Mercurial > repos > blastem
view nor.c @ 1925:039553703c20
Don't apply address and cd register changes to the 'live' registers until pending flag is cleared, but do preserve the upper address bits in the latch. Fixes regression in Overdrive 2 while preserving fix to Mona in 344 bytes
| author | Michael Pavone <pavone@retrodev.com> |
|---|---|
| date | Mon, 13 Apr 2020 20:43:25 -0700 |
| parents | 1f745318f10a |
| children |
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#include "genesis.h" #include <stdlib.h> #include <string.h> #include "util.h" enum { NOR_NORMAL, NOR_PRODUCTID, NOR_BOOTBLOCK }; enum { NOR_CMD_IDLE, NOR_CMD_AA, NOR_CMD_55 }; //Technically this value shoudl be slightly different between NTSC and PAL //as it's defined as 200 micro-seconds, not in clock cycles #define NOR_WRITE_PAUSE 10690 void nor_flash_init(nor_state *state, uint8_t *buffer, uint32_t size, uint32_t page_size, uint16_t product_id, uint8_t bus_flags) { state->buffer = buffer; state->page_buffer = malloc(page_size); memset(state->page_buffer, 0xFF, page_size); state->size = size; state->page_size = page_size; state->product_id = product_id; state->last_write_cycle = 0xFFFFFFFF; state->mode = NOR_NORMAL; state->cmd_state = NOR_CMD_IDLE; state->alt_cmd = 0; state->bus_flags = bus_flags; state->cmd_address1 = 0x5555; state->cmd_address2 = 0x2AAA; } void nor_run(nor_state *state, m68k_context *m68k, uint32_t cycle) { if (state->last_write_cycle == 0xFFFFFFFF) { return; } if (cycle - state->last_write_cycle >= NOR_WRITE_PAUSE) { state->last_write_cycle = 0xFFFFFFFF; for (uint32_t i = 0; i < state->page_size; i++) { state->buffer[state->current_page + i] = state->page_buffer[i]; } memset(state->page_buffer, 0xFF, state->page_size); if (state->bus_flags == RAM_FLAG_BOTH) { //TODO: add base address of NOR device to start and end addresses m68k_invalidate_code_range(m68k, state->current_page, state->current_page + state->page_size); } } } uint8_t nor_flash_read_b(uint32_t address, void *vcontext) { m68k_context *m68k = vcontext; genesis_context *gen = m68k->system; nor_state *state = &gen->nor; if ( ((address & 1) && state->bus_flags == RAM_FLAG_EVEN) || (!(address & 1) && state->bus_flags == RAM_FLAG_ODD) ) { return 0xFF; } if (state->bus_flags != RAM_FLAG_BOTH) { address = address >> 1; } nor_run(state, m68k, m68k->current_cycle); switch (state->mode) { case NOR_NORMAL: if (state->bus_flags == RAM_FLAG_BOTH) { address ^= 1; } return state->buffer[address & (state->size-1)]; break; case NOR_PRODUCTID: switch (address & (state->size - 1)) { case 0: return state->product_id >> 8; case 1: return state->product_id; case 2: //TODO: Implement boot block protection return 0xFE; default: return 0xFE; } //HERE break; case NOR_BOOTBLOCK: break; } return 0xFF; } uint16_t nor_flash_read_w(uint32_t address, void *context) { uint16_t value = nor_flash_read_b(address, context) << 8; value |= nor_flash_read_b(address+1, context); return value; } void nor_write_byte(nor_state *state, uint32_t address, uint8_t value, uint32_t cycle) { switch(state->mode) { case NOR_NORMAL: if (state->last_write_cycle != 0xFFFFFFFF) { state->current_page = address & (state->size - 1) & ~(state->page_size - 1); } if (state->bus_flags == RAM_FLAG_BOTH) { address ^= 1; } state->page_buffer[address & (state->page_size - 1)] = value; break; case NOR_PRODUCTID: break; case NOR_BOOTBLOCK: //TODO: Implement boot block protection state->mode = NOR_NORMAL; break; } } void *nor_flash_write_b(uint32_t address, void *vcontext, uint8_t value) { m68k_context *m68k = vcontext; genesis_context *gen = m68k->system; nor_state *state = &gen->nor; if ( ((address & 1) && state->bus_flags == RAM_FLAG_EVEN) || (!(address & 1) && state->bus_flags == RAM_FLAG_ODD) ) { return vcontext; } if (state->bus_flags != RAM_FLAG_BOTH) { address = address >> 1; } nor_run(state, m68k, m68k->current_cycle); switch (state->cmd_state) { case NOR_CMD_IDLE: if (value == 0xAA && (address & (state->size - 1)) == state->cmd_address1) { state->cmd_state = NOR_CMD_AA; } else { nor_write_byte(state, address, value, m68k->current_cycle); state->cmd_state = NOR_CMD_IDLE; } break; case NOR_CMD_AA: if (value == 0x55 && (address & (state->size - 1)) == state->cmd_address2) { state->cmd_state = NOR_CMD_55; } else { nor_write_byte(state, state->cmd_address1, 0xAA, m68k->current_cycle); nor_write_byte(state, address, value, m68k->current_cycle); state->cmd_state = NOR_CMD_IDLE; } break; case NOR_CMD_55: if ((address & (state->size - 1)) == state->cmd_address1) { if (state->alt_cmd) { switch(value) { case 0x10: puts("UNIMPLEMENTED: NOR flash erase"); break; case 0x20: puts("UNIMPLEMENTED: NOR flash disable protection"); break; case 0x40: state->mode = NOR_BOOTBLOCK; break; case 0x60: state->mode = NOR_PRODUCTID; break; } } else { switch(value) { case 0x80: state->alt_cmd = 1; break; case 0x90: state->mode = NOR_PRODUCTID; break; case 0xA0: puts("UNIMPLEMENTED: NOR flash enable protection"); break; case 0xF0: state->mode = NOR_NORMAL; break; default: printf("Unrecognized unshifted NOR flash command %X\n", value); } } } else { nor_write_byte(state, state->cmd_address1, 0xAA, m68k->current_cycle); nor_write_byte(state, state->cmd_address2, 0x55, m68k->current_cycle); nor_write_byte(state, address, value, m68k->current_cycle); } state->cmd_state = NOR_CMD_IDLE; break; } return vcontext; } void *nor_flash_write_w(uint32_t address, void *vcontext, uint16_t value) { nor_flash_write_b(address, vcontext, value >> 8); return nor_flash_write_b(address + 1, vcontext, value); }