mirror of https://github.com/bsnes-emu/bsnes.git
201 lines
5.9 KiB
C++
201 lines
5.9 KiB
C++
auto CPU::dma_transfer_valid(uint8 bbus, uint abus) -> bool {
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//transfers from WRAM to WRAM are invalid; chip only has one address bus
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if(bbus == 0x80 && ((abus & 0xfe0000) == 0x7e0000 || (abus & 0x40e000) == 0x0000)) return false;
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return true;
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}
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auto CPU::dma_addr_valid(uint abus) -> bool {
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//A-bus access to B-bus or S-CPU registers are invalid
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if((abus & 0x40ff00) == 0x2100) return false; //$[00-3f|80-bf]:[2100-21ff]
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if((abus & 0x40fe00) == 0x4000) return false; //$[00-3f|80-bf]:[4000-41ff]
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if((abus & 0x40ffe0) == 0x4200) return false; //$[00-3f|80-bf]:[4200-421f]
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if((abus & 0x40ff80) == 0x4300) return false; //$[00-3f|80-bf]:[4300-437f]
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return true;
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}
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auto CPU::dma_read(uint abus) -> uint8 {
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if(dma_addr_valid(abus) == false) return 0x00;
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return bus.read(abus);
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}
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auto CPU::dma_write(bool valid, uint addr, uint8 data) -> void {
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if(valid) bus.write(addr, data);
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}
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auto CPU::dma_transfer(bool direction, uint8 bbus, uint abus) -> void {
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if(direction == 0) {
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uint8 data = dma_read(abus);
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add_clocks(8);
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dma_write(dma_transfer_valid(bbus, abus), 0x2100 | bbus, data);
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} else {
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uint8 data = dma_transfer_valid(bbus, abus) ? bus.read(0x2100 | bbus) : 0x00;
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add_clocks(8);
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dma_write(dma_addr_valid(abus), abus, data);
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}
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}
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auto CPU::dma_bbus(uint i, uint index) -> uint8 {
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switch(channel[i].transfer_mode) { default:
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case 0: return (channel[i].dest_addr); //0
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case 1: return (channel[i].dest_addr + (index & 1)); //0,1
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case 2: return (channel[i].dest_addr); //0,0
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case 3: return (channel[i].dest_addr + ((index >> 1) & 1)); //0,0,1,1
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case 4: return (channel[i].dest_addr + (index & 3)); //0,1,2,3
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case 5: return (channel[i].dest_addr + (index & 1)); //0,1,0,1
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case 6: return (channel[i].dest_addr); //0,0 [2]
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case 7: return (channel[i].dest_addr + ((index >> 1) & 1)); //0,0,1,1 [3]
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}
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}
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auto CPU::dma_addr(uint i) -> uint {
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uint result = (channel[i].source_bank << 16) | (channel[i].source_addr);
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if(channel[i].fixed_transfer == false) {
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if(channel[i].reverse_transfer == false) {
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channel[i].source_addr++;
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} else {
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channel[i].source_addr--;
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}
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}
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return result;
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}
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auto CPU::hdma_addr(uint i) -> uint {
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return (channel[i].source_bank << 16) | (channel[i].hdma_addr++);
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}
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auto CPU::hdma_iaddr(uint i) -> uint {
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return (channel[i].indirect_bank << 16) | (channel[i].indirect_addr++);
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}
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auto CPU::dma_run() -> void {
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add_clocks(16);
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for(uint i = 0; i < 8; i++) {
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if(channel[i].dma_enabled == false) continue;
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add_clocks(8);
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uint index = 0;
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do {
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dma_transfer(channel[i].direction, dma_bbus(i, index++), dma_addr(i));
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} while(channel[i].dma_enabled && --channel[i].transfer_size);
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channel[i].dma_enabled = false;
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}
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status.irq_lock = true;
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}
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auto CPU::hdma_active_after(uint i) -> bool {
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for(uint n = i + 1; i < 8; i++) {
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if(channel[i].hdma_enabled && !channel[i].hdma_completed) return true;
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}
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return false;
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}
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auto CPU::hdma_update(uint i) -> void {
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if((channel[i].line_counter & 0x7f) == 0) {
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channel[i].line_counter = dma_read(hdma_addr(i));
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channel[i].hdma_completed = (channel[i].line_counter == 0);
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channel[i].hdma_do_transfer = !channel[i].hdma_completed;
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add_clocks(8);
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if(channel[i].indirect) {
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channel[i].indirect_addr = dma_read(hdma_addr(i)) << 8;
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add_clocks(8);
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//emulating this glitch causes a slight slowdown; only enable if needed
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//if(!channel[i].hdma_completed || hdma_active_after(i)) {
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channel[i].indirect_addr >>= 8;
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channel[i].indirect_addr |= dma_read(hdma_addr(i)) << 8;
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add_clocks(8);
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//}
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}
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}
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}
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auto CPU::hdma_run() -> void {
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uint channels = 0;
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for(uint i = 0; i < 8; i++) {
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if(channel[i].hdma_enabled) channels++;
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}
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if(channels == 0) return;
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add_clocks(16);
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for(uint i = 0; i < 8; i++) {
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if(channel[i].hdma_enabled == false || channel[i].hdma_completed == true) continue;
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channel[i].dma_enabled = false;
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if(channel[i].hdma_do_transfer) {
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static const uint transfer_length[] = {1, 2, 2, 4, 4, 4, 2, 4};
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uint length = transfer_length[channel[i].transfer_mode];
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for(uint index = 0; index < length; index++) {
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uint addr = channel[i].indirect == false ? hdma_addr(i) : hdma_iaddr(i);
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dma_transfer(channel[i].direction, dma_bbus(i, index), addr);
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}
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}
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}
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for(uint i = 0; i < 8; i++) {
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if(channel[i].hdma_enabled == false || channel[i].hdma_completed == true) continue;
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channel[i].line_counter--;
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channel[i].hdma_do_transfer = channel[i].line_counter & 0x80;
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hdma_update(i);
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}
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status.irq_lock = true;
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}
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auto CPU::hdma_init() -> void {
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uint channels = 0;
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for(unsigned i = 0; i < 8; i++) {
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channel[i].hdma_completed = false;
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channel[i].hdma_do_transfer = false;
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if(channel[i].hdma_enabled) channels++;
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}
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if(channels == 0) return;
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add_clocks(16);
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for(uint i = 0; i < 8; i++) {
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if(!channel[i].hdma_enabled) continue;
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channel[i].dma_enabled = false;
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channel[i].hdma_addr = channel[i].source_addr;
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channel[i].line_counter = 0;
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hdma_update(i);
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}
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status.irq_lock = true;
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}
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auto CPU::dma_reset() -> void {
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for(uint i = 0; i < 8; i++) {
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channel[i].dma_enabled = false;
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channel[i].hdma_enabled = false;
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channel[i].direction = 1;
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channel[i].indirect = true;
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channel[i].unused = true;
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channel[i].reverse_transfer = true;
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channel[i].fixed_transfer = true;
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channel[i].transfer_mode = 0x07;
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channel[i].dest_addr = 0xff;
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channel[i].source_addr = 0xffff;
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channel[i].source_bank = 0xff;
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channel[i].transfer_size = 0xffff;
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channel[i].indirect_addr = 0xffff;
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channel[i].indirect_bank = 0xff;
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channel[i].hdma_addr = 0xff;
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channel[i].line_counter = 0xff;
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channel[i].unknown = 0xff;
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channel[i].hdma_completed = false;
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channel[i].hdma_do_transfer = false;
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}
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}
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