@ -448,7 +453,7 @@ func (obj *SSH) forward(remoteConn net.Conn) net.Conn {
log.Printf("Remote: io.Copy error: %s", err)
// FIXME: what should we do here???
}
if global.DEBUG {
if obj.flags.Debug {
log.Printf("Remote: io.Copy finished: %d", n)
}
}
@@ -472,10 +477,10 @@ func (obj *SSH) TunnelClose() error {
// Exec runs the binary on the remote server.
func (obj *SSH) Exec() error {
if obj.execpath == "" {
return fmt.Errorf("Must have a binary path to execute!")
return fmt.Errorf("must have a binary path to execute")
}
if obj.filepath == "" {
return fmt.Errorf("Must have a graph definition to run!")
return fmt.Errorf("must have a graph definition to run")
}
var err error
@@ -563,7 +568,7 @@ func (obj *SSH) ExecExit() error {
}
// FIXME: workaround: force a signal!
if _, err := obj.simpleRun(fmt.Sprintf("killall -SIGINT %s", obj.program)); err != nil { // FIXME: low specificity
if _, err := obj.simpleRun(fmt.Sprintf("killall -SIGINT %s", obj.flags.Program)); err != nil { // FIXME: low specificity
log.Printf("Remote: Failed to send SIGINT: %s", err.Error())
}
@@ -572,12 +577,12 @@ func (obj *SSH) ExecExit() error {
// try killing the process more violently
time.Sleep(10 * time.Second)
//obj.session.Signal(ssh.SIGKILL)
cmd := fmt.Sprintf("killall -SIGKILL %s", obj.program) // FIXME: low specificity
cmd := fmt.Sprintf("killall -SIGKILL %s", obj.flags.Program) // FIXME: low specificity
obj.simpleRun(cmd)
}()
// FIXME: workaround: wait (spin lock) until process quits cleanly...
cmd := fmt.Sprintf("while killall -0 %s 2> /dev/null; do sleep 1s; done", obj.program) // FIXME: low specificity
cmd := fmt.Sprintf("while killall -0 %s 2> /dev/null; do sleep 1s; done", obj.flags.Program) // FIXME: low specificity
if _, err := obj.simpleRun(cmd); err != nil {
return fmt.Errorf("Error waiting: %s", err)
}
@@ -704,11 +709,11 @@ type Remotes struct {
cuids map[string]cv.ConvergerUID // map to each SSH struct with the remote as the key
callbackCancelFunc func() // stored callback function cancel function
program string // name of the program
flags Flags // constant runtime values
}
// NewRemotes builds a Remotes struct.
func NewRemotes(clientURLs, remoteURLs []string, noop bool, remotes []string, fileWatch chan string, cConns uint16, interactive bool, sshPrivIdRsa string, caching bool, depth uint16, prefix string, converger cv.Converger, convergerCb func(func(map[string]bool) error) (func(), error), program string) *Remotes {
func NewRemotes(clientURLs, remoteURLs []string, noop bool, remotes []string, fileWatch chan string, cConns uint16, interactive bool, sshPrivIdRsa string, caching bool, depth uint16, prefix string, converger cv.Converger, convergerCb func(func(map[string]bool) error) (func(), error), flags Flags) *Remotes {
return &Remotes{
clientURLs: clientURLs,
remoteURLs: remoteURLs,
@@ -728,7 +733,7 @@ func NewRemotes(clientURLs, remoteURLs []string, noop bool, remotes []string, fi
semaphore: NewSemaphore(int(cConns)),
hostnames: make([]string, len(remotes)),
cuids: make(map[string]cv.ConvergerUID),
program: program,
flags: flags,
}
}
@@ -767,7 +772,7 @@ func (obj *Remotes) NewSSH(file string) (*SSH, error) {
}
host = x[0]
if host == "" {
return nil, fmt.Errorf("Empty hostname!")
return nil, fmt.Errorf("empty hostname")
}
user := defaultUser // default
@@ -790,7 +795,7 @@ func (obj *Remotes) NewSSH(file string) (*SSH, error) {
}
if len(auth) == 0 {
return nil, fmt.Errorf("No authentication methods available!")
return nil, fmt.Errorf("no authentication methods available")
}
//hostname := config.Hostname // TODO: optionally specify local hostname somehow
@@ -799,7 +804,7 @@ func (obj *Remotes) NewSSH(file string) (*SSH, error) {
hostname = host // default to above
}
if util.StrInList(hostname, obj.hostnames) {
return nil, fmt.Errorf("Remote: Hostname `%s` already exists!", hostname)
return nil, fmt.Errorf("Remote: Hostname `%s` already exists", hostname)
}
obj.hostnames = append(obj.hostnames, hostname)
@@ -818,14 +823,14 @@ func (obj *Remotes) NewSSH(file string) (*SSH, error) {
caching: obj.caching,
converger: obj.converger,
prefix: obj.prefix,
program: obj.program,
flags: obj.flags,
}, nil
}
// sshKeyAuth is a helper function to get the ssh key auth struct needed
func (obj *Remotes) sshKeyAuth() (ssh.AuthMethod, error) {
if obj.sshPrivIdRsa == "" {
return nil, fmt.Errorf("Empty path specified!")
return nil, fmt.Errorf("empty path specified")
}
p := ""
// TODO: this doesn't match strings of the form: ~james/.ssh/id_rsa
@@ -838,7 +843,7 @@ func (obj *Remotes) sshKeyAuth() (ssh.AuthMethod, error) {
p = path.Join(usr.HomeDir, obj.sshPrivIdRsa[len("~/"):])
}
if p == "" {
return nil, fmt.Errorf("Empty path specified!")
return nil, fmt.Errorf("empty path specified")
}
// A public key may be used to authenticate against the server by using
// an unencrypted PEM-encoded private key file. If you have an encrypted
@@ -887,7 +892,7 @@ func (obj *Remotes) passwordCallback(user, host string) func() (string, error) {
case e := <-failchan:
return "", e
case <-util.TimeAfterOrBlock(timeout):
return "", fmt.Errorf("Interactive timeout reached!")
return "", fmt.Errorf("interactive timeout reached")
}
}
return cb
@@ -924,7 +929,7 @@ func (obj *Remotes) Run() {
if !ok { // no status on hostname means unconverged!
continue
}
if global.DEBUG {
if obj.flags.Debug {
log.Printf("Remote: Converged: Status: %+v", obj.converger.Status())
}
// if exiting, don't update, it will be unregistered...

77
resources/exec.go
View File

@@ -21,15 +21,15 @@ import (
"bufio"
"bytes"
"encoding/gob"
"errors"
"fmt"
"log"
"os/exec"
"strings"
"time"
"github.com/purpleidea/mgmt/event"
"github.com/purpleidea/mgmt/util"
errwrap "github.com/pkg/errors"
)
func init() {
@@ -110,22 +110,7 @@ func (obj *ExecRes) BufioChanScanner(scanner *bufio.Scanner) (chan string, chan
// Watch is the primary listener for this resource and it outputs events.
func (obj *ExecRes) Watch(processChan chan event.Event) error {
if obj.IsWatching() {
return nil
}
obj.SetWatching(true)
defer obj.SetWatching(false)
cuid := obj.converger.Register()
defer cuid.Unregister()
var startup bool
Startup := func(block bool) <-chan time.Time {
if block {
return nil // blocks forever
//return make(chan time.Time) // blocks forever
}
return time.After(time.Duration(500) * time.Millisecond) // 1/2 the resolution of converged timeout
}
cuid := obj.Converger() // get the converger uid used to report status
var send = false // send event?
var exit = false
@@ -151,7 +136,7 @@ func (obj *ExecRes) Watch(processChan chan event.Event) error {
cmdReader, err := cmd.StdoutPipe()
if err != nil {
return fmt.Errorf("%s[%s]: Error creating StdoutPipe for Cmd: %v", obj.Kind(), obj.GetName(), err)
return errwrap.Wrapf(err, "Error creating StdoutPipe for Cmd")
}
scanner := bufio.NewScanner(cmdReader)
@@ -162,19 +147,24 @@ func (obj *ExecRes) Watch(processChan chan event.Event) error {
cmd.Process.Kill() // TODO: is this necessary?
}()
if err := cmd.Start(); err != nil {
return fmt.Errorf("%s[%s]: Error starting Cmd: %v", obj.Kind(), obj.GetName(), err)
return errwrap.Wrapf(err, "Error starting Cmd")
}
bufioch, errch = obj.BufioChanScanner(scanner)
}
// notify engine that we're running
if err := obj.Running(processChan); err != nil {
return err // bubble up a NACK...
}
for {
obj.SetState(ResStateWatching) // reset
select {
case text := <-bufioch:
cuid.SetConverged(false)
// each time we get a line of output, we loop!
log.Printf("%v[%v]: Watch output: %s", obj.Kind(), obj.GetName(), text)
log.Printf("%s[%s]: Watch output: %s", obj.Kind(), obj.GetName(), text)
if text != "" {
send = true
}
@@ -184,10 +174,10 @@ func (obj *ExecRes) Watch(processChan chan event.Event) error {
if err == nil { // EOF
// FIXME: add an "if watch command ends/crashes"
// restart or generate error option
return fmt.Errorf("%s[%s]: Reached EOF", obj.Kind(), obj.GetName())
return fmt.Errorf("Reached EOF")
}
// error reading input?
return fmt.Errorf("Unknown %s[%s] error: %v", obj.Kind(), obj.GetName(), err)
return errwrap.Wrapf(err, "Unknown error")
case event := <-obj.Events():
cuid.SetConverged(false)
@@ -198,18 +188,13 @@ func (obj *ExecRes) Watch(processChan chan event.Event) error {
case <-cuid.ConvergedTimer():
cuid.SetConverged(true) // converged!
continue
case <-Startup(startup):
cuid.SetConverged(false)
send = true
}
// do all our event sending all together to avoid duplicate msgs
if send {
startup = true // startup finished
send = false
// it is okay to invalidate the clean state on poke too
obj.isStateOK = false // something made state dirty
obj.StateOK(false) // something made state dirty
if exit, err := obj.DoSend(processChan, ""); exit || err != nil {
return err // we exit or bubble up a NACK...
}
@@ -220,12 +205,11 @@ func (obj *ExecRes) Watch(processChan chan event.Event) error {
// CheckApply checks the resource state and applies the resource if the bool
// input is true. It returns error info and if the state check passed or not.
// TODO: expand the IfCmd to be a list of commands
func (obj *ExecRes) CheckApply(apply bool) (checkok bool, err error) {
log.Printf("%v[%v]: CheckApply(%t)", obj.Kind(), obj.GetName(), apply)
func (obj *ExecRes) CheckApply(apply bool) (checkOK bool, err error) {
// if there is a watch command, but no if command, run based on state
if obj.WatchCmd != "" && obj.IfCmd == "" {
if obj.isStateOK {
if obj.IsStateOK() { // FIXME: this is done by engine now...
return true, nil
}
@@ -263,7 +247,7 @@ func (obj *ExecRes) CheckApply(apply bool) (checkok bool, err error) {
// if there is no watcher and no onlyif check, assume we should run
} else { // if obj.WatchCmd == "" && obj.IfCmd == "" {
// just run if state is dirty
if obj.isStateOK {
if obj.IsStateOK() { // FIXME: this is done by engine now...
return true, nil
}
}
@@ -274,7 +258,7 @@ func (obj *ExecRes) CheckApply(apply bool) (checkok bool, err error) {
}
// apply portion
log.Printf("%v[%v]: Apply", obj.Kind(), obj.GetName())
log.Printf("%s[%s]: Apply", obj.Kind(), obj.GetName())
var cmdName string
var cmdArgs []string
if obj.Shell == "" {
@@ -295,9 +279,8 @@ func (obj *ExecRes) CheckApply(apply bool) (checkok bool, err error) {
var out bytes.Buffer
cmd.Stdout = &out
if err = cmd.Start(); err != nil {
log.Printf("%v[%v]: Error starting Cmd: %v", obj.Kind(), obj.GetName(), err)
return false, err
if err := cmd.Start(); err != nil {
return false, errwrap.Wrapf(err, "Error starting Cmd")
}
timeout := obj.Timeout
@@ -308,34 +291,34 @@ func (obj *ExecRes) CheckApply(apply bool) (checkok bool, err error) {
go func() { done <- cmd.Wait() }()
select {
case err = <-done:
case err := <-done:
if err != nil {
log.Printf("%v[%v]: Error waiting for Cmd: %v", obj.Kind(), obj.GetName(), err)
return false, err
e := errwrap.Wrapf(err, "Error waiting for Cmd")
return false, e
}
case <-util.TimeAfterOrBlock(timeout):
log.Printf("%v[%v]: Timeout waiting for Cmd", obj.Kind(), obj.GetName())
//cmd.Process.Kill() // TODO: is this necessary?
return false, errors.New("Timeout waiting for Cmd!")
return false, fmt.Errorf("Timeout waiting for Cmd!")
}
// TODO: if we printed the stdout while the command is running, this
// would be nice, but it would require terminal log output that doesn't
// interleave all the parallel parts which would mix it all up...
if s := out.String(); s == "" {
log.Printf("Exec[%v]: Command output is empty!", obj.Name)
log.Printf("%s[%s]: Command output is empty!", obj.Kind(), obj.GetName())
} else {
log.Printf("Exec[%v]: Command output is:", obj.Name)
log.Printf("%s[%s]: Command output is:", obj.Kind(), obj.GetName())
log.Printf(out.String())
}
// XXX: return based on exit value!!
// the state tracking is for exec resources that can't "detect" their
// The state tracking is for exec resources that can't "detect" their
// state, and assume it's invalid when the Watch() function triggers.
// if we apply state successfully, we should reset it here so that we
// If we apply state successfully, we should reset it here so that we
// know that we have applied since the state was set not ok by event!
obj.isStateOK = true // reset
// This now happens automatically after the engine runs CheckApply().
return false, nil // success
}

115
resources/file.go
View File

@@ -30,12 +30,12 @@ import (
"path"
"path/filepath"
"strings"
"time"
"github.com/purpleidea/mgmt/event"
"github.com/purpleidea/mgmt/global" // XXX: package mgmtmain instead?
"github.com/purpleidea/mgmt/recwatch"
"github.com/purpleidea/mgmt/util"
errwrap "github.com/pkg/errors"
)
func init() {
@@ -48,7 +48,7 @@ type FileRes struct {
Path string `yaml:"path"` // path variable (should default to name)
Dirname string `yaml:"dirname"`
Basename string `yaml:"basename"`
Content string `yaml:"content"` // FIXME: how do you describe: "leave content alone" - state = "create" ?
Content *string `yaml:"content"` // nil to mark as undefined
Source string `yaml:"source"` // file path for source content
State string `yaml:"state"` // state: exists/present?, absent, (undefined?)
Recurse bool `yaml:"recurse"`
@@ -60,7 +60,7 @@ type FileRes struct {
}
// NewFileRes is a constructor for this resource. It also calls Init() for you.
func NewFileRes(name, path, dirname, basename, content, source, state string, recurse, force bool) (*FileRes, error) {
func NewFileRes(name, path, dirname, basename string, content *string, source, state string, recurse, force bool) (*FileRes, error) {
obj := &FileRes{
BaseRes: BaseRes{
Name: name,
@@ -118,11 +118,11 @@ func (obj *FileRes) Validate() error {
return fmt.Errorf("Basename must not start with a slash.")
}
if obj.Content != "" && obj.Source != "" {
if obj.Content != nil && obj.Source != "" {
return fmt.Errorf("Can't specify both Content and Source.")
}
if obj.isDir && obj.Content != "" { // makes no sense
if obj.isDir && obj.Content != nil { // makes no sense
return fmt.Errorf("Can't specify Content when creating a Dir.")
}
@@ -141,22 +141,7 @@ func (obj *FileRes) Validate() error {
// must be restarted. On a clean exit it returns nil.
// FIXME: Also watch the source directory when using obj.Source !!!
func (obj *FileRes) Watch(processChan chan event.Event) error {
if obj.IsWatching() {
return nil // TODO: should this be an error?
}
obj.SetWatching(true)
defer obj.SetWatching(false)
cuid := obj.converger.Register()
defer cuid.Unregister()
var startup bool
Startup := func(block bool) <-chan time.Time {
if block {
return nil // blocks forever
//return make(chan time.Time) // blocks forever
}
return time.After(time.Duration(500) * time.Millisecond) // 1/2 the resolution of converged timeout
}
cuid := obj.Converger() // get the converger uid used to report status
var err error
obj.recWatcher, err = recwatch.NewRecWatcher(obj.Path, obj.Recurse)
@@ -165,12 +150,16 @@ func (obj *FileRes) Watch(processChan chan event.Event) error {
}
defer obj.recWatcher.Close()
// notify engine that we're running
if err := obj.Running(processChan); err != nil {
return err // bubble up a NACK...
}
var send = false // send event?
var exit = false
var dirty = false
for {
if global.DEBUG {
if obj.debug {
log.Printf("%s[%s]: Watching: %s", obj.Kind(), obj.GetName(), obj.Path) // attempting to watch...
}
@@ -182,40 +171,29 @@ func (obj *FileRes) Watch(processChan chan event.Event) error {
}
cuid.SetConverged(false)
if err := event.Error; err != nil {
return fmt.Errorf("Unknown %s[%s] watcher error: %v", obj.Kind(), obj.GetName(), err)
return errwrap.Wrapf(err, "Unknown %s[%s] watcher error", obj.Kind(), obj.GetName())
}
if global.DEBUG { // don't access event.Body if event.Error isn't nil
if obj.debug { // don't access event.Body if event.Error isn't nil
log.Printf("%s[%s]: Event(%s): %v", obj.Kind(), obj.GetName(), event.Body.Name, event.Body.Op)
}
send = true
dirty = true
obj.StateOK(false) // dirty
case event := <-obj.Events():
cuid.SetConverged(false)
if exit, send = obj.ReadEvent(&event); exit {
return nil // exit
}
//dirty = false // these events don't invalidate state
//obj.StateOK(false) // dirty // these events don't invalidate state
case <-cuid.ConvergedTimer():
cuid.SetConverged(true) // converged!
continue
case <-Startup(startup):
cuid.SetConverged(false)
send = true
dirty = true
}
// do all our event sending all together to avoid duplicate msgs
if send {
startup = true // startup finished
send = false
// only invalid state on certain types of events
if dirty {
dirty = false
obj.isStateOK = false // something made state dirty
}
if exit, err := obj.DoSend(processChan, ""); exit || err != nil {
return err // we exit or bubble up a NACK...
}
@@ -258,7 +236,7 @@ func ReadDir(path string) ([]FileInfo, error) {
abs := path + smartPath(fi)
rel, err := filepath.Rel(path, abs) // NOTE: calls Clean()
if err != nil { // shouldn't happen
return nil, fmt.Errorf("ReadDir: Unhandled error: %v", err)
return nil, errwrap.Wrapf(err, "ReadDir: Unhandled error")
}
if fi.IsDir() {
rel += "/" // add a trailing slash for dirs
@@ -293,7 +271,7 @@ func mapPaths(fileInfos []FileInfo) map[string]FileInfo {
func (obj *FileRes) fileCheckApply(apply bool, src io.ReadSeeker, dst string, sha256sum string) (string, bool, error) {
// TODO: does it make sense to switch dst to an io.Writer ?
// TODO: use obj.Force when dealing with symlinks and other file types!
if global.DEBUG {
if obj.debug {
log.Printf("fileCheckApply: %s -> %s", src, dst)
}
@@ -390,7 +368,7 @@ func (obj *FileRes) fileCheckApply(apply bool, src io.ReadSeeker, dst string, sh
if !apply {
return sha256sum, false, nil
}
if global.DEBUG {
if obj.debug {
log.Printf("fileCheckApply: Apply: %s -> %s", src, dst)
}
@@ -411,12 +389,12 @@ func (obj *FileRes) fileCheckApply(apply bool, src io.ReadSeeker, dst string, sh
// syscall.Splice(rfd int, roff *int64, wfd int, woff *int64, len int, flags int) (n int64, err error)
// TODO: should we offer a way to cancel the copy on ^C ?
if global.DEBUG {
if obj.debug {
log.Printf("fileCheckApply: Copy: %s -> %s", src, dst)
}
if n, err := io.Copy(dstFile, src); err != nil {
return sha256sum, false, err
} else if global.DEBUG {
} else if obj.debug {
log.Printf("fileCheckApply: Copied: %v", n)
}
return sha256sum, false, dstFile.Sync()
@@ -426,7 +404,7 @@ func (obj *FileRes) fileCheckApply(apply bool, src io.ReadSeeker, dst string, sh
// It is recursive and can create directories directly, and files via the usual
// fileCheckApply method. It returns checkOK and error as is normally expected.
func (obj *FileRes) syncCheckApply(apply bool, src, dst string) (bool, error) {
if global.DEBUG {
if obj.debug {
log.Printf("syncCheckApply: %s -> %s", src, dst)
}
if src == "" || dst == "" {
@@ -444,12 +422,12 @@ func (obj *FileRes) syncCheckApply(apply bool, src, dst string) (bool, error) {
}
if !srcIsDir && !dstIsDir {
if global.DEBUG {
if obj.debug {
log.Printf("syncCheckApply: %s -> %s", src, dst)
}
fin, err := os.Open(src)
if err != nil {
if global.DEBUG && os.IsNotExist(err) { // if we get passed an empty src
if obj.debug && os.IsNotExist(err) { // if we get passed an empty src
log.Printf("syncCheckApply: Missing src: %s", src)
}
return false, err
@@ -505,7 +483,7 @@ func (obj *FileRes) syncCheckApply(apply bool, src, dst string) (bool, error) {
delete(smartDst, relPathFile) // rm from purge list
}
if global.DEBUG {
if obj.debug {
log.Printf("syncCheckApply: mkdir -m %s '%s'", fileInfo.Mode(), absDst)
}
if err := os.Mkdir(absDst, fileInfo.Mode()); err != nil {
@@ -516,12 +494,12 @@ func (obj *FileRes) syncCheckApply(apply bool, src, dst string) (bool, error) {
// if we're a regular file, the recurse will create it
}
if global.DEBUG {
if obj.debug {
log.Printf("syncCheckApply: Recurse: %s -> %s", absSrc, absDst)
}
if obj.Recurse {
if c, err := obj.syncCheckApply(apply, absSrc, absDst); err != nil { // recurse
return false, fmt.Errorf("syncCheckApply: Recurse failed: %v", err)
return false, errwrap.Wrapf(err, "syncCheckApply: Recurse failed")
} else if !c { // don't let subsequent passes make this true
checkOK = false
}
@@ -562,7 +540,7 @@ func (obj *FileRes) syncCheckApply(apply bool, src, dst string) (bool, error) {
_ = absSrc
//log.Printf("syncCheckApply: Recurse rm: %s -> %s", absSrc, absDst)
//if c, err := obj.syncCheckApply(apply, absSrc, absDst); err != nil {
// return false, fmt.Errorf("syncCheckApply: Recurse rm failed: %v", err)
// return false, errwrap.Wrapf(err, "syncCheckApply: Recurse rm failed")
//} else if !c { // don't let subsequent passes make this true
// checkOK = false
//}
@@ -580,7 +558,7 @@ func (obj *FileRes) syncCheckApply(apply bool, src, dst string) (bool, error) {
// contentCheckApply performs a CheckApply for the file existence and content.
func (obj *FileRes) contentCheckApply(apply bool) (checkOK bool, _ error) {
log.Printf("%v[%v]: contentCheckApply(%t)", obj.Kind(), obj.GetName(), apply)
log.Printf("%s[%s]: contentCheckApply(%t)", obj.Kind(), obj.GetName(), apply)
if obj.State == "absent" {
if _, err := os.Stat(obj.path); os.IsNotExist(err) {
@@ -608,12 +586,17 @@ func (obj *FileRes) contentCheckApply(apply bool) (checkOK bool, _ error) {
return false, err // either nil or not
}
// content is not defined, leave it alone...
if obj.Content == nil {
return true, nil
}
if obj.Source == "" { // do the obj.Content checks first...
if obj.isDir { // TODO: should we create an empty dir this way?
log.Fatal("XXX: Not implemented!") // XXX
}
bufferSrc := bytes.NewReader([]byte(obj.Content))
bufferSrc := bytes.NewReader([]byte(*obj.Content))
sha256sum, checkOK, err := obj.fileCheckApply(apply, bufferSrc, obj.path, obj.sha256sum)
if sha256sum != "" { // empty values mean errored or didn't hash
// this can be valid even when the whole function errors
@@ -638,10 +621,17 @@ func (obj *FileRes) contentCheckApply(apply bool) (checkOK bool, _ error) {
// CheckApply checks the resource state and applies the resource if the bool
// input is true. It returns error info and if the state check passed or not.
func (obj *FileRes) CheckApply(apply bool) (checkOK bool, _ error) {
log.Printf("%v[%v]: CheckApply(%t)", obj.Kind(), obj.GetName(), apply)
if obj.isStateOK { // cache the state
return true, nil
// NOTE: all send/recv change notifications *must* be processed before
// there is a possibility of failure in CheckApply. This is because if
// we fail (and possibly run again) the subsequent send->recv transfer
// might not have a new value to copy, and therefore we won't see this
// notification of change. Therefore, it is important to process these
// promptly, if they must not be lost, such as for cache invalidation.
if val, exists := obj.Recv["Content"]; exists && val.Changed {
// if we received on Content, and it changed, invalidate the cache!
log.Printf("contentCheckApply: Invalidating sha256sum of `Content`")
obj.sha256sum = "" // invalidate!!
}
checkOK = true
@@ -666,10 +656,6 @@ func (obj *FileRes) CheckApply(apply bool) (checkOK bool, _ error) {
// checkOK = false
//}
// if we did work successfully, or are in a good state, then state is ok
if apply || checkOK {
obj.isStateOK = true
}
return checkOK, nil // w00t
}
@@ -784,12 +770,17 @@ func (obj *FileRes) Compare(res Res) bool {
if obj.Name != res.Name {
return false
}
if obj.path != res.Path {
if obj.path != res.path {
return false
}
if obj.Content != res.Content {
if (obj.Content == nil) != (res.Content == nil) { // xor
return false
}
if obj.Content != nil && res.Content != nil {
if *obj.Content != *res.Content { // compare the strings
return false
}
}
if obj.Source != res.Source {
return false
}

295
resources/hostname.go Normal file
View File

@@ -0,0 +1,295 @@
// Mgmt
// Copyright (C) 2013-2016+ James Shubin and the project contributors
// Written by James Shubin <james@shubin.ca> and the project contributors
//
// This program is free software: you can redistribute it and/or modify
// it under the terms of the GNU Affero General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
//
// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU Affero General Public License for more details.
//
// You should have received a copy of the GNU Affero General Public License
// along with this program. If not, see <http://www.gnu.org/licenses/>.
package resources
import (
"encoding/gob"
"errors"
"fmt"
"log"
"github.com/purpleidea/mgmt/event"
"github.com/purpleidea/mgmt/util"
"github.com/godbus/dbus"
errwrap "github.com/pkg/errors"
)
// ErrResourceInsufficientParameters is returned when the configuration of the resource
// is insufficient for the resource to do any useful work.
var ErrResourceInsufficientParameters = errors.New(
"Insufficient parameters for this resource")
func init() {
gob.Register(&HostnameRes{})
}
const (
hostname1Path = "/org/freedesktop/hostname1"
hostname1Iface = "org.freedesktop.hostname1"
dbusAddMatch = "org.freedesktop.DBus.AddMatch"
)
// HostnameRes is a resource that allows setting and watching the hostname.
//
// StaticHostname is the one configured in /etc/hostname or a similar file.
// It is chosen by the local user. It is not always in sync with the current
// host name as returned by the gethostname() system call.
//
// TransientHostname is the one configured via the kernel's sethostbyname().
// It can be different from the static hostname in case DHCP or mDNS have been
// configured to change the name based on network information.
//
// PrettyHostname is a free-form UTF8 host name for presentation to the user.
//
// Hostname is the fallback value for all 3 fields above, if only Hostname is
// specified, it will set all 3 fields to this value.
type HostnameRes struct {
BaseRes `yaml:",inline"`
Hostname string `yaml:"hostname"`
PrettyHostname string `yaml:"pretty_hostname"`
StaticHostname string `yaml:"static_hostname"`
TransientHostname string `yaml:"transient_hostname"`
conn *dbus.Conn
}
// NewHostnameRes is a constructor for this resource. It also calls Init() for you.
func NewHostnameRes(name, staticHostname, transientHostname, prettyHostname string) (*HostnameRes, error) {
obj := &HostnameRes{
BaseRes: BaseRes{
Name: name,
},
PrettyHostname: prettyHostname,
StaticHostname: staticHostname,
TransientHostname: transientHostname,
}
return obj, obj.Init()
}
// Init runs some startup code for this resource.
func (obj *HostnameRes) Init() error {
obj.BaseRes.kind = "Hostname"
if obj.PrettyHostname == "" {
obj.PrettyHostname = obj.Hostname
}
if obj.StaticHostname == "" {
obj.StaticHostname = obj.Hostname
}
if obj.TransientHostname == "" {
obj.TransientHostname = obj.Hostname
}
return obj.BaseRes.Init() // call base init, b/c we're overriding
}
// Validate if the params passed in are valid data.
// FIXME: where should this get called ?
func (obj *HostnameRes) Validate() error {
if obj.PrettyHostname == "" && obj.StaticHostname == "" && obj.TransientHostname == "" {
return ErrResourceInsufficientParameters
}
return nil
}
// Watch is the primary listener for this resource and it outputs events.
func (obj *HostnameRes) Watch(processChan chan event.Event) error {
cuid := obj.Converger() // get the converger uid used to report status
// if we share the bus with others, we will get each others messages!!
bus, err := util.SystemBusPrivateUsable() // don't share the bus connection!
if err != nil {
return errwrap.Wrap(err, "Failed to connect to bus")
}
defer bus.Close()
callResult := bus.BusObject().Call(
"org.freedesktop.DBus.AddMatch", 0,
fmt.Sprintf("type='signal',path='%s',interface='org.freedesktop.DBus.Properties',member='PropertiesChanged'", hostname1Path))
if callResult.Err != nil {
return errwrap.Wrap(callResult.Err, "Failed to subscribe to DBus events for hostname1")
}
signals := make(chan *dbus.Signal, 10) // closed by dbus package
bus.Signal(signals)
// notify engine that we're running
if err := obj.Running(processChan); err != nil {
return err // bubble up a NACK...
}
var send = false // send event?
for {
obj.SetState(ResStateWatching) // reset
select {
case <-signals:
cuid.SetConverged(false)
send = true
obj.StateOK(false) // dirty
case event := <-obj.Events():
cuid.SetConverged(false)
// we avoid sending events on unpause
if exit, _ := obj.ReadEvent(&event); exit {
return nil // exit
}
send = true
obj.StateOK(false) // dirty
case <-cuid.ConvergedTimer():
cuid.SetConverged(true) // converged!
continue
}
// do all our event sending all together to avoid duplicate msgs
if send {
send = false
if exit, err := obj.DoSend(processChan, ""); exit || err != nil {
return err // we exit or bubble up a NACK...
}
}
}
}
func updateHostnameProperty(object dbus.BusObject, expectedValue, property, setterName string, apply bool) (checkOK bool, err error) {
propertyObject, err := object.GetProperty("org.freedesktop.hostname1." + property)
if err != nil {
return false, errwrap.Wrapf(err, "failed to get org.freedesktop.hostname1.%s", property)
}
if propertyObject.Value() == nil {
return false, errwrap.Errorf("Unexpected nil value received when reading property %s", property)
}
propertyValue, ok := propertyObject.Value().(string)
if !ok {
return false, fmt.Errorf("Received unexpected type as %s value, expected string got '%T'", property, propertyValue)
}
// expected value and actual value match => checkOk
if propertyValue == expectedValue {
return true, nil
}
// nothing to do anymore
if !apply {
return false, nil
}
// attempting to apply the changes
log.Printf("Changing %s: %s => %s", property, propertyValue, expectedValue)
if err := object.Call("org.freedesktop.hostname1."+setterName, 0, expectedValue, false).Err; err != nil {
return false, errwrap.Wrapf(err, "failed to call org.freedesktop.hostname1.%s", setterName)
}
// all good changes should now be applied again
return false, nil
}
// CheckApply method for Hostname resource.
func (obj *HostnameRes) CheckApply(apply bool) (checkOK bool, err error) {
conn, err := util.SystemBusPrivateUsable()
if err != nil {
return false, errwrap.Wrap(err, "Failed to connect to the private system bus")
}
defer conn.Close()
hostnameObject := conn.Object(hostname1Iface, hostname1Path)
checkOK = true
if obj.PrettyHostname != "" {
propertyCheckOK, err := updateHostnameProperty(hostnameObject, obj.PrettyHostname, "PrettyHostname", "SetPrettyHostname", apply)
if err != nil {
return false, err
}
checkOK = checkOK && propertyCheckOK
}
if obj.StaticHostname != "" {
propertyCheckOK, err := updateHostnameProperty(hostnameObject, obj.StaticHostname, "StaticHostname", "SetStaticHostname", apply)
if err != nil {
return false, err
}
checkOK = checkOK && propertyCheckOK
}
if obj.TransientHostname != "" {
propertyCheckOK, err := updateHostnameProperty(hostnameObject, obj.TransientHostname, "Hostname", "SetHostname", apply)
if err != nil {
return false, err
}
checkOK = checkOK && propertyCheckOK
}
return checkOK, nil
}
// HostnameUID is the UID struct for HostnameRes.
type HostnameUID struct {
BaseUID
name string
prettyHostname string
staticHostname string
transientHostname string
}
// AutoEdges returns the AutoEdge interface. In this case no autoedges are used.
func (obj *HostnameRes) AutoEdges() AutoEdge {
return nil
}
// GetUIDs includes all params to make a unique identification of this object.
// Most resources only return one, although some resources can return multiple.
func (obj *HostnameRes) GetUIDs() []ResUID {
x := &HostnameUID{
BaseUID: BaseUID{name: obj.GetName(), kind: obj.Kind()},
name: obj.Name,
prettyHostname: obj.PrettyHostname,
staticHostname: obj.StaticHostname,
transientHostname: obj.TransientHostname,
}
return []ResUID{x}
}
// GroupCmp returns whether two resources can be grouped together or not.
func (obj *HostnameRes) GroupCmp(r Res) bool {
return false
}
// Compare two resources and return if they are equivalent.
func (obj *HostnameRes) Compare(res Res) bool {
switch res := res.(type) {
// we can only compare HostnameRes to others of the same resource
case *HostnameRes:
if !obj.BaseRes.Compare(res) { // call base Compare
return false
}
if obj.Name != res.Name {
return false
}
if obj.PrettyHostname != res.PrettyHostname {
return false
}
if obj.StaticHostname != res.StaticHostname {
return false
}
if obj.TransientHostname != res.TransientHostname {
return false
}
default:
return false
}
return true
}

190
resources/msg.go
View File

@@ -23,7 +23,6 @@ import (
"log"
"regexp"
"strings"
"time"
"github.com/purpleidea/mgmt/event"
@@ -94,23 +93,53 @@ func (obj *MsgRes) Validate() error {
return nil
}
// isAllStateOK derives a compound state from all internal cache flags that apply to this resource.
func (obj *MsgRes) isAllStateOK() bool {
if obj.Journal && !obj.journalStateOK {
return false
}
if obj.Syslog && !obj.syslogStateOK {
return false
}
return obj.logStateOK
}
// updateStateOK sets the global state so it can be read by the engine.
func (obj *MsgRes) updateStateOK() {
obj.StateOK(obj.isAllStateOK())
}
// JournalPriority converts a string description to a numeric priority.
// XXX: Have Validate() make sure it actually is one of these.
func (obj *MsgRes) journalPriority() journal.Priority {
switch obj.Priority {
case "Emerg":
return journal.PriEmerg
case "Alert":
return journal.PriAlert
case "Crit":
return journal.PriCrit
case "Err":
return journal.PriErr
case "Warning":
return journal.PriWarning
case "Notice":
return journal.PriNotice
case "Info":
return journal.PriInfo
case "Debug":
return journal.PriDebug
}
return journal.PriNotice
}
// Watch is the primary listener for this resource and it outputs events.
func (obj *MsgRes) Watch(processChan chan event.Event) error {
if obj.IsWatching() {
return nil
}
obj.SetWatching(true)
defer obj.SetWatching(false)
cuid := obj.converger.Register()
defer cuid.Unregister()
cuid := obj.Converger() // get the converger uid used to report status
var startup bool
Startup := func(block bool) <-chan time.Time {
if block {
return nil // blocks forever
//return make(chan time.Time) // blocks forever
}
return time.After(time.Duration(500) * time.Millisecond) // 1/2 the resolution of converged timeout
// notify engine that we're running
if err := obj.Running(processChan); err != nil {
return err // bubble up a NACK...
}
var send = false // send event?
@@ -125,8 +154,32 @@ func (obj *MsgRes) Watch(processChan chan event.Event) error {
return nil // exit
}
/*
// TODO: invalidate cached state on poke events
case <-cuid.ConvergedTimer():
cuid.SetConverged(true) // converged!
continue
}
// do all our event sending all together to avoid duplicate msgs
if send {
send = false
if exit, err := obj.DoSend(processChan, ""); exit || err != nil {
return err // we exit or bubble up a NACK...
}
}
}
}
// CheckApply method for Msg resource.
// Every check leads to an apply, meaning that the message is flushed to the journal.
func (obj *MsgRes) CheckApply(apply bool) (bool, error) {
// isStateOK() done by engine, so we updateStateOK() to pass in value
//if obj.isAllStateOK() {
// return true, nil
//}
if obj.Refresh() { // if we were notified...
// invalidate cached state...
obj.logStateOK = false
if obj.Journal {
obj.journalStateOK = false
@@ -134,29 +187,31 @@ func (obj *MsgRes) Watch(processChan chan event.Event) error {
if obj.Syslog {
obj.syslogStateOK = false
}
*/
send = true
case <-cuid.ConvergedTimer():
cuid.SetConverged(true) // converged!
continue
case <-Startup(startup):
cuid.SetConverged(false)
send = true
obj.updateStateOK()
}
// do all our event sending all together to avoid duplicate msgs
if send {
startup = true // startup finished
send = false
// only do this on certain types of events
//obj.isStateOK = false // something made state dirty
if exit, err := obj.DoSend(processChan, ""); exit || err != nil {
return err // we exit or bubble up a NACK...
if !obj.logStateOK {
log.Printf("%s[%s]: Body: %s", obj.Kind(), obj.GetName(), obj.Body)
obj.logStateOK = true
obj.updateStateOK()
}
if !apply {
return false, nil
}
if obj.Journal && !obj.journalStateOK {
if err := journal.Send(obj.Body, obj.journalPriority(), obj.Fields); err != nil {
return false, err
}
obj.journalStateOK = true
obj.updateStateOK()
}
if obj.Syslog && !obj.syslogStateOK {
// TODO: implement syslog client
obj.syslogStateOK = true
obj.updateStateOK()
}
return false, nil
}
// GetUIDs includes all params to make a unique identification of this object.
@@ -204,68 +259,3 @@ func (obj *MsgRes) Compare(res Res) bool {
}
return true
}
// IsAllStateOK derives a compound state from all internal cache flags that apply to this resource.
func (obj *MsgRes) isAllStateOK() bool {
if obj.Journal && !obj.journalStateOK {
return false
}
if obj.Syslog && !obj.syslogStateOK {
return false
}
return obj.logStateOK
}
// JournalPriority converts a string description to a numeric priority.
// XXX: Have Validate() make sure it actually is one of these.
func (obj *MsgRes) journalPriority() journal.Priority {
switch obj.Priority {
case "Emerg":
return journal.PriEmerg
case "Alert":
return journal.PriAlert
case "Crit":
return journal.PriCrit
case "Err":
return journal.PriErr
case "Warning":
return journal.PriWarning
case "Notice":
return journal.PriNotice
case "Info":
return journal.PriInfo
case "Debug":
return journal.PriDebug
}
return journal.PriNotice
}
// CheckApply method for Msg resource.
// Every check leads to an apply, meaning that the message is flushed to the journal.
func (obj *MsgRes) CheckApply(apply bool) (bool, error) {
log.Printf("%s[%s]: CheckApply(%t)", obj.Kind(), obj.GetName(), apply)
if obj.isAllStateOK() {
return true, nil
}
if !obj.logStateOK {
log.Printf("%s[%s]: Body: %s", obj.Kind(), obj.GetName(), obj.Body)
obj.logStateOK = true
}
if !apply {
return false, nil
}
if obj.Journal && !obj.journalStateOK {
if err := journal.Send(obj.Body, obj.journalPriority(), obj.Fields); err != nil {
return false, err
}
obj.journalStateOK = true
}
if obj.Syslog && !obj.syslogStateOK {
// TODO: implement syslog client
obj.syslogStateOK = true
}
return false, nil
}

32
resources/noop.go
View File

@@ -20,7 +20,6 @@ package resources
import (
"encoding/gob"
"log"
"time"
"github.com/purpleidea/mgmt/event"
)
@@ -60,21 +59,11 @@ func (obj *NoopRes) Validate() error {
// Watch is the primary listener for this resource and it outputs events.
func (obj *NoopRes) Watch(processChan chan event.Event) error {
if obj.IsWatching() {
return nil // TODO: should this be an error?
}
obj.SetWatching(true)
defer obj.SetWatching(false)
cuid := obj.converger.Register()
defer cuid.Unregister()
cuid := obj.Converger() // get the converger uid used to report status
var startup bool
Startup := func(block bool) <-chan time.Time {
if block {
return nil // blocks forever
//return make(chan time.Time) // blocks forever
}
return time.After(time.Duration(500) * time.Millisecond) // 1/2 the resolution of converged timeout
// notify engine that we're running
if err := obj.Running(processChan); err != nil {
return err // bubble up a NACK...
}
var send = false // send event?
@@ -92,18 +81,11 @@ func (obj *NoopRes) Watch(processChan chan event.Event) error {
case <-cuid.ConvergedTimer():
cuid.SetConverged(true) // converged!
continue
case <-Startup(startup):
cuid.SetConverged(false)
send = true
}
// do all our event sending all together to avoid duplicate msgs
if send {
startup = true // startup finished
send = false
// only do this on certain types of events
//obj.isStateOK = false // something made state dirty
if exit, err := obj.DoSend(processChan, ""); exit || err != nil {
return err // we exit or bubble up a NACK...
}
@@ -112,8 +94,10 @@ func (obj *NoopRes) Watch(processChan chan event.Event) error {
}
// CheckApply method for Noop resource. Does nothing, returns happy!
func (obj *NoopRes) CheckApply(apply bool) (checkok bool, err error) {
log.Printf("%v[%v]: CheckApply(%t)", obj.Kind(), obj.GetName(), apply)
func (obj *NoopRes) CheckApply(apply bool) (checkOK bool, err error) {
if obj.Refresh() {
log.Printf("%s[%s]: Received a notification!", obj.Kind(), obj.GetName())
}
return true, nil // state is always okay
}

306
resources/nspawn.go Normal file
View File

@@ -0,0 +1,306 @@
// Mgmt
// Copyright (C) 2013-2016+ James Shubin and the project contributors
// Written by James Shubin <james@shubin.ca> and the project contributors
//
// This program is free software: you can redistribute it and/or modify
// it under the terms of the GNU Affero General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
//
// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU Affero General Public License for more details.
//
// You should have received a copy of the GNU Affero General Public License
// along with this program. If not, see <http://www.gnu.org/licenses/>.
package resources
import (
"encoding/gob"
"errors"
"fmt"
"log"
"github.com/purpleidea/mgmt/event"
"github.com/purpleidea/mgmt/util"
systemdUtil "github.com/coreos/go-systemd/util"
"github.com/godbus/dbus"
errwrap "github.com/pkg/errors"
machined "github.com/purpleidea/go-systemd/machine1"
)
const (
running = "running"
stopped = "stopped"
dbusInterface = "org.freedesktop.machine1.Manager"
machineNew = "org.freedesktop.machine1.Manager.MachineNew"
machineRemoved = "org.freedesktop.machine1.Manager.MachineRemoved"
nspawnServiceTmpl = "systemd-nspawn@%s"
)
func init() {
gob.Register(&NspawnRes{})
}
// NspawnRes is an nspawn container resource
type NspawnRes struct {
BaseRes `yaml:",inline"`
State string `yaml:"state"`
// we're using the svc resource to start the machine because that's
// what machinectl does. We're not using svc.Watch because then we
// would have two watches potentially racing each other and producing
// potentially unexpected results. We get everything we need to
// monitor the machine state changes from the org.freedesktop.machine1 object.
svc *SvcRes
}
// Init runs some startup code for this resource
func (obj *NspawnRes) Init() error {
var serviceName = fmt.Sprintf(nspawnServiceTmpl, obj.GetName())
obj.svc = &SvcRes{}
obj.svc.Name = serviceName
obj.svc.State = obj.State
if err := obj.svc.Init(); err != nil {
return err
}
obj.BaseRes.kind = "Nspawn"
return obj.BaseRes.Init()
}
// NewNspawnRes is the constructor for this resource
func NewNspawnRes(name string, state string) (*NspawnRes, error) {
obj := &NspawnRes{
BaseRes: BaseRes{
Name: name,
},
State: state,
}
return obj, obj.Init()
}
// Validate params
func (obj *NspawnRes) Validate() error {
validStates := map[string]struct{}{
stopped: {},
running: {},
}
if _, exists := validStates[obj.State]; !exists {
return fmt.Errorf("Invalid State: %s", obj.State)
}
return obj.svc.Validate()
}
// Watch for state changes and sends a message to the bus if there is a change
func (obj *NspawnRes) Watch(processChan chan event.Event) error {
cuid := obj.Converger() // get the converger uid used to report status
// this resource depends on systemd ensure that it's running
if !systemdUtil.IsRunningSystemd() {
return fmt.Errorf("Systemd is not running.")
}
// create a private message bus
bus, err := util.SystemBusPrivateUsable()
if err != nil {
return errwrap.Wrapf(err, "Failed to connect to bus")
}
// add a match rule to match messages going through the message bus
call := bus.BusObject().Call("org.freedesktop.DBus.AddMatch", 0,
fmt.Sprintf("type='signal',interface='%s',eavesdrop='true'",
dbusInterface))
// <-call.Done
if err := call.Err; err != nil {
return err
}
buschan := make(chan *dbus.Signal, 10)
bus.Signal(buschan)
// notify engine that we're running
if err := obj.Running(processChan); err != nil {
return err // bubble up a NACK...
}
var send = false
var exit = false
for {
obj.SetState(ResStateWatching)
select {
case event := <-buschan:
// process org.freedesktop.machine1 events for this resource's name
if event.Body[0] == obj.GetName() {
log.Printf("%s[%s]: Event received: %v", obj.Kind(), obj.GetName(), event.Name)
if event.Name == machineNew {
log.Printf("%s[%s]: Machine started", obj.Kind(), obj.GetName())
} else if event.Name == machineRemoved {
log.Printf("%s[%s]: Machine stopped", obj.Kind(), obj.GetName())
} else {
return fmt.Errorf("Unknown event: %s", event.Name)
}
send = true
obj.StateOK(false) // dirty
}
case event := <-obj.Events():
cuid.SetConverged(false)
if exit, send = obj.ReadEvent(&event); exit {
return nil // exit
}
case <-cuid.ConvergedTimer():
cuid.SetConverged(true) // converged!
continue
}
// do all our event sending all together to avoid duplicate msgs
if send {
send = false
if exit, err := obj.DoSend(processChan, ""); exit || err != nil {
return err // we exit or bubble up a NACK...
}
}
}
}
// CheckApply is run to check the state and, if apply is true, to apply the
// necessary changes to reach the desired state. this is run before Watch and
// again if watch finds a change occurring to the state
func (obj *NspawnRes) CheckApply(apply bool) (checkOK bool, err error) {
// this resource depends on systemd ensure that it's running
if !systemdUtil.IsRunningSystemd() {
return false, errors.New("Systemd is not running.")
}
// connect to org.freedesktop.machine1.Manager
conn, err := machined.New()
if err != nil {
return false, errwrap.Wrapf(err, "Failed to connect to dbus")
}
// compare the current state with the desired state and perform the
// appropriate action
var exists = true
properties, err := conn.GetProperties(obj.GetName())
if err != nil {
if err, ok := err.(dbus.Error); ok && err.Name !=
"org.freedesktop.machine1.NoSuchMachine" {
return false, err
}
exists = false
// if we could not successfully get the properties because
// there's no such machine the machine is stopped
// error if we need the image ignore if we don't
if _, err = conn.GetImage(obj.GetName()); err != nil && obj.State != stopped {
return false, fmt.Errorf(
"No machine nor image named '%s'",
obj.GetName())
}
}
if obj.debug {
log.Printf("%s[%s]: properties: %v", obj.Kind(), obj.GetName(), properties)
}
// if the machine doesn't exist and is supposed to
// be stopped or the state matches we're done
if !exists && obj.State == stopped || properties["State"] == obj.State {
if obj.debug {
log.Printf("%s[%s]: CheckApply() in valid state", obj.Kind(), obj.GetName())
}
return true, nil
}
// end of state checking. if we're here, checkOK is false
if !apply {
return false, nil
}
if obj.debug {
log.Printf("%s[%s]: CheckApply() applying '%s' state", obj.Kind(), obj.GetName(), obj.State)
}
if obj.State == running {
// start the machine using svc resource
log.Printf("%s[%s]: Starting machine", obj.Kind(), obj.GetName())
// assume state had to be changed at this point, ignore checkOK
if _, err := obj.svc.CheckApply(apply); err != nil {
return false, errwrap.Wrapf(err, "Nested svc failed")
}
}
if obj.State == stopped {
// terminate the machine with
// org.freedesktop.machine1.Manager.KillMachine
log.Printf("%s[%s]: Stopping machine", obj.Kind(), obj.GetName())
if err := conn.TerminateMachine(obj.GetName()); err != nil {
return false, errwrap.Wrapf(err, "Failed to stop machine")
}
}
return false, nil
}
// NspawnUID is a unique resource identifier
type NspawnUID struct {
// NOTE: there is also a name variable in the BaseUID struct, this is
// information about where this UID came from, and is unrelated to the
// information about the resource we're matching. That data which is
// used in the IFF function, is what you see in the struct fields here
BaseUID
name string // the machine name
}
// IFF aka if and only if they are equivalent, return true. If not, false
func (obj *NspawnUID) IFF(uid ResUID) bool {
res, ok := uid.(*NspawnUID)
if !ok {
return false
}
return obj.name == res.name
}
// GetUIDs includes all params to make a unique identification of this object
// most resources only return one although some resources can return multiple
func (obj *NspawnRes) GetUIDs() []ResUID {
x := &NspawnUID{
BaseUID: BaseUID{name: obj.GetName(), kind: obj.Kind()},
name: obj.Name, // svc name
}
return append([]ResUID{x}, obj.svc.GetUIDs()...)
}
// GroupCmp returns whether two resources can be grouped together or not
func (obj *NspawnRes) GroupCmp(r Res) bool {
_, ok := r.(*NspawnRes)
if !ok {
return false
}
// TODO: this would be quite useful for this resource!
return false
}
// Compare two resources and return if they are equivalent
func (obj *NspawnRes) Compare(res Res) bool {
switch res.(type) {
case *NspawnRes:
res := res.(*NspawnRes)
if !obj.BaseRes.Compare(res) {
return false
}
if obj.Name != res.Name {
return false
}
if !obj.svc.Compare(res.svc) {
return false
}
default:
return false
}
return true
}
// AutoEdges returns the AutoEdge interface in this case no autoedges are used
func (obj *NspawnRes) AutoEdges() AutoEdge {
return nil
}

365
resources/password.go Normal file
View File

@@ -0,0 +1,365 @@
// Mgmt
// Copyright (C) 2013-2016+ James Shubin and the project contributors
// Written by James Shubin <james@shubin.ca> and the project contributors
//
// This program is free software: you can redistribute it and/or modify
// it under the terms of the GNU Affero General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
//
// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU Affero General Public License for more details.
//
// You should have received a copy of the GNU Affero General Public License
// along with this program. If not, see <http://www.gnu.org/licenses/>.
package resources
import (
"crypto/rand"
"encoding/gob"
"fmt"
"io/ioutil"
"log"
"math/big"
"os"
"path"
"strings"
"github.com/purpleidea/mgmt/event"
"github.com/purpleidea/mgmt/recwatch"
errwrap "github.com/pkg/errors"
)
func init() {
gob.Register(&PasswordRes{})
}
const (
alphabet = "abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ"
newline = "\n" // something not in alphabet that TrimSpace can trim
)
// PasswordRes is a no-op resource that returns a random password string.
type PasswordRes struct {
BaseRes `yaml:",inline"`
// FIXME: is uint16 too big?
Length uint16 `yaml:"length"` // number of characters to return
Saved bool // this caches the password in the clear locally
CheckRecovery bool // recovery from integrity checks by re-generating
Password *string // the generated password, read only, do not set!
path string // the path to local storage
recWatcher *recwatch.RecWatcher
}
// NewPasswordRes is a constructor for this resource. It also calls Init() for you.
func NewPasswordRes(name string, length uint16) (*PasswordRes, error) {
obj := &PasswordRes{
BaseRes: BaseRes{
Name: name,
},
Length: length,
}
return obj, obj.Init()
}
// Init generates a new password for this resource if one was not provided. It
// will save this into a local file. It will load it back in from previous runs.
func (obj *PasswordRes) Init() error {
obj.BaseRes.kind = "Password" // must be set before using VarDir
dir, err := obj.VarDir("")
if err != nil {
return errwrap.Wrapf(err, "could not get VarDir in Init()")
}
obj.path = path.Join(dir, "password") // return a unique file
return obj.BaseRes.Init() // call base init, b/c we're overriding
}
// Validate if the params passed in are valid data.
// FIXME: where should this get called ?
func (obj *PasswordRes) Validate() error {
return nil
}
func (obj *PasswordRes) read() (string, error) {
file, err := os.Open(obj.path) // open a handle to read the file
if err != nil {
return "", err
}
defer file.Close()
data, err := ioutil.ReadAll(file)
if err != nil {
return "", errwrap.Wrapf(err, "could not read from file")
}
return strings.TrimSpace(string(data)), nil
}
func (obj *PasswordRes) write(password string) (int, error) {
file, err := os.Create(obj.path) // open a handle to create the file
if err != nil {
return -1, errwrap.Wrapf(err, "can't create file")
}
defer file.Close()
var c int
if c, err = file.Write([]byte(password + newline)); err != nil {
return c, errwrap.Wrapf(err, "can't write file")
}
return c, file.Sync()
}
// generate generates a new password.
func (obj *PasswordRes) generate() (string, error) {
max := len(alphabet) - 1 // last index
output := ""
// FIXME: have someone verify this is cryptographically secure & correct
for i := uint16(0); i < obj.Length; i++ {
big, err := rand.Int(rand.Reader, big.NewInt(int64(max)))
if err != nil {
return "", errwrap.Wrapf(err, "could not generate password")
}
ix := big.Int64()
output += string(alphabet[ix])
}
if output == "" { // safety against empty passwords
return "", fmt.Errorf("password is empty")
}
if uint16(len(output)) != obj.Length { // safety against weird bugs
return "", fmt.Errorf("password length is too short") // bug!
}
return output, nil
}
// check validates a stored password string
func (obj *PasswordRes) check(value string) error {
length := uint16(len(value))
if !obj.Saved && length == 0 { // expecting an empty string
return nil
}
if !obj.Saved && length != 0 { // should have no stored password
return fmt.Errorf("Expected empty token only!")
}
if length != obj.Length {
return fmt.Errorf("String length is not %d", obj.Length)
}
Loop:
for i := uint16(0); i < length; i++ {
for j := 0; j < len(alphabet); j++ {
if value[i] == alphabet[j] {
continue Loop
}
}
// we couldn't find that character, so error!
return fmt.Errorf("Invalid character `%s`", string(value[i]))
}
return nil
}
// Watch is the primary listener for this resource and it outputs events.
func (obj *PasswordRes) Watch(processChan chan event.Event) error {
cuid := obj.Converger() // get the converger uid used to report status
var err error
obj.recWatcher, err = recwatch.NewRecWatcher(obj.path, false)
if err != nil {
return err
}
defer obj.recWatcher.Close()
// notify engine that we're running
if err := obj.Running(processChan); err != nil {
return err // bubble up a NACK...
}
var send = false // send event?
var exit = false
for {
obj.SetState(ResStateWatching) // reset
select {
// NOTE: this part is very similar to the file resource code
case event, ok := <-obj.recWatcher.Events():
if !ok { // channel shutdown
return nil
}
cuid.SetConverged(false)
if err := event.Error; err != nil {
return errwrap.Wrapf(err, "Unknown %s[%s] watcher error", obj.Kind(), obj.GetName())
}
send = true
obj.StateOK(false) // dirty
case event := <-obj.Events():
cuid.SetConverged(false)
// we avoid sending events on unpause
if exit, send = obj.ReadEvent(&event); exit {
return nil // exit
}
case <-cuid.ConvergedTimer():
cuid.SetConverged(true) // converged!
continue
}
// do all our event sending all together to avoid duplicate msgs
if send {
send = false
if exit, err := obj.DoSend(processChan, ""); exit || err != nil {
return err // we exit or bubble up a NACK...
}
}
}
}
// CheckApply method for Password resource. Does nothing, returns happy!
func (obj *PasswordRes) CheckApply(apply bool) (checkOK bool, err error) {
var refresh = obj.Refresh() // do we have a pending reload to apply?
var exists = true // does the file (aka the token) exist?
var generate bool // do we need to generate a new password?
var write bool // do we need to write out to disk?
password, err := obj.read() // password might be empty if just a token
if err != nil {
if !os.IsNotExist(err) {
return false, errwrap.Wrapf(err, "unknown read error")
}
exists = false
}
if exists {
if err := obj.check(password); err != nil {
if !obj.CheckRecovery {
return false, errwrap.Wrapf(err, "check failed")
}
log.Printf("%s[%s]: Integrity check failed", obj.Kind(), obj.GetName())
generate = true // okay to build a new one
write = true // make sure to write over the old one
}
} else { // doesn't exist, write one
write = true
}
// if we previously had !obj.Saved, and now we want it, we re-generate!
if refresh || !exists || (obj.Saved && password == "") {
generate = true
}
// stored password isn't consistent with memory
if p := obj.Password; obj.Saved && (p != nil && *p != password) {
write = true
}
if !refresh && exists && !generate && !write { // nothing to do, done!
return true, nil
}
// a refresh was requested, the token doesn't exist, or the check failed
if !apply {
return false, nil
}
if generate {
// we'll need to write this out...
if obj.Saved || (!obj.Saved && password != "") {
write = true
}
// generate the actual password
var err error
log.Printf("%s[%s]: Generating new password...", obj.Kind(), obj.GetName())
if password, err = obj.generate(); err != nil { // generate one!
return false, errwrap.Wrapf(err, "could not generate password")
}
}
obj.Password = &password // save in memory
var output string // the string to write out
// if memory value != value on disk, save it
if write {
if obj.Saved { // save password as clear text
// TODO: would it make sense to encrypt this password?
output = password
}
// write either an empty token, or the password
log.Printf("%s[%s]: Writing password token...", obj.Kind(), obj.GetName())
if _, err := obj.write(output); err != nil {
return false, errwrap.Wrapf(err, "can't write to file")
}
}
return false, nil
}
// PasswordUID is the UID struct for PasswordRes.
type PasswordUID struct {
BaseUID
name string
}
// AutoEdges returns the AutoEdge interface. In this case no autoedges are used.
func (obj *PasswordRes) AutoEdges() AutoEdge {
return nil
}
// GetUIDs includes all params to make a unique identification of this object.
// Most resources only return one, although some resources can return multiple.
func (obj *PasswordRes) GetUIDs() []ResUID {
x := &PasswordUID{
BaseUID: BaseUID{name: obj.GetName(), kind: obj.Kind()},
name: obj.Name,
}
return []ResUID{x}
}
// GroupCmp returns whether two resources can be grouped together or not.
func (obj *PasswordRes) GroupCmp(r Res) bool {
_, ok := r.(*PasswordRes)
if !ok {
return false
}
return false // TODO: this is doable, but probably not very useful
// TODO: it could be useful to group our tokens into a single write, and
// as a result, we save inotify watches too!
}
// Compare two resources and return if they are equivalent.
func (obj *PasswordRes) Compare(res Res) bool {
switch res.(type) {
// we can only compare PasswordRes to others of the same resource
case *PasswordRes:
res := res.(*PasswordRes)
if !obj.BaseRes.Compare(res) { // call base Compare
return false
}
if obj.Name != res.Name {
return false
}
if obj.Length != res.Length {
return false
}
// TODO: we *could* optimize by allowing CheckApply to move from
// saved->!saved, by removing the file, but not likely worth it!
if obj.Saved != res.Saved {
return false
}
if obj.CheckRecovery != res.CheckRecovery {
return false
}
default:
return false
}
return true
}

98
resources/pkg.go
View File

@@ -19,17 +19,16 @@ package resources
import (
"encoding/gob"
"errors"
"fmt"
"log"
"path"
"strings"
"time"
"github.com/purpleidea/mgmt/event"
"github.com/purpleidea/mgmt/global" // XXX: package mgmtmain instead?
"github.com/purpleidea/mgmt/resources/packagekit"
"github.com/purpleidea/mgmt/util"
errwrap "github.com/pkg/errors"
)
func init() {
@@ -76,7 +75,7 @@ func (obj *PkgRes) Init() error {
result, err := obj.pkgMappingHelper(bus)
if err != nil {
return fmt.Errorf("The pkgMappingHelper failed with: %v.", err)
return errwrap.Wrapf(err, "The pkgMappingHelper failed")
}
data, ok := result[obj.Name] // lookup single package (init does just one)
@@ -88,7 +87,7 @@ func (obj *PkgRes) Init() error {
packageIDs := []string{data.PackageID} // just one for now
filesMap, err := bus.GetFilesByPackageID(packageIDs)
if err != nil {
return fmt.Errorf("Can't run GetFilesByPackageID: %v", err)
return errwrap.Wrapf(err, "Can't run GetFilesByPackageID")
}
if files, ok := filesMap[data.PackageID]; ok {
obj.fileList = util.DirifyFileList(files, false)
@@ -110,41 +109,30 @@ func (obj *PkgRes) Validate() error {
// TODO: https://github.com/hughsie/PackageKit/issues/109
// TODO: https://github.com/hughsie/PackageKit/issues/110
func (obj *PkgRes) Watch(processChan chan event.Event) error {
if obj.IsWatching() {
return nil
}
obj.SetWatching(true)
defer obj.SetWatching(false)
cuid := obj.converger.Register()
defer cuid.Unregister()
var startup bool
Startup := func(block bool) <-chan time.Time {
if block {
return nil // blocks forever
//return make(chan time.Time) // blocks forever
}
return time.After(time.Duration(500) * time.Millisecond) // 1/2 the resolution of converged timeout
}
cuid := obj.Converger() // get the converger uid used to report status
bus := packagekit.NewBus()
if bus == nil {
log.Fatal("Can't connect to PackageKit bus.")
return fmt.Errorf("Can't connect to PackageKit bus.")
}
defer bus.Close()
ch, err := bus.WatchChanges()
if err != nil {
log.Fatalf("Error adding signal match: %v", err)
return errwrap.Wrapf(err, "Error adding signal match")
}
// notify engine that we're running
if err := obj.Running(processChan); err != nil {
return err // bubble up a NACK...
}
var send = false // send event?
var exit = false
var dirty = false
for {
if global.DEBUG {
log.Printf("%v: Watching...", obj.fmtNames(obj.getNames()))
if obj.debug {
log.Printf("%s: Watching...", obj.fmtNames(obj.getNames()))
}
obj.SetState(ResStateWatching) // reset
@@ -153,8 +141,8 @@ func (obj *PkgRes) Watch(processChan chan event.Event) error {
cuid.SetConverged(false)
// FIXME: ask packagekit for info on what packages changed
if global.DEBUG {
log.Printf("%v: Event: %v", obj.fmtNames(obj.getNames()), event.Name)
if obj.debug {
log.Printf("%s: Event: %v", obj.fmtNames(obj.getNames()), event.Name)
}
// since the chan is buffered, remove any supplemental
@@ -164,34 +152,23 @@ func (obj *PkgRes) Watch(processChan chan event.Event) error {
}
send = true
dirty = true
obj.StateOK(false) // dirty
case event := <-obj.Events():
cuid.SetConverged(false)
if exit, send = obj.ReadEvent(&event); exit {
return nil // exit
}
dirty = false // these events don't invalidate state
//obj.StateOK(false) // these events don't invalidate state
case <-cuid.ConvergedTimer():
cuid.SetConverged(true) // converged!
continue
case <-Startup(startup):
cuid.SetConverged(false)
send = true
dirty = true
}
// do all our event sending all together to avoid duplicate msgs
if send {
startup = true // startup finished
send = false
// only invalid state on certain types of events
if dirty {
dirty = false
obj.isStateOK = false // something made state dirty
}
if exit, err := obj.DoSend(processChan, ""); exit || err != nil {
return err // we exit or bubble up a NACK...
}
@@ -217,9 +194,9 @@ func (obj *PkgRes) getNames() []string {
// pretty print for header values
func (obj *PkgRes) fmtNames(names []string) string {
if len(obj.GetGroup()) > 0 { // grouped elements
return fmt.Sprintf("%v[autogroup:(%v)]", obj.Kind(), strings.Join(names, ","))
return fmt.Sprintf("%s[autogroup:(%v)]", obj.Kind(), strings.Join(names, ","))
}
return fmt.Sprintf("%v[%v]", obj.Kind(), obj.GetName())
return fmt.Sprintf("%s[%s]", obj.Kind(), obj.GetName())
}
func (obj *PkgRes) groupMappingHelper() map[string]string {
@@ -228,7 +205,7 @@ func (obj *PkgRes) groupMappingHelper() map[string]string {
for _, x := range g {
pkg, ok := x.(*PkgRes) // convert from Res
if !ok {
log.Fatalf("Grouped member %v is not a %v", x, obj.Kind())
log.Fatalf("Grouped member %v is not a %s", x, obj.Kind())
}
result[pkg.Name] = pkg.State
}
@@ -254,35 +231,27 @@ func (obj *PkgRes) pkgMappingHelper(bus *packagekit.Conn) (map[string]*packageki
if !obj.AllowUnsupported {
filter += packagekit.PK_FILTER_ENUM_SUPPORTED
}
result, e := bus.PackagesToPackageIDs(packageMap, filter)
if e != nil {
return nil, fmt.Errorf("Can't run PackagesToPackageIDs: %v", e)
result, err := bus.PackagesToPackageIDs(packageMap, filter)
if err != nil {
return nil, errwrap.Wrapf(err, "Can't run PackagesToPackageIDs")
}
return result, nil
}
// CheckApply checks the resource state and applies the resource if the bool
// input is true. It returns error info and if the state check passed or not.
func (obj *PkgRes) CheckApply(apply bool) (checkok bool, err error) {
log.Printf("%v: CheckApply(%t)", obj.fmtNames(obj.getNames()), apply)
if obj.State == "" { // TODO: Validate() should replace this check!
log.Fatalf("%v: Package state is undefined!", obj.fmtNames(obj.getNames()))
}
if obj.isStateOK { // cache the state
return true, nil
}
func (obj *PkgRes) CheckApply(apply bool) (checkOK bool, err error) {
log.Printf("%s: Check", obj.fmtNames(obj.getNames()))
bus := packagekit.NewBus()
if bus == nil {
return false, errors.New("Can't connect to PackageKit bus.")
return false, fmt.Errorf("Can't connect to PackageKit bus.")
}
defer bus.Close()
result, err := obj.pkgMappingHelper(bus)
if err != nil {
return false, fmt.Errorf("The pkgMappingHelper failed with: %v.", err)
return false, errwrap.Wrapf(err, "The pkgMappingHelper failed")
}
packageMap := obj.groupMappingHelper() // map[string]string
@@ -295,7 +264,7 @@ func (obj *PkgRes) CheckApply(apply bool) (checkok bool, err error) {
// eventually we might be able to drop this constraint!
states, err := packagekit.FilterState(result, packageList, obj.State)
if err != nil {
return false, fmt.Errorf("The FilterState method failed with: %v.", err)
return false, errwrap.Wrapf(err, "The FilterState method failed")
}
data, _ := result[obj.Name] // if above didn't error, we won't either!
validState := util.BoolMapTrue(util.BoolMapValues(states))
@@ -308,12 +277,10 @@ func (obj *PkgRes) CheckApply(apply bool) (checkok bool, err error) {
fallthrough
case "newest":
if validState {
obj.isStateOK = true // reset
return true, nil // state is correct, exit!
}
default: // version string
if obj.State == data.Version && data.Version != "" {
obj.isStateOK = true // reset
return true, nil
}
}
@@ -324,7 +291,7 @@ func (obj *PkgRes) CheckApply(apply bool) (checkok bool, err error) {
}
// apply portion
log.Printf("%v: Apply", obj.fmtNames(obj.getNames()))
log.Printf("%s: Apply", obj.fmtNames(obj.getNames()))
readyPackages, err := packagekit.FilterPackageState(result, packageList, obj.State)
if err != nil {
return false, err // fail
@@ -338,7 +305,7 @@ func (obj *PkgRes) CheckApply(apply bool) (checkok bool, err error) {
transactionFlags += packagekit.PK_TRANSACTION_FLAG_ENUM_ONLY_TRUSTED
}
// apply correct state!
log.Printf("%v: Set: %v...", obj.fmtNames(util.StrListIntersection(applyPackages, obj.getNames())), obj.State)
log.Printf("%s: Set: %v...", obj.fmtNames(util.StrListIntersection(applyPackages, obj.getNames())), obj.State)
switch obj.State {
case "uninstalled": // run remove
// NOTE: packageID is different than when installed, because now
@@ -356,8 +323,7 @@ func (obj *PkgRes) CheckApply(apply bool) (checkok bool, err error) {
if err != nil {
return false, err // fail
}
log.Printf("%v: Set: %v success!", obj.fmtNames(util.StrListIntersection(applyPackages, obj.getNames())), obj.State)
obj.isStateOK = true // reset
log.Printf("%s: Set: %v success!", obj.fmtNames(util.StrListIntersection(applyPackages, obj.getNames())), obj.State)
return false, nil // success
}

104
resources/refresh.go Normal file
View File

@@ -0,0 +1,104 @@
// Mgmt
// Copyright (C) 2013-2016+ James Shubin and the project contributors
// Written by James Shubin <james@shubin.ca> and the project contributors
//
// This program is free software: you can redistribute it and/or modify
// it under the terms of the GNU Affero General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
//
// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU Affero General Public License for more details.
//
// You should have received a copy of the GNU Affero General Public License
// along with this program. If not, see <http://www.gnu.org/licenses/>.
package resources
import (
"fmt"
"io/ioutil"
"os"
"strings"
errwrap "github.com/pkg/errors"
)
// Refresh returns the pending state of a notification. It should only be called
// in the CheckApply portion of a resource where a refresh should be acted upon.
func (obj *BaseRes) Refresh() bool {
return obj.refresh
}
// SetRefresh sets the pending state of a notification. It should only be called
// by the mgmt engine.
func (obj *BaseRes) SetRefresh(b bool) {
obj.refresh = b
}
// StatefulBool is an interface for storing a boolean flag in a permanent spot.
type StatefulBool interface {
Get() (bool, error) // get value of token
Set() error // set token to true
Del() error // rm token if it exists
}
// DiskBool stores a boolean variable on disk for stateful access across runs.
// The absence of the path is treated as false. If the path contains a special
// value, then it is treated as true. All the other non-error cases are false.
type DiskBool struct {
Path string // path to token
}
// str returns the string data which represents true (aka set).
func (obj *DiskBool) str() string {
const TrueToken = "true"
const newline = "\n"
return TrueToken + newline
}
// Get returns if the boolean setting, if no error reading the value occurs.
func (obj *DiskBool) Get() (bool, error) {
file, err := os.Open(obj.Path) // open a handle to read the file
if err != nil {
if os.IsNotExist(err) {
return false, nil // no token means value is false
}
return false, errwrap.Wrapf(err, "could not read token")
}
defer file.Close()
data, err := ioutil.ReadAll(file)
if err != nil {
return false, errwrap.Wrapf(err, "could not read from file")
}
return strings.TrimSpace(string(data)) == strings.TrimSpace(obj.str()), nil
}
// Set stores the true boolean value, if no error setting the value occurs.
func (obj *DiskBool) Set() error {
file, err := os.Create(obj.Path) // open a handle to create the file
if err != nil {
return errwrap.Wrapf(err, "can't create file")
}
defer file.Close()
str := obj.str()
if c, err := file.Write([]byte(str)); err != nil {
return errwrap.Wrapf(err, "error writing to file")
} else if l := len(str); c != l {
return fmt.Errorf("wrote %d bytes instead of %d", c, l)
}
return file.Sync() // guarantee it!
}
// Del stores the false boolean value, if no error clearing the value occurs.
func (obj *DiskBool) Del() error {
if err := os.Remove(obj.Path); err != nil { // remove the file
if os.IsNotExist(err) {
return nil // no file means this is already fine
}
return errwrap.Wrapf(err, "could not delete token")
}
return nil
}

197
resources/resources.go
View File

@@ -24,11 +24,14 @@ import (
"encoding/gob"
"fmt"
"log"
"os"
"path"
// TODO: should each resource be a sub-package?
"github.com/purpleidea/mgmt/converger"
"github.com/purpleidea/mgmt/event"
"github.com/purpleidea/mgmt/global"
errwrap "github.com/pkg/errors"
)
//go:generate stringer -type=ResState -output=resstate_stringer.go
@@ -45,6 +48,18 @@ const (
ResStatePoking
)
const refreshPathToken = "refresh"
// Data is the set of input values passed into the pgraph for the resources.
type Data struct {
//Hostname string // uuid for the host
//Noop bool
Converger converger.Converger
Prefix string // the prefix to be used for the pgraph namespace
Debug bool
// NOTE: we can add more fields here if needed for the resources.
}
// ResUID is a unique identifier for a resource, namely it's name, and the kind ("type").
type ResUID interface {
GetName() string
@@ -112,20 +127,32 @@ type Base interface {
Kind() string
Meta() *MetaParams
Events() chan event.Event
AssociateData(converger.Converger)
AssociateData(*Data)
IsWatching() bool
SetWatching(bool)
RegisterConverger()
UnregisterConverger()
Converger() converger.ConvergerUID
GetState() ResState
SetState(ResState)
DoSend(chan event.Event, string) (bool, error)
SendEvent(event.EventName, bool, bool) bool
ReadEvent(*event.Event) (bool, bool) // TODO: optional here?
Refresh() bool // is there a pending refresh to run?
SetRefresh(bool) // set the refresh state of this resource
SendRecv(Res) (map[string]bool, error) // send->recv data passing function
IsStateOK() bool
StateOK(b bool)
GroupCmp(Res) bool // TODO: is there a better name for this?
GroupRes(Res) error // group resource (arg) into self
IsGrouped() bool // am I grouped?
SetGrouped(bool) // set grouped bool
GetGroup() []Res // return everyone grouped inside me
SetGroup([]Res)
VarDir(string) (string, error)
Running(chan event.Event) error // notify the engine that Watch started
Started() <-chan struct{} // returns when the resource has started
Starter(bool)
}
// Res is the minimum interface you need to implement to define a new resource.
@@ -145,14 +172,23 @@ type Res interface {
type BaseRes struct {
Name string `yaml:"name"`
MetaParams MetaParams `yaml:"meta"` // struct of all the metaparams
Recv map[string]*Send // mapping of key to receive on from value
kind string
events chan event.Event
converger converger.Converger // converged tracking
cuid converger.ConvergerUID
prefix string // base prefix for this resource
debug bool
state ResState
watching bool // is Watch() loop running ?
started chan struct{} // closed when worker is started/running
starter bool // does this have indegree == 0 ? XXX: usually?
isStateOK bool // whether the state is okay based on events or not
isGrouped bool // am i contained within a group?
grouped []Res // list of any grouped resources
refresh bool // does this resource have a refresh to run?
//refreshState StatefulBool // TODO: future stateful bool
}
// UIDExistsInUIDs wraps the IFF method when used with a list of UID's.
@@ -201,7 +237,14 @@ func (obj *BaseRes) Init() error {
if obj.kind == "" {
return fmt.Errorf("Resource did not set kind!")
}
obj.events = make(chan event.Event) // unbuffered chan size to avoid stale events
obj.events = make(chan event.Event) // unbuffered chan to avoid stale events
obj.started = make(chan struct{}) // closes when started
//dir, err := obj.VarDir("")
//if err != nil {
// return errwrap.Wrapf(err, "VarDir failed in Init()")
//}
// TODO: this StatefulBool implementation could be eventually swappable
//obj.refreshState = &DiskBool{Path: path.Join(dir, refreshPathToken)}
return nil
}
@@ -236,20 +279,40 @@ func (obj *BaseRes) Events() chan event.Event {
}
// AssociateData associates some data with the object in question.
func (obj *BaseRes) AssociateData(converger converger.Converger) {
obj.converger = converger
func (obj *BaseRes) AssociateData(data *Data) {
obj.converger = data.Converger
obj.prefix = data.Prefix
obj.debug = data.Debug
}
// IsWatching tells us if the Watch() function is running.
// IsWatching tells us if the Worker() function is running.
func (obj *BaseRes) IsWatching() bool {
return obj.watching
}
// SetWatching stores the status of if the Watch() function is running.
// SetWatching stores the status of if the Worker() function is running.
func (obj *BaseRes) SetWatching(b bool) {
obj.watching = b
}
// RegisterConverger sets up the cuid for the resource. This is a helper
// function for the engine, and shouldn't be called by the resources directly.
func (obj *BaseRes) RegisterConverger() {
obj.cuid = obj.converger.Register()
}
// UnregisterConverger tears down the cuid for the resource. This is a helper
// function for the engine, and shouldn't be called by the resources directly.
func (obj *BaseRes) UnregisterConverger() {
obj.cuid.Unregister()
}
// Converger returns the ConvergerUID for the resource. This should be called
// by the Watch method of the resource to set the converged state.
func (obj *BaseRes) Converger() converger.ConvergerUID {
return obj.cuid
}
// GetState returns the state of the resource.
func (obj *BaseRes) GetState() ResState {
return obj.state
@@ -257,91 +320,20 @@ func (obj *BaseRes) GetState() ResState {
// SetState sets the state of the resource.
func (obj *BaseRes) SetState(state ResState) {
if global.DEBUG {
log.Printf("%v[%v]: State: %v -> %v", obj.Kind(), obj.GetName(), obj.GetState(), state)
if obj.debug {
log.Printf("%s[%s]: State: %v -> %v", obj.Kind(), obj.GetName(), obj.GetState(), state)
}
obj.state = state
}
// DoSend sends off an event, but doesn't block the incoming event queue. It can
// also recursively call itself when events need processing during the wait.
// I'm not completely comfortable with this fn, but it will have to do for now.
func (obj *BaseRes) DoSend(processChan chan event.Event, comment string) (bool, error) {
resp := event.NewResp()
processChan <- event.Event{Name: event.EventNil, Resp: resp, Msg: comment, Activity: true} // trigger process
e := resp.Wait()
return false, e // XXX: at the moment, we don't use the exit bool.
// XXX: this can cause a deadlock. do we need to recursively send? fix event stuff!
//select {
//case e := <-resp: // wait for the ACK()
// if e != nil { // we got a NACK
// return true, e // exit with error
// }
//case event := <-obj.events:
// // NOTE: this code should match the similar code below!
// //cuid.SetConverged(false) // TODO: ?
// if exit, send := obj.ReadEvent(&event); exit {
// return true, nil // exit, without error
// } else if send {
// return obj.DoSend(processChan, comment) // recurse
// }
//}
//return false, nil // return, no error or exit signal
// IsStateOK returns the cached state value.
func (obj *BaseRes) IsStateOK() bool {
return obj.isStateOK
}
// SendEvent pushes an event into the message queue for a particular vertex
func (obj *BaseRes) SendEvent(ev event.EventName, sync bool, activity bool) bool {
// TODO: isn't this race-y ?
if !obj.IsWatching() { // element has already exited
return false // if we don't return, we'll block on the send
}
if !sync {
obj.events <- event.Event{Name: ev, Resp: nil, Msg: "", Activity: activity}
return true
}
resp := event.NewResp()
obj.events <- event.Event{Name: ev, Resp: resp, Msg: "", Activity: activity}
resp.ACKWait() // waits until true (nil) value
return true
}
// ReadEvent processes events when a select gets one, and handles the pause
// code too! The return values specify if we should exit and poke respectively.
func (obj *BaseRes) ReadEvent(ev *event.Event) (exit, poke bool) {
ev.ACK()
switch ev.Name {
case event.EventStart:
return false, true
case event.EventPoke:
return false, true
case event.EventBackPoke:
return false, true // forward poking in response to a back poke!
case event.EventExit:
return true, false
case event.EventPause:
// wait for next event to continue
select {
case e := <-obj.Events():
e.ACK()
if e.Name == event.EventExit {
return true, false
} else if e.Name == event.EventStart { // eventContinue
return false, false // don't poke on unpause!
} else {
// if we get a poke event here, it's a bug!
log.Fatalf("%v[%v]: Unknown event: %v, while paused!", obj.Kind(), obj.GetName(), e)
}
}
default:
log.Fatal("Unknown event: ", ev)
}
return true, false // required to keep the stupid go compiler happy
// StateOK sets the cached state value.
func (obj *BaseRes) StateOK(b bool) {
obj.isStateOK = b
}
// GroupCmp compares two resources and decides if they're suitable for grouping
@@ -384,7 +376,7 @@ func (obj *BaseRes) SetGroup(g []Res) {
obj.grouped = g
}
// Compare is the base compare method, which also handles the metaparams cmp
// Compare is the base compare method, which also handles the metaparams cmp.
func (obj *BaseRes) Compare(res Res) bool {
// TODO: should the AutoEdge values be compared?
if obj.Meta().AutoEdge != res.Meta().AutoEdge {
@@ -415,6 +407,37 @@ func (obj *BaseRes) CollectPattern(pattern string) {
// XXX: default method is empty
}
// VarDir returns the path to a working directory for the resource. It will try
// and create the directory first, and return an error if this failed.
func (obj *BaseRes) VarDir(extra string) (string, error) {
// Using extra adds additional dirs onto our namespace. An empty extra
// adds no additional directories.
if obj.prefix == "" {
return "", fmt.Errorf("VarDir prefix is empty!")
}
if obj.Kind() == "" {
return "", fmt.Errorf("VarDir kind is empty!")
}
if obj.GetName() == "" {
return "", fmt.Errorf("VarDir name is empty!")
}
// FIXME: is obj.GetName() sufficiently unique to use as a UID here?
uid := obj.GetName()
p := fmt.Sprintf("%s/", path.Join(obj.prefix, obj.Kind(), uid, extra))
if err := os.MkdirAll(p, 0770); err != nil {
return "", errwrap.Wrapf(err, "Can't create prefix for %s[%s]", obj.Kind(), obj.GetName())
}
return p, nil
}
// Started returns a channel that closes when the resource has started up.
func (obj *BaseRes) Started() <-chan struct{} { return obj.started }
// Starter sets the starter bool. This defines if a vertex has an indegree of 0.
// If we have an indegree of 0, we'll need to be a poke initiator in the graph.
func (obj *BaseRes) Starter(b bool) { obj.starter = b }
// ResToB64 encodes a resource to a base64 encoded string (after serialization)
func ResToB64(res Res) (string, error) {
b := bytes.Buffer{}

216
resources/sendrecv.go Normal file
View File

@@ -0,0 +1,216 @@
// Mgmt
// Copyright (C) 2013-2016+ James Shubin and the project contributors
// Written by James Shubin <james@shubin.ca> and the project contributors
//
// This program is free software: you can redistribute it and/or modify
// it under the terms of the GNU Affero General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
//
// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU Affero General Public License for more details.
//
// You should have received a copy of the GNU Affero General Public License
// along with this program. If not, see <http://www.gnu.org/licenses/>.
package resources
import (
"fmt"
"log"
"reflect"
"github.com/purpleidea/mgmt/event"
multierr "github.com/hashicorp/go-multierror"
errwrap "github.com/pkg/errors"
)
// SendEvent pushes an event into the message queue for a particular vertex
func (obj *BaseRes) SendEvent(ev event.EventName, sync bool, activity bool) bool {
// TODO: isn't this race-y ?
if !obj.IsWatching() { // element has already exited
return false // if we don't return, we'll block on the send
}
if !sync {
obj.events <- event.Event{Name: ev, Resp: nil, Msg: "", Activity: activity}
return true
}
resp := event.NewResp()
obj.events <- event.Event{Name: ev, Resp: resp, Msg: "", Activity: activity}
resp.ACKWait() // waits until true (nil) value
return true
}
// DoSend sends off an event, but doesn't block the incoming event queue.
func (obj *BaseRes) DoSend(processChan chan event.Event, comment string) (exit bool, err error) {
resp := event.NewResp()
processChan <- event.Event{Name: event.EventNil, Resp: resp, Activity: false, Msg: comment} // trigger process
e := resp.Wait()
return false, e // XXX: at the moment, we don't use the exit bool.
}
// ReadEvent processes events when a select gets one, and handles the pause
// code too! The return values specify if we should exit and poke respectively.
func (obj *BaseRes) ReadEvent(ev *event.Event) (exit, send bool) {
ev.ACK()
var poke bool
// ensure that a CheckApply runs by sending with a dirty state...
if ev.GetActivity() { // if previous node did work, and we were notified...
//obj.StateOK(false) // not necessarily
poke = true // poke!
// XXX: this should be elsewhere in case Watch isn't used (eg: Polling instead...)
// XXX: unless this is used in our "fallback" polling implementation???
//obj.SetRefresh(true) // TODO: is this redundant?
}
switch ev.Name {
case event.EventStart:
send = true || poke
return
case event.EventPoke:
send = true || poke
return
case event.EventBackPoke:
send = true || poke
return // forward poking in response to a back poke!
case event.EventExit:
// FIXME: what do we do if we have a pending refresh (poke) and an exit?
return true, false
case event.EventPause:
// wait for next event to continue
select {
case e, ok := <-obj.Events():
if !ok { // shutdown
return true, false
}
e.ACK()
if e.Name == event.EventExit {
return true, false
} else if e.Name == event.EventStart { // eventContinue
return false, false // don't poke on unpause!
} else {
// if we get a poke event here, it's a bug!
log.Fatalf("%s[%s]: Unknown event: %v, while paused!", obj.Kind(), obj.GetName(), e)
}
}
default:
log.Fatal("Unknown event: ", ev)
}
return true, false // required to keep the stupid go compiler happy
}
// Running is called by the Watch method of the resource once it has started up.
// This signals to the engine to kick off the initial CheckApply resource check.
func (obj *BaseRes) Running(processChan chan event.Event) error {
obj.StateOK(false) // assume we're initially dirty
cuid := obj.Converger() // get the converger uid used to report status
cuid.SetConverged(false) // a reasonable initial assumption
close(obj.started) // send started signal
// FIXME: exit return value is unused atm, so ignore it for now...
//if exit, err := obj.DoSend(processChan, ""); exit || err != nil {
var err error
if obj.starter { // vertices of indegree == 0 should send initial pokes
_, err = obj.DoSend(processChan, "") // trigger a CheckApply
}
return err // bubble up any possible error (or nil)
}
// Send points to a value that a resource will send.
type Send struct {
Res Res // a handle to the resource which is sending a value
Key string // the key in the resource that we're sending
Changed bool // set to true if this key was updated, read only!
}
// SendRecv pulls in the sent values into the receive slots. It is called by the
// receiver and must be given as input the full resource struct to receive on.
func (obj *BaseRes) SendRecv(res Res) (map[string]bool, error) {
if obj.debug {
// NOTE: this could expose private resource data like passwords
log.Printf("%s[%s]: SendRecv: %+v", obj.Kind(), obj.GetName(), obj.Recv)
}
var updated = make(map[string]bool) // list of updated keys
var err error
for k, v := range obj.Recv {
updated[k] = false // default
v.Changed = false // reset to the default
// send
obj1 := reflect.Indirect(reflect.ValueOf(v.Res))
type1 := obj1.Type()
value1 := obj1.FieldByName(v.Key)
kind1 := value1.Kind()
// recv
obj2 := reflect.Indirect(reflect.ValueOf(res)) // pass in full struct
type2 := obj2.Type()
value2 := obj2.FieldByName(k)
kind2 := value2.Kind()
if obj.debug {
log.Printf("Send(%s) has %v: %v", type1, kind1, value1)
log.Printf("Recv(%s) has %v: %v", type2, kind2, value2)
}
// i think we probably want the same kind, at least for now...
if kind1 != kind2 {
e := fmt.Errorf("Kind mismatch between %s[%s]: %s and %s[%s]: %s", v.Res.Kind(), v.Res.GetName(), kind1, obj.Kind(), obj.GetName(), kind2)
err = multierr.Append(err, e) // list of errors
continue
}
// if the types don't match, we can't use send->recv
// TODO: do we want to relax this for string -> *string ?
if e := TypeCmp(value1, value2); e != nil {
e := errwrap.Wrapf(e, "Type mismatch between %s[%s] and %s[%s]", v.Res.Kind(), v.Res.GetName(), obj.Kind(), obj.GetName())
err = multierr.Append(err, e) // list of errors
continue
}
// if we can't set, then well this is pointless!
if !value2.CanSet() {
e := fmt.Errorf("Can't set %s[%s].%s", obj.Kind(), obj.GetName(), k)
err = multierr.Append(err, e) // list of errors
continue
}
// if we can't interface, we can't compare...
if !value1.CanInterface() || !value2.CanInterface() {
e := fmt.Errorf("Can't interface %s[%s].%s", obj.Kind(), obj.GetName(), k)
err = multierr.Append(err, e) // list of errors
continue
}
// if the values aren't equal, we're changing the receiver
if !reflect.DeepEqual(value1.Interface(), value2.Interface()) {
// TODO: can we catch the panics here in case they happen?
value2.Set(value1) // do it for all types that match
updated[k] = true // we updated this key!
v.Changed = true // tag this key as updated!
log.Printf("SendRecv: %s[%s].%s -> %s[%s].%s", v.Res.Kind(), v.Res.GetName(), v.Key, obj.Kind(), obj.GetName(), k)
}
}
return updated, err
}
// TypeCmp compares two reflect values to see if they are the same Kind. It can
// look into a ptr Kind to see if the underlying pair of ptr's can TypeCmp too!
func TypeCmp(a, b reflect.Value) error {
ta, tb := a.Type(), b.Type()
if ta != tb {
return fmt.Errorf("Type mismatch: %s != %s", ta, tb)
}
// NOTE: it seems we don't need to recurse into pointers to sub check!
return nil // identical Type()'s
}

121
resources/svc.go
View File

@@ -21,10 +21,8 @@ package resources
import (
"encoding/gob"
"errors"
"fmt"
"log"
"time"
"github.com/purpleidea/mgmt/event"
"github.com/purpleidea/mgmt/util"
@@ -32,6 +30,7 @@ import (
systemd "github.com/coreos/go-systemd/dbus" // change namespace
systemdUtil "github.com/coreos/go-systemd/util"
"github.com/godbus/dbus" // namespace collides with systemd wrapper
errwrap "github.com/pkg/errors"
)
func init() {
@@ -76,22 +75,7 @@ func (obj *SvcRes) Validate() error {
// Watch is the primary listener for this resource and it outputs events.
func (obj *SvcRes) Watch(processChan chan event.Event) error {
if obj.IsWatching() {
return nil
}
obj.SetWatching(true)
defer obj.SetWatching(false)
cuid := obj.converger.Register()
defer cuid.Unregister()
var startup bool
Startup := func(block bool) <-chan time.Time {
if block {
return nil // blocks forever
//return make(chan time.Time) // blocks forever
}
return time.After(time.Duration(500) * time.Millisecond) // 1/2 the resolution of converged timeout
}
cuid := obj.Converger() // get the converger uid used to report status
// obj.Name: svc name
if !systemdUtil.IsRunningSystemd() {
@@ -100,14 +84,14 @@ func (obj *SvcRes) Watch(processChan chan event.Event) error {
conn, err := systemd.NewSystemdConnection() // needs root access
if err != nil {
return fmt.Errorf("Failed to connect to systemd: %s", err)
return errwrap.Wrapf(err, "Failed to connect to systemd")
}
defer conn.Close()
// if we share the bus with others, we will get each others messages!!
bus, err := util.SystemBusPrivateUsable() // don't share the bus connection!
if err != nil {
return fmt.Errorf("Failed to connect to bus: %s", err)
return errwrap.Wrapf(err, "Failed to connect to bus")
}
// XXX: will this detect new units?
@@ -116,10 +100,14 @@ func (obj *SvcRes) Watch(processChan chan event.Event) error {
buschan := make(chan *dbus.Signal, 10)
bus.Signal(buschan)
var svc = fmt.Sprintf("%v.service", obj.Name) // systemd name
// notify engine that we're running
if err := obj.Running(processChan); err != nil {
return err // bubble up a NACK...
}
var svc = fmt.Sprintf("%s.service", obj.Name) // systemd name
var send = false // send event?
var exit = false
var dirty = false
var invalid = false // does the svc exist or not?
var previous bool // previous invalid value
set := conn.NewSubscriptionSet() // no error should be returned
@@ -143,18 +131,18 @@ func (obj *SvcRes) Watch(processChan chan event.Event) error {
if !invalid {
var notFound = (loadstate.Value == dbus.MakeVariant("not-found"))
if notFound { // XXX: in the loop we'll handle changes better...
log.Printf("Failed to find svc: %v", svc)
log.Printf("Failed to find svc: %s", svc)
invalid = true // XXX: ?
}
}
if previous != invalid { // if invalid changed, send signal
send = true
dirty = true
obj.StateOK(false) // dirty
}
if invalid {
log.Printf("Waiting for: %v", svc) // waiting for svc to appear...
log.Printf("Waiting for: %s", svc) // waiting for svc to appear...
if activeSet {
activeSet = false
set.Remove(svc) // no return value should ever occur
@@ -165,25 +153,17 @@ func (obj *SvcRes) Watch(processChan chan event.Event) error {
case <-buschan: // XXX: wait for new units event to unstick
cuid.SetConverged(false)
// loop so that we can see the changed invalid signal
log.Printf("Svc[%v]->DaemonReload()", svc)
log.Printf("Svc[%s]->DaemonReload()", svc)
case event := <-obj.Events():
cuid.SetConverged(false)
if exit, send = obj.ReadEvent(&event); exit {
return nil // exit
}
if event.GetActivity() {
dirty = true
}
case <-cuid.ConvergedTimer():
cuid.SetConverged(true) // converged!
continue
case <-Startup(startup):
cuid.SetConverged(false)
send = true
dirty = true
}
} else {
if !activeSet {
@@ -191,7 +171,7 @@ func (obj *SvcRes) Watch(processChan chan event.Event) error {
set.Add(svc) // no return value should ever occur
}
log.Printf("Watching: %v", svc) // attempting to watch...
log.Printf("Watching: %s", svc) // attempting to watch...
obj.SetState(ResStateWatching) // reset
select {
case event := <-subChannel:
@@ -203,52 +183,39 @@ func (obj *SvcRes) Watch(processChan chan event.Event) error {
switch event[svc].ActiveState {
case "active":
log.Printf("Svc[%v]->Started", svc)
log.Printf("Svc[%s]->Started", svc)
case "inactive":
log.Printf("Svc[%v]->Stopped", svc)
log.Printf("Svc[%s]->Stopped", svc)
case "reloading":
log.Printf("Svc[%v]->Reloading", svc)
log.Printf("Svc[%s]->Reloading", svc)
default:
log.Fatalf("Unknown svc state: %s", event[svc].ActiveState)
}
} else {
// svc stopped (and ActiveState is nil...)
log.Printf("Svc[%v]->Stopped", svc)
log.Printf("Svc[%s]->Stopped", svc)
}
send = true
dirty = true
obj.StateOK(false) // dirty
case err := <-subErrors:
cuid.SetConverged(false)
return fmt.Errorf("Unknown %s[%s] error: %v", obj.Kind(), obj.GetName(), err)
return errwrap.Wrapf(err, "Unknown %s[%s] error", obj.Kind(), obj.GetName())
case event := <-obj.Events():
cuid.SetConverged(false)
if exit, send = obj.ReadEvent(&event); exit {
return nil // exit
}
if event.GetActivity() {
dirty = true
}
case <-cuid.ConvergedTimer():
cuid.SetConverged(true) // converged!
continue
case <-Startup(startup):
cuid.SetConverged(false)
send = true
dirty = true
}
}
if send {
startup = true // startup finished
send = false
if dirty {
dirty = false
obj.isStateOK = false // something made state dirty
}
if exit, err := obj.DoSend(processChan, ""); exit || err != nil {
return err // we exit or bubble up a NACK...
}
@@ -258,34 +225,28 @@ func (obj *SvcRes) Watch(processChan chan event.Event) error {
// CheckApply checks the resource state and applies the resource if the bool
// input is true. It returns error info and if the state check passed or not.
func (obj *SvcRes) CheckApply(apply bool) (checkok bool, err error) {
log.Printf("%v[%v]: CheckApply(%t)", obj.Kind(), obj.GetName(), apply)
if obj.isStateOK { // cache the state
return true, nil
}
func (obj *SvcRes) CheckApply(apply bool) (checkOK bool, err error) {
if !systemdUtil.IsRunningSystemd() {
return false, errors.New("Systemd is not running.")
return false, fmt.Errorf("Systemd is not running.")
}
conn, err := systemd.NewSystemdConnection() // needs root access
if err != nil {
return false, fmt.Errorf("Failed to connect to systemd: %v", err)
return false, errwrap.Wrapf(err, "Failed to connect to systemd")
}
defer conn.Close()
var svc = fmt.Sprintf("%v.service", obj.Name) // systemd name
var svc = fmt.Sprintf("%s.service", obj.Name) // systemd name
loadstate, err := conn.GetUnitProperty(svc, "LoadState")
if err != nil {
return false, fmt.Errorf("Failed to get load state: %v", err)
return false, errwrap.Wrapf(err, "Failed to get load state")
}
// NOTE: we have to compare variants with other variants, they are really strings...
var notFound = (loadstate.Value == dbus.MakeVariant("not-found"))
if notFound {
return false, fmt.Errorf("Failed to find svc: %v", svc)
return false, errwrap.Wrapf(err, "Failed to find svc: %s", svc)
}
// XXX: check svc "enabled at boot" or not status...
@@ -293,14 +254,15 @@ func (obj *SvcRes) CheckApply(apply bool) (checkok bool, err error) {
//conn.GetUnitProperties(svc)
activestate, err := conn.GetUnitProperty(svc, "ActiveState")
if err != nil {
return false, fmt.Errorf("Failed to get active state: %v", err)
return false, errwrap.Wrapf(err, "Failed to get active state")
}
var running = (activestate.Value == dbus.MakeVariant("active"))
var stateOK = ((obj.State == "") || (obj.State == "running" && running) || (obj.State == "stopped" && !running))
var startupOK = true // XXX: DETECT AND SET
var refresh = obj.Refresh() // do we have a pending reload to apply?
if stateOK && startupOK {
if stateOK && startupOK && !refresh {
return true, nil // we are in the correct state
}
@@ -310,7 +272,7 @@ func (obj *SvcRes) CheckApply(apply bool) (checkok bool, err error) {
}
// apply portion
log.Printf("%v[%v]: Apply", obj.Kind(), obj.GetName())
log.Printf("%s[%s]: Apply", obj.Kind(), obj.GetName())
var files = []string{svc} // the svc represented in a list
if obj.Startup == "enabled" {
_, _, err = conn.EnableUnitFiles(files, false, true)
@@ -320,7 +282,7 @@ func (obj *SvcRes) CheckApply(apply bool) (checkok bool, err error) {
}
if err != nil {
return false, fmt.Errorf("Unable to change startup status: %v", err)
return false, errwrap.Wrapf(err, "Unable to change startup status")
}
// XXX: do we need to use a buffered channel here?
@@ -329,23 +291,36 @@ func (obj *SvcRes) CheckApply(apply bool) (checkok bool, err error) {
if obj.State == "running" {
_, err = conn.StartUnit(svc, "fail", result)
if err != nil {
return false, fmt.Errorf("Failed to start unit: %v", err)
return false, errwrap.Wrapf(err, "Failed to start unit")
}
if refresh {
log.Printf("%s[%s]: Skipping reload, due to pending start", obj.Kind(), obj.GetName())
}
refresh = false // we did a start, so a reload is not needed
} else if obj.State == "stopped" {
_, err = conn.StopUnit(svc, "fail", result)
if err != nil {
return false, fmt.Errorf("Failed to stop unit: %v", err)
return false, errwrap.Wrapf(err, "Failed to stop unit")
}
if refresh {
log.Printf("%s[%s]: Skipping reload, due to pending stop", obj.Kind(), obj.GetName())
}
refresh = false // we did a stop, so a reload is not needed
}
status := <-result
if &status == nil {
return false, errors.New("Systemd service action result is nil")
return false, fmt.Errorf("Systemd service action result is nil")
}
if status != "done" {
return false, fmt.Errorf("Unknown systemd return string: %v", status)
}
if refresh { // we need to reload the service
// XXX: run a svc reload here!
log.Printf("%s[%s]: Reloading...", obj.Kind(), obj.GetName())
}
// XXX: also set enabled on boot
return false, nil // success

67
resources/timer.go
View File

@@ -33,6 +33,8 @@ func init() {
type TimerRes struct {
BaseRes `yaml:",inline"`
Interval int `yaml:"interval"` // Interval : Interval between runs
ticker *time.Ticker
}
// TimerUID is the UID struct for TimerRes.
@@ -65,55 +67,46 @@ func (obj *TimerRes) Validate() error {
return nil
}
// newTicker creates a new ticker
func (obj *TimerRes) newTicker() *time.Ticker {
return time.NewTicker(time.Duration(obj.Interval) * time.Second)
}
// Watch is the primary listener for this resource and it outputs events.
func (obj *TimerRes) Watch(processChan chan event.Event) error {
if obj.IsWatching() {
return nil
}
obj.SetWatching(true)
defer obj.SetWatching(false)
cuid := obj.converger.Register()
defer cuid.Unregister()
cuid := obj.Converger() // get the converger uid used to report status
var startup bool
Startup := func(block bool) <-chan time.Time {
if block {
return nil // blocks forever
//return make(chan time.Time) // blocks forever
}
return time.After(time.Duration(500) * time.Millisecond) // 1/2 the resolution of converged timeout
}
// create a time.Ticker for the given interval
obj.ticker = obj.newTicker()
defer obj.ticker.Stop()
// Create a time.Ticker for the given interval
ticker := time.NewTicker(time.Duration(obj.Interval) * time.Second)
defer ticker.Stop()
// notify engine that we're running
if err := obj.Running(processChan); err != nil {
return err // bubble up a NACK...
}
var send = false
for {
obj.SetState(ResStateWatching)
select {
case <-ticker.C: // received the timer event
case <-obj.ticker.C: // received the timer event
send = true
log.Printf("%v[%v]: received tick", obj.Kind(), obj.GetName())
log.Printf("%s[%s]: received tick", obj.Kind(), obj.GetName())
case event := <-obj.Events():
cuid.SetConverged(false)
if exit, _ := obj.ReadEvent(&event); exit {
return nil
}
case <-cuid.ConvergedTimer():
cuid.SetConverged(true)
continue
case <-Startup(startup):
cuid.SetConverged(false)
send = true
}
if send {
startup = true // startup finished
send = false
obj.isStateOK = false
if exit, err := obj.DoSend(processChan, "timer ticked"); exit || err != nil {
return err // we exit or bubble up a NACK...
}
@@ -121,6 +114,22 @@ func (obj *TimerRes) Watch(processChan chan event.Event) error {
}
}
// CheckApply method for Timer resource. Triggers a timer reset on notify.
func (obj *TimerRes) CheckApply(apply bool) (bool, error) {
// because there are no checks to run, this resource has a less
// traditional pattern than what is seen in most resources...
if !obj.Refresh() { // this works for apply || !apply
return true, nil // state is always okay if no refresh to do
} else if !apply { // we had a refresh to do
return false, nil // therefore state is wrong
}
// reset the timer since apply && refresh
obj.ticker.Stop()
obj.ticker = obj.newTicker()
return false, nil
}
// GetUIDs includes all params to make a unique identification of this object.
// Most resources only return one, although some resources can return multiple.
func (obj *TimerRes) GetUIDs() []ResUID {
@@ -158,9 +167,3 @@ func (obj *TimerRes) Compare(res Res) bool {
}
return true
}
// CheckApply method for Timer resource. Does nothing, returns happy!
func (obj *TimerRes) CheckApply(apply bool) (bool, error) {
log.Printf("%v[%v]: CheckApply(%t)", obj.Kind(), obj.GetName(), apply)
return true, nil // state is always okay
}

138
resources/virt.go
View File

@@ -22,10 +22,10 @@ import (
"fmt"
"log"
"math/rand"
"net/url"
"time"
"github.com/purpleidea/mgmt/event"
"github.com/purpleidea/mgmt/global"
errwrap "github.com/pkg/errors"
"github.com/rgbkrk/libvirt-go"
@@ -39,6 +39,19 @@ var (
libvirtInitialized = false
)
type virtURISchemeType int
const (
defaultURI virtURISchemeType = iota
lxcURI
)
// VirtAuth is used to pass credentials to libvirt.
type VirtAuth struct {
Username string `yaml:"username"`
Password string `yaml:"password"`
}
// VirtRes is a libvirt resource. A transient virt resource, which has its state
// set to `shutoff` is one which does not exist. The parallel equivalent is a
// file resource which removes a particular path.
@@ -49,18 +62,21 @@ type VirtRes struct {
Transient bool `yaml:"transient"` // defined (false) or undefined (true)
CPUs uint16 `yaml:"cpus"`
Memory uint64 `yaml:"memory"` // in KBytes
OSInit string `yaml:"osinit"` // init used by lxc
Boot []string `yaml:"boot"` // boot order. values: fd, hd, cdrom, network
Disk []diskDevice `yaml:"disk"`
CDRom []cdRomDevice `yaml:"cdrom"`
Network []networkDevice `yaml:"network"`
Filesystem []filesystemDevice `yaml:"filesystem"`
Auth *VirtAuth `yaml:"auth"`
conn libvirt.VirConnection
absent bool // cached state
uriScheme virtURISchemeType
}
// NewVirtRes is a constructor for this resource. It also calls Init() for you.
func NewVirtRes(name string, uri, state string, transient bool, cpus uint16, memory uint64) (*VirtRes, error) {
func NewVirtRes(name string, uri, state string, transient bool, cpus uint16, memory uint64, osinit string) (*VirtRes, error) {
obj := &VirtRes{
BaseRes: BaseRes{
Name: name,
@@ -70,6 +86,7 @@ func NewVirtRes(name string, uri, state string, transient bool, cpus uint16, mem
Transient: transient,
CPUs: cpus,
Memory: memory,
OSInit: osinit,
}
return obj, obj.Init()
}
@@ -82,6 +99,15 @@ func (obj *VirtRes) Init() error {
}
libvirtInitialized = true
}
var u *url.URL
var err error
if u, err = url.Parse(obj.URI); err != nil {
return errwrap.Wrapf(err, "%s[%s]: Parsing URI failed: %s", obj.Kind(), obj.GetName(), obj.URI)
}
switch u.Scheme {
case "lxc":
obj.uriScheme = lxcURI
}
obj.absent = (obj.Transient && obj.State == "shutoff") // machine shouldn't exist
@@ -94,26 +120,21 @@ func (obj *VirtRes) Validate() error {
return nil
}
func (obj *VirtRes) connect() (conn libvirt.VirConnection, err error) {
if obj.Auth != nil {
conn, err = libvirt.NewVirConnectionWithAuth(obj.URI, obj.Auth.Username, obj.Auth.Password)
}
if obj.Auth == nil || err != nil {
conn, err = libvirt.NewVirConnection(obj.URI)
}
return
}
// Watch is the primary listener for this resource and it outputs events.
func (obj *VirtRes) Watch(processChan chan event.Event) error {
if obj.IsWatching() {
return nil
}
obj.SetWatching(true)
defer obj.SetWatching(false)
cuid := obj.converger.Register()
defer cuid.Unregister()
cuid := obj.Converger() // get the converger uid used to report status
var startup bool
Startup := func(block bool) <-chan time.Time {
if block {
return nil // blocks forever
//return make(chan time.Time) // blocks forever
}
return time.After(time.Duration(500) * time.Millisecond) // 1/2 the resolution of converged timeout
}
conn, err := libvirt.NewVirConnection(obj.URI)
conn, err := obj.connect()
if err != nil {
return fmt.Errorf("Connection to libvirt failed with: %s", err)
}
@@ -153,7 +174,7 @@ func (obj *VirtRes) Watch(processChan chan event.Event) error {
if domName == obj.GetName() {
eventChan <- lifecycleEvent.Event
}
} else if global.DEBUG {
} else if obj.debug {
log.Printf("%s[%s]: Event details isn't DomainLifecycleEvent", obj.Kind(), obj.GetName())
}
return 0
@@ -167,9 +188,13 @@ func (obj *VirtRes) Watch(processChan chan event.Event) error {
)
defer conn.DomainEventDeregister(callbackID)
// notify engine that we're running
if err := obj.Running(processChan); err != nil {
return err // bubble up a NACK...
}
var send = false
var exit = false
var dirty = false
for {
select {
@@ -178,37 +203,37 @@ func (obj *VirtRes) Watch(processChan chan event.Event) error {
switch event {
case libvirt.VIR_DOMAIN_EVENT_DEFINED:
if obj.Transient {
dirty = true
obj.StateOK(false) // dirty
send = true
}
case libvirt.VIR_DOMAIN_EVENT_UNDEFINED:
if !obj.Transient {
dirty = true
obj.StateOK(false) // dirty
send = true
}
case libvirt.VIR_DOMAIN_EVENT_STARTED:
fallthrough
case libvirt.VIR_DOMAIN_EVENT_RESUMED:
if obj.State != "running" {
dirty = true
obj.StateOK(false) // dirty
send = true
}
case libvirt.VIR_DOMAIN_EVENT_SUSPENDED:
if obj.State != "paused" {
dirty = true
obj.StateOK(false) // dirty
send = true
}
case libvirt.VIR_DOMAIN_EVENT_STOPPED:
fallthrough
case libvirt.VIR_DOMAIN_EVENT_SHUTDOWN:
if obj.State != "shutoff" {
dirty = true
obj.StateOK(false) // dirty
send = true
}
case libvirt.VIR_DOMAIN_EVENT_PMSUSPENDED:
fallthrough
case libvirt.VIR_DOMAIN_EVENT_CRASHED:
dirty = true
obj.StateOK(false) // dirty
send = true
}
@@ -225,21 +250,10 @@ func (obj *VirtRes) Watch(processChan chan event.Event) error {
case <-cuid.ConvergedTimer():
cuid.SetConverged(true) // converged!
continue
case <-Startup(startup):
cuid.SetConverged(false)
send = true
dirty = true
}
if send {
startup = true // startup finished
send = false
// only invalid state on certain types of events
if dirty {
dirty = false
obj.isStateOK = false // something made state dirty
}
if exit, err := obj.DoSend(processChan, ""); exit || err != nil {
return err // we exit or bubble up a NACK...
}
@@ -342,14 +356,8 @@ func (obj *VirtRes) domainCreate() (libvirt.VirDomain, bool, error) {
// CheckApply checks the resource state and applies the resource if the bool
// input is true. It returns error info and if the state check passed or not.
func (obj *VirtRes) CheckApply(apply bool) (bool, error) {
log.Printf("%s[%s]: CheckApply(%t)", obj.Kind(), obj.GetName(), apply)
if obj.isStateOK { // cache the state
return true, nil
}
var err error
obj.conn, err = libvirt.NewVirConnection(obj.URI)
obj.conn, err = obj.connect()
if err != nil {
return false, fmt.Errorf("Connection to libvirt failed with: %s", err)
}
@@ -359,10 +367,9 @@ func (obj *VirtRes) CheckApply(apply bool) (bool, error) {
dom, err := obj.conn.LookupDomainByName(obj.GetName())
if err == nil {
// pass
} else if virErr, ok := err.(libvirt.VirError); ok && virErr.Domain == libvirt.VIR_FROM_QEMU && virErr.Code == libvirt.VIR_ERR_NO_DOMAIN {
} else if virErr, ok := err.(libvirt.VirError); ok && virErr.Code == libvirt.VIR_ERR_NO_DOMAIN {
// domain not found
if obj.absent {
obj.isStateOK = true
return true, nil
}
@@ -501,22 +508,49 @@ func (obj *VirtRes) CheckApply(apply bool) (bool, error) {
}
}
if apply || checkOK {
obj.isStateOK = true
}
return checkOK, nil // w00t
}
// Return the correct domain type based on the uri
func (obj VirtRes) getDomainType() string {
switch obj.uriScheme {
case lxcURI:
return "<domain type='lxc'>"
default:
return "<domain type='kvm'>"
}
}
// Return the correct os type based on the uri
func (obj VirtRes) getOSType() string {
switch obj.uriScheme {
case lxcURI:
return "<type>exe</type>"
default:
return "<type>hvm</type>"
}
}
func (obj VirtRes) getOSInit() string {
switch obj.uriScheme {
case lxcURI:
return fmt.Sprintf("<init>%s</init>", obj.OSInit)
default:
return ""
}
}
func (obj *VirtRes) getDomainXML() string {
var b string
b += "<domain type='kvm'>" // start domain
b += obj.getDomainType() // start domain
b += fmt.Sprintf("<name>%s</name>", obj.GetName())
b += fmt.Sprintf("<memory unit='KiB'>%d</memory>", obj.Memory)
b += fmt.Sprintf("<vcpu>%d</vcpu>", obj.CPUs)
b += "<os>"
b += "<type>hvm</type>"
b += obj.getOSType()
b += obj.getOSInit()
if obj.Boot != nil {
for _, boot := range obj.Boot {
b += fmt.Sprintf("<boot dev='%s'/>", boot)

6
test/test-gofmt.sh
View File

@@ -9,9 +9,9 @@ ROOT=$(dirname "${BASH_SOURCE}")/..
GO_VERSION=($(go version))
if [[ -z $(echo "${GO_VERSION[2]}" | grep -E 'go1.2|go1.3|go1.4|go1.5|go1.6') ]]; then
echo "Unknown go version '${GO_VERSION}', skipping gofmt."
exit 0
if [[ -z $(echo "${GO_VERSION[2]}" | grep -E 'go1.2|go1.3|go1.4|go1.5|go1.6|go1.7|go1.8|devel') ]]; then
echo "Unknown go version '${GO_VERSION[2]}', failing gofmt."
exit 1
fi
cd "${ROOT}"

1
vendor/github.com/purpleidea/go-systemd generated vendored Submodule

Submodule vendor/github.com/purpleidea/go-systemd added at 6192533ebb

9
yamlgraph/gapi.go
View File

@@ -70,12 +70,12 @@ func (obj *GAPI) Graph() (*pgraph.Graph, error) {
return nil, fmt.Errorf("yamlgraph: ParseConfigFromFile returned nil")
}
g, err := config.NewGraphFromConfig(obj.data.Hostname, obj.data.EmbdEtcd, obj.data.Noop)
g, err := config.NewGraphFromConfig(obj.data.Hostname, obj.data.World, obj.data.Noop)
return g, err
}
// SwitchStream returns nil errors every time there could be a new graph.
func (obj *GAPI) SwitchStream() chan error {
// Next returns nil errors every time there could be a new graph.
func (obj *GAPI) Next() chan error {
if obj.data.NoWatch {
return nil
}
@@ -88,7 +88,8 @@ func (obj *GAPI) SwitchStream() chan error {
ch <- fmt.Errorf("yamlgraph: GAPI is not initialized")
return
}
configChan := recwatch.ConfigWatch(*obj.File)
configWatcher := recwatch.NewConfigWatcher()
configChan := configWatcher.ConfigWatch(*obj.File) // simple
for {
select {
case err, ok := <-configChan: // returns nil events on ok!

25
yamlgraph/gconfig.go
View File

@@ -26,8 +26,7 @@ import (
"reflect"
"strings"
"github.com/purpleidea/mgmt/etcd"
"github.com/purpleidea/mgmt/global"
"github.com/purpleidea/mgmt/gapi"
"github.com/purpleidea/mgmt/pgraph"
"github.com/purpleidea/mgmt/resources"
"github.com/purpleidea/mgmt/util"
@@ -58,8 +57,11 @@ type Resources struct {
// in alphabetical order
Exec []*resources.ExecRes `yaml:"exec"`
File []*resources.FileRes `yaml:"file"`
Hostname []*resources.HostnameRes `yaml:"hostname"`
Msg []*resources.MsgRes `yaml:"msg"`
Noop []*resources.NoopRes `yaml:"noop"`
Nspawn []*resources.NspawnRes `yaml:"nspawn"`
Password []*resources.PasswordRes `yaml:"password"`
Pkg []*resources.PkgRes `yaml:"pkg"`
Svc []*resources.SvcRes `yaml:"svc"`
Timer []*resources.TimerRes `yaml:"timer"`
@@ -89,7 +91,7 @@ func (c *GraphConfig) Parse(data []byte) error {
// NewGraphFromConfig transforms a GraphConfig struct into a new graph.
// FIXME: remove any possibly left over, now obsolete graph diff code from here!
func (c *GraphConfig) NewGraphFromConfig(hostname string, embdEtcd *etcd.EmbdEtcd, noop bool) (*pgraph.Graph, error) {
func (c *GraphConfig) NewGraphFromConfig(hostname string, world gapi.World, noop bool) (*pgraph.Graph, error) {
// hostname is the uuid for the host
var graph *pgraph.Graph // new graph to return
@@ -114,9 +116,6 @@ func (c *GraphConfig) NewGraphFromConfig(hostname string, embdEtcd *etcd.EmbdEtc
slice := reflect.ValueOf(iface)
// XXX: should we just drop these everywhere and have the kind strings be all lowercase?
kind := util.FirstToUpper(name)
if global.DEBUG {
log.Printf("Config: Processing: %v...", kind)
}
for j := 0; j < slice.Len(); j++ { // loop through resources of same kind
x := slice.Index(j).Interface()
res, ok := x.(resources.Res) // convert to Res type
@@ -142,19 +141,19 @@ func (c *GraphConfig) NewGraphFromConfig(hostname string, embdEtcd *etcd.EmbdEtc
keep = append(keep, v) // append
} else if !noop { // do not export any resources if noop
// store for addition to etcd storage...
// store for addition to backend storage...
res.SetName(res.GetName()[2:]) //slice off @@
res.SetKind(kind) // cheap init
resourceList = append(resourceList, res)
}
}
}
// store in etcd
if err := etcd.EtcdSetResources(embdEtcd, hostname, resourceList); err != nil {
// store in backend (usually etcd)
if err := world.ResExport(resourceList); err != nil {
return nil, fmt.Errorf("Config: Could not export resources: %v", err)
}
// lookup from etcd
// lookup from backend (usually etcd)
var hostnameFilter []string // empty to get from everyone
kindFilter := []string{}
for _, t := range c.Collector {
@@ -162,11 +161,11 @@ func (c *GraphConfig) NewGraphFromConfig(hostname string, embdEtcd *etcd.EmbdEtc
kind := util.FirstToUpper(t.Kind)
kindFilter = append(kindFilter, kind)
}
// do all the graph look ups in one single step, so that if the etcd
// do all the graph look ups in one single step, so that if the backend
// database changes, we don't have a partial state of affairs...
if len(kindFilter) > 0 { // if kindFilter is empty, don't need to do lookups!
var err error
resourceList, err = etcd.EtcdGetResources(embdEtcd, hostnameFilter, kindFilter)
resourceList, err = world.ResCollect(hostnameFilter, kindFilter)
if err != nil {
return nil, fmt.Errorf("Config: Could not collect resources: %v", err)
}
@@ -177,7 +176,7 @@ func (c *GraphConfig) NewGraphFromConfig(hostname string, embdEtcd *etcd.EmbdEtc
for _, t := range c.Collector {
// XXX: should we just drop these everywhere and have the kind strings be all lowercase?
kind := util.FirstToUpper(t.Kind)
// use t.Kind and optionally t.Pattern to collect from etcd storage
// use t.Kind and optionally t.Pattern to collect from storage
log.Printf("Collect: %v; Pattern: %v", kind, t.Pattern)
// XXX: expand to more complex pattern matching here...