#if 0 gcc ${CFLAGS:--s -O2} -o ${EXE:-~/bin/heromesh} -Wno-multichar main.c class.o picture.o bindings.o function.o exec.o game.o edit.o picedit.o sound.o smallxrm.o hash.o sqlite3.o `sdl-config --cflags --libs` -ldl -lpthread -lm exit #endif /* This program is part of Free Hero Mesh and is public domain. */ #define HEROMESH_MAIN #include "SDL.h" #include <limits.h> #include <stdio.h> #include <stdlib.h> #include <string.h> #include <sys/file.h> #include <sys/stat.h> #include <sys/types.h> #include <unistd.h> #include "sqlite3.h" #include "smallxrm.h" #include "names.h" #include "quarks.h" #include "cursorshapes.h" #include "heromesh.h" typedef struct { char a[(N_MESSAGES==sizeof(standard_message_names)/sizeof(*standard_message_names))?1:-9]; char b[('\1\0'*'x'+'\0\1'*'y'=='xy')?1:-9]; char c[(N_STANDARD_SOUNDS==sizeof(standard_sound_names)/sizeof(*standard_sound_names))?1:-9]; } ASSERTION; #ifndef CONFIG_APPLICATION_ID #define CONFIG_APPLICATION_ID "1296388936" #endif static const char schema[]= "BEGIN;" "PRAGMA APPLICATION_ID("CONFIG_APPLICATION_ID");" "PRAGMA RECURSIVE_TRIGGERS(1);" "CREATE TABLE IF NOT EXISTS `USERCACHEINDEX`(`ID` INTEGER PRIMARY KEY, `NAME` TEXT, `TIME` INT);" "CREATE TABLE IF NOT EXISTS `USERCACHEDATA`(`ID` INTEGER PRIMARY KEY, `FILE` INT, `LEVEL` INT, `NAME` TEXT COLLATE NOCASE, `OFFSET` INT, `DATA` BLOB, `USERSTATE` BLOB);" "CREATE UNIQUE INDEX IF NOT EXISTS `USERCACHEDATA_I1` ON `USERCACHEDATA`(`FILE`, `LEVEL`);" "CREATE TRIGGER IF NOT EXISTS `USERCACHEINDEX_DELETION` AFTER DELETE ON `USERCACHEINDEX` BEGIN DELETE FROM `USERCACHEDATA` WHERE `FILE` = OLD.`ID`; END;" "CREATE TEMPORARY TABLE `PICTURES`(`ID` INTEGER PRIMARY KEY, `NAME` TEXT COLLATE NOCASE, `OFFSET` INT, `DEPENDENT` INT, `MISC` BLOB);" "CREATE TEMPORARY TABLE `VARIABLES`(`ID` INTEGER PRIMARY KEY, `NAME` TEXT);" "CREATE TEMPORARY TABLE `DIVISIONS`(`HEADING` BLOB NOT NULL, `FIRST` INT NOT NULL);" "COMMIT;" ; const char jispunct[0x60]= " ,.,. :;?! '` " "^~_ ---/" "\\~|| ''\"\"() []" "{}<> +- " " = <> '\" \\" "$ #%#&*@ " ; sqlite3*userdb; xrm_db*resourcedb; const char*basefilename; xrm_quark optionquery[16]; char main_options[128]; Uint8 message_trace[0x4100/8]; Uint16 level_id,level_ord,level_version,level_code; unsigned char*level_title; Uint16*level_index; int level_nindex; char level_changed; FILE*levelfp; FILE*solutionfp; #ifdef CONFIG_WITH_STACK_PROTECTION char stack_protect_mode=0; void*stack_protect_mark; void*stack_protect_low; void*stack_protect_high; #endif static const char*globalclassname; static SDL_Cursor*cursor[77]; static FILE*compositefp; static sqlite3_int64 leveluc,solutionuc; static sqlite3_stmt*readusercachest; static char*hpath; typedef struct { FILE*fp; sqlite3_uint64 start,length,offset; } SliceCookie; static ssize_t slice_read(void*cookie,char*buf,size_t size) { SliceCookie*d=cookie; fseek(d->fp,d->start+d->offset,SEEK_SET); if(size>d->length-d->offset) size=d->length-d->offset; d->offset+=size=fread(buf,1,size,d->fp); return size; } static int slice_seek(void*cookie,off64_t*offset,int whence) { SliceCookie*d=cookie; switch(whence) { case SEEK_SET: d->offset=*offset; break; case SEEK_CUR: d->offset+=*offset; break; case SEEK_END: d->offset=d->length+*offset; break; } if(d->offset<0 || d->offset>d->length) return -1; return fseek(d->fp,d->start+(*offset=d->offset),SEEK_SET); } static int slice_close(void*cookie) { free(cookie); return 0; } FILE*composite_slice(const char*suffix,char isfatal) { FILE*fp; SliceCookie*d; int c,n; sqlite3_int64 t; rewind(compositefp); look: n=0; if(*suffix=='.') for(;;) { c=fgetc(compositefp); if(c==EOF) goto notfound; if(!c) goto skip; if(c=='.') goto name; } for(;;) { c=fgetc(compositefp); if(c==EOF) goto notfound; name: if(!c) { if(suffix[n]) goto skip; else goto found; } if(c==suffix[n]) { n++; } else { do c=fgetc(compositefp); while(c>0); goto skip; } } skip: t=fgetc(compositefp)<<16; t|=fgetc(compositefp)<<24; t|=fgetc(compositefp); t|=fgetc(compositefp)<<8; fseek(compositefp,t,SEEK_CUR); goto look; found: t=fgetc(compositefp)<<16; t|=fgetc(compositefp)<<24; t|=fgetc(compositefp); t|=fgetc(compositefp)<<8; d=malloc(sizeof(SliceCookie)); if(!d) fatal("Allocation failed\n"); d->fp=compositefp; d->start=ftell(compositefp); d->length=t; d->offset=0; fp=fopencookie(d,"r",(cookie_io_functions_t){.read=slice_read,.seek=slice_seek,.close=slice_close}); if(!fp) fatal("Allocation failed\n"); return fp; notfound: if(isfatal) fatal("Cannot find '%s' lump in composite puzzle set file\n",suffix); return 0; } static sqlite3_int64 reset_usercache(FILE*fp,const char*nam,struct stat*stats,const char*suffix) { sqlite3_stmt*st; sqlite3_int64 t,id; char buf[128]; int i,z; if(z=sqlite3_prepare_v2(userdb,"DELETE FROM `USERCACHEINDEX` WHERE `NAME` = ?1;",-1,&st,0)) fatal("SQL error (%d): %s\n",z,sqlite3_errmsg(userdb)); sqlite3_bind_text(st,1,nam,-1,0); while((z=sqlite3_step(st))==SQLITE_ROW); if(z!=SQLITE_DONE) fatal("SQL error (%d): %s\n",z,sqlite3_errmsg(userdb)); sqlite3_finalize(st); t=stats->st_mtime; if(stats->st_ctime>t) t=stats->st_ctime; if(z=sqlite3_prepare_v2(userdb,"INSERT INTO `USERCACHEINDEX`(`NAME`,`TIME`) VALUES(?1,?2);",-1,&st,0)) fatal("SQL error (%d): %s\n",z,sqlite3_errmsg(userdb)); sqlite3_bind_text(st,1,nam,-1,0); sqlite3_bind_int64(st,2,t); while((z=sqlite3_step(st))==SQLITE_ROW); if(z!=SQLITE_DONE) fatal("SQL error (%d): %s\n",z,sqlite3_errmsg(userdb)); id=sqlite3_last_insert_rowid(userdb); sqlite3_finalize(st); if(z=sqlite3_prepare_v2(userdb,"INSERT INTO `USERCACHEDATA`(`FILE`,`LEVEL`,`NAME`,`OFFSET`) VALUES(?1,?2,?3,?4);",-1,&st,0)) { fatal("SQL error (%d): %s\n",z,sqlite3_errmsg(userdb)); } sqlite3_bind_int64(st,1,id); rewind(fp); for(;;) { sqlite3_reset(st); sqlite3_bind_null(st,3); i=0; for(;;) { z=fgetc(fp); if(z==EOF) goto done; buf[i]=z; if(!z) break; ++i; if(i==127) fatal("Found a long lump name; maybe this is not a real Hamster archive\n"); } t=fgetc(fp)<<16; t|=fgetc(fp)<<24; t|=fgetc(fp); t|=fgetc(fp)<<8; if(feof(fp)) fatal("Invalid Hamster archive\n"); if(t<0) fatal("Invalid lump size\n"); sqlite3_bind_text(st,3,buf,i,0); sqlite3_bind_int64(st,4,ftell(fp)); if(i>4 && i<10 && !sqlite3_stricmp(buf+i-4,suffix)) { for(z=0;z<i-4;z++) if(buf[z]<'0' || buf[z]>'9') goto nomatch; if(*buf=='0' && i!=5) goto nomatch; sqlite3_bind_int(st,2,strtol(buf,0,10)); } else if(i==9 && suffix[1]=='L' && !sqlite3_stricmp(buf,"CLASS.DEF")) { sqlite3_bind_int(st,2,LUMP_CLASS_DEF); } else if(i==9 && suffix[1]=='L' && !sqlite3_stricmp(buf,"LEVEL.IDX")) { sqlite3_bind_int(st,2,LUMP_LEVEL_IDX); } else if(i==12 && suffix[1]=='L' && !sqlite3_stricmp(buf,"DIVISION.IDX")) { sqlite3_bind_int(st,2,LUMP_DIVISION_IDX); } else { nomatch: sqlite3_bind_null(st,2); } while((z=sqlite3_step(st))==SQLITE_ROW); if(z!=SQLITE_DONE) fatal("SQL error (%d): %s\n",z,sqlite3_errmsg(userdb)); fseek(fp,t,SEEK_CUR); } done: sqlite3_finalize(st); return id; } unsigned char*read_lump_or_userstate(int sol,int lvl,long*sz,char us) { // Returns a pointer to the data; must be freed using free(). // If there is no data, returns null and sets *sz to zero. // Third argument is a pointer to a variable to store the data size (must be not null). // Fourth argument is 1 for user state or 0 for lump data. unsigned char*buf=0; sqlite3_reset(readusercachest); sqlite3_bind_int64(readusercachest,1,sol?solutionuc:leveluc); sqlite3_bind_int(readusercachest,2,lvl); sqlite3_bind_int(readusercachest,3,us); if(sqlite3_step(readusercachest)==SQLITE_ROW) { if(sqlite3_column_type(readusercachest,1)==SQLITE_BLOB) { const unsigned char*con=sqlite3_column_blob(readusercachest,1); *sz=sqlite3_column_bytes(readusercachest,1); buf=malloc(*sz); if(*sz && !buf) fatal("Allocation failed\n"); memcpy(buf,con,*sz); } else if(us) { *sz=0; } else { FILE*fp=sol?solutionfp:levelfp; rewind(fp); fseek(fp,sqlite3_column_int64(readusercachest,0)-4,SEEK_SET); *sz=fgetc(fp)<<16; *sz|=fgetc(fp)<<24; *sz|=fgetc(fp); *sz|=fgetc(fp)<<8; if(feof(fp) || *sz<0) fatal("Invalid Hamster archive\n"); buf=malloc(*sz); if(!buf) fatal("Allocation failed\n"); if(!fread(buf,1,*sz,fp)) fatal("Unable to read data\n"); rewind(fp); } } else { *sz=0; } sqlite3_reset(readusercachest); return buf; } void write_lump(int sol,int lvl,long sz,const unsigned char*data) { // Writes a lump to the user cache. // The actual Hamster archive files will be updated when the program terminates. sqlite3_stmt*st; int e; if(e=sqlite3_prepare_v2(userdb,"INSERT INTO `USERCACHEDATA`(`FILE`,`LEVEL`,`NAME`,`DATA`) VALUES(?1,?2,CASE WHEN ?2 < 0 THEN ?3 ELSE ?2 || ?3 END,?4)" " ON CONFLICT(`FILE`,`LEVEL`) DO UPDATE SET `DATA` = ?4;",-1,&st,0)) fatal("SQL error (%d): %s\n",e,sqlite3_errmsg(userdb)); sqlite3_bind_int64(st,1,sol?solutionuc:leveluc); sqlite3_bind_int(st,2,lvl); sqlite3_bind_text(st,3,lvl==LUMP_CLASS_DEF?"CLASS.DEF":lvl==LUMP_LEVEL_IDX?"LEVEL.IDX":lvl==LUMP_DIVISION_IDX?"DIVISION.IDX":sol?".SOL":".LVL",-1,SQLITE_STATIC); sqlite3_bind_blob64(st,4,data,sz,0); while((e=sqlite3_step(st))==SQLITE_ROW); if(e!=SQLITE_DONE) fatal("SQL error (%d): %s\n",e,sqlite3_errmsg(userdb)); sqlite3_finalize(st); } void write_userstate(int sol,int lvl,long sz,const unsigned char*data) { sqlite3_stmt*st; int e; if(e=sqlite3_prepare_v2(userdb,"UPDATE `USERCACHEDATA` SET `USERSTATE` = ?3" " WHERE `FILE` = ?1 AND `LEVEL` = ?2;",-1,&st,0)) fatal("SQL error (%d): %s\n",e,sqlite3_errmsg(userdb)); sqlite3_bind_int64(st,1,sol?solutionuc:leveluc); sqlite3_bind_int(st,2,lvl); sqlite3_bind_blob64(st,3,data,sz,0); while((e=sqlite3_step(st))==SQLITE_ROW); if(e!=SQLITE_DONE) fatal("SQL error (%d): %s\n",e,sqlite3_errmsg(userdb)); sqlite3_finalize(st); } static void load_level_index(void) { long sz; sqlite3_stmt*st; int i; unsigned char*data=read_lump(FIL_LEVEL,LUMP_LEVEL_IDX,&sz); unsigned char*p; if(!data) return; if(sz>65536) fatal("Too many levels\n"); level_index=malloc((level_nindex=sz>>1)*sizeof(Uint16)); if(!level_index) fatal("Allocation failed\n"); for(i=0;i<level_nindex;i++) level_index[i]=data[i+i]|(data[i+i+1]<<8); free(data); // Load divisions data=read_lump(FIL_LEVEL,LUMP_DIVISION_IDX,&sz); if(!data || sz<3) { free(data); return; } if(i=sqlite3_prepare_v2(userdb,"INSERT INTO `DIVISIONS`(`HEADING`,`FIRST`) VALUES(?1,?2);",-1,&st,0)) fatal("SQL error (%d): %s\n",i,sqlite3_errmsg(userdb)); p=data; while(p<data+sz-3) { sqlite3_reset(st); sqlite3_bind_int(st,2,p[0]|(p[1]<<8)); p+=2; sqlite3_bind_blob(st,1,p,i=strnlen(p,data+sz-p),0); p+=i; if(p<data+sz) p++; while(sqlite3_step(st)==SQLITE_ROW); } sqlite3_finalize(st); free(data); } const char*load_level(int lvl) { // Load level by ID. Returns null pointer if successful, or an error message if it failed. long sz=0; Uint16 of=0; unsigned char*buf=lvl>=0?read_lump(FIL_LEVEL,lvl,&sz):0; unsigned char*p=buf; unsigned char*end=buf+sz; unsigned char*q; int i,n,x,y,z; Uint16 lo=0; Uint32 o; Uint32 mru[2]; if(lvl<0 && level_index && -lvl<=level_nindex) { lo=-lvl; lvl=level_index[~lvl]; p=buf=read_lump(FIL_LEVEL,lvl,&sz); end=buf+sz; } if(lvl<0) return "Invalid level ID"; if(!buf) return "Cannot find level"; level_changed=1; free(level_title); level_title=0; annihilate(); generation_number=TY_MAXTYPE+1; generation_number_inc=0; level_version=p[0]|(p[1]<<8); level_code=p[2]|(p[3]<<8); p+=4; pfwidth=(*p++&63)+1; pfheight=(*p++&63)+1; while(*p && p<end) p++; // skip text for now p++; // skip null terminator if(p>=end) goto bad1; level_title=strdup(buf+6); if(!level_title) fatal("Allocation failed\n"); mru[0]=mru[1]=VOIDLINK; restart: x=0; y=1; n=0; for(;;) { if(n) { o=objalloc(objects[*mru]->class); if(o==VOIDLINK) goto bad3; objects[o]->oflags=(objects[o]->oflags&~OF_BIZARRO)|of; objects[o]->image=objects[*mru]->image; objects[o]->misc1=objects[*mru]->misc1; objects[o]->misc2=objects[*mru]->misc2; objects[o]->misc3=objects[*mru]->misc3; objects[o]->dir=objects[*mru]->dir; objects[o]->x=++x; objects[o]->y=y; if(x>pfwidth) goto bad2; pflink(o); --n; } else { if(p>=end) goto bad1; z=*p++; if(z==0xFF) break; if(z==0xFE) { of^=OF_BIZARRO; goto restart; } if(z&0x20) x=*p++; if(z&0x10) y=*p++; if(z&0x40) x++; if(!x || !y || x>pfwidth || y>pfheight) goto bad2; n=z&0x70?0:1; if(z&0x80) { // MRU if(mru[n]==VOIDLINK) goto bad1; o=objalloc(objects[mru[n]]->class); if(o==VOIDLINK) goto bad3; objects[o]->oflags=(objects[o]->oflags&~OF_BIZARRO)|of; objects[o]->image=objects[mru[n]]->image; objects[o]->misc1=objects[mru[n]]->misc1; objects[o]->misc2=objects[mru[n]]->misc2; objects[o]->misc3=objects[mru[n]]->misc3; objects[o]->dir=objects[mru[n]]->dir; objects[o]->x=x; objects[o]->y=y; pflink(o); n=z&15; } else { // Not MRU i=*p++; i|=*p++<<8; o=objalloc(i&0x3FFF); if(o==VOIDLINK) goto bad3; objects[o]->oflags=(objects[o]->oflags&~OF_BIZARRO)|of; if(n!=2) mru[n]=o; if(i&0x8000) { n=objects[o]->class; for(i=0;i<classes[n]->nimages;i++) { if(classes[n]->images[i]&0x8000) { objects[o]->image=i; break; } } } else { objects[o]->image=*p++; } objects[o]->dir=z&7; if(z&0x08) { z=*p++; if(z&0xC0) { // Misc1 objects[o]->misc1=UVALUE(p[0]|(p[1]<<8),(z>>0)&3); p+=2; } if((z&0xC0)!=0x40) { // Misc2 objects[o]->misc2=UVALUE(p[0]|(p[1]<<8),(z>>2)&3); p+=2; } if(!((z&0xC0)%0xC0)) { // Misc3 objects[o]->misc3=UVALUE(p[0]|(p[1]<<8),(z>>4)&3); p+=2; } } objects[o]->x=x; objects[o]->y=y; pflink(o); n=0; } } } // Level strings i=0; while(p<end) { if(i>=max_objects) goto bad3; q=memchr(p,0,end-p); if(!q) goto bad1; levelstrings=realloc(levelstrings,(i+1)*sizeof(unsigned char*)); if(!levelstrings) fatal("Allocation failed\n"); levelstrings[i]=strdup(p); if(!levelstrings[i]) fatal("Allocation failed\n"); p=q+1; i++; } nlevelstrings=i; if(p>end) goto bad1; free(buf); level_id=lvl; level_ord=lo; if(level_index && !lo) { for(i=0;i<level_nindex;i++) if(level_index[i]==lvl) { level_ord=i+1; break; } } level_changed=0; return 0; bad1: free(buf); return "Corrupted level data"; bad2: free(buf); return "Object out of bounds"; bad3: free(buf); return "Bad object in level"; } static void flush_usercache_1(int sol) { sqlite3_int64 uc_id=sol?solutionuc:leveluc; FILE*fp=sol?solutionfp:levelfp; int fd=fileno(fp); sqlite3_stmt*st; sqlite3_int64 of,of2; sqlite3_int64*ofs; int e,i,j,c; if(fd<0) fatal("Unable to flush user cache. Expected file descriptor number; found %d\n",fd); if(e=sqlite3_prepare_v2(userdb,"SELECT `OFFSET`, `OFFSET`-LENGTH(`NAME`)-5 FROM `USERCACHEDATA` WHERE `FILE` = ?1 AND `DATA` NOT NULL ORDER BY `OFFSET` LIMIT 1;",-1,&st,0)) fatal("SQL error (%d): %s\n",e,sqlite3_errmsg(userdb)); sqlite3_bind_int64(st,1,uc_id); e=sqlite3_step(st); if(e==SQLITE_ROW) { of=sqlite3_column_int64(st,0); of2=sqlite3_column_int64(st,1); } else if(e==SQLITE_DONE) { // There is nothing to do; nothing has been changed. sqlite3_finalize(st); return; } else { fatal("SQL error (%d): %s\n",e,sqlite3_errmsg(userdb)); } sqlite3_finalize(st); if(e=sqlite3_prepare_v2(userdb,"UPDATE `USERCACHEDATA` SET `DATA` = READ_LUMP_AT(`OFFSET`,?2) WHERE `FILE` = ?1 AND `OFFSET` > ?3 AND `DATA` IS NULL;",-1,&st,0)) fatal("SQL error (%d): %s\n",e,sqlite3_errmsg(userdb)); sqlite3_bind_int64(st,1,uc_id); sqlite3_bind_pointer(st,2,fp,"http://zzo38computer.org/fossil/heromesh.ui#FILE_ptr",0); sqlite3_bind_int64(st,3,of); while((e=sqlite3_step(st))==SQLITE_ROW); if(e!=SQLITE_DONE) fatal("SQL error (%d): %s\n",e,sqlite3_errmsg(userdb)); sqlite3_finalize(st); if(e=sqlite3_prepare_v2(userdb,"SELECT COUNT() FROM `USERCACHEDATA` WHERE `FILE` = ?1 AND `DATA` NOT NULL;",-1,&st,0)) fatal("SQL error (%d): %s\n",e,sqlite3_errmsg(userdb)); sqlite3_bind_int64(st,1,uc_id); if((e=sqlite3_step(st))!=SQLITE_ROW) fatal("SQL error (%d): %s\n",e,e==SQLITE_DONE?"Expected a result row; got nothing":sqlite3_errmsg(userdb)); ofs=malloc((c=sqlite3_column_int(st,0)<<1)*sizeof(sqlite3_int64)); sqlite3_finalize(st); if(c<=0) fatal("Unexpected error: COUNT() returned zero or negative even though there used to be some data\n"); if(!ofs) fatal("Allocation failed\n"); if(e=sqlite3_prepare_v2(userdb,"SELECT `ID`, `NAME`, `DATA` FROM `USERCACHEDATA` WHERE `FILE` = ?1 AND `DATA` NOT NULL ORDER BY `ID`;",-1,&st,0)) fatal("SQL error (%d): %s\n",e,sqlite3_errmsg(userdb)); sqlite3_bind_int64(st,1,uc_id); rewind(fp); fseek(fp,of2,SEEK_SET); i=0; while((e=sqlite3_step(st))==SQLITE_ROW) { ofs[i++]=sqlite3_column_int64(st,0); if(sqlite3_column_type(st,1)!=SQLITE_TEXT || sqlite3_column_type(st,2)!=SQLITE_BLOB) fatal("Corrupted user cache database (NAME and DATA columns have wrong types)\n"); fwrite(sqlite3_column_text(st,1),1,sqlite3_column_bytes(st,1)+1,fp); j=sqlite3_column_bytes(st,2); fputc(j>>16,fp); fputc(j>>24,fp); fputc(j,fp); fputc(j>>8,fp); ofs[i++]=ftell(fp); fwrite(sqlite3_column_blob(st,2),1,j,fp); if(ferror(fp)) fatal("I/O error: %m\n"); } if(e!=SQLITE_DONE) fatal("SQL error (%d): %s\n",e,sqlite3_errmsg(userdb)); if(ftruncate(fd,ftell(fp))) fatal("I/O error: %m\n"); rewind(fp); sqlite3_finalize(st); if(e=sqlite3_prepare_v2(userdb,"UPDATE `USERCACHEDATA` SET `OFFSET` = ?2 WHERE `ID` = ?1;",-1,&st,0)) fatal("SQL error (%d): %s\n",e,sqlite3_errmsg(userdb)); i=0; while(i<c) { sqlite3_reset(st); sqlite3_bind_int64(st,1,ofs[i++]); sqlite3_bind_int64(st,2,ofs[i++]); while((e=sqlite3_step(st))==SQLITE_ROW); if(e!=SQLITE_DONE) fatal("SQL error (%d): %s\n",e,sqlite3_errmsg(userdb)); } sqlite3_finalize(st); free(ofs); if(e=sqlite3_prepare_v2(userdb,"UPDATE `USERCACHEDATA` SET `DATA` = NULL WHERE `FILE` = ?1;",-1,&st,0)) fatal("SQL error (%d): %s\n",e,sqlite3_errmsg(userdb)); sqlite3_bind_int64(st,1,uc_id); while((e=sqlite3_step(st))==SQLITE_ROW); if(e!=SQLITE_DONE) fatal("SQL error (%d): %s\n",e,sqlite3_errmsg(userdb)); sqlite3_finalize(st); if(e=sqlite3_prepare_v2(userdb,"UPDATE `USERCACHEINDEX` SET `TIME` = STRFTIME('%s')+1 WHERE `ID` = ?1;",-1,&st,0)) fatal("SQL error (%d): %s\n",e,sqlite3_errmsg(userdb)); sqlite3_bind_int64(st,1,uc_id); while((e=sqlite3_step(st))==SQLITE_ROW); if(e!=SQLITE_DONE) fatal("SQL error (%d): %s\n",e,sqlite3_errmsg(userdb)); sqlite3_finalize(st); } static void flush_usercache(void) { int e; if(main_options['r']) return; printStatus("Flushing user cache...\n"); if(e=sqlite3_exec(userdb,"BEGIN;",0,0,0)) fatal("SQL error (%d): %s\n",e,sqlite3_errmsg(userdb)); flush_usercache_1(FIL_LEVEL); flush_usercache_1(FIL_SOLUTION); if(e=sqlite3_exec(userdb,"COMMIT;",0,0,0)) fatal("SQL error (%d): %s\n",e,sqlite3_errmsg(userdb)); printStatus("Done\n"); } static void init_composite(void) { FILE*fp=compositefp=fopen(basefilename,"r"); sqlite3_stmt*st; sqlite3_int64 t1,t2; int z; struct stat fst; if(!fp) fatal("Cannot open '%s' for reading: %m\n",basefilename); printStatus("Loading puzzle set...\n"); if(z=sqlite3_exec(userdb,"BEGIN;",0,0,0)) fatal("SQL error (%d): %s\n",z,sqlite3_errmsg(userdb)); if(z=sqlite3_prepare_v2(userdb,"SELECT `ID`, `TIME` FROM `USERCACHEINDEX` WHERE `NAME` = CHAR(?2)||'//'||?1;",-1,&st,0)) fatal("SQL error (%d): %s\n",z,sqlite3_errmsg(userdb)); basefilename=realpath(basefilename,0); if(!basefilename) fatal("Cannot find real path of puzzle set: %m\n"); sqlite3_bind_text(st,1,basefilename,-1,0); levelfp=composite_slice(".level",1); solutionfp=composite_slice(".solution",1); sqlite3_bind_int(st,2,'L'); z=sqlite3_step(st); if(z==SQLITE_ROW) { leveluc=sqlite3_column_int64(st,0); t1=sqlite3_column_int64(st,1); } else if(z==SQLITE_DONE) { leveluc=t1=-1; } else { fatal("SQL error (%d): %s\n",z,sqlite3_errmsg(userdb)); } sqlite3_reset(st); sqlite3_bind_int(st,2,'S'); z=sqlite3_step(st); if(z==SQLITE_ROW) { solutionuc=sqlite3_column_int64(st,0); t2=sqlite3_column_int64(st,1); } else if(z==SQLITE_DONE) { solutionuc=t2=-1; } else { fatal("SQL error (%d): %s\n",z,sqlite3_errmsg(userdb)); } sqlite3_finalize(st); if(stat(basefilename,&fst)) fatal("Unable to stat '%s': %m\n",basefilename); if(!fst.st_size) fatal("File '%s' has zero size\n",basefilename); if(fst.st_mtime>t1 || fst.st_ctime>t1) { char*p=sqlite3_mprintf("L//%s",basefilename); if(!p) fatal("Allocation failed\n"); leveluc=reset_usercache(levelfp,p,&fst,".LVL"); *p='S'; solutionuc=reset_usercache(solutionfp,p,&fst,".SOL"); sqlite3_free(p); } if(z=sqlite3_prepare_v3(userdb,"SELECT `OFFSET`, CASE WHEN ?3 THEN `USERSTATE` ELSE `DATA` END " "FROM `USERCACHEDATA` WHERE `FILE` = ?1 AND `LEVEL` = ?2;",-1,SQLITE_PREPARE_PERSISTENT,&readusercachest,0)) { fatal("SQL error (%d): %s\n",z,sqlite3_errmsg(userdb)); } if(z=sqlite3_exec(userdb,"COMMIT;",0,0,0)) fatal("SQL error (%d): %s\n",z,sqlite3_errmsg(userdb)); printStatus("Done\n"); } static void init_usercache(void) { sqlite3_stmt*st; int z; sqlite3_int64 t1,t2; char*nam1; char*nam2; char*nam3; struct stat fst; printStatus("Initializing user cache...\n"); if(z=sqlite3_exec(userdb,"BEGIN;",0,0,0)) fatal("SQL error (%d): %s\n",z,sqlite3_errmsg(userdb)); if(z=sqlite3_prepare_v2(userdb,"SELECT `ID`, `TIME` FROM `USERCACHEINDEX` WHERE `NAME` = ?1;",-1,&st,0)) fatal("SQL error (%d): %s\n",z,sqlite3_errmsg(userdb)); nam1=sqlite3_mprintf("%s.level",basefilename); if(!nam1) fatal("Allocation failed\n"); nam2=realpath(nam1,0); if(!nam2) fatal("Cannot find real path of '%s': %m\n",nam1); levelfp=fopen(nam2,main_options['r']?"r":"r+"); if(!levelfp) fatal("Cannot open '%s' for reading%s: %m\n",nam2,main_options['r']?"":"/writing"); sqlite3_free(nam1); sqlite3_bind_text(st,1,nam2,-1,0); z=sqlite3_step(st); if(z==SQLITE_ROW) { leveluc=sqlite3_column_int64(st,0); t1=sqlite3_column_int64(st,1); } else if(z==SQLITE_DONE) { leveluc=t1=-1; } else { fatal("SQL error (%d): %s\n",z,sqlite3_errmsg(userdb)); } sqlite3_reset(st); nam1=sqlite3_mprintf("%s.solution",basefilename); if(!nam1) fatal("Allocation failed\n"); nam3=realpath(nam1,0); if(!nam3) fatal("Cannot find real path of '%s': %m\n",nam1); if(!strcmp(nam2,nam3)) fatal("Level and solution files seem to be the same file\n"); solutionfp=fopen(nam3,main_options['r']?"r":"r+"); if(!solutionfp) fatal("Cannot open '%s' for reading%s: %m\n",nam3,main_options['r']?"":"/writing"); sqlite3_free(nam1); sqlite3_bind_text(st,1,nam3,-1,0); z=sqlite3_step(st); if(z==SQLITE_ROW) { solutionuc=sqlite3_column_int64(st,0); t2=sqlite3_column_int64(st,1); } else if(z==SQLITE_DONE) { solutionuc=t2=-1; } else { fatal("SQL error (%d): %s\n",z,sqlite3_errmsg(userdb)); } sqlite3_finalize(st); if(stat(nam2,&fst)) fatal("Unable to stat '%s': %m\n",nam2); if(!fst.st_size) fatal("File '%s' has zero size\n",nam2); if(fst.st_mtime>t1 || fst.st_ctime>t1) leveluc=reset_usercache(levelfp,nam2,&fst,".LVL"); if(stat(nam3,&fst)) fatal("Unable to stat '%s': %m\n",nam3); if(fst.st_mtime>t2 || fst.st_ctime>t2) solutionuc=reset_usercache(solutionfp,nam3,&fst,".SOL"); free(nam2); free(nam3); if(z=sqlite3_prepare_v3(userdb,"SELECT `OFFSET`, CASE WHEN ?3 THEN `USERSTATE` ELSE `DATA` END " "FROM `USERCACHEDATA` WHERE `FILE` = ?1 AND `LEVEL` = ?2;",-1,SQLITE_PREPARE_PERSISTENT,&readusercachest,0)) { fatal("SQL error (%d): %s\n",z,sqlite3_errmsg(userdb)); } if(z=sqlite3_exec(userdb,"COMMIT;",0,0,0)) fatal("SQL error (%d): %s\n",z,sqlite3_errmsg(userdb)); printStatus("Done\n"); } static void new_puzzle_set(void) { char*nam1; char*nam2; nam1=sqlite3_mprintf("%s.level",basefilename); if(!nam1) fatal("Allocation failed\n"); levelfp=fopen(nam1,"w+x"); if(!levelfp) fatal("Cannot open '%s' for reading/writing: %m\n",nam1); write_empty_level_set(levelfp); nam2=sqlite3_mprintf("%s.solution",basefilename); if(!nam2) fatal("Allocation failed\n"); solutionfp=fopen(nam2,"w+x"); if(!solutionfp) fatal("Cannot open '%s' for reading/writing: %m\n",nam2); fclose(levelfp); fclose(solutionfp); } static void init_sql(void) { char*s; char*p; const char*v; int z; sqlite3_config(SQLITE_CONFIG_URI,0); optionquery[1]=Q_sqlMemStatus; v=xrm_get_resource(resourcedb,optionquery,optionquery,2)?:""; sqlite3_config(SQLITE_CONFIG_MEMSTATUS,(int)boolxrm(v,0)); optionquery[1]=Q_sqlSmallAllocations; v=xrm_get_resource(resourcedb,optionquery,optionquery,2)?:""; sqlite3_config(SQLITE_CONFIG_SMALL_MALLOC,(int)boolxrm(v,0)); optionquery[1]=Q_sqlCoveringIndexScan; v=xrm_get_resource(resourcedb,optionquery,optionquery,2)?:""; sqlite3_config(SQLITE_CONFIG_COVERING_INDEX_SCAN,(int)boolxrm(v,1)); if(sqlite3_initialize()) fatal("Failure to initialize SQLite.\n"); optionquery[1]=Q_sqlFile; v=xrm_get_resource(resourcedb,optionquery,optionquery,2); if(!v || !*v) strcpy(hpath+strlen(hpath)-2,"session"),v=hpath; if(z=sqlite3_open(v,&userdb)) fatal("Failed to open user database %s (%s)\n",v,userdb?sqlite3_errmsg(userdb):sqlite3_errstr(z)); optionquery[1]=Q_sqlExtensions; v=xrm_get_resource(resourcedb,optionquery,optionquery,2)?:""; sqlite3_db_config(userdb,SQLITE_DBCONFIG_ENABLE_LOAD_EXTENSION,*v?1:0,&z); if(*v) { p=s=strdup(v); if(!s) fatal("Allocation failed\n"); while(*v) { if(*v==' ') { *p=0; if(*s) { p=0; if(sqlite3_load_extension(userdb,s,0,&p)) fatal("Failed to load extension '%s' (%s)\n",s,p?:"unknown error"); p=s; } v++; } else { *p++=*v++; } } *p=0; p=0; if(*s && sqlite3_load_extension(userdb,s,0,&p)) fatal("Failed to load extension '%s' (%s)\n",s,p?:"unknown error"); free(s); } if(sqlite3_exec(userdb,schema,0,0,&s)) fatal("Failed to initialize database schema (%s)\n",s?:"unknown error"); optionquery[1]=Q_sqlInit; v=xrm_get_resource(resourcedb,optionquery,optionquery,2); if(v && sqlite3_exec(userdb,v,0,0,&s)) fatal("Failed to execute user-defined SQL statements (%s)\n",s?:"unknown error"); init_sql_functions(&leveluc,&solutionuc); } void set_cursor(int id) { id>>=1; if(!cursor[id]) cursor[id]=SDL_CreateCursor((void*)cursorimg+(id<<6),(void*)cursorimg+(id<<6)+32,16,16,cursorhot[id]>>4,cursorhot[id]&15); SDL_SetCursor(cursor[id]); } Uint32*tron8to32(const Uint8*si) { // This function does not interpret the internal-only 0xFF code, which will be implemented in picture.c instead. Uint16 cs=0; int n=0; Uint32*so=0; int k=0; if(has_mbcs && *si==0xFE) { // TRON for(k=0;si[k];k++) { if(si[k]==31 && si[k+1]) { n+=2; k++; } else if(si[k]==14 || si[k]==30) { while(si[k] && si[k]!='\\') { n+=2; k++; } n+=2; } else if(si[k]==0xFE) { n--; while(si[k+1]==0xFE) k++; } else { n++; if(si[k]<=0x20) n++; } } so=calloc(sizeof(Uint32),(n>>=1)+2); if(!so) fatal("Allocation failed\n"); n++; k=0; while(*si && k<n) { if(*si==0xFE) { cs=-0x100; while(*si==0xFE) cs+=0x100,si++; if(*si) cs|=*si++; } else if((*si==16 || *si==31 || *si==127) && si[1]) { so[k++]=(si[0]<<8)|si[1]; si+=2; } else if(*si==14 || *si==30) { while(*si && *si!='\\' && *si!=0xFE) so[k++]=*si++; if(*si=='\\') so[k++]=*si++; } else if(*si<=0x20) { so[k++]=*si++; } else if(*si<0xFE && si[1]<0xFE && si[1]>0x20) { so[k++]=(si[0]<<8)|si[1]|(cs<<16); si+=2; } else { si++; } } } else { // ASCII so=calloc(sizeof(Uint32),(n=strlen(si))+1); if(!so) fatal("Allocation failed\n"); while(*si) { if(*si==16 || *si==31 || *si==127) { if(!si[1]) break; so[k++]=(si[0]<<8)|si[1]; si+=2; } else { so[k++]=*si++; } } } return so; } Uint8*tron32to8(const Uint32*si) { Uint16 cs=0; int i; Uint8*so=0; size_t sz=0; FILE*f=open_memstream((char**)&so,&sz); if(!f) fatal("Allocation failed\n"); for(i=0;si[i];i++) if(si[i]>0x200000) goto nonascii; while(*si) { if(*si<0x7F) { fputc(*si++,f); } else if(*si>=0x1000 && *si<=0x10FF) { fputc(16,f); fputc((*si++&0xFF)?:0x20,f); } else if(*si>=0x1F00 && *si<=0x1FFF) { fputc(31,f); fputc((*si++&0xFF)?:0xFF,f); } else if(*si>=0x7F20 && *si<0x7F7F) { fputc('%',f); fputc(*si++&0xFF,f); } } nonascii: while(*si) { if(*si>0x200000) { if(cs!=(*si>>16)) { cs=*si>>16; for(i=cs>>8;i>=0;i--) fputc(0xFE,f); fputc(cs,f); } fputc(*si>>8,f); fputc(*si++,f); } else if(*si<0x21) { fputc(i=*si++,f); if(i==14 || i==30) while(*si) { if(*si=='\\') { fputc(*si++,f); break; } else if(*si<0xFE || (*si>=0x702221 && *si<0x70227F) || (*si>=0x212330 && *si<0x21237B)) { fputc(*si++,f); } else if(*si>=0x212121 && *si<0x21217F) { fputc(jispunct[*si++-0x212120],f); } else if(*si<0xFE) { fputc(*si++,f); } else { fputc(' ',f); si++; } } } else if(*si<0x7F) { if(cs!=0x70) { cs=0x70; fputc(0xFE,f); fputc(0x70,f); } fputc(0x22,f); fputc(*si++,f); } else if(*si>=0x1000 && *si<=0x10FF) { fputc(16,f); fputc(*si++?:0x20,f); } else if(*si>=0x1F00 && *si<=0x1FFF) { fputc(31,f); fputc(*si++?:0xFF,f); } else if(*si>=0x7F20 && *si<0x7F7F) { fputc(127,f); fputc(*si++,f); } else { si++; } } fputc(0,f); fclose(f); if(!so) fatal("Allocation failed\n"); return so; } static void set_path(const char*arg) { const char*s; if(main_options['h']) goto home; if((s=getenv("HEROMESH_PREFIX")) && *s) { hpath=malloc(strlen(s)+32); if(!hpath) fatal("Allocation failed\n"); sprintf(hpath,"%s.heromeshrc",s); return; } #ifndef CONFIG_NO_PORTABLE #ifndef CONFIG_USING_APPIMAGE if(s=strrchr(arg,'/')) { hpath=malloc(s+64-arg); if(!hpath) fatal("Allocation failed\n"); sprintf(hpath,"%.*s/current.heromeshrc",(int)(s-arg),arg); return; } #endif #endif home: s=getenv("HOME")?:"."; hpath=malloc(strlen(s)+32); if(!hpath) fatal("Allocation failed\n"); sprintf(hpath,"%s%s.heromeshrc",s,s[strlen(s)-1]=='/'?"":"/"); } static void load_options(void) { FILE*fp=fopen(hpath,"r"); #ifdef CONFIG_DEFAULT_RESOURCES if(!fp) fp=fopen(CONFIG_DEFAULT_RESOURCES,"r"); #endif if(!fp) fatal("Failed to open %s (%m)\n",hpath); if(xrm_load(resourcedb,fp,1)) fatal("Error while loading .heromeshrc\n"); fclose(fp); } static void read_options(int argc,char**argv) { xrm_db*db=xrm_sub(resourcedb,0,xrm_make_quark(globalclassname,0)?:xrm_anyq); while(argc--) xrm_load_line(db,*argv++,1); } static int find_globalclassname(void) { char*s=malloc(strlen(basefilename)+7); FILE*fp; if(!s) fatal("Allocation failed\n"); sprintf(s,"%s.name",basefilename); fp=fopen(s,"r"); free(s); if(!fp) return 1; s=malloc(256); if(!s) fatal("Allocation failed\n"); if(fscanf(fp," %255s",s)!=1) fatal("Unable to scan name of class set\n"); globalclassname=s; return !*s; } static int test_sql_callback(void*usr,int argc,char**argv,char**name) { int i; if(argc) printf("%s",*argv); for(i=1;i<argc;i++) printf("|%s",argv[i]); putchar('\n'); return 0; } static void test_mode(void) { Uint32 n=0; SDLKey k; SDL_Event ev; char buf[32]; const UserCommand*uc; int i,j; set_cursor(XC_tcross); SDL_LockSurface(screen); draw_text(0,0,"Hello, World!",0xF0,0xFF); buf[16]=0; for(i=0;i<16;i++) { for(n=0;n<16;n++) buf[n]=(i<<4)+n?:255; draw_text(4,(i<<3)+12,buf,0xF0,0xF7); } n=0; SDL_UnlockSurface(screen); SDL_Flip(screen); while(SDL_WaitEvent(&ev)) switch(ev.type) { case SDL_KEYDOWN: switch(ev.key.keysym.sym) { case SDLK_BACKSPACE: n/=10; goto setnum; case SDLK_SPACE: n=0; SDL_WM_SetCaption("0","0"); break; case SDLK_0 ... SDLK_9: n=10*n+ev.key.keysym.sym-SDLK_0; setnum: snprintf(buf,30,"%u",n); SDL_WM_SetCaption(buf,buf); break; case SDLK_KP_MINUS: if(n) n--; goto setnum; case SDLK_KP_PLUS: n++; goto setnum; case SDLK_c: SDL_FillRect(screen,0,n); SDL_Flip(screen); break; case SDLK_e: n=1; goto keytest; case SDLK_g: n=0; goto keytest; case SDLK_i: SDL_FillRect(screen,0,5); for(i=j=0;;i++) { if(picture_size*(i+1)>screen->w) i=0,j++; if(picture_size*(j+1)>screen->h) break; draw_picture(picture_size*i,picture_size*j,n++); } SDL_Flip(screen); break; case SDLK_o: if(n<0x4000 && classes[n] && classes[n]->gamehelp) { Uint32*a=tron8to32(classes[n]->gamehelp); Uint8*b=tron32to8(a); for(i=0;classes[n]->gamehelp[i];i++) printf("%02X ",classes[n]->gamehelp[i]&0xFF); puts(";"); for(i=0;a[i];i++) printf("%08X ",a[i]); puts(";"); for(i=0;b[i];i++) printf("%02X ",b[i]); puts("."); free(a); free(b); } break; case SDLK_p: sqlite3_exec(userdb,"SELECT * FROM `PICTURES`;",test_sql_callback,0,0); break; case SDLK_q: exit(0); break; case SDLK_s: goto scrolltest; case SDLK_t: puts(screen_prompt("Testing screen_prompt()")?:"No output."); break; case SDLK_u: set_sound_effect(UVALUE(n,TY_USOUND),NVALUE(0)); break; case SDLK_w: sound_test(); SDL_FillRect(screen,0,0); SDL_Flip(screen); break; case SDLK_z: set_sound_effect(NVALUE(0),NVALUE(1)); break; } break; case SDL_MOUSEBUTTONDOWN: draw_picture(ev.button.x,ev.button.y,n); SDL_Flip(screen); break; case SDL_QUIT: exit(0); break; } fatal("An error occurred waiting for events.\n"); keytest: SDL_FillRect(screen,0,0xF0); SDL_LockSurface(screen); draw_text(1,5,n?"Edit Key":"Game Key",0xF1,0xF7); SDL_UnlockSurface(screen); SDL_EnableUNICODE(1); SDL_Flip(screen); set_cursor(XC_arrow); while(SDL_WaitEvent(&ev)) switch(ev.type) { case SDL_KEYDOWN: printf("[%d %d %d %d] ",ev.key.keysym.scancode,ev.key.keysym.sym,ev.key.keysym.mod,ev.key.keysym.unicode); goto bindingtest; case SDL_MOUSEBUTTONDOWN: printf("[%d %d %d] ",ev.button.x,ev.button.y,ev.button.button); bindingtest: uc=find_key_binding(&ev,n); switch(uc->cmd) { case 0: printf("<Unbound>\n"); break; case '^': printf("<Misc> %c\n",uc->n); break; case '=': printf("<Reset> %d\n",uc->n); break; case '-': printf("<Rewind> %d\n",uc->n); break; case '+': printf("<Advance> %d\n",uc->n); break; case '\'': printf("<Play> %s (%d)\n",heromesh_key_names[uc->n],uc->n); break; case '!': printf("<System> %s",uc->txt); break; case 's': printf("<SQL> %s",sqlite3_sql(uc->stmt)); break; default: printf("<Unknown>\n"); } break; case SDL_QUIT: exit(0); break; } fatal("An error occurred waiting for events.\n"); scrolltest: SDL_FillRect(screen,0,0xF2); i=0; scrollbar(&i,10,n,0,0); draw_picture(16,screen->h/10,1); draw_picture(16,(2*screen->h)/10,2); draw_picture(16,(3*screen->h)/10,3); SDL_Flip(screen); set_cursor(XC_arrow); while(SDL_WaitEvent(&ev)) switch(ev.type) { case SDL_KEYDOWN: if(ev.key.keysym.sym==SDLK_SPACE) exit(0); break; case SDL_MOUSEBUTTONDOWN: case SDL_MOUSEBUTTONUP: scrollbar(&i,10,n,&ev,0); printf("scroll %d %d\n",i,n); break; case SDL_MOUSEMOTION: if(!scrollbar(&i,10,n,&ev,0)) set_cursor(XC_arrow); break; case SDL_VIDEOEXPOSE: SDL_FillRect(screen,0,0xF2); scrollbar(&i,10,n,&ev,0); draw_picture(16,screen->h/10,1); draw_picture(16,(2*screen->h)/10,2); draw_picture(16,(3*screen->h)/10,3); SDL_Flip(screen); break; case SDL_QUIT: exit(0); break; } fatal("An error occurred waiting for events.\n"); } static void do_sql_mode(void) { int m=sqlite3_limit(userdb,SQLITE_LIMIT_SQL_LENGTH,-1); char*txt; int n=0; int c; int bail=1; if(m>1000000) m=1000000; txt=malloc(m+2); if(!txt) fatal("Allocation failed\n"); for(;;) { c=fgetc(stdin); if(c=='\n' || c==EOF) { if(!n && c==EOF) break; if(!n) continue; if(*txt=='#') { n=0; } else if(*txt=='.') { txt[n]=0; n=0; switch(txt[1]) { case 'b': bail=strtol(txt+2,0,0); break; case 'f': sqlite3_db_cacheflush(userdb); sqlite3_db_release_memory(userdb); break; case 'i': puts(sqlite3_db_filename(userdb,"main")); break; case 'q': exit(0); break; case 'u': flush_usercache(); break; case 'x': sqlite3_enable_load_extension(userdb,strtol(txt+2,0,0)); break; default: fatal("Invalid dot command .%c\n",txt[1]); } fflush(stdout); } else { txt[n]=0; if(sqlite3_complete(txt)) { n=sqlite3_exec(userdb,txt,test_sql_callback,0,0); if(bail && n) fatal("SQL error (%d): %s\n",n,sqlite3_errmsg(userdb)); else if(n) fprintf(stderr,"SQL error (%d): %s\n",n,sqlite3_errmsg(userdb)); n=0; fflush(stdout); } else { txt[n++]='\n'; } } if(c==EOF) break; } else { txt[n++]=c; } if(n>=m) fatal("Too long SQL statement\n"); } if(n) fatal("Unterminated SQL statement\n"); free(txt); } #ifdef CONFIG_WITH_STACK_PROTECTION static void test_stack_protection(void) { fprintf(stderr,"Stack protection final values: %p %p %p\n",stack_protect_mark,stack_protect_low,stack_protect_high); } static void set_stack_protection(void) { const char*v; optionquery[1]=Q_stackProtection; v=xrm_get_resource(resourcedb,optionquery,optionquery,2); if(!v || !*v) return; stack_protect_mode=*v; if(*v=='?') { fprintf(stderr,"Stack protection test mode: %p\n",stack_protect_mark); stack_protect_low=stack_protect_high=stack_protect_mark; atexit(test_stack_protection); } else if(*v=='H') { v=malloc(strtoll(v+1,0,0)); fatal("%p %p :: %lld\n",v,stack_protect_mark,(long long)(((char*)stack_protect_mark)-v)); } if(v[1]) stack_protect_mark=((char*)stack_protect_mark)+strtoll(v+1,0,0); } #endif const char*log_if_error(const char*t) { if(t && main_options['v']) fprintf(stderr,"!! %s\n",t); return t; } static void set_tracing(void) { const char*v; int i; optionquery[1]=Q_traceAll; v=xrm_get_resource(resourcedb,optionquery,optionquery,2)?:""; if(boolxrm(v,0)) { memset(message_trace,255,sizeof(message_trace)); for(i=0;i<0x4000;i++) if(classes[i]) classes[i]->cflags|=CF_TRACEIN|CF_TRACEOUT; } } static inline void set_autosave(void) { const char*v; optionquery[1]=Q_autoSave; v=xrm_get_resource(resourcedb,optionquery,optionquery,2)?:""; if(boolxrm(v,0)) atexit(flush_usercache); } int main(int argc,char**argv) { int optind=1; while(argc>optind && argv[optind][0]=='-') { int i; const char*s=argv[optind++]; if(s[1]=='-' && !s[2]) break; for(i=1;s[i];i++) main_options[s[i]&127]=1; } setbuf(stderr,0); if(!main_options['c']) printStatus("FREE HERO MESH\n"); if(argc<=optind) fatal("usage: %s [switches] [--] basename [options...]\n",argc?argv[0]:"heromesh"); if(xrm_init(realloc)) fatal("Failed to initialize resource manager\n"); if(xrm_init_quarks(global_quarks)) fatal("Failed to initialize resource manager\n"); resourcedb=xrm_create(); if(!resourcedb) fatal("Allocation of resource database failed\n"); basefilename=argv[optind++]; if(argc>optind && argv[1][0]=='=') { globalclassname=argv[optind++]+1; } else if(find_globalclassname()) { globalclassname=strrchr(basefilename,'/'); globalclassname=globalclassname?globalclassname+1:basefilename; } if(main_options['z']) { if(main_options['p'] || main_options['f'] || main_options['e']) fatal("Switches are conflicting with -z\n"); main_options['r']=1; } if(main_options['n'] && main_options['i']) fatal("Switches -n and -i are conflicting\n"); if(main_options['n'] || main_options['i']) { if(main_options['r']) fatal("Switches -r and -%c are conflicting\n",main_options['i']?'i':'n'); main_options['x']=1; } if(main_options['a'] || main_options['O'] || main_options['S']) main_options['r']=main_options['x']=1; if(main_options['p']) main_options['r']=1; if(main_options['f']) main_options['x']=1; if(!main_options['c']) { set_path(argv[0]); load_options(); } if(argc>optind) read_options(argc-optind,argv+optind); *optionquery=xrm_make_quark(globalclassname,0)?:xrm_anyq; #ifdef CONFIG_WITH_STACK_PROTECTION stack_protect_mark=__builtin_frame_address(0); set_stack_protection(); #endif if(main_options['c']) { load_classes(); return 0; } init_sql(); init_screen(); if(main_options['p']) { run_picture_editor(); return 0; } if(main_options['z']) init_composite(); load_pictures(); if(main_options['T']) { printf("argv[0] = %s\n",argv[0]); init_sound(); if(main_options['+']) load_classes(); test_mode(); return 0; } if(main_options['n']) { new_puzzle_set(); return 0; } if(!main_options['z']) init_usercache(); if(screen) init_sound(); load_classes(); load_key_bindings(); load_level_index(); optionquery[1]=Q_maxObjects; max_objects=strtoll(xrm_get_resource(resourcedb,optionquery,optionquery,2)?:"",0,0)?:0xFFFF0000L; set_tracing(); annihilate(); optionquery[1]=Q_level; if(main_options['+']) { level_id=strtol(xrm_get_resource(resourcedb,optionquery,optionquery,2)?:"",0,10); if(log_if_error(load_level(level_id))) fatal("Cannot load level with specified ID\n"); } else if(level_ord=strtol(xrm_get_resource(resourcedb,optionquery,optionquery,2)?:"",0,10)) { if(level_ord>level_nindex) level_ord=level_nindex; log_if_error(load_level(-level_ord)); } optionquery[1]=Q_maxTrigger; max_trigger=strtol(xrm_get_resource(resourcedb,optionquery,optionquery,2)?:"",0,10); if(main_options['a']) run_auto_test(); if(main_options['O']) export_private_solutions(); if(main_options['S']) make_level_hashes(); if(main_options['x']) { if(main_options['i']) { batch_import(); if(main_options['f']) flush_usercache(); return 0; } else if(main_options['f']) { if(main_options['r']) fatal("Cannot flush user cache; puzzle set is read-only\n"); flush_usercache(); return 0; } printStatus("Ready for executing SQL statements.\n"); no_dead_anim=1; do_sql_mode(); return 0; } set_autosave(); for(;;) { if(main_options['e']) run_editor(); else run_game(); } }