char *ckzv = "Amiga file support $Id: ckifio.c,v 1.13 1999/09/12 00:28:28 swalton Exp swalton $"; /* C K I F I O -- Kermit file system support for the Amiga */ /* Author: Frank da Cruz (SY.FDC@CU20B), Columbia University Center for Computing Activities, January 1985. Modified for Amiga by Jack J. Rouse, The Software Distillery Further modified for C Kermit version 4F(095) by Stephen Walton, California State University, Northridge, ecphssrw@afws.csun.edu Copyright (C) 1985, 1992, Trustees of Columbia University in the City of New York. Permission is granted to any individual or institution to use this software as long as it is not sold for profit. This copyright notice must be retained. This software may not be included in commercial products without written permission of Columbia University. * $Log: ckifio.c,v $ * Revision 1.13 1999/09/12 00:28:28 swalton * Purely administrative checkin of 1.12 due to lost RCS file. * * Revision 1.12 1998/04/17 04:13:16 swalton * Amiga version of isdir() added, so CK_TMPDIR can now be used. * chkfn() function replaced with current version from ckufio.c * * Revision 1.11 1996/11/29 21:56:54 swalton * StatToTime() is stubbed out for SAS/C (returns its argument), since, * unlike Aztec, the stat() function returns time to the same standard * as the time() function. * * Revision 1.10 1996/11/25 14:58:27 swalton * Fixed a couple of includes and changed the "access" element of the file * attribute structure to "xaccess". * * Revision 1.9 94/07/26 16:38:59 swalton * Added zfseek() to support RESEND. Changed spelling of item in file type * buffer from passwd to password. * * Revision 1.8 93/08/03 08:28:44 swalton * Changed include of SAS and Aztec-specific include files to Amiga * standard (clib/ and pragmas/). * * Revision 1.7 92/10/30 16:11:42 swalton * Added code to call SetCurrentDirName() if and only if ROM version * is greater than 37. Depends on the extern int v37, set in ckitio.c. * * Revision 1.6 92/01/15 17:14:16 swalton * Delete the Aztec StatToTime function, as it is now identical to the * Lattice one. * * Also used Id rather than Header in the RCS ID string. * * Revision 1.5 91/07/18 16:01:59 swalton * zxcmd() fixed to work properly. I had accidentally copied the first part * of the Unix version, which dealt with Kermit sending its received data * to a command as its input. Amiga Kermit doesn't support this, but does * support sending the output of a command to a remote Kermit via the * pipeopen() routine in ckiutl.c. * * Revision 1.4 91/05/29 09:08:17 swalton * 1. Changed function definitions to prototype style. Required adding * a few forward declarations. * 2. Removed includes of stdio.h, stdlib.h, and string.h, as they are * now pulled in by ckcdeb.h, provided we compile with -DCK_ANSILIBS. * * Revision 1.3 90/11/19 21:46:11 swalton * Modifications for compiling with SAS/C Version 5.10, courtesy of * Larry Rosenman (ler@lerami.lonestar.org, ler on BIX) * * Revision 1.2 90/11/07 14:40:57 swalton * Version 1.2--released to world as first beta test version simultaneously * with release of edit 5A(160). * * Revision 1.1 90/07/12 07:56:05 swalton * Fairly extensive modifications to bring Amiga Kermit up to Version 5A, edit * 149. Most of the changes can be discerned by reading ckasys.doc, the C Kermit * interface document and looking for the items flagged *NEW*. * * Revision 1.0 90/04/30 11:54:31 swalton * Initial revision * */ /* Includes */ #define LONG /* Prevent LONG definition from coming from ckcdeb.h, as it conflicts with exec/type.h */ #include "ckcdeb.h" /* Typedefs, formats for debug() */ #undef LONG #undef ULONG #undef USHORT #undef UWORD #include "ckcker.h" #include "ckcasc.h" #if AZTEC_C #include #endif #if __SASC #include #include #include #endif #include #include #include #include #include #include #include #include /* for prototypes for write() and read() */ #define MAXNAMLEN 30 #ifdef AZTEC_C char *ckzsys = " Amiga (Aztec C)"; #endif #ifdef __SASC char *ckzsys = " Amiga (SAS/C)"; #endif /* Definitions of some Amiga system commands */ char *DIRCMD = "list "; /* For directory listing */ char *DIRCM2 = "list "; /* Also for directory listing. */ char *DELCMD = "delete "; /* For file deletion */ char *TYPCMD = "type "; /* For typing a file */ char *PWDCMD = "cd "; /* For saying where I am */ char *SPACMD = "info "; char *SPACM2 = "info "; /* should be space in specified directory */ char *WHOCMD = "status "; /* Check process status */ #define MAXWLD 300 /* Functions (n is one of the predefined file numbers from ckermi.h): zopeni(n,name) -- Opens an existing file for input. zopeno(n,name,attr,fcb) -- Opens a new file for output. zclose(n) -- Closes a file. zchin(n,&c) -- Gets the next character from an input file. zsinl(n,s,x) -- Reads a line from file number n. zsout(n,s) -- Write a null-terminated string to output file, buffered. zsoutl(n,s) -- Like zsout, but appends a line terminator. zsoutx(n,s,x) -- Write x characters to output file, unbuffered. zchout(n,c) -- Add a character to an output file, unbuffered. zchki(name) -- Check if named file exists and is readable, return size. zchko(name) -- Check if named file can be created. zchkspa(fn, len) -- Check if there is enough space for file. znewn(name,s) -- Make a new unique file name based on the given name. zdelet(name) -- Delete the named file. zxpand(string) -- Expands the given wildcard string into a list of files. znext(string) -- Returns the next file from the list in "string". zxcmd(n,cmd) -- Execute the command in a lower fork on file number n. zclosf(n) -- Close input file associated with zxcmd()'s lower fork. zrtol(n1,n2) -- Convert remote filename into local form. zltor(n1,n2) -- Convert local filename into remote form. zstrip(n1, n2) -- Find trailing path component of n1 and return pointer zchdir(dirnam) -- Change working directory. zhome() -- Return pointer to home directory name string. zkself() -- Kill self, log out own job (simply exits) zsattr(struct zattr *) -- Return attributes for file which is being sent. zstime(f, struct zattr *, x) - Set file creation date from attribute packet. zrename(old, new) -- Rename a file. zshcmd(s,local) -- Execute a shell command and redirect its output, if necessary (see ckasys.doc) */ /* Declarations */ FILE *fp[ZNFILS] = { /* File pointers */ NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL }; /* (PWP) external def. of things used in buffered file input and output */ #ifdef DYNAMIC extern CHAR *zinbuffer, *zoutbuffer; #else extern CHAR zinbuffer[], zoutbuffer[]; #endif /* DYNAMIC */ extern CHAR *zinptr, *zoutptr; extern int zincnt, zoutcnt; static long iflen = -1; /* Input file length. */ static int fcount; /* Number of files in wild group */ static char nambuf[MAXNAMLEN+2]; /* Buffer for a filename */ char *mtchs[MAXWLD], /* Matches found for filename */ **mtchptr; /* Pointer to current match */ extern short v37; /* Are we 2.0 or greater? */ /* utility functions from ckiutl.c */ extern int existobj(); struct DirHandle /* fake structure definition */ { int _foo_; }; extern struct DirHandle *opendir(); extern char *readdir(); void closedir(); /* * Some new time functions. These are defined up here to make it obvious * that they need changing for your compiler. */ /* * The following uses the fact that, on the Amiga, a tm is a long value * containing the number of seconds since midnight January 1, 1970. * The Amiga's reference time is January 1, 1978 at midnight. * The following conversion value is the number of seconds between * those two dates. */ #define CONVERT (86400L*(2*366 + 6*365)) /* * TimeToDateStamp accepts a time_t value as returned by, for instance, * time() and converts it into an AmigaDos DateStamp. */ static void TimeToDateStamp(time_t tm, struct DateStamp *ds) { long seconds = (long) tm - CONVERT; ds->ds_Days = seconds / 86400; ds->ds_Minute = (seconds - (ds->ds_Days * 86400)) / 60; ds->ds_Tick = TICKS_PER_SECOND * (seconds%60); } static time_t StatToTime(long mtime) { #ifdef __SASC /* * SAS uses the same time convention as Unix for the mtime in * a stat struct.. */ return((time_t) mtime); #else return((time_t) (mtime + CONVERT)); #endif } /* Z K S E L F -- Kill Self: log out own job, if possible. */ int zkself(void) { /* For "bye", but no guarantee! */ doexit(GOOD_EXIT, -1); } /* Z O P E N I -- Open an existing file for input. */ int zopeni(int n, char *name) { debug(F111," zopeni",name,n); debug(F101," fp","",(int) fp[n]); if (chkfn(n) != 0) return(0); zincnt = 0; if (n == ZSYSFN) { /* Input from a system function? */ /*** Note, this function should not be called with ZSYSFN ***/ /*** Always call zxcmd() directly, and give it the real file number ***/ /*** you want to use. ***/ debug(F110,"zopeni called with ZSYSFN, failing!",name,0); *nambuf = '\0'; /* No filename. */ return(0); /* fail. */ #ifdef COMMENT return(zxcmd(n,name)); /* Try to fork the command */ #endif } if (n == ZSTDIO) { /* Standard input? */ if (isatty(0)) { ermsg("Terminal input not allowed"); debug(F110,"zopeni: attempts input from unredirected stdin","",0); return(0); } fp[ZIFILE] = stdin; return(1); } fp[n] = fopen(name,"r"); /* Real file. */ debug(F111," zopeni", name, (int) fp[n]); if (fp[n] == NULL) perror("zopeni"); return((fp[n] != NULL) ? 1 : 0); } /* Z O P E N O -- Open a new file for output. */ int zopeno(int n, char *name, struct zattr *zz, struct filinfo *fcb) { char *p; /* Local use pointer */ if (fcb) { debug(F101,"zopeno fcb disp","",fcb->dsp); debug(F101,"zopeno fcb type","",fcb->typ); debug(F101,"zopeno fcb char","",fcb->cs); } else { debug(F100,"zopeno fcb is NULL","",0); } if (n != ZDFILE) debug(F111," zopeno",name,n); if (chkfn(n) != 0) return(0); if ((n == ZCTERM) || (n == ZSTDIO)) { /* Terminal or standard output */ fp[ZOFILE] = stdout; debug(F101," fp[]=stdout", "", (int) fp[n]); zoutcnt = 0; zoutptr = zoutbuffer; return(1); } p = "w"; /* Assume write/create mode */ if (fcb) { /* If called with an FCB... */ if (fcb->dsp == XYFZ_A) /* Does it say Append? */ p = "a"; /* Yes. */ } fp[n] = fopen(name,p); /* Open the file */ if (fp[n] == NULL) { perror("zopeno can't open"); } else { if (n == ZDFILE) setbuf(fp[n],NULL); /* Debugging file unbuffered */ } zoutcnt = 0; /* (PWP) reset output buffer */ zoutptr = zoutbuffer; if (n != ZDFILE) debug(F101, " fp[n]", "", (int) fp[n]); return((fp[n] != NULL) ? 1 : 0); } /* Z C L O S E -- Close the given file. */ /* Returns 0 if arg out of range, 1 if successful, -1 if close failed. */ int zclose(int n) { int x, x2; if (chkfn(n) < 1) return(0); /* Check range of n */ if ((n == ZOFILE) && (zoutcnt > 0)) /* (PWP) output leftovers */ x2 = zoutdump(); else x2 = 0; x = 0; /* Initialize return code */ if (fp[ZSYSFN]) { /* If file is realy a pipe */ x = zclosf(n); /* do it specially */ } else { if ((fp[n] != stdout) && (fp[n] != stdin)) x = fclose(fp[n]); fp[n] = NULL; } iflen = -1; /* Invalidate file length */ if (x == EOF) /* if we got a close error */ return (-1); else if (x2 < 0) /* or an error flushing the last buffer */ return (-1); /* then return an error */ else return (1); } /* Z C H I N -- Get a character from the input file. */ /* Returns -1 if EOF, 0 otherwise with character returned in argument */ int zchin(int n, int *c) { int a, x; /* (PWP) Just in case this gets called when it shoudn't */ if (n == ZIFILE) { x = zminchar(); *c = x; return (x); } /* if (chkfn(n) < 1) return(-1); */ a = getc(fp[n]); if (a == EOF) return(-1); *c = (CHAR) a & 0377; return(0); } /* Z S I N L -- Read a line from a file */ /* Writes the line into the address provided by the caller. n is the Kermit "channel number". Writing terminates when newline is encountered, newline is not copied. Writing also terminates upon EOF or if length x is exhausted. Returns 0 on success, -1 on EOF or error. */ int zsinl(int n, char *s, int x) { int z = 0, a; if (chkfn(n) < 1) { /* Make sure file is open */ return(-1); } while (x--) { if (zchin(n,&a) < 0) { /* Read a character from the file */ z = -1; break; } if (a == '\n') break; *s = a; s++; } *s = '\0'; return(z); } /* * (PWP) (re)fill the buffered input buffer with data. All file input * should go through this routine, usually by calling the zminchar() * macro (in ckcker.h). */ int zinfill(void) { zincnt = fread(zinbuffer, sizeof (char), INBUFSIZE, fp[ZIFILE]); debug(F101,"zinfill zincnt","",zincnt); if (zincnt == 0) return (-1); /* end of file */ zinptr = zinbuffer; /* set pointer to beginning, (== &zinbuffer[0]) */ zincnt--; /* one less char in buffer */ return((int)(*zinptr++) & 0377); /* because we return the first */ } /* Z S O U T -- Write a string to the given file, buffered. */ int zsout(int n, char *s) { if (chkfn(n) < 1) return(-1); fputs(s,fp[n]); return(0); } /* Z S O U T L -- Write string to file, with line terminator, buffered */ int zsoutl(int n, char *s) { if (chkfn(n) < 1) return(-1); fputs(s,fp[n]); fputs("\n",fp[n]); return(0); } /* Z S O U T X -- Write x characters to file, unbuffered. */ int zsoutx(int n, char *s, int x) { if (chkfn(n) < 1) return(-1); return(write(fileno(fp[n]),s,x)); } /* Z C H O U T -- Add a character to the given file. */ /* Should return 0 or greater on success, -1 on failure (e.g. disk full) */ int zchout(int n, char c) { if (chkfn(n) < 1) return(-1); if (n == ZSFILE) return(write(fileno(fp[n]),&c,1)); /* Use unbuffered for session log */ else { /* Buffered for everything else */ if (putc(c,fp[n]) == EOF) /* If true, maybe there was an error */ return(ferror(fp[n])?-1:0); /* Check to make sure */ else /* Otherwise... */ return(0); /* There was no error. */ } } /* (PWP) buffered character output routine to speed up file IO */ int zoutdump(void) { int x; zoutptr = zoutbuffer; /* reset buffer pointer in all cases */ debug(F101,"zoutdump chars","",zoutcnt); if (zoutcnt == 0) { /* nothing to output */ return(0); } else if (zoutcnt < 0) { /* unexpected negative value */ zoutcnt = 0; /* reset output buffer count */ return(-1); /* and fail. */ } /* Frank Prindle suggested that replacing this fwrite() by an fflush() */ /* followed by a write() would improve the efficiency, especially when */ /* writing to stdout. Subsequent tests showed a 5-fold improvement! */ /* if (x = fwrite(zoutbuffer, 1, zoutcnt, fp[ZOFILE])) { */ fflush(fp[ZOFILE]); if (x = write(fileno(fp[ZOFILE]),zoutbuffer,zoutcnt)) { debug(F101,"zoutdump fwrite wrote","",x); zoutcnt = 0; /* reset output buffer count */ return(0); /* things worked OK */ } else { zoutcnt = 0; /* reset output buffer count */ x = ferror(fp[ZOFILE]); /* get error code */ debug(F101,"zoutdump fwrite error","",x); return(x ? -1 : 0); /* return failure if error */ } } /* C H K F N -- Internal function to verify file number is ok */ /* Returns: -1: File number n is out of range 0: n is in range, but file is not open 1: n in range and file is open */ int chkfn(int n) { /* if (n != ZDFILE) debug(F101,"chkfn","",n); */ if (n < 0 || n >= ZNFILS) { if (n != ZDFILE) debug(F101,"chkfn out of range","",n); return(-1); } else { /* if (n != ZDFILE) debug(F101,"chkfn fp[n]","",fp[n]); */ return((fp[n] == NULL) ? 0 : 1); } } /* Z C H K I -- Check if input file exists and is readable */ /* Returns: >= 0 if the file can be read (returns the size). -1 if file doesn't exist or can't be accessed, -2 if file exists but is not readable (e.g. a directory file). -3 if file exists but protected against read access. */ long zchki(char *name) { long size, readstat(); size = readstat(name); debug(F111,"zchki file size",name,(int)size); iflen = size; strcpy(nambuf, name); /* Remember file name globally. */ return(size); } /* Z C H K O -- Check if output file can be created */ /* Returns -1 if write permission for the file would be denied, 0 otherwise. */ int zchko(char *name) { int rc = writestat(name); #ifdef DEBUG if (rc < 0) debug(F111,"zchko access failed:",name,rc); else debug(F111,"zchko access ok:",name,rc); #endif return(rc); } /* Z D E L E T -- Delete the named file. */ int zdelet(char *name) { return(unlink(name)); } /* Z R T O L -- Convert remote filename into local form */ /* For AMIGA, this means changing uppercase letters to lowercase. */ void zrtol(char *name, char *name2) { for ( ; *name != '\0'; name++) { *name2++ = isupper(*name) ? tolower(*name) : *name; } *name2 = '\0'; debug(F110,"zrtol:",name2,0); } /* Z S T R I P -- Strip device & directory name from file specification */ /* Strip pathname from filename "name", return pointer to result in name2 */ static char work[100]; /* buffer for use by zstrip and zltor */ void zstrip(char *name, char **name2) { char *cp, *pp; debug(F110,"zstrip before",name,0); pp = work; if ((cp = strrchr(name, ':')) == NULL) cp = name; else ++cp; for (; *cp != '\0'; cp++) { if (*cp == '/') pp = work; else *pp++ = *cp; } *pp = '\0'; /* Terminate the string */ *name2 = work; debug(F110,"zstrip after",*name2,0); } /* Z L T O R -- Local TO Remote */ /* Convert filename from local format to common (remote) form. */ void zltor(char *name, char *name2) { char *cp, *pp; int dc = 0; debug(F110,"zltor",name,0); pp = work; if ((cp = strrchr(name, ':')) == NULL) cp = name; else ++cp; for (; *cp != '\0'; cp++) { /* strip path name */ if (*cp == '/') { dc = 0; pp = work; } else if (islower(*cp)) *pp++ = toupper(*cp); /* Uppercase letters */ else if (*cp == '~') *pp++ = 'X'; /* Change tilde to 'X' */ else if (*cp == '#') *pp++ = 'X'; /* Change number sign to 'X' */ else if ((*cp == '.') && (++dc > 1)) *pp++ = 'X'; /* & extra dots */ else *pp++ = *cp; } *pp = '\0'; /* Tie it off. */ cp = name2; /* If nothing before dot, */ if (*work == '.') *cp++ = 'X'; /* insert 'X' */ strcpy(cp,work); debug(F110," name2",name2,0); } /* Z H O M E -- Return pointer to user's home directory */ /* we return "s:", which is where startup scripts are found */ char * zhome(void) { return("s:"); /* very approximately */ } /* Z C H D I R -- Change directory */ int zchdir(char *dirnam) { if (chdir(dirnam) != 0) /* failed */ return 0; if (v37) /* This only if V37 or more */ if (!SetCurrentDirName(dirnam)) return 0; return 1; } /* Z G T D I R -- Return pointer to user's current directory */ char * zgtdir(void) { #ifdef MAXPATHLEN #define CWDBL MAXPATHLEN #else #define CWDBL 100 #endif static char cwdbuf[CWDBL+1]; char *buf, *getcwd(); buf = cwdbuf; return(getcwd(buf, CWDBL)); } /* Z X C M D -- Run a system command so its output can be read like a file */ int zxcmd(int filnum, char *comand) { FILE *pipeopen(); int out; if (chkfn(filnum) < 0) return(-1); /* Need a valid Kermit file number. */ if (filnum == ZSTDIO || filnum == ZCTERM) /* But not one of these. */ return(0); out = (filnum == ZIFILE || filnum == ZRFILE) ? 0 : 1 ; /* Output to a command */ if (out) { /* Need popen() to do this. */ return -1; /* Not yet supported. */ } /* Input from a command */ else { if ((fp[filnum] = pipeopen(comand)) == NULL) return -1; fp[ZSYSFN] = fp[filnum]; /* Remember */ zincnt = 0; /* (PWP) reset input buffer */ zinptr = zinbuffer; } return 1; } /* Z C L O S F - wait for the child fork to terminate and close the pipe. */ int zclosf(int filnum) { pipeclose(fp[filnum]); fp[filnum] = fp[ZSYSFN] = NULL; return(1); } /* Z X P A N D -- Expand a wildcard string into an array of strings */ /* Returns the number of files that match fn1, with data structures set up so that first file (if any) will be returned by the next znext() call. */ int zxpand(char *fn) { fcount = fgen(fn,mtchs,MAXWLD); /* Look up the file. */ if (fcount > 0) { mtchptr = mtchs; /* Save pointer for next. */ } debug(F111,"zxpand",mtchs[0],fcount); return(fcount); } /* Z N E X T -- Get name of next file from list created by zxpand(). */ /* Returns >0 if there's another file, with its name copied into the arg string, or 0 if no more files in list. */ int znext(char *fn) { if (fcount-- > 0) strcpy(fn,*mtchptr++); else *fn = '\0'; debug(F111,"znext",fn,fcount+1); return(fcount+1); } /* Z C H K S P A -- Check to see if there is enough space for the file. */ /* * Uses Manx-supplied dospacket() routine. (Source supplied for SAS/C * by Larry Rosenman) */ int zchkspa(char *fn, long len) { struct MsgPort *MyPort; struct InfoData *MyInfo; long space; if ((MyPort = (struct MsgPort *)DeviceProc(fn)) == NULL) return -1; if ((MyInfo = AllocMem(sizeof(struct InfoData), MEMF_PUBLIC)) == NULL) return -1; if (dos_packet(MyPort, ACTION_DISK_INFO, ((BPTR) MyInfo) >> 2, 0L, 0L, 0L, 0L, 0L) != 0) { if (MyInfo->id_UnitNumber == -1) /* Imperfect check for RAM: */ space = len + 1; /* Always enough space */ else space = (MyInfo->id_NumBlocks - MyInfo->id_NumBlocksUsed)* MyInfo->id_BytesPerBlock; } else space = -1; /* To mark error return after FreeMem(). */ FreeMem(MyInfo, sizeof(struct InfoData)); if (space <= 0) return -1; else if (len < space) return 1; else return 0; } /* Z N E W N -- Make a new name for the given file */ void znewn(char *fn,char **s) { static char buf[100]; char *bp; int len = 0, d; #ifdef MAXNAMLEN int maxlen = MAXNAMLEN; #else int maxlen = 14; #endif bp = buf; while (*fn) { /* Copy name into buf */ *bp++ = *fn++; len++; } if (len > maxlen-3) bp -= 3; /* Don't let it get too long */ /* * On the Amiga, it takes much less time to determine * if a given file exists than to read all the file names in * a directory (or even just names with a certain prefix). */ d = 0; do { sprintf(bp, "~%d", ++d); } while (zchki(buf) != -1 && d < 100); *s = buf; } /* Z S A T T R */ /* Fills in a Kermit file attribute structure for the file which is to be sent. Returns 0 on success with the structure filled in, or -1 on failure. If any string member is null, then it should be ignored. If any numeric member is -1, then it should be ignored. */ int zsattr(struct zattr *xx) { long k; char *zfcdat(); k = iflen % 1024L; /* File length in K */ if (k != 0L) k = 1L; xx->lengthk = (iflen / 1024L) + k; xx->type.len = 0; /* File type can't be filled in here */ xx->type.val = ""; if (*nambuf) { xx->date.val = zfcdat(nambuf); /* File creation date */ xx->date.len = strlen(xx->date.val); } else { xx->date.len = 0; xx->date.val = ""; } xx->creator.len = 0; /* File creator */ xx->creator.val = ""; xx->account.len = 0; /* File account */ xx->account.val = ""; xx->area.len = 0; /* File area */ xx->area.val = ""; xx->password.len = 0; /* Area password */ xx->password.val = ""; xx->blksize = -1L; /* File blocksize */ xx->xaccess.len = 0; /* File access */ xx->xaccess.val = ""; xx->encoding.len = 0; /* Transfer syntax */ xx->encoding.val = 0; xx->disp.len = 0; /* Disposition upon arrival */ xx->disp.val = ""; xx->lprotect.len = 0; /* Local protection */ xx->lprotect.val = ""; xx->gprotect.len = 0; /* Generic protection */ xx->gprotect.val = ""; xx->systemid.len = 2; /* System ID length */ xx->systemid.val = "L3"; /* Amiga system ID code */ xx->recfm.len = 0; /* Record format */ xx->recfm.val = ""; xx->sysparam.len = 0; /* System-dependent parameters */ xx->sysparam.val = ""; xx->length = iflen; /* Length */ return(0); } /* Z F C D A T -- Return a string containing the time stamp for a file */ char * zfcdat(char *name) { struct stat buffer; struct tm *time_stamp, *localtime(); time_t filetime; static char datbuf[20]; datbuf[0] = '\0'; if(stat(name,&buffer) != 0) { debug(F110,"zcfdat stat failed",name,0); return(""); } filetime = StatToTime(buffer.st_mtime); time_stamp = localtime(&filetime); if (time_stamp->tm_year < 1900) time_stamp->tm_year += 1900; sprintf(datbuf,"%-4.4d%02.2d%02.2d %002.2d:%002.2d:%002.2d", time_stamp->tm_year, time_stamp->tm_mon + 1, time_stamp->tm_mday, time_stamp->tm_hour, time_stamp->tm_min, time_stamp->tm_sec); debug(F111,"zcfdat",datbuf,strlen(datbuf)); return(datbuf); } /* Z S T I M E -- Set creation date for incoming file */ /* Call with: f = pointer to name of existing file. yy = pointer to a Kermit file attribute structure in which yy->date.val is a date of the form yyyymmdd hh:mm:ss, e.g. 19900208 13:00:00. x = is a function code: 0 means to set the file's creation date as given. 1 means compare the given date with the file creation date. Returns: -1 on any kind of error. 0 if x is 0 and the file date was set successfully. 0 if x is 1 and date from attribute structure <= file creation date. 1 if x is 1 and date from attribute structure > file creation date. */ int zstime(char *f, struct zattr *yy, int x) { /* * This code takes advantage of the ANSI time functions. Once UNIX has * an ANSI compiler, maybe UNIX can use this one instead... */ struct tm InTime; time_t CompareTime; struct stat MyStat; int isleapyear, i; static int monthdays[12] = {31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31}; debug(F110,"zstime",f,0); if (sscanf(yy->date.val, "%4d%2d%2d %2d:%2d:%2d", &InTime.tm_year, &InTime.tm_mon, &InTime.tm_mday, &InTime.tm_hour, &InTime.tm_min, &InTime.tm_sec) != 6) { debug(F111, "Bad creation date ", yy->date.val, yy->date.len); return -1; } InTime.tm_mon--; /* a struct tm contains months with 0 = Jan */ isleapyear = (( InTime.tm_year % 4 == 0 && InTime.tm_year % 100 !=0) || InTime.tm_year % 400 == 0); InTime.tm_year -= 1900; /* * Find number of days since start-of-year. */ InTime.tm_yday = (isleapyear ? 0 : 1); for (i = 0; i <= InTime.tm_mon; i++) /* InTime.tm_yday += monthdays[0]; */ /*ler*/ InTime.tm_yday += monthdays[i]; InTime.tm_yday += InTime.tm_mday; InTime.tm_isdst = 0; /* No daylight savings on Amiga. */ /* * We don't set day-of-week in this code, and simply hope mktime ignores it. */ CompareTime = mktime(&InTime); if (x == 1) { /* Compare time with file */ if (stat(f, &MyStat) < 0) { debug(F110,"zstime: stat failed", f, 0); return -1; } if (StatToTime(MyStat.st_mtime) <= CompareTime) return 0; else return 1; } else if (x == 0) { /* Set file to time */ struct DateStamp NewTime; TimeToDateStamp(CompareTime, &NewTime); return(touch(f, &NewTime)); } return -1; /* Illegal value for x */ } /* * Set modification date of file fn to NewTime. */ static int touch(char *fn, struct DateStamp *NewTime) { struct MsgPort *task; BPTR lock, plock; UBYTE *pointer; if(!(pointer = (UBYTE *)AllocMem(256L,MEMF_PUBLIC))) return -1; if(!(task=(struct MsgPort *)DeviceProc(fn))) { FreeMem((void *) pointer, 256L); return; } if(!(lock = Lock(fn,SHARED_LOCK))) { FreeMem((void *) pointer, 256L); return -1; } plock = ParentDir(lock); UnLock(lock); strcpy((char *)(pointer + 1),fn); *pointer = strlen(fn); dos_packet(task, ACTION_SET_DATE, NULL, plock, (ULONG) &pointer[0] >> 2, (ULONG) NewTime, 0L, 0L, 0L); UnLock(plock); FreeMem((void *) pointer, 256L); return 0; } /* * Dummy functions for the Amiga. Sending mail cannot be done; I haven't * decided how to handle print requests yet. */ int zmail(char *p, char *f) { /* Send file f as mail to address p */ return(0); } int zprint(char *p, char *f) { /* Print file f with flags p */ return(0); } int zrename(char *old, char *new) { return(rename(old, new) == 0 ? 0 : -1); } /* Z S H C M D -- Issue shell command and redirect output, if necessary. */ /* * This function is to pass the command contained in the string s to the * local command parser. If the command does not begin with the character * ">", then give the command to the system and display its results on the * screen. If the command does not begin with ">" and local != 0, then send * the results of the command out the currently open communications device. * * In this version, we simply punt. */ int zshcmd(char *s) { if (*s == '>') s++; return(system(s)); } /* Directory Functions for Unix, written by Jeff Damens, CUCCA, 1984. */ /* * The path structure is used to represent the name to match. * Each slash-separated segment of the name is kept in one * such structure, and they are linked together, to make * traversing the name easier. */ struct path { char npart[MAXNAMLEN]; /* name part of path segment */ struct path *fwd; /* forward ptr */ }; #define SSPACE 4000 /* size of string-generating buffer */ static char sspace[SSPACE]; /* buffer to generate names in */ static char *freeptr,**resptr; /* copies of caller's arguments */ static int remlen; /* remaining length in caller's array*/ static int numfnd; /* number of matches found */ /* * splitpath: * takes a string and splits the slash-separated portions into * a list of path structures. Returns the head of the list. The * structures are allocated by malloc, so they must be freed. * Splitpath is used internally by the filename generator. * * Input: A string. * Returns: A linked list of the slash-separated segments of the input. */ struct path * splitpath(char *p) { struct path *head,*cur,*prv; int i; head = prv = NULL; if (*p == '/') p++; /* skip leading slash */ while (*p != '\0') { cur = (struct path *) malloc(sizeof (struct path)); debug(F101,"splitpath malloc","",(cur == NULL ? 0 : 1)); if (cur == NULL) fatal("malloc fails in splitpath()"); cur -> fwd = NULL; if (head == NULL) head = cur; else prv -> fwd = cur; /* link into chain */ prv = cur; for (i=0; i < MAXNAMLEN && *p != '/' && *p != '\0'; i++) cur -> npart[i] = *p++; cur -> npart[i] = '\0'; /* end this segment */ if (i >= MAXNAMLEN) while (*p != '/' && *p != '\0') p++; if (*p == '/') p++; } return(head); } /* * fgen: * This is the actual name generator. It is passed a string, * possibly containing wildcards, and an array of character pointers. * It finds all the matching filenames and stores them into the array. * The returned strings are allocated from a static buffer local to * this module (so the caller doesn't have to worry about deallocating * them); this means that successive calls to fgen will wipe out * the results of previous calls. This isn't a problem here * because we process one wildcard string at a time. * * Input: a wildcard string, an array to write names to, the * length of the array. * Returns: the number of matches. The array is filled with filenames * that matched the pattern. If there wasn't enough room in the * array, -1 is returned. * By: Jeff Damens, CUCCA, 1984. */ int fgen(char *pat, char *resarry[], int len) { struct path *head; char scratch[100],*sptr; char *tail; void traverse(struct path *pl, char *sofar, char *endcur); if ((tail = strrchr(pat, ':')) == NULL) /* locate unit name */ tail = pat; /* no unit name */ else ++tail; /* eat ':' */ while (*tail == '/') /* eat parent path slashes */ ++tail; sptr = scratch; /* init buffer correctly */ while (pat < tail) *sptr++ = *pat++; head = splitpath(pat); numfnd = 0; /* none found yet */ freeptr = sspace; /* this is where matches are copied */ resptr = resarry; /* static copies of these so*/ remlen = len; /* recursive calls can alter them */ traverse(head,scratch,sptr); /* go walk the directory tree */ while (head != NULL) { struct path *next = head -> fwd; free(head); /* return the path segments */ head = next; } return(numfnd); /* and return the number of matches */ } /* traverse: * Walks the directory tree looking for matches to its arguments. * The algorithm is, briefly: * If the current pattern segment contains no wildcards, that * segment is added to what we already have. If the name so far * exists, we call ourselves recursively with the next segment * in the pattern string; otherwise, we just return. * * If the current pattern segment contains wildcards, we open the name * we've accumulated so far (assuming it is really a directory), then read * each filename in it, and, if it matches the wildcard pattern segment, add * that filename to what we have so far and call ourselves recursively on the * next segment. * * Finally, when no more pattern segments remain, we add what's accumulated * so far to the result array and increment the number of matches. * * Input: a pattern path list (as generated by splitpath), a string * pointer that points to what we've traversed so far (this * can be initialized to "/" to start the search at the root * directory, or to "./" to start the search at the current * directory), and a string pointer to the end of the string * in the previous argument. * Returns: nothing. */ void traverse(struct path *pl, char *sofar, char *endcur) { struct DirHandle *fd; char *fname; if (pl == NULL) { *--endcur = '\0'; /* end string, overwrite trailing / */ addresult(sofar); return; } if (!iswild(pl -> npart)) { strcpy(endcur,pl -> npart); endcur += strlen(pl -> npart); *endcur = '\0'; /* end current string */ if (existobj(sofar)) /* if current piece exists */ { *endcur++ = '/'; /* add slash to end */ *endcur = '\0'; /* and end the string */ traverse(pl -> fwd,sofar,endcur); } return; } /* cont'd... */ /*...traverse, cont'd */ /* segment contains wildcards, have to search directory */ *endcur = '\0'; /* end current string */ if ((fd = opendir(sofar)) == NULL) return; /* can't open, forget it */ while (fname = readdir(fd)) { if (match(pl -> npart,fname)) { char *eos; strcpy(endcur,fname); eos = endcur + strlen(fname); *eos = '/'; /* end this segment */ traverse(pl -> fwd,sofar,eos+1); } } closedir(fd); } /* * addresult: * Adds a result string to the result array. Increments the number * of matches found, copies the found string into our string * buffer, and puts a pointer to the buffer into the caller's result * array. Our free buffer pointer is updated. If there is no * more room in the caller's array, the number of matches is set to -1. * Input: a result string. * Returns: nothing. */ int addresult(char *str) { int l; if (--remlen < 0) { numfnd = -1; return; } l = strlen(str) + 1; /* size this will take up */ if ((freeptr + l) > &sspace[SSPACE]) { numfnd = -1; /* do not record if not enough space */ return; } strcpy(freeptr,str); *resptr++ = freeptr; freeptr += l; numfnd++; } int iswild(char *str) { char c; while ((c = *str++) != '\0') if (c == '*' || c == '?') return(1); return(0); } #ifdef OLDMATCH /* * match: * pattern matcher. Takes a string and a pattern possibly containing * the wildcard characters '*' and '?'. Returns true if the pattern * matches the string, false otherwise. * by: Jeff Damens, CUCCA * * Input: a string and a wildcard pattern. * Returns: 1 if match, 0 if no match. */ int match(char *pattern, char *string) { char *psave,*ssave; /* back up pointers for failure */ psave = ssave = NULL; while (1) { for (; tolower(*pattern) == tolower(*string); pattern++,string++) /* skip first */ if (*string == '\0') return(1); /* end of strings, succeed */ if (*string != '\0' && *pattern == '?') { pattern++; /* '?', let it match */ string++; } else if (*pattern == '*') { /* '*' ... */ psave = ++pattern; /* remember where we saw it */ ssave = string; /* let it match 0 chars */ } else if (ssave != NULL && *ssave != '\0') { /* if not at end */ /* ...have seen a star */ string = ++ssave; /* skip 1 char from string */ pattern = psave; /* and back up pattern */ } else return(0); /* otherwise just fail */ } } #else /* * match -- match wildcard pattern to string * allows multiple '*'s and works without backtracking * upper and lower case considered equivalent * written by Jack Rouse * working without backtracking is cute, but is this usually going * to be the most efficient method? */ int match(char *pattern, char *target) { int link[MAXNAMLEN]; /* list of matches to try in pattern */ register int first, last; /* first and last items in list */ register int here, next; /* current and next list items */ char lowch; /* current target character */ /* start out trying to match at first position */ first = last = 0; link[0] = -1; /* go through the target */ for (; *target; ++target) { /* get lowercase target character */ lowch = tolower(*target); /* go through all positions this round and build next round */ last = next = -1; for (here = first; here >= 0; here = next) { next = link[here]; switch (pattern[here]) { case '*': /* try match at here+1 this round */ /*!!!check needed only if "**" allowed? */ if (next != here + 1) { link[here + 1] = next; next = here + 1; } /* retry match at here next round */ break; default: if (tolower(pattern[here]) != lowch) continue; /* matched, fall through */ case '?': /* try match at here+1 next round */ ++here; break; } /* try match at here value next round */ if (last < 0) first = here; else link[last] = here; last = here; } /* if no positions left, match failed */ if (last == -1) return(0); /* terminate list */ link[last] = -1; } /* at end of target, skip empty matches */ while (pattern[last] == '*') ++last; return(pattern[last] == '\0'); } #endif #ifndef NORESEND int zfseek(long pos) /* zfseek */ { debug(F101,"zfseek","",pos); return(fseek(fp[ZIFILE], pos, 0)); } #endif /* NORESEND */ int isdir(char *filbuf) { BPTR lock; struct FileInfoBlock *fib; int retval = 0; lock = Lock(filbuf, ACCESS_READ); if (lock != NULL) { fib = (struct FileInfoBlock *) AllocDosObject(DOS_FIB, 0); if (Examine(lock, fib) != 0) { if (fib->fib_DirEntryType > 0) { retval = 1; } } FreeDosObject(DOS_FIB, fib); UnLock(lock); } return retval; }