# CONVENTION: # return value for functions : in register A # arguments for functions : registers A, B, C, D # all registers are caller-saved, except SP which is preserved by function calls .text jal run_unit_tests li A msghello jal ser_out_msg push Z main_loop: # Process serial input jal check_input jz A end_process_input jal run_cmd end_process_input: # Process clock ticking pop D li B _clock lw B 0(B) add D D B push D jz B main_loop li A msgtick jal ser_out_msg j main_loop # PROCEDURE: run_cmd # ROLE: execute and clear command stored in cmdline # ARGUMENTS: none run_cmd: push RA li A prompt jal ser_out_msg li A cmdline jal ser_out_msg li A endl jal ser_out_msg li A error jal ser_out_msg li A cmdline_used sw Z 0(A) pop RA jr RA # PROCEDURE: ser_out_msg # ROLE: write null-terminated string to serial output # ARGUMENTS: address of string in register A ser_out_msg: li C _output ser_out_msg_loop: lb B 0(A) jz B ser_out_msg_ret sb B 0(C) incri A 1 j ser_out_msg_loop ser_out_msg_ret: jr RA # PROCEDURE: check_input # ROLE: check if an input byte is available. if it is, and is different from '\n' (10), add it to cmdline # ARGUMENTS: none # RETURN VALUE: 1 if read byte was '\n', 0 otherwise # WARNING: no buffer overflow check. check_input: li A _input lb A 0(A) jz A check_input_ret move B A sei A A '\n' jz A add_b_to_string move B Z add_b_to_string: push A li A cmdline li D cmdline_used lw C 0(D) add A A C sb B 0(A) incri C 1 sw C 0(D) pop A jz A check_input check_input_ret: jr RA # PROCEDURE: run_unit_tests # ROLE: check that CPU features work correctly ; displays message to serial output # ARGUMENTS: none run_unit_tests: push RA li A testbegin jal ser_out_msg move B Z unit_test_begin: li D testlist add D D B lw D 0(D) jz D unit_tests_done push B push D li A teststr add A A B lw A 0(A) jal ser_out_msg pop D jalr D li A testfail jz B unit_test_failed li A testok unit_test_failed: jal ser_out_msg pop B addi B B 2 j unit_test_begin unit_tests_done: pop RA jr RA unit_test_0: # Addition / substraction li B 1 li C 12 li D 44 add C C D sei A C 56 and B B A li C -7 li D 7 add C C D se A C Z and B B A li C 32767 li D 32767 add C C D li D 2 sub D Z D se A C D and B B A jr RA unit_test_1: # Unsigned multiplication li B 1 li C 12 li D 44 mulu C C D move D E sei A C 528 and B B A se A D Z and B B A li C 744 li D 1244 mulu C C D move D E sei A C 8032 and B B A sei A D 14 and B B A jr RA unit_test_2: # Unsigned division li B 1 li C 60 li D 5 divu C C D move D E sei A C 12 and B B A se A D Z and B B A li C 14129 li D 477 divu C C D move D E sei A C 31 and B B A sei A D 272 and B B A jr RA unit_test_3: # Signed multiplication/division li B 0 jr RA # READ-ONLY PROGRAM DATA # General strings msghello: ascii "\nHello, world!\n" msgtick: ascii " ..." prompt: ascii "\n$ " endl: ascii "\n" error: ascii "Sorry but I'm to stupid to understand that.\n" # For unit-tests testlist: word unit_test_0 unit_test_1 unit_test_2 unit_test_3 0; teststr: word test0 test1 test2 test3 0; testbegin: ascii "Runing CPU unit tests...\n" testok: ascii "OK\n" testfail: ascii "FAIL\n" test0: ascii "Addition/substraction..........." test1: ascii "Unsigned multiplication........." test2: ascii "Unsigned division..............." test3: ascii "Signed multiplication/division.." .data # Space where command-line is buffered from serial input cmdline: byte 256 # Number of bytes used in the command-line buffer cmdline_used: word 1