/* Mednafen - Multi-system Emulator * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ #include #include #include #include #include #include "mednafen-endian.h" #include "state.h" #define SSEEK_END 2 #define SSEEK_CUR 1 #define SSEEK_SET 0 #define RLSB MDFNSTATE_RLSB /* 0x80000000 */ /* Forward declaration */ int StateAction(StateMem *sm, int load, int data_only); static int32_t smem_read(StateMem *st, void *buffer, uint32_t len) { if ((len + st->loc) > st->len) return 0; memcpy(buffer, st->data + st->loc, len); st->loc += len; return(len); } static int32_t smem_write(StateMem *st, void *buffer, uint32_t len) { if ((len + st->loc) > st->malloced) { uint32_t newsize = (st->malloced >= 32768) ? st->malloced : (st->initial_malloc ? st->initial_malloc : 32768); while(newsize < (len + st->loc)) newsize *= 2; /* Don't realloc data_frontend memory */ if (st->data == st->data_frontend && st->data != NULL ) { st->data = (uint8_t *)malloc(newsize); memcpy(st->data, st->data_frontend, st->malloced); } else st->data = (uint8_t *)realloc(st->data, newsize); st->malloced = newsize; } memcpy(st->data + st->loc, buffer, len); st->loc += len; if (st->loc > st->len) st->len = st->loc; return(len); } static int32_t smem_seek(StateMem *st, uint32_t offset, int whence) { switch(whence) { case SSEEK_SET: st->loc = offset; break; case SSEEK_END: st->loc = st->len - offset; break; case SSEEK_CUR: st->loc += offset; break; } if(st->loc > st->len) { st->loc = st->len; return(-1); } return(0); } static int smem_write32le(StateMem *st, uint32_t b) { uint8_t s[4]; s[0]=b; s[1]=b>>8; s[2]=b>>16; s[3]=b>>24; return((smem_write(st, s, 4)<4)?0:4); } static int smem_read32le(StateMem *st, uint32_t *b) { uint8_t s[4]; if(smem_read(st, s, 4) < 4) return(0); *b = s[0] | (s[1] << 8) | (s[2] << 16) | (s[3] << 24); return(4); } static bool SubWrite(StateMem *st, SFORMAT *sf) { /* Size can sometimes be zero, so also check for the * text name. These two should both be zero only at * the end of a struct. */ while(sf->size || sf->name) { int slen; int32_t bytesize; char nameo[1 + 256]; if(!sf->size || !sf->v) { sf++; continue; } if(sf->size == (uint32_t)~0) /* Link to another struct. */ { if(!SubWrite(st, (SFORMAT *)sf->v)) return(0); sf++; continue; } bytesize = sf->size; slen = strlcpy(nameo + 1, sf->name, 256); nameo[256] = 0; nameo[0] = slen; smem_write(st, nameo, 1 + nameo[0]); smem_write32le(st, bytesize); #ifdef MSB_FIRST /* Flip the byte order... */ if(sf->flags & MDFNSTATE_BOOL) { } else if(sf->flags & MDFNSTATE_RLSB64) Endian_A64_NE_to_LE(sf->v, bytesize / sizeof(uint64_t)); else if(sf->flags & MDFNSTATE_RLSB32) Endian_A32_NE_to_LE(sf->v, bytesize / sizeof(uint32_t)); else if(sf->flags & MDFNSTATE_RLSB16) Endian_A16_NE_to_LE(sf->v, bytesize / sizeof(uint16_t)); else if(sf->flags & RLSB) Endian_V_NE_to_LE(sf->v, bytesize); #endif /* Special case for the evil bool type, * to convert bool to 1-byte elements. * Don't do it if we're only saving the raw data. */ if(sf->flags & MDFNSTATE_BOOL) { int32_t bool_monster; for (bool_monster = 0; bool_monster < bytesize; bool_monster++) { uint8_t tmp_bool = ((bool *)sf->v)[bool_monster]; smem_write(st, &tmp_bool, 1); } } else smem_write(st, (uint8_t *)sf->v, bytesize); #ifdef MSB_FIRST /* Now restore the original byte order. */ if(sf->flags & MDFNSTATE_BOOL) { } else if(sf->flags & MDFNSTATE_RLSB64) Endian_A64_LE_to_NE(sf->v, bytesize / sizeof(uint64_t)); else if(sf->flags & MDFNSTATE_RLSB32) Endian_A32_LE_to_NE(sf->v, bytesize / sizeof(uint32_t)); else if(sf->flags & MDFNSTATE_RLSB16) Endian_A16_LE_to_NE(sf->v, bytesize / sizeof(uint16_t)); else if(sf->flags & RLSB) Endian_V_LE_to_NE(sf->v, bytesize); #endif sf++; } return true; } static int WriteStateChunk(StateMem *st, const char *sname, SFORMAT *sf) { int32_t data_start_pos; int32_t end_pos; uint8_t sname_tmp[32]; size_t sname_len = strlen(sname); memset(sname_tmp, 0, sizeof(sname_tmp)); memcpy((char *)sname_tmp, sname, (sname_len < 32) ? sname_len : 32); smem_write(st, sname_tmp, 32); /* We'll come back and write this later. */ smem_write32le(st, 0); data_start_pos = st->loc; if(!SubWrite(st, sf)) return(0); end_pos = st->loc; smem_seek(st, data_start_pos - 4, SSEEK_SET); smem_write32le(st, end_pos - data_start_pos); smem_seek(st, end_pos, SSEEK_SET); return(end_pos - data_start_pos); } static SFORMAT *FindSF(const char *name, SFORMAT *sf) { /* Size can sometimes be zero, so also check for the text name. These two should both be zero only at the end of a struct. */ while(sf->size || sf->name) { if(!sf->size || !sf->v) { sf++; continue; } if (sf->size == (uint32_t)~0) /* Link to another SFORMAT structure. */ { SFORMAT *temp_sf = FindSF(name, (SFORMAT*)sf->v); if (temp_sf) return temp_sf; } else { if (!strcmp(sf->name, name)) return sf; } sf++; } return NULL; } static int ReadStateChunk(StateMem *st, SFORMAT *sf, int size) { int temp = st->loc; while (st->loc < (temp + size)) { SFORMAT *tmp; uint32_t recorded_size; /* In bytes */ uint8_t toa[1 + 256]; /* Don't change to char unless cast toa[0] to unsigned to smem_read() and other places. */ if(smem_read(st, toa, 1) != 1) return(0); if(smem_read(st, toa + 1, toa[0]) != toa[0]) return 0; toa[1 + toa[0]] = 0; smem_read32le(st, &recorded_size); tmp = FindSF((char*)toa + 1, sf); if(tmp) { uint32_t expected_size = tmp->size; /* In bytes */ if(recorded_size != expected_size) { if(smem_seek(st, recorded_size, SSEEK_CUR) < 0) return(0); } else { smem_read(st, (uint8_t *)tmp->v, expected_size); if(tmp->flags & MDFNSTATE_BOOL) { int32_t bool_monster; /* Converting downwards is necessary for the * case of sizeof(bool) > 1 */ for(bool_monster = expected_size - 1; bool_monster >= 0; bool_monster--) ((bool *)tmp->v)[bool_monster] = ((uint8_t *)tmp->v)[bool_monster]; } #ifdef MSB_FIRST if(tmp->flags & MDFNSTATE_RLSB64) Endian_A64_LE_to_NE(tmp->v, expected_size / sizeof(uint64_t)); else if(tmp->flags & MDFNSTATE_RLSB32) Endian_A32_LE_to_NE(tmp->v, expected_size / sizeof(uint32_t)); else if(tmp->flags & MDFNSTATE_RLSB16) Endian_A16_LE_to_NE(tmp->v, expected_size / sizeof(uint16_t)); else if(tmp->flags & RLSB) Endian_V_LE_to_NE(tmp->v, expected_size); #endif } } else { if(smem_seek(st, recorded_size, SSEEK_CUR) < 0) return(0); } } return 1; } /* This function is called by the game driver(NES, GB, GBA) to save a state. */ static int MDFNSS_StateAction_internal(void *st_p, int load, int data_only, struct SSDescriptor *section) { StateMem *st = (StateMem*)st_p; if(load) { char sname[32]; int found = 0; uint32_t tmp_size; uint32_t total = 0; while(smem_read(st, (uint8_t *)sname, 32) == 32) { if(smem_read32le(st, &tmp_size) != 4) return(0); total += tmp_size + 32 + 4; /* Yay, we found the section */ if(!strncmp(sname, section->name, 32)) { if(!ReadStateChunk(st, section->sf, tmp_size)) return(0); found = 1; break; } else { if(smem_seek(st, tmp_size, SSEEK_CUR) < 0) return(0); } } if(smem_seek(st, -total, SSEEK_CUR) < 0) return(0); if(!found) /* Not found. We are sad! */ return(0); } else { if(!WriteStateChunk(st, section->name, section->sf)) return(0); } return(1); } int MDFNSS_StateAction(void *st_p, int load, int data_only, SFORMAT *sf, const char *name, bool optional) { struct SSDescriptor love; StateMem *st = (StateMem*)st_p; love.sf = sf; love.name = name; return(MDFNSS_StateAction_internal(st, load, 0, &love)); } int MDFNSS_SaveSM(void *st_p, int a, int b, const void *c, const void *d, const void *e) { uint32_t sizy; uint8_t header[32]; StateMem *st = (StateMem*)st_p; static const char *header_magic = "MDFNSVST"; int neowidth = 0, neoheight = 0; memset(header, 0, sizeof(header)); memcpy(header, header_magic, 8); MDFN_en32lsb(header + 16, MEDNAFEN_VERSION_NUMERIC); MDFN_en32lsb(header + 24, neowidth); MDFN_en32lsb(header + 28, neoheight); smem_write(st, header, 32); if(!StateAction(st, 0, 0)) return(0); sizy = st->loc; smem_seek(st, 16 + 4, SSEEK_SET); smem_write32le(st, sizy); return(1); } int MDFNSS_LoadSM(void *st_p, int a, int b) { uint8_t header[32]; uint32_t stateversion; StateMem *st = (StateMem*)st_p; smem_read(st, header, 32); if(memcmp(header, "MEDNAFENSVESTATE", 16) && memcmp(header, "MDFNSVST", 8)) return(0); stateversion = MDFN_de32lsb(header + 16); return StateAction(st, stateversion, 0); }