freebsd-skq/usr.bin/make/var.c
2011-12-30 11:02:40 +00:00

2604 lines
59 KiB
C

/*-
* Copyright (c) 2002 Juli Mallett.
* Copyright (c) 1988, 1989, 1990, 1993
* The Regents of the University of California. All rights reserved.
* Copyright (c) 1989 by Berkeley Softworks
* All rights reserved.
*
* This code is derived from software contributed to Berkeley by
* Adam de Boor.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* 3. All advertising materials mentioning features or use of this software
* must display the following acknowledgement:
* This product includes software developed by the University of
* California, Berkeley and its contributors.
* 4. Neither the name of the University nor the names of its contributors
* may be used to endorse or promote products derived from this software
* without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
*
* @(#)var.c 8.3 (Berkeley) 3/19/94
*/
#include <sys/cdefs.h>
__FBSDID("$FreeBSD$");
/**
* var.c --
* Variable-handling functions
*
* Interface:
* Var_Set Set the value of a variable in the given
* context. The variable is created if it doesn't
* yet exist. The value and variable name need not
* be preserved.
*
* Var_Append Append more characters to an existing variable
* in the given context. The variable needn't
* exist already -- it will be created if it doesn't.
* A space is placed between the old value and the
* new one.
*
* Var_Exists See if a variable exists.
*
* Var_Value Return the value of a variable in a context or
* NULL if the variable is undefined.
*
* Var_Subst Substitute named variable, or all variables if
* NULL in a string using
* the given context as the top-most one. If the
* third argument is non-zero, Parse_Error is
* called if any variables are undefined.
*
* Var_Parse Parse a variable expansion from a string and
* return the result and the number of characters
* consumed.
*
* Var_Delete Delete a variable in a context.
*
* Var_Init Initialize this module.
*
* Debugging:
* Var_Dump Print out all variables defined in the given
* context.
*
* XXX: There's a lot of duplication in these functions.
*/
#include <ctype.h>
#include <stdlib.h>
#include <string.h>
#include <sys/types.h>
#include <regex.h>
#include "buf.h"
#include "config.h"
#include "globals.h"
#include "GNode.h"
#include "job.h"
#include "lst.h"
#include "parse.h"
#include "str.h"
#include "targ.h"
#include "util.h"
#include "var.h"
/**
*
*/
typedef struct VarParser {
const char *const input; /* pointer to input string */
const char *ptr; /* current parser pos in input str */
GNode *ctxt;
Boolean err;
Boolean execute;
} VarParser;
typedef struct Var {
char *name; /* the variable's name */
struct Buffer *val; /* its value */
int flags; /* miscellaneous status flags */
#define VAR_IN_USE 1 /* Variable's value currently being used.
* Used to avoid recursion */
#define VAR_JUNK 4 /* Variable is a junk variable that
* should be destroyed when done with
* it. Used by Var_Parse for undefined,
* modified variables */
#define VAR_TO_ENV 8 /* Place variable in environment */
} Var;
typedef struct {
struct Buffer *lhs; /* String to match */
struct Buffer *rhs; /* Replacement string (w/ &'s removed) */
regex_t re;
int nsub;
regmatch_t *matches;
int flags;
#define VAR_SUB_GLOBAL 0x01 /* Apply substitution globally */
#define VAR_SUB_ONE 0x02 /* Apply substitution to one word */
#define VAR_SUB_MATCHED 0x04 /* There was a match */
#define VAR_MATCH_START 0x08 /* Match at start of word */
#define VAR_MATCH_END 0x10 /* Match at end of word */
} VarPattern;
typedef Boolean VarModifyProc(const char *, Boolean, struct Buffer *, void *);
static char *VarParse(VarParser *, Boolean *);
/*
* This is a harmless return value for Var_Parse that can be used by Var_Subst
* to determine if there was an error in parsing -- easier than returning
* a flag, as things outside this module don't give a hoot.
*/
char var_Error[] = "";
/*
* Similar to var_Error, but returned when the 'err' flag for Var_Parse is
* set false. Why not just use a constant? Well, gcc likes to condense
* identical string instances...
*/
static char varNoError[] = "";
/*
* Internally, variables are contained in four different contexts.
* 1) the environment. They may not be changed. If an environment
* variable is appended-to, the result is placed in the global
* context.
* 2) the global context. Variables set in the Makefile are located in
* the global context. It is the penultimate context searched when
* substituting.
* 3) the command-line context. All variables set on the command line
* are placed in this context. They are UNALTERABLE once placed here.
* 4) the local context. Each target has associated with it a context
* list. On this list are located the structures describing such
* local variables as $(@) and $(*)
* The four contexts are searched in the reverse order from which they are
* listed.
*/
static GNode *VAR_ENV; /* variables from the environment */
GNode *VAR_GLOBAL; /* variables from the makefile */
GNode *VAR_CMD; /* variables defined on the command-line */
Boolean oldVars; /* variable substitution style */
Boolean checkEnvFirst; /* -e flag */
#define OPEN_PAREN '('
#define CLOSE_PAREN ')'
#define OPEN_BRACE '{'
#define CLOSE_BRACE '}'
/**
* Create a Var object.
*
* Params:
* name Name of variable (copied).
* value Value of variable (copied) or NULL.
* flags Flags set on variable.
*
* Returns:
* New variable.
*/
static Var *
VarCreate(const char name[], const char value[], int flags)
{
Var *v;
v = emalloc(sizeof(Var));
v->name = estrdup(name);
v->val = Buf_Init(0);
v->flags = flags;
if (value != NULL) {
Buf_Append(v->val, value);
}
return (v);
}
/**
* Destroy a Var object.
*
* Params:
* v Object to destroy.
* f True if internal buffer in Buffer object is to be removed.
*/
static void
VarDestroy(Var *v, Boolean f)
{
Buf_Destroy(v->val, f);
free(v->name);
free(v);
}
/**
* Remove the tail of the given word and place the result in the given
* buffer.
*
* Results:
* TRUE if characters were added to the buffer (a space needs to be
* added to the buffer before the next word).
*
* Side Effects:
* The trimmed word is added to the buffer.
*/
static Boolean
VarHead(const char *word, Boolean addSpace, Buffer *buf, void *dummy __unused)
{
char *slash;
slash = strrchr(word, '/');
if (slash != NULL) {
if (addSpace) {
Buf_AddByte(buf, (Byte)' ');
}
Buf_AppendRange(buf, word, slash);
} else {
/*
* If no directory part, give . (q.v. the POSIX standard)
*/
if (addSpace) {
Buf_Append(buf, " .");
} else {
Buf_AddByte(buf, (Byte)'.');
}
}
return (TRUE);
}
/**
* Remove the head of the given word and place the result in the given
* buffer.
*
* Results:
* TRUE if characters were added to the buffer (a space needs to be
* added to the buffer before the next word).
*
* Side Effects:
* The trimmed word is added to the buffer.
*/
static Boolean
VarTail(const char *word, Boolean addSpace, Buffer *buf, void *dummy __unused)
{
const char *slash;
if (addSpace) {
Buf_AddByte (buf, (Byte)' ');
}
slash = strrchr(word, '/');
if (slash != NULL) {
slash++;
Buf_Append(buf, slash);
} else {
Buf_Append(buf, word);
}
return (TRUE);
}
/**
* Place the suffix of the given word in the given buffer.
*
* Results:
* TRUE if characters were added to the buffer (a space needs to be
* added to the buffer before the next word).
*
* Side Effects:
* The suffix from the word is placed in the buffer.
*/
static Boolean
VarSuffix(const char *word, Boolean addSpace, Buffer *buf, void *dummy __unused)
{
const char *dot;
dot = strrchr(word, '.');
if (dot != NULL) {
if (addSpace) {
Buf_AddByte(buf, (Byte)' ');
}
dot++;
Buf_Append(buf, dot);
addSpace = TRUE;
}
return (addSpace);
}
/**
* Remove the suffix of the given word and place the result in the
* buffer.
*
* Results:
* TRUE if characters were added to the buffer (a space needs to be
* added to the buffer before the next word).
*
* Side Effects:
* The trimmed word is added to the buffer.
*/
static Boolean
VarRoot(const char *word, Boolean addSpace, Buffer *buf, void *dummy __unused)
{
char *dot;
if (addSpace) {
Buf_AddByte(buf, (Byte)' ');
}
dot = strrchr(word, '.');
if (dot != NULL) {
Buf_AppendRange(buf, word, dot);
} else {
Buf_Append(buf, word);
}
return (TRUE);
}
/**
* Place the word in the buffer if it matches the given pattern.
* Callback function for VarModify to implement the :M modifier.
* A space will be added if requested. A pattern is supplied
* which the word must match.
*
* Results:
* TRUE if a space should be placed in the buffer before the next
* word.
*
* Side Effects:
* The word may be copied to the buffer.
*/
static Boolean
VarMatch(const char *word, Boolean addSpace, Buffer *buf, void *pattern)
{
if (Str_Match(word, pattern)) {
if (addSpace) {
Buf_AddByte(buf, (Byte)' ');
}
addSpace = TRUE;
Buf_Append(buf, word);
}
return (addSpace);
}
#ifdef SYSVVARSUB
/**
* Place the word in the buffer if it matches the given pattern.
* Callback function for VarModify to implement the System V %
* modifiers. A space is added if requested.
*
* Results:
* TRUE if a space should be placed in the buffer before the next
* word.
*
* Side Effects:
* The word may be copied to the buffer.
*/
static Boolean
VarSYSVMatch(const char *word, Boolean addSpace, Buffer *buf, void *patp)
{
int len;
const char *ptr;
VarPattern *pat = (VarPattern *)patp;
if (addSpace)
Buf_AddByte(buf, (Byte)' ');
addSpace = TRUE;
if ((ptr = Str_SYSVMatch(word, Buf_Data(pat->lhs), &len)) != NULL)
Str_SYSVSubst(buf, Buf_Data(pat->rhs), ptr, len);
else
Buf_Append(buf, word);
return (addSpace);
}
#endif
/**
* Place the word in the buffer if it doesn't match the given pattern.
* Callback function for VarModify to implement the :N modifier. A
* space is added if requested.
*
* Results:
* TRUE if a space should be placed in the buffer before the next
* word.
*
* Side Effects:
* The word may be copied to the buffer.
*/
static Boolean
VarNoMatch(const char *word, Boolean addSpace, Buffer *buf, void *pattern)
{
if (!Str_Match(word, pattern)) {
if (addSpace) {
Buf_AddByte(buf, (Byte)' ');
}
addSpace = TRUE;
Buf_Append(buf, word);
}
return (addSpace);
}
/**
* Perform a string-substitution on the given word, placing the
* result in the passed buffer. A space is added if requested.
*
* Results:
* TRUE if a space is needed before more characters are added.
*/
static Boolean
VarSubstitute(const char *word, Boolean addSpace, Buffer *buf, void *patternp)
{
size_t wordLen; /* Length of word */
const char *cp; /* General pointer */
VarPattern *pattern = patternp;
wordLen = strlen(word);
if (1) { /* substitute in each word of the variable */
/*
* Break substitution down into simple anchored cases
* and if none of them fits, perform the general substitution
* case.
*/
if ((pattern->flags & VAR_MATCH_START) &&
(strncmp(word, Buf_Data(pattern->lhs),
Buf_Size(pattern->lhs)) == 0)) {
/*
* Anchored at start and beginning of word matches
* pattern.
*/
if ((pattern->flags & VAR_MATCH_END) &&
(wordLen == Buf_Size(pattern->lhs))) {
/*
* Also anchored at end and matches to the end
* (word is same length as pattern) add space
* and rhs only if rhs is non-null.
*/
if (Buf_Size(pattern->rhs) != 0) {
if (addSpace) {
Buf_AddByte(buf, (Byte)' ');
}
addSpace = TRUE;
Buf_AppendBuf(buf, pattern->rhs);
}
} else if (pattern->flags & VAR_MATCH_END) {
/*
* Doesn't match to end -- copy word wholesale
*/
goto nosub;
} else {
/*
* Matches at start but need to copy in
* trailing characters.
*/
if ((Buf_Size(pattern->rhs) + wordLen -
Buf_Size(pattern->lhs)) != 0) {
if (addSpace) {
Buf_AddByte(buf, (Byte)' ');
}
addSpace = TRUE;
}
Buf_AppendBuf(buf, pattern->rhs);
Buf_AddBytes(buf, wordLen -
Buf_Size(pattern->lhs),
(word + Buf_Size(pattern->lhs)));
}
} else if (pattern->flags & VAR_MATCH_START) {
/*
* Had to match at start of word and didn't -- copy
* whole word.
*/
goto nosub;
} else if (pattern->flags & VAR_MATCH_END) {
/*
* Anchored at end, Find only place match could occur
* (leftLen characters from the end of the word) and
* see if it does. Note that because the $ will be
* left at the end of the lhs, we have to use strncmp.
*/
cp = word + (wordLen - Buf_Size(pattern->lhs));
if ((cp >= word) && (strncmp(cp, Buf_Data(pattern->lhs),
Buf_Size(pattern->lhs)) == 0)) {
/*
* Match found. If we will place characters in
* the buffer, add a space before hand as
* indicated by addSpace, then stuff in the
* initial, unmatched part of the word followed
* by the right-hand-side.
*/
if ((cp - word) + Buf_Size(pattern->rhs) != 0) {
if (addSpace) {
Buf_AddByte(buf, (Byte)' ');
}
addSpace = TRUE;
}
Buf_AppendRange(buf, word, cp);
Buf_AppendBuf(buf, pattern->rhs);
} else {
/*
* Had to match at end and didn't. Copy entire
* word.
*/
goto nosub;
}
} else {
/*
* Pattern is unanchored: search for the pattern in the
* word using strstr(3), copying unmatched portions and
* the right-hand-side for each match found, handling
* non-global substitutions correctly, etc. When the
* loop is done, any remaining part of the word (word
* and wordLen are adjusted accordingly through the
* loop) is copied straight into the buffer.
* addSpace is set FALSE as soon as a space is added
* to the buffer.
*/
Boolean done;
size_t origSize;
done = FALSE;
origSize = Buf_Size(buf);
while (!done) {
cp = strstr(word, Buf_Data(pattern->lhs));
if (cp != NULL) {
if (addSpace && (((cp - word) +
Buf_Size(pattern->rhs)) != 0)) {
Buf_AddByte(buf, (Byte)' ');
addSpace = FALSE;
}
Buf_AppendRange(buf, word, cp);
Buf_AppendBuf(buf, pattern->rhs);
wordLen -= (cp - word) +
Buf_Size(pattern->lhs);
word = cp + Buf_Size(pattern->lhs);
if (wordLen == 0 || (pattern->flags &
VAR_SUB_GLOBAL) == 0) {
done = TRUE;
}
} else {
done = TRUE;
}
}
if (wordLen != 0) {
if (addSpace) {
Buf_AddByte(buf, (Byte)' ');
}
Buf_AddBytes(buf, wordLen, (const Byte *)word);
}
/*
* If added characters to the buffer, need to add a
* space before we add any more. If we didn't add any,
* just return the previous value of addSpace.
*/
return ((Buf_Size(buf) != origSize) || addSpace);
}
/*
* Common code for anchored substitutions:
* addSpace was set TRUE if characters were added to the buffer.
*/
return (addSpace);
}
nosub:
if (addSpace) {
Buf_AddByte(buf, (Byte)' ');
}
Buf_AddBytes(buf, wordLen, (const Byte *)word);
return (TRUE);
}
/**
* Print the error caused by a regcomp or regexec call.
*
* Side Effects:
* An error gets printed.
*/
static void
VarREError(int err, regex_t *pat, const char *str)
{
char *errbuf;
int errlen;
errlen = regerror(err, pat, 0, 0);
errbuf = emalloc(errlen);
regerror(err, pat, errbuf, errlen);
Error("%s: %s", str, errbuf);
free(errbuf);
}
/**
* Perform a regex substitution on the given word, placing the
* result in the passed buffer. A space is added if requested.
*
* Results:
* TRUE if a space is needed before more characters are added.
*/
static Boolean
VarRESubstitute(const char *word, Boolean addSpace, Buffer *buf, void *patternp)
{
VarPattern *pat;
int xrv;
const char *wp;
char *rp;
int added;
int flags = 0;
#define MAYBE_ADD_SPACE() \
if (addSpace && !added) \
Buf_AddByte(buf, (Byte)' '); \
added = 1
added = 0;
wp = word;
pat = patternp;
if ((pat->flags & (VAR_SUB_ONE | VAR_SUB_MATCHED)) ==
(VAR_SUB_ONE | VAR_SUB_MATCHED)) {
xrv = REG_NOMATCH;
} else {
tryagain:
xrv = regexec(&pat->re, wp, pat->nsub, pat->matches, flags);
}
switch (xrv) {
case 0:
pat->flags |= VAR_SUB_MATCHED;
if (pat->matches[0].rm_so > 0) {
MAYBE_ADD_SPACE();
Buf_AddBytes(buf, pat->matches[0].rm_so,
(const Byte *)wp);
}
for (rp = Buf_Data(pat->rhs); *rp; rp++) {
if ((*rp == '\\') && ((rp[1] == '&') || (rp[1] == '\\'))) {
MAYBE_ADD_SPACE();
Buf_AddByte(buf, (Byte)rp[1]);
rp++;
} else if ((*rp == '&') ||
((*rp == '\\') && isdigit((unsigned char)rp[1]))) {
int n;
const char *subbuf;
int sublen;
char errstr[3];
if (*rp == '&') {
n = 0;
errstr[0] = '&';
errstr[1] = '\0';
} else {
n = rp[1] - '0';
errstr[0] = '\\';
errstr[1] = rp[1];
errstr[2] = '\0';
rp++;
}
if (n > pat->nsub) {
Error("No subexpression %s",
&errstr[0]);
subbuf = "";
sublen = 0;
} else if ((pat->matches[n].rm_so == -1) &&
(pat->matches[n].rm_eo == -1)) {
Error("No match for subexpression %s",
&errstr[0]);
subbuf = "";
sublen = 0;
} else {
subbuf = wp + pat->matches[n].rm_so;
sublen = pat->matches[n].rm_eo -
pat->matches[n].rm_so;
}
if (sublen > 0) {
MAYBE_ADD_SPACE();
Buf_AddBytes(buf, sublen,
(const Byte *)subbuf);
}
} else {
MAYBE_ADD_SPACE();
Buf_AddByte(buf, (Byte)*rp);
}
}
wp += pat->matches[0].rm_eo;
if (pat->flags & VAR_SUB_GLOBAL) {
flags |= REG_NOTBOL;
if (pat->matches[0].rm_so == 0 &&
pat->matches[0].rm_eo == 0) {
MAYBE_ADD_SPACE();
Buf_AddByte(buf, (Byte)*wp);
wp++;
}
if (*wp)
goto tryagain;
}
if (*wp) {
MAYBE_ADD_SPACE();
Buf_Append(buf, wp);
}
break;
default:
VarREError(xrv, &pat->re, "Unexpected regex error");
/* fall through */
case REG_NOMATCH:
if (*wp) {
MAYBE_ADD_SPACE();
Buf_Append(buf, wp);
}
break;
}
return (addSpace || added);
}
/**
* Find a variable in a variable list.
*/
static Var *
VarLookup(Lst *vlist, const char *name)
{
LstNode *ln;
LST_FOREACH(ln, vlist)
if (strcmp(((const Var *)Lst_Datum(ln))->name, name) == 0)
return (Lst_Datum(ln));
return (NULL);
}
/**
* Expand a variable name's embedded variables in the given context.
*
* Results:
* The contents of name, possibly expanded.
*/
static char *
VarPossiblyExpand(const char *name, GNode *ctxt)
{
Buffer *buf;
if (strchr(name, '$') != NULL) {
buf = Var_Subst(name, ctxt, 0);
return (Buf_Peel(buf));
} else {
return estrdup(name);
}
}
/**
* If the variable name begins with a '.', it could very well be
* one of the local ones. We check the name against all the local
* variables and substitute the short version in for 'name' if it
* matches one of them.
*/
static const char *
VarLocal(const char name[])
{
if (name[0] == '.') {
switch (name[1]) {
case 'A':
if (!strcmp(name, ".ALLSRC"))
return (ALLSRC);
if (!strcmp(name, ".ARCHIVE"))
return (ARCHIVE);
break;
case 'I':
if (!strcmp(name, ".IMPSRC"))
return (IMPSRC);
break;
case 'M':
if (!strcmp(name, ".MEMBER"))
return (MEMBER);
break;
case 'O':
if (!strcmp(name, ".OODATE"))
return (OODATE);
break;
case 'P':
if (!strcmp(name, ".PREFIX"))
return (PREFIX);
break;
case 'T':
if (!strcmp(name, ".TARGET"))
return (TARGET);
break;
default:
break;
}
}
return (name);
}
/**
* Find the given variable in the given context and the environment.
*
* Results:
* A pointer to the structure describing the desired variable or
* NULL if the variable does not exist.
*/
static Var *
VarFindEnv(const char name[], GNode *ctxt)
{
Var *var;
name = VarLocal(name);
if ((var = VarLookup(&ctxt->context, name)) != NULL)
return (var);
if ((var = VarLookup(&VAR_ENV->context, name)) != NULL)
return (var);
return (NULL);
}
/**
* Look for the variable in the given context.
*/
static Var *
VarFindOnly(const char name[], GNode *ctxt)
{
Var *var;
name = VarLocal(name);
if ((var = VarLookup(&ctxt->context, name)) != NULL)
return (var);
return (NULL);
}
/**
* Look for the variable in all contexts.
*/
static Var *
VarFindAny(const char name[], GNode *ctxt)
{
Boolean localCheckEnvFirst;
LstNode *ln;
Var *var;
name = VarLocal(name);
/*
* Note whether this is one of the specific variables we were told
* through the -E flag to use environment-variable-override for.
*/
localCheckEnvFirst = FALSE;
LST_FOREACH(ln, &envFirstVars) {
if (strcmp(Lst_Datum(ln), name) == 0) {
localCheckEnvFirst = TRUE;
break;
}
}
/*
* First look for the variable in the given context. If it's not there,
* look for it in VAR_CMD, VAR_GLOBAL and the environment,
* in that order, depending on the FIND_* flags in 'flags'
*/
if ((var = VarLookup(&ctxt->context, name)) != NULL)
return (var);
/* not there - try command line context */
if (ctxt != VAR_CMD) {
if ((var = VarLookup(&VAR_CMD->context, name)) != NULL)
return (var);
}
/* not there - try global context, but only if not -e/-E */
if (ctxt != VAR_GLOBAL && (!checkEnvFirst && !localCheckEnvFirst)) {
if ((var = VarLookup(&VAR_GLOBAL->context, name)) != NULL)
return (var);
}
if ((var = VarLookup(&VAR_ENV->context, name)) != NULL)
return (var);
/* deferred check for the environment (in case of -e/-E) */
if ((ctxt != VAR_GLOBAL) && (checkEnvFirst || localCheckEnvFirst)) {
if ((var = VarLookup(&VAR_GLOBAL->context, name)) != NULL)
return (var);
}
return (NULL);
}
/**
* Add a new variable of name name and value val to the given context.
*
* Side Effects:
* The new variable is placed at the front of the given context
* The name and val arguments are duplicated so they may
* safely be freed.
*/
static Var *
VarAdd(const char *name, const char *val, GNode *ctxt)
{
Var *v;
Lst_AtFront(&ctxt->context, v = VarCreate(name, val, 0));
DEBUGF(VAR, ("%s:%s = %s\n", ctxt->name, name, val));
return (v);
}
/**
* Remove a variable from a context.
*
* Side Effects:
* The Var structure is removed and freed.
*/
void
Var_Delete(const char *name, GNode *ctxt)
{
LstNode *ln;
DEBUGF(VAR, ("%s:delete %s\n", ctxt->name, name));
LST_FOREACH(ln, &ctxt->context) {
if (strcmp(((const Var *)Lst_Datum(ln))->name, name) == 0) {
VarDestroy(Lst_Datum(ln), TRUE);
Lst_Remove(&ctxt->context, ln);
break;
}
}
}
/**
* Set the variable name to the value val in the given context.
*
* Side Effects:
* If the variable doesn't yet exist, a new record is created for it.
* Else the old value is freed and the new one stuck in its place
*
* Notes:
* The variable is searched for only in its context before being
* created in that context. I.e. if the context is VAR_GLOBAL,
* only VAR_GLOBAL->context is searched. Likewise if it is VAR_CMD, only
* VAR_CMD->context is searched. This is done to avoid the literally
* thousands of unnecessary strcmp's that used to be done to
* set, say, $(@) or $(<).
*/
void
Var_Set(const char *name, const char *val, GNode *ctxt)
{
Var *v;
char *n;
/*
* We only look for a variable in the given context since anything
* set here will override anything in a lower context, so there's not
* much point in searching them all just to save a bit of memory...
*/
n = VarPossiblyExpand(name, ctxt);
v = VarFindOnly(n, ctxt);
if (v == NULL) {
v = VarAdd(n, val, ctxt);
} else {
Buf_Clear(v->val);
Buf_Append(v->val, val);
DEBUGF(VAR, ("%s:%s = %s\n", ctxt->name, n, val));
}
if (ctxt == VAR_CMD || (v->flags & VAR_TO_ENV)) {
/*
* Any variables given on the command line
* are automatically exported to the
* environment (as per POSIX standard)
*/
setenv(n, val, 1);
}
free(n);
}
/**
* Set the a global name variable to the value.
*/
void
Var_SetGlobal(const char name[], const char value[])
{
Var_Set(name, value, VAR_GLOBAL);
}
/**
* Set the VAR_TO_ENV flag on a variable
*/
void
Var_SetEnv(const char *name, GNode *ctxt)
{
Var *v;
v = VarFindOnly(name, VAR_CMD);
if (v != NULL) {
/*
* Do not allow .EXPORT: to be set on variables
* from the comand line or MAKEFLAGS.
*/
Error(
"Warning: Did not set .EXPORTVAR: on %s because it "
"is from the comand line or MAKEFLAGS", name);
return;
}
v = VarFindAny(name, ctxt);
if (v == NULL) {
Lst_AtFront(&VAR_ENV->context,
VarCreate(name, NULL, VAR_TO_ENV));
setenv(name, "", 1);
Error("Warning: .EXPORTVAR: set on undefined variable %s", name);
} else {
if ((v->flags & VAR_TO_ENV) == 0) {
v->flags |= VAR_TO_ENV;
setenv(v->name, Buf_Data(v->val), 1);
}
}
}
/**
* The variable of the given name has the given value appended to it in
* the given context.
*
* Side Effects:
* If the variable doesn't exist, it is created. Else the strings
* are concatenated (with a space in between).
*
* Notes:
* Only if the variable is being sought in the global context is the
* environment searched.
* XXX: Knows its calling circumstances in that if called with ctxt
* an actual target, it will only search that context since only
* a local variable could be being appended to. This is actually
* a big win and must be tolerated.
*/
void
Var_Append(const char *name, const char *val, GNode *ctxt)
{
Var *v;
char *n;
n = VarPossiblyExpand(name, ctxt);
if (ctxt == VAR_GLOBAL) {
v = VarFindEnv(n, ctxt);
} else {
v = VarFindOnly(n, ctxt);
}
if (v == NULL) {
VarAdd(n, val, ctxt);
} else {
Buf_AddByte(v->val, (Byte)' ');
Buf_Append(v->val, val);
DEBUGF(VAR, ("%s:%s = %s\n", ctxt->name, n, Buf_Data(v->val)));
}
free(n);
}
/**
* See if the given variable exists.
*
* Results:
* TRUE if it does, FALSE if it doesn't
*/
Boolean
Var_Exists(const char *name, GNode *ctxt)
{
Var *v;
char *n;
n = VarPossiblyExpand(name, ctxt);
v = VarFindAny(n, ctxt);
if (v == NULL) {
free(n);
return (FALSE);
} else {
free(n);
return (TRUE);
}
}
/**
* Return the value of the named variable in the given context
*
* Results:
* The value if the variable exists, NULL if it doesn't.
*/
const char *
Var_Value(const char name[], GNode *ctxt)
{
Var *v;
char *n;
n = VarPossiblyExpand(name, ctxt);
v = VarFindAny(n, ctxt);
free(n);
if (v == NULL) {
return (NULL);
} else {
return (Buf_Data(v->val));
}
}
/**
* Modify each of the words of the passed string using the given
* function. Used to implement all modifiers.
*
* Results:
* A string of all the words modified appropriately.
*
* Side Effects:
* Uses brk_string() so it invalidates any previous call to
* brk_string().
*/
static char *
VarModify(const char *str, VarModifyProc *modProc, void *datum)
{
ArgArray aa;
Buffer *buf; /* Buffer for the new string */
int i;
Boolean addSpace; /*
* TRUE if need to add a space to
* the buffer before adding the
* trimmed word
*/
brk_string(&aa, str, FALSE);
addSpace = FALSE;
buf = Buf_Init(0);
for (i = 1; i < aa.argc; i++)
addSpace = (*modProc)(aa.argv[i], addSpace, buf, datum);
ArgArray_Done(&aa);
return (Buf_Peel(buf));
}
/**
* Sort the words in the string.
*
* Input:
* str String whose words should be sorted
* cmp A comparison function to control the ordering
*
* Results:
* A string containing the words sorted
*/
static char *
VarSortWords(const char *str, int (*cmp)(const void *, const void *))
{
ArgArray aa;
Buffer *buf;
int i;
brk_string(&aa, str, FALSE);
qsort(aa.argv + 1, aa.argc - 1, sizeof(char *), cmp);
buf = Buf_Init(0);
for (i = 1; i < aa.argc; i++) {
Buf_Append(buf, aa.argv[i]);
Buf_AddByte(buf, (Byte)((i < aa.argc - 1) ? ' ' : '\0'));
}
ArgArray_Done(&aa);
return (Buf_Peel(buf));
}
static int
SortIncreasing(const void *l, const void *r)
{
return (strcmp(*(const char* const*)l, *(const char* const*)r));
}
/**
* Remove adjacent duplicate words.
*
* Results:
* A string containing the resulting words.
*/
static char *
VarUniq(const char *str)
{
ArgArray aa;
Buffer *buf; /* Buffer for new string */
int i, j;
buf = Buf_Init(0);
brk_string(&aa, str, FALSE);
if (aa.argc > 2) {
for (j = 1, i = 2; i < aa.argc; i++) {
if (strcmp(aa.argv[i], aa.argv[j]) != 0 && (++j != i))
aa.argv[j] = aa.argv[i];
}
aa.argc = j + 1;
}
for (i = 1; i < aa.argc; i++) {
Buf_AddBytes(buf, strlen(aa.argv[i]), (Byte *)aa.argv[i]);
if (i != aa.argc - 1)
Buf_AddByte(buf, ' ');
}
Buf_AddByte(buf, '\0');
ArgArray_Done(&aa);
return (Buf_Peel(buf));
}
/**
* Pass through the tstr looking for 1) escaped delimiters,
* '$'s and backslashes (place the escaped character in
* uninterpreted) and 2) unescaped $'s that aren't before
* the delimiter (expand the variable substitution).
* Return the expanded string or NULL if the delimiter was missing
* If pattern is specified, handle escaped ampersands, and replace
* unescaped ampersands with the lhs of the pattern.
*
* Results:
* A string of all the words modified appropriately.
* If length is specified, return the string length of the buffer
* If flags is specified and the last character of the pattern is a
* $ set the VAR_MATCH_END bit of flags.
*/
static Buffer *
VarGetPattern(VarParser *vp, int delim, int *flags, VarPattern *patt)
{
Buffer *buf;
buf = Buf_Init(0);
/*
* Skim through until the matching delimiter is found; pick up
* variable substitutions on the way. Also allow backslashes to quote
* the delimiter, $, and \, but don't touch other backslashes.
*/
while (*vp->ptr != '\0') {
if (*vp->ptr == delim) {
return (buf);
} else if ((vp->ptr[0] == '\\') &&
((vp->ptr[1] == delim) ||
(vp->ptr[1] == '\\') ||
(vp->ptr[1] == '$') ||
(vp->ptr[1] == '&' && patt != NULL))) {
vp->ptr++; /* consume backslash */
Buf_AddByte(buf, (Byte)vp->ptr[0]);
vp->ptr++;
} else if (vp->ptr[0] == '$') {
if (vp->ptr[1] == delim) {
if (flags == NULL) {
Buf_AddByte(buf, (Byte)vp->ptr[0]);
vp->ptr++;
} else {
/*
* Unescaped $ at end of patt =>
* anchor patt at end.
*/
*flags |= VAR_MATCH_END;
vp->ptr++;
}
} else {
VarParser subvp = {
vp->ptr,
vp->ptr,
vp->ctxt,
vp->err,
vp->execute
};
char *rval;
Boolean rfree;
/*
* If unescaped dollar sign not
* before the delimiter, assume it's
* a variable substitution and
* recurse.
*/
rval = VarParse(&subvp, &rfree);
Buf_Append(buf, rval);
if (rfree)
free(rval);
vp->ptr = subvp.ptr;
}
} else if (vp->ptr[0] == '&' && patt != NULL) {
Buf_AppendBuf(buf, patt->lhs);
vp->ptr++;
} else {
Buf_AddByte(buf, (Byte)vp->ptr[0]);
vp->ptr++;
}
}
Buf_Destroy(buf, TRUE);
return (NULL);
}
/**
* Make sure this variable is fully expanded.
*/
static char *
VarExpand(Var *v, VarParser *vp)
{
char *value;
char *result;
if (v->flags & VAR_IN_USE) {
Fatal("Variable %s is recursive.", v->name);
/* NOTREACHED */
}
v->flags |= VAR_IN_USE;
/*
* Before doing any modification, we have to make sure the
* value has been fully expanded. If it looks like recursion
* might be necessary (there's a dollar sign somewhere in the
* variable's value) we just call Var_Subst to do any other
* substitutions that are necessary. Note that the value
* returned by Var_Subst will have been
* dynamically-allocated, so it will need freeing when we
* return.
*/
value = Buf_Data(v->val);
if (strchr(value, '$') == NULL) {
result = strdup(value);
} else {
Buffer *buf;
buf = Var_Subst(value, vp->ctxt, vp->err);
result = Buf_Peel(buf);
}
v->flags &= ~VAR_IN_USE;
return (result);
}
/**
* Select only those words in value that match the modifier.
*/
static char *
modifier_M(VarParser *vp, const char value[], char endc)
{
char *patt;
char *ptr;
char *newValue;
char modifier;
modifier = vp->ptr[0];
vp->ptr++; /* consume 'M' or 'N' */
/*
* Compress the \:'s out of the pattern, so allocate enough
* room to hold the uncompressed pattern and compress the
* pattern into that space.
*/
patt = estrdup(vp->ptr);
ptr = patt;
while (vp->ptr[0] != '\0') {
if (vp->ptr[0] == endc || vp->ptr[0] == ':') {
break;
}
if (vp->ptr[0] == '\\' &&
(vp->ptr[1] == endc || vp->ptr[1] == ':')) {
vp->ptr++; /* consume backslash */
}
*ptr = vp->ptr[0];
ptr++;
vp->ptr++;
}
*ptr = '\0';
if (modifier == 'M') {
newValue = VarModify(value, VarMatch, patt);
} else {
newValue = VarModify(value, VarNoMatch, patt);
}
free(patt);
return (newValue);
}
/**
* Substitute the replacement string for the pattern. The substitution
* is applied to each word in value.
*/
static char *
modifier_S(VarParser *vp, const char value[], Var *v)
{
VarPattern patt;
char delim;
char *newValue;
patt.flags = 0;
vp->ptr++; /* consume 'S' */
delim = *vp->ptr; /* used to find end of pattern */
vp->ptr++; /* consume 1st delim */
/*
* If pattern begins with '^', it is anchored to the start of the
* word -- skip over it and flag pattern.
*/
if (*vp->ptr == '^') {
patt.flags |= VAR_MATCH_START;
vp->ptr++;
}
patt.lhs = VarGetPattern(vp, delim, &patt.flags, NULL);
if (patt.lhs == NULL) {
/*
* LHS didn't end with the delim, complain and exit.
*/
Fatal("Unclosed substitution for %s (%c missing)",
v->name, delim);
}
vp->ptr++; /* consume 2nd delim */
patt.rhs = VarGetPattern(vp, delim, NULL, &patt);
if (patt.rhs == NULL) {
/*
* RHS didn't end with the delim, complain and exit.
*/
Fatal("Unclosed substitution for %s (%c missing)",
v->name, delim);
}
vp->ptr++; /* consume last delim */
/*
* Check for global substitution. If 'g' after the final delimiter,
* substitution is global and is marked that way.
*/
if (vp->ptr[0] == 'g') {
patt.flags |= VAR_SUB_GLOBAL;
vp->ptr++;
}
/*
* Global substitution of the empty string causes an infinite number
* of matches, unless anchored by '^' (start of string) or '$' (end
* of string). Catch the infinite substitution here. Note that flags
* can only contain the 3 bits we're interested in so we don't have
* to mask unrelated bits. We can test for equality.
*/
if (Buf_Size(patt.lhs) == 0 && patt.flags == VAR_SUB_GLOBAL)
Fatal("Global substitution of the empty string");
newValue = VarModify(value, VarSubstitute, &patt);
/*
* Free the two strings.
*/
free(patt.lhs);
free(patt.rhs);
return (newValue);
}
static char *
modifier_C(VarParser *vp, char value[], Var *v)
{
VarPattern patt;
char delim;
int error;
char *newValue;
patt.flags = 0;
vp->ptr++; /* consume 'C' */
delim = *vp->ptr; /* delimiter between sections */
vp->ptr++; /* consume 1st delim */
patt.lhs = VarGetPattern(vp, delim, NULL, NULL);
if (patt.lhs == NULL) {
Fatal("Unclosed substitution for %s (%c missing)",
v->name, delim);
}
vp->ptr++; /* consume 2st delim */
patt.rhs = VarGetPattern(vp, delim, NULL, NULL);
if (patt.rhs == NULL) {
Fatal("Unclosed substitution for %s (%c missing)",
v->name, delim);
}
vp->ptr++; /* consume last delim */
switch (*vp->ptr) {
case 'g':
patt.flags |= VAR_SUB_GLOBAL;
vp->ptr++; /* consume 'g' */
break;
case '1':
patt.flags |= VAR_SUB_ONE;
vp->ptr++; /* consume '1' */
break;
default:
break;
}
error = regcomp(&patt.re, Buf_Data(patt.lhs), REG_EXTENDED);
if (error) {
VarREError(error, &patt.re, "RE substitution error");
free(patt.rhs);
free(patt.lhs);
return (var_Error);
}
patt.nsub = patt.re.re_nsub + 1;
if (patt.nsub < 1)
patt.nsub = 1;
if (patt.nsub > 10)
patt.nsub = 10;
patt.matches = emalloc(patt.nsub * sizeof(regmatch_t));
newValue = VarModify(value, VarRESubstitute, &patt);
regfree(&patt.re);
free(patt.matches);
free(patt.rhs);
free(patt.lhs);
return (newValue);
}
static char *
sysVvarsub(VarParser *vp, char startc, Var *v, const char value[])
{
#ifdef SYSVVARSUB
/*
* This can either be a bogus modifier or a System-V substitution
* command.
*/
char endc;
VarPattern patt;
Boolean eqFound;
int cnt;
char *newStr;
const char *cp;
endc = (startc == OPEN_PAREN) ? CLOSE_PAREN : CLOSE_BRACE;
patt.flags = 0;
/*
* First we make a pass through the string trying to verify it is a
* SYSV-make-style translation: it must be: <string1>=<string2>)
*/
eqFound = FALSE;
cp = vp->ptr;
cnt = 1;
while (*cp != '\0' && cnt) {
if (*cp == '=') {
eqFound = TRUE;
/* continue looking for endc */
} else if (*cp == endc)
cnt--;
else if (*cp == startc)
cnt++;
if (cnt)
cp++;
}
if (*cp == endc && eqFound) {
/*
* Now we break this sucker into the lhs and rhs.
*/
patt.lhs = VarGetPattern(vp, '=', &patt.flags, NULL);
if (patt.lhs == NULL) {
Fatal("Unclosed substitution for %s (%c missing)",
v->name, '=');
}
vp->ptr++; /* consume '=' */
patt.rhs = VarGetPattern(vp, endc, NULL, &patt);
if (patt.rhs == NULL) {
Fatal("Unclosed substitution for %s (%c missing)",
v->name, endc);
}
/*
* SYSV modifications happen through the whole string. Note
* the pattern is anchored at the end.
*/
newStr = VarModify(value, VarSYSVMatch, &patt);
free(patt.lhs);
free(patt.rhs);
} else
#endif
{
Error("Unknown modifier '%c'\n", *vp->ptr);
vp->ptr++;
while (*vp->ptr != '\0') {
if (*vp->ptr == endc && *vp->ptr == ':') {
break;
}
vp->ptr++;
}
newStr = var_Error;
}
return (newStr);
}
/**
* Quote shell meta-characters in the string
*
* Results:
* The quoted string
*/
static char *
Var_Quote(const char *str)
{
Buffer *buf;
/* This should cover most shells :-( */
static char meta[] = "\n \t'`\";&<>()|*?{}[]\\$!#^~";
buf = Buf_Init(MAKE_BSIZE);
for (; *str; str++) {
if (strchr(meta, *str) != NULL)
Buf_AddByte(buf, (Byte)'\\');
Buf_AddByte(buf, (Byte)*str);
}
return (Buf_Peel(buf));
}
/*
* Now we need to apply any modifiers the user wants applied.
* These are:
* :M<pattern>
* words which match the given <pattern>.
* <pattern> is of the standard file
* wildcarding form.
* :N<pattern>
* words which do not match the given <pattern>
* <pattern> is of the standard file
* wildcarding form.
* :S<d><pat1><d><pat2><d>[g]
* Substitute <pat2> for <pat1> in the value
* :C<d><pat1><d><pat2><d>[g]
* Substitute <pat2> for regex <pat1> in the value
* :H Substitute the head of each word
* :T Substitute the tail of each word
* :E Substitute the extension (minus '.') of
* each word
* :R Substitute the root of each word
* (pathname minus the suffix).
* :lhs=rhs
* Like :S, but the rhs goes to the end of
* the invocation.
* :U Converts variable to upper-case.
* :L Converts variable to lower-case.
* :O ("Order") Alphabeticaly sort words in variable.
* :u ("uniq") Remove adjacent duplicate words.
*/
static char *
ParseModifier(VarParser *vp, char startc, Var *v, Boolean *freeResult)
{
char *value;
char endc;
value = VarExpand(v, vp);
*freeResult = TRUE;
endc = (startc == OPEN_PAREN) ? CLOSE_PAREN : CLOSE_BRACE;
vp->ptr++; /* consume first colon */
while (*vp->ptr != '\0') {
char *newStr; /* New value to return */
if (*vp->ptr == endc) {
return (value);
}
DEBUGF(VAR, ("Applying :%c to \"%s\"\n", *vp->ptr, value));
switch (*vp->ptr) {
case 'N':
case 'M':
newStr = modifier_M(vp, value, endc);
break;
case 'S':
newStr = modifier_S(vp, value, v);
break;
case 'C':
newStr = modifier_C(vp, value, v);
break;
default:
if (vp->ptr[1] != endc && vp->ptr[1] != ':') {
#ifdef SUNSHCMD
if ((vp->ptr[0] == 's') &&
(vp->ptr[1] == 'h') &&
(vp->ptr[2] == endc || vp->ptr[2] == ':')) {
const char *error;
if (vp->execute) {
newStr = Buf_Peel(
Cmd_Exec(value, &error));
} else {
newStr = estrdup("");
}
if (error)
Error(error, value);
vp->ptr += 2;
} else
#endif
{
newStr = sysVvarsub(vp, startc, v, value);
}
break;
}
switch (vp->ptr[0]) {
case 'L':
{
const char *cp;
Buffer *buf;
buf = Buf_Init(MAKE_BSIZE);
for (cp = value; *cp; cp++)
Buf_AddByte(buf, (Byte)tolower(*cp));
newStr = Buf_Peel(buf);
vp->ptr++;
break;
}
case 'O':
newStr = VarSortWords(value, SortIncreasing);
vp->ptr++;
break;
case 'Q':
newStr = Var_Quote(value);
vp->ptr++;
break;
case 'T':
newStr = VarModify(value, VarTail, NULL);
vp->ptr++;
break;
case 'U':
{
const char *cp;
Buffer *buf;
buf = Buf_Init(MAKE_BSIZE);
for (cp = value; *cp; cp++)
Buf_AddByte(buf, (Byte)toupper(*cp));
newStr = Buf_Peel(buf);
vp->ptr++;
break;
}
case 'H':
newStr = VarModify(value, VarHead, NULL);
vp->ptr++;
break;
case 'E':
newStr = VarModify(value, VarSuffix, NULL);
vp->ptr++;
break;
case 'R':
newStr = VarModify(value, VarRoot, NULL);
vp->ptr++;
break;
case 'u':
newStr = VarUniq(value);
vp->ptr++;
break;
default:
newStr = sysVvarsub(vp, startc, v, value);
break;
}
break;
}
DEBUGF(VAR, ("Result is \"%s\"\n", newStr));
if (*freeResult) {
free(value);
}
value = newStr;
*freeResult = (value == var_Error) ? FALSE : TRUE;
if (vp->ptr[0] == ':') {
vp->ptr++; /* consume colon */
}
}
return (value);
}
static char *
ParseRestModifier(VarParser *vp, char startc, Buffer *buf, Boolean *freeResult)
{
const char *vname;
size_t vlen;
Var *v;
char *value;
vname = Buf_GetAll(buf, &vlen);
v = VarFindAny(vname, vp->ctxt);
if (v != NULL) {
value = ParseModifier(vp, startc, v, freeResult);
return (value);
}
if ((vp->ctxt == VAR_CMD) || (vp->ctxt == VAR_GLOBAL)) {
size_t consumed;
/*
* Still need to get to the end of the variable
* specification, so kludge up a Var structure for the
* modifications
*/
v = VarCreate(vname, NULL, VAR_JUNK);
value = ParseModifier(vp, startc, v, freeResult);
if (*freeResult) {
free(value);
}
VarDestroy(v, TRUE);
consumed = vp->ptr - vp->input + 1;
/*
* If substituting a local variable in a non-local context,
* assume it's for dynamic source stuff. We have to handle
* this specially and return the longhand for the variable
* with the dollar sign escaped so it makes it back to the
* caller. Only four of the local variables are treated
* specially as they are the only four that will be set when
* dynamic sources are expanded.
*/
if (vlen == 1 ||
(vlen == 2 && (vname[1] == 'F' || vname[1] == 'D'))) {
if (strchr("!%*@", vname[0]) != NULL) {
value = emalloc(consumed + 1);
strncpy(value, vp->input, consumed);
value[consumed] = '\0';
*freeResult = TRUE;
return (value);
}
}
if (vlen > 2 &&
vname[0] == '.' &&
isupper((unsigned char)vname[1])) {
if ((strncmp(vname, ".TARGET", vlen - 1) == 0) ||
(strncmp(vname, ".ARCHIVE", vlen - 1) == 0) ||
(strncmp(vname, ".PREFIX", vlen - 1) == 0) ||
(strncmp(vname, ".MEMBER", vlen - 1) == 0)) {
value = emalloc(consumed + 1);
strncpy(value, vp->input, consumed);
value[consumed] = '\0';
*freeResult = TRUE;
return (value);
}
}
*freeResult = FALSE;
return (vp->err ? var_Error : varNoError);
} else {
/*
* Check for D and F forms of local variables since we're in
* a local context and the name is the right length.
*/
if (vlen == 2 &&
(vname[1] == 'F' || vname[1] == 'D') &&
(strchr("!%*<>@", vname[0]) != NULL)) {
char name[2];
name[0] = vname[0];
name[1] = '\0';
v = VarFindOnly(name, vp->ctxt);
if (v != NULL) {
value = ParseModifier(vp, startc, v, freeResult);
return (value);
}
}
/*
* Still need to get to the end of the variable
* specification, so kludge up a Var structure for the
* modifications
*/
v = VarCreate(vname, NULL, VAR_JUNK);
value = ParseModifier(vp, startc, v, freeResult);
if (*freeResult) {
free(value);
}
VarDestroy(v, TRUE);
*freeResult = FALSE;
return (vp->err ? var_Error : varNoError);
}
}
static char *
ParseRestEnd(VarParser *vp, Buffer *buf, Boolean *freeResult)
{
const char *vname;
size_t vlen;
Var *v;
char *value;
vname = Buf_GetAll(buf, &vlen);
v = VarFindAny(vname, vp->ctxt);
if (v != NULL) {
value = VarExpand(v, vp);
*freeResult = TRUE;
return (value);
}
if ((vp->ctxt == VAR_CMD) || (vp->ctxt == VAR_GLOBAL)) {
size_t consumed = vp->ptr - vp->input + 1;
/*
* If substituting a local variable in a non-local context,
* assume it's for dynamic source stuff. We have to handle
* this specially and return the longhand for the variable
* with the dollar sign escaped so it makes it back to the
* caller. Only four of the local variables are treated
* specially as they are the only four that will be set when
* dynamic sources are expanded.
*/
if (vlen == 1 ||
(vlen == 2 && (vname[1] == 'F' || vname[1] == 'D'))) {
if (strchr("!%*@", vname[0]) != NULL) {
value = emalloc(consumed + 1);
strncpy(value, vp->input, consumed);
value[consumed] = '\0';
*freeResult = TRUE;
return (value);
}
}
if (vlen > 2 &&
vname[0] == '.' &&
isupper((unsigned char)vname[1])) {
if ((strncmp(vname, ".TARGET", vlen - 1) == 0) ||
(strncmp(vname, ".ARCHIVE", vlen - 1) == 0) ||
(strncmp(vname, ".PREFIX", vlen - 1) == 0) ||
(strncmp(vname, ".MEMBER", vlen - 1) == 0)) {
value = emalloc(consumed + 1);
strncpy(value, vp->input, consumed);
value[consumed] = '\0';
*freeResult = TRUE;
return (value);
}
}
} else {
/*
* Check for D and F forms of local variables since we're in
* a local context and the name is the right length.
*/
if (vlen == 2 &&
(vname[1] == 'F' || vname[1] == 'D') &&
(strchr("!%*<>@", vname[0]) != NULL)) {
char name[2];
name[0] = vname[0];
name[1] = '\0';
v = VarFindOnly(name, vp->ctxt);
if (v != NULL) {
char *val;
/*
* No need for nested expansion or anything,
* as we're the only one who sets these
* things and we sure don't put nested
* invocations in them...
*/
val = Buf_Data(v->val);
if (vname[1] == 'D') {
val = VarModify(val, VarHead, NULL);
} else {
val = VarModify(val, VarTail, NULL);
}
*freeResult = TRUE;
return (val);
}
}
}
*freeResult = FALSE;
return (vp->err ? var_Error : varNoError);
}
/**
* Parse a multi letter variable name, and return it's value.
*/
static char *
VarParseLong(VarParser *vp, Boolean *freeResult)
{
Buffer *buf;
char startc;
char endc;
char *value;
buf = Buf_Init(MAKE_BSIZE);
startc = vp->ptr[0];
vp->ptr++; /* consume opening paren or brace */
endc = (startc == OPEN_PAREN) ? CLOSE_PAREN : CLOSE_BRACE;
/*
* Process characters until we reach an end character or a colon,
* replacing embedded variables as we go.
*/
while (*vp->ptr != '\0') {
if (*vp->ptr == endc) {
value = ParseRestEnd(vp, buf, freeResult);
vp->ptr++; /* consume closing paren or brace */
Buf_Destroy(buf, TRUE);
return (value);
} else if (*vp->ptr == ':') {
value = ParseRestModifier(vp, startc, buf, freeResult);
vp->ptr++; /* consume closing paren or brace */
Buf_Destroy(buf, TRUE);
return (value);
} else if (*vp->ptr == '$') {
VarParser subvp = {
vp->ptr,
vp->ptr,
vp->ctxt,
vp->err,
vp->execute
};
char *rval;
Boolean rfree;
rval = VarParse(&subvp, &rfree);
if (rval == var_Error) {
Fatal("Error expanding embedded variable.");
}
Buf_Append(buf, rval);
if (rfree)
free(rval);
vp->ptr = subvp.ptr;
} else {
Buf_AddByte(buf, (Byte)*vp->ptr);
vp->ptr++;
}
}
/* If we did not find the end character, return var_Error */
Buf_Destroy(buf, TRUE);
*freeResult = FALSE;
return (var_Error);
}
/**
* Parse a single letter variable name, and return it's value.
*/
static char *
VarParseShort(VarParser *vp, Boolean *freeResult)
{
char vname[2];
Var *v;
char *value;
vname[0] = vp->ptr[0];
vname[1] = '\0';
vp->ptr++; /* consume single letter */
v = VarFindAny(vname, vp->ctxt);
if (v != NULL) {
value = VarExpand(v, vp);
*freeResult = TRUE;
return (value);
}
/*
* If substituting a local variable in a non-local context, assume
* it's for dynamic source stuff. We have to handle this specially
* and return the longhand for the variable with the dollar sign
* escaped so it makes it back to the caller. Only four of the local
* variables are treated specially as they are the only four that
* will be set when dynamic sources are expanded.
*/
if ((vp->ctxt == VAR_CMD) || (vp->ctxt == VAR_GLOBAL)) {
/* XXX: It looks like $% and $! are reversed here */
switch (vname[0]) {
case '@':
*freeResult = TRUE;
return (estrdup("$(.TARGET)"));
case '%':
*freeResult = TRUE;
return (estrdup("$(.ARCHIVE)"));
case '*':
*freeResult = TRUE;
return (estrdup("$(.PREFIX)"));
case '!':
*freeResult = TRUE;
return (estrdup("$(.MEMBER)"));
default:
*freeResult = FALSE;
return (vp->err ? var_Error : varNoError);
}
}
/* Variable name was not found. */
*freeResult = FALSE;
return (vp->err ? var_Error : varNoError);
}
static char *
VarParse(VarParser *vp, Boolean *freeResult)
{
vp->ptr++; /* consume '$' or last letter of conditional */
if (vp->ptr[0] == '\0') {
/* Error, there is only a dollar sign in the input string. */
*freeResult = FALSE;
return (vp->err ? var_Error : varNoError);
} else if (vp->ptr[0] == OPEN_PAREN || vp->ptr[0] == OPEN_BRACE) {
/* multi letter variable name */
return (VarParseLong(vp, freeResult));
} else {
/* single letter variable name */
return (VarParseShort(vp, freeResult));
}
}
/**
* Given the start of a variable invocation, extract the variable
* name and find its value, then modify it according to the
* specification.
*
* Results:
* The value of the variable or var_Error if the specification
* is invalid. The number of characters in the specification
* is placed in the variable pointed to by consumed. (for
* invalid specifications, this is just 2 to skip the '$' and
* the following letter, or 1 if '$' was the last character
* in the string). A Boolean in *freeResult telling whether the
* returned string should be freed by the caller.
*/
char *
Var_Parse(const char input[], GNode *ctxt, Boolean err,
size_t *consumed, Boolean *freeResult)
{
VarParser vp = {
input,
input,
ctxt,
err,
TRUE
};
char *value;
value = VarParse(&vp, freeResult);
*consumed += vp.ptr - vp.input;
return (value);
}
/*
* Given the start of a variable invocation, determine the length
* of the specification.
*
* Results:
* The number of characters in the specification. For invalid
* specifications, this is just 2 to skip the '$' and the
* following letter, or 1 if '$' was the last character in the
* string.
*/
size_t
Var_Match(const char input[], GNode *ctxt)
{
VarParser vp = {
input,
input,
ctxt,
FALSE,
FALSE
};
char *value;
Boolean freeResult;
value = VarParse(&vp, &freeResult);
if (freeResult) {
free(value);
}
return (vp.ptr - vp.input);
}
static int
match_var(const char str[], const char var[])
{
const char *start = str;
size_t len;
str++; /* consume '$' */
if (str[0] == OPEN_PAREN || str[0] == OPEN_BRACE) {
str++; /* consume opening paren or brace */
while (str[0] != '\0') {
if (str[0] == '$') {
/*
* A variable inside the variable. We cannot
* expand the external variable yet.
*/
return (str - start);
} else if (str[0] == ':' ||
str[0] == CLOSE_PAREN ||
str[0] == CLOSE_BRACE) {
len = str - (start + 2);
if (strncmp(var, start + 2, len) == 0 && var[len] == '\0') {
return (0); /* match */
} else {
/*
* Not the variable we want to
* expand.
*/
return (str - start);
}
} else {
++str;
}
}
return (str - start);
} else {
/* Single letter variable name */
if (var[1] == '\0' && var[0] == str[0]) {
return (0); /* match */
} else {
str++; /* consume variable name */
return (str - start);
}
}
}
/**
* Substitute for all variables in the given string in the given
* context If err is TRUE, Parse_Error will be called when an
* undefined variable is encountered.
*
* Results:
* The resulting string.
*
* Side Effects:
* None. The old string must be freed by the caller
*/
Buffer *
Var_Subst(const char *str, GNode *ctxt, Boolean err)
{
Boolean errorReported;
Buffer *buf; /* Buffer for forming things */
/*
* Set TRUE if an error has already been reported to prevent a
* plethora of messages when recursing. XXXHB this comment sounds
* wrong.
*/
errorReported = FALSE;
buf = Buf_Init(0);
while (str[0] != '\0') {
if ((str[0] == '$') && (str[1] == '$')) {
/*
* A dollar sign may be escaped with another dollar
* sign. In such a case, we skip over the escape
* character and store the dollar sign into the
* buffer directly.
*/
str++;
Buf_AddByte(buf, (Byte)str[0]);
str++;
} else if (str[0] == '$') {
/* Variable invocation. */
VarParser subvp = {
str,
str,
ctxt,
err,
TRUE
};
char *rval;
Boolean rfree;
rval = VarParse(&subvp, &rfree);
/*
* When we come down here, val should either point to
* the value of this variable, suitably modified, or
* be NULL. Length should be the total length of the
* potential variable invocation (from $ to end
* character...)
*/
if (rval == var_Error || rval == varNoError) {
/*
* If performing old-time variable
* substitution, skip over the variable and
* continue with the substitution. Otherwise,
* store the dollar sign and advance str so
* we continue with the string...
*/
if (oldVars) {
str = subvp.ptr;
} else if (err) {
/*
* If variable is undefined, complain
* and skip the variable. The
* complaint will stop us from doing
* anything when the file is parsed.
*/
if (!errorReported) {
Parse_Error(PARSE_FATAL,
"Undefined variable \"%.*s\"", subvp.ptr - subvp.input, str);
}
errorReported = TRUE;
str = subvp.ptr;
} else {
Buf_AddByte(buf, (Byte)str[0]);
str++;
}
} else {
/*
* Copy all the characters from the variable
* value straight into the new string.
*/
Buf_Append(buf, rval);
if (rfree) {
free(rval);
}
str = subvp.ptr;
}
} else {
Buf_AddByte(buf, (Byte)str[0]);
str++;
}
}
return (buf);
}
/**
* Substitute for all variables except if it is the same as 'var',
* in the given string in the given context. If err is TRUE,
* Parse_Error will be called when an undefined variable is
* encountered.
*
* Results:
* The resulting string.
*
* Side Effects:
* None. The old string must be freed by the caller
*/
Buffer *
Var_SubstOnly(const char *var, const char *str, Boolean err)
{
GNode *ctxt = VAR_GLOBAL;
Boolean errorReported;
Buffer *buf; /* Buffer for forming things */
/*
* Set TRUE if an error has already been reported to prevent a
* plethora of messages when recursing. XXXHB this comment sounds
* wrong.
*/
errorReported = FALSE;
buf = Buf_Init(0);
while (str[0] != '\0') {
if (str[0] == '$') {
int skip;
skip = match_var(str, var);
if (skip > 0) {
Buf_AddBytes(buf, skip, str);
str += skip;
} else {
/* Variable invocation. */
VarParser subvp = {
str,
str,
ctxt,
err,
TRUE
};
char *rval;
Boolean rfree;
rval = VarParse(&subvp, &rfree);
/*
* When we get down here, rval should either
* point to the value of this variable, or be
* NULL.
*/
if (rval == var_Error || rval == varNoError) {
/*
* If performing old-time variable
* substitution, skip over the
* variable and continue with the
* substitution. Otherwise, store the
* dollar sign and advance str so we
* continue with the string...
*/
if (oldVars) {
str = subvp.ptr;
} else if (err) {
/*
* If variable is undefined,
* complain and skip the
* variable. The complaint
* will stop us from doing
* anything when the file is
* parsed.
*/
if (!errorReported) {
Parse_Error(PARSE_FATAL,
"Undefined variable \"%.*s\"", subvp.ptr - subvp.input, str);
}
errorReported = TRUE;
str = subvp.ptr;
} else {
Buf_AddByte(buf, (Byte)str[0]);
str++;
}
} else {
/*
* Copy all the characters from the
* variable value straight into the
* new string.
*/
Buf_Append(buf, rval);
if (rfree) {
free(rval);
}
str = subvp.ptr;
}
}
} else {
Buf_AddByte(buf, (Byte)str[0]);
str++;
}
}
return (buf);
}
/**
* Initialize the module
*
* Side Effects:
* The VAR_CMD and VAR_GLOBAL contexts are created
*/
void
Var_Init(char **env)
{
char **ptr;
VAR_CMD = Targ_NewGN("Command");
VAR_ENV = Targ_NewGN("Environment");
VAR_GLOBAL = Targ_NewGN("Global");
/*
* Copy user environment variables into ENV context.
*/
for (ptr = env; *ptr != NULL; ++ptr) {
char *tmp = estrdup(*ptr);
const char *name = tmp;
char *sep = strchr(name, '=');
const char *value = sep + 1;
if (sep != NULL) {
*sep = '\0';
VarAdd(name, value, VAR_ENV);
}
free(tmp);
}
}
/**
* Print all variables in global and command line contexts.
*/
void
Var_Dump(void)
{
const LstNode *ln;
const Var *v;
printf("#*** Global Variables:\n");
LST_FOREACH(ln, &VAR_GLOBAL->context) {
v = Lst_Datum(ln);
printf("%-16s = %s\n", v->name, Buf_Data(v->val));
}
printf("#*** Command-line Variables:\n");
LST_FOREACH(ln, &VAR_CMD->context) {
v = Lst_Datum(ln);
printf("%-16s = %s\n", v->name, Buf_Data(v->val));
}
}
/**
* Print the values of any variables requested by
* the user.
*/
void
Var_Print(Lst *vlist, Boolean expandVars)
{
LstNode *n;
const char *name;
LST_FOREACH(n, vlist) {
name = Lst_Datum(n);
if (expandVars) {
char *value;
char *v;
v = emalloc(strlen(name) + 1 + 3);
sprintf(v, "${%s}", name);
value = Buf_Peel(Var_Subst(v, VAR_GLOBAL, FALSE));
printf("%s\n", value);
free(v);
free(value);
} else {
const char *value = Var_Value(name, VAR_GLOBAL);
printf("%s\n", value != NULL ? value : "");
}
}
}