minix/commands/patch/patch.c
2005-04-21 14:53:53 +00:00

843 lines
19 KiB
C
Executable file

char rcsid[] =
"$Header$";
/* patch - a program to apply diffs to original files
*
* Copyright 1986, Larry Wall
*
* This program may be copied as long as you don't try to make any
* money off of it, or pretend that you wrote it.
*
* $Log$
* Revision 1.1 2005/04/21 14:55:10 beng
* Initial revision
*
* Revision 1.1.1.1 2005/04/20 13:33:19 beng
* Initial import of minix 2.0.4
*
* Revision 2.0.1.6 88/06/22 20:46:39 lwall
* patch12: rindex() wasn't declared
*
* Revision 2.0.1.5 88/06/03 15:09:37 lwall
* patch10: exit code improved.
* patch10: better support for non-flexfilenames.
*
* Revision 2.0.1.4 87/02/16 14:00:04 lwall
* Short replacement caused spurious "Out of sync" message.
*
* Revision 2.0.1.3 87/01/30 22:45:50 lwall
* Improved diagnostic on sync error.
* Moved do_ed_script() to pch.c.
*
* Revision 2.0.1.2 86/11/21 09:39:15 lwall
* Fuzz factor caused offset of installed lines.
*
* Revision 2.0.1.1 86/10/29 13:10:22 lwall
* Backwards search could terminate prematurely.
*
* Revision 2.0 86/09/17 15:37:32 lwall
* Baseline for netwide release.
*
* Revision 1.5 86/08/01 20:53:24 lwall
* Changed some %d's to %ld's.
* Linted.
*
* Revision 1.4 86/08/01 19:17:29 lwall
* Fixes for machines that can't vararg.
* Added fuzz factor.
* Generalized -p.
* General cleanup.
*
* 85/08/15 van%ucbmonet@berkeley
* Changes for 4.3bsd diff -c.
*
* Revision 1.3 85/03/26 15:07:43 lwall
* Frozen.
*
* Revision 1.2.1.9 85/03/12 17:03:35 lwall
* Changed pfp->_file to fileno(pfp).
*
* Revision 1.2.1.8 85/03/12 16:30:43 lwall
* Check i_ptr and i_womp to make sure they aren't null before freeing.
* Also allow ed output to be suppressed.
*
* Revision 1.2.1.7 85/03/12 15:56:13 lwall
* Added -p option from jromine@uci-750a.
*
* Revision 1.2.1.6 85/03/12 12:12:51 lwall
* Now checks for normalness of file to patch.
*
* Revision 1.2.1.5 85/03/12 11:52:12 lwall
* Added -D (#ifdef) option from joe@fluke.
*
* Revision 1.2.1.4 84/12/06 11:14:15 lwall
* Made smarter about SCCS subdirectories.
*
* Revision 1.2.1.3 84/12/05 11:18:43 lwall
* Added -l switch to do loose string comparison.
*
* Revision 1.2.1.2 84/12/04 09:47:13 lwall
* Failed hunk count not reset on multiple patch file.
*
* Revision 1.2.1.1 84/12/04 09:42:37 lwall
* Branch for sdcrdcf changes.
*
* Revision 1.2 84/11/29 13:29:51 lwall
* Linted. Identifiers uniqified. Fixed i_ptr malloc() bug. Fixed
* multiple calls to mktemp(). Will now work on machines that can only
* read 32767 chars. Added -R option for diffs with new and old swapped.
* Various cosmetic changes.
*
* Revision 1.1 84/11/09 17:03:58 lwall
* Initial revision
*
*/
/*
* 1992-01-15
* Modified by Saeko & Kouichi Hirabayashi to fit small memory (64K+64K)
* system by adding "#if[n]def SMALL" parts.
*/
#include "INTERN.h"
#include "common.h"
#include "EXTERN.h"
#include "version.h"
#include "util.h"
#include "pch.h"
#include "inp.h"
/* procedures */
_PROTOTYPE(int main , (int argc , char **argv ));
_PROTOTYPE(void reinitialize_almost_everything , (void));
_PROTOTYPE(void get_some_switches , (void));
_PROTOTYPE(LINENUM locate_hunk , (LINENUM fuzz ));
_PROTOTYPE(void abort_hunk , (void));
_PROTOTYPE(void apply_hunk , (LINENUM where ));
_PROTOTYPE(void init_output , (char *name ));
_PROTOTYPE(void init_reject , (char *name ));
_PROTOTYPE(void copy_till , (Reg1 LINENUM lastline ));
_PROTOTYPE(void spew_output , (void));
_PROTOTYPE(void dump_line , (LINENUM line ));
_PROTOTYPE(bool patch_match , (LINENUM base , LINENUM offset , LINENUM fuzz ));
_PROTOTYPE(bool similar , (Reg1 char *a , Reg2 char *b , Reg3 int len ));
/* Apply a set of diffs as appropriate. */
int main(argc,argv)
int argc;
char **argv;
{
LINENUM where;
LINENUM newwhere;
LINENUM fuzz;
LINENUM mymaxfuzz;
int hunk = 0;
int failed = 0;
int failtotal = 0;
int i;
setbuf(stderr, serrbuf);
for (i = 0; i<MAXFILEC; i++)
filearg[i] = Nullch;
Mktemp(TMPOUTNAME);
Mktemp(TMPINNAME);
Mktemp(TMPREJNAME);
Mktemp(TMPPATNAME);
#ifdef SMALL
Mktemp(TMPSTRNAME);
#endif
/* parse switches */
Argc = argc;
Argv = argv;
get_some_switches();
/* make sure we clean up /tmp in case of disaster */
set_signals(0);
for (
open_patch_file(filearg[1]);
there_is_another_patch();
reinitialize_almost_everything()
) { /* for each patch in patch file */
if (outname == Nullch)
outname = savestr(filearg[0]);
/* initialize the patched file */
if (!skip_rest_of_patch)
init_output(TMPOUTNAME);
/* for ed script just up and do it and exit */
if (diff_type == ED_DIFF) {
do_ed_script();
continue;
}
/* initialize reject file */
init_reject(TMPREJNAME);
/* find out where all the lines are */
if (!skip_rest_of_patch)
scan_input(filearg[0]);
/* from here on, open no standard i/o files, because malloc */
/* might misfire and we can't catch it easily */
/* apply each hunk of patch */
hunk = 0;
failed = 0;
out_of_mem = FALSE;
while (another_hunk()) {
hunk++;
fuzz = Nulline;
mymaxfuzz = pch_context();
if (maxfuzz < mymaxfuzz)
mymaxfuzz = maxfuzz;
if (!skip_rest_of_patch) {
do {
where = locate_hunk(fuzz);
if (hunk == 1 && where == Nulline && !force) {
/* dwim for reversed patch? */
if (!pch_swap()) {
if (fuzz == Nulline)
say1(
"Not enough memory to try swapped hunk! Assuming unswapped.\n");
continue;
}
reverse = !reverse;
where = locate_hunk(fuzz); /* try again */
if (where == Nulline) { /* didn't find it swapped */
if (!pch_swap()) /* put it back to normal */
fatal1("Lost hunk on alloc error!\n");
reverse = !reverse;
}
else if (noreverse) {
if (!pch_swap()) /* put it back to normal */
fatal1("Lost hunk on alloc error!\n");
reverse = !reverse;
say1(
"Ignoring previously applied (or reversed) patch.\n");
skip_rest_of_patch = TRUE;
}
else {
ask3(
"%seversed (or previously applied) patch detected! %s -R? [y] ",
reverse ? "R" : "Unr",
reverse ? "Assume" : "Ignore");
if (*buf == 'n') {
ask1("Apply anyway? [n] ");
if (*buf != 'y')
skip_rest_of_patch = TRUE;
where = Nulline;
reverse = !reverse;
if (!pch_swap()) /* put it back to normal */
fatal1("Lost hunk on alloc error!\n");
}
}
}
} while (!skip_rest_of_patch && where == Nulline &&
++fuzz <= mymaxfuzz);
if (skip_rest_of_patch) { /* just got decided */
Fclose(ofp);
ofp = Nullfp;
}
}
newwhere = pch_newfirst() + last_offset;
if (skip_rest_of_patch) {
abort_hunk();
failed++;
if (verbose)
say3("Hunk #%d ignored at %ld.\n", hunk, newwhere);
}
else if (where == Nulline) {
abort_hunk();
failed++;
if (verbose)
say3("Hunk #%d failed at %ld.\n", hunk, newwhere);
}
else {
apply_hunk(where);
if (verbose) {
say3("Hunk #%d succeeded at %ld", hunk, newwhere);
if (fuzz)
say2(" with fuzz %ld", fuzz);
if (last_offset)
say3(" (offset %ld line%s)",
last_offset, last_offset==1L?"":"s");
say1(".\n");
}
}
}
if (out_of_mem && using_plan_a) {
Argc = Argc_last;
Argv = Argv_last;
say1("\n\nRan out of memory using Plan A--trying again...\n\n");
continue;
}
assert(hunk);
/* finish spewing out the new file */
if (!skip_rest_of_patch)
spew_output();
/* and put the output where desired */
ignore_signals();
if (!skip_rest_of_patch) {
if (move_file(TMPOUTNAME, outname) < 0) {
toutkeep = TRUE;
chmod(TMPOUTNAME, filemode);
}
else
chmod(outname, filemode);
}
Fclose(rejfp);
rejfp = Nullfp;
if (failed) {
failtotal += failed;
if (!*rejname) {
Strcpy(rejname, outname);
#ifndef FLEXFILENAMES
{
char *s = rindex(rejname,'/');
if (!s)
s = rejname;
if (strlen(s) > 13)
if (s[12] == '.') /* try to preserve difference */
s[12] = s[13]; /* between .h, .c, .y, etc. */
s[13] = '\0';
}
#endif
Strcat(rejname, REJEXT);
}
if (skip_rest_of_patch) {
say4("%d out of %d hunks ignored--saving rejects to %s\n",
failed, hunk, rejname);
}
else {
say4("%d out of %d hunks failed--saving rejects to %s\n",
failed, hunk, rejname);
}
if (move_file(TMPREJNAME, rejname) < 0)
trejkeep = TRUE;
}
set_signals(1);
}
#ifdef SMALL
if (sfp != Nullfp)
Fclose(sfp);
#endif
my_exit(failtotal);
}
/* Prepare to find the next patch to do in the patch file. */
void
reinitialize_almost_everything()
{
re_patch();
re_input();
input_lines = 0;
last_frozen_line = 0;
filec = 0;
if (filearg[0] != Nullch && !out_of_mem) {
free(filearg[0]);
filearg[0] = Nullch;
}
if (outname != Nullch) {
free(outname);
outname = Nullch;
}
last_offset = 0;
diff_type = 0;
if (revision != Nullch) {
free(revision);
revision = Nullch;
}
reverse = FALSE;
skip_rest_of_patch = FALSE;
get_some_switches();
if (filec >= 2)
fatal1("You may not change to a different patch file.\n");
}
/* Process switches and filenames up to next '+' or end of list. */
void
get_some_switches()
{
Reg1 char *s;
rejname[0] = '\0';
Argc_last = Argc;
Argv_last = Argv;
if (!Argc)
return;
for (Argc--,Argv++; Argc; Argc--,Argv++) {
s = Argv[0];
if (strEQ(s, "+")) {
return; /* + will be skipped by for loop */
}
if (*s != '-' || !s[1]) {
if (filec == MAXFILEC)
fatal1("Too many file arguments.\n");
filearg[filec++] = savestr(s);
}
else {
switch (*++s) {
case 'b':
origext = savestr(Argv[1]);
Argc--,Argv++;
break;
case 'B':
origprae = savestr(Argv[1]);
Argc--,Argv++;
break;
case 'c':
diff_type = CONTEXT_DIFF;
break;
case 'd':
if (!*++s) {
Argc--,Argv++;
s = Argv[0];
}
if (chdir(s) < 0)
fatal2("Can't cd to %s.\n", s);
break;
case 'D':
do_defines = TRUE;
if (!*++s) {
Argc--,Argv++;
s = Argv[0];
}
if (!isalpha(*s))
fatal1("Argument to -D not an identifier.\n");
Sprintf(if_defined, "#ifdef %s\n", s);
Sprintf(not_defined, "#ifndef %s\n", s);
Sprintf(end_defined, "#endif /* %s */\n", s);
break;
case 'e':
diff_type = ED_DIFF;
break;
case 'f':
force = TRUE;
break;
case 'F':
if (*++s == '=')
s++;
maxfuzz = atoi(s);
break;
case 'l':
canonicalize = TRUE;
break;
case 'n':
diff_type = NORMAL_DIFF;
break;
case 'N':
noreverse = TRUE;
break;
case 'o':
outname = savestr(Argv[1]);
Argc--,Argv++;
break;
case 'p':
if (*++s == '=')
s++;
strippath = atoi(s);
break;
case 'r':
Strcpy(rejname, Argv[1]);
Argc--,Argv++;
break;
case 'R':
reverse = TRUE;
break;
case 's':
verbose = FALSE;
break;
case 'S':
skip_rest_of_patch = TRUE;
break;
case 'v':
version();
break;
#ifdef DEBUGGING
case 'x':
debug = atoi(s+1);
break;
#endif
default:
fatal2("Unrecognized switch: %s\n", Argv[0]);
}
}
}
}
/* Attempt to find the right place to apply this hunk of patch. */
LINENUM
locate_hunk(fuzz)
LINENUM fuzz;
{
Reg1 LINENUM first_guess = pch_first() + last_offset;
Reg2 LINENUM offset;
LINENUM pat_lines = pch_ptrn_lines();
Reg3 LINENUM max_pos_offset = input_lines - first_guess
- pat_lines + 1;
Reg4 LINENUM max_neg_offset = first_guess - last_frozen_line - 1
+ pch_context();
if (!pat_lines) /* null range matches always */
return first_guess;
if (max_neg_offset >= first_guess) /* do not try lines < 0 */
max_neg_offset = first_guess - 1;
if (first_guess <= input_lines && patch_match(first_guess, Nulline, fuzz))
return first_guess;
for (offset = 1; ; offset++) {
Reg5 bool check_after = (offset <= max_pos_offset);
Reg6 bool check_before = (offset <= max_neg_offset);
if (check_after && patch_match(first_guess, offset, fuzz)) {
#ifdef DEBUGGING
if (debug & 1)
say3("Offset changing from %ld to %ld\n", last_offset, offset);
#endif
last_offset = offset;
return first_guess+offset;
}
else if (check_before && patch_match(first_guess, -offset, fuzz)) {
#ifdef DEBUGGING
if (debug & 1)
say3("Offset changing from %ld to %ld\n", last_offset, -offset);
#endif
last_offset = -offset;
return first_guess-offset;
}
else if (!check_before && !check_after)
return Nulline;
}
}
/* We did not find the pattern, dump out the hunk so they can handle it. */
void
abort_hunk()
{
Reg1 LINENUM i;
Reg2 LINENUM pat_end = pch_end();
/* add in last_offset to guess the same as the previous successful hunk */
LINENUM oldfirst = pch_first() + last_offset;
LINENUM newfirst = pch_newfirst() + last_offset;
LINENUM oldlast = oldfirst + pch_ptrn_lines() - 1;
LINENUM newlast = newfirst + pch_repl_lines() - 1;
char *stars = (diff_type == NEW_CONTEXT_DIFF ? " ****" : "");
char *minuses = (diff_type == NEW_CONTEXT_DIFF ? " ----" : " -----");
fprintf(rejfp, "***************\n");
for (i=0; i<=pat_end; i++) {
switch (pch_char(i)) {
case '*':
if (oldlast < oldfirst)
fprintf(rejfp, "*** 0%s\n", stars);
else if (oldlast == oldfirst)
fprintf(rejfp, "*** %ld%s\n", oldfirst, stars);
else
fprintf(rejfp, "*** %ld,%ld%s\n", oldfirst, oldlast, stars);
break;
case '=':
if (newlast < newfirst)
fprintf(rejfp, "--- 0%s\n", minuses);
else if (newlast == newfirst)
fprintf(rejfp, "--- %ld%s\n", newfirst, minuses);
else
fprintf(rejfp, "--- %ld,%ld%s\n", newfirst, newlast, minuses);
break;
case '\n':
fprintf(rejfp, "%s", pfetch(i));
break;
case ' ': case '-': case '+': case '!':
fprintf(rejfp, "%c %s", pch_char(i), pfetch(i));
break;
default:
say1("Fatal internal error in abort_hunk().\n");
abort();
}
}
}
/* We found where to apply it (we hope), so do it. */
void
apply_hunk(where)
LINENUM where;
{
Reg1 LINENUM old = 1;
Reg2 LINENUM lastline = pch_ptrn_lines();
Reg3 LINENUM new = lastline+1;
#define OUTSIDE 0
#define IN_IFNDEF 1
#define IN_IFDEF 2
#define IN_ELSE 3
Reg4 int def_state = OUTSIDE;
Reg5 bool R_do_defines = do_defines;
Reg6 LINENUM pat_end = pch_end();
where--;
while (pch_char(new) == '=' || pch_char(new) == '\n')
new++;
while (old <= lastline) {
if (pch_char(old) == '-') {
copy_till(where + old - 1);
if (R_do_defines) {
if (def_state == OUTSIDE) {
fputs(not_defined, ofp);
def_state = IN_IFNDEF;
}
else if (def_state == IN_IFDEF) {
fputs(else_defined, ofp);
def_state = IN_ELSE;
}
fputs(pfetch(old), ofp);
}
last_frozen_line++;
old++;
}
else if (new > pat_end)
break;
else if (pch_char(new) == '+') {
copy_till(where + old - 1);
if (R_do_defines) {
if (def_state == IN_IFNDEF) {
fputs(else_defined, ofp);
def_state = IN_ELSE;
}
else if (def_state == OUTSIDE) {
fputs(if_defined, ofp);
def_state = IN_IFDEF;
}
}
fputs(pfetch(new), ofp);
new++;
}
else {
if (pch_char(new) != pch_char(old)) {
say3("Out-of-sync patch, lines %ld,%ld--mangled text or line numbers, maybe?\n",
pch_hunk_beg() + old,
pch_hunk_beg() + new);
#ifdef DEBUGGING
say3("oldchar = '%c', newchar = '%c'\n",
pch_char(old), pch_char(new));
#endif
my_exit(1);
}
if (pch_char(new) == '!') {
copy_till(where + old - 1);
if (R_do_defines) {
fputs(not_defined, ofp);
def_state = IN_IFNDEF;
}
while (pch_char(old) == '!') {
if (R_do_defines) {
fputs(pfetch(old), ofp);
}
last_frozen_line++;
old++;
}
if (R_do_defines) {
fputs(else_defined, ofp);
def_state = IN_ELSE;
}
while (pch_char(new) == '!') {
fputs(pfetch(new), ofp);
new++;
}
if (R_do_defines) {
fputs(end_defined, ofp);
def_state = OUTSIDE;
}
}
else {
assert(pch_char(new) == ' ');
old++;
new++;
}
}
}
if (new <= pat_end && pch_char(new) == '+') {
copy_till(where + old - 1);
if (R_do_defines) {
if (def_state == OUTSIDE) {
fputs(if_defined, ofp);
def_state = IN_IFDEF;
}
else if (def_state == IN_IFNDEF) {
fputs(else_defined, ofp);
def_state = IN_ELSE;
}
}
while (new <= pat_end && pch_char(new) == '+') {
fputs(pfetch(new), ofp);
new++;
}
}
if (R_do_defines && def_state != OUTSIDE) {
fputs(end_defined, ofp);
}
}
/* Open the new file. */
void
init_output(name)
char *name;
{
ofp = fopen(name, "w");
if (ofp == Nullfp)
fatal2("patch: can't create %s.\n", name);
}
/* Open a file to put hunks we can't locate. */
void
init_reject(name)
char *name;
{
rejfp = fopen(name, "w");
if (rejfp == Nullfp)
fatal2("patch: can't create %s.\n", name);
}
/* Copy input file to output, up to wherever hunk is to be applied. */
void
copy_till(lastline)
Reg1 LINENUM lastline;
{
Reg2 LINENUM R_last_frozen_line = last_frozen_line;
if (R_last_frozen_line > lastline)
say1("patch: misordered hunks! output will be garbled.\n");
while (R_last_frozen_line < lastline) {
dump_line(++R_last_frozen_line);
}
last_frozen_line = R_last_frozen_line;
}
/* Finish copying the input file to the output file. */
void
spew_output()
{
#ifdef DEBUGGING
if (debug & 256)
say3("il=%ld lfl=%ld\n",input_lines,last_frozen_line);
#endif
if (input_lines)
copy_till(input_lines); /* dump remainder of file */
Fclose(ofp);
ofp = Nullfp;
}
/* Copy one line from input to output. */
void
dump_line(line)
LINENUM line;
{
Reg1 char *s;
Reg2 char R_newline = '\n';
/* Note: string is not null terminated. */
for (s=ifetch(line, 0); putc(*s, ofp) != R_newline; s++) ;
}
/* Does the patch pattern match at line base+offset? */
bool
patch_match(base, offset, fuzz)
LINENUM base;
LINENUM offset;
LINENUM fuzz;
{
Reg1 LINENUM pline = 1 + fuzz;
Reg2 LINENUM iline;
Reg3 LINENUM pat_lines = pch_ptrn_lines() - fuzz;
for (iline=base+offset+fuzz; pline <= pat_lines; pline++,iline++) {
if (canonicalize) {
if (!similar(ifetch(iline, (offset >= 0)),
pfetch(pline),
pch_line_len(pline) ))
return FALSE;
}
else if (strnNE(ifetch(iline, (offset >= 0)),
pfetch(pline),
pch_line_len(pline) ))
return FALSE;
}
return TRUE;
}
/* Do two lines match with canonicalized white space? */
bool
similar(a,b,len)
Reg1 char *a;
Reg2 char *b;
Reg3 int len;
{
while (len) {
if (isspace(*b)) { /* whitespace (or \n) to match? */
if (!isspace(*a)) /* no corresponding whitespace? */
return FALSE;
while (len && isspace(*b) && *b != '\n')
b++,len--; /* skip pattern whitespace */
while (isspace(*a) && *a != '\n')
a++; /* skip target whitespace */
if (*a == '\n' || *b == '\n')
return (*a == *b); /* should end in sync */
}
else if (*a++ != *b++) /* match non-whitespace chars */
return FALSE;
else
len--; /* probably not necessary */
}
return TRUE; /* actually, this is not reached */
/* since there is always a \n */
}
/* Exit with cleanup. */
void
my_exit(status)
int status;
{
Unlink(TMPINNAME);
if (!toutkeep) {
Unlink(TMPOUTNAME);
}
if (!trejkeep) {
Unlink(TMPREJNAME);
}
Unlink(TMPPATNAME);
#ifdef SMALL
Unlink(TMPSTRNAME);
#endif
exit(status);
}