It seems to me that you are needlessly subtracting 4 from the effective address of your output loop. Perhaps you were thinking that the brackets are used for multiplication. This is not the case; that type of addressing is not supported by IA-32. In your code, you put...
put_ch dword ptr [ebx-4][edx]
In the first instruction of the first iteration of the loop, as the effective address for the *put_ch* macro results in -4, relative to the top of the stack frame (EBX). This number, representing an address on the stack, will be passed to the macro to successfully print the ASCII code. However, because of the dec edx instruction, the second iteration will fail, as the program will then call *put_ch* with an argument of -5. Since the dword of this address will, almost without a doubt, contain 0, *put_ch* will register it as a NULL character, signaling the end of the string.
put_ch dword ptr [ebx][edx*4]
Here, EDX is decremented first and is used in the macro as an index to be multiplied by four. Thus, the first address passed to *put_ch* would be -4. The second address passed would be -8. Third would be -12, and so on...
Finally, I strongly suggest, when comparing the returned value of get_ch with 0dh (carriage return), for you to use AL (1 byte) rather than EAX (4 bytes) in case the upper 3 bytes of EAX contain arbitrary data.