push --force is always kinda risky and here is an example of how it could produce some problems like loosing revisions remotely.
Suppose, there is some person Bob that has updated remote
master branch from
C. And there is another person Mike that doesn't fetch this update yet and
HEAD of his
master is still
push --force and suddenly roll back remote
mike@laptop $> git push --force origin Counting objects: 19, done. Delta compression using up to 8 threads. Compressing objects: 100% (12/12), done. Writing objects: 100% (12/12), 2.27 KiB, done. Total 12 (delta 8), reused 0 (delta 0) remote: => Syncing... [OK] To email@example.com:path/to/project.git C..B master -> master (forced update)
In other words, before Mike did that, remote master was like
A---B---C and he changed it to
As you can see,
C revision here is remote only - it exists on git-server and on the Bob's laptop, because he pushed it to the remote
master. It means that there is no such local ref
C on the Mike's laptop.
Question 1: how can Mike set remote
master back to
Mike has tried to solve that problem with
push --force again like the answer for similar question offers, but it doesn't work because there is no suck local ref:
mike@laptop $> git push --force origin C:master error: src refspec C does not match any. error: failed to push some refs to 'firstname.lastname@example.org:path/to/project.git'
Question 2: how can Mike fetch
C revision from the git server? And if he can't do that - why git designed like that? Is it about safety in some rare cases? What problems it exactly prevents?
fetch retrieves branches and tags only, but
C doesn't belong to any branch (which means that there is no any remote branch that
C is parent commit or
PS: let's assume that Mike has no ssh access to git server, it means that there is no way to call git from the server side.
PPS: Mike doesn't want Bob to know about that accident, so answer "Make Bob to push this commit again" is not what this question is about.