/* afio file compresssion code */ #include #include #include #include #include #include #include #include #include #include "patchlevel.h" #include "afio.h" int matchcompext(char *); void meminit(void); void memwrite(char *buf, int count); int setupgzip(char *name); int zipfdfd; /* default value vor gzip 1.2.3 */ int gzipfactor=6; /* compress all files? */ int forceZflag = 0; /* this can be set to use something else but gzip: */ char *compressprog = NULL; int compressargs = 0; /* max. (virtual) memory usage for -Z option */ off_t maxmem=250*1024*1024; /* files whose length is below this length won't be compressed */ long compthreshold=0; /* stuff to build argument list for compression/decompression : */ #define MAX_ARGS 101 char * compress_arg_list[MAX_ARGS+1]; /* MAX_ARGS+1 because we need to leave room for a NULL to mark the end */ int compress_arg_no = 1; void add_arg(char *arg) { if((compress_arg_no == 1)&&(*arg=='\0')) { /* special case: -Q "" means no arguments. */ return; } if(compress_arg_no < MAX_ARGS ) compress_arg_list[compress_arg_no++] = arg; else { fprintf (stderr, "afio: Fatal: maximium number of -Q arguments exceeded.\n"); exit(1); } } /* * meminit, memwrite, memreset, memread, memfree. */ int memerror; char *membank=NULL; size_t allocsize=0; size_t memsize,membytesread,membytesleft; void meminit(void) { memerror=0; memsize=0; /* RWWH: Initialize only the first time */ if (!allocsize) { allocsize=100000; membank=(char *)malloc(allocsize); if(membank==NULL) { warn_nocount("Memory","Low on virtual memory, zipping twice instead."); memerror=1; allocsize=0; } } } void memwrite(char *buf, int count) { char *oldbank; if(memerror) return; oldbank=membank; /* RWWH: don't increase by linear amount! grow exponentially! */ if (memsize+count>=allocsize) { allocsize=1.25*(memsize+count); if(allocsize/1024L/1024L > 2000) { /* safety: to avoid possible errors due to use of 32 bit int and size_t types here and there, prevent membank going over 2GB if compression programm actually expands filesize. Note that -M is capped at 1.5GB anyway. */ membank=NULL; /* simulate realloc running out of memory */ } else { membank=(char *)realloc(membank,allocsize); } if(membank==NULL) { warn_nocount("Memory","Low on virtual memory, zipping twice instead."); /* The free() both works and is necessary. I can't recall what manpage documents this. */ free(oldbank); memerror=1; allocsize=0; return; } } memcpy(membank+memsize,buf,(size_t)count); memsize+=count; } void memreset() { membytesread=0; membytesleft=memsize; } int memread(char *buf,int count) { if(membytesleft==0) return 0; if ((size_t)count > membytesleft) count=membytesleft; memcpy(buf,membank+membytesread,(size_t)count); membytesread+=count; membytesleft-=count; return count; } void memfree() { /* We do not free anymore, this should speed things up. */ #if 0 if(memerror==0) free(membank); allocsize=0; #endif } /*******/ /* * Fork a gzip zipping the file name. The zipped version is output through a * pipe, the pipe handle is returned. * Returns -1 on failure. */ int comppid; int setupgzip(char *name) { int pipedes[2]; char farg[3]; farg[0]='-'; farg[1]=gzipfactor+'0'; farg[2]='\0'; if(pipe(pipedes)==-1) { perror("pipe"); return -1; } mayberewind(); if ((comppid = xfork ("out(), compressing", NODIE)) == 0) { if (arfd != STDIN && arfd != STDOUT) VOID close (arfd); dup2(pipedes[1],fileno(stdout)); close(pipedes[1]); close(pipedes[0]); VOID close (fileno (stdin)); if (open (name, O_RDONLY) >= 0) { if(! compressargs) execlp (compressprog, compressprog, "-c", farg, NULL); else execvp (compressprog, compress_arg_list); } exit (1); } close(pipedes[1]); /* fprintf(stderr,"pid %d init, pipedes=%d.\n",comppid,pipedes[0]); */ return pipedes[0]; } #include #include void waitforgzip() { /* fprintf(stderr,"wait for gzip %d.\n",comppid); */ xwait (comppid, "out(), wait for gzip child", FALSE); } /* * compress "name" if we can * If we compress we change the statbuf size, the file name, close * the old pointer to the file and return the pointer to the compressed * version; */ #if ( defined(sun) && defined(__svr4__) ) || defined(__CYGWIN32__) #include #else #include #endif void compressfile (int *fdp, char *name, reg Stat *asb, int *cratio) { int compout; char *tmpcomp; Stat asb2; int zipfd; ssize_t len; char buf[40960]; off_t ziplen; int usemem; if (cratio) *cratio = 100; /* We need to mark the file as being suitable or not for decompression on reading the archive. This is done by adding a .z extension. There is a problem with this: a file that is not suitable for compression may already have such an extension. Since this is a regular file, we can use the device number to indicate something weird going on here. We look at the bit (asb->sb_rdev)&RDEV_NOTCOMPR: If it is 1, it means that the file wasn't suitable for compression, and thus that any .z present was there on the original name. If it is 0, this does NOT imply that the file was compressed by afio. Note that it being 0 doesn't mean `decompress me', it merely indicates that a .z extender, _if_ _present_, was added by afio. (However, as of version 2.3.6, false does mean that the file was compressed by afio and a .z extender added. In older archives one may see filenames with the bit 0 and not ending in .z. Such files have a compressed version larger than the original.) In pre-2.4.4 versions, files with size 0 do not have the bit set to 1. */ /* indicate unsuitable for compression, may change it later */ asb->sb_rdev |= RDEV_NOTCOMPR; /* Hard link handling code will break if we do compression on the file, so try to compress only if no links or hard link handling. Note that if forceZflag==1 than also lflag==1 was set, so this test will never return false. Also only try to compress if not already compressed, or length is >= threshold, or <= maxsizetocompress, but always try if we force compression */ if ( (lflag || (asb->sb_nlink == 1)) && ( ( !matchcompext(name) && (asb->sb_size >= compthreshold) && ((maxsizetocompress==0) || ((ulonglong)(asb->sb_size) <= maxsizetocompress)) ) || forceZflag ) ) { /* make sure compress could put on the .Z */ if ((tmpcomp = strrchr (name, '/')) != NULL) tmpcomp++; else tmpcomp = name; #ifdef NAME_MAX if (strlen (tmpcomp) + 2 > NAME_MAX) #else #ifdef MAXNAMLEN /* BSD otherwise should be sysV (FFS on sysV?) */ if (strlen (tmpcomp) + 2 > MAXNAMLEN) #else if (strlen (tmpcomp) + 2 > DIRSIZ) #endif /* MAXNAMLEN */ #endif /* NAME_MAX */ { #ifndef LONGZFILE VOID warn (name, " is too long to tack on .z"); return; #endif } /* fprintf(stderr,"---nam: %s, len: %d ziplen: ",name,asb->sb_size); */ usemem=1; if((zipfd=setupgzip(name))!=-1) { ziplen=0; if(usemem) meminit(); while((len=read(zipfd,buf,sizeof(buf)))!=0) { if(len<0) { fprintf(stderr, "Trouble zipping file, storing uncompressed\n"); /* read error on pipe, do not use gzip on this file */ ziplen=0; break; } if(usemem) memwrite(buf,len); ziplen+=len; /* too much memory used? */ if(usemem && ziplen>maxmem) { /* prepare to zip twice and free memory */ usemem=0; if (!memerror) memfree(); /* fprintf(stderr,"zipping twice."); */ } } close(zipfd); /* wait for child to exit */ if(xwait (comppid, "out(), wait for gzip child", FALSE)!= 0) { fprintf(stderr, "Trouble zipping file, storing uncompressed\n"); ziplen=0; } if(memerror) usemem=0; /* fprintf(stderr,"%ld\n",ziplen); */ asb2.sb_size=ziplen; if (ziplen>0) { /* if compressed file is smaller than original, of if forceZflag is set, use compressed data */ if (asb2.sb_size < asb->sb_size || forceZflag ) { if(usemem) { close (*fdp); strcat (name, ".z"); /* was suitable for compression */ asb->sb_rdev &= ~RDEV_NOTCOMPR; if (cratio) *cratio = (int)((asb2.sb_size * 100.0) / asb->sb_size); asb->sb_size = asb2.sb_size; *fdp = MEMFD; } else if ((compout = setupgzip(name)) >= 0) { zipfdfd=compout; compout=ZIPFD; close (*fdp); strcat (name, ".z"); /* was suitable for compression */ asb->sb_rdev &= ~RDEV_NOTCOMPR; if (cratio) *cratio = (int)((asb2.sb_size * 100.0) / asb->sb_size); asb->sb_size = asb2.sb_size; *fdp = compout; } } else { if(usemem) memfree(); } } } } }