Regarding common code, the best practice it to use a packaging system. So if you use Java, then use maven, if you use Ruby then Gems, if python then pypi etc.
Ideally a packaging system adds little friction so you may have a (say, git) repository for a common lib (or several common-libs for different topics) and publish their artifacts through an artifact repository (e.g. private maven/gems/pypi). Then at the microservice you add dependency on the required libs.So code reuse is easy.
In some cases packaging systems do add some friction (maven for one) so one might prefer using a single git repo for everything and a multi-module project setup. That isn't as clean as the first approach but works as well and not too bad.
Other options are to use git submodule (less desired) or git subtree (better) in order to include the source code in a single "parent" repository.
Regarding schema - if you want to play by the book, then each microservice has its own database. They don't touch each other's data. This is a very modular approach which at first seems to add some friction to your process but eventually I think you'll thank me. It will allow fast iteration over your microservices, for example you might want to replace one database implementation with another database implementation for one specific service. Imagine doing this when all your services use the same database! Good luck with that... But if each single service uses it's own database the service abstracts the database correctly (e.g. it does not accept SQL queries as API calls for example ;-)) then changing mysql to Cassandra suddenly become feasible.
There are other upsides to having completely isolated databases, for example load and scaling, finding out bottlenecks, management etc.
So in short - common code (utilities, constants etc) - use a packaging system or some source code linkage such as git-tree
Database - you don't touch mine, I don't touch yours. That's the better way around this.