X-Git-Url: http://wien.tomnetworks.com/gitweb/?a=blobdiff_plain;f=2_isa%2Fsrc%2Fbootrom.s;h=bfc81890abd408ba06dc782e3e5249a2b978ad45;hb=5615b8e50fe3adabbdf4da3078245c9e47700ffc;hp=9ae2570fffbf51c0695132d54337f670f8ec6e9c;hpb=c1c10bf1376b45d306f15f7b8f8aa91b0087a0be;p=calu.git diff --git a/2_isa/src/bootrom.s b/2_isa/src/bootrom.s index 9ae2570..bfc8189 100644 --- a/2_isa/src/bootrom.s +++ b/2_isa/src/bootrom.s @@ -1,171 +1,190 @@ +;* bootROM, a very small bootloader for $NAME +;* +;* protocol details: +;* abbrv: H = Host, CPU = C +;* +;* value/cmd | direction | comment +;* ------------------------------------------------------------ +;* 'H' | H -> C | enter bootROM ("HI") +;* 'O' | C -> H | ack bootROM entry ("OH HAI") +;* +;* 'W'0xZZZZZZZZ0xYYYYYYYY| H -> C | write instr (0xYY...Y) to +;* | address (0xZZ...Z) +;* 'D' | C -> H | instr write done +;* +;* 'R'0xZZZZZZZZ | H -> C | read instr from address (0xZZ..Z) +;* 'F'0xYYYYYYYY | C -> H | instr read done and return instr +;* +;* 'Q'0xZZZZZZZZ0xYYYYYYYY| H -> C | write data (0xYY...Y) to +;* | address (0xZZ...Z) +;* 'A' | C -> H | data write done +;* +;* 'T'0xZZZZZZZZ | H -> C | read data from address (0xZZ..Z) +;* 'G'0xYYYYYYYY | C -> H | read done and return data +;* +;* 'J'0xZZZZZZZZ | H -> C | jump to address (0xZZ...Z) +;*/ .data .text - ; r0 .. param0 - ; r1 .. param1 - ; r2 .. param2 - ; r15 .. stackpointer - ; r0 .. return - - ; TODO: will the assembler be able to evaluate these expressions? - UART_BASE=0x1000 - UART_STATUS=(UART_BASE+0x4) - UART_RECV=(UART_BASE+0x8) - UART_TRANS=(UART_BASE+0xC) - UART_BAUD=(UART_BAUD+0x10) - - UART_TRANS_EMPTY=0 - UART_RECV_NEW=1 + .define UART_BASE, 0x2000 + .define UART_STATUS, 0x0 + .define UART_RECV, 0xc + .define UART_TRANS, 0x8 + + .define UART_TRANS_EMPTY, 0x1 + .define UART_RECV_NEW, 0x2 + + .define PBASE, 0x2030 + .define PADDR, 0x4 + .define PDATA, 0x8 + +;----- +start: + br+ main + br+ main + ret + +main: + ldi r10, UART_BASE@lo + ldih r10, UART_BASE@hi + ldi r11, PBASE@lo + ldih r11, PBASE@hi +poll: + call recv_byte + ; we received the enter bootrom sign + xor r1, r1, r1 + cmpi r0, 0x48 ; 'H' + breq+ bt_H + br poll ; else +;----- send_byte: - ldil r3, UART_STATUS@lo - ldih r3, UART_STATUS@hi - andi r3, r3, 1 << UART_TRANS_EMPTY - jumpzs+ send_byte ; jump if zero - ldil r3, UART_TRANS@lo - ldih r3, UART_TRANS@hi - stb r0, 0(r3) + ldw r3, UART_STATUS(r10) + andx r3, UART_TRANS_EMPTY + brnz+ send_byte ; branch if not zero + stw r1, UART_TRANS(r10) ret +;----- send_word: - ; TODO: loop? (less codesize...) - branch send_byte - lrs r0, r0, 8 - branch send_byte - lrs r0, r0, 8 - branch send_byte - lrs r0, r0, 8 - branch send_byte + lrs r0, r1, 0 + call send_byte + lrs r0, r1, 8 + call send_byte + lrs r0, r1, 16 + call send_byte + lrs r0, r1, 24 + call send_byte ret +;----- recv_byte: - ldil r3, UART_STATUS@lo - ldih r3, UART_STATUS@hi - andi r3, r3, 1 << UART_RECV_NEW - jumpzs+ send_byte ; jump if zero - ldil r3, UART_RECV@lo - ldih r3, UART_RECV@hi - lwb r0, 0(r3) + ldw r3, UART_STATUS(r10) + andx r3, UART_RECV_NEW + brzs+ recv_byte; branch if zero + xor r0, r0, r0 + ldw r0, UART_RECV(r10) ret +;----- recv_word: - ldil r1, 0x0 - branch recv_byte - or r1, r1, r0 + xor r1, r1, r1 + call recv_byte + or r1, r0, r1 - branch recv_byte - sll r0, r0, 8 - or r1, r1, r0 + call recv_byte + lls r1, r1, 8 + or r1, r0, r1 - branch recv_byte - sll r0, r0, 16 - or r1, r1, r0 + call recv_byte + lls r1, r1, 8 + or r1, r0, r1 - branch recv_byte - sll r0, r0, 24 - or r1, r1, r0 + call recv_byte + lls r1, r1, 8 + or r0, r0, r1 + xor r1, r1, r1 - addi r0, r1, 0x0 ret - +;----- bootrom: - branch recv_byte + call recv_byte + xor r1, r1, r1 cmpi r0, 0x57 ; 'W' - jumpeq- bt_W + breq- bt_W - cmpi r0, 0x52 ; 'R' - jumpeq- bt_R + ;cmpi r0, 0x52 ; 'R' + ;breq- bt_R cmpi r0, 0x51 ; 'Q' - jumpeq- bt_Q + breq- bt_Q cmpi r0, 0x54 ; 'T' - jumpeq- bt_T + breq- bt_T cmpi r0, 0x4a ; 'J' - jumpeq- bt_J + breq- bt_J ; cmpi r0, 0x48 ; 'H' - ; jumpeq bt_H + ; breq bt_H ; FALL THROUGH ;) bt_H: - ldisl r0, 0x4f ; 'O' - branch send_byte - jump bootrom + ldi r1, 0x4f ; 'O' + call send_byte + br bootrom bt_W: - branch recv_word ; receive addr - addi r6, r0, 0x0 - branch recv_word ; receive instr - stx r0, 0(r6) - ldisl r0, 0x44 ; 'D' - branch send_byte - jump bootrom - -bt_R: - branch recv_word ; receive addr - ldx r1, 0(r0) - ldisl r0, 0x46 ; 'F' - branch send_byte - addi r0, r1, 0x0 - branch send_word - jump bootrom + ldi r1, 0x57 ; 'W' + call send_byte + call recv_word ; receive addr + stw r0, PADDR(r11) + call recv_word ; receive instr + stw r0, PDATA(r11) + ldi r1, 0x44 ; 'D' + call send_byte + br bootrom + +;bt_R: ;lesen von IRAM wird nicht unterstuetzt + ;call recv_word ; receive addr + ;mov r2, r0 + ;ldi r1, 0x46 ; 'F' + ;call send_byte + ;ldx r1, 0(r2) + ;call send_word + ;br bootrom bt_Q: - branch recv_word ; receive addr - addi r6, r0, 0x0 - branch recv_word ; receive data + ldi r1, 0x51 ; 'Q' + call send_byte + call recv_word ; receive addr + addi r6, r0, 0 + call recv_word ; receive data stw r0, 0(r6) - ldisl r0, 0x41 ; 'A' - branch send_byte - jump bootrom + ldi r1, 0x41 ; 'A' + call send_byte + br bootrom bt_T: - branch recv_word ; receive addr - ldw r1, 0(r0) - ldisl r0, 0x47 ; 'G' - branch send_byte - addi r0, r1, 0x0 - branch send_word - jump bootrom + call recv_word ; receive addr + mov r2, r0 + ldi r1, 0x47 ; 'G' + call send_byte + ldw r1, 0(r2) + call send_word + br bootrom bt_J: - branch recv_word - jumpreg r0 - - - TIMEOUT_START=0x13371337 - DEFAULT_PROG_START=0x200 - STACKSTART=0x500 ; FIXME -main: - ; setup stackframe - ldil r15, STACKSTART@lo - ldih r15, STACKSTART@hi - - ldil r3, TIMEOUT_START@lo - ldih r3, TIMEOUT_START@hi - -timeout_loop: - ldil r3, UART_STATUS@lo - ldih r3, UART_STATUS@hi - andi r3, r3, 1 << UART_RECV_NEW - jumpzs+ next; jump if zero - - branch recv_byte - ; we received the enter bootrom sign - cmp r0, 0x48 ; 'H' - jumpeq- bt_H - -next: - subi r3, r3, 1 - jumpnz+ timeout_loop - - ; branch to default entry point - ldil r0, DEFAULT_PROG_START@lo - ldih r0, DEFAULT_PROG_START@hi - jumpreg r0 - -; 99 instr. please update after modification +tehend: + xor r1, r1, r1 + ldi r1, 0x41 ; 'A' + call send_byte + xor r1, r1, r1 + ldi r1, 0x42 ; 'B' + call send_byte + xor r1, r1, r1 + ldi r1, 0x43 ; 'C' + call send_byte