rpm/rpmio/macro.c

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/** \ingroup rpmrc rpmio
* \file rpmio/macro.c
*/
#include "system.h"
#include <stdarg.h>
#if !defined(isblank)
#define isblank(_c) ((_c) == ' ' || (_c) == '\t')
#endif
#define iseol(_c) ((_c) == '\n' || (_c) == '\r')
#define STREQ(_t, _f, _fn) ((_fn) == (sizeof(_t)-1) && !strncmp((_t), (_f), (_fn)))
#include <rpm/rpmio.h>
#include <rpm/rpmstring.h>
#include <rpm/rpmfileutil.h>
#include <rpm/rpmurl.h>
#include <rpm/rpmlog.h>
#ifdef WITH_LUA
#include "rpmio/rpmlua.h"
#endif
#include <rpm/rpmmacro.h>
#include "debug.h"
/*! The structure used to store a macro. */
struct rpmMacroEntry_s {
struct rpmMacroEntry_s *prev;/*!< Macro entry stack. */
char *name; /*!< Macro name. */
char *opts; /*!< Macro parameters (a la getopt) */
char *body; /*!< Macro body. */
int used; /*!< No. of expansions. */
int level; /*!< Scoping level. */
};
/*! The structure used to store the set of macros in a context. */
struct rpmMacroContext_s {
rpmMacroEntry *macroTable; /*!< Macro entry table for context. */
int macrosAllocated;/*!< No. of allocated macros. */
int firstFree; /*!< No. of macros. */
};
static struct rpmMacroContext_s rpmGlobalMacroContext_s;
rpmMacroContext rpmGlobalMacroContext = &rpmGlobalMacroContext_s;
static struct rpmMacroContext_s rpmCLIMacroContext_s;
rpmMacroContext rpmCLIMacroContext = &rpmCLIMacroContext_s;
/**
* Macro expansion state.
*/
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typedef struct MacroBuf_s {
const char * s; /*!< Text to expand. */
char * t; /*!< Expansion buffer. */
size_t nb; /*!< No. bytes remaining in expansion buffer. */
int depth; /*!< Current expansion depth. */
int macro_trace; /*!< Pre-print macro to expand? */
int expand_trace; /*!< Post-print macro expansion? */
void * spec; /*!< (future) %file expansion info?. */
rpmMacroContext mc;
} * MacroBuf;
#define SAVECHAR(_mb, _c) { *(_mb)->t = (_c), (_mb)->t++, (_mb)->nb--; }
#define _MAX_MACRO_DEPTH 16
int max_macro_depth = _MAX_MACRO_DEPTH;
#define _PRINT_MACRO_TRACE 0
int print_macro_trace = _PRINT_MACRO_TRACE;
#define _PRINT_EXPAND_TRACE 0
int print_expand_trace = _PRINT_EXPAND_TRACE;
#define MACRO_CHUNK_SIZE 16
/* forward ref */
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static int expandMacro(MacroBuf mb);
/* =============================================================== */
/**
* Compare macro entries by name (qsort/bsearch).
* @param ap 1st macro entry
* @param bp 2nd macro entry
* @return result of comparison
*/
static int
compareMacroName(const void * ap, const void * bp)
{
rpmMacroEntry ame = *((rpmMacroEntry *)ap);
rpmMacroEntry bme = *((rpmMacroEntry *)bp);
if (ame == NULL && bme == NULL)
return 0;
if (ame == NULL)
return 1;
if (bme == NULL)
return -1;
return strcmp(ame->name, bme->name);
}
/**
* Enlarge macro table.
* @param mc macro context
*/
static void
expandMacroTable(rpmMacroContext mc)
{
if (mc->macroTable == NULL) {
mc->macrosAllocated = MACRO_CHUNK_SIZE;
mc->macroTable = (rpmMacroEntry *)
xmalloc(sizeof(*(mc->macroTable)) * mc->macrosAllocated);
mc->firstFree = 0;
} else {
mc->macrosAllocated += MACRO_CHUNK_SIZE;
mc->macroTable = (rpmMacroEntry *)
xrealloc(mc->macroTable, sizeof(*(mc->macroTable)) *
mc->macrosAllocated);
}
memset(&mc->macroTable[mc->firstFree], 0, MACRO_CHUNK_SIZE * sizeof(*(mc->macroTable)));
}
/**
* Sort entries in macro table.
* @param mc macro context
*/
static void
sortMacroTable(rpmMacroContext mc)
{
int i;
if (mc == NULL || mc->macroTable == NULL)
return;
qsort(mc->macroTable, mc->firstFree, sizeof(*(mc->macroTable)),
compareMacroName);
/* Empty pointers are now at end of table. Reset first free index. */
for (i = 0; i < mc->firstFree; i++) {
if (mc->macroTable[i] != NULL)
continue;
mc->firstFree = i;
break;
}
}
void
rpmDumpMacroTable(rpmMacroContext mc, FILE * fp)
{
int nempty = 0;
int nactive = 0;
if (mc == NULL) mc = rpmGlobalMacroContext;
if (fp == NULL) fp = stderr;
fprintf(fp, "========================\n");
if (mc->macroTable != NULL) {
int i;
for (i = 0; i < mc->firstFree; i++) {
rpmMacroEntry me;
if ((me = mc->macroTable[i]) == NULL) {
/* XXX this should never happen */
nempty++;
continue;
}
fprintf(fp, "%3d%c %s", me->level,
(me->used > 0 ? '=' : ':'), me->name);
if (me->opts && *me->opts)
fprintf(fp, "(%s)", me->opts);
if (me->body && *me->body)
fprintf(fp, "\t%s", me->body);
fprintf(fp, "\n");
nactive++;
}
}
fprintf(fp, _("======================== active %d empty %d\n"),
nactive, nempty);
}
/**
* Find entry in macro table.
* @param mc macro context
* @param name macro name
* @param namelen no. of bytes
* @return address of slot in macro table with name (or NULL)
*/
static rpmMacroEntry *
findEntry(rpmMacroContext mc, const char * name, size_t namelen)
{
rpmMacroEntry key, *ret;
struct rpmMacroEntry_s keybuf;
char *namebuf = NULL;
if (mc == NULL) mc = rpmGlobalMacroContext;
if (mc->macroTable == NULL || mc->firstFree == 0)
return NULL;
if (namelen > 0) {
namebuf = alloca(namelen + 1);
memset(namebuf, 0, (namelen + 1));
strncpy(namebuf, name, namelen);
namebuf[namelen] = '\0';
name = namebuf;
}
key = &keybuf;
memset(key, 0, sizeof(*key));
key->name = (char *)name;
ret = (rpmMacroEntry *) bsearch(&key, mc->macroTable, mc->firstFree,
sizeof(*(mc->macroTable)), compareMacroName);
/* XXX TODO: find 1st empty slot and return that */
return ret;
}
/* =============================================================== */
/**
* fgets(3) analogue that reads \ continuations. Last newline always trimmed.
* @param buf input buffer
* @param size inbut buffer size (bytes)
* @param fd file handle
* @return buffer, or NULL on end-of-file
*/
static char *
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rdcl(char * buf, size_t size, FD_t fd)
{
char *q = buf - 1; /* initialize just before buffer. */
size_t nb = 0;
size_t nread = 0;
FILE * f = fdGetFILE(fd);
int pc = 0, bc = 0;
char *p = buf;
if (f != NULL)
do {
*(++q) = '\0'; /* terminate and move forward. */
if (fgets(q, size, f) == NULL) /* read next line. */
break;
nb = strlen(q);
nread += nb; /* trim trailing \r and \n */
for (q += nb - 1; nb > 0 && iseol(*q); q--)
nb--;
for (; p <= q; p++) {
switch (*p) {
case '\\':
switch (*(p+1)) {
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case '\0': break;
default: p++; break;
}
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break;
case '%':
switch (*(p+1)) {
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case '{': p++, bc++; break;
case '(': p++, pc++; break;
case '%': p++; break;
}
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break;
case '{': if (bc > 0) bc++; break;
case '}': if (bc > 0) bc--; break;
case '(': if (pc > 0) pc++; break;
case ')': if (pc > 0) pc--; break;
}
}
if (nb == 0 || (*q != '\\' && !bc && !pc) || *(q+1) == '\0') {
*(++q) = '\0'; /* trim trailing \r, \n */
break;
}
q++; p++; nb++; /* copy newline too */
size -= nb;
if (*q == '\r') /* XXX avoid \r madness */
*q = '\n';
} while (size > 0);
return (nread > 0 ? buf : NULL);
}
/**
* Return text between pl and matching pr characters.
* @param p start of text
* @param pl left char, i.e. '[', '(', '{', etc.
* @param pr right char, i.e. ']', ')', '}', etc.
* @return address of last char before pr (or NULL)
*/
static const char *
matchchar(const char * p, char pl, char pr)
{
int lvl = 0;
char c;
while ((c = *p++) != '\0') {
if (c == '\\') { /* Ignore escaped chars */
p++;
continue;
}
if (c == pr) {
if (--lvl <= 0) return --p;
} else if (c == pl)
lvl++;
}
return (const char *)NULL;
}
/**
* Pre-print macro expression to be expanded.
* @param mb macro expansion state
* @param s current expansion string
* @param se end of string
*/
static void
printMacro(MacroBuf mb, const char * s, const char * se)
{
const char *senl;
const char *ellipsis;
int choplen;
if (s >= se) { /* XXX just in case */
fprintf(stderr, _("%3d>%*s(empty)"), mb->depth,
(2 * mb->depth + 1), "");
return;
}
if (s[-1] == '{')
s--;
/* Print only to first end-of-line (or end-of-string). */
for (senl = se; *senl && !iseol(*senl); senl++)
{};
/* Limit trailing non-trace output */
choplen = 61 - (2 * mb->depth);
if ((senl - s) > choplen) {
senl = s + choplen;
ellipsis = "...";
} else
ellipsis = "";
/* Substitute caret at end-of-macro position */
fprintf(stderr, "%3d>%*s%%%.*s^", mb->depth,
(2 * mb->depth + 1), "", (int)(se - s), s);
if (se[1] != '\0' && (senl - (se+1)) > 0)
fprintf(stderr, "%-.*s%s", (int)(senl - (se+1)), se+1, ellipsis);
fprintf(stderr, "\n");
}
/**
* Post-print expanded macro expression.
* @param mb macro expansion state
* @param t current expansion string result
* @param te end of string
*/
static void
printExpansion(MacroBuf mb, const char * t, const char * te)
{
const char *ellipsis;
int choplen;
if (!(te > t)) {
fprintf(stderr, _("%3d<%*s(empty)\n"), mb->depth, (2 * mb->depth + 1), "");
return;
}
/* Shorten output which contains newlines */
while (te > t && iseol(te[-1]))
te--;
ellipsis = "";
if (mb->depth > 0) {
const char *tenl;
/* Skip to last line of expansion */
while ((tenl = strchr(t, '\n')) && tenl < te)
t = ++tenl;
/* Limit expand output */
choplen = 61 - (2 * mb->depth);
if ((te - t) > choplen) {
te = t + choplen;
ellipsis = "...";
}
}
fprintf(stderr, "%3d<%*s", mb->depth, (2 * mb->depth + 1), "");
if (te > t)
fprintf(stderr, "%.*s%s", (int)(te - t), t, ellipsis);
fprintf(stderr, "\n");
}
#define SKIPBLANK(_s, _c) \
while (((_c) = *(_s)) && isblank(_c)) \
(_s)++; \
#define SKIPNONBLANK(_s, _c) \
while (((_c) = *(_s)) && !(isblank(_c) || iseol(_c))) \
(_s)++; \
#define COPYNAME(_ne, _s, _c) \
{ SKIPBLANK(_s,_c); \
while(((_c) = *(_s)) && (xisalnum(_c) || (_c) == '_')) \
*(_ne)++ = *(_s)++; \
*(_ne) = '\0'; \
}
#define COPYOPTS(_oe, _s, _c) \
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{ \
while(((_c) = *(_s)) && (_c) != ')') \
*(_oe)++ = *(_s)++; \
*(_oe) = '\0'; \
}
/**
* Save source and expand field into target.
* @param mb macro expansion state
* @param f field
* @param flen no. bytes in field
* @return result of expansion
*/
static int
expandT(MacroBuf mb, const char * f, size_t flen)
{
char *sbuf;
const char *s = mb->s;
int rc;
sbuf = alloca(flen + 1);
memset(sbuf, 0, (flen + 1));
strncpy(sbuf, f, flen);
sbuf[flen] = '\0';
mb->s = sbuf;
rc = expandMacro(mb);
mb->s = s;
return rc;
}
/**
* Save source/target and expand macro in u.
* @param mb macro expansion state
* @param u input macro, output expansion
* @param ulen no. bytes in u buffer
* @return result of expansion
*/
static int
expandU(MacroBuf mb, char * u, size_t ulen)
{
const char *s = mb->s;
char *t = mb->t;
size_t nb = mb->nb;
char *tbuf;
int rc;
tbuf = alloca(ulen + 1);
memset(tbuf, 0, (ulen + 1));
mb->s = u;
mb->t = tbuf;
mb->nb = ulen;
rc = expandMacro(mb);
tbuf[ulen] = '\0'; /* XXX just in case */
if (ulen > mb->nb)
strncpy(u, tbuf, (ulen - mb->nb + 1));
mb->s = s;
mb->t = t;
mb->nb = nb;
return rc;
}
/**
* Expand output of shell command into target buffer.
* @param mb macro expansion state
* @param cmd shell command
* @param clen no. bytes in shell command
* @return result of expansion
*/
static int
doShellEscape(MacroBuf mb, const char * cmd, size_t clen)
{
char pcmd[BUFSIZ];
FILE *shf;
int rc;
int c;
if (clen >= sizeof(pcmd)) {
rpmlog(RPMLOG_ERR, _("Target buffer overflow\n"));
return 1;
}
strncpy(pcmd, cmd, clen);
pcmd[clen] = '\0';
rc = expandU(mb, pcmd, sizeof(pcmd));
if (rc)
return rc;
if ((shf = popen(pcmd, "r")) == NULL)
return 1;
while(mb->nb > 0 && (c = fgetc(shf)) != EOF)
SAVECHAR(mb, c);
(void) pclose(shf);
/* XXX delete trailing \r \n */
while (iseol(mb->t[-1])) {
*(mb->t--) = '\0';
mb->nb++;
}
return 0;
}
/**
* Parse (and execute) new macro definition.
* @param mb macro expansion state
* @param se macro definition to parse
* @param level macro recursion level
* @param expandbody should body be expanded?
* @return address to continue parsing
*/
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static const char *
doDefine(MacroBuf mb, const char * se, int level, int expandbody)
{
const char *s = se;
char buf[BUFSIZ], *n = buf, *ne = n;
char *o = NULL, *oe;
char *b, *be;
int c;
int oc = ')';
/* Copy name */
COPYNAME(ne, s, c);
/* Copy opts (if present) */
oe = ne + 1;
if (*s == '(') {
s++; /* skip ( */
o = oe;
COPYOPTS(oe, s, oc);
s++; /* skip ) */
}
/* Copy body, skipping over escaped newlines */
b = be = oe + 1;
SKIPBLANK(s, c);
if (c == '{') { /* XXX permit silent {...} grouping */
if ((se = matchchar(s, c, '}')) == NULL) {
rpmlog(RPMLOG_ERR,
_("Macro %%%s has unterminated body\n"), n);
se = s; /* XXX W2DO? */
return se;
}
s++; /* XXX skip { */
strncpy(b, s, (se - s));
b[se - s] = '\0';
be += strlen(b);
se++; /* XXX skip } */
s = se; /* move scan forward */
} else { /* otherwise free-field */
int bc = 0, pc = 0;
while (*s && (bc || pc || !iseol(*s))) {
switch (*s) {
case '\\':
switch (*(s+1)) {
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case '\0': break;
default: s++; break;
}
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break;
case '%':
switch (*(s+1)) {
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case '{': *be++ = *s++; bc++; break;
case '(': *be++ = *s++; pc++; break;
case '%': *be++ = *s++; break;
}
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break;
case '{': if (bc > 0) bc++; break;
case '}': if (bc > 0) bc--; break;
case '(': if (pc > 0) pc++; break;
case ')': if (pc > 0) pc--; break;
}
*be++ = *s++;
}
*be = '\0';
if (bc || pc) {
rpmlog(RPMLOG_ERR,
_("Macro %%%s has unterminated body\n"), n);
se = s; /* XXX W2DO? */
return se;
}
/* Trim trailing blanks/newlines */
while (--be >= b && (c = *be) && (isblank(c) || iseol(c)))
{};
*(++be) = '\0'; /* one too far */
}
/* Move scan over body */
while (iseol(*s))
s++;
se = s;
/* Names must start with alphabetic or _ and be at least 3 chars */
if (!((c = *n) && (xisalpha(c) || c == '_') && (ne - n) > 2)) {
rpmlog(RPMLOG_ERR,
_("Macro %%%s has illegal name (%%define)\n"), n);
return se;
}
/* Options must be terminated with ')' */
if (o && oc != ')') {
rpmlog(RPMLOG_ERR, _("Macro %%%s has unterminated opts\n"), n);
return se;
}
if ((be - b) < 1) {
rpmlog(RPMLOG_ERR, _("Macro %%%s has empty body\n"), n);
return se;
}
if (expandbody && expandU(mb, b, (&buf[sizeof(buf)] - b))) {
rpmlog(RPMLOG_ERR, _("Macro %%%s failed to expand\n"), n);
return se;
}
addMacro(mb->mc, n, o, b, (level - 1));
return se;
}
/**
* Parse (and execute) macro undefinition.
* @param mc macro context
* @param se macro name to undefine
* @return address to continue parsing
*/
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static const char *
doUndefine(rpmMacroContext mc, const char * se)
{
const char *s = se;
char buf[BUFSIZ], *n = buf, *ne = n;
int c;
COPYNAME(ne, s, c);
/* Move scan over body */
while (iseol(*s))
s++;
se = s;
/* Names must start with alphabetic or _ and be at least 3 chars */
if (!((c = *n) && (xisalpha(c) || c == '_') && (ne - n) > 2)) {
rpmlog(RPMLOG_ERR,
_("Macro %%%s has illegal name (%%undefine)\n"), n);
return se;
}
delMacro(mc, n);
return se;
}
#ifdef DYING
static void
dumpME(const char * msg, rpmMacroEntry me)
{
if (msg)
fprintf(stderr, "%s", msg);
fprintf(stderr, "\tme %p", me);
if (me)
fprintf(stderr,"\tname %p(%s) prev %p",
me->name, me->name, me->prev);
fprintf(stderr, "\n");
}
#endif
/**
* Push new macro definition onto macro entry stack.
* @param mep address of macro entry slot
* @param n macro name
* @param o macro parameters (NULL if none)
* @param b macro body (NULL becomes "")
* @param level macro recursion level
*/
static void
pushMacro(rpmMacroEntry * mep,
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const char * n, const char * o,
const char * b, int level)
{
rpmMacroEntry prev = (mep && *mep ? *mep : NULL);
rpmMacroEntry me = (rpmMacroEntry) xmalloc(sizeof(*me));
me->prev = prev;
me->name = (prev ? prev->name : xstrdup(n));
me->opts = (o ? xstrdup(o) : NULL);
me->body = xstrdup(b ? b : "");
me->used = 0;
me->level = level;
if (mep)
*mep = me;
else
me = _free(me);
}
/**
* Pop macro definition from macro entry stack.
* @param mep address of macro entry slot
*/
static void
popMacro(rpmMacroEntry * mep)
{
rpmMacroEntry me = (*mep ? *mep : NULL);
if (me) {
/* XXX cast to workaround const */
if ((*mep = me->prev) == NULL)
me->name = _free(me->name);
me->opts = _free(me->opts);
me->body = _free(me->body);
me = _free(me);
}
}
/**
* Free parsed arguments for parameterized macro.
* @param mb macro expansion state
*/
static void
freeArgs(MacroBuf mb)
{
rpmMacroContext mc = mb->mc;
int ndeleted = 0;
int i;
if (mc == NULL || mc->macroTable == NULL)
return;
/* Delete dynamic macro definitions */
for (i = 0; i < mc->firstFree; i++) {
rpmMacroEntry *mep, me;
int skiptest = 0;
mep = &mc->macroTable[i];
me = *mep;
if (me == NULL) /* XXX this should never happen */
continue;
if (me->level < mb->depth)
continue;
if (strlen(me->name) == 1 && strchr("#*0", *me->name)) {
if (*me->name == '*' && me->used > 0)
skiptest = 1; /* XXX skip test for %# %* %0 */
} else if (!skiptest && me->used <= 0) {
#if NOTYET
rpmlog(RPMLOG_ERR,
_("Macro %%%s (%s) was not used below level %d\n"),
me->name, me->body, me->level);
#endif
}
popMacro(mep);
if (!(mep && *mep))
ndeleted++;
}
/* If any deleted macros, sort macro table */
if (ndeleted)
sortMacroTable(mc);
}
/**
* Parse arguments (to next new line) for parameterized macro.
* @todo Use popt rather than getopt to parse args.
* @param mb macro expansion state
* @param me macro entry slot
* @param se arguments to parse
* @param lastc stop parsing at lastc
* @return address to continue parsing
*/
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static const char *
grabArgs(MacroBuf mb, const rpmMacroEntry me, const char * se,
const char * lastc)
{
char buf[BUFSIZ], *b, *be;
char aname[16];
const char *opts, *o;
int argc = 0;
const char **argv;
int c;
/* Copy macro name as argv[0], save beginning of args. */
buf[0] = '\0';
b = be = stpcpy(buf, me->name);
addMacro(mb->mc, "0", NULL, buf, mb->depth);
argc = 1; /* XXX count argv[0] */
/* Copy args into buf until lastc */
*be++ = ' ';
while ((c = *se++) != '\0' && (se-1) != lastc) {
if (!isblank(c)) {
*be++ = c;
continue;
}
/* c is blank */
if (be[-1] == ' ')
continue;
/* a word has ended */
*be++ = ' ';
argc++;
}
if (c == '\0') se--; /* one too far */
if (be[-1] != ' ')
argc++, be++; /* last word has not trailing ' ' */
be[-1] = '\0';
if (*b == ' ') b++; /* skip the leading ' ' */
/*
* The macro %* analoguous to the shell's $* means "Pass all non-macro
* parameters." Consequently, there needs to be a macro that means "Pass all
* (including macro parameters) options". This is useful for verifying
* parameters during expansion and yet transparently passing all parameters
* through for higher level processing (e.g. %description and/or %setup).
* This is the (potential) justification for %{**} ...
*/
/* Add unexpanded args as macro */
addMacro(mb->mc, "**", NULL, b, mb->depth);
#ifdef NOTYET
/* XXX if macros can be passed as args ... */
expandU(mb, buf, sizeof(buf));
#endif
/* Build argv array */
argv = (const char **) alloca((argc + 1) * sizeof(*argv));
be[-1] = ' '; /* assert((be - 1) == (b + strlen(b) == buf + strlen(buf))) */
be[0] = '\0';
b = buf;
for (c = 0; c < argc; c++) {
argv[c] = b;
b = strchr(b, ' ');
*b++ = '\0';
}
/* assert(b == be); */
argv[argc] = NULL;
/* Citation from glibc/posix/getopt.c:
* Index in ARGV of the next element to be scanned.
* This is used for communication to and from the caller
* and for communication between successive calls to `getopt'.
*
* On entry to `getopt', zero means this is the first call; initialize.
*
* When `getopt' returns -1, this is the index of the first of the
* non-option elements that the caller should itself scan.
*
* Otherwise, `optind' communicates from one call to the next
* how much of ARGV has been scanned so far.
*/
/* 1003.2 says this must be 1 before any call. */
#ifdef __GLIBC__
optind = 0; /* XXX but posix != glibc */
#else
optind = 1;
#endif
opts = me->opts;
/* Define option macros. */
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/* FIX: argv[] can be NULL */
while((c = getopt(argc, (char **)argv, opts)) != -1)
{
if (c == '?' || (o = strchr(opts, c)) == NULL) {
rpmlog(RPMLOG_ERR, _("Unknown option %c in %s(%s)\n"),
(char)c, me->name, opts);
return se;
}
*be++ = '-';
*be++ = c;
if (o[1] == ':') {
*be++ = ' ';
be = stpcpy(be, optarg);
}
*be++ = '\0';
aname[0] = '-'; aname[1] = c; aname[2] = '\0';
addMacro(mb->mc, aname, NULL, b, mb->depth);
if (o[1] == ':') {
aname[0] = '-'; aname[1] = c; aname[2] = '*'; aname[3] = '\0';
addMacro(mb->mc, aname, NULL, optarg, mb->depth);
}
be = b; /* reuse the space */
}
/* Add arg count as macro. */
sprintf(aname, "%d", (argc - optind));
addMacro(mb->mc, "#", NULL, aname, mb->depth);
/* Add macro for each arg. Concatenate args for %*. */
if (be) {
*be = '\0';
for (c = optind; c < argc; c++) {
sprintf(aname, "%d", (c - optind + 1));
addMacro(mb->mc, aname, NULL, argv[c], mb->depth);
if (be != b) *be++ = ' '; /* Add space between args */
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/* FIX: argv[] can be NULL */
be = stpcpy(be, argv[c]);
}
}
/* Add unexpanded args as macro. */
addMacro(mb->mc, "*", NULL, b, mb->depth);
return se;
}
/**
* Perform macro message output
* @param mb macro expansion state
* @param waserror use rpmlog()?
* @param msg message to ouput
* @param msglen no. of bytes in message
*/
static void
doOutput(MacroBuf mb, int waserror, const char * msg, size_t msglen)
{
char buf[BUFSIZ];
if (msglen >= sizeof(buf)) {
rpmlog(RPMLOG_ERR, _("Target buffer overflow\n"));
msglen = sizeof(buf) - 1;
}
strncpy(buf, msg, msglen);
buf[msglen] = '\0';
(void) expandU(mb, buf, sizeof(buf));
if (waserror)
rpmlog(RPMLOG_ERR, "%s\n", buf);
else
fprintf(stderr, "%s", buf);
}
/**
* Execute macro primitives.
* @param mb macro expansion state
* @param negate should logic be inverted?
* @param f beginning of field f
* @param fn length of field f
* @param g beginning of field g
* @param gn length of field g
*/
static void
doFoo(MacroBuf mb, int negate, const char * f, size_t fn,
2007-09-11 22:48:54 +08:00
const char * g, size_t gn)
{
char buf[BUFSIZ], *b = NULL, *be;
int c;
buf[0] = '\0';
if (g != NULL) {
if (gn >= sizeof(buf)) {
rpmlog(RPMLOG_ERR, _("Target buffer overflow\n"));
gn = sizeof(buf) - 1;
}
strncpy(buf, g, gn);
buf[gn] = '\0';
(void) expandU(mb, buf, sizeof(buf));
}
if (STREQ("basename", f, fn)) {
if ((b = strrchr(buf, '/')) == NULL)
b = buf;
else
b++;
#if NOTYET
/* XXX watchout for conflict with %dir */
} else if (STREQ("dirname", f, fn)) {
if ((b = strrchr(buf, '/')) != NULL)
*b = '\0';
b = buf;
#endif
} else if (STREQ("suffix", f, fn)) {
if ((b = strrchr(buf, '.')) != NULL)
b++;
} else if (STREQ("expand", f, fn)) {
b = buf;
} else if (STREQ("verbose", f, fn)) {
if (negate)
b = (rpmIsVerbose() ? NULL : buf);
else
b = (rpmIsVerbose() ? buf : NULL);
} else if (STREQ("url2path", f, fn) || STREQ("u2p", f, fn)) {
(void)urlPath(buf, (const char **)&b);
if (*b == '\0') b = "/";
} else if (STREQ("uncompress", f, fn)) {
rpmCompressedMagic compressed = COMPRESSED_OTHER;
for (b = buf; (c = *b) && isblank(c);)
b++;
for (be = b; (c = *be) && !isblank(c);)
be++;
*be++ = '\0';
(void) isCompressed(b, &compressed);
switch(compressed) {
default:
case COMPRESSED_NOT:
sprintf(be, "%%_cat %s", b);
break;
case COMPRESSED_OTHER:
sprintf(be, "%%_gzip -dc %s", b);
break;
case COMPRESSED_BZIP2:
sprintf(be, "%%_bzip2 %s", b);
break;
case COMPRESSED_ZIP:
sprintf(be, "%%_unzip %s", b);
break;
case COMPRESSED_LZMA:
sprintf(be, "%%_lzma -dc %s", b);
break;
}
b = be;
} else if (STREQ("S", f, fn)) {
for (b = buf; (c = *b) && xisdigit(c);)
b++;
if (!c) { /* digit index */
b++;
sprintf(b, "%%SOURCE%s", buf);
} else
b = buf;
} else if (STREQ("P", f, fn)) {
for (b = buf; (c = *b) && xisdigit(c);)
b++;
if (!c) { /* digit index */
b++;
sprintf(b, "%%PATCH%s", buf);
} else
b = buf;
} else if (STREQ("F", f, fn)) {
b = buf + strlen(buf) + 1;
sprintf(b, "file%s.file", buf);
}
if (b) {
(void) expandT(mb, b, strlen(b));
}
}
/**
* The main macro recursion loop.
* @todo Dynamically reallocate target buffer.
* @param mb macro expansion state
* @return 0 on success, 1 on failure
*/
static int
expandMacro(MacroBuf mb)
{
rpmMacroEntry *mep;
rpmMacroEntry me;
const char *s = mb->s, *se;
const char *f, *fe;
const char *g, *ge;
size_t fn, gn;
char *t = mb->t; /* save expansion pointer for printExpand */
int c;
int rc = 0;
int negate;
const char * lastc;
int chkexist;
if (++mb->depth > max_macro_depth) {
rpmlog(RPMLOG_ERR,
_("Recursion depth(%d) greater than max(%d)\n"),
mb->depth, max_macro_depth);
mb->depth--;
mb->expand_trace = 1;
return 1;
}
while (rc == 0 && mb->nb > 0 && (c = *s) != '\0') {
s++;
/* Copy text until next macro */
switch(c) {
case '%':
if (*s) { /* Ensure not end-of-string. */
if (*s != '%')
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break;
s++; /* skip first % in %% */
}
default:
SAVECHAR(mb, c);
continue;
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break;
}
/* Expand next macro */
f = fe = NULL;
g = ge = NULL;
if (mb->depth > 1) /* XXX full expansion for outermost level */
t = mb->t; /* save expansion pointer for printExpand */
negate = 0;
lastc = NULL;
chkexist = 0;
switch ((c = *s)) {
default: /* %name substitution */
while (strchr("!?", *s) != NULL) {
switch(*s++) {
case '!':
negate = ((negate + 1) % 2);
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break;
case '?':
chkexist++;
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break;
}
}
f = se = s;
if (*se == '-')
se++;
while((c = *se) && (xisalnum(c) || c == '_'))
se++;
/* Recognize non-alnum macros too */
switch (*se) {
case '*':
se++;
if (*se == '*') se++;
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break;
case '#':
se++;
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break;
default:
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break;
}
fe = se;
/* For "%name " macros ... */
if ((c = *fe) && isblank(c))
if ((lastc = strchr(fe,'\n')) == NULL)
lastc = strchr(fe, '\0');
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break;
case '(': /* %(...) shell escape */
if ((se = matchchar(s, c, ')')) == NULL) {
rpmlog(RPMLOG_ERR,
_("Unterminated %c: %s\n"), (char)c, s);
rc = 1;
continue;
}
if (mb->macro_trace)
printMacro(mb, s, se+1);
s++; /* skip ( */
rc = doShellEscape(mb, s, (se - s));
se++; /* skip ) */
s = se;
continue;
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break;
case '{': /* %{...}/%{...:...} substitution */
if ((se = matchchar(s, c, '}')) == NULL) {
rpmlog(RPMLOG_ERR,
_("Unterminated %c: %s\n"), (char)c, s);
rc = 1;
continue;
}
f = s+1;/* skip { */
se++; /* skip } */
while (strchr("!?", *f) != NULL) {
switch(*f++) {
case '!':
negate = ((negate + 1) % 2);
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break;
case '?':
chkexist++;
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break;
}
}
for (fe = f; (c = *fe) && !strchr(" :}", c);)
fe++;
switch (c) {
case ':':
g = fe + 1;
ge = se - 1;
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break;
case ' ':
lastc = se-1;
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break;
default:
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break;
}
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break;
}
/* XXX Everything below expects fe > f */
fn = (fe - f);
gn = (ge - g);
if ((fe - f) <= 0) {
/* XXX Process % in unknown context */
c = '%'; /* XXX only need to save % */
SAVECHAR(mb, c);
#if 0
rpmlog(RPMLOG_ERR,
_("A %% is followed by an unparseable macro\n"));
#endif
s = se;
continue;
}
if (mb->macro_trace)
printMacro(mb, s, se);
/* Expand builtin macros */
if (STREQ("global", f, fn)) {
s = doDefine(mb, se, RMIL_GLOBAL, 1);
continue;
}
if (STREQ("define", f, fn)) {
s = doDefine(mb, se, mb->depth, 0);
continue;
}
if (STREQ("undefine", f, fn)) {
s = doUndefine(mb->mc, se);
continue;
}
if (STREQ("echo", f, fn) ||
STREQ("warn", f, fn) ||
STREQ("error", f, fn)) {
int waserror = 0;
if (STREQ("error", f, fn))
waserror = 1;
if (g != NULL && g < ge)
doOutput(mb, waserror, g, gn);
else
doOutput(mb, waserror, f, fn);
s = se;
continue;
}
if (STREQ("trace", f, fn)) {
/* XXX TODO restore expand_trace/macro_trace to 0 on return */
mb->expand_trace = mb->macro_trace = (negate ? 0 : mb->depth);
if (mb->depth == 1) {
print_macro_trace = mb->macro_trace;
print_expand_trace = mb->expand_trace;
}
s = se;
continue;
}
if (STREQ("dump", f, fn)) {
rpmDumpMacroTable(mb->mc, NULL);
while (iseol(*se))
se++;
s = se;
continue;
}
#ifdef WITH_LUA
if (STREQ("lua", f, fn)) {
rpmlua lua = NULL; /* Global state. */
const char *ls = s+sizeof("{lua:")-1;
const char *lse = se-sizeof("}")+1;
char *scriptbuf = (char *)xmalloc((lse-ls)+1);
const char *printbuf;
memcpy(scriptbuf, ls, lse-ls);
scriptbuf[lse-ls] = '\0';
rpmluaSetPrintBuffer(lua, 1);
if (rpmluaRunScript(lua, scriptbuf, NULL) == -1)
rc = 1;
printbuf = rpmluaGetPrintBuffer(lua);
if (printbuf) {
int len = strlen(printbuf);
if (len > mb->nb)
len = mb->nb;
memcpy(mb->t, printbuf, len);
mb->t += len;
mb->nb -= len;
}
rpmluaSetPrintBuffer(lua, 0);
free(scriptbuf);
s = se;
continue;
}
#endif
/* XXX necessary but clunky */
if (STREQ("basename", f, fn) ||
STREQ("suffix", f, fn) ||
STREQ("expand", f, fn) ||
STREQ("verbose", f, fn) ||
STREQ("uncompress", f, fn) ||
STREQ("url2path", f, fn) ||
STREQ("u2p", f, fn) ||
STREQ("S", f, fn) ||
STREQ("P", f, fn) ||
STREQ("F", f, fn)) {
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/* FIX: verbose may be set */
doFoo(mb, negate, f, fn, g, gn);
s = se;
continue;
}
/* Expand defined macros */
mep = findEntry(mb->mc, f, fn);
me = (mep ? *mep : NULL);
/* XXX Special processing for flags */
if (*f == '-') {
if (me)
me->used++; /* Mark macro as used */
if ((me == NULL && !negate) || /* Without -f, skip %{-f...} */
(me != NULL && negate)) { /* With -f, skip %{!-f...} */
s = se;
continue;
}
if (g && g < ge) { /* Expand X in %{-f:X} */
rc = expandT(mb, g, gn);
} else
if (me && me->body && *me->body) {/* Expand %{-f}/%{-f*} */
rc = expandT(mb, me->body, strlen(me->body));
}
s = se;
continue;
}
/* XXX Special processing for macro existence */
if (chkexist) {
if ((me == NULL && !negate) || /* Without -f, skip %{?f...} */
(me != NULL && negate)) { /* With -f, skip %{!?f...} */
s = se;
continue;
}
if (g && g < ge) { /* Expand X in %{?f:X} */
rc = expandT(mb, g, gn);
} else
if (me && me->body && *me->body) { /* Expand %{?f}/%{?f*} */
rc = expandT(mb, me->body, strlen(me->body));
}
s = se;
continue;
}
if (me == NULL) { /* leave unknown %... as is */
#ifndef HACK
#if DEAD
/* XXX hack to skip over empty arg list */
if (fn == 1 && *f == '*') {
s = se;
continue;
}
#endif
/* XXX hack to permit non-overloaded %foo to be passed */
c = '%'; /* XXX only need to save % */
SAVECHAR(mb, c);
#else
rpmlog(RPMLOG_ERR,
_("Macro %%%.*s not found, skipping\n"), fn, f);
s = se;
#endif
continue;
}
/* Setup args for "%name " macros with opts */
if (me && me->opts != NULL) {
if (lastc != NULL) {
se = grabArgs(mb, me, fe, lastc);
} else {
addMacro(mb->mc, "**", NULL, "", mb->depth);
addMacro(mb->mc, "*", NULL, "", mb->depth);
addMacro(mb->mc, "#", NULL, "0", mb->depth);
addMacro(mb->mc, "0", NULL, me->name, mb->depth);
}
}
/* Recursively expand body of macro */
if (me->body && *me->body) {
mb->s = me->body;
rc = expandMacro(mb);
if (rc == 0)
me->used++; /* Mark macro as used */
}
/* Free args for "%name " macros with opts */
if (me->opts != NULL)
freeArgs(mb);
s = se;
}
*mb->t = '\0';
mb->s = s;
mb->depth--;
if (rc != 0 || mb->expand_trace)
printExpansion(mb, t, mb->t);
return rc;
}
/* =============================================================== */
int
expandMacros(void * spec, rpmMacroContext mc, char * sbuf, size_t slen)
{
MacroBuf mb = alloca(sizeof(*mb));
char *tbuf;
int rc;
if (sbuf == NULL || slen == 0)
return 0;
if (mc == NULL) mc = rpmGlobalMacroContext;
tbuf = alloca(slen + 1);
memset(tbuf, 0, (slen + 1));
mb->s = sbuf;
mb->t = tbuf;
mb->nb = slen;
mb->depth = 0;
mb->macro_trace = print_macro_trace;
mb->expand_trace = print_expand_trace;
mb->spec = spec; /* (future) %file expansion info */
mb->mc = mc;
rc = expandMacro(mb);
if (mb->nb == 0)
rpmlog(RPMLOG_ERR, _("Target buffer overflow\n"));
tbuf[slen] = '\0'; /* XXX just in case */
strncpy(sbuf, tbuf, (slen - mb->nb + 1));
return rc;
}
void
addMacro(rpmMacroContext mc,
const char * n, const char * o, const char * b, int level)
{
rpmMacroEntry * mep;
if (mc == NULL) mc = rpmGlobalMacroContext;
/* If new name, expand macro table */
if ((mep = findEntry(mc, n, 0)) == NULL) {
if (mc->firstFree == mc->macrosAllocated)
expandMacroTable(mc);
if (mc->macroTable != NULL)
mep = mc->macroTable + mc->firstFree++;
}
if (mep != NULL) {
/* Push macro over previous definition */
pushMacro(mep, n, o, b, level);
/* If new name, sort macro table */
if ((*mep)->prev == NULL)
sortMacroTable(mc);
}
}
void
delMacro(rpmMacroContext mc, const char * n)
{
rpmMacroEntry * mep;
if (mc == NULL) mc = rpmGlobalMacroContext;
/* If name exists, pop entry */
if ((mep = findEntry(mc, n, 0)) != NULL) {
popMacro(mep);
/* If deleted name, sort macro table */
if (!(mep && *mep))
sortMacroTable(mc);
}
}
int
rpmDefineMacro(rpmMacroContext mc, const char * macro, int level)
{
MacroBuf mb = alloca(sizeof(*mb));
memset(mb, 0, sizeof(*mb));
/* XXX just enough to get by */
mb->mc = (mc ? mc : rpmGlobalMacroContext);
(void) doDefine(mb, macro, level, 0);
return 0;
}
void
rpmLoadMacros(rpmMacroContext mc, int level)
{
if (mc == NULL || mc == rpmGlobalMacroContext)
return;
if (mc->macroTable != NULL) {
int i;
for (i = 0; i < mc->firstFree; i++) {
rpmMacroEntry *mep, me;
mep = &mc->macroTable[i];
me = *mep;
if (me == NULL) /* XXX this should never happen */
continue;
addMacro(NULL, me->name, me->opts, me->body, (level - 1));
}
}
}
int
rpmLoadMacroFile(rpmMacroContext mc, const char * fn)
{
FD_t fd = Fopen(fn, "r.fpio");
char buf[BUFSIZ];
int rc = -1;
if (fd == NULL || Ferror(fd)) {
if (fd) (void) Fclose(fd);
return rc;
}
/* XXX Assume new fangled macro expansion */
max_macro_depth = 16;
buf[0] = '\0';
while(rdcl(buf, sizeof(buf), fd) != NULL) {
char c, *n;
n = buf;
SKIPBLANK(n, c);
if (c != '%')
continue;
n++; /* skip % */
rc = rpmDefineMacro(mc, n, RMIL_MACROFILES);
}
rc = Fclose(fd);
return rc;
}
void
rpmInitMacros(rpmMacroContext mc, const char * macrofiles)
{
char *mfiles, *m, *me;
if (macrofiles == NULL)
return;
#ifdef DYING
if (mc == NULL) mc = rpmGlobalMacroContext;
#endif
mfiles = xstrdup(macrofiles);
for (m = mfiles; m && *m != '\0'; m = me) {
const char ** av;
int ac;
int i;
for (me = m; (me = strchr(me, ':')) != NULL; me++) {
/* Skip over URI's. */
if (!(me[1] == '/' && me[2] == '/'))
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break;
}
if (me && *me == ':')
*me++ = '\0';
else
me = m + strlen(m);
/* Glob expand the macro file path element, expanding ~ to $HOME. */
ac = 0;
av = NULL;
i = rpmGlob(m, &ac, &av);
if (i != 0)
continue;
/* Read macros from each file. */
for (i = 0; i < ac; i++) {
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if (strstr(av[i], ".rpmnew") ||
strstr(av[i], ".rpmsave") ||
strstr(av[i], ".rpmorig")) {
continue;
}
(void) rpmLoadMacroFile(mc, av[i]);
av[i] = _free(av[i]);
}
av = _free(av);
}
mfiles = _free(mfiles);
/* Reload cmdline macros */
rpmLoadMacros(rpmCLIMacroContext, RMIL_CMDLINE);
}
void
rpmFreeMacros(rpmMacroContext mc)
{
if (mc == NULL) mc = rpmGlobalMacroContext;
if (mc->macroTable != NULL) {
int i;
for (i = 0; i < mc->firstFree; i++) {
rpmMacroEntry me;
while ((me = mc->macroTable[i]) != NULL) {
/* XXX cast to workaround const */
if ((mc->macroTable[i] = me->prev) == NULL)
me->name = _free(me->name);
me->opts = _free(me->opts);
me->body = _free(me->body);
me = _free(me);
}
}
mc->macroTable = _free(mc->macroTable);
}
memset(mc, 0, sizeof(*mc));
}
char *
rpmExpand(const char *arg, ...)
{
char buf[BUFSIZ], *p, *pe;
const char *s;
va_list ap;
if (arg == NULL)
return xstrdup("");
buf[0] = '\0';
p = buf;
pe = stpcpy(p, arg);
va_start(ap, arg);
while ((s = va_arg(ap, const char *)) != NULL)
pe = stpcpy(pe, s);
va_end(ap);
(void) expandMacros(NULL, NULL, buf, sizeof(buf));
return xstrdup(buf);
}
int
rpmExpandNumeric(const char *arg)
{
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char *val;
int rc;
if (arg == NULL)
return 0;
val = rpmExpand(arg, NULL);
if (!(val && *val != '%'))
rc = 0;
else if (*val == 'Y' || *val == 'y')
rc = 1;
else if (*val == 'N' || *val == 'n')
rc = 0;
else {
char *end;
rc = strtol(val, &end, 0);
if (!(end && *end == '\0'))
rc = 0;
}
val = _free(val);
return rc;
}