somake/bin/files.cc

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/*
* CDDL HEADER START
*
* The contents of this file are subject to the terms of the
* Common Development and Distribution License (the "License").
* You may not use this file except in compliance with the License.
*
* You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
* or http://www.opensolaris.org/os/licensing.
* See the License for the specific language governing permissions
* and limitations under the License.
*
* When distributing Covered Code, include this CDDL HEADER in each
* file and include the License file at usr/src/OPENSOLARIS.LICENSE.
* If applicable, add the following below this CDDL HEADER, with the
* fields enclosed by brackets "[]" replaced with your own identifying
* information: Portions Copyright [yyyy] [name of copyright owner]
*
* CDDL HEADER END
*/
/*
* Copyright 2003 Sun Microsystems, Inc. All rights reserved.
* Use is subject to license terms.
*/
/*
* files.c
*
* Various file related routines:
* Figure out if file exists
* Wildcard resolution for directory reader
* Directory reader
*/
/*
* Included files
*/
#include <dirent.h> /* opendir() */
#include <errno.h> /* errno */
#include <mk/defs.h>
#include <mksh/macro.h> /* getvar() */
#include <mksh/misc.h> /* get_prop(), append_prop() */
#include <sys/stat.h> /* lstat() */
#include <libintl.h>
/*
* Defined macros
*/
/*
* typedefs & structs
*/
/*
* Static variables
*/
/*
* File table of contents
*/
extern timestruc_t& exists(register Name target);
extern void set_target_stat(register Name target, struct stat buf);
static timestruc_t& vpath_exists(register Name target);
static Name enter_file_name(wchar_t *name_string, wchar_t *library);
static Boolean star_match(register char *string, register char *pattern);
static Boolean amatch(register wchar_t *string, register wchar_t *pattern);
/*
* exists(target)
*
* Figure out the timestamp for one target.
*
* Return value:
* The time the target was created
*
* Parameters:
* target The target to check
*
* Global variables used:
* debug_level Should we trace the stat call?
* recursion_level Used for tracing
* vpath_defined Was the variable VPATH defined in environment?
*/
timestruc_t&
exists(register Name target)
{
struct stat buf;
register int result;
/* We cache stat information. */
if (target->stat.time != file_no_time) {
return target->stat.time;
}
/*
* If the target is a member, we have to extract the time
* from the archive.
*/
if (target->is_member &&
(get_prop(target->prop, member_prop) != NULL)) {
return read_archive(target);
}
if (debug_level > 1) {
(void) printf("%*sstat(%s)\n",
recursion_level,
"",
target->string_mb);
}
result = lstat_vroot(target->string_mb, &buf, NULL, VROOT_DEFAULT);
if ((result != -1) && ((buf.st_mode & S_IFMT) == S_IFLNK)) {
/*
* If the file is a symbolic link, we remember that
* and then we get the status for the refd file.
*/
target->stat.is_sym_link = true;
result = stat_vroot(target->string_mb, &buf, NULL, VROOT_DEFAULT);
} else {
target->stat.is_sym_link = false;
}
if (result < 0) {
target->stat.time = file_doesnt_exist;
target->stat.stat_errno = errno;
if ((errno == ENOENT) &&
vpath_defined &&
/* azv, fixing bug 1262942, VPATH works with a leaf name
* but not a directory name.
*/
(target->string_mb[0] != (int) slash_char) ) {
/* BID_1214655 */
/* azv */
vpath_exists(target);
// return vpath_exists(target);
}
} else {
/* Save all the information we need about the file */
target->stat.stat_errno = 0;
target->stat.is_file = true;
target->stat.mode = buf.st_mode & 0777;
target->stat.size = buf.st_size;
target->stat.is_dir =
BOOLEAN((buf.st_mode & S_IFMT) == S_IFDIR);
if (target->stat.is_dir) {
target->stat.time = file_is_dir;
} else {
/* target->stat.time = buf.st_mtime; */
/* BID_1129806 */
/* vis@nbsp.nsk.su */
target->stat.time = MAX(buf.st_mtim, file_min_time);
}
}
if ((target->colon_splits > 0) &&
(get_prop(target->prop, time_prop) == NULL)) {
append_prop(target, time_prop)->body.time.time =
target->stat.time;
}
return target->stat.time;
}
/*
* set_target_stat( target, buf)
*
* Called by exists() to set some stat fields in the Name structure
* to those read by the stat_vroot() call (from disk).
*
* Parameters:
* target The target whose stat field is set
* buf stat values (on disk) of the file
* represented by target.
*/
void
set_target_stat(register Name target, struct stat buf)
{
target->stat.stat_errno = 0;
target->stat.is_file = true;
target->stat.mode = buf.st_mode & 0777;
target->stat.size = buf.st_size;
target->stat.is_dir =
BOOLEAN((buf.st_mode & S_IFMT) == S_IFDIR);
if (target->stat.is_dir) {
target->stat.time = file_is_dir;
} else {
/* target->stat.time = buf.st_mtime; */
/* BID_1129806 */
/* vis@nbsp.nsk.su */
target->stat.time = MAX(buf.st_mtim, file_min_time);
}
}
/*
* vpath_exists(target)
*
* Called if exists() discovers that there is a VPATH defined.
* This function stats the VPATH translation of the target.
*
* Return value:
* The time the target was created
*
* Parameters:
* target The target to check
*
* Global variables used:
* vpath_name The Name "VPATH", used to get macro value
*/
static timestruc_t&
vpath_exists(register Name target)
{
wchar_t *vpath;
wchar_t file_name[MAXPATHLEN];
wchar_t *name_p;
Name alias;
/*
* To avoid recursive search through VPATH when exists(alias) is called
*/
vpath_defined = false;
Wstring wcb(getvar(vpath_name));
Wstring wcb1(target);
vpath = wcb.get_string();
while (*vpath != (int) nul_char) {
name_p = file_name;
while ((*vpath != (int) colon_char) &&
(*vpath != (int) nul_char)) {
*name_p++ = *vpath++;
}
*name_p++ = (int) slash_char;
(void) wcscpy(name_p, wcb1.get_string());
alias = GETNAME(file_name, FIND_LENGTH);
if (exists(alias) != file_doesnt_exist) {
target->stat.is_file = true;
target->stat.mode = alias->stat.mode;
target->stat.size = alias->stat.size;
target->stat.is_dir = alias->stat.is_dir;
target->stat.time = alias->stat.time;
maybe_append_prop(target, vpath_alias_prop)->
body.vpath_alias.alias = alias;
target->has_vpath_alias_prop = true;
vpath_defined = true;
return alias->stat.time;
}
while ((*vpath != (int) nul_char) &&
((*vpath == (int) colon_char) || iswspace(*vpath))) {
vpath++;
}
}
/*
* Restore vpath_defined
*/
vpath_defined = true;
return target->stat.time;
}
/*
* read_dir(dir, pattern, line, library)
*
* Used to enter the contents of directories into makes namespace.
* Presence of a file is important when scanning for implicit rules.
* read_dir() is also used to expand wildcards in dependency lists.
*
* Return value:
* Non-0 if we found files to match the pattern
*
* Parameters:
* dir Path to the directory to read
* pattern Pattern for that files should match or NULL
* line When we scan using a pattern we enter files
* we find as dependencies for this line
* library If we scan for "lib.a(<wildcard-member>)"
*
* Global variables used:
* debug_level Should we trace the dir reading?
* dot The Name ".", compared against
* sccs_dir_path The path to the SCCS dir (from PROJECTDIR)
* vpath_defined Was the variable VPATH defined in environment?
* vpath_name The Name "VPATH", use to get macro value
*/
int
read_dir(Name dir, wchar_t *pattern, Property line, wchar_t *library)
{
wchar_t file_name[MAXPATHLEN];
wchar_t *file_name_p = file_name;
Name file;
wchar_t plain_file_name[MAXPATHLEN];
wchar_t *plain_file_name_p;
Name plain_file;
wchar_t tmp_wcs_buffer[MAXPATHLEN];
DIR *dir_fd;
int m_local_dependency=0;
#define d_fileno d_ino
register struct dirent *dp;
wchar_t *vpath = NULL;
wchar_t *p;
int result = 0;
if(dir->hash.length >= MAXPATHLEN) {
return 0;
}
Wstring wcb(dir);
Wstring vps;
/* A directory is only read once unless we need to expand wildcards. */
if (pattern == NULL) {
if (dir->has_read_dir) {
return 0;
}
dir->has_read_dir = true;
}
/* Check if VPATH is active and setup list if it is. */
if (vpath_defined && (dir == dot)) {
vps.init(getvar(vpath_name));
vpath = vps.get_string();
}
/*
* Prepare the string where we build the full name of the
* files in the directory.
*/
if ((dir->hash.length > 1) || (wcb.get_string()[0] != (int) period_char)) {
(void) wcscpy(file_name, wcb.get_string());
MBSTOWCS(wcs_buffer, "/");
(void) wcscat(file_name, wcs_buffer);
file_name_p = file_name + wcslen(file_name);
}
/* Open the directory. */
vpath_loop:
dir_fd = opendir(dir->string_mb);
if (dir_fd == NULL) {
return 0;
}
/* Read all the directory entries. */
while ((dp = readdir(dir_fd)) != NULL) {
/* We ignore "." and ".." */
if ((dp->d_fileno == 0) ||
((dp->d_name[0] == (int) period_char) &&
((dp->d_name[1] == 0) ||
((dp->d_name[1] == (int) period_char) &&
(dp->d_name[2] == 0))))) {
continue;
}
/*
* Build the full name of the file using whatever
* path supplied to the function.
*/
MBSTOWCS(tmp_wcs_buffer, dp->d_name);
(void) wcscpy(file_name_p, tmp_wcs_buffer);
file = enter_file_name(file_name, library);
if ((pattern != NULL) && amatch(tmp_wcs_buffer, pattern)) {
/*
* If we are expanding a wildcard pattern, we
* enter the file as a dependency for the target.
*/
if (debug_level > 0){
WCSTOMBS(mbs_buffer, pattern);
(void) printf(gettext("'%s: %s' due to %s expansion\n"),
line->body.line.target->string_mb,
file->string_mb,
mbs_buffer);
}
enter_dependency(line, file, false);
result++;
} else {
/*
* If the file has an SCCS/s. file,
* we will detect that later on.
*/
file->stat.has_sccs = NO_SCCS;
/*
* If this is an s. file, we also enter it as if it
* existed in the plain directory.
*/
if ((dp->d_name[0] == 's') &&
(dp->d_name[1] == (int) period_char)) {
MBSTOWCS(tmp_wcs_buffer, dp->d_name + 2);
plain_file_name_p = plain_file_name;
(void) wcscpy(plain_file_name_p, tmp_wcs_buffer);
plain_file = GETNAME(plain_file_name, FIND_LENGTH);
plain_file->stat.is_file = true;
plain_file->stat.has_sccs = HAS_SCCS;
/*
* Enter the s. file as a dependency for the
* plain file.
*/
maybe_append_prop(plain_file, sccs_prop)->
body.sccs.file = file;
MBSTOWCS(tmp_wcs_buffer, dp->d_name + 2);
if ((pattern != NULL) &&
amatch(tmp_wcs_buffer, pattern)) {
if (debug_level > 0) {
WCSTOMBS(mbs_buffer, pattern);
(void) printf(gettext("'%s: %s' due to %s expansion\n"),
line->body.line.target->
string_mb,
plain_file->string_mb,
mbs_buffer);
}
enter_dependency(line, plain_file, false);
result++;
}
}
}
}
(void) closedir(dir_fd);
if ((vpath != NULL) && (*vpath != (int) nul_char)) {
while ((*vpath != (int) nul_char) &&
(iswspace(*vpath) || (*vpath == (int) colon_char))) {
vpath++;
}
p = vpath;
while ((*vpath != (int) colon_char) &&
(*vpath != (int) nul_char)) {
vpath++;
}
if (vpath > p) {
dir = GETNAME(p, vpath - p);
goto vpath_loop;
}
}
/*
* look into SCCS directory only if it's not svr4. For svr4 dont do that.
*/
/*
* Now read the SCCS directory.
* Files in the SCSC directory are considered to be part of the set of
* files in the plain directory. They are also entered in their own right.
* Prepare the string where we build the true name of the SCCS files.
*/
(void) wcsncpy(plain_file_name,
file_name,
file_name_p - file_name);
plain_file_name[file_name_p - file_name] = 0;
plain_file_name_p = plain_file_name + wcslen(plain_file_name);
if(!svr4) {
if (sccs_dir_path != NULL) {
wchar_t tmp_wchar;
wchar_t path[MAXPATHLEN];
char mb_path[MAXPATHLEN];
if (file_name_p - file_name > 0) {
tmp_wchar = *file_name_p;
*file_name_p = 0;
WCSTOMBS(mbs_buffer, file_name);
(void) sprintf(mb_path, "%s/%s/SCCS",
sccs_dir_path,
mbs_buffer);
*file_name_p = tmp_wchar;
} else {
(void) sprintf(mb_path, "%s/SCCS", sccs_dir_path);
}
MBSTOWCS(path, mb_path);
(void) wcscpy(file_name, path);
} else {
MBSTOWCS(wcs_buffer, "SCCS");
(void) wcscpy(file_name_p, wcs_buffer);
}
} else {
MBSTOWCS(wcs_buffer, ".");
(void) wcscpy(file_name_p, wcs_buffer);
}
/* Internalize the constructed SCCS dir name. */
(void) exists(dir = GETNAME(file_name, FIND_LENGTH));
/* Just give up if the directory file doesnt exist. */
if (!dir->stat.is_file) {
return result;
}
/* Open the directory. */
dir_fd = opendir(dir->string_mb);
if (dir_fd == NULL) {
return result;
}
MBSTOWCS(wcs_buffer, "/");
(void) wcscat(file_name, wcs_buffer);
file_name_p = file_name + wcslen(file_name);
while ((dp = readdir(dir_fd)) != NULL) {
if ((dp->d_fileno == 0) ||
((dp->d_name[0] == (int) period_char) &&
((dp->d_name[1] == 0) ||
((dp->d_name[1] == (int) period_char) &&
(dp->d_name[2] == 0))))) {
continue;
}
/* Construct and internalize the true name of the SCCS file. */
MBSTOWCS(wcs_buffer, dp->d_name);
(void) wcscpy(file_name_p, wcs_buffer);
file = GETNAME(file_name, FIND_LENGTH);
file->stat.is_file = true;
file->stat.has_sccs = NO_SCCS;
/*
* If this is an s. file, we also enter it as if it
* existed in the plain directory.
*/
if ((dp->d_name[0] == 's') &&
(dp->d_name[1] == (int) period_char)) {
MBSTOWCS(wcs_buffer, dp->d_name + 2);
(void) wcscpy(plain_file_name_p, wcs_buffer);
plain_file = GETNAME(plain_file_name, FIND_LENGTH);
plain_file->stat.is_file = true;
plain_file->stat.has_sccs = HAS_SCCS;
/* if sccs dependency is already set,skip */
if(plain_file->prop) {
Property sprop = get_prop(plain_file->prop,sccs_prop);
if(sprop != NULL) {
if (sprop->body.sccs.file) {
goto try_pattern;
}
}
}
/*
* Enter the s. file as a dependency for the
* plain file.
*/
maybe_append_prop(plain_file, sccs_prop)->
body.sccs.file = file;
try_pattern:
MBSTOWCS(tmp_wcs_buffer, dp->d_name + 2);
if ((pattern != NULL) &&
amatch(tmp_wcs_buffer, pattern)) {
if (debug_level > 0) {
WCSTOMBS(mbs_buffer, pattern);
(void) printf(gettext("'%s: %s' due to %s expansion\n"),
line->body.line.target->
string_mb,
plain_file->string_mb,
mbs_buffer);
}
enter_dependency(line, plain_file, false);
result++;
}
}
}
(void) closedir(dir_fd);
return result;
}
/*
* enter_file_name(name_string, library)
*
* Helper function for read_dir().
*
* Return value:
* The Name that was entered
*
* Parameters:
* name_string Name of the file we want to enter
* library The library it is a member of, if any
*
* Global variables used:
*/
static Name
enter_file_name(wchar_t *name_string, wchar_t *library)
{
wchar_t buffer[STRING_BUFFER_LENGTH];
String_rec lib_name;
Name name;
Property prop;
if (library == NULL) {
name = GETNAME(name_string, FIND_LENGTH);
name->stat.is_file = true;
return name;
}
INIT_STRING_FROM_STACK(lib_name, buffer);
append_string(library, &lib_name, FIND_LENGTH);
append_char((int) parenleft_char, &lib_name);
append_string(name_string, &lib_name, FIND_LENGTH);
append_char((int) parenright_char, &lib_name);
name = GETNAME(lib_name.buffer.start, FIND_LENGTH);
name->stat.is_file = true;
name->is_member = true;
prop = maybe_append_prop(name, member_prop);
prop->body.member.library = GETNAME(library, FIND_LENGTH);
prop->body.member.library->stat.is_file = true;
prop->body.member.entry = NULL;
prop->body.member.member = GETNAME(name_string, FIND_LENGTH);
prop->body.member.member->stat.is_file = true;
return name;
}
/*
* star_match(string, pattern)
*
* This is a regular shell type wildcard pattern matcher
* It is used when xpanding wildcards in dependency lists
*
* Return value:
* Indication if the string matched the pattern
*
* Parameters:
* string String to match
* pattern Pattern to match it against
*
* Global variables used:
*/
static Boolean
star_match(register wchar_t *string, register wchar_t *pattern)
{
register int pattern_ch;
switch (*pattern) {
case 0:
return succeeded;
case bracketleft_char:
case question_char:
case asterisk_char:
while (*string) {
if (amatch(string++, pattern)) {
return succeeded;
}
}
break;
default:
pattern_ch = (int) *pattern++;
while (*string) {
if ((*string++ == pattern_ch) &&
amatch(string, pattern)) {
return succeeded;
}
}
break;
}
return failed;
}
/*
* amatch(string, pattern)
*
* Helper function for shell pattern matching
*
* Return value:
* Indication if the string matched the pattern
*
* Parameters:
* string String to match
* pattern Pattern to match it against
*
* Global variables used:
*/
static Boolean
amatch(register wchar_t *string, register wchar_t *pattern)
{
register long lower_bound;
register long string_ch;
register long pattern_ch;
register int k;
top:
for (; 1; pattern++, string++) {
lower_bound = 017777777777;
string_ch = *string;
switch (pattern_ch = *pattern) {
case bracketleft_char:
k = 0;
while ((pattern_ch = *++pattern) != 0) {
switch (pattern_ch) {
case bracketright_char:
if (!k) {
return failed;
}
string++;
pattern++;
goto top;
case hyphen_char:
k |= (lower_bound <= string_ch) &&
(string_ch <=
(pattern_ch = pattern[1]));
default:
if (string_ch ==
(lower_bound = pattern_ch)) {
k++;
}
}
}
return failed;
case asterisk_char:
return star_match(string, ++pattern);
case 0:
return BOOLEAN(!string_ch);
case question_char:
if (string_ch == 0) {
return failed;
}
break;
default:
if (pattern_ch != string_ch) {
return failed;
}
break;
}
}
/* NOTREACHED */
}