The first problem here is that you need to understand the sys_time sys call. There is a handy chart at http://syscalls.kernelgrok.com/ that tells you what the various sys calls require as input in registers.
sys_time is system call 13, so
However sys_time also requires a memory address to be passed in ebx, where it writes the actual time.
A quick way would be to allocate some space on the stack (we can push anything on the stack, the sys_time value will overwrite it, why not stick the value of eax onto it).
Then feed the stack pointer into ebx
mov ebx, esp
Now make the system call
Now we can pop the time off the stack (into e.g. eax)
Now eax contains the current unix time (i.e. number of seconds since Jan 01 1970.)
To avoid the trickyness of printing numbers directly to the unix console I will cheat and provide a complete example that compiles in nasm and links with the c library via gcc and uses printf
PrintNum db "%d",10,0 ;this is a c string so is null terminated
push edi ; stuff before this for glibc compatibility
mov eax, 13
mov ebx, esp
push eax ; push eax onto stack then the format string, then call printf to write eax to console, unwind stack pointer
pop edi ; stuff after this for glibc compatibility
nasm -f elf sys_time.asm
gcc sys-time.o -o sys-time
Though if you are on 64-bit linux you might have to do (and have the relevant multilib gcc and glibc). You can't compile this program as a native 64-bit executable because it uses push and pop and you can't push a 32 bit register onto a 64 bit stack.
nasm -f elf32 sys_time.asm
gcc -m32 sys-time.o -o sys-time
Then you should get
I've tested this on 32 bit and 64 bit linux and managed to get the above code compiled. Let me know if you have any problems.
To answer your question regarded nasm tutorials, I have been learning recently from "Assembly Language Step By Step, Third Edition" by Jeff Duntemann. See http://www.duntemann.com/assembly.html for details and sample chapters.