Crates.io | pegasus-ssh |
lib.rs | pegasus-ssh |
version | 1.4.0 |
source | src |
created_at | 2022-07-08 20:10:45.221654 |
updated_at | 2024-05-19 02:52:53.927314 |
description | Pegasus: A Multi-Node SSH Command Runner |
homepage | |
repository | https://github.com/jaywonchung/pegasus |
max_upload_size | |
id | 622082 |
size | 1,131,536 |
Run a list of commands on a set of SSH nodes. With a bit of optional parametrization.
queue.yaml
) while Pegasus is running.To use Pegasus,
cargo install pegasus-ssh
.hosts.yaml
and queue.yaml
, and run Pegasus.Pegasus will remove one entry at a time from the top of queue.yaml
and move it to consumed.yaml
as it begins to execute it.
Run four Python commands using two nodes.
# hosts.yaml
- node-1
- node-2
# queue.yaml
- . /opt/miniconda3/etc/profile.d/conda.sh; python train.py --bs 8
- . /opt/miniconda3/etc/profile.d/conda.sh; python train.py --bs 16
- . /opt/miniconda3/etc/profile.d/conda.sh; python train.py --bs 32
- . /opt/miniconda3/etc/profile.d/conda.sh; python train.py --bs 64
$ pegasus q # stands for Queue
Run identical commands for multiple nodes.
# queue.yaml
- mkdir workspace
- cd workspace && git clone https://github.com/jaywonchung/dotfiles.git
- . workspace/dotfiles/install.sh
$ pegasus b # stands for Broadcast
Split nodes into sub-nodes that run commands in parallel. Below, four SSH connections are kept, and four commands run in parallel.
# hosts.yaml
- hostname:
- node-1
- node-2
container:
- gpu0
- gpu1
When parametrizing nodes, just make sure you specify the hostname
key.
You can use these parameters in your commands. By the way, the templating engine is Handlebars.
# queue.yaml
- docker exec {{ container }} python train.py --bs 8
- docker exec {{ container }} python train.py --bs 16
- docker exec {{ container }} python train.py --bs 32
- docker exec {{ container }} python train.py --bs 64
Four sub-nodes and four jobs. So all jobs will start executing at the same time.
If you can parametrize nodes, why not commands?
# queue.yaml
- command:
- docker exec {{ container }} python train.py --bs {{ bs }}
bs: [8, 16, 32, 64]
This results in the exact same jobs with the example above.
When parametrizing commands, just make sure you specify the command
key.
How many commands will execute in Queue mode?
# hosts.yaml
- hostname:
- node-1
- node-2
laziness:
- 1
- hostname:
- node-3
laziness:
- 2
# queue.yaml
- echo hi from {{ hostname }}
- command:
- for i in $(seq {{ low }} {{ high }}); do echo $i; sleep {{ laziness }}; done
- echo bye from {{ hostname }}
low:
- 1
- 2
high:
- 3
- 4
Note that although echo bye from {{ hostname }}
doesn't really use the low
or high
parameters, it will run 2 * 2 = 4
times regardless.
The answer is 1 + 2 * 2 * 2
.
queue.yaml
is actually the queue.
Pegasus removes the first entry in queue.yaml
whenver there's a free host available.
If you delete entries before Pegasus pulls it, they will not execute.
If you add entreis to queue.yaml
, they will execute.
Think about when the number of remaining commands is less than the number of free nodes. Without a way to submit more jobs to Pegasus, those free nodes will stay idle until all the commands finish and you start a fresh new instance of Pegasus.
By providing a way to add to the queue while commands are still running, users may achieve higher node utilization. Being able to delete from the queue is just a byproduct; adding to the queue is the key feature.
queue.yaml
.Lock mode will lock queue.yaml
and launch a command line editor for you.
$ pegasus l --editor nvim # l stands for Lock
Editor priority is --editor
> $EDITOR
> vim
.
When you save and exit, the queue lock is released and Pegasus is allowed access to queue.yaml
.
queue.yaml
?Enable daemon mode, and Pegasus will not terminate even if queue.yaml
is empty. It will stand waiting for you to populate queue.yaml
again, and execute them.
$ pegasus q --daemon
Handlebars is a templating engine, and Pegasus uses Handlebars to fill in parameters into hostname
s and command
s.
Look at this example to see how this can be useful:
# queue.yaml
- command:
- python main.py --model-path {{ model }} --output-path {{ replace model "/" "--" }}.json
- model:
- facebook/opt-13b
- facebook/opt-30b
- facebook/opt-66b
The commands above expand to:
# queue.yaml
- python main.py --model-path facebook/opt-13b --output-path facebook--opt-13b.json
- python main.py --model-path facebook/opt-30b --output-path facebook--opt-30b.json
- python main.py --model-path facebook/opt-66b --output-path facebook--opt-66b.json
Here, facebook/opt-13b
is the name of the model in one chunk (and you need it to have the /
so that Hugging Face understands it), but if you just tell your script to output results in facebook/opt-13b.json
, it'll create a directory called facebook
and save opt-13b.json
inside it. That's not good.
Instead, we just used the replace
helper from the String transformation section of handlebars_misc_helpers
to pretty much run model.replace("/", "--")
.
sh -c
to run commandsThe commands you put in queue.yaml
are wrapped individually inside sh -c
and executed via SSH.
In your hosts, sh
may be symlinked to bash
, dash
, or something else, and certain syntax may or may not be allowed (e.g., double brackets).
queue.yaml
This is the queue file. Entries in queue.yaml
are consumed from the top, one by one. Also, entries are consumed only when a new host is available to execute new commands. Consumed entries are immediately appended to consumed.yaml
in "canonical form", where every entry has a command
key. Thus, you might do something like tail -n 2 consumed.yaml > queue.yaml
to re-execute your previous single-line command.
As mentioned earlier, always use the Lock Mode when you need to modify queue.yaml
.
In broadcast mode, hosts are kept in sync with each other. That is, the next command is fetched from queue.yaml
and executed on all hosts when all the hosts are done executing the previous command.
Consider the following situation:
fast-host slow-host
- command1 success success
- command2 success fail!
- command3 success
- command4 running
In this case, we would want to prepend a undo command for command2
(e.g., rm -rf repo || true
) and restart from that, but fast-host
is already far ahead, making things complicated. Thus, especially when you're terraforming nodes with Pegasus, keeping hosts in sync should be beneficial.
There is also a -e
or --error-aborts
flag in Broadcast Mode, which aborts Pegasus automatically when a host fails on a command.
It is very difficult to find a generic way to cancel commands that started running via SSH (See #11). Therefore, the caveat of Pegasus at the moment is that it works very well when things go well, but it's difficult to cancel and kill when things go not quite as planned. You need to walk into every node and manually kill commands. That said, you can still use Broadcast mode to automate that.