ref: 96ac4cdaa40a473766aa985120764dfe9863cd67
dir: /sys/src/ape/cmd/pax/list.c/
/* $Source: /u/mark/src/pax/RCS/list.c,v $ * * $Revision: 1.2 $ * * list.c - List all files on an archive * * DESCRIPTION * * These function are needed to support archive table of contents and * verbose mode during extraction and creation of achives. * * AUTHOR * * Mark H. Colburn, NAPS International (mark@jhereg.mn.org) * * Sponsored by The USENIX Association for public distribution. * * Copyright (c) 1989 Mark H. Colburn. * All rights reserved. * * Redistribution and use in source and binary forms are permitted * provided that the above copyright notice is duplicated in all such * forms and that any documentation, advertising materials, and other * materials related to such distribution and use acknowledge that the * software was developed * by Mark H. Colburn and sponsored by The * USENIX Association. * * THIS SOFTWARE IS PROVIDED ``AS IS'' AND WITHOUT ANY EXPRESS OR * IMPLIED WARRANTIES, INCLUDING, WITHOUT LIMITATION, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE. * * $Log: list.c,v $ * Revision 1.2 89/02/12 10:04:43 mark * 1.2 release fixes * * Revision 1.1 88/12/23 18:02:14 mark * Initial revision * */ #ifndef lint static char *ident = "$Id: list.c,v 1.2 89/02/12 10:04:43 mark Exp $"; static char *copyright = "Copyright (c) 1989 Mark H. Colburn.\nAll rights reserved.\n"; #endif /* ! lint */ /* Headers */ #include "pax.h" /* Defines */ /* * isodigit returns non zero iff argument is an octal digit, zero otherwise */ #define ISODIGIT(c) (((c) >= '0') && ((c) <= '7')) /* Function Prototypes */ #ifdef __STDC__ static void cpio_entry(char *, Stat *); static void tar_entry(char *, Stat *); static void pax_entry(char *, Stat *); static void print_mode(ushort); static long from_oct(int digs, char *where); #else /* !__STDC__ */ static void cpio_entry(); static void tar_entry(); static void pax_entry(); static void print_mode(); static long from_oct(); #endif /* __STDC__ */ /* Internal Identifiers */ static char *monnames[] = { "Jan", "Feb", "Mar", "Apr", "May", "Jun", "Jul", "Aug", "Sep", "Oct", "Nov", "Dec" }; /* read_header - read a header record * * DESCRIPTION * * Read a record that's supposed to be a header record. Return its * address in "head", and if it is good, the file's size in * asb->sb_size. Decode things from a file header record into a "Stat". * Also set "head_standard" to !=0 or ==0 depending whether header record * is "Unix Standard" tar format or regular old tar format. * * PARAMETERS * * char *name - pointer which will contain name of file * Stat *asb - pointer which will contain stat info * * RETURNS * * Return 1 for success, 0 if the checksum is bad, EOF on eof, 2 for a * record full of zeros (EOF marker). */ #ifdef __STDC__ int read_header(char *name, Stat *asb) #else int read_header(name, asb) char *name; Stat *asb; #endif { int i; long sum; long recsum; Link *link; char *p; char hdrbuf[BLOCKSIZE]; memset((char *)asb, 0, sizeof(Stat)); /* read the header from the buffer */ if (buf_read(hdrbuf, BLOCKSIZE) != 0) { return (EOF); } strcpy(name, hdrbuf); recsum = from_oct(8, &hdrbuf[148]); sum = 0; p = hdrbuf; for (i = 0 ; i < 500; i++) { /* * We can't use unsigned char here because of old compilers, e.g. V7. */ sum += 0xFF & *p++; } /* Adjust checksum to count the "chksum" field as blanks. */ for (i = 0; i < 8; i++) { sum -= 0xFF & hdrbuf[148 + i]; } sum += ' ' * 8; if (sum == 8 * ' ') { /* * This is a zeroed record...whole record is 0's except for the 8 * blanks we faked for the checksum field. */ return (2); } if (sum == recsum) { /* * Good record. Decode file size and return. */ if (hdrbuf[156] != LNKTYPE) { asb->sb_size = from_oct(1 + 12, &hdrbuf[124]); } asb->sb_mtime = from_oct(1 + 12, &hdrbuf[136]); asb->sb_mode = from_oct(8, &hdrbuf[100]); if (strcmp(&hdrbuf[257], TMAGIC) == 0) { /* Unix Standard tar archive */ head_standard = 1; #ifdef NONAMES asb->sb_uid = from_oct(8, &hdrbuf[108]); asb->sb_gid = from_oct(8, &hdrbuf[116]); #else asb->sb_uid = finduid(&hdrbuf[265]); asb->sb_gid = findgid(&hdrbuf[297]); #endif switch (hdrbuf[156]) { case BLKTYPE: case CHRTYPE: #ifndef _POSIX_SOURCE asb->sb_rdev = makedev(from_oct(8, &hdrbuf[329]), from_oct(8, &hdrbuf[337])); #endif break; default: /* do nothing... */ break; } } else { /* Old fashioned tar archive */ head_standard = 0; asb->sb_uid = from_oct(8, &hdrbuf[108]); asb->sb_gid = from_oct(8, &hdrbuf[116]); } switch (hdrbuf[156]) { case REGTYPE: case AREGTYPE: /* * Berkeley tar stores directories as regular files with a * trailing / */ if (name[strlen(name) - 1] == '/') { name[strlen(name) - 1] = '\0'; asb->sb_mode |= S_IFDIR; } else { asb->sb_mode |= S_IFREG; } break; case LNKTYPE: asb->sb_nlink = 2; linkto(&hdrbuf[157], asb); linkto(name, asb); asb->sb_mode |= S_IFREG; break; case BLKTYPE: asb->sb_mode |= S_IFBLK; break; case CHRTYPE: asb->sb_mode |= S_IFCHR; break; case DIRTYPE: asb->sb_mode |= S_IFDIR; break; #ifdef S_IFLNK case SYMTYPE: asb->sb_mode |= S_IFLNK; strcpy(asb->sb_link, &hdrbuf[157]); break; #endif #ifdef S_IFIFO case FIFOTYPE: asb->sb_mode |= S_IFIFO; break; #endif #ifdef S_IFCTG case CONTTYPE: asb->sb_mode |= S_IFCTG; break; #endif } return (1); } return (0); } /* print_entry - print a single table-of-contents entry * * DESCRIPTION * * Print_entry prints a single line of file information. The format * of the line is the same as that used by the LS command. For some * archive formats, various fields may not make any sense, such as * the link count on tar archives. No error checking is done for bad * or invalid data. * * PARAMETERS * * char *name - pointer to name to print an entry for * Stat *asb - pointer to the stat structure for the file */ #ifdef __STDC__ void print_entry(char *name, Stat *asb) #else void print_entry(name, asb) char *name; Stat *asb; #endif { switch (ar_interface) { case TAR: tar_entry(name, asb); break; case CPIO: cpio_entry(name, asb); break; case PAX: pax_entry(name, asb); break; } } /* cpio_entry - print a verbose cpio-style entry * * DESCRIPTION * * Print_entry prints a single line of file information. The format * of the line is the same as that used by the traditional cpio * command. No error checking is done for bad or invalid data. * * PARAMETERS * * char *name - pointer to name to print an entry for * Stat *asb - pointer to the stat structure for the file */ #ifdef __STDC__ static void cpio_entry(char *name, Stat *asb) #else static void cpio_entry(name, asb) char *name; Stat *asb; #endif { struct tm *atm; Link *from; struct passwd *pwp; struct group *grp; if (f_list && f_verbose) { fprintf(msgfile, "%-7o", asb->sb_mode); atm = localtime(&asb->sb_mtime); if (pwp = getpwuid((int) USH(asb->sb_uid))) { fprintf(msgfile, "%-6s", pwp->pw_name); } else { fprintf(msgfile, "%-6u", USH(asb->sb_uid)); } fprintf(msgfile,"%7ld %3s %2d %02d:%02d:%02d %4d ", asb->sb_size, monnames[atm->tm_mon], atm->tm_mday, atm->tm_hour, atm->tm_min, atm->tm_sec, atm->tm_year + 1900); } fprintf(msgfile, "%s", name); if ((asb->sb_nlink > 1) && (from = islink(name, asb))) { fprintf(msgfile, " linked to %s", from->l_name); } #ifdef S_IFLNK if ((asb->sb_mode & S_IFMT) == S_IFLNK) { fprintf(msgfile, " symbolic link to %s", asb->sb_link); } #endif /* S_IFLNK */ putc('\n', msgfile); } /* tar_entry - print a tar verbose mode entry * * DESCRIPTION * * Print_entry prints a single line of tar file information. The format * of the line is the same as that produced by the traditional tar * command. No error checking is done for bad or invalid data. * * PARAMETERS * * char *name - pointer to name to print an entry for * Stat *asb - pointer to the stat structure for the file */ #ifdef __STDC__ static void tar_entry(char *name, Stat *asb) #else static void tar_entry(name, asb) char *name; Stat *asb; #endif { struct tm *atm; int i; int mode; char *symnam = "NULL"; Link *link; if ((mode = asb->sb_mode & S_IFMT) == S_IFDIR) { return; /* don't print directories */ } if (f_extract) { switch (mode) { #ifdef S_IFLNK case S_IFLNK: /* This file is a symbolic link */ i = readlink(name, symnam, PATH_MAX - 1); if (i < 0) { /* Could not find symbolic link */ warn("can't read symbolic link", strerror()); } else { /* Found symbolic link filename */ symnam[i] = '\0'; fprintf(msgfile, "x %s symbolic link to %s\n", name, symnam); } break; #endif case S_IFREG: /* It is a link or a file */ if ((asb->sb_nlink > 1) && (link = islink(name, asb))) { fprintf(msgfile, "%s linked to %s\n", name, link->l_name); } else { fprintf(msgfile, "x %s, %ld bytes, %d tape blocks\n", name, asb->sb_size, ROUNDUP(asb->sb_size, BLOCKSIZE) / BLOCKSIZE); } } } else if (f_append || f_create) { switch (mode) { #ifdef S_IFLNK case S_IFLNK: /* This file is a symbolic link */ i = readlink(name, symnam, PATH_MAX - 1); if (i < 0) { /* Could not find symbolic link */ warn("can't read symbolic link", strerror()); } else { /* Found symbolic link filename */ symnam[i] = '\0'; fprintf(msgfile, "a %s symbolic link to %s\n", name, symnam); } break; #endif case S_IFREG: /* It is a link or a file */ fprintf(msgfile, "a %s ", name); if ((asb->sb_nlink > 1) && (link = islink(name, asb))) { fprintf(msgfile, "link to %s\n", link->l_name); } else { fprintf(msgfile, "%ld Blocks\n", ROUNDUP(asb->sb_size, BLOCKSIZE) / BLOCKSIZE); } break; } } else if (f_list) { if (f_verbose) { atm = localtime(&asb->sb_mtime); print_mode(asb->sb_mode); fprintf(msgfile," %d/%d %6d %3s %2d %02d:%02d %4d %s", asb->sb_uid, asb->sb_gid, asb->sb_size, monnames[atm->tm_mon], atm->tm_mday, atm->tm_hour, atm->tm_min, atm->tm_year + 1900, name); } else { fprintf(msgfile, "%s", name); } switch (mode) { #ifdef S_IFLNK case S_IFLNK: /* This file is a symbolic link */ i = readlink(name, symnam, PATH_MAX - 1); if (i < 0) { /* Could not find symbolic link */ warn("can't read symbolic link", strerror()); } else { /* Found symbolic link filename */ symnam[i] = '\0'; fprintf(msgfile, " symbolic link to %s", symnam); } break; #endif case S_IFREG: /* It is a link or a file */ if ((asb->sb_nlink > 1) && (link = islink(name, asb))) { fprintf(msgfile, " linked to %s", link->l_name); } break; /* Do not print out directories */ } fputc('\n', msgfile); } else { fprintf(msgfile, "? %s %ld blocks\n", name, ROUNDUP(asb->sb_size, BLOCKSIZE) / BLOCKSIZE); } } /* pax_entry - print a verbose cpio-style entry * * DESCRIPTION * * Print_entry prints a single line of file information. The format * of the line is the same as that used by the LS command. * No error checking is done for bad or invalid data. * * PARAMETERS * * char *name - pointer to name to print an entry for * Stat *asb - pointer to the stat structure for the file */ #ifdef __STDC__ static void pax_entry(char *name, Stat *asb) #else static void pax_entry(name, asb) char *name; Stat *asb; #endif { struct tm *atm; Link *from; struct passwd *pwp; struct group *grp; if (f_list && f_verbose) { print_mode(asb->sb_mode); fprintf(msgfile, " %2d", asb->sb_nlink); atm = localtime(&asb->sb_mtime); if (pwp = getpwuid((int) USH(asb->sb_uid))) { fprintf(msgfile, " %-8s", pwp->pw_name); } else { fprintf(msgfile, " %-8u", USH(asb->sb_uid)); } if (grp = getgrgid((int) USH(asb->sb_gid))) { fprintf(msgfile, " %-8s", grp->gr_name); } else { fprintf(msgfile, " %-8u", USH(asb->sb_gid)); } switch (asb->sb_mode & S_IFMT) { case S_IFBLK: case S_IFCHR: fprintf(msgfile, "\t%3d, %3d", major(asb->sb_rdev), minor(asb->sb_rdev)); break; case S_IFREG: fprintf(msgfile, "\t%8ld", asb->sb_size); break; default: fprintf(msgfile, "\t "); } fprintf(msgfile," %3s %2d %02d:%02d ", monnames[atm->tm_mon], atm->tm_mday, atm->tm_hour, atm->tm_min); } fprintf(msgfile, "%s", name); if ((asb->sb_nlink > 1) && (from = islink(name, asb))) { fprintf(msgfile, " == %s", from->l_name); } #ifdef S_IFLNK if ((asb->sb_mode & S_IFMT) == S_IFLNK) { fprintf(msgfile, " -> %s", asb->sb_link); } #endif /* S_IFLNK */ putc('\n', msgfile); } /* print_mode - fancy file mode display * * DESCRIPTION * * Print_mode displays a numeric file mode in the standard unix * representation, ala ls (-rwxrwxrwx). No error checking is done * for bad mode combinations. FIFOS, sybmbolic links, sticky bits, * block- and character-special devices are supported if supported * by the hosting implementation. * * PARAMETERS * * ushort mode - The integer representation of the mode to print. */ #ifdef __STDC__ static void print_mode(ushort mode) #else static void print_mode(mode) ushort mode; #endif { /* Tar does not print the leading identifier... */ if (ar_interface != TAR) { switch (mode & S_IFMT) { case S_IFDIR: putc('d', msgfile); break; #ifdef S_IFLNK case S_IFLNK: putc('l', msgfile); break; #endif /* S_IFLNK */ case S_IFBLK: putc('b', msgfile); break; case S_IFCHR: putc('c', msgfile); break; #ifdef S_IFIFO case S_IFIFO: putc('p', msgfile); break; #endif /* S_IFIFO */ case S_IFREG: default: putc('-', msgfile); break; } } putc(mode & 0400 ? 'r' : '-', msgfile); putc(mode & 0200 ? 'w' : '-', msgfile); putc(mode & 0100 ? mode & 04000 ? 's' : 'x' : mode & 04000 ? 'S' : '-', msgfile); putc(mode & 0040 ? 'r' : '-', msgfile); putc(mode & 0020 ? 'w' : '-', msgfile); putc(mode & 0010 ? mode & 02000 ? 's' : 'x' : mode & 02000 ? 'S' : '-', msgfile); putc(mode & 0004 ? 'r' : '-', msgfile); putc(mode & 0002 ? 'w' : '-', msgfile); putc(mode & 0001 ? mode & 01000 ? 't' : 'x' : mode & 01000 ? 'T' : '-', msgfile); } /* from_oct - quick and dirty octal conversion * * DESCRIPTION * * From_oct will convert an ASCII representation of an octal number * to the numeric representation. The number of characters to convert * is given by the parameter "digs". If there are less numbers than * specified by "digs", then the routine returns -1. * * PARAMETERS * * int digs - Number to of digits to convert * char *where - Character representation of octal number * * RETURNS * * The value of the octal number represented by the first digs * characters of the string where. Result is -1 if the field * is invalid (all blank, or nonoctal). * * ERRORS * * If the field is all blank, then the value returned is -1. * */ #ifdef __STDC__ static long from_oct(int digs, char *where) #else static long from_oct(digs, where) int digs; /* number of characters to convert */ char *where; /* character representation of octal number */ #endif { long value; while (isspace(*where)) { /* Skip spaces */ where++; if (--digs <= 0) { return(-1); /* All blank field */ } } value = 0; while (digs > 0 && ISODIGIT(*where)) { /* Scan til nonoctal */ value = (value << 3) | (*where++ - '0'); --digs; } if (digs > 0 && *where && !isspace(*where)) { return(-1); /* Ended on non-space/nul */ } return(value); }