The only information that Git stores from one revision to the next is the state (the names and contents) of the files at each revision. In revision A, this file had this content, and in revision B, this file had that other content. Git doesn't care how the files got from point A to point B, whether it was an edit, or a rename, or a conflict resolution, or an octopus merge.
This approach has the benefit of a conceptually simple repository format. This is important because your repository is your history, and history should be preserved in the simplest format possible.
One implication of this is that whenever Git needs to figure out what happened between revision A and B (for example), it needs to work out the details at the time you ask for it. Even for a simple diff, while some tools might be able to simply show the internally stored diff, Git compares the files in revision A and B and regenerates the diff when requested. For renames, Git notices that a new file just appeared, and looks for similar files in a previous revision to guess whether the file was renamed or not.
As the Git tools improve over time, more of how the history was formed can be reported, without it having to have been recorded at the time. For example, it is often claimed that Git can "track individual bits of code moving from one file to another". This is entirely due to the cleverness of the programs doing the history reporting, and not due to anything stored in the repository itself.