rpm/build/files.c

1658 lines
40 KiB
C
Raw Normal View History

#include "system.h"
#define MYALLPERMS 07777
#include <regex.h>
#include <signal.h> /* getOutputFrom() */
#include "rpmbuild.h"
#include "buildio.h"
#include "myftw.h"
#include "md5.h"
#include "rpmmacro.h"
#define MAXDOCDIR 1024
typedef struct {
struct stat fl_st;
#define fl_dev fl_st.st_dev
#define fl_ino fl_st.st_ino
#define fl_mode fl_st.st_mode
#define fl_nlink fl_st.st_nlink /* unused */
#define fl_uid fl_st.st_uid
#define fl_gid fl_st.st_gid
#define fl_rdev fl_st.st_rdev
#define fl_size fl_st.st_size
#define fl_mtime fl_st.st_mtime
const char *diskName; /* get file from here */
const char *fileName; /* filename in cpio archive */
const char *uname;
const char *gname;
int flags;
int verifyFlags;
const char *lang;
} FileListRec;
typedef struct {
const char *ar_fmodestr;
const char *ar_dmodestr;
const char *ar_user;
const char *ar_group;
mode_t ar_fmode;
mode_t ar_dmode;
} AttrRec;
static AttrRec empty_ar = { NULL, NULL, NULL, NULL, 0, 0 };
struct FileList {
const char *buildRoot;
const char *prefix;
int fileCount;
int totalFileSize;
int processingFailed;
int passedSpecialDoc;
int isSpecialDoc;
int isDir;
int inFtw;
int currentFlags;
int currentVerifyFlags;
AttrRec cur_ar;
AttrRec def_ar;
int defVerifyFlags;
const char *currentLang;
/* Hard coded limit of MAXDOCDIR docdirs. */
/* If you break it you are doing something wrong. */
const char *docDirs[MAXDOCDIR];
int docDirCount;
FileListRec *fileList;
int fileListRecsAlloced;
int fileListRecsUsed;
};
#ifdef DYING
static int processPackageFiles(Spec spec, Package pkg,
int installSpecialDoc, int test);
static void freeFileList(FileListRec *fileList, int count);
static int compareFileListRecs(const void *ap, const void *bp);
static int isDoc(struct FileList *fl, const char *fileName);
static int processBinaryFile(Package pkg, struct FileList *fl, const char *fileName);
static int addFile(struct FileList *fl, const char *name, struct stat *statp);
static int parseForSimple(Spec spec, Package pkg, char *buf,
struct FileList *fl, const char **fileName);
static int parseForVerify(char *buf, struct FileList *fl);
static int parseForLang(char *buf, struct FileList *fl);
static int parseForAttr(char *buf, struct FileList *fl);
static int parseForConfig(char *buf, struct FileList *fl);
static int parseForRegexLang(const char *fileName, char **lang);
static int myGlobPatternP(const char *pattern);
static int glob_error(const char *foo, int bar);
static void timeCheck(int tc, Header h);
static void genCpioListAndHeader(struct FileList *fl,
struct cpioFileMapping **cpioList,
int *cpioCount, Header h, int isSrc);
static char *strtokWithQuotes(char *s, char *delim);
#endif
static void freeAttrRec(AttrRec *ar) {
FREE(ar->ar_fmodestr);
FREE(ar->ar_dmodestr);
FREE(ar->ar_user);
FREE(ar->ar_group);
/* XXX doesn't free ar (yet) */
}
static void dupAttrRec(AttrRec *oar, AttrRec *nar) {
if (oar == nar) /* XXX pathological paranoia */
return;
freeAttrRec(nar);
*nar = *oar; /* structure assignment */
if (nar->ar_fmodestr)
nar->ar_fmodestr = strdup(nar->ar_fmodestr);
if (nar->ar_dmodestr)
nar->ar_dmodestr = strdup(nar->ar_dmodestr);
if (nar->ar_user)
nar->ar_user = strdup(nar->ar_user);
if (nar->ar_group)
nar->ar_group = strdup(nar->ar_group);
}
#if 0
static void dumpAttrRec(const char *msg, AttrRec *ar) {
if (msg)
fprintf(stderr, "%s:\t", msg);
fprintf(stderr, "(%s, %s, %s, %s)\n",
ar->ar_fmodestr,
ar->ar_user,
ar->ar_group,
ar->ar_dmodestr);
}
#endif
/* glob_pattern_p() taken from bash
* Copyright (C) 1985, 1988, 1989 Free Software Foundation, Inc.
*
* Return nonzero if PATTERN has any special globbing chars in it.
*/
static int myGlobPatternP (const char *pattern)
{
register const char *p = pattern;
register char c;
int open = 0;
while ((c = *p++) != '\0')
switch (c) {
case '?':
case '*':
return (1);
case '[': /* Only accept an open brace if there is a close */
open++; /* brace to match it. Bracket expressions must be */
continue; /* complete, according to Posix.2 */
case ']':
if (open)
return (1);
continue;
case '\\':
if (*p++ == '\0')
return (0);
}
return (0);
}
static int glob_error(const char *foo, int bar)
{
return 1;
}
/* strtokWithQuotes() modified from glibc strtok() */
/* Copyright (C) 1991, 1996 Free Software Foundation, Inc.
This file is part of the GNU C Library.
The GNU C Library is free software; you can redistribute it and/or
modify it under the terms of the GNU Library General Public License as
published by the Free Software Foundation; either version 2 of the
License, or (at your option) any later version.
The GNU C Library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Library General Public License for more details.
You should have received a copy of the GNU Library General Public
License along with the GNU C Library; see the file COPYING.LIB. If
not, write to the Free Software Foundation, Inc., 59 Temple Place - Suite 330,
Boston, MA 02111-1307, USA. */
static char *strtokWithQuotes(char *s, char *delim)
{
static char *olds = NULL;
char *token;
if (s == NULL) {
s = olds;
}
/* Skip leading delimiters */
s += strspn(s, delim);
if (*s == '\0') {
return NULL;
}
/* Find the end of the token. */
token = s;
if (*token == '"') {
token++;
/* Find next " char */
s = strchr(token, '"');
} else {
s = strpbrk(token, delim);
}
/* Terminate it */
if (s == NULL) {
/* This token finishes the string */
olds = strchr(token, '\0');
} else {
/* Terminate the token and make olds point past it */
*s = '\0';
olds = s+1;
}
return token;
}
static void timeCheck(int tc, Header h)
{
int *mtime;
char **file;
int count, x, currentTime;
headerGetEntry(h, RPMTAG_FILENAMES, NULL, (void **) &file, &count);
headerGetEntry(h, RPMTAG_FILEMTIMES, NULL, (void **) &mtime, NULL);
currentTime = time(NULL);
for (x = 0; x < count; x++) {
if (currentTime - mtime[x] > tc) {
rpmMessage(RPMMESS_WARNING, _("TIMECHECK failure: %s\n"), file[x]);
}
}
}
typedef struct VFA {
char * attribute;
int flag;
} VFA_t;
VFA_t verifyAttrs[] = {
{ "md5", RPMVERIFY_MD5 },
{ "size", RPMVERIFY_FILESIZE },
{ "link", RPMVERIFY_LINKTO },
{ "user", RPMVERIFY_USER },
{ "group", RPMVERIFY_GROUP },
{ "mtime", RPMVERIFY_MTIME },
{ "mode", RPMVERIFY_MODE },
{ "rdev", RPMVERIFY_RDEV },
{ NULL, 0 }
};
static int parseForVerify(char *buf, struct FileList *fl)
{
char *p, *q, *start, *end, *name;
char ourbuf[BUFSIZ];
int not, verifyFlags;
int *resultVerify;
if (!(p = start = strstr(buf, "%verify"))) {
if (!(p = start = strstr(buf, "%defverify"))) {
return 0;
}
name = "%defverify";
resultVerify = &(fl->defVerifyFlags);
p += 10;
} else {
name = "%verify";
resultVerify = &(fl->currentVerifyFlags);
p += 7;
}
SKIPSPACE(p);
if (*p != '(') {
rpmError(RPMERR_BADSPEC, _("Bad %s() syntax: %s"), name, buf);
fl->processingFailed = 1;
return RPMERR_BADSPEC;
}
p++;
end = p;
while (*end && *end != ')') {
end++;
}
if (! *end) {
rpmError(RPMERR_BADSPEC, _("Bad %s() syntax: %s"), name, buf);
fl->processingFailed = 1;
return RPMERR_BADSPEC;
}
strncpy(ourbuf, p, end-p);
ourbuf[end-p] = '\0';
while (start <= end) {
*start++ = ' ';
}
not = 0;
verifyFlags = RPMVERIFY_NONE;
q = ourbuf;
while ((p = strtok(q, ", \n\t")) != NULL) {
q = NULL;
{ VFA_t *vfa;
for (vfa = verifyAttrs; vfa->attribute != NULL; vfa++) {
if (strcmp(p, vfa->attribute))
continue;
verifyFlags |= vfa->flag;
break;
}
if (vfa->attribute)
continue;
}
if (!strcmp(p, "not")) {
not ^= 1;
} else {
rpmError(RPMERR_BADSPEC, _("Invalid %s token: %s"), name, p);
fl->processingFailed = 1;
return RPMERR_BADSPEC;
}
}
*resultVerify = not ? ~(verifyFlags) : verifyFlags;
return 0;
}
#define isAttrDefault(_ars) ((_ars)[0] == '-' && (_ars)[1] == '\0')
static int parseForAttr(char *buf, struct FileList *fl)
{
char *p, *s, *start, *end, *name;
char ourbuf[1024];
int x, defattr = 0;
AttrRec arbuf, *ar = &arbuf, *ret_ar;
if (!(p = start = strstr(buf, "%attr"))) {
if (!(p = start = strstr(buf, "%defattr"))) {
return 0;
}
defattr = 1;
name = "%defattr";
ret_ar = &(fl->def_ar);
p += 8;
} else {
name = "%attr";
ret_ar = &(fl->cur_ar);
p += 5;
}
*ar = empty_ar; /* structure assignment */
SKIPSPACE(p);
if (*p != '(') {
rpmError(RPMERR_BADSPEC, _("Bad %s() syntax: %s"), name, buf);
fl->processingFailed = 1;
return RPMERR_BADSPEC;
}
p++;
end = p;
while (*end && *end != ')') {
end++;
}
if (! *end) {
rpmError(RPMERR_BADSPEC, _("Bad %s() syntax: %s"), name, buf);
fl->processingFailed = 1;
return RPMERR_BADSPEC;
}
if (defattr) {
s = end;
s++;
SKIPSPACE(s);
if (*s) {
rpmError(RPMERR_BADSPEC,
_("No files after %%defattr(): %s"), buf);
fl->processingFailed = 1;
return RPMERR_BADSPEC;
}
}
strncpy(ourbuf, p, end-p);
ourbuf[end-p] = '\0';
ar->ar_fmodestr = strtok(ourbuf, ", \n\t");
ar->ar_user = strtok(NULL, ", \n\t");
ar->ar_group = strtok(NULL, ", \n\t");
if (defattr)
ar->ar_dmodestr = strtok(NULL, ", \n\t");
else
ar->ar_dmodestr = NULL;
if (!(ar->ar_fmodestr && ar->ar_user && ar->ar_group) ||
strtok(NULL, ", \n\t")) {
rpmError(RPMERR_BADSPEC, _("Bad %s() syntax: %s"), name, buf);
fl->processingFailed = 1;
return RPMERR_BADSPEC;
}
/* Do a quick test on the mode argument and adjust for "-" */
if (ar->ar_fmodestr && !isAttrDefault(ar->ar_fmodestr)) {
unsigned int ui;
x = sscanf(ar->ar_fmodestr, "%o", &ui);
if ((x == 0) || (ar->ar_fmode & ~MYALLPERMS)) {
rpmError(RPMERR_BADSPEC, _("Bad %s() mode spec: %s"), name, buf);
fl->processingFailed = 1;
return RPMERR_BADSPEC;
}
ar->ar_fmode = ui;
} else
ar->ar_fmodestr = NULL;
if (ar->ar_dmodestr && !isAttrDefault(ar->ar_dmodestr)) {
unsigned int ui;
x = sscanf(ar->ar_dmodestr, "%o", &ui);
if ((x == 0) || (ar->ar_dmode & ~MYALLPERMS)) {
rpmError(RPMERR_BADSPEC, _("Bad %s() dirmode spec: %s"), name, buf);
fl->processingFailed = 1;
return RPMERR_BADSPEC;
}
ar->ar_dmode = ui;
} else
ar->ar_dmodestr = NULL;
if (!(ar->ar_user && !isAttrDefault(ar->ar_user)))
ar->ar_user = NULL;
if (!(ar->ar_group && !isAttrDefault(ar->ar_group)))
ar->ar_group = NULL;
dupAttrRec(ar, ret_ar);
/* Set everything we just parsed to blank spaces */
while (start <= end) {
*start++ = ' ';
}
return 0;
}
static int parseForConfig(char *buf, struct FileList *fl)
{
char *p, *start, *end;
char ourbuf[1024];
if (!(p = start = strstr(buf, "%config"))) {
return 0;
}
fl->currentFlags = RPMFILE_CONFIG;
p += 7;
SKIPSPACE(p);
if (*p != '(') {
while (start < p) {
*start++ = ' ';
}
return 0;
}
p++;
end = p;
while (*end && *end != ')') {
end++;
}
if (! *end) {
rpmError(RPMERR_BADSPEC, _("Bad %%config() syntax: %s"), buf);
fl->processingFailed = 1;
return RPMERR_BADSPEC;
}
strncpy(ourbuf, p, end-p);
ourbuf[end-p] = '\0';
while (start <= end) {
*start++ = ' ';
}
p = strtok(ourbuf, ", \n\t");
while (p) {
if (!strcmp(p, "missingok")) {
fl->currentFlags |= RPMFILE_MISSINGOK;
} else if (!strcmp(p, "noreplace")) {
fl->currentFlags |= RPMFILE_NOREPLACE;
} else {
rpmError(RPMERR_BADSPEC, _("Invalid %%config token: %s"), p);
fl->processingFailed = 1;
return RPMERR_BADSPEC;
}
p = strtok(NULL, ", \n\t");
}
return 0;
}
static int parseForLang(char *buf, struct FileList *fl)
{
char *p, *start, *end;
char ourbuf[1024];
if (!(p = start = strstr(buf, "%lang"))) {
return 0;
}
p += 5;
SKIPSPACE(p);
if (*p != '(') {
rpmError(RPMERR_BADSPEC, _("Bad %%lang() syntax: %s"), buf);
fl->processingFailed = 1;
return RPMERR_BADSPEC;
}
p++;
end = p;
while (*end && *end != ')') {
end++;
}
if (! *end) {
rpmError(RPMERR_BADSPEC, _("Bad %%lang() syntax: %s"), buf);
fl->processingFailed = 1;
return RPMERR_BADSPEC;
}
strncpy(ourbuf, p, end-p);
ourbuf[end-p] = '\0';
while (start <= end) {
*start++ = ' ';
}
p = strtok(ourbuf, ", \n\t");
if (!p) {
rpmError(RPMERR_BADSPEC, _("Bad %%lang() syntax: %s"), buf);
fl->processingFailed = 1;
return RPMERR_BADSPEC;
}
#if 0
if (strlen(p) != 2) {
rpmError(RPMERR_BADSPEC, _("%%lang() entries are 2 characters: %s"), buf);
fl->processingFailed = 1;
return RPMERR_BADSPEC;
}
#endif
if (strtok(NULL, ", \n\t")) {
rpmError(RPMERR_BADSPEC, _("Only one entry in %%lang(): %s"), buf);
fl->processingFailed = 1;
return RPMERR_BADSPEC;
}
fl->currentLang = strdup(p);
return 0;
}
static int parseForRegexLang(const char *fileName, char **lang)
{
static int initialized = 0;
static int hasRegex = 0;
static regex_t compiledPatt;
static char buf[BUFSIZ];
int x;
regmatch_t matches[2];
const char *s;
if (! initialized) {
const char *patt = rpmExpand("%{_langpatt}", NULL);
if (!(patt && *patt != '%'))
return 1;
if (regcomp(&compiledPatt, patt, REG_EXTENDED))
return -1;
xfree(patt);
hasRegex = 1;
initialized = 1;
}
if (! hasRegex || regexec(&compiledPatt, fileName, 2, matches, REG_NOTEOL))
return 1;
/* Got match */
s = fileName + matches[1].rm_eo - 1;
x = matches[1].rm_eo - matches[1].rm_so;
buf[x] = '\0';
while (x) {
buf[--x] = *s--;
}
if (lang)
*lang = buf;
return 0;
}
VFA_t virtualFileAttributes[] = {
{ "%dir", 0 }, /* XXX why not RPMFILE_DIR? */
{ "%doc", RPMFILE_DOC },
{ "%ghost", RPMFILE_GHOST },
{ "%readme", RPMFILE_README },
{ "%license", RPMFILE_LICENSE },
#if WHY_NOT
{ "%spec", RPMFILE_SPEC },
{ "%config", RPMFILE_CONFIG },
{ "%donotuse", RPMFILE_DONOTUSE }, /* XXX WTFO? */
{ "%missingok", RPMFILE_CONFIG|RPMFILE_MISSINGOK },
{ "%noreplace", RPMFILE_CONFIG|RPMFILE_NOREPLACE },
#endif
{ NULL, 0 }
};
static int parseForSimple(Spec spec, Package pkg, char *buf,
struct FileList *fl, const char **fileName)
{
char *s, *t;
int res, specialDoc = 0;
char specialDocBuf[BUFSIZ];
specialDocBuf[0] = '\0';
*fileName = NULL;
res = 0;
t = buf;
while ((s = strtokWithQuotes(t, " \t\n")) != NULL) {
t = NULL;
if (!strcmp(s, "%docdir")) {
s = strtokWithQuotes(NULL, " \t\n");
if (fl->docDirCount == MAXDOCDIR) {
rpmError(RPMERR_INTERNAL, _("Hit limit for %%docdir"));
fl->processingFailed = 1;
res = 1;
}
fl->docDirs[fl->docDirCount++] = strdup(s);
if (strtokWithQuotes(NULL, " \t\n")) {
rpmError(RPMERR_INTERNAL, _("Only one arg for %%docdir"));
fl->processingFailed = 1;
res = 1;
}
break;
}
/* Set flags for virtual file attributes */
{ VFA_t *vfa;
for (vfa = virtualFileAttributes; vfa->attribute != NULL; vfa++) {
if (strcmp(s, vfa->attribute))
continue;
if (!strcmp(s, "%dir"))
fl->isDir = 1; /* XXX why not RPMFILE_DIR? */
else
fl->currentFlags |= vfa->flag;
break;
}
/* if we got an attribute, continue with next token */
if (vfa->attribute != NULL)
continue;
}
if (*fileName) {
/* We already got a file -- error */
rpmError(RPMERR_BADSPEC, _("Two files on one line: %s"), *fileName);
fl->processingFailed = 1;
res = 1;
}
if (*s != '/') {
if (fl->currentFlags & RPMFILE_DOC) {
specialDoc = 1;
strcat(specialDocBuf, " ");
strcat(specialDocBuf, s);
} else {
/* not in %doc, does not begin with / -- error */
rpmError(RPMERR_BADSPEC,
_("File must begin with \"/\": %s"), s);
fl->processingFailed = 1;
res = 1;
}
} else {
*fileName = s;
}
}
if (specialDoc) {
if (*fileName || (fl->currentFlags & ~(RPMFILE_DOC))) {
rpmError(RPMERR_BADSPEC,
_("Can't mix special %%doc with other forms: %s"),
*fileName);
fl->processingFailed = 1;
res = 1;
} else {
/* XXX WATCHOUT: buf is an arg */
{ const char *ddir, *name, *version;
headerGetEntry(pkg->header, RPMTAG_NAME, NULL,
(void *) &name, NULL);
headerGetEntry(pkg->header, RPMTAG_VERSION, NULL,
(void *) &version, NULL);
ddir = rpmGetPath("%{_docdir}/", name, "-", version, NULL);
strcpy(buf, ddir);
xfree(ddir);
}
/* XXX FIXME: this is easy to do as macro expansion */
if (! fl->passedSpecialDoc) {
pkg->specialDoc = newStringBuf();
appendStringBuf(pkg->specialDoc, "DOCDIR=$RPM_BUILD_ROOT");
appendLineStringBuf(pkg->specialDoc, buf);
appendLineStringBuf(pkg->specialDoc, "export DOCDIR");
appendLineStringBuf(pkg->specialDoc, "rm -rf $DOCDIR");
appendLineStringBuf(pkg->specialDoc, MKDIR_P " $DOCDIR");
*fileName = buf;
fl->passedSpecialDoc = 1;
fl->isSpecialDoc = 1;
}
appendStringBuf(pkg->specialDoc, "cp -pr ");
appendStringBuf(pkg->specialDoc, specialDocBuf);
appendLineStringBuf(pkg->specialDoc, " $DOCDIR");
}
}
return res;
}
static int compareFileListRecs(const void *ap, const void *bp)
{
const char *a = ((FileListRec *)ap)->fileName;
const char *b = ((FileListRec *)bp)->fileName;
return strcmp(a, b);
}
static int isDoc(struct FileList *fl, const char *fileName)
{
int x = fl->docDirCount;
while (x--) {
if (strstr(fileName, fl->docDirs[x]) == fileName) {
return 1;
}
}
return 0;
}
static void genCpioListAndHeader(struct FileList *fl,
struct cpioFileMapping **cpioList,
int *cpioCount, Header h, int isSrc)
{
int skipLen;
int count;
FileListRec *flp;
struct cpioFileMapping *clp;
char *s, buf[BUFSIZ];
/* Sort the big list */
qsort(fl->fileList, fl->fileListRecsUsed,
sizeof(*(fl->fileList)), compareFileListRecs);
/* Generate the cpio list and the header */
skipLen = 0;
if (! isSrc) {
skipLen = 1;
if (fl->prefix)
skipLen += strlen(fl->prefix);
}
*cpioCount = 0;
clp = *cpioList = malloc(sizeof(**cpioList) * fl->fileListRecsUsed);
for (flp = fl->fileList, count = fl->fileListRecsUsed; count > 0; flp++, count--) {
if ((count > 1) && !strcmp(flp->fileName, flp[1].fileName)) {
rpmError(RPMERR_BADSPEC, _("File listed twice: %s"), flp->fileName);
fl->processingFailed = 1;
}
/* Make the cpio list */
if (! (flp->flags & RPMFILE_GHOST)) {
clp->fsPath = strdup(flp->diskName);
clp->archivePath = strdup(flp->fileName + skipLen);
clp->finalMode = flp->fl_mode;
clp->finalUid = flp->fl_uid;
clp->finalGid = flp->fl_gid;
clp->mapFlags = CPIO_MAP_PATH | CPIO_MAP_MODE |
CPIO_MAP_UID | CPIO_MAP_GID;
if (isSrc) {
clp->mapFlags |= CPIO_FOLLOW_SYMLINKS;
}
clp++;
(*cpioCount)++;
}
/* Make the header */
headerAddOrAppendEntry(h, RPMTAG_FILENAMES, RPM_STRING_ARRAY_TYPE,
&(flp->fileName), 1);
headerAddOrAppendEntry(h, RPMTAG_FILESIZES, RPM_INT32_TYPE,
&(flp->fl_size), 1);
headerAddOrAppendEntry(h, RPMTAG_FILEUSERNAME, RPM_STRING_ARRAY_TYPE,
&(flp->uname), 1);
headerAddOrAppendEntry(h, RPMTAG_FILEGROUPNAME, RPM_STRING_ARRAY_TYPE,
&(flp->gname), 1);
headerAddOrAppendEntry(h, RPMTAG_FILEMTIMES, RPM_INT32_TYPE,
&(flp->fl_mtime), 1);
if (sizeof(flp->fl_mode) != sizeof(uint_16)) {
uint_16 pmode = (uint_16)flp->fl_mode;
headerAddOrAppendEntry(h, RPMTAG_FILEMODES, RPM_INT16_TYPE,
&(pmode), 1);
} else {
headerAddOrAppendEntry(h, RPMTAG_FILEMODES, RPM_INT16_TYPE,
&(flp->fl_mode), 1);
}
if (sizeof(flp->fl_rdev) != sizeof(uint_16)) {
uint_16 prdev = (uint_16)flp->fl_rdev;
headerAddOrAppendEntry(h, RPMTAG_FILERDEVS, RPM_INT16_TYPE,
&(prdev), 1);
} else {
headerAddOrAppendEntry(h, RPMTAG_FILERDEVS, RPM_INT16_TYPE,
&(flp->fl_rdev), 1);
}
if (sizeof(flp->fl_dev) != sizeof(uint_32)) {
uint_32 pdevice = (uint_32)flp->fl_dev;
headerAddOrAppendEntry(h, RPMTAG_FILEDEVICES, RPM_INT32_TYPE,
&(pdevice), 1);
} else {
headerAddOrAppendEntry(h, RPMTAG_FILEDEVICES, RPM_INT32_TYPE,
&(flp->fl_dev), 1);
}
headerAddOrAppendEntry(h, RPMTAG_FILEINODES, RPM_INT32_TYPE,
&(flp->fl_ino), 1);
headerAddOrAppendEntry(h, RPMTAG_FILELANGS, RPM_STRING_ARRAY_TYPE,
&(flp->lang), 1);
/* We used to add these, but they should not be needed */
/* headerAddOrAppendEntry(h, RPMTAG_FILEUIDS,
* RPM_INT32_TYPE, &(flp->fl_uid), 1);
* headerAddOrAppendEntry(h, RPMTAG_FILEGIDS,
* RPM_INT32_TYPE, &(flp->fl_gid), 1);
*/
buf[0] = '\0';
if (S_ISREG(flp->fl_mode))
mdfile(flp->diskName, buf);
s = buf;
headerAddOrAppendEntry(h, RPMTAG_FILEMD5S, RPM_STRING_ARRAY_TYPE,
&s, 1);
buf[0] = '\0';
if (S_ISLNK(flp->fl_mode))
buf[readlink(flp->diskName, buf, BUFSIZ)] = '\0';
s = buf;
headerAddOrAppendEntry(h, RPMTAG_FILELINKTOS, RPM_STRING_ARRAY_TYPE,
&s, 1);
if (flp->flags & RPMFILE_GHOST) {
flp->verifyFlags &= ~(RPMVERIFY_MD5 | RPMVERIFY_FILESIZE |
RPMVERIFY_LINKTO | RPMVERIFY_MTIME);
}
headerAddOrAppendEntry(h, RPMTAG_FILEVERIFYFLAGS, RPM_INT32_TYPE,
&(flp->verifyFlags), 1);
if (!isSrc && isDoc(fl, flp->fileName))
flp->flags |= RPMFILE_DOC;
if (S_ISDIR(flp->fl_mode))
flp->flags &= ~(RPMFILE_CONFIG|RPMFILE_DOC);
headerAddOrAppendEntry(h, RPMTAG_FILEFLAGS, RPM_INT32_TYPE,
&(flp->flags), 1);
}
headerAddEntry(h, RPMTAG_SIZE, RPM_INT32_TYPE,
&(fl->totalFileSize), 1);
}
static void freeFileList(FileListRec *fileList, int count)
{
while (count--) {
FREE(fileList[count].diskName);
FREE(fileList[count].fileName);
FREE(fileList[count].lang);
}
FREE(fileList);
}
static int addFile(struct FileList *fl, const char *name, struct stat *statp)
{
char fileName[BUFSIZ];
char diskName[BUFSIZ];
struct stat statbuf;
mode_t fileMode;
uid_t fileUid;
gid_t fileGid;
char *fileUname, *fileGname;
char *lang;
strcpy(fileName, cleanFileName(name));
if (fl->inFtw) {
/* Any buildRoot is already prepended */
strcpy(diskName, fileName);
if (fl->buildRoot) {
strcpy(fileName, diskName + strlen(fl->buildRoot));
/* Special case for "/" */
if (*fileName == '\0') {
fileName[0] = '/';
fileName[1] = '\0';
}
}
} else {
if (fl->buildRoot) {
sprintf(diskName, "%s%s", fl->buildRoot, fileName);
} else {
strcpy(diskName, fileName);
}
}
/* If we are using a prefix, validate the file */
if (!fl->inFtw && fl->prefix) {
const char *prefixTest = fileName;
const char *prefixPtr = fl->prefix;
while (*prefixPtr && *prefixTest && (*prefixTest == *prefixPtr)) {
prefixPtr++;
prefixTest++;
}
if (*prefixPtr || (*prefixTest && *prefixTest != '/')) {
rpmError(RPMERR_BADSPEC, _("File doesn't match prefix (%s): %s"),
fl->prefix, fileName);
fl->processingFailed = 1;
return RPMERR_BADSPEC;
}
}
if (! statp) {
statp = &statbuf;
if (lstat(diskName, statp)) {
rpmError(RPMERR_BADSPEC, _("File not found: %s"), diskName);
fl->processingFailed = 1;
return RPMERR_BADSPEC;
}
}
if ((! fl->isDir) && S_ISDIR(statp->st_mode)) {
/* We use our own ftw() call, because ftw() uses stat() */
/* instead of lstat(), which causes it to follow symlinks! */
/* It also has better callback support. */
fl->inFtw = 1; /* Flag to indicate file has buildRoot prefixed */
fl->isDir = 1; /* Keep it from following myftw() again */
myftw(diskName, 16, (myftwFunc) addFile, fl);
fl->isDir = 0;
fl->inFtw = 0;
return 0;
}
fileMode = statp->st_mode;
fileUid = statp->st_uid;
fileGid = statp->st_gid;
if (S_ISDIR(fileMode) && fl->cur_ar.ar_dmodestr) {
fileMode &= S_IFMT;
fileMode |= fl->cur_ar.ar_dmode;
} else if (fl->cur_ar.ar_fmodestr != NULL) {
fileMode &= S_IFMT;
fileMode |= fl->cur_ar.ar_fmode;
}
if (fl->cur_ar.ar_user) {
fileUname = getUnameS(fl->cur_ar.ar_user);
} else {
fileUname = getUname(fileUid);
}
if (fl->cur_ar.ar_group) {
fileGname = getGnameS(fl->cur_ar.ar_group);
} else {
fileGname = getGname(fileGid);
}
#if 0 /* XXX this looks dumb to me */
if (! (fileUname && fileGname)) {
rpmError(RPMERR_BADSPEC, _("Bad owner/group: %s\n"), diskName);
fl->processingFailed = 1;
return RPMERR_BADSPEC;
}
#endif
rpmMessage(RPMMESS_DEBUG, _("File %4d: 0%o %s.%s\t %s\n"), fl->fileCount,
fileMode, fileUname, fileGname, fileName);
/* Add to the file list */
if (fl->fileListRecsUsed == fl->fileListRecsAlloced) {
fl->fileListRecsAlloced += 128;
fl->fileList = realloc(fl->fileList,
fl->fileListRecsAlloced * sizeof(*(fl->fileList)));
}
{ FileListRec * flp = &fl->fileList[fl->fileListRecsUsed];
flp->fl_st = *statp; /* structure assignment */
flp->fl_mode = fileMode;
flp->fl_uid = fileUid;
flp->fl_gid = fileGid;
flp->fileName = strdup(fileName);
flp->diskName = strdup(diskName);
flp->uname = fileUname;
flp->gname = fileGname;
if (fl->currentLang) {
flp->lang = strdup(fl->currentLang);
} else if (! parseForRegexLang(fileName, &lang)) {
flp->lang = strdup(lang);
} else {
flp->lang = strdup("");
}
flp->flags = fl->currentFlags;
flp->verifyFlags = fl->currentVerifyFlags;
fl->totalFileSize += flp->fl_size;
}
fl->fileListRecsUsed++;
fl->fileCount++;
return 0;
}
static int processBinaryFile(Package pkg, struct FileList *fl, const char *fileName)
{
char fullname[BUFSIZ];
glob_t glob_result;
int x, offset, rc = 0;
/* check that file starts with leading "/" */
if (*fileName != '/') {
rpmError(RPMERR_BADSPEC, _("File needs leading \"/\": %s"), fileName);
fl->processingFailed = 1;
return 1;
}
if (myGlobPatternP(fileName)) {
if (fl->buildRoot) {
sprintf(fullname, "%s%s", fl->buildRoot, fileName);
offset = strlen(fl->buildRoot);
} else {
strcpy(fullname, fileName);
offset = 0;
}
if (glob(fullname, 0, glob_error, &glob_result) ||
(glob_result.gl_pathc < 1)) {
rpmError(RPMERR_BADSPEC, _("File not found: %s"), fullname);
fl->processingFailed = 1;
globfree(&glob_result);
return 1;
}
for (x = 0; x < glob_result.gl_pathc; x++) {
rc = addFile(fl, &(glob_result.gl_pathv[x][offset]), NULL);
}
globfree(&glob_result);
} else {
rc = addFile(fl, fileName, NULL);
}
return rc;
}
static int processPackageFiles(Spec spec, Package pkg,
int installSpecialDoc, int test)
{
struct FileList fl;
char *s, **files, **fp;
const char *fileName;
char buf[BUFSIZ];
FILE *f;
AttrRec specialDocAttrRec = empty_ar; /* structure assignment */
char *specialDoc = NULL;
pkg->cpioList = NULL;
pkg->cpioCount = 0;
if (pkg->fileFile) {
const char *ffn;
/* XXX FIXME: add %{_buildsubdir} and use rpmGetPath() */
ffn = rpmGetPath("%{_builddir}/",
(spec->buildSubdir ? spec->buildSubdir : "") ,
"/", pkg->fileFile, NULL);
if ((f = fopen(ffn, "r")) == NULL) {
rpmError(RPMERR_BADFILENAME,
_("Could not open %%files file: %s"), pkg->fileFile);
FREE(ffn);
return RPMERR_BADFILENAME;
}
while (fgets(buf, sizeof(buf), f)) {
handleComments(buf);
if (expandMacros(spec, spec->macros, buf, sizeof(buf))) {
rpmError(RPMERR_BADSPEC, _("line: %s"), buf);
return RPMERR_BADSPEC;
}
appendStringBuf(pkg->fileList, buf);
}
fclose(f);
FREE(ffn);
}
/* Init the file list structure */
/* XXX spec->buildRoot == NULL, then strdup("") is returned */
fl.buildRoot = rpmGetPath(spec->buildRoot, NULL);
if (headerGetEntry(pkg->header, RPMTAG_DEFAULTPREFIX,
NULL, (void *)&fl.prefix, NULL)) {
fl.prefix = strdup(fl.prefix);
} else {
fl.prefix = NULL;
}
fl.fileCount = 0;
fl.totalFileSize = 0;
fl.processingFailed = 0;
fl.passedSpecialDoc = 0;
fl.cur_ar = empty_ar; /* structure assignment */
fl.def_ar = empty_ar; /* structure assignment */
fl.currentLang = NULL;
fl.defVerifyFlags = RPMVERIFY_ALL;
fl.docDirCount = 0;
fl.docDirs[fl.docDirCount++] = strdup("/usr/doc");
fl.docDirs[fl.docDirCount++] = strdup("/usr/man");
fl.docDirs[fl.docDirCount++] = strdup("/usr/info");
fl.docDirs[fl.docDirCount++] = strdup("/usr/X11R6/man");
fl.docDirs[fl.docDirCount++] = rpmGetPath("%{_docdir}", NULL);
fl.fileList = NULL;
fl.fileListRecsAlloced = 0;
fl.fileListRecsUsed = 0;
s = getStringBuf(pkg->fileList);
files = splitString(s, strlen(s), '\n');
for (fp = files; *fp != NULL; fp++) {
s = *fp;
SKIPSPACE(s);
if (*s == '\0')
continue;
fileName = NULL;
strcpy(buf, s);
/* Reset for a new line in %files */
fl.isDir = 0;
fl.inFtw = 0;
fl.currentFlags = 0;
fl.currentVerifyFlags = fl.defVerifyFlags;
fl.isSpecialDoc = 0;
dupAttrRec(&fl.def_ar, &fl.cur_ar);
FREE(fl.currentLang);
if (parseForVerify(buf, &fl))
continue;
if (parseForAttr(buf, &fl))
continue;
if (parseForConfig(buf, &fl))
continue;
if (parseForLang(buf, &fl))
continue;
if (parseForSimple(spec, pkg, buf, &fl, &fileName))
continue;
if (fileName == NULL)
continue;
if (fl.isSpecialDoc) {
/* Save this stuff for last */
FREE(specialDoc);
specialDoc = strdup(fileName);
dupAttrRec(&fl.cur_ar, &specialDocAttrRec);
} else {
processBinaryFile(pkg, &fl, fileName);
}
}
/* Now process special doc, if there is one */
if (specialDoc) {
if (installSpecialDoc) {
doScript(spec, RPMBUILD_STRINGBUF, "%doc", pkg->specialDoc, test);
}
dupAttrRec(&specialDocAttrRec, &fl.cur_ar);
freeAttrRec(&specialDocAttrRec);
fl.isDir = 0;
fl.inFtw = 0;
fl.currentFlags = 0;
fl.currentVerifyFlags = 0;
processBinaryFile(pkg, &fl, specialDoc);
FREE(specialDoc);
}
freeSplitString(files);
if (! fl.processingFailed) {
genCpioListAndHeader(&fl, &(pkg->cpioList), &(pkg->cpioCount),
pkg->header, 0);
if (spec->timeCheck) {
timeCheck(spec->timeCheck, pkg->header);
}
}
/* Clean up */
FREE(fl.buildRoot);
FREE(fl.prefix);
freeAttrRec(&fl.cur_ar);
freeAttrRec(&fl.def_ar);
FREE(fl.currentLang);
freeFileList(fl.fileList, fl.fileListRecsUsed);
while (fl.docDirCount--) {
FREE(fl.docDirs[fl.docDirCount]);
}
return fl.processingFailed;
}
int processSourceFiles(Spec spec)
{
struct Source *srcPtr;
StringBuf sourceFiles;
int x, isSpec = 1;
struct FileList fl;
char *s, **files, **fp, *fn;
HeaderIterator hi;
int tag, type, count;
Package pkg;
void * ptr;
sourceFiles = newStringBuf();
spec->sourceHeader = headerNew();
/* Only specific tags are added to the source package header */
hi = headerInitIterator(spec->packages->header);
while (headerNextIterator(hi, &tag, &type, &ptr, &count)) {
switch (tag) {
case RPMTAG_NAME:
case RPMTAG_VERSION:
case RPMTAG_RELEASE:
case RPMTAG_EPOCH:
case RPMTAG_SUMMARY:
case RPMTAG_DESCRIPTION:
case RPMTAG_PACKAGER:
case RPMTAG_DISTRIBUTION:
case RPMTAG_VENDOR:
case RPMTAG_LICENSE:
case RPMTAG_GROUP:
case RPMTAG_OS:
case RPMTAG_ARCH:
case RPMTAG_CHANGELOGTIME:
case RPMTAG_CHANGELOGNAME:
case RPMTAG_CHANGELOGTEXT:
case RPMTAG_URL:
case HEADER_I18NTABLE:
headerAddEntry(spec->sourceHeader, tag, type, ptr, count);
break;
default:
/* do not copy */
break;
}
if (type == RPM_STRING_ARRAY_TYPE || type == RPM_I18NSTRING_TYPE) {
FREE(ptr);
}
}
headerFreeIterator(hi);
/* Construct the file list and source entries */
appendLineStringBuf(sourceFiles, spec->specFile);
for (srcPtr = spec->sources; srcPtr != NULL; srcPtr = srcPtr->next) {
if (srcPtr->flags & RPMBUILD_ISSOURCE) {
headerAddOrAppendEntry(spec->sourceHeader, RPMTAG_SOURCE,
RPM_STRING_ARRAY_TYPE, &srcPtr->source, 1);
if (srcPtr->flags & RPMBUILD_ISNO) {
headerAddOrAppendEntry(spec->sourceHeader, RPMTAG_NOSOURCE,
RPM_INT32_TYPE, &srcPtr->num, 1);
}
}
if (srcPtr->flags & RPMBUILD_ISPATCH) {
headerAddOrAppendEntry(spec->sourceHeader, RPMTAG_PATCH,
RPM_STRING_ARRAY_TYPE, &srcPtr->source, 1);
if (srcPtr->flags & RPMBUILD_ISNO) {
headerAddOrAppendEntry(spec->sourceHeader, RPMTAG_NOPATCH,
RPM_INT32_TYPE, &srcPtr->num, 1);
}
}
{ const char *s;
s = rpmGetPath( ((srcPtr->flags & RPMBUILD_ISNO) ? "!" : ""),
"%{_sourcedir}/", srcPtr->source, NULL);
appendLineStringBuf(sourceFiles, s);
xfree(s);
}
}
for (pkg = spec->packages; pkg != NULL; pkg = pkg->next) {
for (srcPtr = pkg->icon; srcPtr != NULL; srcPtr = srcPtr->next) {
const char *s;
s = rpmGetPath( ((srcPtr->flags & RPMBUILD_ISNO) ? "!" : ""),
"%{_sourcedir}/", srcPtr->source, NULL);
appendLineStringBuf(sourceFiles, s);
xfree(s);
}
}
spec->sourceCpioList = NULL;
spec->sourceCpioCount = 0;
fl.fileList = malloc((spec->numSources + 1) * sizeof(FileListRec));
fl.processingFailed = 0;
fl.fileListRecsUsed = 0;
fl.totalFileSize = 0;
fl.prefix = NULL;
s = getStringBuf(sourceFiles);
files = splitString(s, strlen(s), '\n');
/* The first source file is the spec file */
x = 0;
for (fp = files; *fp != NULL; fp++) {
FileListRec *flp;
s = *fp;
SKIPSPACE(s);
if (! *s)
continue;
flp = &fl.fileList[x];
flp->flags = isSpec ? RPMFILE_SPECFILE : 0;
/* files with leading ! are no source files */
if (*s == '!') {
flp->flags |= RPMFILE_GHOST;
s++;
}
flp->diskName = strdup(s);
fn = strrchr(s, '/');
if (fn) {
fn++;
} else {
fn = s;
}
flp->fileName = strdup(fn);
flp->verifyFlags = RPMVERIFY_ALL;
stat(s, &flp->fl_st);
flp->uname = getUname(flp->fl_uid);
flp->gname = getGname(flp->fl_gid);
flp->lang = strdup("");
fl.totalFileSize += flp->fl_size;
if (! (flp->uname && flp->gname)) {
rpmError(RPMERR_BADSPEC, _("Bad owner/group: %s"), s);
fl.processingFailed = 1;
}
isSpec = 0;
x++;
}
fl.fileListRecsUsed = x;
freeSplitString(files);
if (! fl.processingFailed) {
genCpioListAndHeader(&fl, &(spec->sourceCpioList),
&(spec->sourceCpioCount), spec->sourceHeader, 1);
}
freeStringBuf(sourceFiles);
freeFileList(fl.fileList, fl.fileListRecsUsed);
return fl.processingFailed;
}
static StringBuf getOutputFrom(char *dir, char *argv[],
char *writePtr, int writeBytesLeft,
int failNonZero)
{
int progPID;
int toProg[2];
int fromProg[2];
int status;
void *oldhandler;
int bytesWritten;
StringBuf readBuff;
int bytes;
unsigned char buf[BUFSIZ+1];
oldhandler = signal(SIGPIPE, SIG_IGN);
pipe(toProg);
pipe(fromProg);
if (!(progPID = fork())) {
close(toProg[1]);
close(fromProg[0]);
dup2(toProg[0], STDIN_FILENO); /* Make stdin the in pipe */
dup2(fromProg[1], STDOUT_FILENO); /* Make stdout the out pipe */
close(toProg[0]);
close(fromProg[1]);
if (dir) {
chdir(dir);
}
execvp(argv[0], argv);
rpmError(RPMERR_EXEC, _("Couldn't exec %s"), argv[0]);
_exit(RPMERR_EXEC);
}
if (progPID < 0) {
rpmError(RPMERR_FORK, _("Couldn't fork %s"), argv[0]);
return NULL;
}
close(toProg[0]);
close(fromProg[1]);
/* Do not block reading or writing from/to prog. */
fcntl(fromProg[0], F_SETFL, O_NONBLOCK);
fcntl(toProg[1], F_SETFL, O_NONBLOCK);
readBuff = newStringBuf();
do {
/* Write any data to program */
if (writeBytesLeft) {
if ((bytesWritten =
write(toProg[1], writePtr,
(1024<writeBytesLeft) ? 1024 : writeBytesLeft)) < 0) {
if (errno != EAGAIN) {
perror("getOutputFrom()");
exit(EXIT_FAILURE);
}
bytesWritten = 0;
}
writeBytesLeft -= bytesWritten;
writePtr += bytesWritten;
} else if (toProg[1] >= 0) { /* close write fd */
close(toProg[1]);
toProg[1] = -1;
}
/* Read any data from prog */
while ((bytes = read(fromProg[0], buf, sizeof(buf)-1)) > 0) {
buf[bytes] = '\0';
appendStringBuf(readBuff, buf);
}
/* terminate on (non-blocking) EOF or error */
} while (!(bytes == 0 || (bytes < 0 && errno != EAGAIN)));
/* Clean up */
if (toProg[1] >= 0)
close(toProg[1]);
close(fromProg[0]);
(void)signal(SIGPIPE, oldhandler);
/* Collect status from prog */
(void)waitpid(progPID, &status, 0);
if (failNonZero && (!WIFEXITED(status) || WEXITSTATUS(status))) {
rpmError(RPMERR_EXEC, _("%s failed"), argv[0]);
return NULL;
}
if (writeBytesLeft) {
rpmError(RPMERR_EXEC, _("failed to write all data to %s"), argv[0]);
return NULL;
}
return readBuff;
}
static int generateAutoReqProv(Spec spec, Package pkg,
struct cpioFileMapping *cpioList, int cpioCount)
{
StringBuf writeBuf;
int writeBytes;
StringBuf readBuf;
char *argv[2];
char **f, **fsave;
if (!cpioCount) {
return 0;
}
if (! (spec->autoReq || spec->autoProv)) {
return 0;
}
writeBuf = newStringBuf();
writeBytes = 0;
while (cpioCount--) {
writeBytes += strlen(cpioList->fsPath) + 1;
appendLineStringBuf(writeBuf, cpioList->fsPath);
cpioList++;
}
/*** Do Provides ***/
if (spec->autoProv) {
rpmMessage(RPMMESS_NORMAL, _("Finding provides...\n"));
argv[0] = FINDPROVIDES;
argv[1] = NULL;
readBuf = getOutputFrom(NULL, argv,
getStringBuf(writeBuf), writeBytes, 1);
if (readBuf == NULL) {
rpmError(RPMERR_EXEC, _("Failed to find provides"));
freeStringBuf(writeBuf);
return RPMERR_EXEC;
}
fsave = splitString(getStringBuf(readBuf),
strlen(getStringBuf(readBuf)), '\n');
freeStringBuf(readBuf);
for (f = fsave; *f != NULL; f++) {
if (**f) {
addReqProv(spec, pkg->header, RPMSENSE_PROVIDES, *f, NULL, 0);
}
}
freeSplitString(fsave);
}
/*** Do Requires ***/
if (spec->autoReq) {
rpmMessage(RPMMESS_NORMAL, _("Finding requires...\n"));
argv[0] = FINDREQUIRES;
argv[1] = NULL;
readBuf = getOutputFrom(NULL, argv,
getStringBuf(writeBuf), writeBytes, 0);
if (readBuf == NULL) {
rpmError(RPMERR_EXEC, _("Failed to find requires"));
freeStringBuf(writeBuf);
return RPMERR_EXEC;
}
fsave = splitString(getStringBuf(readBuf),
strlen(getStringBuf(readBuf)), '\n');
freeStringBuf(readBuf);
for (f = fsave; *f != NULL; f++) {
if (**f) {
addReqProv(spec, pkg->header, RPMSENSE_ANY, *f, NULL, 0);
}
}
freeSplitString(fsave);
}
/*** Clean Up ***/
freeStringBuf(writeBuf);
return 0;
}
static void printReqs(Spec spec, Package pkg)
{
int startedPreReq = 0;
int startedReq = 0;
char **names;
int x, count;
int *flags;
if (headerGetEntry(pkg->header, RPMTAG_PROVIDES,
NULL, (void **) &names, &count)) {
rpmMessage(RPMMESS_NORMAL, _("Provides:"));
for (x = 0; x < count; x++) {
rpmMessage(RPMMESS_NORMAL, " %s", names[x]);
}
rpmMessage(RPMMESS_NORMAL, "\n");
FREE(names);
}
if (headerGetEntry(pkg->header, RPMTAG_REQUIRENAME,
NULL, (void **) &names, &count)) {
headerGetEntry(pkg->header, RPMTAG_REQUIREFLAGS,
NULL, (void **) &flags, NULL);
for (x = 0; x < count; x++) {
if (flags[x] & RPMSENSE_PREREQ) {
if (! startedPreReq) {
rpmMessage(RPMMESS_NORMAL, _("Prereqs:"));
startedPreReq = 1;
}
rpmMessage(RPMMESS_NORMAL, " %s", names[x]);
}
}
if (startedPreReq) {
rpmMessage(RPMMESS_NORMAL, "\n");
}
for (x = 0; x < count; x++) {
if (! (flags[x] & RPMSENSE_PREREQ)) {
if (! startedReq) {
rpmMessage(RPMMESS_NORMAL, _("Requires:"));
startedReq = 1;
}
rpmMessage(RPMMESS_NORMAL, " %s", names[x]);
}
}
rpmMessage(RPMMESS_NORMAL, "\n");
FREE(names);
}
}
int processBinaryFiles(Spec spec, int installSpecialDoc, int test)
{
Package pkg;
int res, rc;
char *name;
res = 0;
for (pkg = spec->packages; pkg != NULL; pkg = pkg->next) {
if (pkg->fileList == NULL) {
continue;
}
headerGetEntry(pkg->header, RPMTAG_NAME, NULL, (void **)&name, NULL);
rpmMessage(RPMMESS_NORMAL, _("Processing files: %s\n"), name);
if ((rc = processPackageFiles(spec, pkg, installSpecialDoc, test))) {
res = rc;
}
generateAutoReqProv(spec, pkg, pkg->cpioList, pkg->cpioCount);
printReqs(spec, pkg);
}
return res;
}