# Map 128MB of Fast RAM at 0x8000000.
map type=ram address=0x08000000 size=128M id=cpu_slot_ram
-# 128MB of Z3 Fast at the first proper address
+# Map 128MB of Z3 Fast. Note that the address here is not actually used, as it gets auto-assigned by Kickstart itself.
+# Enabling Z3 fast requires a Kickstart that actually supports Zorro III, for instance from an A3000 or A4000.
#map type=ram address=0x10000000 size=128M id=z3_autoconf_fast
# Max 8MB of Z2 Fast can be mapped due to addressing space limitations, but for instance 2+4MB can be chained to leave 2MB for something else.
-map type=ram address=0x200000 size=8M id=z2_autoconf_fast
+#map type=ram address=0x200000 size=8M id=z2_autoconf_fast
#map type=ram address=0x200000 size=2M id=z2_autoconf_fast
#map type=ram address=0x400000 size=4M id=z2_autoconf_fast
0xa, 0x3, 0x1, 0x4, 0x0, 0x0, 0x0, 0x0 // 18/.../26, serial
};
-int ac_current_pic = 0;
-int ac_pic_count = 0;
-int ac_done = 0;
-int ac_type[AC_PIC_LIMIT];
-int ac_index[AC_PIC_LIMIT];
+int ac_z2_current_pic = 0;
+int ac_z2_pic_count = 0;
+int ac_z2_done = 0;
+int ac_z2_type[AC_PIC_LIMIT];
+int ac_z2_index[AC_PIC_LIMIT];
unsigned int ac_base[AC_PIC_LIMIT];
+int ac_z3_current_pic = 0;
+int ac_z3_pic_count = 0;
+int ac_z3_done = 0;
+int ac_z3_type[AC_PIC_LIMIT];
+int ac_z3_index[AC_PIC_LIMIT];
+
+
unsigned char get_autoconf_size(int size) {
if (size == 8 * SIZE_MEGA)
return AC_MEM_SIZE_8MB;
return AC_MEM_SIZE_64KB;
}
+unsigned char get_autoconf_size_ext(int size) {
+ if (size == 16 * SIZE_MEGA)
+ return AC_MEM_SIZE_EXT_16MB;
+ if (size == 32 * SIZE_MEGA)
+ return AC_MEM_SIZE_EXT_32MB;
+ if (size == 64 * SIZE_MEGA)
+ return AC_MEM_SIZE_EXT_64MB;
+ if (size == 128 * SIZE_MEGA)
+ return AC_MEM_SIZE_EXT_128MB;
+ if (size == 256 * SIZE_MEGA)
+ return AC_MEM_SIZE_EXT_256MB;
+ if (size == 512 * SIZE_MEGA)
+ return AC_MEM_SIZE_EXT_512MB;
+ if (size == 1024 * SIZE_MEGA)
+ return AC_MEM_SIZE_EXT_1024MB;
+ else
+ return AC_MEM_SIZE_EXT_64MB;
+}
+
+unsigned int autoconfig_read_memory_z3_8(struct emulator_config *cfg, unsigned int address_) {
+ int address = address_ - AC_Z3_BASE;
+ int index = ac_z3_index[ac_z3_current_pic];
+ unsigned char val = 0;
+
+ if ((address & 0xFF) >= AC_Z3_REG_RES50 && (address & 0xFF) <= AC_Z3_REG_RES7C)
+ val = 0;
+ else {
+ switch(address & 0xFF) {
+ case AC_Z3_REG_ER_TYPE:
+ val |= BOARDTYPE_Z3;
+ if (cfg->map_type[index] == MAPTYPE_RAM)
+ val |= BOARDTYPE_FREEMEM;
+ if (cfg->map_size[index] > 8 * SIZE_MEGA)
+ val |= get_autoconf_size_ext(cfg->map_size[index]);
+ else
+ val |= get_autoconf_size(cfg->map_size[index]);
+ // Pre-invert this value, since it's the only value not physically complemented
+ // for Zorro III.
+ val ^= 0xFF;
+ break;
+ case AC_Z3_REG_ER_PRODUCT:
+ // 1.1... maybe...
+ val = 0x11;
+ break;
+ case AC_Z3_REG_ER_FLAGS:
+ if (cfg->map_type[index] == MAPTYPE_RAM)
+ val |= Z3_FLAGS_MEMORY;
+ if (cfg->map_size[index] > 8 * SIZE_MEGA)
+ val |= Z3_FLAGS_EXTENSION;
+ val |= Z3_FLAGS_RESERVED;
+ // Bottom four bits are zero, useless unles you want really odd RAM sizes.
+ break;
+ // Manufacturer ID low/high bytes.
+ case AC_Z3_REG_MAN_LO:
+ val = PISTORM_MANUF_ID & 0x00FF;
+ break;
+ case AC_Z3_REG_MAN_HI:
+ val = (PISTORM_MANUF_ID >> 8);
+ break;
+ case AC_Z3_REG_SER_BYTE0:
+ case AC_Z3_REG_SER_BYTE1:
+ case AC_Z3_REG_SER_BYTE2:
+ case AC_Z3_REG_SER_BYTE3:
+ // Expansion board serial assigned by manufacturer.
+ val = 0;
+ break;
+ case AC_Z3_REG_INIT_DIAG_VEC_LO:
+ case AC_Z3_REG_INIT_DIAG_VEC_HI:
+ // 16-bit offset to boot ROM in assigned memory range.
+ val = 0;
+ break;
+ // Additional reserved/unused registers.
+ case AC_Z3_REG_ER_RES03:
+ case AC_Z3_REG_ER_RES0D:
+ case AC_Z3_REG_ER_RES0E:
+ case AC_Z3_REG_ER_RES0F:
+ case AC_Z3_REG_ER_Z2_INT:
+ default:
+ val = 0;
+ break;
+ }
+ }
+ //printf("Read byte %d from Z3 autoconf for PIC %d (%.2X).\n", address, ac_z3_current_pic, val);
+ return (address & 0x100) ? (val << 4) ^ 0xF0 : (val & 0xF0) ^ 0xF0;
+}
+
+int nib_latch = 0;
+
+void autoconfig_write_memory_z3_8(struct emulator_config *cfg, unsigned int address_, unsigned int value) {
+ int address = address_ - AC_Z3_BASE;
+ int index = ac_z3_index[ac_z3_current_pic];
+ unsigned char val = (unsigned char)value;
+ int done = 0;
+
+ switch(address & 0xFF) {
+ case AC_Z3_REG_WR_ADDR_LO:
+ if (nib_latch) {
+ ac_base[ac_z3_current_pic] = (ac_base[ac_z3_current_pic] & 0xFF0F0000) | ((val & 0xF0) << 16);
+ nib_latch = 0;
+ }
+ else
+ ac_base[ac_z3_current_pic] = (ac_base[ac_z3_current_pic] & 0xFF000000) | (val << 16);
+ break;
+ case AC_Z3_REG_WR_ADDR_HI:
+ if (nib_latch) {
+ ac_base[ac_z3_current_pic] = (ac_base[ac_z3_current_pic] & 0x0FFF0000) | ((val & 0xF0) << 24);
+ nib_latch = 0;
+ }
+ ac_base[ac_z3_current_pic] = (ac_base[ac_z3_current_pic] & 0x00FF0000) | (val << 24);
+ done = 1;
+ break;
+ case AC_Z3_REG_WR_ADDR_NIB_LO:
+ ac_base[ac_z3_current_pic] = (ac_base[ac_z3_current_pic] & 0xFFF00000) | ((val & 0xF0) << 12);
+ nib_latch = 1;
+ break;
+ case AC_Z3_REG_WR_ADDR_NIB_HI:
+ ac_base[ac_z3_current_pic] = (ac_base[ac_z3_current_pic] & 0xF0FF0000) | ((val & 0xF0) << 20);
+ nib_latch = 1;
+ break;
+ case AC_Z3_REG_SHUTUP:
+ done = 1;
+ break;
+ default:
+ break;
+ }
+
+ if (done) {
+ nib_latch = 0;
+ printf("Address of Z3 autoconf RAM assigned to $%.8x\n", ac_base[ac_z3_current_pic]);
+ cfg->map_offset[index] = ac_base[ac_z3_current_pic];
+ ac_z3_current_pic++;
+ if (ac_z3_current_pic == ac_z3_pic_count)
+ ac_z3_done = 1;
+ }
+
+ return;
+}
+
+void autoconfig_write_memory_z3_16(struct emulator_config *cfg, unsigned int address_, unsigned int value) {
+ int address = address_ - AC_Z3_BASE;
+ int index = ac_z3_index[ac_z3_current_pic];
+ unsigned short val = (unsigned short)value;
+ int done = 0;
+ //if (index || done || address || cfg || val || value) {}
+
+ switch(address & 0xFF) {
+ case AC_Z3_REG_WR_ADDR_HI:
+ // This is, as far as I know, the only regiter it should write a 16-bit value to.
+ ac_base[ac_z3_current_pic] = (ac_base[ac_z3_current_pic] & 0x00000000) | (val << 16);
+ done = 1;
+ break;
+ default:
+ printf("Unknown WORD write to Z3 autoconf address $%.2X", address & 0xFF);
+ //stop_cpu_emulation();
+ break;
+ }
+
+ if (done) {
+ printf("Address of Z3 autoconf RAM assigned to $%.8x\n", ac_base[ac_z3_current_pic]);
+ cfg->map_offset[index] = ac_base[ac_z3_current_pic];
+ ac_z3_current_pic++;
+ if (ac_z3_current_pic == ac_z3_pic_count)
+ ac_z3_done = 1;
+ }
+
+ return;
+}
+
unsigned int autoconfig_read_memory_8(struct emulator_config *cfg, unsigned int address_) {
unsigned char *rom = NULL;
- int address = address_ - AC_BASE;
+ int address = address_ - AC_Z2_BASE;
unsigned char val = 0;
- switch(ac_type[ac_current_pic]) {
+ switch(ac_z2_type[ac_z2_current_pic]) {
case ACTYPE_MAPFAST_Z2:
rom = ac_fast_ram_rom;
break;
if ((address & 1) == 0 && (address / 2) < (int)sizeof(ac_fast_ram_rom)) {
- if (ac_type[ac_current_pic] == ACTYPE_MAPFAST_Z2 && address / 2 == 1)
- val = get_autoconf_size(cfg->map_size[ac_index[ac_current_pic]]);
+ if (ac_z2_type[ac_z2_current_pic] == ACTYPE_MAPFAST_Z2 && address / 2 == 1)
+ val = get_autoconf_size(cfg->map_size[ac_z2_index[ac_z2_current_pic]]);
else
val = rom[address / 2];
- //printf("Read byte %d from autoconf for PIC %d (%.2X).\n", address/2, ac_current_pic, val);
+ //printf("Read byte %d from Z2 autoconf for PIC %d (%.2X).\n", address/2, ac_z2_current_pic, val);
}
val <<= 4;
if (address != 0 && address != 2 && address != 40 && address != 42)
}
void autoconfig_write_memory_8(struct emulator_config *cfg, unsigned int address_, unsigned int value) {
- int address = address_ - AC_BASE;
+ int address = address_ - AC_Z2_BASE;
int done = 0;
unsigned int *base = NULL;
- switch(ac_type[ac_current_pic]) {
+ switch(ac_z2_type[ac_z2_current_pic]) {
case ACTYPE_MAPFAST_Z2:
- base = &ac_base[ac_current_pic];
+ base = &ac_base[ac_z2_current_pic];
break;
case ACTYPE_A314:
//base = &a314_base;
}
if (!base) {
- printf("Failed to set up the base for autoconfig PIC %d.\n", ac_current_pic);
+ //printf("Failed to set up the base for autoconfig PIC %d.\n", ac_z2_current_pic);
done = 1;
}
else {
*base &= 0xff0fffff;
*base |= (value & 0xf0) << (20 - 4);
- if (ac_type[ac_current_pic] == ACTYPE_MAPFAST_Z2) { // fast ram
- //a314_set_mem_base_size(*base, cfg->map_size[ac_index[ac_current_pic]]);
+ if (ac_z2_type[ac_z2_current_pic] == ACTYPE_MAPFAST_Z2) { // fast ram
+ //a314_set_mem_base_size(*base, cfg->map_size[ac_index[ac_z2_current_pic]]);
}
done = 1;
} else if (address == 0x4c) { // shut up
}
if (done) {
- //printf("Address of Z2 autoconf RAM changed to %.8x\n", ac_base[ac_current_pic]);
- cfg->map_offset[ac_index[ac_current_pic]] = ac_base[ac_current_pic];
- ac_current_pic++;
- if (ac_current_pic == ac_pic_count)
- ac_done = 1;
+ printf("Address of Z2 autoconf RAM assigned to $%.8x\n", ac_base[ac_z2_current_pic]);
+ cfg->map_offset[ac_z2_index[ac_z2_current_pic]] = ac_base[ac_z2_current_pic];
+ ac_z2_current_pic++;
+ if (ac_z2_current_pic == ac_z2_pic_count)
+ ac_z2_done = 1;
}
}
-#define AC_BASE 0xE80000
+#define AC_Z2_BASE 0xE80000
+#define AC_Z3_BASE 0xFF000000
#define AC_SIZE (64 * 1024)
#define AC_PIC_LIMIT 8
#define AC_MEM_SIZE_2MB 6
#define AC_MEM_SIZE_4MB 7
+#define AC_MEM_SIZE_EXT_16MB 0
+#define AC_MEM_SIZE_EXT_32MB 1
+#define AC_MEM_SIZE_EXT_64MB 2
+#define AC_MEM_SIZE_EXT_128MB 3
+#define AC_MEM_SIZE_EXT_256MB 4
+#define AC_MEM_SIZE_EXT_512MB 5
+#define AC_MEM_SIZE_EXT_1024MB 6
+#define AC_MEM_SIZE_EXT_RES 7
+
enum autoconf_types {
ACTYPE_MAPFAST_Z2,
ACTYPE_MAPFAST_Z3,
ACTYPE_NUM,
};
+enum autoconfg_z3_regs {
+ AC_Z3_REG_ER_TYPE = 0x00,
+ AC_Z3_REG_ER_PRODUCT = 0x04,
+ AC_Z3_REG_ER_FLAGS = 0x08,
+ AC_Z3_REG_ER_RES03 = 0x0C,
+ AC_Z3_REG_MAN_HI = 0x10,
+ AC_Z3_REG_MAN_LO = 0x14,
+ AC_Z3_REG_SER_BYTE0 = 0x18,
+ AC_Z3_REG_SER_BYTE1 = 0x1C,
+ AC_Z3_REG_SER_BYTE2 = 0x20,
+ AC_Z3_REG_SER_BYTE3 = 0x24,
+ AC_Z3_REG_INIT_DIAG_VEC_HI = 0x28,
+ AC_Z3_REG_INIT_DIAG_VEC_LO = 0x2C,
+ AC_Z3_REG_ER_RES0C = 0x30,
+ AC_Z3_REG_ER_RES0D = 0x34,
+ AC_Z3_REG_ER_RES0E = 0x38,
+ AC_Z3_REG_ER_RES0F = 0x3C,
+ AC_Z3_REG_ER_Z2_INT = 0x40,
+ AC_Z3_REG_WR_ADDR_HI = 0x44,
+ AC_Z3_REG_WR_ADDR_NIB_HI = 0x46,
+ AC_Z3_REG_WR_ADDR_LO = 0x48,
+ AC_Z3_REG_WR_ADDR_NIB_LO = 0x4A,
+ AC_Z3_REG_SHUTUP = 0x4C,
+ AC_Z3_REG_RES50 = 0x50,
+ AC_Z3_REG_RES54 = 0x54,
+ AC_Z3_REG_RES58 = 0x58,
+ AC_Z3_REG_RES5C = 0x5C,
+ AC_Z3_REG_RES60 = 0x60,
+ AC_Z3_REG_RES64 = 0x64,
+ AC_Z3_REG_RES68 = 0x68,
+ AC_Z3_REG_RES6C = 0x6C,
+ AC_Z3_REG_RES70 = 0x70,
+ AC_Z3_REG_RES74 = 0x74,
+ AC_Z3_REG_RES78 = 0x78,
+ AC_Z3_REG_RES7C = 0x7C,
+};
+
+#define BOARDTYPE_Z3 0x80
+#define BOARDTYPE_Z2 (0x80|0x40)
+#define BOARDTYPE_FREEMEM 0x20
+#define BOARDTYPE_BOOTROM 0x10
+
+#define Z3_FLAGS_MEMORY 0x80
+#define Z3_FLAGS_NOSHUTUP 0x40
+#define Z3_FLAGS_EXTENSION 0x20
+#define Z3_FLAGS_RESERVED 0x10
+
+#define PISTORM_MANUF_ID 0xDEBE
+
unsigned int autoconfig_read_memory_8(struct emulator_config *cfg, unsigned int address);
void autoconfig_write_memory_8(struct emulator_config *cfg, unsigned int address, unsigned int value);
+
+unsigned int autoconfig_read_memory_z3_8(struct emulator_config *cfg, unsigned int address_);
+void autoconfig_write_memory_z3_8(struct emulator_config *cfg, unsigned int address_, unsigned int value);
+void autoconfig_write_memory_z3_16(struct emulator_config *cfg, unsigned int address_, unsigned int value);
int handle_register_read_amiga(unsigned int addr, unsigned char type, unsigned int *val);
int handle_register_write_amiga(unsigned int addr, unsigned int value, unsigned char type);
-extern int ac_done;
-extern int ac_pic_count;
-extern int ac_type[AC_PIC_LIMIT];
-extern int ac_index[AC_PIC_LIMIT];
+extern int ac_z2_done;
+extern int ac_z2_pic_count;
+extern int ac_z2_type[AC_PIC_LIMIT];
+extern int ac_z2_index[AC_PIC_LIMIT];
-const char *z2_autoconf_id = "z2_autoconf_fast";
-const char *z2_autoconf_zap_id = "^2_autoconf_fast";
+extern int ac_z3_pic_count;
+extern int ac_z3_done;
+extern int ac_z3_type[AC_PIC_LIMIT];
+extern int ac_z3_index[AC_PIC_LIMIT];
+
+char *z2_autoconf_id = "z2_autoconf_fast";
+char *z2_autoconf_zap_id = "^2_autoconf_fast";
+char *z3_autoconf_id = "z3_autoconf_fast";
+char *z3_autoconf_zap_id = "^3_autoconf_fast";
+
+extern const char *op_type_names[OP_TYPE_NUM];
int custom_read_amiga(struct emulator_config *cfg, unsigned int addr, unsigned int *val, unsigned char type) {
- if (!ac_done && addr >= AC_BASE && addr < AC_BASE + AC_SIZE) {
- if (ac_pic_count == 0) {
- ac_done = 1;
+ if (!ac_z2_done && addr >= AC_Z2_BASE && addr < AC_Z2_BASE + AC_SIZE) {
+ if (ac_z2_pic_count == 0) {
+ ac_z2_done = 1;
return -1;
}
if (type == OP_TYPE_BYTE) {
- //printf("Read from autoconf area.\n");
*val = autoconfig_read_memory_8(cfg, addr);
return 1;
}
}
+ if (!ac_z3_done && addr >= AC_Z3_BASE && addr < AC_Z3_BASE + AC_SIZE) {
+ if (ac_z3_pic_count == 0) {
+ ac_z3_done = 1;
+ return -1;
+ }
+
+ if (type == OP_TYPE_BYTE) {
+ *val = autoconfig_read_memory_z3_8(cfg, addr);
+ return 1;
+ }
+ else {
+ printf("Unexpected %s read from Z3 autoconf addr %.X\n", op_type_names[type], addr - AC_Z3_BASE);
+ //stop_emulation();
+ }
+ }
return -1;
}
int custom_write_amiga(struct emulator_config *cfg, unsigned int addr, unsigned int val, unsigned char type) {
- if (cfg || addr || val || type) {}
- if (!ac_done && addr >= AC_BASE && addr < AC_BASE + AC_SIZE) {
+ if (!ac_z2_done && addr >= AC_Z2_BASE && addr < AC_Z2_BASE + AC_SIZE) {
if (type == OP_TYPE_BYTE) {
- if (ac_pic_count == 0) {
- ac_done = 1;
+ if (ac_z2_pic_count == 0) {
+ ac_z2_done = 1;
return -1;
}
- //printf("Write to autoconf area.\n");
+ printf("Write to Z2 autoconf area.\n");
autoconfig_write_memory_8(cfg, addr, val);
return 1;
}
}
+ if (!ac_z3_done && addr >= AC_Z3_BASE && addr < AC_Z3_BASE + AC_SIZE) {
+ if (type == OP_TYPE_BYTE) {
+ if (ac_z3_pic_count == 0) {
+ ac_z3_done = 1;
+ return -1;
+ }
+
+ //printf("Write to autoconf area.\n");
+ autoconfig_write_memory_z3_8(cfg, addr, val);
+ return 1;
+ }
+ else if (type == OP_TYPE_WORD) {
+ autoconfig_write_memory_z3_16(cfg, addr, val);
+ return 1;
+ }
+ else {
+ printf("Unexpected %s write to Z3 autoconf addr %.X\n", op_type_names[type], addr - AC_Z3_BASE);
+ //stop_emulation();
+ }
+ }
+
return -1;
}
if (cfg) {}
printf("Performing setup for Amiga platform.\n");
// Look for Z2 autoconf Fast RAM by id
- int index = get_named_mapped_item(cfg, "z2_autoconf_fast");
+ int index = get_named_mapped_item(cfg, z2_autoconf_id);
more_z2_fast:;
if (index != -1) {
+ // "Zap" config items as they are processed.
cfg->map_id[index][0] = '^';
int resize_data = 0;
if (cfg->map_size[index] > 8 * SIZE_MEGA) {
cfg->map_data[index] = (unsigned char *)malloc(cfg->map_size[index]);
}
printf("%dMB of Z2 Fast RAM configured at $%lx\n", cfg->map_size[index] / SIZE_MEGA, cfg->map_offset[index]);
- ac_type[ac_pic_count] = ACTYPE_MAPFAST_Z2;
- ac_index[ac_pic_count] = index;
- ac_pic_count++;
- printf("AAAAHH!\n");
+ ac_z2_type[ac_z2_pic_count] = ACTYPE_MAPFAST_Z2;
+ ac_z2_index[ac_z2_pic_count] = index;
+ ac_z2_pic_count++;
}
else
printf("No Z2 Fast RAM configured.\n");
- index = get_named_mapped_item(cfg, "z2_autoconf_fast");
+
+ index = get_named_mapped_item(cfg, z2_autoconf_id);
if (index != -1)
goto more_z2_fast;
for (int i = 0; i < MAX_NUM_MAPPED_ITEMS; i ++) {
+ // Restore any "zapped" autoconf items so they can be reinitialized if needed.
if (cfg->map_id[i] && strcmp(cfg->map_id[i], z2_autoconf_zap_id) == 0) {
- cfg->map_id[i][0] = 'z';
+ cfg->map_id[i][0] = z2_autoconf_id[0];
+ }
+ }
+
+ index = get_named_mapped_item(cfg, z3_autoconf_id);
+ more_z3_fast:;
+ if (index != -1) {
+ cfg->map_id[index][0] = '^';
+ printf("%dMB of Z3 Fast RAM configured at $%lx\n", cfg->map_size[index] / SIZE_MEGA, cfg->map_offset[index]);
+ ac_z3_type[ac_z3_pic_count] = ACTYPE_MAPFAST_Z3;
+ ac_z3_index[ac_z3_pic_count] = index;
+ ac_z3_pic_count++;
+ }
+ else
+ printf("No Z3 Fast RAM configured.\n");
+ index = get_named_mapped_item(cfg, z3_autoconf_id);
+ if (index != -1)
+ goto more_z3_fast;
+ for (int i = 0; i < MAX_NUM_MAPPED_ITEMS; i ++) {
+ if (cfg->map_id[i] && strcmp(cfg->map_id[i], z3_autoconf_zap_id) == 0) {
+ cfg->map_id[i][0] = z3_autoconf_id[0];
}
}