Setting up these Tortoise SVN commit hooks - linux

I'd like to set up a commit hook that will subsequently upload source files from a Windows environment to a Linux server, which is not the same as Linux server running SVN.
I'm familiar with setting up client side hooks, but not sure what the script should be like.
I'm not really sure the easiest way to go about this. I'm thinking a Windows script that will run a copy command that can do this sort of thing. My entire group would use it so the script would have to be located on a Windows NFS. Ideas?

not sure what the script should be like
Client-side (as server-side) hook is any program, which can be executed on this host. Single difference between these type of hooks is location, where program is executed - clent-side hooks of TortoiseSVN will run on developer's host with Working Copy
Your script must be non-interactive set of operations, which will perform needed operation (ssh or ftp to target host, upload files) - can't see any problem here (except one - FTPing a bundle of /random/ files is always a big headache)

Related

Using haxe to edit remote file?

I've searched in haxelib for a library to use for remotely editing a file on a server using ssh connection with haxe, or listing files in directory..
Has any one done this with haxe?
I want to build a desktop app to create a yaml editor that will change settings files of several servers using a frontend like haxe-ui.
Ok, there are probably a lot of ways you could do it, but I would suggest separating your concerns:
desktop app to create a yaml editor
Ok, that's a fine use case for Haxe / a programming language. Build an editor, check.
change settings files (located on) several servers
Ok, so you have options here. Either
Make the remote files appear as local files via some network file system, or
Copy the files locally, edit them , and copy them back, or
Roll your own network-enabled service that runs on each server, receives commands, and modifies the files.
Random aside: Given that these are settings files, you probably also want to restart some service after changes are made.
I'd say option 2 is the easiest. There are even many ways to do that:
Use scp to both bring the settings files to a local location, edit them locally, and then push them back. And if you setup SSH keys, you won't have to bother with passwords.
Netcat is another tool for pushing bytes (aka files) over the network. It's simpler than scp, but with no security measures.
Or, get creative / crazy, and say, "my settings files will all be stored in a git repo. The 'sync' process will be a push / pull setup."
There are simply lots of ways to get this done.

how to launch eclipse on linux [duplicate]

I have the following boxes:
a) A Windows box with Eclipse CDT,
b) A Linux box, accessible for me only via SSH.
Both the compiler and the hardware required to build and run my project is only on machine B.
I'd like to work "transparently" from a Windows box on that project using Eclipse CDT and be able to build, run and debug the project remotely from within the IDE.
How do I set up that:
The building will work? Any simpler solutions than writing a local makefile which would rsync the project and then call a remote makefile to initiate the actual build? Does Eclipse managed build have a feature for that?
The debugging will work?
Preferably - the Eclipse CDT code indexing will work? Do I have to copy all required header files from machine B to machine A and add them to include path manually?
Try the Remote System Explorer (RSE). It's a set of plug-ins to do exactly what you want.
RSE may already be included in your current Eclipse installation. To check in Eclipse Indigo go to Window > Open Perspective > Other... and choose Remote System Explorer from the Open Perspective dialog to open the RSE perspective.
To create an SSH remote project from the RSE perspective in Eclipse:
Define a new connection and choose SSH Only from the Select Remote System Type screen in the New Connection dialog.
Enter the connection information then choose Finish.
Connect to the new host. (Assumes SSH keys are already setup.)
Once connected, drill down into the host's Sftp Files, choose a folder and select Create Remote Project from the item's context menu. (Wait as the remote project is created.)
If done correctly, there should now be a new remote project accessible from the Project Explorer and other perspectives within eclipse. With the SSH connection set-up correctly passwords can be made an optional part of the normal SSH authentication process. A remote project with Eclipse via SSH is now created.
The very simplest way would be to run Eclipse CDT on the Linux Box and use either X11-Forwarding or remote desktop software such as VNC.
This, of course, is only possible when you Eclipse is present on the Linux box and your network connection to the box is sufficiently fast.
The advantage is that, due to everything being local, you won't have synchronization issues, and you don't get any awkward cross-platform issues.
If you have no eclipse on the box, you could thinking of sharing your linux working directory via SMB (or SSHFS) and access it from your windows machine, but that would require quite some setup.
Both would be better than having two copies, especially when it's cross-platform.
I'm in the same spot myself (or was), FWIW I ended up checking out to a samba share on the Linux host and editing that share locally on the Windows machine with notepad++, then I compiled on the Linux box via PuTTY. (We weren't allowed to update the ten y/o versions of the editors on the Linux host and it didn't have Java, so I gave up on X11 forwarding)
Now... I run modern Linux in a VM on my Windows host, add all the tools I want (e.g. CDT) to the VM and then I checkout and build in a chroot jail that closely resembles the RTE.
It's a clunky solution but I thought I'd throw it in to the mix.
My solution is similar to the SAMBA one except using sshfs. Mount my remote server with sshfs, open my makefile project on the remote machine. Go from there.
It seems I can run a GUI frontend to mercurial this way as well.
Building my remote code is as simple as: ssh address remote_make_command
I am looking for a decent way to debug though. Possibly via gdbserver?
I tried ssh -X but it was unbearably slow.
I also tried RSE, but it didn't even support building the project with a Makefile (I'm being told that this has changed since I posted my answer, but I haven't tried that out)
I read that NX is faster than X11 forwarding, but I couldn't get it to work.
Finally, I found out that my server supports X2Go (the link has install instructions if yours does not). Now I only had to:
download and unpack Eclipse on the server,
install X2Go on my local machine (sudo apt-get install x2goclient on Ubuntu),
configure the connection (host, auto-login with ssh key, choose to run Eclipse).
Everything is just as if I was working on a local machine, including building, debugging, and code indexing. And there are no noticeable lags.
I had the same problem 2 years ago and I solved it in the following way:
1) I build my projects with makefiles, not managed by eclipse
2) I use a SAMBA connection to edit the files inside Eclipse
3) Building the project:
Eclipse calles a "local" make with a makefile which opens a SSH connection
to the Linux Host. On the SSH command line you can give parameters which
are executed on the Linux host. I use for that parameter a makeit.sh shell script
which call the "real" make on the linux host.
The different targets for building you can give also by parameters from
the local makefile --> makeit.sh --> makefile on linux host.
The way I solved that one was:
For windows:
Export the 'workspace' directory from the Linux machine using samba.
Mount it locally in windows.
Run Eclipse, using the mounted 'workspace' directory as the eclipse workspace.
Import the project you want and work on it.
For Linux:
Mount the 'workspace' directory using sshfs
Run Eclipse.
Run Eclipse, using the mounted 'workspace' directory as the eclipse workspace.
Import the project you want and work on it.
In both cases you can either build and run through Eclipse, or build on the remote machine via ssh.
For this case you can use ptp eclipse https://eclipse.org/ptp/ for source browsing and building.
You can use this pluging to debug your application
http://marketplace.eclipse.org/content/direct-remote-c-debugging
How to edit in Eclipse locally, but use a git-based script I wrote (sync_git_repo_from_pc1_to_pc2.sh) to synchronize and build remotely
The script I wrote to do this is sync_git_repo_from_pc1_to_pc2.sh.
Readme: README_git-sync_repo_from_pc1_to_pc2.md
Update: see also this alternative/competitor: GitSync:
How to use Sublime over SSH
https://github.com/jachin/GitSync
This answer currently only applies to using two Linux computers [or maybe works on Mac too?--untested on Mac] (syncing from one to the other) because I wrote this synchronization script in bash. It is simply a wrapper around git, however, so feel free to take it and convert it into a cross-platform Python solution or something if you wish
This doesn't directly answer the OP's question, but it is so close I guarantee it will answer many other peoples' question who land on this page (mine included, actually, as I came here first before writing my own solution), so I'm posting it here anyway.
I want to:
develop code using a powerful IDE like Eclipse on a light-weight Linux computer, then
build that code via ssh on a different, more powerful Linux computer (from the command-line, NOT from inside Eclipse)
Let's call the first computer where I write the code "PC1" (Personal Computer 1), and the 2nd computer where I build the code "PC2". I need a tool to easily synchronize from PC1 to PC2. I tried rsync, but it was insanely slow for large repos and took tons of bandwidth and data.
So, how do I do it? What workflow should I use? If you have this question too, here's the workflow that I decided upon. I wrote a bash script to automate the process by using git to automatically push changes from PC1 to PC2 via a remote repository, such as github. So far it works very well and I'm very pleased with it. It is far far far faster than rsync, more trustworthy in my opinion because each PC maintains a functional git repo, and uses far less bandwidth to do the whole sync, so it's easily doable over a cell phone hot spot without using tons of your data.
Setup:
Install the script on PC1 (this solution assumes ~/bin is in your $PATH):
git clone https://github.com/ElectricRCAircraftGuy/eRCaGuy_dotfiles.git
cd eRCaGuy_dotfiles/useful_scripts
mkdir -p ~/bin
ln -s "${PWD}/sync_git_repo_from_pc1_to_pc2.sh" ~/bin/sync_git_repo_from_pc1_to_pc2
cd ..
cp -i .sync_git_repo ~/.sync_git_repo
Now edit the "~/.sync_git_repo" file you just copied above, and update its parameters to fit your case. Here are the parameters it contains:
# The git repo root directory on PC2 where you are syncing your files TO; this dir must *already exist*
# and you must have *already `git clone`d* a copy of your git repo into it!
# - Do NOT use variables such as `$HOME`. Be explicit instead. This is because the variable expansion will
# happen on the local machine when what we need is the variable expansion from the remote machine. Being
# explicit instead just avoids this problem.
PC2_GIT_REPO_TARGET_DIR="/home/gabriel/dev/eRCaGuy_dotfiles" # explicitly type this out; don't use variables
PC2_SSH_USERNAME="my_username" # explicitly type this out; don't use variables
PC2_SSH_HOST="my_hostname" # explicitly type this out; don't use variables
Git clone your repo you want to sync on both PC1 and PC2.
Ensure your ssh keys are all set up to be able to push and pull to the remote repo from both PC1 and PC2. Here's some helpful links:
https://help.github.com/en/github/authenticating-to-github/connecting-to-github-with-ssh
https://help.github.com/en/github/authenticating-to-github/generating-a-new-ssh-key-and-adding-it-to-the-ssh-agent
Ensure your ssh keys are all set up to ssh from PC1 to PC2.
Now cd into any directory within the git repo on PC1, and run:
sync_git_repo_from_pc1_to_pc2
That's it! About 30 seconds later everything will be magically synced from PC1 to PC2, and it will be printing output the whole time to tell you what it's doing and where it's doing it on your disk and on which computer. It's safe too, because it doesn't overwrite or delete anything that is uncommitted. It backs it up first instead! Read more below for how that works.
Here's the process this script uses (ie: what it's actually doing)
From PC1: It checks to see if any uncommitted changes are on PC1. If so, it commits them to a temporary commit on the current branch. It then force pushes them to a remote SYNC branch. Then it uncommits its temporary commit it just did on the local branch, then it puts the local git repo back to exactly how it was by staging any files that were previously staged at the time you called the script. Next, it rsyncs a copy of the script over to PC2, and does an ssh call to tell PC2 to run the script with a special option to just do PC2 stuff.
Here's what PC2 does: it cds into the repo, and checks to see if any local uncommitted changes exist. If so, it creates a new backup branch forked off of the current branch (sample name: my_branch_SYNC_BAK_20200220-0028hrs-15sec <-- notice that's YYYYMMDD-HHMMhrs--SSsec), and commits any uncommitted changes to that branch with a commit message such as DO BACKUP OF ALL UNCOMMITTED CHANGES ON PC2 (TARGET PC/BUILD MACHINE). Now, it checks out the SYNC branch, pulling it from the remote repository if it is not already on the local machine. Then, it fetches the latest changes on the remote repository, and does a hard reset to force the local SYNC repository to match the remote SYNC repository. You might call this a "hard pull". It is safe, however, because we already backed up any uncommitted changes we had locally on PC2, so nothing is lost!
That's it! You now have produced a perfect copy from PC1 to PC2 without even having to ensure clean working directories, as the script handled all of the automatic committing and stuff for you! It is fast and works very well on huge repositories. Now you have an easy mechanism to use any IDE of your choice on one machine while building or testing on another machine, easily, over a wifi hot spot from your cell phone if needed, even if the repository is dozens of gigabytes and you are time and resource-constrained.
Resources:
The whole project: https://github.com/ElectricRCAircraftGuy/eRCaGuy_dotfiles
See tons more links and references in the source code itself within this project.
How to do a "hard pull", as I call it: How do I force "git pull" to overwrite local files?
Related:
git repository sync between computers, when moving around?

Relative path for client hook script settings

I'm trying to create a client hook script for TortoiseSVN 1.8.11 on Windows 7.
What is givining me trouble is the path to the hook script in the settings (Settings->Hook Scripts).
Using the absolute path to my batch script works, but I need to use a path relative to the repository. The reason for this is that coworkers might have their repositories in different locations and the hook script should be used by everybody. Server side hooks are out of the question, since I can't modify the server.
I tried using environment variables, ^/my/path/hook.bat and ^^/my/path/hook.bat, no success.
Client-side hooks are local executables, not related in any way to your local Working Copy (not repository)
TortoiseSVN's configuration, performed using TortoiseSVN - Settings, not stored in WC|repository and also is pure local
If you want to have any client-side hooks avaliable and callable for everybody in team (with TortoiseSVN only), you have
Place these scripts into repository
Define all hooks as folder-properties in repository. Read about
tsvn:startcommithook
tsvn:precommithook
tsvn:postcommithook
tsvn:startupdatehook
tsvn:preupdatehook
tsvn:postupdatehook
properties and parameters and about using special wariables (%REPOROOT% and %REPOROOT+%) in script-path in TSVN help, part "4.17.2. TortoiseSVN Project Properties"

HG Workbench working directory over ssh?

I manage a team of developers who are editing files on a headless development server via SFTP. We use Mercurial (HG) to version the files. It's my job to make sure the team is doing the correct things, so I need to be able to do hg status and hg diff and so forth. Up to now I've been doing this over SSH on the command line, but I would like to be able to use HG Workbench, or something like it, over SSH. Something to send the needed commands over SSH, parse the response, and display the results. I believe this is how Workbench works anyways, but only on the local machine, and I don't see any option to do it remotely.
Is there any workaround way to do this, or another program that can do what I'm trying to do with Workbench?
You have a couple of options:
Clone the mercurial repository to your local machine and then run tortoise hg on your local machine. When you do a push of any modifications they will be synced onto the remote machine - it is a distributed VCS after all.
On the remote machine type hg serve and it will run up a web server. You can then connect to the web server with a browser and perform the operations that you need via the web interface.
What I have ended up doing is using the PHPStorm IDE to do this for me. It is able to sync the working directory with the remote server, including the .hg files, and I can then see the differences in an easy way, as well as do commits right from the IDE.

How to do version control via ftp?

I have a web dev. client using a shared host that doesn't allow shell access, and thus no access to SVN, Git, etc. I've tried to convince him to move to one of the many cheap options that allow it, but he won't do it. If I use version control on my staging server, are there any tools that will allow me to replicate the changes to production via ftp? Locally I have both mac & windows, the staging server is linux, so something that works on any of those platforms....
Using your Linux staging server you could keep a separate checked out copy that you use specifically for that host and then use a utility to mirror that directory with the host server.
LFTP is useful for this kind of thing. Its available for most Linux distributions and includes a 'mirror' function:
Mirror specified source directory to
local target directory. If target
directory ends with a slash, the source base name is appended to
target
directory name. Source and/or target can be URLs pointing to
directories.
Some kind of ftp mirror software is what you need. Not tested it but a quick search gave me this Java application. You could run that over your up-to-date checked out repository.
Good thing for keeping SVN repo and FTP copy in sync is svn2web. May I suggest creating separate branch for production copy and do merges to that branch for uploading to production server.
You probably need to write a batch file that is able to
Export the SVN repository
Upload the exported files to your Linux server via FTP
Short of finding / implementing some FUSE based CoW file system that supports immutable versions .. I'd just find another (more developer friendly) host. As far as I know, no FTP server supports this natively, nor can I think of any elegant means of putting it in place with script hackery.
I could be wrong.
This question (and answer) really helped me just now as I implemented version control via gitolite on a separate server and lftp.
Here’s what I did:
Set up gitolite on my ubuntu staging server
created base repo (i.e. foo.git) on staging server
cloned foo.git into working directory on staging server
cloned foo.git into working directory on local development machine
Developed locally
Pushed changes to foo.git repo on staging server
On staging server, logged into working directory, and pulled in changes from foo.git
lftp-ed into shared host (like you mention above)
Once in shared host, ran:
mirror -R --only-newer --delete --parallel=10 /source/directory/ /target/directory
Notes on the mirror command options:
-R - this pushes the source/directory to the target/directory. (mirror pulls in from target to source without this, think reverse)
—only-newer - without this option, even if you only changed one file, the mirror command will send all the files in the source directory over to the target directory. with this option only the changed (newer) files are transferred over the wire.
—delete - deletes files that are no longer in the source directory but still in the target directory. one of my pushes involved deleting expired assets. without this option, the same files would have stayed put on my shared host after executing the mirror command.
—parallel=10 - transfers 10 files at once (instead of 1 by default). this made the process much faster
While this is what worked for me, I’m sure there are ways to improve on this. I was grateful for this question and thought i’d share my experience.
Rsync will do this over an FTP connection. You probably already have it installed if you’re on a Unix-like system.

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