The issue is that
faketime uses the
LD_PRELOAD environment variable to instruct the program's dynamic loader to load
libfaketime at startup.
libfaketime will do what's called "interpositioning" - replacing normal dynamic library routines with its own copies of those routines - so that when future dynamic library calls are made,
libfaketime can influence what happens. In particular,
libfaketime interposes time-related calls, and thus it is able to return fake values to the program.
The reason that this works for most programs is that they use
libc to make syscalls.
libc provides high-level functions for interacting with syscalls, making it easier to do systems programming. In most languages that use
libc, binaries are dynamically linked, meaning that
libc isn't actually included in the binary, but rather it is expected that a compiled version of
libc (called an "object file") will exist on the system when the binary is run, and the dynamic library can be loaded at that point. This dynamic loading is what makes
faketime possible by way of the
LD_PRELOAD directive, which changes the loader's behavior.
Go, however, differs in two ways. First, it is statically linked, and thus there is no loader that could ever pay attention to
LD_PRELOAD. Second, it doesn't use
libc, so even if it were dynamically linked, and the
LD_PRELOAD trick worked,
libc would never be called anyway, so it still wouldn't actually accomplish the intended goal of tricking the program into using fake time functions.