// "Build Engine & Tools" Copyright (c) 1993-1997 Ken Silverman // Ken Silverman's official web site: "http://www.advsys.net/ken" // See the included license file "BUILDLIC.TXT" for license info. // // This file has been modified from Ken Silverman's original release // by Jonathon Fowler (jonof@edgenetwk.com) #define WITHKPLIB #include "compat.h" #include "cache1d.h" #include "pragmas.h" #include "baselayer.h" #ifdef WITHKPLIB #include "kplib.h" //Insert '|' in front of filename //Doing this tells kzopen to load the file only if inside a .ZIP file static intptr_t kzipopen(char *filnam) { unsigned int i; char newst[BMAX_PATH+4]; newst[0] = '|'; for (i=0;filnam[i] && (i < sizeof(newst)-2);i++) newst[i+1] = filnam[i]; newst[i+1] = 0; return(kzopen(newst)); } #endif // This module keeps track of a standard linear cacheing system. // To use this module, here's all you need to do: // // Step 1: Allocate a nice BIG buffer, like from 1MB-4MB and // Call initcache(int cachestart, int cachesize) where // // cachestart = (intptr_t)(pointer to start of BIG buffer) // cachesize = length of BIG buffer // // Step 2: Call allocache(intptr_t *bufptr, int bufsiz, char *lockptr) // whenever you need to allocate a buffer, where: // // *bufptr = pointer to multi-byte pointer to buffer // Confused? Using this method, cache2d can remove // previously allocated things from the cache safely by // setting the multi-byte pointer to 0. // bufsiz = number of bytes to allocate // *lockptr = pointer to locking char which tells whether // the region can be removed or not. If *lockptr = 0 then // the region is not locked else its locked. // // Step 3: If you need to remove everything from the cache, or every // unlocked item from the cache, you can call uninitcache(); // Call uninitcache(0) to remove all unlocked items, or // Call uninitcache(1) to remove everything. // After calling uninitcache, it is still ok to call allocache // without first calling initcache. #define MAXCACHEOBJECTS 9216 static int cachesize = 0; int cachecount = 0; char zerochar = 0; intptr_t cachestart = 0; int cacnum = 0, agecount = 0; typedef struct { intptr_t *hand;int leng; char *lock ; } cactype; cactype cac[MAXCACHEOBJECTS]; static int lockrecip[200]; static char toupperlookup[256]; extern void *kmalloc(size_t); extern void kfree(void *); static void reportandexit(char *errormessage); extern char pow2char[8]; void initcache(intptr_t dacachestart, int dacachesize) { int i; for (i=1;i<200;i++) lockrecip[i] = (1<<28)/(200-i); // The following code was relocated here from engine.c, since this // function is only ever called once (from there), and it seems to // really belong here: // // initcache((FP_OFF(pic)+15)&0xfffffff0,(cachesize-((-FP_OFF(pic))&15))&0xfffffff0); // // I'm not sure why it's necessary, but the code is making sure the // cache starts on a multiple of 16 bytes?? -- SA //printf("BEFORE: cachestart = %x, cachesize = %d\n", dacachestart, dacachesize); cachestart = ((uintptr_t)dacachestart+15)&~(uintptr_t)0xf; cachesize = (dacachesize-((-(uintptr_t)(dacachestart))&0xf))&~(uintptr_t)0xf; //printf("AFTER : cachestart = %x, cachesize = %d\n", cachestart, cachesize); cac[0].leng = cachesize; cac[0].lock = &zerochar; cacnum = 1; initprintf("Initialized %.1fM cache\n", (float)(dacachesize/1024.f/1024.f)); } void allocache(intptr_t *newhandle, int newbytes, char *newlockptr) { int i, /*j,*/ z, zz, bestz=0, daval, bestval, besto=0, o1, o2, sucklen, suckz; //printf(" ==> asking for %d bytes, ", newbytes); // Make all requests a multiple of 16 bytes newbytes = (newbytes+15)&0xfffffff0; //printf("allocated %d bytes\n", newbytes); if ((unsigned)newbytes > (unsigned)cachesize) { Bprintf("Cachesize: %d\n",cachesize); Bprintf("*Newhandle: 0x%" PRIxPTR ", Newbytes: %d, *Newlock: %d\n",(intptr_t)newhandle,newbytes,*newlockptr); reportandexit("BUFFER TOO BIG TO FIT IN CACHE!"); } if (*newlockptr == 0) { reportandexit("ALLOCACHE CALLED WITH LOCK OF 0!"); } //Find best place bestval = 0x7fffffff; o1 = cachesize; for (z=cacnum-1;z>=0;z--) { o1 -= cac[z].leng; o2 = o1+newbytes; if (o2 > cachesize) continue; daval = 0; for (i=o1,zz=z;i= 200) { daval = 0x7fffffff; break; } daval += mulscale32(cac[zz].leng+65536,lockrecip[*cac[zz].lock]); if (daval >= bestval) break; } if (daval < bestval) { bestval = daval; besto = o1; bestz = z; if (bestval == 0) break; } } //printf("%d %d %d\n",besto,newbytes,*newlockptr); if (bestval == 0x7fffffff) reportandexit("CACHE SPACE ALL LOCKED UP!"); //Suck things out for (sucklen=-newbytes,suckz=bestz;sucklen<0;sucklen+=cac[suckz++].leng) if (*cac[suckz].lock) *cac[suckz].hand = 0; //Remove all blocks except 1 suckz -= (bestz+1); cacnum -= suckz; copybufbyte(&cac[bestz+suckz],&cac[bestz],(cacnum-bestz)*sizeof(cactype)); cac[bestz].hand = newhandle; *newhandle = cachestart+(intptr_t)besto; cac[bestz].leng = newbytes; cac[bestz].lock = newlockptr; cachecount++; //Add new empty block if necessary if (sucklen <= 0) return; bestz++; if (bestz == cacnum) { cacnum++; if (cacnum > MAXCACHEOBJECTS) reportandexit("Too many objects in cache! (cacnum > MAXCACHEOBJECTS)"); cac[bestz].leng = sucklen; cac[bestz].lock = &zerochar; return; } if (*cac[bestz].lock == 0) { cac[bestz].leng += sucklen; return; } cacnum++; if (cacnum > MAXCACHEOBJECTS) reportandexit("Too many objects in cache! (cacnum > MAXCACHEOBJECTS)"); for (z=cacnum-1;z>bestz;z--) cac[z] = cac[z-1]; cac[bestz].leng = sucklen; cac[bestz].lock = &zerochar; } void suckcache(intptr_t *suckptr) { int i; //Can't exit early, because invalid pointer might be same even though lock = 0 for (i=0;i 0) && (*cac[i-1].lock == 0)) { cac[i-1].leng += cac[i].leng; cacnum--; copybuf(&cac[i+1],&cac[i],(cacnum-i)*sizeof(cactype)); } else if ((i < cacnum-1) && (*cac[i+1].lock == 0)) { cac[i+1].leng += cac[i].leng; cacnum--; copybuf(&cac[i+1],&cac[i],(cacnum-i)*sizeof(cactype)); } } } void agecache(void) { int cnt; char ch; if (agecount >= cacnum) agecount = cacnum-1; if (agecount < 0) return; for (cnt=(cacnum>>4);cnt>=0;cnt--) { ch = (*cac[agecount].lock); if (((ch-2)&255) < 198) (*cac[agecount].lock) = ch-1; agecount--; if (agecount < 0) agecount = cacnum-1; } } static void reportandexit(char *errormessage) { int i, j; //setvmode(0x3); j = 0; for (i=0;i typedef struct _searchpath { struct _searchpath *next; char *path; size_t pathlen; // to save repeated calls to strlen() } searchpath_t; static searchpath_t *searchpathhead = NULL; static size_t maxsearchpathlen = 0; int pathsearchmode = 0; int addsearchpath(const char *p) { struct stat st; char *s; searchpath_t *srch; if (Bstat(p, &st) < 0) { if (errno == ENOENT) return -2; return -1; } if (!(st.st_mode & BS_IFDIR)) return -1; srch = (searchpath_t*)malloc(sizeof(searchpath_t)); if (!srch) return -1; srch->next = searchpathhead; srch->pathlen = strlen(p)+1; srch->path = (char*)malloc(srch->pathlen + 1); if (!srch->path) { free(srch); return -1; } strcpy(srch->path, p); for (s=srch->path; *s; s++) ; s--; if (spath || toupperlookup[*s] != '/') strcat(srch->path, "/"); searchpathhead = srch; if (srch->pathlen > maxsearchpathlen) maxsearchpathlen = srch->pathlen; Bcorrectfilename(srch->path,0); initprintf("addsearchpath(): Added %s\n", srch->path); return 0; } int findfrompath(const char *fn, char **where) { searchpath_t *sp; char *pfn, *ffn; int allocsiz; // pathsearchmode == 0: tests current dir and then the dirs of the path stack // pathsearchmode == 1: tests fn without modification, then like for pathsearchmode == 0 if (pathsearchmode) { // test unmolested filename first if (access(fn, F_OK) >= 0) { *where = strdup(fn); return 0; } } for (pfn = (char*)fn; toupperlookup[*pfn] == '/'; pfn++); ffn = strdup(pfn); if (!ffn) return -1; Bcorrectfilename(ffn,0); // compress relative paths allocsiz = max(maxsearchpathlen, 2); // "./" (aka. curdir) allocsiz += strlen(ffn); allocsiz += 1; // a nul pfn = (char *)malloc(allocsiz); if (!pfn) { free(ffn); return -1; } strcpy(pfn, "./"); strcat(pfn, ffn); if (access(pfn, F_OK) >= 0) { *where = pfn; free(ffn); return 0; } for (sp = searchpathhead; sp; sp = sp->next) { strcpy(pfn, sp->path); strcat(pfn, ffn); //initprintf("Trying %s\n", pfn); if (access(pfn, F_OK) >= 0) { *where = pfn; free(ffn); return 0; } } free(pfn); free(ffn); return -1; } int openfrompath(const char *fn, int flags, int mode) { char *pfn; int h; if (findfrompath(fn, &pfn) < 0) return -1; h = Bopen(pfn, flags, mode); free(pfn); return h; } BFILE* fopenfrompath(const char *fn, const char *mode) { int fh; BFILE *h; int bmode = 0, smode = 0; const char *c; for (c=mode; c[0];) { if (c[0] == 'r' && c[1] == '+') { bmode = BO_RDWR; smode = BS_IREAD|BS_IWRITE; c+=2; } else if (c[0] == 'r') { bmode = BO_RDONLY; smode = BS_IREAD; c+=1; } else if (c[0] == 'w' && c[1] == '+') { bmode = BO_RDWR|BO_CREAT|BO_TRUNC; smode = BS_IREAD|BS_IWRITE; c+=2; } else if (c[0] == 'w') { bmode = BO_WRONLY|BO_CREAT|BO_TRUNC; smode = BS_IREAD|BS_IWRITE; c+=2; } else if (c[0] == 'a' && c[1] == '+') { bmode = BO_RDWR|BO_CREAT; smode=BS_IREAD|BS_IWRITE; c+=2; } else if (c[0] == 'a') { bmode = BO_WRONLY|BO_CREAT; smode=BS_IREAD|BS_IWRITE; c+=1; } else if (c[0] == 'b') { bmode |= BO_BINARY; c+=1; } else if (c[1] == 't') { bmode |= BO_TEXT; c+=1; } else c++; } fh = openfrompath(fn,bmode,smode); if (fh < 0) return NULL; h = fdopen(fh,mode); if (!h) close(fh); return h; } #define MAXGROUPFILES 8 //Warning: Fix groupfil if this is changed #define MAXOPENFILES 64 //Warning: Fix filehan if this is changed static char toupperlookup[256] = { 0x00,0x01,0x02,0x03,0x04,0x05,0x06,0x07,0x08,0x09,0x0a,0x0b,0x0c,0x0d,0x0e,0x0f, 0x10,0x11,0x12,0x13,0x14,0x15,0x16,0x17,0x18,0x19,0x1a,0x1b,0x1c,0x1d,0x1e,0x1f, 0x20,0x21,0x22,0x23,0x24,0x25,0x26,0x27,0x28,0x29,0x2a,0x2b,0x2c,0x2d,0x2e,0x2f, 0x30,0x31,0x32,0x33,0x34,0x35,0x36,0x37,0x38,0x39,0x3a,0x3b,0x3c,0x3d,0x3e,0x3f, 0x40,0x41,0x42,0x43,0x44,0x45,0x46,0x47,0x48,0x49,0x4a,0x4b,0x4c,0x4d,0x4e,0x4f, 0x50,0x51,0x52,0x53,0x54,0x55,0x56,0x57,0x58,0x59,0x5a,0x5b,0x5c,0x5d,0x5e,0x5f, 0x60,0x41,0x42,0x43,0x44,0x45,0x46,0x47,0x48,0x49,0x4a,0x4b,0x4c,0x4d,0x4e,0x4f, 0x50,0x51,0x52,0x53,0x54,0x55,0x56,0x57,0x58,0x59,0x5a,0x7b,0x7c,0x7d,0x7e,0x7f, 0x80,0x81,0x82,0x83,0x84,0x85,0x86,0x87,0x88,0x89,0x8a,0x8b,0x8c,0x8d,0x8e,0x8f, 0x90,0x91,0x92,0x93,0x94,0x95,0x96,0x97,0x98,0x99,0x9a,0x9b,0x9c,0x9d,0x9e,0x9f, 0xa0,0xa1,0xa2,0xa3,0xa4,0xa5,0xa6,0xa7,0xa8,0xa9,0xaa,0xab,0xac,0xad,0xae,0xaf, 0xb0,0xb1,0xb2,0xb3,0xb4,0xb5,0xb6,0xb7,0xb8,0xb9,0xba,0xbb,0xbc,0xbd,0xbe,0xbf, 0xc0,0xc1,0xc2,0xc3,0xc4,0xc5,0xc6,0xc7,0xc8,0xc9,0xca,0xcb,0xcc,0xcd,0xce,0xcf, 0xd0,0xd1,0xd2,0xd3,0xd4,0xd5,0xd6,0xd7,0xd8,0xd9,0xda,0xdb,0xdc,0xdd,0xde,0xdf, 0xe0,0xe1,0xe2,0xe3,0xe4,0xe5,0xe6,0xe7,0xe8,0xe9,0xea,0xeb,0xec,0xed,0xee,0xef, 0xf0,0xf1,0xf2,0xf3,0xf4,0xf5,0xf6,0xf7,0xf8,0xf9,0xfa,0xfb,0xfc,0xfd,0xfe,0xff }; int numgroupfiles = 0; static int gnumfiles[MAXGROUPFILES]; static int groupfil[MAXGROUPFILES] = {-1,-1,-1,-1,-1,-1,-1,-1}; static int groupfilpos[MAXGROUPFILES]; static char *gfilelist[MAXGROUPFILES]; static int *gfileoffs[MAXGROUPFILES]; static char filegrp[MAXOPENFILES]; static int filepos[MAXOPENFILES]; static intptr_t filehan[MAXOPENFILES] = { -1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1, -1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1, -1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1, -1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1 }; #ifdef WITHKPLIB static char filenamsav[MAXOPENFILES][260]; static int kzcurhand = -1; #endif int initgroupfile(char *filename) { char buf[16]; int i, j, k; #ifdef WITHKPLIB char *zfn; #endif #ifdef _WIN32 // on Windows, translate all backslashes (0x5c) to forward slashes (0x2f) toupperlookup[0x5c] = 0x2f; #endif #ifdef WITHKPLIB if (findfrompath(filename, &zfn) < 0) return -1; // check to see if the file passed is a ZIP and pass it on to kplib if it is i = Bopen(zfn,BO_BINARY|BO_RDONLY,BS_IREAD); if (i < 0) { free(zfn); return -1; } Bread(i, buf, 4); if (buf[0] == 0x50 && buf[1] == 0x4B && buf[2] == 0x03 && buf[3] == 0x04) { Bclose(i); j = kzaddstack(zfn); free(zfn); return j; } free(zfn); if (numgroupfiles >= MAXGROUPFILES) return(-1); Blseek(i,0,BSEEK_SET); groupfil[numgroupfiles] = i; #else groupfil[numgroupfiles] = openfrompath(filename,BO_BINARY|BO_RDONLY,BS_IREAD); if (groupfil[numgroupfiles] != -1) #endif { groupfilpos[numgroupfiles] = 0; Bread(groupfil[numgroupfiles],buf,16); if ((buf[0] != 'K') || (buf[1] != 'e') || (buf[2] != 'n') || (buf[3] != 'S') || (buf[4] != 'i') || (buf[5] != 'l') || (buf[6] != 'v') || (buf[7] != 'e') || (buf[8] != 'r') || (buf[9] != 'm') || (buf[10] != 'a') || (buf[11] != 'n')) { Bclose(groupfil[numgroupfiles]); groupfil[numgroupfiles] = -1; return(-1); } gnumfiles[numgroupfiles] = B_LITTLE32(*((int *)&buf[12])); if ((gfilelist[numgroupfiles] = (char *)kmalloc(gnumfiles[numgroupfiles]<<4)) == 0) { Bprintf("Not enough memory for file grouping system\n"); exit(0); } if ((gfileoffs[numgroupfiles] = (int *)kmalloc((gnumfiles[numgroupfiles]+1)<<2)) == 0) { Bprintf("Not enough memory for file grouping system\n"); exit(0); } Bread(groupfil[numgroupfiles],gfilelist[numgroupfiles],gnumfiles[numgroupfiles]<<4); j = 0; for (i=0;i=0;i--) if (groupfil[i] != -1 && groupfil[i] == grphandle) { kfree(gfilelist[i]); kfree(gfileoffs[i]); Bclose(groupfil[i]); groupfil[i] = -1; grpnum = i; break; } if (grpnum == -1) return; // JBF 20040111 numgroupfiles--; // move any group files following this one back for (i=grpnum+1; i= 254) // external file (255) or ZIPped file (254) continue; else if (filegrp[i] == grpnum) // close file in group we closed filehan[i] = -1; else if (filegrp[i] > grpnum) // move back a file in a group after the one we closed filegrp[i]--; } } void uninitgroupfile(void) { int i; for (i=numgroupfiles-1;i>=0;i--) if (groupfil[i] != -1) { kfree(gfilelist[i]); kfree(gfileoffs[i]); Bclose(groupfil[i]); groupfil[i] = -1; } numgroupfiles = 0; // JBF 20040111: "close" any files open in groups for (i=0;i= 0) { filegrp[newhandle] = 255; filehan[newhandle] = fil; filepos[newhandle] = 0; return(newhandle); } for (; toupperlookup[*filename] == '/'; filename++); #ifdef WITHKPLIB if ((kzcurhand != newhandle) && (kztell() >= 0)) { if (kzcurhand >= 0) filepos[kzcurhand] = kztell(); kzclose(); } if (searchfirst != 1 && (i = kzipopen(filename)) != 0) { kzcurhand = newhandle; filegrp[newhandle] = 254; filehan[newhandle] = i; filepos[newhandle] = 0; strcpy(filenamsav[newhandle],filename); return newhandle; } #endif for (k=numgroupfiles-1;k>=0;k--) { if (searchfirst == 1) k = 0; if (groupfil[k] >= 0) { for (i=gnumfiles[k]-1;i>=0;i--) { gfileptr = (char *)&gfilelist[k][i<<4]; bad = 0; for (j=0;j<13;j++) { if (!filename[j]) break; if (toupperlookup[filename[j]] != toupperlookup[gfileptr[j]]) { bad = 1; break; } } if (bad) continue; if (j<13 && gfileptr[j]) continue; // JBF: because e1l1.map might exist before e1l1 if (j==13 && filename[j]) continue; // JBF: int file name filegrp[newhandle] = k; filehan[newhandle] = i; filepos[newhandle] = 0; return(newhandle); } } } return(-1); } int kread(int handle, void *buffer, int leng) { int i, filenum, groupnum; filenum = filehan[handle]; groupnum = filegrp[handle]; if (groupnum == 255) return(Bread(filenum,buffer,leng)); #ifdef WITHKPLIB else if (groupnum == 254) { if (kzcurhand != handle) { if (kztell() >= 0) { filepos[kzcurhand] = kztell(); kzclose(); } kzcurhand = handle; kzipopen(filenamsav[handle]); kzseek(filepos[handle],SEEK_SET); } return(kzread(buffer,leng)); } #endif if (groupfil[groupnum] != -1) { i = gfileoffs[groupnum][filenum]+filepos[handle]; if (i != groupfilpos[groupnum]) { Blseek(groupfil[groupnum],i+((gnumfiles[groupnum]+1)<<4),BSEEK_SET); groupfilpos[groupnum] = i; } leng = min(leng,(gfileoffs[groupnum][filenum+1]-gfileoffs[groupnum][filenum])-filepos[handle]); leng = Bread(groupfil[groupnum],buffer,leng); filepos[handle] += leng; groupfilpos[groupnum] += leng; return(leng); } return(0); } int klseek(int handle, int offset, int whence) { int i, groupnum; groupnum = filegrp[handle]; if (groupnum == 255) return(Blseek(filehan[handle],offset,whence)); #ifdef WITHKPLIB else if (groupnum == 254) { if (kzcurhand != handle) { if (kztell() >= 0) { filepos[kzcurhand] = kztell(); kzclose(); } kzcurhand = handle; kzipopen(filenamsav[handle]); kzseek(filepos[handle],SEEK_SET); } return(kzseek(offset,whence)); } #endif if (groupfil[groupnum] != -1) { switch (whence) { case BSEEK_SET: filepos[handle] = offset; break; case BSEEK_END: i = filehan[handle]; filepos[handle] = (gfileoffs[groupnum][i+1]-gfileoffs[groupnum][i])+offset; break; case BSEEK_CUR: filepos[handle] += offset; break; } return(filepos[handle]); } return(-1); } int kfilelength(int handle) { int i, groupnum; groupnum = filegrp[handle]; if (groupnum == 255) { // return(filelength(filehan[handle])) return Bfilelength(filehan[handle]); } #ifdef WITHKPLIB else if (groupnum == 254) { if (kzcurhand != handle) { if (kztell() >= 0) { filepos[kzcurhand] = kztell(); kzclose(); } kzcurhand = handle; kzipopen(filenamsav[handle]); kzseek(filepos[handle],SEEK_SET); } return kzfilelength(); } #endif i = filehan[handle]; return(gfileoffs[groupnum][i+1]-gfileoffs[groupnum][i]); } int ktell(int handle) { int groupnum = filegrp[handle]; if (groupnum == 255) return(Blseek(filehan[handle],0,BSEEK_CUR)); #ifdef WITHKPLIB else if (groupnum == 254) { if (kzcurhand != handle) { if (kztell() >= 0) { filepos[kzcurhand] = kztell(); kzclose(); } kzcurhand = handle; kzipopen(filenamsav[handle]); kzseek(filepos[handle],SEEK_SET); } return kztell(); } #endif if (groupfil[groupnum] != -1) return filepos[handle]; return(-1); } void kclose(int handle) { if (handle < 0) return; if (filegrp[handle] == 255) Bclose(filehan[handle]); #ifdef WITHKPLIB else if (filegrp[handle] == 254) { kzclose(); kzcurhand = -1; } #endif filehan[handle] = -1; } static int klistaddentry(CACHE1D_FIND_REC **rec, char *name, int type, int source) { CACHE1D_FIND_REC *r = NULL, *attach = NULL; if (*rec) { int insensitive, v; CACHE1D_FIND_REC *last = NULL; for (attach = *rec; attach; last = attach, attach = attach->next) { if (type == CACHE1D_FIND_DRIVE) continue; // we just want to get to the end for drives #ifdef _WIN32 insensitive = 1; #else if (source == CACHE1D_SOURCE_GRP || attach->source == CACHE1D_SOURCE_GRP) insensitive = 1; else if (source == CACHE1D_SOURCE_ZIP || attach->source == CACHE1D_SOURCE_ZIP) insensitive = 1; else insensitive = 0; #endif if (insensitive) v = Bstrcasecmp(name, attach->name); else v = Bstrcmp(name, attach->name); // sorted list if (v > 0) continue; // item to add is bigger than the current one // so look for something bigger than us if (v < 0) // item to add is smaller than the current one { attach = NULL; // so wedge it between the current item and the one before break; } // matched if (source >= attach->source) return 1; // item to add is of lower priority r = attach; break; } // wasn't found in the list, so attach to the end if (!attach) attach = last; } if (r) { r->type = type; r->source = source; return 0; } r = (CACHE1D_FIND_REC *)malloc(sizeof(CACHE1D_FIND_REC)+strlen(name)+1); if (!r) return -1; r->name = (char*)r + sizeof(CACHE1D_FIND_REC); strcpy(r->name, name); r->type = type; r->source = source; r->usera = r->userb = NULL; if (!attach) // we are the first item { r->prev = NULL; r->next = *rec; if (*rec)(*rec)->prev = r; *rec = r; } else { r->prev = attach; r->next = attach->next; if (attach->next) attach->next->prev = r; attach->next = r; } return 0; } void klistfree(CACHE1D_FIND_REC *rec) { CACHE1D_FIND_REC *n; while (rec) { n = rec->next; free(rec); rec = n; } } CACHE1D_FIND_REC *klistpath(const char *_path, const char *mask, int type) { CACHE1D_FIND_REC *rec = NULL; char *path; // pathsearchmode == 0: enumerates a path in the virtual filesystem // pathsearchmode == 1: enumerates the system filesystem path passed in path = strdup(_path); if (!path) return NULL; // we don't need any leading dots and slashes or trailing slashes either { int i,j; for (i=0; path[i] == '.' || toupperlookup[path[i]] == '/';) i++; for (j=0; (path[j] = path[i]); j++,i++) ; while (j>0 && toupperlookup[path[j-1]] == '/') j--; path[j] = 0; //initprintf("Cleaned up path = \"%s\"\n",path); } if (*path && (type & CACHE1D_FIND_DIR)) { if (klistaddentry(&rec, "..", CACHE1D_FIND_DIR, CACHE1D_SOURCE_CURDIR) < 0) goto failure; } if (!(type & CACHE1D_OPT_NOSTACK)) // current directory and paths in the search stack { searchpath_t *search = NULL; BDIR *dir; struct Bdirent *dirent; // Adjusted for the following "autoload" dir fix - NY00123 const char *d = "./"; int stackdepth = CACHE1D_SOURCE_CURDIR; char buf[BMAX_PATH]; if (pathsearchmode) d = _path; do { if (!pathsearchmode) { // Fix for "autoload" dir in multi-user environments - NY00123 strcpy(buf, d); strcat(buf, path); if (*path) strcat(buf, "/"); } else strcpy(buf, d); dir = Bopendir(buf); if (dir) { while ((dirent = Breaddir(dir))) { if ((dirent->name[0] == '.' && dirent->name[1] == 0) || (dirent->name[0] == '.' && dirent->name[1] == '.' && dirent->name[2] == 0)) continue; if ((type & CACHE1D_FIND_DIR) && !(dirent->mode & BS_IFDIR)) continue; if ((type & CACHE1D_FIND_FILE) && (dirent->mode & BS_IFDIR)) continue; if (!Bwildmatch(dirent->name, mask)) continue; switch (klistaddentry(&rec, dirent->name, (dirent->mode & BS_IFDIR) ? CACHE1D_FIND_DIR : CACHE1D_FIND_FILE, stackdepth)) { case -1: goto failure; //case 1: initprintf("%s:%s dropped for lower priority\n", d,dirent->name); break; //case 0: initprintf("%s:%s accepted\n", d,dirent->name); break; default: break; } } Bclosedir(dir); } if (pathsearchmode) break; if (!search) { search = searchpathhead; stackdepth = CACHE1D_SOURCE_PATH; } else { search = search->next; stackdepth++; } if (search) d = search->path; } while (search); } if (!pathsearchmode) // next, zip files { char buf[BMAX_PATH]; int i, j, ftype; strcpy(buf,path); if (*path) strcat(buf,"/"); strcat(buf,mask); for (kzfindfilestart(buf); kzfindfile(buf);) { if (buf[0] != '|') continue; // local files we don't need // scan for the end of the string and shift // everything left a char in the process for (i=1; (buf[i-1]=buf[i]); i++) ; i-=2; // if there's a slash at the end, this is a directory entry if (toupperlookup[buf[i]] == '/') { ftype = CACHE1D_FIND_DIR; buf[i] = 0; } else ftype = CACHE1D_FIND_FILE; // skip over the common characters at the beginning of the base path and the zip entry for (j=0; buf[j] && path[j]; j++) { if (toupperlookup[ path[j] ] == toupperlookup[ buf[j] ]) continue; break; } // we've now hopefully skipped the common path component at the beginning. // if that's true, we should be staring at a null byte in path and either any character in buf // if j==0, or a slash if j>0 if ((!path[0] && buf[j]) || (!path[j] && toupperlookup[ buf[j] ] == '/')) { if (j>0) j++; // yep, so now we shift what follows back to the start of buf and while we do that, // keep an eye out for any more slashes which would mean this entry has sub-entities // and is useless to us. for (i = 0; (buf[i] = buf[j]) && toupperlookup[buf[j]] != '/'; i++,j++) ; if (toupperlookup[buf[j]] == '/') continue; // damn, try next entry } else { // if we're here it means we have a situation where: // path = foo // buf = foobar... // or // path = foobar // buf = foo... // which would mean the entry is higher up in the directory tree and is also useless continue; } if ((type & CACHE1D_FIND_DIR) && ftype != CACHE1D_FIND_DIR) continue; if ((type & CACHE1D_FIND_FILE) && ftype != CACHE1D_FIND_FILE) continue; // the entry is in the clear switch (klistaddentry(&rec, buf, ftype, CACHE1D_SOURCE_ZIP)) { case -1: goto failure; //case 1: initprintf(":%s dropped for lower priority\n", buf); break; //case 0: initprintf(":%s accepted\n", buf); break; default: break; } } } // then, grp files if (!pathsearchmode && !*path && (type & CACHE1D_FIND_FILE)) { char buf[13]; int i,j; buf[12] = 0; for (i=0;i=0;j--) { Bmemcpy(buf,&gfilelist[i][j<<4],12); if (!Bwildmatch(buf,mask)) continue; switch (klistaddentry(&rec, buf, CACHE1D_FIND_FILE, CACHE1D_SOURCE_GRP)) { case -1: goto failure; //case 1: initprintf(":%s dropped for lower priority\n", workspace); break; //case 0: initprintf(":%s accepted\n", workspace); break; default: break; } } } } if (pathsearchmode && (type & CACHE1D_FIND_DRIVE)) { char *drives, *drp; drives = Bgetsystemdrives(); if (drives) { for (drp=drives; *drp; drp+=strlen(drp)+1) { if (klistaddentry(&rec, drp, CACHE1D_FIND_DRIVE, CACHE1D_SOURCE_DRIVE) < 0) { free(drives); goto failure; } } free(drives); } } free(path); return rec; failure: free(path); klistfree(rec); return NULL; } //Internal LZW variables #define LZWSIZE 16384 //Watch out for shorts! static char *lzwbuf1, *lzwbuf4, *lzwbuf5, lzwbuflock[5]; static short *lzwbuf2, *lzwbuf3; static int lzwcompress(char *lzwinbuf, int uncompleng, char *lzwoutbuf); static int lzwuncompress(char *lzwinbuf, int compleng, char *lzwoutbuf); int kdfread(void *buffer, bsize_t dasizeof, bsize_t count, int fil) { unsigned int i, j, k, kgoal; short leng; char *ptr; lzwbuflock[0] = lzwbuflock[1] = lzwbuflock[2] = lzwbuflock[3] = lzwbuflock[4] = 200; if (lzwbuf1 == NULL) allocache((intptr_t *)&lzwbuf1,LZWSIZE+(LZWSIZE>>4),&lzwbuflock[0]); if (lzwbuf2 == NULL) allocache((intptr_t *)&lzwbuf2,(LZWSIZE+(LZWSIZE>>4))*2,&lzwbuflock[1]); if (lzwbuf3 == NULL) allocache((intptr_t *)&lzwbuf3,(LZWSIZE+(LZWSIZE>>4))*2,&lzwbuflock[2]); if (lzwbuf4 == NULL) allocache((intptr_t *)&lzwbuf4,LZWSIZE,&lzwbuflock[3]); if (lzwbuf5 == NULL) allocache((intptr_t *)&lzwbuf5,LZWSIZE+(LZWSIZE>>4),&lzwbuflock[4]); if (dasizeof > LZWSIZE) { count *= dasizeof; dasizeof = 1; } ptr = (char *)buffer; if (kread(fil,&leng,2) != 2) return -1; leng = B_LITTLE16(leng); if (kread(fil,lzwbuf5,(int)leng) != leng) return -1; k = 0; kgoal = lzwuncompress(lzwbuf5,(int)leng,lzwbuf4); copybufbyte(lzwbuf4,ptr,(int)dasizeof); k += (int)dasizeof; for (i=1;i= kgoal) { if (kread(fil,&leng,2) != 2) return -1; leng = B_LITTLE16(leng); if (kread(fil,lzwbuf5,(int)leng) != leng) return -1; k = 0; kgoal = lzwuncompress(lzwbuf5,(int)leng,lzwbuf4); } for (j=0;j>4),&lzwbuflock[0]); if (lzwbuf2 == NULL) allocache((intptr_t *)&lzwbuf2,(LZWSIZE+(LZWSIZE>>4))*2,&lzwbuflock[1]); if (lzwbuf3 == NULL) allocache((intptr_t *)&lzwbuf3,(LZWSIZE+(LZWSIZE>>4))*2,&lzwbuflock[2]); if (lzwbuf4 == NULL) allocache((intptr_t *)&lzwbuf4,LZWSIZE,&lzwbuflock[3]); if (lzwbuf5 == NULL) allocache((intptr_t *)&lzwbuf5,LZWSIZE+(LZWSIZE>>4),&lzwbuflock[4]); if (dasizeof > LZWSIZE) { count *= dasizeof; dasizeof = 1; } ptr = (char *)buffer; if (Bfread(&leng,2,1,fil) != 1) return -1; leng = B_LITTLE16(leng); if (Bfread(lzwbuf5,(int)leng,1,fil) != 1) return -1; k = 0; kgoal = lzwuncompress(lzwbuf5,(int)leng,lzwbuf4); copybufbyte(lzwbuf4,ptr,(int)dasizeof); k += (int)dasizeof; for (i=1;i= kgoal) { if (Bfread(&leng,2,1,fil) != 1) return -1; leng = B_LITTLE16(leng); if (Bfread(lzwbuf5,(int)leng,1,fil) != 1) return -1; k = 0; kgoal = lzwuncompress(lzwbuf5,(int)leng,lzwbuf4); } for (j=0;j>4),&lzwbuflock[0]); if (lzwbuf2 == NULL) allocache((intptr_t *)&lzwbuf2,(LZWSIZE+(LZWSIZE>>4))*2,&lzwbuflock[1]); if (lzwbuf3 == NULL) allocache((intptr_t *)&lzwbuf3,(LZWSIZE+(LZWSIZE>>4))*2,&lzwbuflock[2]); if (lzwbuf4 == NULL) allocache((intptr_t *)&lzwbuf4,LZWSIZE,&lzwbuflock[3]); if (lzwbuf5 == NULL) allocache((intptr_t *)&lzwbuf5,LZWSIZE+(LZWSIZE>>4),&lzwbuflock[4]); if (dasizeof > LZWSIZE) { count *= dasizeof; dasizeof = 1; } ptr = (char *)buffer; copybufbyte(ptr,lzwbuf4,(int)dasizeof); k = dasizeof; if (k > LZWSIZE-dasizeof) { leng = (short)lzwcompress(lzwbuf4,k,lzwbuf5); k = 0; swleng = B_LITTLE16(leng); Bwrite(fil,&swleng,2); Bwrite(fil,lzwbuf5,(int)leng); } for (i=1;i LZWSIZE-dasizeof) { leng = (short)lzwcompress(lzwbuf4,k,lzwbuf5); k = 0; swleng = B_LITTLE16(leng); Bwrite(fil,&swleng,2); Bwrite(fil,lzwbuf5,(int)leng); } ptr += dasizeof; } if (k > 0) { leng = (short)lzwcompress(lzwbuf4,k,lzwbuf5); swleng = B_LITTLE16(leng); Bwrite(fil,&swleng,2); Bwrite(fil,lzwbuf5,(int)leng); } lzwbuflock[0] = lzwbuflock[1] = lzwbuflock[2] = lzwbuflock[3] = lzwbuflock[4] = 1; } void dfwrite(void *buffer, bsize_t dasizeof, bsize_t count, BFILE *fil) { unsigned int i, j, k; short leng, swleng; char *ptr; lzwbuflock[0] = lzwbuflock[1] = lzwbuflock[2] = lzwbuflock[3] = lzwbuflock[4] = 200; if (lzwbuf1 == NULL) allocache((intptr_t *)&lzwbuf1,LZWSIZE+(LZWSIZE>>4),&lzwbuflock[0]); if (lzwbuf2 == NULL) allocache((intptr_t *)&lzwbuf2,(LZWSIZE+(LZWSIZE>>4))*2,&lzwbuflock[1]); if (lzwbuf3 == NULL) allocache((intptr_t *)&lzwbuf3,(LZWSIZE+(LZWSIZE>>4))*2,&lzwbuflock[2]); if (lzwbuf4 == NULL) allocache((intptr_t *)&lzwbuf4,LZWSIZE,&lzwbuflock[3]); if (lzwbuf5 == NULL) allocache((intptr_t *)&lzwbuf5,LZWSIZE+(LZWSIZE>>4),&lzwbuflock[4]); if (dasizeof > LZWSIZE) { count *= dasizeof; dasizeof = 1; } ptr = (char *)buffer; copybufbyte(ptr,lzwbuf4,(int)dasizeof); k = dasizeof; if (k > LZWSIZE-dasizeof) { leng = (short)lzwcompress(lzwbuf4,k,lzwbuf5); k = 0; swleng = B_LITTLE16(leng); Bfwrite(&swleng,2,1,fil); Bfwrite(lzwbuf5,(int)leng,1,fil); } for (i=1;i LZWSIZE-dasizeof) { leng = (short)lzwcompress(lzwbuf4,k,lzwbuf5); k = 0; swleng = B_LITTLE16(leng); Bfwrite(&swleng,2,1,fil); Bfwrite(lzwbuf5,(int)leng,1,fil); } ptr += dasizeof; } if (k > 0) { leng = (short)lzwcompress(lzwbuf4,k,lzwbuf5); swleng = B_LITTLE16(leng); Bfwrite(&swleng,2,1,fil); Bfwrite(lzwbuf5,(int)leng,1,fil); } lzwbuflock[0] = lzwbuflock[1] = lzwbuflock[2] = lzwbuflock[3] = lzwbuflock[4] = 1; } static int lzwcompress(char *lzwinbuf, int uncompleng, char *lzwoutbuf) { int i, addr, newaddr, addrcnt, zx, *intptr; int bytecnt1, bitcnt, numbits, oneupnumbits; short *shortptr; for (i=255;i>=0;i--) { lzwbuf1[i] = i; lzwbuf3[i] = (i+1)&255; } clearbuf(lzwbuf2,256>>1,0xffffffff); clearbuf(lzwoutbuf,((uncompleng+15)+3)>>2,0L); addrcnt = 256; bytecnt1 = 0; bitcnt = (4<<3); numbits = 8; oneupnumbits = (1<<8); do { addr = lzwinbuf[bytecnt1]; do { bytecnt1++; if (bytecnt1 == uncompleng) break; if (lzwbuf2[addr] < 0) {lzwbuf2[addr] = addrcnt; break;} newaddr = lzwbuf2[addr]; while (lzwbuf1[newaddr] != lzwinbuf[bytecnt1]) { zx = lzwbuf3[newaddr]; if (zx < 0) {lzwbuf3[newaddr] = addrcnt; break;} newaddr = zx; } if (lzwbuf3[newaddr] == addrcnt) break; addr = newaddr; } while (addr >= 0); lzwbuf1[addrcnt] = lzwinbuf[bytecnt1]; lzwbuf2[addrcnt] = -1; lzwbuf3[addrcnt] = -1; intptr = (int *)&lzwoutbuf[bitcnt>>3]; intptr[0] |= B_LITTLE32(addr<<(bitcnt&7)); bitcnt += numbits; if ((addr&((oneupnumbits>>1)-1)) > ((addrcnt-1)&((oneupnumbits>>1)-1))) bitcnt--; addrcnt++; if (addrcnt > oneupnumbits) { numbits++; oneupnumbits <<= 1; } } while ((bytecnt1 < uncompleng) && (bitcnt < (uncompleng<<3))); intptr = (int *)&lzwoutbuf[bitcnt>>3]; intptr[0] |= B_LITTLE32(addr<<(bitcnt&7)); bitcnt += numbits; if ((addr&((oneupnumbits>>1)-1)) > ((addrcnt-1)&((oneupnumbits>>1)-1))) bitcnt--; shortptr = (short *)lzwoutbuf; shortptr[0] = B_LITTLE16((short)uncompleng); if (((bitcnt+7)>>3) < uncompleng) { shortptr[1] = B_LITTLE16((short)addrcnt); return((bitcnt+7)>>3); } shortptr[1] = (short)0; for (i=0;i>2); return((int)B_LITTLE16(shortptr[0])); //uncompleng } for (i=255;i>=0;i--) { lzwbuf2[i] = i; lzwbuf3[i] = i; } currstr = 256; bitcnt = (4<<3); outbytecnt = 0; numbits = 8; oneupnumbits = (1<<8); do { intptr = (int *)&lzwinbuf[bitcnt>>3]; dat = ((B_LITTLE32(intptr[0])>>(bitcnt&7)) & (oneupnumbits-1)); bitcnt += numbits; if ((dat&((oneupnumbits>>1)-1)) > ((currstr-1)&((oneupnumbits>>1)-1))) { dat &= ((oneupnumbits>>1)-1); bitcnt--; } lzwbuf3[currstr] = dat; for (leng=0;dat>=256;leng++,dat=lzwbuf3[dat]) lzwbuf1[leng] = lzwbuf2[dat]; lzwoutbuf[outbytecnt++] = dat; for (i=leng-1;i>=0;i--) lzwoutbuf[outbytecnt++] = lzwbuf1[i]; lzwbuf2[currstr-1] = dat; lzwbuf2[currstr] = dat; currstr++; if (currstr > oneupnumbits) { numbits++; oneupnumbits <<= 1; } } while (currstr < strtot); return((int)B_LITTLE16(shortptr[0])); //uncompleng } /* * vim:ts=4:sw=4: */