| 1 | /*\r |
| 2 | * rarely used EEPROM code\r |
| 3 | * (C) notaz, 2007-2009\r |
| 4 | *\r |
| 5 | * This work is licensed under the terms of MAME license.\r |
| 6 | * See COPYING file in the top-level directory.\r |
| 7 | *\r |
| 8 | * (see Genesis Plus for Wii/GC code and docs for info,\r |
| 9 | * full game list and better code).\r |
| 10 | */\r |
| 11 | \r |
| 12 | #include "pico_int.h"\r |
| 13 | \r |
| 14 | static unsigned int last_write = 0xffff0000;\r |
| 15 | \r |
| 16 | // eeprom_status: LA.. s.la (L=pending SCL, A=pending SDA,\r |
| 17 | // s=started, l=old SCL, a=old SDA)\r |
| 18 | static void EEPROM_write_do(unsigned int d) // ???? ??la (l=SCL, a=SDA)\r |
| 19 | {\r |
| 20 | unsigned int sreg = Pico.m.eeprom_status, saddr = Pico.m.eeprom_addr;\r |
| 21 | unsigned int scyc = Pico.m.eeprom_cycle, ssa = Pico.m.eeprom_slave;\r |
| 22 | \r |
| 23 | elprintf(EL_EEPROM, "eeprom: scl/sda: %i/%i -> %i/%i, newtime=%i", (sreg&2)>>1, sreg&1,\r |
| 24 | (d&2)>>1, d&1, SekCyclesDone() - last_write);\r |
| 25 | saddr &= 0x1fff;\r |
| 26 | \r |
| 27 | if(sreg & d & 2) {\r |
| 28 | // SCL was and is still high..\r |
| 29 | if((sreg & 1) && !(d&1)) {\r |
| 30 | // ..and SDA went low, means it's a start command, so clear internal addr reg and clock counter\r |
| 31 | elprintf(EL_EEPROM, "eeprom: -start-");\r |
| 32 | //saddr = 0;\r |
| 33 | scyc = 0;\r |
| 34 | sreg |= 8;\r |
| 35 | } else if(!(sreg & 1) && (d&1)) {\r |
| 36 | // SDA went high == stop command\r |
| 37 | elprintf(EL_EEPROM, "eeprom: -stop-");\r |
| 38 | sreg &= ~8;\r |
| 39 | }\r |
| 40 | }\r |
| 41 | else if((sreg & 8) && !(sreg & 2) && (d&2))\r |
| 42 | {\r |
| 43 | // we are started and SCL went high - next cycle\r |
| 44 | scyc++; // pre-increment\r |
| 45 | if(SRam.eeprom_type) {\r |
| 46 | // X24C02+\r |
| 47 | if((ssa&1) && scyc == 18) {\r |
| 48 | scyc = 9;\r |
| 49 | saddr++; // next address in read mode\r |
| 50 | /*if(SRam.eeprom_type==2) saddr&=0xff; else*/ saddr&=0x1fff; // mask\r |
| 51 | }\r |
| 52 | else if(SRam.eeprom_type == 2 && scyc == 27) scyc = 18;\r |
| 53 | else if(scyc == 36) scyc = 27;\r |
| 54 | } else {\r |
| 55 | // X24C01\r |
| 56 | if(scyc == 18) {\r |
| 57 | scyc = 9; // wrap\r |
| 58 | if(saddr&1) { saddr+=2; saddr&=0xff; } // next addr in read mode\r |
| 59 | }\r |
| 60 | }\r |
| 61 | elprintf(EL_EEPROM, "eeprom: scyc: %i", scyc);\r |
| 62 | }\r |
| 63 | else if((sreg & 8) && (sreg & 2) && !(d&2))\r |
| 64 | {\r |
| 65 | // we are started and SCL went low (falling edge)\r |
| 66 | if(SRam.eeprom_type) {\r |
| 67 | // X24C02+\r |
| 68 | if(scyc == 9 || scyc == 18 || scyc == 27); // ACK cycles\r |
| 69 | else if( (SRam.eeprom_type == 3 && scyc > 27) || (SRam.eeprom_type == 2 && scyc > 18) ) {\r |
| 70 | if(!(ssa&1)) {\r |
| 71 | // data write\r |
| 72 | unsigned char *pm=SRam.data+saddr;\r |
| 73 | *pm <<= 1; *pm |= d&1;\r |
| 74 | if(scyc == 26 || scyc == 35) {\r |
| 75 | saddr=(saddr&~0xf)|((saddr+1)&0xf); // only 4 (?) lowest bits are incremented\r |
| 76 | elprintf(EL_EEPROM, "eeprom: write done, addr inc to: %x, last byte=%02x", saddr, *pm);\r |
| 77 | }\r |
| 78 | SRam.changed = 1;\r |
| 79 | }\r |
| 80 | } else if(scyc > 9) {\r |
| 81 | if(!(ssa&1)) {\r |
| 82 | // we latch another addr bit\r |
| 83 | saddr<<=1;\r |
| 84 | if(SRam.eeprom_type == 2) saddr&=0xff; else saddr&=0x1fff; // mask\r |
| 85 | saddr|=d&1;\r |
| 86 | if(scyc==17||scyc==26) {\r |
| 87 | elprintf(EL_EEPROM, "eeprom: addr reg done: %x", saddr);\r |
| 88 | if(scyc==17&&SRam.eeprom_type==2) { saddr&=0xff; saddr|=(ssa<<7)&0x700; } // add device bits too\r |
| 89 | }\r |
| 90 | }\r |
| 91 | } else {\r |
| 92 | // slave address\r |
| 93 | ssa<<=1; ssa|=d&1;\r |
| 94 | if(scyc==8) elprintf(EL_EEPROM, "eeprom: slave done: %x", ssa);\r |
| 95 | }\r |
| 96 | } else {\r |
| 97 | // X24C01\r |
| 98 | if(scyc == 9); // ACK cycle, do nothing\r |
| 99 | else if(scyc > 9) {\r |
| 100 | if(!(saddr&1)) {\r |
| 101 | // data write\r |
| 102 | unsigned char *pm=SRam.data+(saddr>>1);\r |
| 103 | *pm <<= 1; *pm |= d&1;\r |
| 104 | if(scyc == 17) {\r |
| 105 | saddr=(saddr&0xf9)|((saddr+2)&6); // only 2 lowest bits are incremented\r |
| 106 | elprintf(EL_EEPROM, "eeprom: write done, addr inc to: %x, last byte=%02x", saddr>>1, *pm);\r |
| 107 | }\r |
| 108 | SRam.changed = 1;\r |
| 109 | }\r |
| 110 | } else {\r |
| 111 | // we latch another addr bit\r |
| 112 | saddr<<=1; saddr|=d&1; saddr&=0xff;\r |
| 113 | if(scyc==8) elprintf(EL_EEPROM, "eeprom: addr done: %x", saddr>>1);\r |
| 114 | }\r |
| 115 | }\r |
| 116 | }\r |
| 117 | \r |
| 118 | sreg &= ~3; sreg |= d&3; // remember SCL and SDA\r |
| 119 | Pico.m.eeprom_status = (unsigned char) sreg;\r |
| 120 | Pico.m.eeprom_cycle = (unsigned char) scyc;\r |
| 121 | Pico.m.eeprom_slave = (unsigned char) ssa;\r |
| 122 | Pico.m.eeprom_addr = (unsigned short)saddr;\r |
| 123 | }\r |
| 124 | \r |
| 125 | static void EEPROM_upd_pending(unsigned int d)\r |
| 126 | {\r |
| 127 | unsigned int d1, sreg = Pico.m.eeprom_status;\r |
| 128 | \r |
| 129 | sreg &= ~0xc0;\r |
| 130 | \r |
| 131 | // SCL\r |
| 132 | d1 = (d >> SRam.eeprom_bit_cl) & 1;\r |
| 133 | sreg |= d1 << 7;\r |
| 134 | \r |
| 135 | // SDA in\r |
| 136 | d1 = (d >> SRam.eeprom_bit_in) & 1;\r |
| 137 | sreg |= d1 << 6;\r |
| 138 | \r |
| 139 | Pico.m.eeprom_status = (unsigned char) sreg;\r |
| 140 | }\r |
| 141 | \r |
| 142 | void EEPROM_write16(unsigned int d)\r |
| 143 | {\r |
| 144 | // this diff must be at most 16 for NBA Jam to work\r |
| 145 | if (SekCyclesDone() - last_write < 16) {\r |
| 146 | // just update pending state\r |
| 147 | elprintf(EL_EEPROM, "eeprom: skip because cycles=%i",\r |
| 148 | SekCyclesDone() - last_write);\r |
| 149 | EEPROM_upd_pending(d);\r |
| 150 | } else {\r |
| 151 | int srs = Pico.m.eeprom_status;\r |
| 152 | EEPROM_write_do(srs >> 6); // execute pending\r |
| 153 | EEPROM_upd_pending(d);\r |
| 154 | if ((srs ^ Pico.m.eeprom_status) & 0xc0) // update time only if SDA/SCL changed\r |
| 155 | last_write = SekCyclesDone();\r |
| 156 | }\r |
| 157 | }\r |
| 158 | \r |
| 159 | void EEPROM_write8(unsigned int a, unsigned int d)\r |
| 160 | {\r |
| 161 | unsigned char *wb = Pico.m.eeprom_wb;\r |
| 162 | wb[a & 1] = d;\r |
| 163 | EEPROM_write16((wb[0] << 8) | wb[1]);\r |
| 164 | }\r |
| 165 | \r |
| 166 | unsigned int EEPROM_read(void)\r |
| 167 | {\r |
| 168 | unsigned int shift, d;\r |
| 169 | unsigned int sreg, saddr, scyc, ssa, interval;\r |
| 170 | \r |
| 171 | // flush last pending write\r |
| 172 | EEPROM_write_do(Pico.m.eeprom_status>>6);\r |
| 173 | \r |
| 174 | sreg = Pico.m.eeprom_status; saddr = Pico.m.eeprom_addr&0x1fff; scyc = Pico.m.eeprom_cycle; ssa = Pico.m.eeprom_slave;\r |
| 175 | interval = SekCyclesDone() - last_write;\r |
| 176 | d = (sreg>>6)&1; // use SDA as "open bus"\r |
| 177 | \r |
| 178 | // NBA Jam is nasty enough to read <before> raising the SCL and starting the new cycle.\r |
| 179 | // this is probably valid because data changes occur while SCL is low and data can be read\r |
| 180 | // before it's actual cycle begins.\r |
| 181 | if (!(sreg&0x80) && interval >= 24) {\r |
| 182 | elprintf(EL_EEPROM, "eeprom: early read, cycles=%i", interval);\r |
| 183 | scyc++;\r |
| 184 | }\r |
| 185 | \r |
| 186 | if (!(sreg & 8)); // not started, use open bus\r |
| 187 | else if (scyc == 9 || scyc == 18 || scyc == 27) {\r |
| 188 | elprintf(EL_EEPROM, "eeprom: r ack");\r |
| 189 | d = 0;\r |
| 190 | } else if (scyc > 9 && scyc < 18) {\r |
| 191 | // started and first command word received\r |
| 192 | shift = 17-scyc;\r |
| 193 | if (SRam.eeprom_type) {\r |
| 194 | // X24C02+\r |
| 195 | if (ssa&1) {\r |
| 196 | elprintf(EL_EEPROM, "eeprom: read: addr %02x, cycle %i, reg %02x", saddr, scyc, sreg);\r |
| 197 | if (shift==0) elprintf(EL_EEPROM, "eeprom: read done, byte %02x", SRam.data[saddr]);\r |
| 198 | d = (SRam.data[saddr]>>shift)&1;\r |
| 199 | }\r |
| 200 | } else {\r |
| 201 | // X24C01\r |
| 202 | if (saddr&1) {\r |
| 203 | elprintf(EL_EEPROM, "eeprom: read: addr %02x, cycle %i, reg %02x", saddr>>1, scyc, sreg);\r |
| 204 | if (shift==0) elprintf(EL_EEPROM, "eeprom: read done, byte %02x", SRam.data[saddr>>1]);\r |
| 205 | d = (SRam.data[saddr>>1]>>shift)&1;\r |
| 206 | }\r |
| 207 | }\r |
| 208 | }\r |
| 209 | \r |
| 210 | return (d << SRam.eeprom_bit_out);\r |
| 211 | }\r |
| 212 | \r |