dect
/
asterisk
Archived
13
0
Fork 0
Code Releases Activity
This repository has been archived on 2022-02-17. You can view files and clone it, but cannot push or open issues or pull requests.
asterisk/res/ael/pval.c

5853 lines
164 KiB
C
Raw Blame History

/*
* Asterisk -- An open source telephony toolkit.
*
* Copyright (C) 2006, Digium, Inc.
*
* Steve Murphy <murf@parsetree.com>
*
* See http://www.asterisk.org for more information about
* the Asterisk project. Please do not directly contact
* any of the maintainers of this project for assistance;
* the project provides a web site, mailing lists and IRC
* channels for your use.
*
* This program is free software, distributed under the terms of
* the GNU General Public License Version 2. See the LICENSE file
* at the top of the source tree.
*/
/*! \file
*
* \brief Compile symbolic Asterisk Extension Logic into Asterisk extensions, version 2.
*
*/
#include "asterisk.h"
ASTERISK_FILE_VERSION(__FILE__, "$Revision$")
#include <sys/types.h>
#include <stdlib.h>
#include <unistd.h>
#include <stdio.h>
#include <string.h>
#include <ctype.h>
#include <errno.h>
#include <regex.h>
#include <sys/stat.h>
#include "asterisk/pbx.h"
#include "asterisk/config.h"
#include "asterisk/module.h"
#include "asterisk/logger.h"
#include "asterisk/cli.h"
#include "asterisk/app.h"
#include "asterisk/channel.h"
#include "asterisk/callerid.h"
#include "asterisk/pval.h"
#include "asterisk/ael_structs.h"
#ifdef AAL_ARGCHECK
#include "asterisk/argdesc.h"
#endif
#include "asterisk/utils.h"
extern struct ast_flags ast_compat;
extern int localized_pbx_load_module(void);
static char expr_output[2096];
#define AST_PBX_MAX_STACK 128
#define BUF_SIZE 2000
/* these functions are in ../ast_expr2.fl */
static int errs, warns;
static int notes;
#ifdef STANDALONE
static int extensions_dot_conf_loaded = 0;
#endif
static char *registrar = "pbx_ael";
static pval *current_db;
static pval *current_context;
static pval *current_extension;
static const char *match_context;
static const char *match_exten;
static const char *match_label;
static int in_abstract_context;
static int count_labels; /* true, put matcher in label counting mode */
static int label_count; /* labels are only meant to be counted in a context or exten */
static int return_on_context_match;
static pval *last_matched_label;
struct pval *match_pval(pval *item);
static void check_timerange(pval *p);
static void check_dow(pval *DOW);
static void check_day(pval *DAY);
static void check_month(pval *MON);
static void check_expr2_input(pval *expr, char *str);
static int extension_matches(pval *here, const char *exten, const char *pattern);
static void check_goto(pval *item);
static void find_pval_goto_item(pval *item, int lev);
static void find_pval_gotos(pval *item, int lev);
static int check_break(pval *item);
static int check_continue(pval *item);
static void check_label(pval *item);
static void check_macro_returns(pval *macro);
static struct pval *find_label_in_current_context(char *exten, char *label, pval *curr_cont);
static struct pval *find_first_label_in_current_context(char *label, pval *curr_cont);
static void print_pval_list(FILE *fin, pval *item, int depth);
static struct pval *find_label_in_current_extension(const char *label, pval *curr_ext);
static struct pval *find_label_in_current_db(const char *context, const char *exten, const char *label);
static pval *get_goto_target(pval *item);
static int label_inside_case(pval *label);
static void attach_exten(struct ael_extension **list, struct ael_extension *newmem);
static void fix_gotos_in_extensions(struct ael_extension *exten);
static pval *get_extension_or_contxt(pval *p);
static pval *get_contxt(pval *p);
static void remove_spaces_before_equals(char *str);
/* PRETTY PRINTER FOR AEL: ============================================================================= */
static void print_pval(FILE *fin, pval *item, int depth)
{
int i;
pval *lp;
for (i=0; i<depth; i++) {
fprintf(fin, "\t"); /* depth == indentation */
}
switch ( item->type ) {
case PV_WORD:
fprintf(fin,"%s;\n", item->u1.str); /* usually, words are encapsulated in something else */
break;
case PV_MACRO:
fprintf(fin,"macro %s(", item->u1.str);
for (lp=item->u2.arglist; lp; lp=lp->next) {
if (lp != item->u2.arglist )
fprintf(fin,", ");
fprintf(fin,"%s", lp->u1.str);
}
fprintf(fin,") {\n");
print_pval_list(fin,item->u3.macro_statements,depth+1);
for (i=0; i<depth; i++) {
fprintf(fin,"\t"); /* depth == indentation */
}
fprintf(fin,"};\n\n");
break;
case PV_CONTEXT:
if ( item->u3.abstract )
fprintf(fin,"abstract context %s {\n", item->u1.str);
else
fprintf(fin,"context %s {\n", item->u1.str);
print_pval_list(fin,item->u2.statements,depth+1);
for (i=0; i<depth; i++) {
fprintf(fin,"\t"); /* depth == indentation */
}
fprintf(fin,"};\n\n");
break;
case PV_MACRO_CALL:
fprintf(fin,"&%s(", item->u1.str);
for (lp=item->u2.arglist; lp; lp=lp->next) {
if ( lp != item->u2.arglist )
fprintf(fin,", ");
fprintf(fin,"%s", lp->u1.str);
}
fprintf(fin,");\n");
break;
case PV_APPLICATION_CALL:
fprintf(fin,"%s(", item->u1.str);
for (lp=item->u2.arglist; lp; lp=lp->next) {
if ( lp != item->u2.arglist )
fprintf(fin,",");
fprintf(fin,"%s", lp->u1.str);
}
fprintf(fin,");\n");
break;
case PV_CASE:
fprintf(fin,"case %s:\n", item->u1.str);
print_pval_list(fin,item->u2.statements, depth+1);
break;
case PV_PATTERN:
fprintf(fin,"pattern %s:\n", item->u1.str);
print_pval_list(fin,item->u2.statements, depth+1);
break;
case PV_DEFAULT:
fprintf(fin,"default:\n");
print_pval_list(fin,item->u2.statements, depth+1);
break;
case PV_CATCH:
fprintf(fin,"catch %s {\n", item->u1.str);
print_pval_list(fin,item->u2.statements, depth+1);
for (i=0; i<depth; i++) {
fprintf(fin,"\t"); /* depth == indentation */
}
fprintf(fin,"};\n");
break;
case PV_SWITCHES:
fprintf(fin,"switches {\n");
print_pval_list(fin,item->u1.list,depth+1);
for (i=0; i<depth; i++) {
fprintf(fin,"\t"); /* depth == indentation */
}
fprintf(fin,"};\n");
break;
case PV_ESWITCHES:
fprintf(fin,"eswitches {\n");
print_pval_list(fin,item->u1.list,depth+1);
for (i=0; i<depth; i++) {
fprintf(fin,"\t"); /* depth == indentation */
}
fprintf(fin,"};\n");
break;
case PV_INCLUDES:
fprintf(fin,"includes {\n");
for (lp=item->u1.list; lp; lp=lp->next) {
for (i=0; i<depth+1; i++) {
fprintf(fin,"\t"); /* depth == indentation */
}
fprintf(fin,"%s", lp->u1.str); /* usually, words are encapsulated in something else */
if (lp->u2.arglist)
fprintf(fin,"|%s|%s|%s|%s",
lp->u2.arglist->u1.str,
lp->u2.arglist->next->u1.str,
lp->u2.arglist->next->next->u1.str,
lp->u2.arglist->next->next->next->u1.str
);
fprintf(fin,";\n"); /* usually, words are encapsulated in something else */
}
for (i=0; i<depth; i++) {
fprintf(fin,"\t"); /* depth == indentation */
}
fprintf(fin,"};\n");
break;
case PV_STATEMENTBLOCK:
fprintf(fin,"{\n");
print_pval_list(fin,item->u1.list, depth+1);
for (i=0; i<depth; i++) {
fprintf(fin,"\t"); /* depth == indentation */
}
fprintf(fin,"}\n");
break;
case PV_VARDEC:
fprintf(fin,"%s=%s;\n", item->u1.str, item->u2.val);
break;
case PV_LOCALVARDEC:
fprintf(fin,"local %s=%s;\n", item->u1.str, item->u2.val);
break;
case PV_GOTO:
fprintf(fin,"goto %s", item->u1.list->u1.str);
if ( item->u1.list->next )
fprintf(fin,",%s", item->u1.list->next->u1.str);
if ( item->u1.list->next && item->u1.list->next->next )
fprintf(fin,",%s", item->u1.list->next->next->u1.str);
fprintf(fin,"\n");
break;
case PV_LABEL:
fprintf(fin,"%s:\n", item->u1.str);
break;
case PV_FOR:
fprintf(fin,"for (%s; %s; %s)\n", item->u1.for_init, item->u2.for_test, item->u3.for_inc);
print_pval_list(fin,item->u4.for_statements,depth+1);
break;
case PV_WHILE:
fprintf(fin,"while (%s)\n", item->u1.str);
print_pval_list(fin,item->u2.statements,depth+1);
break;
case PV_BREAK:
fprintf(fin,"break;\n");
break;
case PV_RETURN:
fprintf(fin,"return;\n");
break;
case PV_CONTINUE:
fprintf(fin,"continue;\n");
break;
case PV_RANDOM:
case PV_IFTIME:
case PV_IF:
if ( item->type == PV_IFTIME ) {
fprintf(fin,"ifTime ( %s|%s|%s|%s )\n",
item->u1.list->u1.str,
item->u1.list->next->u1.str,
item->u1.list->next->next->u1.str,
item->u1.list->next->next->next->u1.str
);
} else if ( item->type == PV_RANDOM ) {
fprintf(fin,"random ( %s )\n", item->u1.str );
} else
fprintf(fin,"if ( %s )\n", item->u1.str);
if ( item->u2.statements && item->u2.statements->next ) {
for (i=0; i<depth; i++) {
fprintf(fin,"\t"); /* depth == indentation */
}
fprintf(fin,"{\n");
print_pval_list(fin,item->u2.statements,depth+1);
for (i=0; i<depth; i++) {
fprintf(fin,"\t"); /* depth == indentation */
}
if ( item->u3.else_statements )
fprintf(fin,"}\n");
else
fprintf(fin,"};\n");
} else if (item->u2.statements ) {
print_pval_list(fin,item->u2.statements,depth+1);
} else {
if (item->u3.else_statements )
fprintf(fin, " {} ");
else
fprintf(fin, " {}; ");
}
if ( item->u3.else_statements ) {
for (i=0; i<depth; i++) {
fprintf(fin,"\t"); /* depth == indentation */
}
fprintf(fin,"else\n");
print_pval_list(fin,item->u3.else_statements, depth);
}
break;
case PV_SWITCH:
fprintf(fin,"switch( %s ) {\n", item->u1.str);
print_pval_list(fin,item->u2.statements,depth+1);
for (i=0; i<depth; i++) {
fprintf(fin,"\t"); /* depth == indentation */
}
fprintf(fin,"}\n");
break;
case PV_EXTENSION:
if ( item->u4.regexten )
fprintf(fin, "regexten ");
if ( item->u3.hints )
fprintf(fin,"hints(%s) ", item->u3.hints);
fprintf(fin,"%s => ", item->u1.str);
print_pval_list(fin,item->u2.statements,depth+1);
fprintf(fin,"\n");
break;
case PV_IGNOREPAT:
fprintf(fin,"ignorepat => %s;\n", item->u1.str);
break;
case PV_GLOBALS:
fprintf(fin,"globals {\n");
print_pval_list(fin,item->u1.statements,depth+1);
for (i=0; i<depth; i++) {
fprintf(fin,"\t"); /* depth == indentation */
}
fprintf(fin,"}\n");
break;
}
}
static void print_pval_list(FILE *fin, pval *item, int depth)
{
pval *i;
for (i=item; i; i=i->next) {
print_pval(fin, i, depth);
}
}
void ael2_print(char *fname, pval *tree)
{
FILE *fin = fopen(fname,"w");
if ( !fin ) {
ast_log(LOG_ERROR, "Couldn't open %s for writing.\n", fname);
return;
}
print_pval_list(fin, tree, 0);
fclose(fin);
}
/* EMPTY TEMPLATE FUNCS FOR AEL TRAVERSAL: ============================================================================= */
void traverse_pval_template(pval *item, int depth);
void traverse_pval_item_template(pval *item, int depth);
void traverse_pval_item_template(pval *item, int depth)/* depth comes in handy for a pretty print (indentation),
but you may not need it */
{
pval *lp;
switch ( item->type ) {
case PV_WORD:
/* fields: item->u1.str == string associated with this (word). */
break;
case PV_MACRO:
/* fields: item->u1.str == name of macro
item->u2.arglist == pval list of PV_WORD arguments of macro, as given by user
item->u2.arglist->u1.str == argument
item->u2.arglist->next == next arg
item->u3.macro_statements == pval list of statements in macro body.
*/
for (lp=item->u2.arglist; lp; lp=lp->next) {
}
traverse_pval_item_template(item->u3.macro_statements,depth+1);
break;
case PV_CONTEXT:
/* fields: item->u1.str == name of context
item->u2.statements == pval list of statements in context body
item->u3.abstract == int 1 if an abstract keyword were present
*/
traverse_pval_item_template(item->u2.statements,depth+1);
break;
case PV_MACRO_CALL:
/* fields: item->u1.str == name of macro to call
item->u2.arglist == pval list of PV_WORD arguments of macro call, as given by user
item->u2.arglist->u1.str == argument
item->u2.arglist->next == next arg
*/
for (lp=item->u2.arglist; lp; lp=lp->next) {
}
break;
case PV_APPLICATION_CALL:
/* fields: item->u1.str == name of application to call
item->u2.arglist == pval list of PV_WORD arguments of macro call, as given by user
item->u2.arglist->u1.str == argument
item->u2.arglist->next == next arg
*/
for (lp=item->u2.arglist; lp; lp=lp->next) {
}
break;
case PV_CASE:
/* fields: item->u1.str == value of case
item->u2.statements == pval list of statements under the case
*/
traverse_pval_item_template(item->u2.statements,depth+1);
break;
case PV_PATTERN:
/* fields: item->u1.str == value of case
item->u2.statements == pval list of statements under the case
*/
traverse_pval_item_template(item->u2.statements,depth+1);
break;
case PV_DEFAULT:
/* fields:
item->u2.statements == pval list of statements under the case
*/
traverse_pval_item_template(item->u2.statements,depth+1);
break;
case PV_CATCH:
/* fields: item->u1.str == name of extension to catch
item->u2.statements == pval list of statements in context body
*/
traverse_pval_item_template(item->u2.statements,depth+1);
break;
case PV_SWITCHES:
/* fields: item->u1.list == pval list of PV_WORD elements, one per entry in the list
*/
traverse_pval_item_template(item->u1.list,depth+1);
break;
case PV_ESWITCHES:
/* fields: item->u1.list == pval list of PV_WORD elements, one per entry in the list
*/
traverse_pval_item_template(item->u1.list,depth+1);
break;
case PV_INCLUDES:
/* fields: item->u1.list == pval list of PV_WORD elements, one per entry in the list
item->u2.arglist == pval list of 4 PV_WORD elements for time values
*/
traverse_pval_item_template(item->u1.list,depth+1);
traverse_pval_item_template(item->u2.arglist,depth+1);
break;
case PV_STATEMENTBLOCK:
/* fields: item->u1.list == pval list of statements in block, one per entry in the list
*/
traverse_pval_item_template(item->u1.list,depth+1);
break;
case PV_LOCALVARDEC:
case PV_VARDEC:
/* fields: item->u1.str == variable name
item->u2.val == variable value to assign
*/
break;
case PV_GOTO:
/* fields: item->u1.list == pval list of PV_WORD target names, up to 3, in order as given by user.
item->u1.list->u1.str == where the data on a PV_WORD will always be.
*/
if ( item->u1.list->next )
;
if ( item->u1.list->next && item->u1.list->next->next )
;
break;
case PV_LABEL:
/* fields: item->u1.str == label name
*/
break;
case PV_FOR:
/* fields: item->u1.for_init == a string containing the initalizer
item->u2.for_test == a string containing the loop test
item->u3.for_inc == a string containing the loop increment
item->u4.for_statements == a pval list of statements in the for ()
*/
traverse_pval_item_template(item->u4.for_statements,depth+1);
break;
case PV_WHILE:
/* fields: item->u1.str == the while conditional, as supplied by user
item->u2.statements == a pval list of statements in the while ()
*/
traverse_pval_item_template(item->u2.statements,depth+1);
break;
case PV_BREAK:
/* fields: none
*/
break;
case PV_RETURN:
/* fields: none
*/
break;
case PV_CONTINUE:
/* fields: none
*/
break;
case PV_IFTIME:
/* fields: item->u1.list == there are 4 linked PV_WORDs here.
item->u2.statements == a pval list of statements in the if ()
item->u3.else_statements == a pval list of statements in the else
(could be zero)
*/
traverse_pval_item_template(item->u2.statements,depth+1);
if ( item->u3.else_statements ) {
traverse_pval_item_template(item->u3.else_statements,depth+1);
}
break;
case PV_RANDOM:
/* fields: item->u1.str == the random number expression, as supplied by user
item->u2.statements == a pval list of statements in the if ()
item->u3.else_statements == a pval list of statements in the else
(could be zero)
*/
traverse_pval_item_template(item->u2.statements,depth+1);
if ( item->u3.else_statements ) {
traverse_pval_item_template(item->u3.else_statements,depth+1);
}
break;
case PV_IF:
/* fields: item->u1.str == the if conditional, as supplied by user
item->u2.statements == a pval list of statements in the if ()
item->u3.else_statements == a pval list of statements in the else
(could be zero)
*/
traverse_pval_item_template(item->u2.statements,depth+1);
if ( item->u3.else_statements ) {
traverse_pval_item_template(item->u3.else_statements,depth+1);
}
break;
case PV_SWITCH:
/* fields: item->u1.str == the switch expression
item->u2.statements == a pval list of statements in the switch,
(will be case statements, most likely!)
*/
traverse_pval_item_template(item->u2.statements,depth+1);
break;
case PV_EXTENSION:
/* fields: item->u1.str == the extension name, label, whatever it's called
item->u2.statements == a pval list of statements in the extension
item->u3.hints == a char * hint argument
item->u4.regexten == an int boolean. non-zero says that regexten was specified
*/
traverse_pval_item_template(item->u2.statements,depth+1);
break;
case PV_IGNOREPAT:
/* fields: item->u1.str == the ignorepat data
*/
break;
case PV_GLOBALS:
/* fields: item->u1.statements == pval list of statements, usually vardecs
*/
traverse_pval_item_template(item->u1.statements,depth+1);
break;
}
}
void traverse_pval_template(pval *item, int depth) /* depth comes in handy for a pretty print (indentation),
but you may not need it */
{
pval *i;
for (i=item; i; i=i->next) {
traverse_pval_item_template(i, depth);
}
}
/* SEMANTIC CHECKING FOR AEL: ============================================================================= */
/* (not all that is syntactically legal is good! */
static void check_macro_returns(pval *macro)
{
pval *i;
if (!macro->u3.macro_statements)
{
pval *z = calloc(1, sizeof(struct pval));
ast_log(LOG_WARNING, "Warning: file %s, line %d-%d: The macro %s is empty! I will insert a return.\n",
macro->filename, macro->startline, macro->endline, macro->u1.str);
z->type = PV_RETURN;
z->startline = macro->startline;
z->endline = macro->endline;
z->startcol = macro->startcol;
z->endcol = macro->endcol;
z->filename = strdup(macro->filename);
macro->u3.macro_statements = z;
return;
}
for (i=macro->u3.macro_statements; i; i=i->next) {
/* if the last statement in the list is not return, then insert a return there */
if (i->next == NULL) {
if (i->type != PV_RETURN) {
pval *z = calloc(1, sizeof(struct pval));
ast_log(LOG_WARNING, "Warning: file %s, line %d-%d: The macro %s does not end with a return; I will insert one.\n",
macro->filename, macro->startline, macro->endline, macro->u1.str);
z->type = PV_RETURN;
z->startline = macro->startline;
z->endline = macro->endline;
z->startcol = macro->startcol;
z->endcol = macro->endcol;
z->filename = strdup(macro->filename);
i->next = z;
return;
}
}
}
return;
}
static int extension_matches(pval *here, const char *exten, const char *pattern)
{
int err1;
regex_t preg;
/* simple case, they match exactly, the pattern and exten name */
if (strcmp(pattern,exten) == 0)
return 1;
if (pattern[0] == '_') {
char reg1[2000];
const char *p;
char *r = reg1;
if ( strlen(pattern)*5 >= 2000 ) /* safety valve */ {
ast_log(LOG_ERROR,"Error: The pattern %s is way too big. Pattern matching cancelled.\n",
pattern);
return 0;
}
/* form a regular expression from the pattern, and then match it against exten */
*r++ = '^'; /* what if the extension is a pattern ?? */
*r++ = '_'; /* what if the extension is a pattern ?? */
*r++ = '?';
for (p=pattern+1; *p; p++) {
switch ( *p ) {
case 'X':
*r++ = '[';
*r++ = '0';
*r++ = '-';
*r++ = '9';
*r++ = 'X';
*r++ = ']';
break;
case 'Z':
*r++ = '[';
*r++ = '1';
*r++ = '-';
*r++ = '9';
*r++ = 'Z';
*r++ = ']';
break;
case 'N':
*r++ = '[';
*r++ = '2';
*r++ = '-';
*r++ = '9';
*r++ = 'N';
*r++ = ']';
break;
case '[':
while ( *p && *p != ']' ) {
*r++ = *p++;
}
*r++ = ']';
if ( *p != ']') {
ast_log(LOG_WARNING, "Warning: file %s, line %d-%d: The extension pattern '%s' is missing a closing bracket \n",
here->filename, here->startline, here->endline, pattern);
}
break;
case '.':
case '!':
*r++ = '.';
*r++ = '*';
break;
case '*':
*r++ = '\\';
*r++ = '*';
break;
default:
*r++ = *p;
break;
}
}
*r++ = '$'; /* what if the extension is a pattern ?? */
*r++ = *p++; /* put in the closing null */
err1 = regcomp(&preg, reg1, REG_NOSUB|REG_EXTENDED);
if ( err1 ) {
char errmess[500];
regerror(err1,&preg,errmess,sizeof(errmess));
regfree(&preg);
ast_log(LOG_WARNING, "Regcomp of %s failed, error code %d\n",
reg1, err1);
return 0;
}
err1 = regexec(&preg, exten, 0, 0, 0);
regfree(&preg);
if ( err1 ) {
/* ast_log(LOG_NOTICE,"*****************************[%d]Extension %s did not match %s(%s)\n",
err1,exten, pattern, reg1); */
return 0; /* no match */
} else {
/* ast_log(LOG_NOTICE,"*****************************Extension %s matched %s\n",
exten, pattern); */
return 1;
}
} else {
if ( strcmp(exten,pattern) == 0 ) {
return 1;
} else
return 0;
}
}
static void check_expr2_input(pval *expr, char *str)
{
int spaces = strspn(str,"\t \n");
if ( !strncmp(str+spaces,"$[",2) ) {
ast_log(LOG_WARNING, "Warning: file %s, line %d-%d: The expression '%s' is redundantly wrapped in '$[ ]'. \n",
expr->filename, expr->startline, expr->endline, str);
warns++;
}
}
static void check_includes(pval *includes)
{
struct pval *p4;
for (p4=includes->u1.list; p4; p4=p4->next) {
/* for each context pointed to, find it, then find a context/label that matches the
target here! */
char *incl_context = p4->u1.str;
/* find a matching context name */
struct pval *that_other_context = find_context(incl_context);
if (!that_other_context && strcmp(incl_context, "parkedcalls") != 0) {
ast_log(LOG_WARNING, "Warning: file %s, line %d-%d: The included context '%s' cannot be found.\n\
(You may ignore this warning if '%s' exists in extensions.conf, or is created by another module. I cannot check for those.)\n",
includes->filename, includes->startline, includes->endline, incl_context, incl_context);
warns++;
}
}
}
static void check_timerange(pval *p)
{
char *times;
char *e;
int s1, s2;
int e1, e2;
times = ast_strdupa(p->u1.str);
/* Star is all times */
if (ast_strlen_zero(times) || !strcmp(times, "*")) {
return;
}
/* Otherwise expect a range */
e = strchr(times, '-');
if (!e) {
ast_log(LOG_WARNING, "Warning: file %s, line %d-%d: The time range format (%s) requires a '-' surrounded by two 24-hour times of day!\n",
p->filename, p->startline, p->endline, times);
warns++;
return;
}
*e = '\0';
e++;
while (*e && !isdigit(*e))
e++;
if (!*e) {
ast_log(LOG_WARNING, "Warning: file %s, line %d-%d: The time range format (%s) is missing the end time!\n",
p->filename, p->startline, p->endline, p->u1.str);
warns++;
}
if (sscanf(times, "%2d:%2d", &s1, &s2) != 2) {
ast_log(LOG_WARNING, "Warning: file %s, line %d-%d: The start time (%s) isn't quite right!\n",
p->filename, p->startline, p->endline, times);
warns++;
}
if (sscanf(e, "%2d:%2d", &e1, &e2) != 2) {
ast_log(LOG_WARNING, "Warning: file %s, line %d-%d: The end time (%s) isn't quite right!\n",
p->filename, p->startline, p->endline, times);
warns++;
}
s1 = s1 * 30 + s2/2;
if ((s1 < 0) || (s1 >= 24*30)) {
ast_log(LOG_WARNING, "Warning: file %s, line %d-%d: The start time (%s) is out of range!\n",
p->filename, p->startline, p->endline, times);
warns++;
}
e1 = e1 * 30 + e2/2;
if ((e1 < 0) || (e1 >= 24*30)) {
ast_log(LOG_WARNING, "Warning: file %s, line %d-%d: The end time (%s) is out of range!\n",
p->filename, p->startline, p->endline, e);
warns++;
}
return;
}
static char *days[] =
{
"sun",
"mon",
"tue",
"wed",
"thu",
"fri",
"sat",
};
/*! \brief get_dow: Get day of week */
static void check_dow(pval *DOW)
{
char *dow;
char *c;
/* The following line is coincidence, really! */
int s, e;
dow = ast_strdupa(DOW->u1.str);
/* Check for all days */
if (ast_strlen_zero(dow) || !strcmp(dow, "*"))
return;
/* Get start and ending days */
c = strchr(dow, '-');
if (c) {
*c = '\0';
c++;
} else
c = NULL;
/* Find the start */
s = 0;
while ((s < 7) && strcasecmp(dow, days[s])) s++;
if (s >= 7) {
ast_log(LOG_WARNING, "Warning: file %s, line %d-%d: The day (%s) must be one of 'sun', 'mon', 'tue', 'wed', 'thu', 'fri', or 'sat'!\n",
DOW->filename, DOW->startline, DOW->endline, dow);
warns++;
}
if (c) {
e = 0;
while ((e < 7) && strcasecmp(c, days[e])) e++;
if (e >= 7) {
ast_log(LOG_WARNING, "Warning: file %s, line %d-%d: The end day (%s) must be one of 'sun', 'mon', 'tue', 'wed', 'thu', 'fri', or 'sat'!\n",
DOW->filename, DOW->startline, DOW->endline, c);
warns++;
}
} else
e = s;
}
static void check_day(pval *DAY)
{
char *day;
char *c;
/* The following line is coincidence, really! */
int s, e;
day = ast_strdupa(DAY->u1.str);
/* Check for all days */
if (ast_strlen_zero(day) || !strcmp(day, "*")) {
return;
}
/* Get start and ending days */
c = strchr(day, '-');
if (c) {
*c = '\0';
c++;
}
/* Find the start */
if (sscanf(day, "%2d", &s) != 1) {
ast_log(LOG_WARNING, "Warning: file %s, line %d-%d: The start day of month (%s) must be a number!\n",
DAY->filename, DAY->startline, DAY->endline, day);
warns++;
}
else if ((s < 1) || (s > 31)) {
ast_log(LOG_WARNING, "Warning: file %s, line %d-%d: The start day of month (%s) must be a number in the range [1-31]!\n",
DAY->filename, DAY->startline, DAY->endline, day);
warns++;
}
s--;
if (c) {
if (sscanf(c, "%2d", &e) != 1) {
ast_log(LOG_WARNING, "Warning: file %s, line %d-%d: The end day of month (%s) must be a number!\n",
DAY->filename, DAY->startline, DAY->endline, c);
warns++;
}
else if ((e < 1) || (e > 31)) {
ast_log(LOG_WARNING, "Warning: file %s, line %d-%d: The end day of month (%s) must be a number in the range [1-31]!\n",
DAY->filename, DAY->startline, DAY->endline, day);
warns++;
}
e--;
} else
e = s;
}
static char *months[] =
{
"jan",
"feb",
"mar",
"apr",
"may",
"jun",
"jul",
"aug",
"sep",
"oct",
"nov",
"dec",
};
static void check_month(pval *MON)
{
char *mon;
char *c;
/* The following line is coincidence, really! */
int s, e;
mon = ast_strdupa(MON->u1.str);
/* Check for all days */
if (ast_strlen_zero(mon) || !strcmp(mon, "*"))
return ;
/* Get start and ending days */
c = strchr(mon, '-');
if (c) {
*c = '\0';
c++;
}
/* Find the start */
s = 0;
while ((s < 12) && strcasecmp(mon, months[s])) s++;
if (s >= 12) {
ast_log(LOG_WARNING, "Warning: file %s, line %d-%d: The start month (%s) must be a one of: 'jan', 'feb', ..., 'dec'!\n",
MON->filename, MON->startline, MON->endline, mon);
warns++;
}
if (c) {
e = 0;
while ((e < 12) && strcasecmp(mon, months[e])) e++;
if (e >= 12) {
ast_log(LOG_WARNING, "Warning: file %s, line %d-%d: The end month (%s) must be a one of: 'jan', 'feb', ..., 'dec'!\n",
MON->filename, MON->startline, MON->endline, c);
warns++;
}
} else
e = s;
}
static int check_break(pval *item)
{
pval *p = item;
while( p && p->type != PV_MACRO && p->type != PV_CONTEXT ) /* early cutout, sort of */ {
/* a break is allowed in WHILE, FOR, CASE, DEFAULT, PATTERN; otherwise, it don't make
no sense */
if( p->type == PV_CASE || p->type == PV_DEFAULT || p->type == PV_PATTERN
|| p->type == PV_WHILE || p->type == PV_FOR ) {
return 1;
}
p = p->dad;
}
ast_log(LOG_ERROR,"Error: file %s, line %d-%d: 'break' not in switch, for, or while statement!\n",
item->filename, item->startline, item->endline);
errs++;
return 0;
}
static int check_continue(pval *item)
{
pval *p = item;
while( p && p->type != PV_MACRO && p->type != PV_CONTEXT ) /* early cutout, sort of */ {
/* a break is allowed in WHILE, FOR, CASE, DEFAULT, PATTERN; otherwise, it don't make
no sense */
if( p->type == PV_WHILE || p->type == PV_FOR ) {
return 1;
}
p = p->dad;
}
ast_log(LOG_ERROR,"Error: file %s, line %d-%d: 'continue' not in 'for' or 'while' statement!\n",
item->filename, item->startline, item->endline);
errs++;
return 0;
}
static struct pval *in_macro(pval *item)
{
struct pval *curr;
curr = item;
while( curr ) {
if( curr->type == PV_MACRO ) {
return curr;
}
curr = curr->dad;
}
return 0;
}
static struct pval *in_context(pval *item)
{
struct pval *curr;
curr = item;
while( curr ) {
if( curr->type == PV_MACRO || curr->type == PV_CONTEXT ) {
return curr;
}
curr = curr->dad;
}
return 0;
}
/* general purpose goto finder */
static void check_label(pval *item)
{
struct pval *curr;
struct pval *x;
int alright = 0;
/* A label outside an extension just plain does not make sense! */
curr = item;
while( curr ) {
if( curr->type == PV_MACRO || curr->type == PV_EXTENSION ) {
alright = 1;
break;
}
curr = curr->dad;
}
if( !alright )
{
ast_log(LOG_ERROR,"Error: file %s, line %d-%d: Label %s is not within an extension or macro!\n",
item->filename, item->startline, item->endline, item->u1.str);
errs++;
}
/* basically, ensure that a label is not repeated in a context. Period.
The method: well, for each label, find the first label in the context
with the same name. If it's not the current label, then throw an error. */
/* printf("==== check_label: ====\n"); */
if( !current_extension )
curr = current_context;
else
curr = current_extension;
x = find_first_label_in_current_context((char *)item->u1.str, curr);
/* printf("Hey, check_label found with item = %x, and x is %x, and currcont is %x, label name is %s\n", item,x, current_context, (char *)item->u1.str); */
if( x && x != item )
{
ast_log(LOG_ERROR,"Error: file %s, line %d-%d: Duplicate label %s! Previously defined at file %s, line %d.\n",
item->filename, item->startline, item->endline, item->u1.str, x->filename, x->startline);
errs++;
}
/* printf("<<<<< check_label: ====\n"); */
}
static pval *get_goto_target(pval *item)
{
/* just one item-- the label should be in the current extension */
pval *curr_ext = get_extension_or_contxt(item); /* containing exten, or macro */
pval *curr_cont;
if (item->u1.list && !item->u1.list->next && !strstr((item->u1.list)->u1.str,"${")) {
struct pval *x = find_label_in_current_extension((char*)((item->u1.list)->u1.str), curr_ext);
return x;
}
curr_cont = get_contxt(item);
/* TWO items */
if (item->u1.list->next && !item->u1.list->next->next) {
if (!strstr((item->u1.list)->u1.str,"${")
&& !strstr(item->u1.list->next->u1.str,"${") ) /* Don't try to match variables */ {
struct pval *x = find_label_in_current_context((char *)item->u1.list->u1.str, (char *)item->u1.list->next->u1.str, curr_cont);
return x;
}
}
/* All 3 items! */
if (item->u1.list->next && item->u1.list->next->next) {
/* all three */
pval *first = item->u1.list;
pval *second = item->u1.list->next;
pval *third = item->u1.list->next->next;
if (!strstr((item->u1.list)->u1.str,"${")
&& !strstr(item->u1.list->next->u1.str,"${")
&& !strstr(item->u1.list->next->next->u1.str,"${")) /* Don't try to match variables */ {
struct pval *x = find_label_in_current_db((char*)first->u1.str, (char*)second->u1.str, (char*)third->u1.str);
if (!x) {
struct pval *p3;
struct pval *that_context = find_context(item->u1.list->u1.str);
/* the target of the goto could be in an included context!! Fancy that!! */
/* look for includes in the current context */
if (that_context) {
for (p3=that_context->u2.statements; p3; p3=p3->next) {
if (p3->type == PV_INCLUDES) {
struct pval *p4;
for (p4=p3->u1.list; p4; p4=p4->next) {
/* for each context pointed to, find it, then find a context/label that matches the
target here! */
char *incl_context = p4->u1.str;
/* find a matching context name */
struct pval *that_other_context = find_context(incl_context);
if (that_other_context) {
struct pval *x3;
x3 = find_label_in_current_context((char *)item->u1.list->next->u1.str, (char *)item->u1.list->next->next->u1.str, that_other_context);
if (x3) {
return x3;
}
}
}
}
}
}
}
return x;
}
}
return 0;
}
static void check_goto(pval *item)
{
/* check for the target of the goto-- does it exist? */
if ( !(item->u1.list)->next && !(item->u1.list)->u1.str ) {
ast_log(LOG_ERROR,"Error: file %s, line %d-%d: goto: empty label reference found!\n",
item->filename, item->startline, item->endline);
errs++;
}
/* just one item-- the label should be in the current extension */
if (item->u1.list && !item->u1.list->next && !strstr((item->u1.list)->u1.str,"${")) {
struct pval *z = get_extension_or_contxt(item);
struct pval *x = 0;
if (z)
x = find_label_in_current_extension((char*)((item->u1.list)->u1.str), z); /* if in macro, use current context instead */
/* printf("Called find_label_in_current_extension with arg %s; current_extension is %x: %d\n",
(char*)((item->u1.list)->u1.str), current_extension?current_extension:current_context, current_extension?current_extension->type:current_context->type); */
if (!x) {
ast_log(LOG_ERROR,"Error: file %s, line %d-%d: goto: no label %s exists in the current extension!\n",
item->filename, item->startline, item->endline, item->u1.list->u1.str);
errs++;
}
else
return;
}
/* TWO items */
if (item->u1.list->next && !item->u1.list->next->next) {
/* two items */
/* printf("Calling find_label_in_current_context with args %s, %s\n",
(char*)((item->u1.list)->u1.str), (char *)item->u1.list->next->u1.str); */
if (!strstr((item->u1.list)->u1.str,"${")
&& !strstr(item->u1.list->next->u1.str,"${") ) /* Don't try to match variables */ {
struct pval *z = get_contxt(item);
struct pval *x = 0;
if (z)
x = find_label_in_current_context((char *)item->u1.list->u1.str, (char *)item->u1.list->next->u1.str, z);
if (!x) {
ast_log(LOG_ERROR,"Error: file %s, line %d-%d: goto: no label '%s,%s' exists in the current context, or any of its inclusions!\n",
item->filename, item->startline, item->endline, item->u1.list->u1.str, item->u1.list->next->u1.str );
errs++;
}
else
return;
}
}
/* All 3 items! */
if (item->u1.list->next && item->u1.list->next->next) {
/* all three */
pval *first = item->u1.list;
pval *second = item->u1.list->next;
pval *third = item->u1.list->next->next;
/* printf("Calling find_label_in_current_db with args %s, %s, %s\n",
(char*)first->u1.str, (char*)second->u1.str, (char*)third->u1.str); */
if (!strstr((item->u1.list)->u1.str,"${")
&& !strstr(item->u1.list->next->u1.str,"${")
&& !strstr(item->u1.list->next->next->u1.str,"${")) /* Don't try to match variables */ {
struct pval *x = find_label_in_current_db((char*)first->u1.str, (char*)second->u1.str, (char*)third->u1.str);
if (!x) {
struct pval *p3;
struct pval *found = 0;
struct pval *that_context = find_context(item->u1.list->u1.str);
/* the target of the goto could be in an included context!! Fancy that!! */
/* look for includes in the current context */
if (that_context) {
for (p3=that_context->u2.statements; p3; p3=p3->next) {
if (p3->type == PV_INCLUDES) {
struct pval *p4;
for (p4=p3->u1.list; p4; p4=p4->next) {
/* for each context pointed to, find it, then find a context/label that matches the
target here! */
char *incl_context = p4->u1.str;
/* find a matching context name */
struct pval *that_other_context = find_context(incl_context);
if (that_other_context) {
struct pval *x3;
x3 = find_label_in_current_context((char *)item->u1.list->next->u1.str, (char *)item->u1.list->next->next->u1.str, that_other_context);
if (x3) {
found = x3;
break;
}
}
}
}
}
if (!found) {
ast_log(LOG_ERROR,"Error: file %s, line %d-%d: goto: no label %s|%s exists in the context %s or its inclusions!\n",
item->filename, item->startline, item->endline, item->u1.list->next->u1.str, item->u1.list->next->next->u1.str, item->u1.list->u1.str );
errs++;
} else {
struct pval *mac = in_macro(item); /* is this goto inside a macro? */
if( mac ) { /* yes! */
struct pval *targ = in_context(found);
if( mac != targ )
{
ast_log(LOG_WARNING, "Warning: file %s, line %d-%d: It's bad form to have a goto in a macro to a target outside the macro!\n",
item->filename, item->startline, item->endline);
warns++;
}
}
}
} else {
/* here is where code would go to check for target existence in extensions.conf files */
#ifdef STANDALONE
struct pbx_find_info pfiq = {.stacklen = 0 };
extern int localized_pbx_load_module(void);
/* if this is a standalone, we will need to make sure the
localized load of extensions.conf is done */
if (!extensions_dot_conf_loaded) {
localized_pbx_load_module();
extensions_dot_conf_loaded++;
}
pbx_find_extension(NULL, NULL, &pfiq, first->u1.str, second->u1.str, atoi(third->u1.str),
atoi(third->u1.str) ? NULL : third->u1.str, NULL,
atoi(third->u1.str) ? E_MATCH : E_FINDLABEL);
if (pfiq.status != STATUS_SUCCESS) {
ast_log(LOG_WARNING,"Warning: file %s, line %d-%d: goto: Couldn't find goto target %s|%s|%s, not even in extensions.conf!\n",
item->filename, item->startline, item->endline, first->u1.str, second->u1.str, third->u1.str);
warns++;
}
#else
ast_log(LOG_WARNING,"Warning: file %s, line %d-%d: goto: Couldn't find goto target %s|%s|%s in the AEL code!\n",
item->filename, item->startline, item->endline, first->u1.str, second->u1.str, third->u1.str);
warns++;
#endif
}
} else {
struct pval *mac = in_macro(item); /* is this goto inside a macro? */
if( mac ) { /* yes! */
struct pval *targ = in_context(x);
if( mac != targ )
{
ast_log(LOG_WARNING, "Warning: file %s, line %d-%d: It's bad form to have a goto in a macro to a target outside the macro!\n",
item->filename, item->startline, item->endline);
warns++;
}
}
}
}
}
}
static void find_pval_goto_item(pval *item, int lev)
{
struct pval *p4;
if (lev>100) {
ast_log(LOG_ERROR,"find_pval_goto in infinite loop! item_type: %d\n\n", item->type);
return;
}
switch ( item->type ) {
case PV_MACRO:
/* fields: item->u1.str == name of macro
item->u2.arglist == pval list of PV_WORD arguments of macro, as given by user
item->u2.arglist->u1.str == argument
item->u2.arglist->next == next arg
item->u3.macro_statements == pval list of statements in macro body.
*/
/* printf("Descending into macro %s at line %d\n", item->u1.str, item->startline); */
find_pval_gotos(item->u3.macro_statements,lev+1); /* if we're just searching for a context, don't bother descending into them */
break;
case PV_CONTEXT:
/* fields: item->u1.str == name of context
item->u2.statements == pval list of statements in context body
item->u3.abstract == int 1 if an abstract keyword were present
*/
break;
case PV_CASE:
/* fields: item->u1.str == value of case
item->u2.statements == pval list of statements under the case
*/
/* printf("Descending into Case of %s\n", item->u1.str); */
find_pval_gotos(item->u2.statements,lev+1);
break;
case PV_PATTERN:
/* fields: item->u1.str == value of case
item->u2.statements == pval list of statements under the case
*/
/* printf("Descending into Pattern of %s\n", item->u1.str); */
find_pval_gotos(item->u2.statements,lev+1);
break;
case PV_DEFAULT:
/* fields:
item->u2.statements == pval list of statements under the case
*/
/* printf("Descending into default\n"); */
find_pval_gotos(item->u2.statements,lev+1);
break;
case PV_CATCH:
/* fields: item->u1.str == name of extension to catch
item->u2.statements == pval list of statements in context body
*/
/* printf("Descending into catch of %s\n", item->u1.str); */
find_pval_gotos(item->u2.statements,lev+1);
break;
case PV_STATEMENTBLOCK:
/* fields: item->u1.list == pval list of statements in block, one per entry in the list
*/
/* printf("Descending into statement block\n"); */
find_pval_gotos(item->u1.list,lev+1);
break;
case PV_GOTO:
/* fields: item->u1.list == pval list of PV_WORD target names, up to 3, in order as given by user.
item->u1.list->u1.str == where the data on a PV_WORD will always be.
*/
check_goto(item); /* THE WHOLE FUNCTION OF THIS ENTIRE ROUTINE!!!! */
break;
case PV_INCLUDES:
/* fields: item->u1.list == pval list of PV_WORD elements, one per entry in the list
*/
for (p4=item->u1.list; p4; p4=p4->next) {
/* for each context pointed to, find it, then find a context/label that matches the
target here! */
char *incl_context = p4->u1.str;
/* find a matching context name */
struct pval *that_context = find_context(incl_context);
if (that_context && that_context->u2.statements) {
/* printf("Descending into include of '%s' at line %d; that_context=%s, that_context type=%d\n", incl_context, item->startline, that_context->u1.str, that_context->type); */
find_pval_gotos(that_context->u2.statements,lev+1); /* keep working up the includes */
}
}
break;
case PV_FOR:
/* fields: item->u1.for_init == a string containing the initalizer
item->u2.for_test == a string containing the loop test
item->u3.for_inc == a string containing the loop increment
item->u4.for_statements == a pval list of statements in the for ()
*/
/* printf("Descending into for at line %d\n", item->startline); */
find_pval_gotos(item->u4.for_statements,lev+1);
break;
case PV_WHILE:
/* fields: item->u1.str == the while conditional, as supplied by user
item->u2.statements == a pval list of statements in the while ()
*/
/* printf("Descending into while at line %d\n", item->startline); */
find_pval_gotos(item->u2.statements,lev+1);
break;
case PV_RANDOM:
/* fields: item->u1.str == the random number expression, as supplied by user
item->u2.statements == a pval list of statements in the if ()
item->u3.else_statements == a pval list of statements in the else
(could be zero)
fall thru to PV_IF */
case PV_IFTIME:
/* fields: item->u1.list == the time values, 4 of them, as PV_WORD structs in a list
item->u2.statements == a pval list of statements in the if ()
item->u3.else_statements == a pval list of statements in the else
(could be zero)
fall thru to PV_IF*/
case PV_IF:
/* fields: item->u1.str == the if conditional, as supplied by user
item->u2.statements == a pval list of statements in the if ()
item->u3.else_statements == a pval list of statements in the else
(could be zero)
*/
/* printf("Descending into random/iftime/if at line %d\n", item->startline); */
find_pval_gotos(item->u2.statements,lev+1);
if (item->u3.else_statements) {
/* printf("Descending into random/iftime/if's ELSE at line %d\n", item->startline); */
find_pval_gotos(item->u3.else_statements,lev+1);
}
break;
case PV_SWITCH:
/* fields: item->u1.str == the switch expression
item->u2.statements == a pval list of statements in the switch,
(will be case statements, most likely!)
*/
/* printf("Descending into switch at line %d\n", item->startline); */
find_pval_gotos(item->u3.else_statements,lev+1);
break;
case PV_EXTENSION:
/* fields: item->u1.str == the extension name, label, whatever it's called
item->u2.statements == a pval list of statements in the extension
item->u3.hints == a char * hint argument
item->u4.regexten == an int boolean. non-zero says that regexten was specified
*/
/* printf("Descending into extension %s at line %d\n", item->u1.str, item->startline); */
find_pval_gotos(item->u2.statements,lev+1);
break;
default:
break;
}
}
static void find_pval_gotos(pval *item,int lev)
{
pval *i;
for (i=item; i; i=i->next) {
/* printf("About to call pval_goto_item, itemcount=%d, itemtype=%d\n", item_count, i->type); */
find_pval_goto_item(i, lev);
}
}
/* general purpose label finder */
static struct pval *match_pval_item(pval *item)
{
pval *x;
switch ( item->type ) {
case PV_MACRO:
/* fields: item->u1.str == name of macro
item->u2.arglist == pval list of PV_WORD arguments of macro, as given by user
item->u2.arglist->u1.str == argument
item->u2.arglist->next == next arg
item->u3.macro_statements == pval list of statements in macro body.
*/
/* printf(" matching in MACRO %s, match_context=%s; retoncontmtch=%d; \n", item->u1.str, match_context, return_on_context_match); */
if (!strcmp(match_context,"*") || !strcmp(item->u1.str, match_context)) {
/* printf("MACRO: match context is: %s\n", match_context); */
if (return_on_context_match && !strcmp(item->u1.str, match_context)) /* if we're just searching for a context, don't bother descending into them */ {
/* printf("Returning on matching macro %s\n", match_context); */
return item;
}
if (!return_on_context_match) {
/* printf("Descending into matching macro %s/%s\n", match_context, item->u1.str); */
if ((x=match_pval(item->u3.macro_statements))) {
/* printf("Responded with pval match %x\n", x); */
return x;
}
}
} else {
/* printf("Skipping context/macro %s\n", item->u1.str); */
}
break;
case PV_CONTEXT:
/* fields: item->u1.str == name of context
item->u2.statements == pval list of statements in context body
item->u3.abstract == int 1 if an abstract keyword were present
*/
/* printf(" matching in CONTEXT\n"); */
if (!strcmp(match_context,"*") || !strcmp(item->u1.str, match_context)) {
if (return_on_context_match && !strcmp(item->u1.str, match_context)) {
/* printf("Returning on matching context %s\n", match_context); */
/* printf("non-CONTEXT: Responded with pval match %x\n", x); */
return item;
}
if (!return_on_context_match ) {
/* printf("Descending into matching context %s\n", match_context); */
if ((x=match_pval(item->u2.statements))) /* if we're just searching for a context, don't bother descending into them */ {
/* printf("CONTEXT: Responded with pval match %x\n", x); */
return x;
}
}
} else {
/* printf("Skipping context/macro %s\n", item->u1.str); */
}
break;
case PV_CASE:
/* fields: item->u1.str == value of case
item->u2.statements == pval list of statements under the case
*/
/* printf(" matching in CASE\n"); */
if ((x=match_pval(item->u2.statements))) {
/* printf("CASE: Responded with pval match %x\n", x); */
return x;
}
break;
case PV_PATTERN:
/* fields: item->u1.str == value of case
item->u2.statements == pval list of statements under the case
*/
/* printf(" matching in PATTERN\n"); */
if ((x=match_pval(item->u2.statements))) {
/* printf("PATTERN: Responded with pval match %x\n", x); */
return x;
}
break;
case PV_DEFAULT:
/* fields:
item->u2.statements == pval list of statements under the case
*/
/* printf(" matching in DEFAULT\n"); */
if ((x=match_pval(item->u2.statements))) {
/* printf("DEFAULT: Responded with pval match %x\n", x); */
return x;
}
break;
case PV_CATCH:
/* fields: item->u1.str == name of extension to catch
item->u2.statements == pval list of statements in context body
*/
/* printf(" matching in CATCH\n"); */
if ((x=match_pval(item->u2.statements))) {
/* printf("CATCH: Responded with pval match %x\n", x); */
return x;
}
break;
case PV_STATEMENTBLOCK:
/* fields: item->u1.list == pval list of statements in block, one per entry in the list
*/
/* printf(" matching in STATEMENTBLOCK\n"); */
if ((x=match_pval(item->u1.list))) {
/* printf("STATEMENTBLOCK: Responded with pval match %x\n", x); */
return x;
}
break;
case PV_LABEL:
/* fields: item->u1.str == label name
*/
/* printf("PV_LABEL %s (cont=%s, exten=%s\n",
item->u1.str, current_context->u1.str, (current_extension?current_extension->u1.str:"<macro>"));*/
if (count_labels) {
if (!strcmp(match_label, item->u1.str)) {
label_count++;
last_matched_label = item;
}
} else {
if (!strcmp(match_label, item->u1.str)) {
/* printf("LABEL: Responded with pval match %x\n", x); */
return item;
}
}
break;
case PV_FOR:
/* fields: item->u1.for_init == a string containing the initalizer
item->u2.for_test == a string containing the loop test
item->u3.for_inc == a string containing the loop increment
item->u4.for_statements == a pval list of statements in the for ()
*/
/* printf(" matching in FOR\n"); */
if ((x=match_pval(item->u4.for_statements))) {
/* printf("FOR: Responded with pval match %x\n", x);*/
return x;
}
break;
case PV_WHILE:
/* fields: item->u1.str == the while conditional, as supplied by user
item->u2.statements == a pval list of statements in the while ()
*/
/* printf(" matching in WHILE\n"); */
if ((x=match_pval(item->u2.statements))) {
/* printf("WHILE: Responded with pval match %x\n", x); */
return x;
}
break;
case PV_RANDOM:
/* fields: item->u1.str == the random number expression, as supplied by user
item->u2.statements == a pval list of statements in the if ()
item->u3.else_statements == a pval list of statements in the else
(could be zero)
fall thru to PV_IF */
case PV_IFTIME:
/* fields: item->u1.list == the time values, 4 of them, as PV_WORD structs in a list
item->u2.statements == a pval list of statements in the if ()
item->u3.else_statements == a pval list of statements in the else
(could be zero)
fall thru to PV_IF*/
case PV_IF:
/* fields: item->u1.str == the if conditional, as supplied by user
item->u2.statements == a pval list of statements in the if ()
item->u3.else_statements == a pval list of statements in the else
(could be zero)
*/
/* printf(" matching in IF/IFTIME/RANDOM\n"); */
if ((x=match_pval(item->u2.statements))) {
return x;
}
if (item->u3.else_statements) {
if ((x=match_pval(item->u3.else_statements))) {
/* printf("IF/IFTIME/RANDOM: Responded with pval match %x\n", x); */
return x;
}
}
break;
case PV_SWITCH:
/* fields: item->u1.str == the switch expression
item->u2.statements == a pval list of statements in the switch,
(will be case statements, most likely!)
*/
/* printf(" matching in SWITCH\n"); */
if ((x=match_pval(item->u2.statements))) {
/* printf("SWITCH: Responded with pval match %x\n", x); */
return x;
}
break;
case PV_EXTENSION:
/* fields: item->u1.str == the extension name, label, whatever it's called
item->u2.statements == a pval list of statements in the extension
item->u3.hints == a char * hint argument
item->u4.regexten == an int boolean. non-zero says that regexten was specified
*/
/* printf(" matching in EXTENSION\n"); */
if (!strcmp(match_exten,"*") || extension_matches(item, match_exten, item->u1.str) ) {
/* printf("Descending into matching exten %s => %s\n", match_exten, item->u1.str); */
if (strcmp(match_label,"1") == 0) {
if (item->u2.statements) {
struct pval *p5 = item->u2.statements;
while (p5 && p5->type == PV_LABEL) /* find the first non-label statement in this context. If it exists, there's a "1" */
p5 = p5->next;
if (p5)
return p5;
else
return 0;
}
else
return 0;
}
if ((x=match_pval(item->u2.statements))) {
/* printf("EXTENSION: Responded with pval match %x\n", x); */
return x;
}
} else {
/* printf("Skipping exten %s\n", item->u1.str); */
}
break;
default:
/* printf(" matching in default = %d\n", item->type); */
break;
}
return 0;
}
struct pval *match_pval(pval *item)
{
pval *i;
for (i=item; i; i=i->next) {
pval *x;
/* printf(" -- match pval: item %d\n", i->type); */
if ((x = match_pval_item(i))) {
/* printf("match_pval: returning x=%x\n", (int)x); */
return x; /* cut the search short */
}
}
return 0;
}
#if 0
int count_labels_in_current_context(char *label)
{
label_count = 0;
count_labels = 1;
return_on_context_match = 0;
match_pval(current_context->u2.statements);
return label_count;
}
#endif
struct pval *find_first_label_in_current_context(char *label, pval *curr_cont)
{
/* printf(" --- Got args %s, %s\n", exten, label); */
struct pval *ret;
struct pval *p3;
count_labels = 0;
return_on_context_match = 0;
match_context = "*";
match_exten = "*";
match_label = label;
ret = match_pval(curr_cont);
if (ret)
return ret;
/* the target of the goto could be in an included context!! Fancy that!! */
/* look for includes in the current context */
for (p3=curr_cont->u2.statements; p3; p3=p3->next) {
if (p3->type == PV_INCLUDES) {
struct pval *p4;
for (p4=p3->u1.list; p4; p4=p4->next) {
/* for each context pointed to, find it, then find a context/label that matches the
target here! */
char *incl_context = p4->u1.str;
/* find a matching context name */
struct pval *that_context = find_context(incl_context);
if (that_context) {
struct pval *x3;
x3 = find_first_label_in_current_context(label, that_context);
if (x3) {
return x3;
}
}
}
}
}
return 0;
}
struct pval *find_label_in_current_context(char *exten, char *label, pval *curr_cont)
{
/* printf(" --- Got args %s, %s\n", exten, label); */
struct pval *ret;
struct pval *p3;
count_labels = 0;
return_on_context_match = 0;
match_context = "*";
match_exten = exten;
match_label = label;
ret = match_pval(curr_cont->u2.statements);
if (ret)
return ret;
/* the target of the goto could be in an included context!! Fancy that!! */
/* look for includes in the current context */
for (p3=curr_cont->u2.statements; p3; p3=p3->next) {
if (p3->type == PV_INCLUDES) {
struct pval *p4;
for (p4=p3->u1.list; p4; p4=p4->next) {
/* for each context pointed to, find it, then find a context/label that matches the
target here! */
char *incl_context = p4->u1.str;
/* find a matching context name */
struct pval *that_context = find_context(incl_context);
if (that_context) {
struct pval *x3;
x3 = find_label_in_current_context(exten, label, that_context);
if (x3) {
return x3;
}
}
}
}
}
return 0;
}
static struct pval *find_label_in_current_extension(const char *label, pval *curr_ext)
{
/* printf(" --- Got args %s\n", label); */
count_labels = 0;
return_on_context_match = 0;
match_context = "*";
match_exten = "*";
match_label = label;
return match_pval(curr_ext);
}
static struct pval *find_label_in_current_db(const char *context, const char *exten, const char *label)
{
/* printf(" --- Got args %s, %s, %s\n", context, exten, label); */
count_labels = 0;
return_on_context_match = 0;
match_context = context;
match_exten = exten;
match_label = label;
return match_pval(current_db);
}
struct pval *find_macro(char *name)
{
return_on_context_match = 1;
count_labels = 0;
match_context = name;
match_exten = "*"; /* don't really need to set these, shouldn't be reached */
match_label = "*";
return match_pval(current_db);
}
struct pval *find_context(char *name)
{
return_on_context_match = 1;
count_labels = 0;
match_context = name;
match_exten = "*"; /* don't really need to set these, shouldn't be reached */
match_label = "*";
return match_pval(current_db);
}
int is_float(char *arg )
{
char *s;
for (s=arg; *s; s++) {
if (*s != '.' && (*s < '0' || *s > '9'))
return 0;
}
return 1;
}
int is_int(char *arg )
{
char *s;
for (s=arg; *s; s++) {
if (*s < '0' || *s > '9')
return 0;
}
return 1;
}
int is_empty(char *arg)
{
if (!arg)
return 1;
if (*arg == 0)
return 1;
while (*arg) {
if (*arg != ' ' && *arg != '\t')
return 0;
arg++;
}
return 1;
}
#ifdef AAL_ARGCHECK
int option_matches_j( struct argdesc *should, pval *is, struct argapp *app)
{
struct argchoice *ac;
char *opcop,*q,*p;
switch (should->dtype) {
case ARGD_OPTIONSET:
if ( strstr(is->u1.str,"${") )
return 0; /* no checking anything if there's a var reference in there! */
opcop = ast_strdupa(is->u1.str);
for (q=opcop;*q;q++) { /* erase the innards of X(innard) type arguments, so we don't get confused later */
if ( *q == '(' ) {
p = q+1;
while (*p && *p != ')' )
*p++ = '+';
q = p+1;
}
}
for (ac=app->opts; ac; ac=ac->next) {
if (strlen(ac->name)>1 && strchr(ac->name,'(') == 0 && strcmp(ac->name,is->u1.str) == 0) /* multichar option, no parens, and a match? */
return 0;
}
for (ac=app->opts; ac; ac=ac->next) {
if (strlen(ac->name)==1 || strchr(ac->name,'(')) {
char *p = strchr(opcop,ac->name[0]); /* wipe out all matched options in the user-supplied string */
if (p && *p == 'j') {
ast_log(LOG_ERROR, "Error: file %s, line %d-%d: The j option in the %s application call is not appropriate for AEL!\n",
is->filename, is->startline, is->endline, app->name);
errs++;
}
if (p) {
*p = '+';
if (ac->name[1] == '(') {
if (*(p+1) != '(') {
ast_log(LOG_WARNING, "Warning: file %s, line %d-%d: The %c option in the %s application call should have an (argument), but doesn't!\n",
is->filename, is->startline, is->endline, ac->name[0], app->name);
warns++;
}
}
}
}
}
for (q=opcop; *q; q++) {
if ( *q != '+' && *q != '(' && *q != ')') {
ast_log(LOG_WARNING, "Warning: file %s, line %d-%d: The %c option in the %s application call is not available as an option!\n",
is->filename, is->startline, is->endline, *q, app->name);
warns++;
}
}
return 1;
break;
default:
return 0;
}
}
int option_matches( struct argdesc *should, pval *is, struct argapp *app)
{
struct argchoice *ac;
char *opcop;
switch (should->dtype) {
case ARGD_STRING:
if (is_empty(is->u1.str) && should->type == ARGD_REQUIRED)
return 0;
if (is->u1.str && strlen(is->u1.str) > 0) /* most will match */
return 1;
break;
case ARGD_INT:
if (is_int(is->u1.str))
return 1;
else
return 0;
break;
case ARGD_FLOAT:
if (is_float(is->u1.str))
return 1;
else
return 0;
break;
case ARGD_ENUM:
if( !is->u1.str || strlen(is->u1.str) == 0 )
return 1; /* a null arg in the call will match an enum, I guess! */
for (ac=should->choices; ac; ac=ac->next) {
if (strcmp(ac->name,is->u1.str) == 0)
return 1;
}
return 0;
break;
case ARGD_OPTIONSET:
opcop = ast_strdupa(is->u1.str);
for (ac=app->opts; ac; ac=ac->next) {
if (strlen(ac->name)>1 && strchr(ac->name,'(') == 0 && strcmp(ac->name,is->u1.str) == 0) /* multichar option, no parens, and a match? */
return 1;
}
for (ac=app->opts; ac; ac=ac->next) {
if (strlen(ac->name)==1 || strchr(ac->name,'(')) {
char *p = strchr(opcop,ac->name[0]); /* wipe out all matched options in the user-supplied string */
if (p) {
*p = '+';
if (ac->name[1] == '(') {
if (*(p+1) == '(') {
char *q = p+1;
while (*q && *q != ')') {
*q++ = '+';
}
*q = '+';
}
}
}
}
}
return 1;
break;
case ARGD_VARARG:
return 1; /* matches anything */
break;
}
return 1; /* unless some for-sure match or non-match returns, then it must be close enough ... */
}
#endif
int check_app_args(pval* appcall, pval *arglist, struct argapp *app)
{
#ifdef AAL_ARGCHECK
struct argdesc *ad = app->args;
pval *pa;
int z;
for (pa = arglist; pa; pa=pa->next) {
if (!ad) {
ast_log(LOG_WARNING, "Warning: file %s, line %d-%d: Extra argument %s not in application call to %s !\n",
arglist->filename, arglist->startline, arglist->endline, pa->u1.str, app->name);
warns++;
return 1;
} else {
/* find the first entry in the ad list that will match */
do {
if ( ad->dtype == ARGD_VARARG ) /* once we hit the VARARG, all bets are off. Discontinue the comparisons */
break;
z= option_matches( ad, pa, app);
if (!z) {
if ( !arglist )
arglist=appcall;
if (ad->type == ARGD_REQUIRED) {
ast_log(LOG_WARNING, "Warning: file %s, line %d-%d: Required argument %s not in application call to %s !\n",
arglist->filename, arglist->startline, arglist->endline, ad->dtype==ARGD_OPTIONSET?"options":ad->name, app->name);
warns++;
return 1;
}
} else if (z && ad->dtype == ARGD_OPTIONSET) {
option_matches_j( ad, pa, app);
}
ad = ad->next;
} while (ad && !z);
}
}
/* any app nodes left, that are not optional? */
for ( ; ad; ad=ad->next) {
if (ad->type == ARGD_REQUIRED && ad->dtype != ARGD_VARARG) {
if ( !arglist )
arglist=appcall;
ast_log(LOG_WARNING, "Warning: file %s, line %d-%d: Required argument %s not in application call to %s !\n",
arglist->filename, arglist->startline, arglist->endline, ad->dtype==ARGD_OPTIONSET?"options":ad->name, app->name);
warns++;
return 1;
}
}
return 0;
#else
return 0;
#endif
}
void check_switch_expr(pval *item, struct argapp *apps)
{
#ifdef AAL_ARGCHECK
/* get and clean the variable name */
char *buff1, *p;
struct argapp *a,*a2;
struct appsetvar *v,*v2;
struct argchoice *c;
pval *t;
p = item->u1.str;
while (p && *p && (*p == ' ' || *p == '\t' || *p == '$' || *p == '{' ) )
p++;
buff1 = ast_strdupa(p);
while (strlen(buff1) > 0 && ( buff1[strlen(buff1)-1] == '}' || buff1[strlen(buff1)-1] == ' ' || buff1[strlen(buff1)-1] == '\t'))
buff1[strlen(buff1)-1] = 0;
/* buff1 now contains the variable name */
v = 0;
for (a=apps; a; a=a->next) {
for (v=a->setvars;v;v=v->next) {
if (strcmp(v->name,buff1) == 0) {
break;
}
}
if ( v )
break;
}
if (v && v->vals) {
/* we have a match, to a variable that has a set of determined values */
int def= 0;
int pat = 0;
int f1 = 0;
/* first of all, does this switch have a default case ? */
for (t=item->u2.statements; t; t=t->next) {
if (t->type == PV_DEFAULT) {
def =1;
break;
}
if (t->type == PV_PATTERN) {
pat++;
}
}
if (def || pat) /* nothing to check. All cases accounted for! */
return;
for (c=v->vals; c; c=c->next) {
f1 = 0;
for (t=item->u2.statements; t; t=t->next) {
if (t->type == PV_CASE || t->type == PV_PATTERN) {
if (!strcmp(t->u1.str,c->name)) {
f1 = 1;
break;
}
}
}
if (!f1) {
ast_log(LOG_WARNING,"Warning: file %s, line %d-%d: switch with expression(%s) does not handle the case of %s !\n",
item->filename, item->startline, item->endline, item->u1.str, c->name);
warns++;
}
}
/* next, is there an app call in the current exten, that would set this var? */
f1 = 0;
t = current_extension->u2.statements;
if ( t && t->type == PV_STATEMENTBLOCK )
t = t->u1.statements;
for (; t && t != item; t=t->next) {
if (t->type == PV_APPLICATION_CALL) {
/* find the application that matches the u1.str */
for (a2=apps; a2; a2=a2->next) {
if (strcasecmp(a2->name, t->u1.str)==0) {
for (v2=a2->setvars; v2; v2=v2->next) {
if (strcmp(v2->name, buff1) == 0) {
/* found an app that sets the var */
f1 = 1;
break;
}
}
}
if (f1)
break;
}
}
if (f1)
break;
}
/* see if it sets the var */
if (!f1) {
ast_log(LOG_WARNING,"Warning: file %s, line %d-%d: Couldn't find an application call in this extension that sets the expression (%s) value!\n",
item->filename, item->startline, item->endline, item->u1.str);
warns++;
}
}
#else
pval *t,*tl=0,*p2;
int def= 0;
/* first of all, does this switch have a default case ? */
for (t=item->u2.statements; t; t=t->next) {
if (t->type == PV_DEFAULT) {
def =1;
break;
}
tl = t;
}
if (def) /* nothing to check. All cases accounted for! */
return;
/* if no default, warn and insert a default case at the end */
p2 = tl->next = calloc(1, sizeof(struct pval));
p2->type = PV_DEFAULT;
p2->startline = tl->startline;
p2->endline = tl->endline;
p2->startcol = tl->startcol;
p2->endcol = tl->endcol;
p2->filename = strdup(tl->filename);
ast_log(LOG_WARNING,"Warning: file %s, line %d-%d: A default case was automatically added to the switch.\n",
p2->filename, p2->startline, p2->endline);
warns++;
#endif
}
static void check_context_names(void)
{
pval *i,*j;
for (i=current_db; i; i=i->next) {
if (i->type == PV_CONTEXT || i->type == PV_MACRO) {
for (j=i->next; j; j=j->next) {
if ( j->type == PV_CONTEXT || j->type == PV_MACRO ) {
if ( !strcmp(i->u1.str, j->u1.str) && !(i->u3.abstract&2) && !(j->u3.abstract&2) )
{
ast_log(LOG_WARNING,"Warning: file %s, line %d-%d: The context name (%s) is also declared in file %s, line %d-%d! (and neither is marked 'extend')\n",
i->filename, i->startline, i->endline, i->u1.str, j->filename, j->startline, j->endline);
warns++;
}
}
}
}
}
}
static void check_abstract_reference(pval *abstract_context)
{
pval *i,*j;
/* find some context includes that reference this context */
/* otherwise, print out a warning */
for (i=current_db; i; i=i->next) {
if (i->type == PV_CONTEXT) {
for (j=i->u2. statements; j; j=j->next) {
if ( j->type == PV_INCLUDES ) {
struct pval *p4;
for (p4=j->u1.list; p4; p4=p4->next) {
/* for each context pointed to, find it, then find a context/label that matches the
target here! */
if ( !strcmp(p4->u1.str, abstract_context->u1.str) )
return; /* found a match! */
}
}
}
}
}
ast_log(LOG_WARNING,"Warning: file %s, line %d-%d: Couldn't find a reference to this abstract context (%s) in any other context!\n",
abstract_context->filename, abstract_context->startline, abstract_context->endline, abstract_context->u1.str);
warns++;
}
void check_pval_item(pval *item, struct argapp *apps, int in_globals)
{
pval *lp;
#ifdef AAL_ARGCHECK
struct argapp *app, *found;
#endif
struct pval *macro_def;
struct pval *app_def;
char errmsg[4096];
char *strp;
switch (item->type) {
case PV_WORD:
/* fields: item->u1.str == string associated with this (word).
item->u2.arglist == pval list of 4 PV_WORD elements for time values (only in PV_INCLUDES) */
break;
case PV_MACRO:
/* fields: item->u1.str == name of macro
item->u2.arglist == pval list of PV_WORD arguments of macro, as given by user
item->u2.arglist->u1.str == argument
item->u2.arglist->next == next arg
item->u3.macro_statements == pval list of statements in macro body.
*/
in_abstract_context = 0;
current_context = item;
current_extension = 0;
check_macro_returns(item);
for (lp=item->u2.arglist; lp; lp=lp->next) {
}
check_pval(item->u3.macro_statements, apps,in_globals);
break;
case PV_CONTEXT:
/* fields: item->u1.str == name of context
item->u2.statements == pval list of statements in context body
item->u3.abstract == int 1 if an abstract keyword were present
*/
current_context = item;
current_extension = 0;
if ( item->u3.abstract ) {
in_abstract_context = 1;
check_abstract_reference(item);
} else
in_abstract_context = 0;
check_pval(item->u2.statements, apps,in_globals);
break;
case PV_MACRO_CALL:
/* fields: item->u1.str == name of macro to call
item->u2.arglist == pval list of PV_WORD arguments of macro call, as given by user
item->u2.arglist->u1.str == argument
item->u2.arglist->next == next arg
*/
#ifdef STANDALONE
/* if this is a standalone, we will need to make sure the
localized load of extensions.conf is done */
if (!extensions_dot_conf_loaded) {
localized_pbx_load_module();
extensions_dot_conf_loaded++;
}
#endif
macro_def = find_macro(item->u1.str);
if (!macro_def) {
#ifdef STANDALONE
struct pbx_find_info pfiq = {.stacklen = 0 };
struct pbx_find_info pfiq2 = {.stacklen = 0 };
/* look for the macro in the extensions.conf world */
pbx_find_extension(NULL, NULL, &pfiq, item->u1.str, "s", 1, NULL, NULL, E_MATCH);
if (pfiq.status != STATUS_SUCCESS) {
char namebuf2[256];
snprintf(namebuf2, 256, "macro-%s", item->u1.str);
/* look for the macro in the extensions.conf world */
pbx_find_extension(NULL, NULL, &pfiq2, namebuf2, "s", 1, NULL, NULL, E_MATCH);
if (pfiq2.status == STATUS_SUCCESS) {
ast_log(LOG_WARNING, "Warning: file %s, line %d-%d: macro call to non-existent %s! (macro-%s was found in the extensions.conf stuff, but we are using gosubs!)\n",
item->filename, item->startline, item->endline, item->u1.str, item->u1.str);
warns++;
} else {
ast_log(LOG_WARNING, "Warning: file %s, line %d-%d: macro call to non-existent %s! (Not even in the extensions.conf stuff!)\n",
item->filename, item->startline, item->endline, item->u1.str);
warns++;
}
}
#else
ast_log(LOG_WARNING, "Warning: file %s, line %d-%d: macro call to %s cannot be found in the AEL code!\n",
item->filename, item->startline, item->endline, item->u1.str);
warns++;
#endif
#ifdef THIS_IS_1DOT4
char namebuf2[256];
snprintf(namebuf2, 256, "macro-%s", item->u1.str);
/* look for the macro in the extensions.conf world */
pbx_find_extension(NULL, NULL, &pfiq, namebuf2, "s", 1, NULL, NULL, E_MATCH);
if (pfiq.status != STATUS_SUCCESS) {
ast_log(LOG_WARNING, "Warning: file %s, line %d-%d: macro call to %s was not found in the AEL, nor the extensions.conf !\n",
item->filename, item->startline, item->endline, item->u1.str);
warns++;
}
#endif
} else if (macro_def->type != PV_MACRO) {
ast_log(LOG_ERROR,"Error: file %s, line %d-%d: macro call to %s references a context, not a macro!\n",
item->filename, item->startline, item->endline, item->u1.str);
errs++;
} else {
/* macro_def is a MACRO, so do the args match in number? */
int hereargs = 0;
int thereargs = 0;
for (lp=item->u2.arglist; lp; lp=lp->next) {
hereargs++;
}
for (lp=macro_def->u2.arglist; lp; lp=lp->next) {
thereargs++;
}
if (hereargs != thereargs ) {
ast_log(LOG_ERROR, "Error: file %s, line %d-%d: The macro call to %s has %d arguments, but the macro definition has %d arguments\n",
item->filename, item->startline, item->endline, item->u1.str, hereargs, thereargs);
errs++;
}
}
break;
case PV_APPLICATION_CALL:
/* fields: item->u1.str == name of application to call
item->u2.arglist == pval list of PV_WORD arguments of macro call, as given by user
item->u2.arglist->u1.str == argument
item->u2.arglist->next == next arg
*/
/* Need to check to see if the application is available! */
app_def = find_context(item->u1.str);
if (app_def && app_def->type == PV_MACRO) {
ast_log(LOG_ERROR,"Error: file %s, line %d-%d: application call to %s references an existing macro, but had no & preceding it!\n",
item->filename, item->startline, item->endline, item->u1.str);
errs++;
}
if (strcasecmp(item->u1.str,"GotoIf") == 0
|| strcasecmp(item->u1.str,"GotoIfTime") == 0
|| strcasecmp(item->u1.str,"while") == 0
|| strcasecmp(item->u1.str,"endwhile") == 0
|| strcasecmp(item->u1.str,"random") == 0
|| strcasecmp(item->u1.str,"gosub") == 0
|| strcasecmp(item->u1.str,"gosubif") == 0
|| strcasecmp(item->u1.str,"continuewhile") == 0
|| strcasecmp(item->u1.str,"endwhile") == 0
|| strcasecmp(item->u1.str,"execif") == 0
|| strcasecmp(item->u1.str,"execiftime") == 0
|| strcasecmp(item->u1.str,"exitwhile") == 0
|| strcasecmp(item->u1.str,"goto") == 0
|| strcasecmp(item->u1.str,"macro") == 0
|| strcasecmp(item->u1.str,"macroexclusive") == 0
|| strcasecmp(item->u1.str,"macroif") == 0
|| strcasecmp(item->u1.str,"stackpop") == 0
|| strcasecmp(item->u1.str,"execIf") == 0 ) {
ast_log(LOG_WARNING,"Warning: file %s, line %d-%d: application call to %s affects flow of control, and needs to be re-written using AEL if, while, goto, etc. keywords instead!\n",
item->filename, item->startline, item->endline, item->u1.str);
warns++;
}
if (strcasecmp(item->u1.str,"macroexit") == 0) {
ast_log(LOG_WARNING, "Warning: file %s, line %d-%d: I am converting the MacroExit call here to a return statement.\n",
item->filename, item->startline, item->endline);
item->type = PV_RETURN;
free(item->u1.str);
item->u1.str = 0;
}
#ifdef AAL_ARGCHECK
found = 0;
for (app=apps; app; app=app->next) {
if (strcasecmp(app->name, item->u1.str) == 0) {
found =app;
break;
}
}
if (!found) {
ast_log(LOG_WARNING,"Warning: file %s, line %d-%d: application call to %s not listed in applist database!\n",
item->filename, item->startline, item->endline, item->u1.str);
warns++;
} else
check_app_args(item, item->u2.arglist, app);
#endif
break;
case PV_CASE:
/* fields: item->u1.str == value of case
item->u2.statements == pval list of statements under the case
*/
/* Make sure sequence of statements under case is terminated with goto, return, or break */
/* find the last statement */
check_pval(item->u2.statements, apps,in_globals);
break;
case PV_PATTERN:
/* fields: item->u1.str == value of case
item->u2.statements == pval list of statements under the case
*/
/* Make sure sequence of statements under case is terminated with goto, return, or break */
/* find the last statement */
check_pval(item->u2.statements, apps,in_globals);
break;
case PV_DEFAULT:
/* fields:
item->u2.statements == pval list of statements under the case
*/
check_pval(item->u2.statements, apps,in_globals);
break;
case PV_CATCH:
/* fields: item->u1.str == name of extension to catch
item->u2.statements == pval list of statements in context body
*/
check_pval(item->u2.statements, apps,in_globals);
break;
case PV_SWITCHES:
/* fields: item->u1.list == pval list of PV_WORD elements, one per entry in the list
*/
check_pval(item->u1.list, apps,in_globals);
break;
case PV_ESWITCHES:
/* fields: item->u1.list == pval list of PV_WORD elements, one per entry in the list
*/
check_pval(item->u1.list, apps,in_globals);
break;
case PV_INCLUDES:
/* fields: item->u1.list == pval list of PV_WORD elements, one per entry in the list
*/
check_pval(item->u1.list, apps,in_globals);
check_includes(item);
for (lp=item->u1.list; lp; lp=lp->next){
char *incl_context = lp->u1.str;
struct pval *that_context = find_context(incl_context);
if ( lp->u2.arglist ) {
check_timerange(lp->u2.arglist);
check_dow(lp->u2.arglist->next);
check_day(lp->u2.arglist->next->next);
check_month(lp->u2.arglist->next->next->next);
}
if (that_context) {
find_pval_gotos(that_context->u2.statements,0);
}
}
break;
case PV_STATEMENTBLOCK:
/* fields: item->u1.list == pval list of statements in block, one per entry in the list
*/
check_pval(item->u1.list, apps,in_globals);
break;
case PV_VARDEC:
/* fields: item->u1.str == variable name
item->u2.val == variable value to assign
*/
/* the RHS of a vardec is encapsulated in a $[] expr. Is it legal? */
if( !in_globals ) { /* don't check stuff inside the globals context; no wrapping in $[ ] there... */
snprintf(errmsg,sizeof(errmsg), "file %s, line %d, columns %d-%d, variable declaration expr '%s':", item->filename, item->startline, item->startcol, item->endcol, item->u2.val);
ast_expr_register_extra_error_info(errmsg);
ast_expr(item->u2.val, expr_output, sizeof(expr_output),NULL);
ast_expr_clear_extra_error_info();
if ( strpbrk(item->u2.val,"~!-+<>=*/&^") && !strstr(item->u2.val,"${") ) {
ast_log(LOG_WARNING,"Warning: file %s, line %d-%d: expression %s has operators, but no variables. Interesting...\n",
item->filename, item->startline, item->endline, item->u2.val);
warns++;
}
check_expr2_input(item,item->u2.val);
}
break;
case PV_LOCALVARDEC:
/* fields: item->u1.str == variable name
item->u2.val == variable value to assign
*/
/* the RHS of a vardec is encapsulated in a $[] expr. Is it legal? */
snprintf(errmsg,sizeof(errmsg), "file %s, line %d, columns %d-%d, variable declaration expr '%s':", item->filename, item->startline, item->startcol, item->endcol, item->u2.val);
ast_expr_register_extra_error_info(errmsg);
ast_expr(item->u2.val, expr_output, sizeof(expr_output),NULL);
ast_expr_clear_extra_error_info();
if ( strpbrk(item->u2.val,"~!-+<>=*/&^") && !strstr(item->u2.val,"${") ) {
ast_log(LOG_WARNING,"Warning: file %s, line %d-%d: expression %s has operators, but no variables. Interesting...\n",
item->filename, item->startline, item->endline, item->u2.val);
warns++;
}
check_expr2_input(item,item->u2.val);
break;
case PV_GOTO:
/* fields: item->u1.list == pval list of PV_WORD target names, up to 3, in order as given by user.
item->u1.list->u1.str == where the data on a PV_WORD will always be.
*/
/* don't check goto's in abstract contexts */
if ( in_abstract_context )
break;
check_goto(item);
break;
case PV_LABEL:
/* fields: item->u1.str == label name
*/
if ( strspn(item->u1.str, "0123456789") == strlen(item->u1.str) ) {
ast_log(LOG_WARNING,"Warning: file %s, line %d-%d: label '%s' is numeric, this is bad practice!\n",
item->filename, item->startline, item->endline, item->u1.str);
warns++;
}
check_label(item);
break;
case PV_FOR:
/* fields: item->u1.for_init == a string containing the initalizer
item->u2.for_test == a string containing the loop test
item->u3.for_inc == a string containing the loop increment
item->u4.for_statements == a pval list of statements in the for ()
*/
snprintf(errmsg,sizeof(errmsg),"file %s, line %d, columns %d-%d, for test expr '%s':", item->filename, item->startline, item->startcol, item->endcol, item->u2.for_test);
ast_expr_register_extra_error_info(errmsg);
strp = strchr(item->u1.for_init, '=');
if (strp) {
ast_expr(strp+1, expr_output, sizeof(expr_output),NULL);
}
ast_expr(item->u2.for_test, expr_output, sizeof(expr_output),NULL);
strp = strchr(item->u3.for_inc, '=');
if (strp) {
ast_expr(strp+1, expr_output, sizeof(expr_output),NULL);
}
if ( strpbrk(item->u2.for_test,"~!-+<>=*/&^") && !strstr(item->u2.for_test,"${") ) {
ast_log(LOG_WARNING,"Warning: file %s, line %d-%d: expression %s has operators, but no variables. Interesting...\n",
item->filename, item->startline, item->endline, item->u2.for_test);
warns++;
}
if ( strpbrk(item->u3.for_inc,"~!-+<>=*/&^") && !strstr(item->u3.for_inc,"${") ) {
ast_log(LOG_WARNING,"Warning: file %s, line %d-%d: expression %s has operators, but no variables. Interesting...\n",
item->filename, item->startline, item->endline, item->u3.for_inc);
warns++;
}
check_expr2_input(item,item->u2.for_test);
check_expr2_input(item,item->u3.for_inc);
ast_expr_clear_extra_error_info();
check_pval(item->u4.for_statements, apps,in_globals);
break;
case PV_WHILE:
/* fields: item->u1.str == the while conditional, as supplied by user
item->u2.statements == a pval list of statements in the while ()
*/
snprintf(errmsg,sizeof(errmsg),"file %s, line %d, columns %d-%d, while expr '%s':", item->filename, item->startline, item->startcol, item->endcol, item->u1.str);
ast_expr_register_extra_error_info(errmsg);
ast_expr(item->u1.str, expr_output, sizeof(expr_output),NULL);
ast_expr_clear_extra_error_info();
if ( strpbrk(item->u1.str,"~!-+<>=*/&^") && !strstr(item->u1.str,"${") ) {
ast_log(LOG_WARNING,"Warning: file %s, line %d-%d: expression %s has operators, but no variables. Interesting...\n",
item->filename, item->startline, item->endline, item->u1.str);
warns++;
}
check_expr2_input(item,item->u1.str);
check_pval(item->u2.statements, apps,in_globals);
break;
case PV_BREAK:
/* fields: none
*/
check_break(item);
break;
case PV_RETURN:
/* fields: none
*/
break;
case PV_CONTINUE:
/* fields: none
*/
check_continue(item);
break;
case PV_RANDOM:
/* fields: item->u1.str == the random number expression, as supplied by user
item->u2.statements == a pval list of statements in the if ()
item->u3.else_statements == a pval list of statements in the else
(could be zero)
*/
snprintf(errmsg,sizeof(errmsg),"file %s, line %d, columns %d-%d, random expr '%s':", item->filename, item->startline, item->startcol, item->endcol, item->u1.str);
ast_expr_register_extra_error_info(errmsg);
ast_expr(item->u1.str, expr_output, sizeof(expr_output),NULL);
ast_expr_clear_extra_error_info();
if ( strpbrk(item->u1.str,"~!-+<>=*/&^") && !strstr(item->u1.str,"${") ) {
ast_log(LOG_WARNING,"Warning: file %s, line %d-%d: random expression '%s' has operators, but no variables. Interesting...\n",
item->filename, item->startline, item->endline, item->u1.str);
warns++;
}
check_expr2_input(item,item->u1.str);
check_pval(item->u2.statements, apps,in_globals);
if (item->u3.else_statements) {
check_pval(item->u3.else_statements, apps,in_globals);
}
break;
case PV_IFTIME:
/* fields: item->u1.list == the if time values, 4 of them, each in PV_WORD, linked list
item->u2.statements == a pval list of statements in the if ()
item->u3.else_statements == a pval list of statements in the else
(could be zero)
*/
if ( item->u2.arglist ) {
check_timerange(item->u1.list);
check_dow(item->u1.list->next);
check_day(item->u1.list->next->next);
check_month(item->u1.list->next->next->next);
}
check_pval(item->u2.statements, apps,in_globals);
if (item->u3.else_statements) {
check_pval(item->u3.else_statements, apps,in_globals);
}
break;
case PV_IF:
/* fields: item->u1.str == the if conditional, as supplied by user
item->u2.statements == a pval list of statements in the if ()
item->u3.else_statements == a pval list of statements in the else
(could be zero)
*/
snprintf(errmsg,sizeof(errmsg),"file %s, line %d, columns %d-%d, if expr '%s':", item->filename, item->startline, item->startcol, item->endcol, item->u1.str);
ast_expr_register_extra_error_info(errmsg);
ast_expr(item->u1.str, expr_output, sizeof(expr_output),NULL);
ast_expr_clear_extra_error_info();
if ( strpbrk(item->u1.str,"~!-+<>=*/&^") && !strstr(item->u1.str,"${") ) {
ast_log(LOG_WARNING,"Warning: file %s, line %d-%d: expression '%s' has operators, but no variables. Interesting...\n",
item->filename, item->startline, item->endline, item->u1.str);
warns++;
}
check_expr2_input(item,item->u1.str);
check_pval(item->u2.statements, apps,in_globals);
if (item->u3.else_statements) {
check_pval(item->u3.else_statements, apps,in_globals);
}
break;
case PV_SWITCH:
/* fields: item->u1.str == the switch expression
item->u2.statements == a pval list of statements in the switch,
(will be case statements, most likely!)
*/
/* we can check the switch expression, see if it matches any of the app variables...
if it does, then, are all the possible cases accounted for? */
check_switch_expr(item, apps);
check_pval(item->u2.statements, apps,in_globals);
break;
case PV_EXTENSION:
/* fields: item->u1.str == the extension name, label, whatever it's called
item->u2.statements == a pval list of statements in the extension
item->u3.hints == a char * hint argument
item->u4.regexten == an int boolean. non-zero says that regexten was specified
*/
current_extension = item ;
check_pval(item->u2.statements, apps,in_globals);
break;
case PV_IGNOREPAT:
/* fields: item->u1.str == the ignorepat data
*/
break;
case PV_GLOBALS:
/* fields: item->u1.statements == pval list of statements, usually vardecs
*/
in_abstract_context = 0;
check_pval(item->u1.statements, apps, 1);
break;
default:
break;
}
}
void check_pval(pval *item, struct argapp *apps, int in_globals)
{
pval *i;
/* checks to do:
1. Do goto's point to actual labels?
2. Do macro calls reference a macro?
3. Does the number of macro args match the definition?
4. Is a macro call missing its & at the front?
5. Application calls-- we could check syntax for existing applications,
but I need some some sort of universal description bnf for a general
sort of method for checking arguments, in number, maybe even type, at least.
Don't want to hand code checks for hundreds of applications.
*/
for (i=item; i; i=i->next) {
check_pval_item(i,apps,in_globals);
}
}
void ael2_semantic_check(pval *item, int *arg_errs, int *arg_warns, int *arg_notes)
{
#ifdef AAL_ARGCHECK
int argapp_errs =0;
char *rfilename;
#endif
struct argapp *apps=0;
if (!item)
return; /* don't check an empty tree */
#ifdef AAL_ARGCHECK
rfilename = alloca(10 + strlen(ast_config_AST_VAR_DIR));
sprintf(rfilename, "%s/applist", ast_config_AST_VAR_DIR);
apps = argdesc_parse(rfilename, &argapp_errs); /* giveth */
#endif
current_db = item;
errs = warns = notes = 0;
check_context_names();
check_pval(item, apps, 0);
#ifdef AAL_ARGCHECK
argdesc_destroy(apps); /* taketh away */
#endif
current_db = 0;
*arg_errs = errs;
*arg_warns = warns;
*arg_notes = notes;
}
/* =============================================================================================== */
/* "CODE" GENERATOR -- Convert the AEL representation to asterisk extension language */
/* =============================================================================================== */
static int control_statement_count = 0;
struct ael_priority *new_prio(void)
{
struct ael_priority *x = (struct ael_priority *)calloc(sizeof(struct ael_priority),1);
return x;
}
struct ael_extension *new_exten(void)
{
struct ael_extension *x = (struct ael_extension *)calloc(sizeof(struct ael_extension),1);
return x;
}
void linkprio(struct ael_extension *exten, struct ael_priority *prio, struct ael_extension *mother_exten)
{
char *p1, *p2;
if (!exten->plist) {
exten->plist = prio;
exten->plist_last = prio;
} else {
exten->plist_last->next = prio;
exten->plist_last = prio;
}
if( !prio->exten )
prio->exten = exten; /* don't override the switch value */
/* The following code will cause all priorities within an extension
to have ${EXTEN} or ${EXTEN: replaced with ~~EXTEN~~, which is
set just before the first switch in an exten. The switches
will muck up the original ${EXTEN} value, so we save it away
and the user accesses this copy instead. */
if (prio->appargs && ((mother_exten && mother_exten->has_switch) || exten->has_switch) ) {
while ((p1 = strstr(prio->appargs, "${EXTEN}"))) {
p2 = malloc(strlen(prio->appargs)+5);
*p1 = 0;
strcpy(p2, prio->appargs);
strcat(p2, "${~~EXTEN~~}");
if (*(p1+8))
strcat(p2, p1+8);
free(prio->appargs);
prio->appargs = p2;
}
while ((p1 = strstr(prio->appargs, "${EXTEN:"))) {
p2 = malloc(strlen(prio->appargs)+5);
*p1 = 0;
strcpy(p2, prio->appargs);
strcat(p2, "${~~EXTEN~~:");
if (*(p1+8))
strcat(p2, p1+8);
free(prio->appargs);
prio->appargs = p2;
}
}
}
void destroy_extensions(struct ael_extension *exten)
{
struct ael_extension *ne, *nen;
for (ne=exten; ne; ne=nen) {
struct ael_priority *pe, *pen;
if (ne->name)
free(ne->name);
/* cidmatch fields are allocated with name, and freed when
the name field is freed. Don't do a free for this field,
unless you LIKE to see a crash! */
if (ne->hints)
free(ne->hints);
for (pe=ne->plist; pe; pe=pen) {
pen = pe->next;
if (pe->app)
free(pe->app);
pe->app = 0;
if (pe->appargs)
free(pe->appargs);
pe->appargs = 0;
pe->origin = 0;
pe->goto_true = 0;
pe->goto_false = 0;
free(pe);
}
nen = ne->next_exten;
ne->next_exten = 0;
ne->plist =0;
ne->plist_last = 0;
ne->next_exten = 0;
ne->loop_break = 0;
ne->loop_continue = 0;
free(ne);
}
}
static int label_inside_case(pval *label)
{
pval *p = label;
while( p && p->type != PV_MACRO && p->type != PV_CONTEXT ) /* early cutout, sort of */ {
if( p->type == PV_CASE || p->type == PV_DEFAULT || p->type == PV_PATTERN ) {
return 1;
}
p = p->dad;
}
return 0;
}
static void linkexten(struct ael_extension *exten, struct ael_extension *add)
{
add->next_exten = exten->next_exten; /* this will reverse the order. Big deal. */
exten->next_exten = add;
}
static void remove_spaces_before_equals(char *str)
{
char *p;
while( str && *str && *str != '=' )
{
if( *str == ' ' || *str == '\n' || *str == '\r' || *str == '\t' )
{
p = str;
while( *p )
{
*p = *(p+1);
p++;
}
}
else
str++;
}
}
/* =============================================================================================== */
/* "CODE" GENERATOR -- Convert the AEL representation to asterisk extension language */
/* =============================================================================================== */
static void gen_match_to_pattern(char *pattern, char *result)
{
/* the result will be a string that will be matched by pattern */
char *p=pattern, *t=result;
while (*p) {
if (*p == 'x' || *p == 'n' || *p == 'z' || *p == 'X' || *p == 'N' || *p == 'Z')
*t++ = '9';
else if (*p == '[') {
char *z = p+1;
while (*z != ']')
z++;
if (*(z+1)== ']')
z++;
*t++=*(p+1); /* use the first char in the set */
p = z;
} else {
*t++ = *p;
}
p++;
}
*t++ = 0; /* cap it off */
}
/* ==== a set of routines to search for a switch statement contained in the pval description */
int find_switch_item(pval *item);
int contains_switch(pval *item);
int find_switch_item(pval *item)
{
switch ( item->type ) {
case PV_LOCALVARDEC:
/* fields: item->u1.str == string associated with this (word). */
break;
case PV_WORD:
/* fields: item->u1.str == string associated with this (word). */
break;
case PV_MACRO:
/* fields: item->u1.str == name of macro
item->u2.arglist == pval list of PV_WORD arguments of macro, as given by user
item->u2.arglist->u1.str == argument
item->u2.arglist->next == next arg
item->u3.macro_statements == pval list of statements in macro body.
*/
/* had better not see this */
if (contains_switch(item->u3.macro_statements))
return 1;
break;
case PV_CONTEXT:
/* fields: item->u1.str == name of context
item->u2.statements == pval list of statements in context body
item->u3.abstract == int 1 if an abstract keyword were present
*/
/* had better not see this */
if (contains_switch(item->u2.statements))
return 1;
break;
case PV_MACRO_CALL:
/* fields: item->u1.str == name of macro to call
item->u2.arglist == pval list of PV_WORD arguments of macro call, as given by user
item->u2.arglist->u1.str == argument
item->u2.arglist->next == next arg
*/
break;
case PV_APPLICATION_CALL:
/* fields: item->u1.str == name of application to call
item->u2.arglist == pval list of PV_WORD arguments of macro call, as given by user
item->u2.arglist->u1.str == argument
item->u2.arglist->next == next arg
*/
break;
case PV_CASE:
/* fields: item->u1.str == value of case
item->u2.statements == pval list of statements under the case
*/
/* had better not see this */
if (contains_switch(item->u2.statements))
return 1;
break;
case PV_PATTERN:
/* fields: item->u1.str == value of case
item->u2.statements == pval list of statements under the case
*/
/* had better not see this */
if (contains_switch(item->u2.statements))
return 1;
break;
case PV_DEFAULT:
/* fields:
item->u2.statements == pval list of statements under the case
*/
/* had better not see this */
if (contains_switch(item->u2.statements))
return 1;
break;
case PV_CATCH:
/* fields: item->u1.str == name of extension to catch
item->u2.statements == pval list of statements in context body
*/
/* had better not see this */
if (contains_switch(item->u2.statements))
return 1;
break;
case PV_SWITCHES:
/* fields: item->u1.list == pval list of PV_WORD elements, one per entry in the list
*/
break;
case PV_ESWITCHES:
/* fields: item->u1.list == pval list of PV_WORD elements, one per entry in the list
*/
break;
case PV_INCLUDES:
/* fields: item->u1.list == pval list of PV_WORD elements, one per entry in the list
item->u2.arglist == pval list of 4 PV_WORD elements for time values
*/
break;
case PV_STATEMENTBLOCK:
/* fields: item->u1.list == pval list of statements in block, one per entry in the list
*/
if (contains_switch(item->u1.list) )
return 1;
break;
case PV_VARDEC:
/* fields: item->u1.str == variable name
item->u2.val == variable value to assign
*/
break;
case PV_GOTO:
/* fields: item->u1.list == pval list of PV_WORD target names, up to 3, in order as given by user.
item->u1.list->u1.str == where the data on a PV_WORD will always be.
*/
break;
case PV_LABEL:
/* fields: item->u1.str == label name
*/
break;
case PV_FOR:
/* fields: item->u1.for_init == a string containing the initalizer
item->u2.for_test == a string containing the loop test
item->u3.for_inc == a string containing the loop increment
item->u4.for_statements == a pval list of statements in the for ()
*/
if (contains_switch(item->u4.for_statements))
return 1;
break;
case PV_WHILE:
/* fields: item->u1.str == the while conditional, as supplied by user
item->u2.statements == a pval list of statements in the while ()
*/
if (contains_switch(item->u2.statements))
return 1;
break;
case PV_BREAK:
/* fields: none
*/
break;
case PV_RETURN:
/* fields: none
*/
break;
case PV_CONTINUE:
/* fields: none
*/
break;
case PV_IFTIME:
/* fields: item->u1.list == there are 4 linked PV_WORDs here.
item->u2.statements == a pval list of statements in the if ()
item->u3.else_statements == a pval list of statements in the else
(could be zero)
*/
if (contains_switch(item->u2.statements))
return 1;
if ( item->u3.else_statements ) {
if (contains_switch(item->u3.else_statements))
return 1;
}
break;
case PV_RANDOM:
/* fields: item->u1.str == the random number expression, as supplied by user
item->u2.statements == a pval list of statements in the if ()
item->u3.else_statements == a pval list of statements in the else
(could be zero)
*/
if (contains_switch(item->u2.statements))
return 1;
if ( item->u3.else_statements ) {
if (contains_switch(item->u3.else_statements))
return 1;
}
break;
case PV_IF:
/* fields: item->u1.str == the if conditional, as supplied by user
item->u2.statements == a pval list of statements in the if ()
item->u3.else_statements == a pval list of statements in the else
(could be zero)
*/
if (contains_switch(item->u2.statements))
return 1;
if ( item->u3.else_statements ) {
if (contains_switch(item->u3.else_statements))
return 1;
}
break;
case PV_SWITCH:
/* fields: item->u1.str == the switch expression
item->u2.statements == a pval list of statements in the switch,
(will be case statements, most likely!)
*/
return 1; /* JACKPOT */
break;
case PV_EXTENSION:
/* fields: item->u1.str == the extension name, label, whatever it's called
item->u2.statements == a pval list of statements in the extension
item->u3.hints == a char * hint argument
item->u4.regexten == an int boolean. non-zero says that regexten was specified
*/
if (contains_switch(item->u2.statements))
return 1;
break;
case PV_IGNOREPAT:
/* fields: item->u1.str == the ignorepat data
*/
break;
case PV_GLOBALS:
/* fields: item->u1.statements == pval list of statements, usually vardecs
*/
break;
}
return 0;
}
int contains_switch(pval *item)
{
pval *i;
for (i=item; i; i=i->next) {
if (find_switch_item(i))
return 1;
}
return 0;
}
static int gen_prios(struct ael_extension *exten, char *label, pval *statement, struct ael_extension *mother_exten, struct ast_context *this_context )
{
pval *p,*p2,*p3;
struct ael_priority *pr;
struct ael_priority *for_init, *for_test, *for_inc, *for_loop, *for_end;
struct ael_priority *while_test, *while_loop, *while_end;
struct ael_priority *switch_set, *switch_test, *switch_end, *fall_thru, *switch_empty;
struct ael_priority *if_test, *if_end, *if_skip, *if_false;
#ifdef OLD_RAND_ACTION
struct ael_priority *rand_test, *rand_end, *rand_skip;
#endif
char *buf1;
char *buf2;
char *new_label;
char *strp, *strp2;
int default_exists;
int local_control_statement_count;
int first;
struct ael_priority *loop_break_save;
struct ael_priority *loop_continue_save;
struct ael_extension *switch_case,*switch_null;
if (!(buf1 = malloc(BUF_SIZE))) {
return -1;
}
if (!(buf2 = malloc(BUF_SIZE))) {
return -1;
}
if (!(new_label = malloc(BUF_SIZE))) {
return -1;
}
if ((mother_exten && !mother_exten->checked_switch) || (exten && !exten->checked_switch)) {
if (contains_switch(statement)) { /* only run contains_switch if you haven't checked before */
if (mother_exten) {
if (!mother_exten->has_switch) {
for (first = 1; first >= 0; first--) {
switch_set = new_prio();
switch_set->type = AEL_APPCALL;
if (!ast_compat_app_set) {
switch_set->app = strdup("MSet");
} else {
switch_set->app = strdup("Set");
}
/* Are we likely inside a gosub subroutine? */
if (!strcmp(mother_exten->name, "~~s~~") && first) {
/* If we're not actually within a gosub, this will fail, but the
* second time through, it will get set. If we are within gosub,
* the second time through is redundant, but acceptable. */
switch_set->appargs = strdup("LOCAL(~~EXTEN~~)=${EXTEN}");
} else {
switch_set->appargs = strdup("~~EXTEN~~=${EXTEN}");
first = 0;
}
linkprio(exten, switch_set, mother_exten);
mother_exten->has_switch = 1;
mother_exten->checked_switch = 1;
if (exten) {
exten->has_switch = 1;
exten->checked_switch = 1;
}
}
}
} else if (exten) {
if (!exten->has_switch) {
for (first = 1; first >= 0; first--) {
switch_set = new_prio();
switch_set->type = AEL_APPCALL;
if (!ast_compat_app_set) {
switch_set->app = strdup("MSet");
} else {
switch_set->app = strdup("Set");
}
/* Are we likely inside a gosub subroutine? */
if (!strcmp(exten->name, "~~s~~")) {
/* If we're not actually within a gosub, this will fail, but the
* second time through, it will get set. If we are within gosub,
* the second time through is redundant, but acceptable. */
switch_set->appargs = strdup("LOCAL(~~EXTEN~~)=${EXTEN}");
} else {
switch_set->appargs = strdup("~~EXTEN~~=${EXTEN}");
first = 0;
}
linkprio(exten, switch_set, mother_exten);
exten->has_switch = 1;
exten->checked_switch = 1;
if (mother_exten) {
mother_exten->has_switch = 1;
mother_exten->checked_switch = 1;
}
}
}
}
} else {
if (mother_exten) {
mother_exten->checked_switch = 1;
}
if (exten) {
exten->checked_switch = 1;
}
}
}
for (p=statement; p; p=p->next) {
switch (p->type) {
case PV_VARDEC:
pr = new_prio();
pr->type = AEL_APPCALL;
snprintf(buf1, BUF_SIZE, "%s=$[%s]", p->u1.str, p->u2.val);
if (!ast_compat_app_set) {
pr->app = strdup("MSet");
} else {
pr->app = strdup("Set");
}
remove_spaces_before_equals(buf1);
pr->appargs = strdup(buf1);
pr->origin = p;
linkprio(exten, pr, mother_exten);
break;
case PV_LOCALVARDEC:
pr = new_prio();
pr->type = AEL_APPCALL;
snprintf(buf1, BUF_SIZE, "LOCAL(%s)=$[%s]", p->u1.str, p->u2.val);
if (!ast_compat_app_set) {
pr->app = strdup("MSet");
} else {
pr->app = strdup("Set");
}
remove_spaces_before_equals(buf1);
pr->appargs = strdup(buf1);
pr->origin = p;
linkprio(exten, pr, mother_exten);
break;
case PV_GOTO:
pr = new_prio();
pr->type = AEL_APPCALL;
p->u2.goto_target = get_goto_target(p);
if( p->u2.goto_target ) {
p->u3.goto_target_in_case = label_inside_case(p->u2.goto_target);
}
if (!p->u1.list->next) /* just one */ {
pr->app = strdup("Goto");
if (!mother_exten)
pr->appargs = strdup(p->u1.list->u1.str);
else { /* for the case of simple within-extension gotos in case/pattern/default statement blocks: */
snprintf(buf1, BUF_SIZE, "%s,%s", mother_exten->name, p->u1.list->u1.str);
pr->appargs = strdup(buf1);
}
} else if (p->u1.list->next && !p->u1.list->next->next) /* two */ {
snprintf(buf1, BUF_SIZE, "%s,%s", p->u1.list->u1.str, p->u1.list->next->u1.str);
pr->app = strdup("Goto");
pr->appargs = strdup(buf1);
} else if (p->u1.list->next && p->u1.list->next->next) {
snprintf(buf1, BUF_SIZE, "%s,%s,%s", p->u1.list->u1.str,
p->u1.list->next->u1.str,
p->u1.list->next->next->u1.str);
pr->app = strdup("Goto");
pr->appargs = strdup(buf1);
}
pr->origin = p;
linkprio(exten, pr, mother_exten);
break;
case PV_LABEL:
pr = new_prio();
pr->type = AEL_LABEL;
pr->origin = p;
p->u3.compiled_label = exten;
linkprio(exten, pr, mother_exten);
break;
case PV_FOR:
control_statement_count++;
loop_break_save = exten->loop_break; /* save them, then restore before leaving */
loop_continue_save = exten->loop_continue;
snprintf(new_label, BUF_SIZE, "for_%s_%d", label, control_statement_count);
for_init = new_prio();
for_inc = new_prio();
for_test = new_prio();
for_loop = new_prio();
for_end = new_prio();
for_init->type = AEL_APPCALL;
for_inc->type = AEL_APPCALL;
for_test->type = AEL_FOR_CONTROL;
for_test->goto_false = for_end;
for_loop->type = AEL_CONTROL1; /* simple goto */
for_end->type = AEL_APPCALL;
if (!ast_compat_app_set) {
for_init->app = strdup("MSet");
} else {
for_init->app = strdup("Set");
}
strcpy(buf2,p->u1.for_init);
remove_spaces_before_equals(buf2);
strp = strchr(buf2, '=');
if (strp) {
strp2 = strchr(p->u1.for_init, '=');
*(strp+1) = 0;
strcat(buf2,"$[");
strncat(buf2,strp2+1, BUF_SIZE-strlen(strp2+1)-2);
strcat(buf2,"]");
for_init->appargs = strdup(buf2);
} else {
strp2 = p->u1.for_init;
while (*strp2 && isspace(*strp2))
strp2++;
if (*strp2 == '&') { /* itsa macro call */
char *strp3 = strp2+1;
while (*strp3 && isspace(*strp3))
strp3++;
strcpy(buf2, strp3);
strp3 = strchr(buf2,'(');
if (strp3) {
*strp3 = '|';
}
while ((strp3=strchr(buf2,','))) {
*strp3 = '|';
}
strp3 = strrchr(buf2, ')');
if (strp3)
*strp3 = 0; /* remove the closing paren */
for_init->appargs = strdup(buf2);
free(for_init->app);
for_init->app = strdup("Macro");
} else { /* must be a regular app call */
char *strp3;
strcpy(buf2, strp2);
strp3 = strchr(buf2,'(');
if (strp3) {
*strp3 = 0;
free(for_init->app);
for_init->app = strdup(buf2);
for_init->appargs = strdup(strp3+1);
strp3 = strrchr(for_init->appargs, ')');
if (strp3)
*strp3 = 0; /* remove the closing paren */
}
}
}
strcpy(buf2,p->u3.for_inc);
remove_spaces_before_equals(buf2);
strp = strchr(buf2, '=');
if (strp) { /* there's an = in this part; that means an assignment. set it up */
strp2 = strchr(p->u3.for_inc, '=');
*(strp+1) = 0;
strcat(buf2,"$[");
strncat(buf2,strp2+1, BUF_SIZE-strlen(strp2+1)-2);
strcat(buf2,"]");
for_inc->appargs = strdup(buf2);
if (!ast_compat_app_set) {
for_inc->app = strdup("MSet");
} else {
for_inc->app = strdup("Set");
}
} else {
strp2 = p->u3.for_inc;
while (*strp2 && isspace(*strp2))
strp2++;
if (*strp2 == '&') { /* itsa macro call */
char *strp3 = strp2+1;
while (*strp3 && isspace(*strp3))
strp3++;
strcpy(buf2, strp3);
strp3 = strchr(buf2,'(');
if (strp3) {
*strp3 = ',';
}
strp3 = strrchr(buf2, ')');
if (strp3)
*strp3 = 0; /* remove the closing paren */
for_inc->appargs = strdup(buf2);
for_inc->app = strdup("Macro");
} else { /* must be a regular app call */
char *strp3;
strcpy(buf2, strp2);
strp3 = strchr(buf2,'(');
if (strp3) {
*strp3 = 0;
for_inc->app = strdup(buf2);
for_inc->appargs = strdup(strp3+1);
strp3 = strrchr(for_inc->appargs, ')');
if (strp3)
*strp3 = 0; /* remove the closing paren */
}
}
}
snprintf(buf1, BUF_SIZE, "$[%s]",p->u2.for_test);
for_test->app = 0;
for_test->appargs = strdup(buf1);
for_loop->goto_true = for_test;
snprintf(buf1, BUF_SIZE, "Finish for_%s_%d", label, control_statement_count);
for_end->app = strdup("NoOp");
for_end->appargs = strdup(buf1);
/* link & load! */
linkprio(exten, for_init, mother_exten);
linkprio(exten, for_test, mother_exten);
/* now, put the body of the for loop here */
exten->loop_break = for_end;
exten->loop_continue = for_inc;
if (gen_prios(exten, new_label, p->u4.for_statements, mother_exten, this_context)) { /* this will link in all the statements here */
return -1;
}
linkprio(exten, for_inc, mother_exten);
linkprio(exten, for_loop, mother_exten);
linkprio(exten, for_end, mother_exten);
exten->loop_break = loop_break_save;
exten->loop_continue = loop_continue_save;
for_loop->origin = p;
break;
case PV_WHILE:
control_statement_count++;
loop_break_save = exten->loop_break; /* save them, then restore before leaving */
loop_continue_save = exten->loop_continue;
snprintf(new_label, BUF_SIZE, "while_%s_%d", label, control_statement_count);
while_test = new_prio();
while_loop = new_prio();
while_end = new_prio();
while_test->type = AEL_FOR_CONTROL;
while_test->goto_false = while_end;
while_loop->type = AEL_CONTROL1; /* simple goto */
while_end->type = AEL_APPCALL;
snprintf(buf1, BUF_SIZE, "$[%s]",p->u1.str);
while_test->app = 0;
while_test->appargs = strdup(buf1);
while_loop->goto_true = while_test;
snprintf(buf1, BUF_SIZE, "Finish while_%s_%d", label, control_statement_count);
while_end->app = strdup("NoOp");
while_end->appargs = strdup(buf1);
linkprio(exten, while_test, mother_exten);
/* now, put the body of the for loop here */
exten->loop_break = while_end;
exten->loop_continue = while_test;
if (gen_prios(exten, new_label, p->u2.statements, mother_exten, this_context)) { /* this will link in all the while body statements here */
return -1;
}
linkprio(exten, while_loop, mother_exten);
linkprio(exten, while_end, mother_exten);
exten->loop_break = loop_break_save;
exten->loop_continue = loop_continue_save;
while_loop->origin = p;
break;
case PV_SWITCH:
control_statement_count++;
local_control_statement_count = control_statement_count;
loop_break_save = exten->loop_break; /* save them, then restore before leaving */
loop_continue_save = exten->loop_continue;
snprintf(new_label, BUF_SIZE, "sw_%s_%d", label, control_statement_count);
switch_test = new_prio();
switch_end = new_prio();
switch_test->type = AEL_APPCALL;
switch_end->type = AEL_APPCALL;
snprintf(buf1, BUF_SIZE, "sw_%d_%s,10", control_statement_count, p->u1.str);
switch_test->app = strdup("Goto");
switch_test->appargs = strdup(buf1);
snprintf(buf1, BUF_SIZE, "Finish switch_%s_%d", label, control_statement_count);
switch_end->app = strdup("NoOp");
switch_end->appargs = strdup(buf1);
switch_end->origin = p;
switch_end->exten = exten;
linkprio(exten, switch_test, mother_exten);
linkprio(exten, switch_end, mother_exten);
exten->loop_break = switch_end;
exten->loop_continue = 0;
default_exists = 0;
for (p2=p->u2.statements; p2; p2=p2->next) {
/* now, for each case/default put the body of the for loop here */
if (p2->type == PV_CASE) {
/* ok, generate a extension and link it in */
switch_case = new_exten();
if (mother_exten && mother_exten->checked_switch) {
switch_case->has_switch = mother_exten->has_switch;
switch_case->checked_switch = mother_exten->checked_switch;
}
if (exten && exten->checked_switch) {
switch_case->has_switch = exten->has_switch;
switch_case->checked_switch = exten->checked_switch;
}
switch_case->context = this_context;
switch_case->is_switch = 1;
/* the break/continue locations are inherited from parent */
switch_case->loop_break = exten->loop_break;
switch_case->loop_continue = exten->loop_continue;
linkexten(exten,switch_case);
snprintf(buf1, BUF_SIZE, "sw_%d_%s", local_control_statement_count, p2->u1.str);
switch_case->name = strdup(buf1);
snprintf(new_label, BUF_SIZE, "sw_%s_%s_%d", label, p2->u1.str, local_control_statement_count);
if (gen_prios(switch_case, new_label, p2->u2.statements, exten, this_context)) { /* this will link in all the case body statements here */
return -1;
}
/* here is where we write code to "fall thru" to the next case... if there is one... */
for (p3=p2->u2.statements; p3; p3=p3->next) {
if (!p3->next)
break;
}
/* p3 now points the last statement... */
if (!p3 || ( p3->type != PV_GOTO && p3->type != PV_BREAK && p3->type != PV_RETURN) ) {
/* is there a following CASE/PATTERN/DEFAULT? */
if (p2->next && p2->next->type == PV_CASE) {
fall_thru = new_prio();
fall_thru->type = AEL_APPCALL;
fall_thru->app = strdup("Goto");
snprintf(buf1, BUF_SIZE, "sw_%d_%s,10", local_control_statement_count, p2->next->u1.str);
fall_thru->appargs = strdup(buf1);
linkprio(switch_case, fall_thru, mother_exten);
} else if (p2->next && p2->next->type == PV_PATTERN) {
fall_thru = new_prio();
fall_thru->type = AEL_APPCALL;
fall_thru->app = strdup("Goto");
gen_match_to_pattern(p2->next->u1.str, buf2);
snprintf(buf1, BUF_SIZE, "sw_%d_%s,10", local_control_statement_count, buf2);
fall_thru->appargs = strdup(buf1);
linkprio(switch_case, fall_thru, mother_exten);
} else if (p2->next && p2->next->type == PV_DEFAULT) {
fall_thru = new_prio();
fall_thru->type = AEL_APPCALL;
fall_thru->app = strdup("Goto");
snprintf(buf1, BUF_SIZE, "sw_%d_.,10", local_control_statement_count);
fall_thru->appargs = strdup(buf1);
linkprio(switch_case, fall_thru, mother_exten);
} else if (!p2->next) {
fall_thru = new_prio();
fall_thru->type = AEL_CONTROL1;
fall_thru->goto_true = switch_end;
fall_thru->app = strdup("Goto");
linkprio(switch_case, fall_thru, mother_exten);
}
}
if (switch_case->return_needed) { /* returns don't generate a goto eoe (end of extension) any more, just a Return() app call) */
char buf[2000];
struct ael_priority *np2 = new_prio();
np2->type = AEL_APPCALL;
np2->app = strdup("NoOp");
snprintf(buf, BUF_SIZE, "End of Extension %s", switch_case->name);
np2->appargs = strdup(buf);
linkprio(switch_case, np2, mother_exten);
switch_case-> return_target = np2;
}
} else if (p2->type == PV_PATTERN) {
/* ok, generate a extension and link it in */
switch_case = new_exten();
if (mother_exten && mother_exten->checked_switch) {
switch_case->has_switch = mother_exten->has_switch;
switch_case->checked_switch = mother_exten->checked_switch;
}
if (exten && exten->checked_switch) {
switch_case->has_switch = exten->has_switch;
switch_case->checked_switch = exten->checked_switch;
}
switch_case->context = this_context;
switch_case->is_switch = 1;
/* the break/continue locations are inherited from parent */
switch_case->loop_break = exten->loop_break;
switch_case->loop_continue = exten->loop_continue;
linkexten(exten,switch_case);
snprintf(buf1, BUF_SIZE, "_sw_%d_%s", local_control_statement_count, p2->u1.str);
switch_case->name = strdup(buf1);
snprintf(new_label, BUF_SIZE, "sw_%s_%s_%d", label, p2->u1.str, local_control_statement_count);
if (gen_prios(switch_case, new_label, p2->u2.statements, exten, this_context)) { /* this will link in all the while body statements here */
return -1;
}
/* here is where we write code to "fall thru" to the next case... if there is one... */
for (p3=p2->u2.statements; p3; p3=p3->next) {
if (!p3->next)
break;
}
/* p3 now points the last statement... */
if (!p3 || ( p3->type != PV_GOTO && p3->type != PV_BREAK && p3->type != PV_RETURN)) {
/* is there a following CASE/PATTERN/DEFAULT? */
if (p2->next && p2->next->type == PV_CASE) {
fall_thru = new_prio();
fall_thru->type = AEL_APPCALL;
fall_thru->app = strdup("Goto");
snprintf(buf1, BUF_SIZE, "sw_%d_%s,10", local_control_statement_count, p2->next->u1.str);
fall_thru->appargs = strdup(buf1);
linkprio(switch_case, fall_thru, mother_exten);
} else if (p2->next && p2->next->type == PV_PATTERN) {
fall_thru = new_prio();
fall_thru->type = AEL_APPCALL;
fall_thru->app = strdup("Goto");
gen_match_to_pattern(p2->next->u1.str, buf2);
snprintf(buf1, BUF_SIZE, "sw_%d_%s,10", local_control_statement_count, buf2);
fall_thru->appargs = strdup(buf1);
linkprio(switch_case, fall_thru, mother_exten);
} else if (p2->next && p2->next->type == PV_DEFAULT) {
fall_thru = new_prio();
fall_thru->type = AEL_APPCALL;
fall_thru->app = strdup("Goto");
snprintf(buf1, BUF_SIZE, "sw_%d_.,10", local_control_statement_count);
fall_thru->appargs = strdup(buf1);
linkprio(switch_case, fall_thru, mother_exten);
} else if (!p2->next) {
fall_thru = new_prio();
fall_thru->type = AEL_CONTROL1;
fall_thru->goto_true = switch_end;
fall_thru->app = strdup("Goto");
linkprio(switch_case, fall_thru, mother_exten);
}
}
if (switch_case->return_needed) { /* returns don't generate a goto eoe (end of extension) any more, just a Return() app call) */
char buf[2000];
struct ael_priority *np2 = new_prio();
np2->type = AEL_APPCALL;
np2->app = strdup("NoOp");
snprintf(buf,sizeof(buf),"End of Extension %s", switch_case->name);
np2->appargs = strdup(buf);
linkprio(switch_case, np2, mother_exten);
switch_case-> return_target = np2;
}
} else if (p2->type == PV_DEFAULT) {
/* ok, generate a extension and link it in */
switch_case = new_exten();
if (mother_exten && mother_exten->checked_switch) {
switch_case->has_switch = mother_exten->has_switch;
switch_case->checked_switch = mother_exten->checked_switch;
}
if (exten && exten->checked_switch) {
switch_case->has_switch = exten->has_switch;
switch_case->checked_switch = exten->checked_switch;
}
switch_case->context = this_context;
switch_case->is_switch = 1;
/* new: the default case intros a pattern with ., which covers ALMOST everything.
but it doesn't cover a NULL pattern. So, we'll define a null extension to match
that goto's the default extension. */
default_exists++;
switch_null = new_exten();
if (mother_exten && mother_exten->checked_switch) {
switch_null->has_switch = mother_exten->has_switch;
switch_null->checked_switch = mother_exten->checked_switch;
}
if (exten && exten->checked_switch) {
switch_null->has_switch = exten->has_switch;
switch_null->checked_switch = exten->checked_switch;
}
switch_null->context = this_context;
switch_null->is_switch = 1;
switch_empty = new_prio();
snprintf(buf1, BUF_SIZE, "sw_%d_.,10", local_control_statement_count);
switch_empty->app = strdup("Goto");
switch_empty->appargs = strdup(buf1);
linkprio(switch_null, switch_empty, mother_exten);
snprintf(buf1, BUF_SIZE, "sw_%d_", local_control_statement_count);
switch_null->name = strdup(buf1);
switch_null->loop_break = exten->loop_break;
switch_null->loop_continue = exten->loop_continue;
linkexten(exten,switch_null);
/* the break/continue locations are inherited from parent */
switch_case->loop_break = exten->loop_break;
switch_case->loop_continue = exten->loop_continue;
linkexten(exten,switch_case);
snprintf(buf1, BUF_SIZE, "_sw_%d_.", local_control_statement_count);
switch_case->name = strdup(buf1);
snprintf(new_label, BUF_SIZE, "sw_%s_default_%d", label, local_control_statement_count);
if (gen_prios(switch_case, new_label, p2->u2.statements, exten, this_context)) { /* this will link in all the default: body statements here */
return -1;
}
/* here is where we write code to "fall thru" to the next case... if there is one... */
for (p3=p2->u2.statements; p3; p3=p3->next) {
if (!p3->next)
break;
}
/* p3 now points the last statement... */
if (!p3 || (p3->type != PV_GOTO && p3->type != PV_BREAK && p3->type != PV_RETURN)) {
/* is there a following CASE/PATTERN/DEFAULT? */
if (p2->next && p2->next->type == PV_CASE) {
fall_thru = new_prio();
fall_thru->type = AEL_APPCALL;
fall_thru->app = strdup("Goto");
snprintf(buf1, BUF_SIZE, "sw_%d_%s,10", local_control_statement_count, p2->next->u1.str);
fall_thru->appargs = strdup(buf1);
linkprio(switch_case, fall_thru, mother_exten);
} else if (p2->next && p2->next->type == PV_PATTERN) {
fall_thru = new_prio();
fall_thru->type = AEL_APPCALL;
fall_thru->app = strdup("Goto");
gen_match_to_pattern(p2->next->u1.str, buf2);
snprintf(buf1, BUF_SIZE, "sw_%d_%s,10", local_control_statement_count, buf2);
fall_thru->appargs = strdup(buf1);
linkprio(switch_case, fall_thru, mother_exten);
} else if (p2->next && p2->next->type == PV_DEFAULT) {
fall_thru = new_prio();
fall_thru->type = AEL_APPCALL;
fall_thru->app = strdup("Goto");
snprintf(buf1, BUF_SIZE, "sw_%d_.,10", local_control_statement_count);
fall_thru->appargs = strdup(buf1);
linkprio(switch_case, fall_thru, mother_exten);
} else if (!p2->next) {
fall_thru = new_prio();
fall_thru->type = AEL_CONTROL1;
fall_thru->goto_true = switch_end;
fall_thru->app = strdup("Goto");
linkprio(switch_case, fall_thru, mother_exten);
}
}
if (switch_case->return_needed) { /* returns don't generate a goto eoe (end of extension) any more, just a Return() app call) */
char buf[2000];
struct ael_priority *np2 = new_prio();
np2->type = AEL_APPCALL;
np2->app = strdup("NoOp");
snprintf(buf,sizeof(buf),"End of Extension %s", switch_case->name);
np2->appargs = strdup(buf);
linkprio(switch_case, np2, mother_exten);
switch_case-> return_target = np2;
}
} else {
/* what could it be??? */
}
}
exten->loop_break = loop_break_save;
exten->loop_continue = loop_continue_save;
switch_test->origin = p;
switch_end->origin = p;
break;
case PV_MACRO_CALL:
pr = new_prio();
pr->type = AEL_APPCALL;
snprintf(buf1, BUF_SIZE, "%s,~~s~~,1", p->u1.str);
first = 1;
for (p2 = p->u2.arglist; p2; p2 = p2->next) {
if (first)
{
strcat(buf1,"(");
first = 0;
}
else
strcat(buf1,",");
strcat(buf1,p2->u1.str);
}
if (!first)
strcat(buf1,")");
pr->app = strdup("Gosub");
pr->appargs = strdup(buf1);
pr->origin = p;
linkprio(exten, pr, mother_exten);
break;
case PV_APPLICATION_CALL:
pr = new_prio();
pr->type = AEL_APPCALL;
buf1[0] = 0;
for (p2 = p->u2.arglist; p2; p2 = p2->next) {
if (p2 != p->u2.arglist )
strcat(buf1,",");
strcat(buf1,p2->u1.str);
}
pr->app = strdup(p->u1.str);
pr->appargs = strdup(buf1);
pr->origin = p;
linkprio(exten, pr, mother_exten);
break;
case PV_BREAK:
pr = new_prio();
pr->type = AEL_CONTROL1; /* simple goto */
pr->goto_true = exten->loop_break;
pr->origin = p;
linkprio(exten, pr, mother_exten);
break;
case PV_RETURN: /* hmmmm */
pr = new_prio();
pr->type = AEL_RETURN; /* simple Return */
/* exten->return_needed++; */
pr->app = strdup("Return");
pr->appargs = strdup("");
pr->origin = p;
linkprio(exten, pr, mother_exten);
break;
case PV_CONTINUE:
pr = new_prio();
pr->type = AEL_CONTROL1; /* simple goto */
pr->goto_true = exten->loop_continue;
pr->origin = p;
linkprio(exten, pr, mother_exten);
break;
case PV_IFTIME:
control_statement_count++;
snprintf(new_label, BUF_SIZE, "iftime_%s_%d", label, control_statement_count);
if_test = new_prio();
if_test->type = AEL_IFTIME_CONTROL;
snprintf(buf1, BUF_SIZE, "%s,%s,%s,%s",
p->u1.list->u1.str,
p->u1.list->next->u1.str,
p->u1.list->next->next->u1.str,
p->u1.list->next->next->next->u1.str);
if_test->app = 0;
if_test->appargs = strdup(buf1);
if_test->origin = p;
if_end = new_prio();
if_end->type = AEL_APPCALL;
snprintf(buf1, BUF_SIZE, "Finish iftime_%s_%d", label, control_statement_count);
if_end->app = strdup("NoOp");
if_end->appargs = strdup(buf1);
if (p->u3.else_statements) {
if_skip = new_prio();
if_skip->type = AEL_CONTROL1; /* simple goto */
if_skip->goto_true = if_end;
if_skip->origin = p;
} else {
if_skip = 0;
if_test->goto_false = if_end;
}
if_false = new_prio();
if_false->type = AEL_CONTROL1;
if (p->u3.else_statements) {
if_false->goto_true = if_skip; /* +1 */
} else {
if_false->goto_true = if_end;
}
/* link & load! */
linkprio(exten, if_test, mother_exten);
linkprio(exten, if_false, mother_exten);
/* now, put the body of the if here */
if (gen_prios(exten, new_label, p->u2.statements, mother_exten, this_context)) { /* this will link in all the statements here */
return -1;
}
if (p->u3.else_statements) {
linkprio(exten, if_skip, mother_exten);
if (gen_prios(exten, new_label, p->u3.else_statements, mother_exten, this_context)) { /* this will link in all the statements here */
return -1;
}
}
linkprio(exten, if_end, mother_exten);
break;
case PV_RANDOM:
case PV_IF:
control_statement_count++;
snprintf(new_label, BUF_SIZE, "if_%s_%d", label, control_statement_count);
if_test = new_prio();
if_end = new_prio();
if_test->type = AEL_IF_CONTROL;
if_end->type = AEL_APPCALL;
if ( p->type == PV_RANDOM )
snprintf(buf1, BUF_SIZE, "$[${RAND(0,99)} < (%s)]", p->u1.str);
else
snprintf(buf1, BUF_SIZE, "$[%s]", p->u1.str);
if_test->app = 0;
if_test->appargs = strdup(buf1);
snprintf(buf1, BUF_SIZE, "Finish if_%s_%d", label, control_statement_count);
if_end->app = strdup("NoOp");
if_end->appargs = strdup(buf1);
if_test->origin = p;
if (p->u3.else_statements) {
if_skip = new_prio();
if_skip->type = AEL_CONTROL1; /* simple goto */
if_skip->goto_true = if_end;
if_test->goto_false = if_skip;;
} else {
if_skip = 0;
if_test->goto_false = if_end;;
}
/* link & load! */
linkprio(exten, if_test, mother_exten);
/* now, put the body of the if here */
if (gen_prios(exten, new_label, p->u2.statements, mother_exten, this_context)) { /* this will link in all the statements here */
return -1;
}
if (p->u3.else_statements) {
linkprio(exten, if_skip, mother_exten);
if (gen_prios(exten, new_label, p->u3.else_statements, mother_exten, this_context)) { /* this will link in all the statements here */
return -1;
}
}
linkprio(exten, if_end, mother_exten);
break;
case PV_STATEMENTBLOCK:
if (gen_prios(exten, label, p->u1.list, mother_exten, this_context)) { /* recurse into the block */
return -1;
}
break;
case PV_CATCH:
control_statement_count++;
/* generate an extension with name of catch, put all catch stats
into this exten! */
switch_case = new_exten();
if (mother_exten && mother_exten->checked_switch) {
switch_case->has_switch = mother_exten->has_switch;
switch_case->checked_switch = mother_exten->checked_switch;
}
if (exten && exten->checked_switch) {
switch_case->has_switch = exten->has_switch;
switch_case->checked_switch = exten->checked_switch;
}
switch_case->context = this_context;
linkexten(exten,switch_case);
switch_case->name = strdup(p->u1.str);
snprintf(new_label, BUF_SIZE, "catch_%s_%d",p->u1.str, control_statement_count);
if (gen_prios(switch_case, new_label, p->u2.statements, mother_exten,this_context)) { /* this will link in all the catch body statements here */
return -1;
}
if (switch_case->return_needed) { /* returns now generate a Return() app call, no longer a goto to the end of the exten */
char buf[2000];
struct ael_priority *np2 = new_prio();
np2->type = AEL_APPCALL;
np2->app = strdup("NoOp");
snprintf(buf,sizeof(buf),"End of Extension %s", switch_case->name);
np2->appargs = strdup(buf);
linkprio(switch_case, np2, mother_exten);
switch_case-> return_target = np2;
}
break;
default:
break;
}
}
free(buf1);
free(buf2);
free(new_label);
return 0;
}
void set_priorities(struct ael_extension *exten)
{
int i;
struct ael_priority *pr;
do {
if (exten->is_switch)
i = 10;
else if (exten->regexten)
i=2;
else
i=1;
for (pr=exten->plist; pr; pr=pr->next) {
pr->priority_num = i;
if (!pr->origin || (pr->origin && pr->origin->type != PV_LABEL) ) /* Labels don't show up in the dialplan,
but we want them to point to the right
priority, which would be the next line
after the label; */
i++;
}
exten = exten->next_exten;
} while ( exten );
}
void add_extensions(struct ael_extension *exten)
{
struct ael_priority *pr;
char *label=0;
char realext[AST_MAX_EXTENSION];
if (!exten) {
ast_log(LOG_WARNING, "This file is Empty!\n" );
return;
}
do {
struct ael_priority *last = 0;
pbx_substitute_variables_helper(NULL, exten->name, realext, sizeof(realext) - 1);
if (exten->hints) {
if (ast_add_extension2(exten->context, 0 /*no replace*/, realext, PRIORITY_HINT, NULL, exten->cidmatch,
exten->hints, NULL, ast_free_ptr, registrar)) {
ast_log(LOG_WARNING, "Unable to add step at priority 'hint' of extension '%s'\n",
exten->name);
}
}
for (pr=exten->plist; pr; pr=pr->next) {
char app[2000];
char appargs[2000];
/* before we can add the extension, we need to prep the app/appargs;
the CONTROL types need to be done after the priority numbers are calculated.
*/
if (pr->type == AEL_LABEL) /* don't try to put labels in the dialplan! */ {
last = pr;
continue;
}
if (pr->app)
strcpy(app, pr->app);
else
app[0] = 0;
if (pr->appargs )
strcpy(appargs, pr->appargs);
else
appargs[0] = 0;
switch( pr->type ) {
case AEL_APPCALL:
/* easy case. Everything is all set up */
break;
case AEL_CONTROL1: /* FOR loop, WHILE loop, BREAK, CONTINUE, IF, IFTIME */
/* simple, unconditional goto. */
strcpy(app,"Goto");
if (pr->goto_true->origin && pr->goto_true->origin->type == PV_SWITCH ) {
snprintf(appargs,sizeof(appargs),"%s,%d", pr->goto_true->exten->name, pr->goto_true->priority_num);
} else if (pr->goto_true->origin && pr->goto_true->origin->type == PV_IFTIME && pr->goto_true->origin->u3.else_statements ) {
snprintf(appargs,sizeof(appargs),"%d", pr->goto_true->priority_num+1);
} else
snprintf(appargs,sizeof(appargs),"%d", pr->goto_true->priority_num);
break;
case AEL_FOR_CONTROL: /* WHILE loop test, FOR loop test */
strcpy(app,"GotoIf");
snprintf(appargs,sizeof(appargs),"%s?%d:%d", pr->appargs, pr->priority_num+1, pr->goto_false->priority_num);
break;
case AEL_IF_CONTROL:
strcpy(app,"GotoIf");
if (pr->origin->u3.else_statements )
snprintf(appargs,sizeof(appargs),"%s?%d:%d", pr->appargs, pr->priority_num+1, pr->goto_false->priority_num+1);
else
snprintf(appargs,sizeof(appargs),"%s?%d:%d", pr->appargs, pr->priority_num+1, pr->goto_false->priority_num);
break;
case AEL_RAND_CONTROL:
strcpy(app,"Random");
snprintf(appargs,sizeof(appargs),"%s:%d", pr->appargs, pr->goto_true->priority_num+1);
break;
case AEL_IFTIME_CONTROL:
strcpy(app,"GotoIfTime");
snprintf(appargs,sizeof(appargs),"%s?%d", pr->appargs, pr->priority_num+2);
break;
case AEL_RETURN:
strcpy(app,"Return");
appargs[0] = 0;
break;
default:
break;
}
if (last && last->type == AEL_LABEL ) {
label = last->origin->u1.str;
}
else
label = 0;
if (ast_add_extension2(exten->context, 0 /*no replace*/, realext, pr->priority_num, (label?label:NULL), exten->cidmatch,
app, strdup(appargs), ast_free_ptr, registrar)) {
ast_log(LOG_WARNING, "Unable to add step at priority '%d' of extension '%s'\n", pr->priority_num,
exten->name);
}
last = pr;
}
exten = exten->next_exten;
} while ( exten );
}
static void attach_exten(struct ael_extension **list, struct ael_extension *newmem)
{
/* travel to the end of the list... */
struct ael_extension *lptr;
if( !*list ) {
*list = newmem;
return;
}
lptr = *list;
while( lptr->next_exten ) {
lptr = lptr->next_exten;
}
/* lptr should now pointing to the last element in the list; it has a null next_exten pointer */
lptr->next_exten = newmem;
}
static pval *get_extension_or_contxt(pval *p)
{
while( p && p->type != PV_EXTENSION && p->type != PV_CONTEXT && p->type != PV_MACRO ) {
p = p->dad;
}
return p;
}
static pval *get_contxt(pval *p)
{
while( p && p->type != PV_CONTEXT && p->type != PV_MACRO ) {
p = p->dad;
}
return p;
}
static void fix_gotos_in_extensions(struct ael_extension *exten)
{
struct ael_extension *e;
for(e=exten;e;e=e->next_exten) {
struct ael_priority *p;
for(p=e->plist;p;p=p->next) {
if( p->origin && p->origin->type == PV_GOTO && p->origin->u3.goto_target_in_case ) {
/* fix the extension of the goto target to the actual extension in the post-compiled dialplan */
pval *target = p->origin->u2.goto_target;
struct ael_extension *z = target->u3.compiled_label;
pval *pv2 = p->origin;
char buf1[500];
char *apparg_save = p->appargs;
p->appargs = 0;
if (!pv2->u1.list->next) /* just one -- it won't hurt to repeat the extension */ {
snprintf(buf1,sizeof(buf1),"%s,%s", z->name, pv2->u1.list->u1.str);
p->appargs = strdup(buf1);
} else if (pv2->u1.list->next && !pv2->u1.list->next->next) /* two */ {
snprintf(buf1,sizeof(buf1),"%s,%s", z->name, pv2->u1.list->next->u1.str);
p->appargs = strdup(buf1);
} else if (pv2->u1.list->next && pv2->u1.list->next->next) {
snprintf(buf1,sizeof(buf1),"%s,%s,%s", pv2->u1.list->u1.str,
z->name,
pv2->u1.list->next->next->u1.str);
p->appargs = strdup(buf1);
}
else
printf("WHAT? The goto doesn't fall into one of three cases for GOTO????\n");
if( apparg_save ) {
free(apparg_save);
}
}
}
}
}
int ast_compile_ael2(struct ast_context **local_contexts, struct ast_hashtab *local_table, struct pval *root)
{
pval *p,*p2;
struct ast_context *context;
char buf[2000];
struct ael_extension *exten;
struct ael_extension *exten_list = 0;
for (p=root; p; p=p->next ) { /* do the globals first, so they'll be there
when we try to eval them */
switch (p->type) {
case PV_GLOBALS:
/* just VARDEC elements */
for (p2=p->u1.list; p2; p2=p2->next) {
char buf2[2000];
snprintf(buf2,sizeof(buf2),"%s=%s", p2->u1.str, p2->u2.val);
pbx_builtin_setvar(NULL, buf2);
}
break;
default:
break;
}
}
for (p=root; p; p=p->next ) {
pval *lp;
int argc;
switch (p->type) {
case PV_MACRO:
context = ast_context_find_or_create(local_contexts, local_table, p->u1.str, registrar);
exten = new_exten();
exten->context = context;
exten->name = strdup("~~s~~");
argc = 1;
for (lp=p->u2.arglist; lp; lp=lp->next) {
/* for each arg, set up a "Set" command */
struct ael_priority *np2 = new_prio();
np2->type = AEL_APPCALL;
if (!ast_compat_app_set) {
np2->app = strdup("MSet");
} else {
np2->app = strdup("Set");
}
snprintf(buf,sizeof(buf),"LOCAL(%s)=${ARG%d}", lp->u1.str, argc++);
remove_spaces_before_equals(buf);
np2->appargs = strdup(buf);
linkprio(exten, np2, NULL);
}
/* CONTAINS APPCALLS, CATCH, just like extensions... */
if (gen_prios(exten, p->u1.str, p->u3.macro_statements, 0, context)) {
return -1;
}
if (exten->return_needed) { /* most likely, this will go away */
struct ael_priority *np2 = new_prio();
np2->type = AEL_APPCALL;
np2->app = strdup("NoOp");
snprintf(buf,sizeof(buf),"End of Macro %s-%s",p->u1.str, exten->name);
np2->appargs = strdup(buf);
linkprio(exten, np2, NULL);
exten-> return_target = np2;
}
set_priorities(exten);
attach_exten(&exten_list, exten);
break;
case PV_GLOBALS:
/* already done */
break;
case PV_CONTEXT:
context = ast_context_find_or_create(local_contexts, local_table, p->u1.str, registrar);
/* contexts contain: ignorepat, includes, switches, eswitches, extensions, */
for (p2=p->u2.statements; p2; p2=p2->next) {
pval *p3;
char *s3;
switch (p2->type) {
case PV_EXTENSION:
exten = new_exten();
exten->name = strdup(p2->u1.str);
exten->context = context;
if( (s3=strchr(exten->name, '/') ) != 0 )
{
*s3 = 0;
exten->cidmatch = s3+1;
}
if ( p2->u3.hints )
exten->hints = strdup(p2->u3.hints);
exten->regexten = p2->u4.regexten;
if (gen_prios(exten, p->u1.str, p2->u2.statements, 0, context)) {
return -1;
}
if (exten->return_needed) { /* returns don't generate a goto eoe (end of extension) any more, just a Return() app call) */
struct ael_priority *np2 = new_prio();
np2->type = AEL_APPCALL;
np2->app = strdup("NoOp");
snprintf(buf,sizeof(buf),"End of Extension %s", exten->name);
np2->appargs = strdup(buf);
linkprio(exten, np2, NULL);
exten-> return_target = np2;
}
/* is the last priority in the extension a label? Then add a trailing no-op */
if ( exten->plist_last && exten->plist_last->type == AEL_LABEL ) {
struct ael_priority *np2 = new_prio();
np2->type = AEL_APPCALL;
np2->app = strdup("NoOp");
snprintf(buf,sizeof(buf),"A NoOp to follow a trailing label %s", exten->plist_last->origin->u1.str);
np2->appargs = strdup(buf);
linkprio(exten, np2, NULL);
}
set_priorities(exten);
attach_exten(&exten_list, exten);
break;
case PV_IGNOREPAT:
ast_context_add_ignorepat2(context, p2->u1.str, registrar);
break;
case PV_INCLUDES:
for (p3 = p2->u1.list; p3 ;p3=p3->next) {
if ( p3->u2.arglist ) {
snprintf(buf,sizeof(buf), "%s,%s,%s,%s,%s",
p3->u1.str,
p3->u2.arglist->u1.str,
p3->u2.arglist->next->u1.str,
p3->u2.arglist->next->next->u1.str,
p3->u2.arglist->next->next->next->u1.str);
ast_context_add_include2(context, buf, registrar);
} else
ast_context_add_include2(context, p3->u1.str, registrar);
}
break;
case PV_SWITCHES:
for (p3 = p2->u1.list; p3 ;p3=p3->next) {
char *c = strchr(p3->u1.str, '/');
if (c) {
*c = '\0';
c++;
} else
c = "";
ast_context_add_switch2(context, p3->u1.str, c, 0, registrar);
}
break;
case PV_ESWITCHES:
for (p3 = p2->u1.list; p3 ;p3=p3->next) {
char *c = strchr(p3->u1.str, '/');
if (c) {
*c = '\0';
c++;
} else
c = "";
ast_context_add_switch2(context, p3->u1.str, c, 1, registrar);
}
break;
default:
break;
}
}
break;
default:
/* huh? what? */
break;
}
}
/* moved these from being done after a macro or extension were processed,
to after all processing is done, for the sake of fixing gotos to labels inside cases... */
/* I guess this would be considered 2nd pass of compiler now... */
fix_gotos_in_extensions(exten_list); /* find and fix extension ref in gotos to labels that are in case statements */
add_extensions(exten_list); /* actually makes calls to create priorities in ast_contexts -- feeds dialplan to asterisk */
destroy_extensions(exten_list); /* all that remains is an empty husk, discard of it as is proper */
return 0;
}
/* DESTROY the PVAL tree ============================================================================ */
void destroy_pval_item(pval *item)
{
if (item == NULL) {
ast_log(LOG_WARNING, "null item\n");
return;
}
if (item->filename)
free(item->filename);
switch (item->type) {
case PV_WORD:
/* fields: item->u1.str == string associated with this (word). */
if (item->u1.str )
free(item->u1.str);
if ( item->u2.arglist )
destroy_pval(item->u2.arglist);
break;
case PV_MACRO:
/* fields: item->u1.str == name of macro
item->u2.arglist == pval list of PV_WORD arguments of macro, as given by user
item->u2.arglist->u1.str == argument
item->u2.arglist->next == next arg
item->u3.macro_statements == pval list of statements in macro body.
*/
destroy_pval(item->u2.arglist);
if (item->u1.str )
free(item->u1.str);
destroy_pval(item->u3.macro_statements);
break;
case PV_CONTEXT:
/* fields: item->u1.str == name of context
item->u2.statements == pval list of statements in context body
item->u3.abstract == int 1 if an abstract keyword were present
*/
if (item->u1.str)
free(item->u1.str);
destroy_pval(item->u2.statements);
break;
case PV_MACRO_CALL:
/* fields: item->u1.str == name of macro to call
item->u2.arglist == pval list of PV_WORD arguments of macro call, as given by user
item->u2.arglist->u1.str == argument
item->u2.arglist->next == next arg
*/
if (item->u1.str)
free(item->u1.str);
destroy_pval(item->u2.arglist);
break;
case PV_APPLICATION_CALL:
/* fields: item->u1.str == name of application to call
item->u2.arglist == pval list of PV_WORD arguments of macro call, as given by user
item->u2.arglist->u1.str == argument
item->u2.arglist->next == next arg
*/
if (item->u1.str)
free(item->u1.str);
destroy_pval(item->u2.arglist);
break;
case PV_CASE:
/* fields: item->u1.str == value of case
item->u2.statements == pval list of statements under the case
*/
if (item->u1.str)
free(item->u1.str);
destroy_pval(item->u2.statements);
break;
case PV_PATTERN:
/* fields: item->u1.str == value of case
item->u2.statements == pval list of statements under the case
*/
if (item->u1.str)
free(item->u1.str);
destroy_pval(item->u2.statements);
break;
case PV_DEFAULT:
/* fields:
item->u2.statements == pval list of statements under the case
*/
destroy_pval(item->u2.statements);
break;
case PV_CATCH:
/* fields: item->u1.str == name of extension to catch
item->u2.statements == pval list of statements in context body
*/
if (item->u1.str)
free(item->u1.str);
destroy_pval(item->u2.statements);
break;
case PV_SWITCHES:
/* fields: item->u1.list == pval list of PV_WORD elements, one per entry in the list
*/
destroy_pval(item->u1.list);
break;
case PV_ESWITCHES:
/* fields: item->u1.list == pval list of PV_WORD elements, one per entry in the list
*/
destroy_pval(item->u1.list);
break;
case PV_INCLUDES:
/* fields: item->u1.list == pval list of PV_WORD elements, one per entry in the list
item->u2.arglist == pval list of 4 PV_WORD elements for time values
*/
destroy_pval(item->u1.list);
break;
case PV_STATEMENTBLOCK:
/* fields: item->u1.list == pval list of statements in block, one per entry in the list
*/
destroy_pval(item->u1.list);
break;
case PV_LOCALVARDEC:
case PV_VARDEC:
/* fields: item->u1.str == variable name
item->u2.val == variable value to assign
*/
if (item->u1.str)
free(item->u1.str);
if (item->u2.val)
free(item->u2.val);
break;
case PV_GOTO:
/* fields: item->u1.list == pval list of PV_WORD target names, up to 3, in order as given by user.
item->u1.list->u1.str == where the data on a PV_WORD will always be.
*/
destroy_pval(item->u1.list);
break;
case PV_LABEL:
/* fields: item->u1.str == label name
*/
if (item->u1.str)
free(item->u1.str);
break;
case PV_FOR:
/* fields: item->u1.for_init == a string containing the initalizer
item->u2.for_test == a string containing the loop test
item->u3.for_inc == a string containing the loop increment
item->u4.for_statements == a pval list of statements in the for ()
*/
if (item->u1.for_init)
free(item->u1.for_init);
if (item->u2.for_test)
free(item->u2.for_test);
if (item->u3.for_inc)
free(item->u3.for_inc);
destroy_pval(item->u4.for_statements);
break;
case PV_WHILE:
/* fields: item->u1.str == the while conditional, as supplied by user
item->u2.statements == a pval list of statements in the while ()
*/
if (item->u1.str)
free(item->u1.str);
destroy_pval(item->u2.statements);
break;
case PV_BREAK:
/* fields: none
*/
break;
case PV_RETURN:
/* fields: none
*/
break;
case PV_CONTINUE:
/* fields: none
*/
break;
case PV_IFTIME:
/* fields: item->u1.list == the 4 time values, in PV_WORD structs, linked list
item->u2.statements == a pval list of statements in the if ()
item->u3.else_statements == a pval list of statements in the else
(could be zero)
*/
destroy_pval(item->u1.list);
destroy_pval(item->u2.statements);
if (item->u3.else_statements) {
destroy_pval(item->u3.else_statements);
}
break;
case PV_RANDOM:
/* fields: item->u1.str == the random percentage, as supplied by user
item->u2.statements == a pval list of statements in the true part ()
item->u3.else_statements == a pval list of statements in the else
(could be zero)
fall thru to If */
case PV_IF:
/* fields: item->u1.str == the if conditional, as supplied by user
item->u2.statements == a pval list of statements in the if ()
item->u3.else_statements == a pval list of statements in the else
(could be zero)
*/
if (item->u1.str)
free(item->u1.str);
destroy_pval(item->u2.statements);
if (item->u3.else_statements) {
destroy_pval(item->u3.else_statements);
}
break;
case PV_SWITCH:
/* fields: item->u1.str == the switch expression
item->u2.statements == a pval list of statements in the switch,
(will be case statements, most likely!)
*/
if (item->u1.str)
free(item->u1.str);
destroy_pval(item->u2.statements);
break;
case PV_EXTENSION:
/* fields: item->u1.str == the extension name, label, whatever it's called
item->u2.statements == a pval list of statements in the extension
item->u3.hints == a char * hint argument
item->u4.regexten == an int boolean. non-zero says that regexten was specified
*/
if (item->u1.str)
free(item->u1.str);
if (item->u3.hints)
free(item->u3.hints);
destroy_pval(item->u2.statements);
break;
case PV_IGNOREPAT:
/* fields: item->u1.str == the ignorepat data
*/
if (item->u1.str)
free(item->u1.str);
break;
case PV_GLOBALS:
/* fields: item->u1.statements == pval list of statements, usually vardecs
*/
destroy_pval(item->u1.statements);
break;
}
free(item);
}
void destroy_pval(pval *item)
{
pval *i,*nxt;
for (i=item; i; i=nxt) {
nxt = i->next;
destroy_pval_item(i);
}
}
#ifdef AAL_ARGCHECK
static char *ael_funclist[] =
{
"AGENT",
"ARRAY",
"BASE64_DECODE",
"BASE64_ENCODE",
"CALLERID",
"CDR",
"CHANNEL",
"CHECKSIPDOMAIN",
"CHECK_MD5",
"CURL",
"CUT",
"DB",
"DB_EXISTS",
"DUNDILOOKUP",
"ENUMLOOKUP",
"ENV",
"EVAL",
"EXISTS",
"FIELDQTY",
"FILTER",
"GROUP",
"GROUP_COUNT",
"GROUP_LIST",
"GROUP_MATCH_COUNT",
"IAXPEER",
"IF",
"IFTIME",
"ISNULL",
"KEYPADHASH",
"LANGUAGE",
"LEN",
"MATH",
"MD5",
"MUSICCLASS",
"QUEUEAGENTCOUNT",
"QUEUE_MEMBER_COUNT",
"QUEUE_MEMBER_LIST",
"QUOTE",
"RAND",
"REGEX",
"SET",
"SHA1",
"SIPCHANINFO",
"SIPPEER",
"SIP_HEADER",
"SORT",
"STAT",
"STRFTIME",
"STRPTIME",
"TIMEOUT",
"TXTCIDNAME",
"URIDECODE",
"URIENCODE",
"VMCOUNT"
};
int ael_is_funcname(char *name)
{
int s,t;
t = sizeof(ael_funclist)/sizeof(char*);
s = 0;
while ((s < t) && strcasecmp(name, ael_funclist[s]))
s++;
if ( s < t )
return 1;
else
return 0;
}
#endif
/* PVAL PI */
/* ----------------- implementation ------------------- */
int pvalCheckType( pval *p, char *funcname, pvaltype type )
{
if (p->type != type)
{
ast_log(LOG_ERROR, "Func: %s the pval passed is not appropriate for this function!\n", funcname);
return 0;
}
return 1;
}
pval *pvalCreateNode( pvaltype type )
{
pval *p = calloc(1,sizeof(pval)); /* why, oh why, don't I use ast_calloc? Way, way, way too messy if I do! */
p->type = type; /* remember, this can be used externally or internally to asterisk */
return p;
}
pvaltype pvalObjectGetType( pval *p )
{
return p->type;
}
void pvalWordSetString( pval *p, char *str)
{
if (!pvalCheckType(p, "pvalWordSetString", PV_WORD))
return;
p->u1.str = str;
}
char *pvalWordGetString( pval *p )
{
if (!pvalCheckType(p, "pvalWordGetString", PV_WORD))
return 0;
return p->u1.str;
}
void pvalMacroSetName( pval *p, char *name)
{
if (!pvalCheckType(p, "pvalMacroSetName", PV_MACRO))
return;
p->u1.str = name;
}
char *pvalMacroGetName( pval *p )
{
if (!pvalCheckType(p, "pvalMacroGetName", PV_MACRO))
return 0;
return p->u1.str;
}
void pvalMacroSetArglist( pval *p, pval *arglist )
{
if (!pvalCheckType(p, "pvalMacroSetArglist", PV_MACRO))
return;
p->u2.arglist = arglist;
}
void pvalMacroAddArg( pval *p, pval *arg ) /* single arg only! */
{
if (!pvalCheckType(p, "pvalMacroAddArg", PV_MACRO))
return;
if (!p->u2.arglist)
p->u2.arglist = arg;
else
linku1(p->u2.arglist, arg);
}
pval *pvalMacroWalkArgs( pval *p, pval **arg )
{
if (!pvalCheckType(p, "pvalMacroWalkArgs", PV_MACRO))
return 0;
if (!(*arg))
*arg = p->u2.arglist;
else {
*arg = (*arg)->next;
}
return *arg;
}
void pvalMacroAddStatement( pval *p, pval *statement )
{
if (!pvalCheckType(p, "pvalMacroAddStatement", PV_MACRO))
return;
if (!p->u3.macro_statements)
p->u3.macro_statements = statement;
else
linku1(p->u3.macro_statements, statement);
}
pval *pvalMacroWalkStatements( pval *p, pval **next_statement )
{
if (!pvalCheckType(p, "pvalMacroWalkStatements", PV_MACRO))
return 0;
if (!(*next_statement))
*next_statement = p->u3.macro_statements;
else {
*next_statement = (*next_statement)->next;
}
return *next_statement;
}
void pvalContextSetName( pval *p, char *name)
{
if (!pvalCheckType(p, "pvalContextSetName", PV_CONTEXT))
return;
p->u1.str = name;
}
char *pvalContextGetName( pval *p )
{
if (!pvalCheckType(p, "pvalContextGetName", PV_CONTEXT))
return 0;
return p->u1.str;
}
void pvalContextSetAbstract( pval *p )
{
if (!pvalCheckType(p, "pvalContextSetAbstract", PV_CONTEXT))
return;
p->u3.abstract = 1;
}
void pvalContextUnsetAbstract( pval *p )
{
if (!pvalCheckType(p, "pvalContextUnsetAbstract", PV_CONTEXT))
return;
p->u3.abstract = 0;
}
int pvalContextGetAbstract( pval *p )
{
if (!pvalCheckType(p, "pvalContextGetAbstract", PV_CONTEXT))
return 0;
return p->u3.abstract;
}
void pvalContextAddStatement( pval *p, pval *statement) /* this includes SWITCHES, INCLUDES, IGNOREPAT, etc */
{
if (!pvalCheckType(p, "pvalContextAddStatement", PV_CONTEXT))
return;
if (!p->u2.statements)
p->u2.statements = statement;
else
linku1(p->u2.statements, statement);
}
pval *pvalContextWalkStatements( pval *p, pval **statements )
{
if (!pvalCheckType(p, "pvalContextWalkStatements", PV_CONTEXT))
return 0;
if (!(*statements))
*statements = p->u2.statements;
else {
*statements = (*statements)->next;
}
return *statements;
}
void pvalMacroCallSetMacroName( pval *p, char *name )
{
if (!pvalCheckType(p, "pvalMacroCallSetMacroName", PV_MACRO_CALL))
return;
p->u1.str = name;
}
char* pvalMacroCallGetMacroName( pval *p )
{
if (!pvalCheckType(p, "pvalMacroCallGetMacroName", PV_MACRO_CALL))
return 0;
return p->u1.str;
}
void pvalMacroCallSetArglist( pval *p, pval *arglist )
{
if (!pvalCheckType(p, "pvalMacroCallSetArglist", PV_MACRO_CALL))
return;
p->u2.arglist = arglist;
}
void pvalMacroCallAddArg( pval *p, pval *arg )
{
if (!pvalCheckType(p, "pvalMacroCallGetAddArg", PV_MACRO_CALL))
return;
if (!p->u2.arglist)
p->u2.arglist = arg;
else
linku1(p->u2.arglist, arg);
}
pval *pvalMacroCallWalkArgs( pval *p, pval **args )
{
if (!pvalCheckType(p, "pvalMacroCallWalkArgs", PV_MACRO_CALL))
return 0;
if (!(*args))
*args = p->u2.arglist;
else {
*args = (*args)->next;
}
return *args;
}
void pvalAppCallSetAppName( pval *p, char *name )
{
if (!pvalCheckType(p, "pvalAppCallSetAppName", PV_APPLICATION_CALL))
return;
p->u1.str = name;
}
char* pvalAppCallGetAppName( pval *p )
{
if (!pvalCheckType(p, "pvalAppCallGetAppName", PV_APPLICATION_CALL))
return 0;
return p->u1.str;
}
void pvalAppCallSetArglist( pval *p, pval *arglist )
{
if (!pvalCheckType(p, "pvalAppCallSetArglist", PV_APPLICATION_CALL))
return;
p->u2.arglist = arglist;
}
void pvalAppCallAddArg( pval *p, pval *arg )
{
if (!pvalCheckType(p, "pvalAppCallAddArg", PV_APPLICATION_CALL))
return;
if (!p->u2.arglist)
p->u2.arglist = arg;
else
linku1(p->u2.arglist, arg);
}
pval *pvalAppCallWalkArgs( pval *p, pval **args )
{
if (!pvalCheckType(p, "pvalAppCallWalkArgs", PV_APPLICATION_CALL))
return 0;
if (!(*args))
*args = p->u2.arglist;
else {
*args = (*args)->next;
}
return *args;
}
void pvalCasePatSetVal( pval *p, char *val )
{
if (!pvalCheckType(p, "pvalAppCallWalkArgs", PV_APPLICATION_CALL))
return;
p->u1.str = val;
}
char* pvalCasePatGetVal( pval *p )
{
return p->u1.str;
}
void pvalCasePatDefAddStatement( pval *p, pval *statement )
{
if (!p->u2.arglist)
p->u2.statements = statement;
else
linku1(p->u2.statements, statement);
}
pval *pvalCasePatDefWalkStatements( pval *p, pval **statement )
{
if (!(*statement))
*statement = p->u2.statements;
else {
*statement = (*statement)->next;
}
return *statement;
}
void pvalCatchSetExtName( pval *p, char *name )
{
if (!pvalCheckType(p, "pvalCatchSetExtName", PV_CATCH))
return;
p->u1.str = name;
}
char* pvalCatchGetExtName( pval *p )
{
if (!pvalCheckType(p, "pvalCatchGetExtName", PV_CATCH))
return 0;
return p->u1.str;
}
void pvalCatchSetStatement( pval *p, pval *statement )
{
if (!pvalCheckType(p, "pvalCatchSetStatement", PV_CATCH))
return;
p->u2.statements = statement;
}
pval *pvalCatchGetStatement( pval *p )
{
if (!pvalCheckType(p, "pvalCatchGetStatement", PV_CATCH))
return 0;
return p->u2.statements;
}
void pvalSwitchesAddSwitch( pval *p, char *name )
{
pval *s;
if (!pvalCheckType(p, "pvalSwitchesAddSwitch", PV_SWITCHES))
return;
s = pvalCreateNode(PV_WORD);
s->u1.str = name;
p->u1.list = linku1(p->u1.list, s);
}
char* pvalSwitchesWalkNames( pval *p, pval **next_item )
{
if (!pvalCheckType(p, "pvalSwitchesWalkNames", PV_SWITCHES))
return 0;
if (!(*next_item))
*next_item = p->u1.list;
else {
*next_item = (*next_item)->next;
}
return (*next_item)->u1.str;
}
void pvalESwitchesAddSwitch( pval *p, char *name )
{
pval *s;
if (!pvalCheckType(p, "pvalESwitchesAddSwitch", PV_ESWITCHES))
return;
s = pvalCreateNode(PV_WORD);
s->u1.str = name;
p->u1.list = linku1(p->u1.list, s);
}
char* pvalESwitchesWalkNames( pval *p, pval **next_item )
{
if (!pvalCheckType(p, "pvalESwitchesWalkNames", PV_ESWITCHES))
return 0;
if (!(*next_item))
*next_item = p->u1.list;
else {
*next_item = (*next_item)->next;
}
return (*next_item)->u1.str;
}
void pvalIncludesAddInclude( pval *p, const char *include )
{
pval *s;
if (!pvalCheckType(p, "pvalIncludesAddSwitch", PV_INCLUDES))
return;
s = pvalCreateNode(PV_WORD);
s->u1.str = (char *)include;
p->u1.list = linku1(p->u1.list, s);
}
/* an include is a WORD with string set to path */
void pvalIncludesAddIncludeWithTimeConstraints( pval *p, const char *include, char *hour_range, char *dom_range, char *dow_range, char *month_range )
{
pval *hr = pvalCreateNode(PV_WORD);
pval *dom = pvalCreateNode(PV_WORD);
pval *dow = pvalCreateNode(PV_WORD);
pval *mon = pvalCreateNode(PV_WORD);
pval *s = pvalCreateNode(PV_WORD);
if (!pvalCheckType(p, "pvalIncludeAddIncludeWithTimeConstraints", PV_INCLUDES))
return;
s->u1.str = (char *)include;
p->u1.list = linku1(p->u1.list, s);
hr->u1.str = hour_range;
dom->u1.str = dom_range;
dow->u1.str = dow_range;
mon->u1.str = month_range;
s->u2.arglist = hr;
hr->next = dom;
dom->next = dow;
dow->next = mon;
mon->next = 0;
}
/* is this right??? come back and correct it */ /*the ptr is to the WORD */
void pvalIncludeGetTimeConstraints( pval *p, char **hour_range, char **dom_range, char **dow_range, char **month_range )
{
if (!pvalCheckType(p, "pvalIncludeGetTimeConstraints", PV_WORD))
return;
if (p->u2.arglist) {
*hour_range = p->u2.arglist->u1.str;
*dom_range = p->u2.arglist->next->u1.str;
*dow_range = p->u2.arglist->next->next->u1.str;
*month_range = p->u2.arglist->next->next->next->u1.str;
} else {
*hour_range = 0;
*dom_range = 0;
*dow_range = 0;
*month_range = 0;
}
}
/* is this right??? come back and correct it */ /*the ptr is to the WORD */
char* pvalIncludesWalk( pval *p, pval **next_item )
{
if (!pvalCheckType(p, "pvalIncludesWalk", PV_INCLUDES))
return 0;
if (!(*next_item))
*next_item = p->u1.list;
else {
*next_item = (*next_item)->next;
}
return (*next_item)->u1.str;
}
void pvalStatementBlockAddStatement( pval *p, pval *statement)
{
if (!pvalCheckType(p, "pvalStatementBlockAddStatement", PV_STATEMENTBLOCK))
return;
p->u1.list = linku1(p->u1.list, statement);
}
pval *pvalStatementBlockWalkStatements( pval *p, pval **next_statement)
{
if (!pvalCheckType(p, "pvalStatementBlockWalkStatements", PV_STATEMENTBLOCK))
return 0;
if (!(*next_statement))
*next_statement = p->u1.list;
else {
*next_statement = (*next_statement)->next;
}
return *next_statement;
}
void pvalVarDecSetVarname( pval *p, char *name )
{
if (!pvalCheckType(p, "pvalVarDecSetVarname", PV_VARDEC))
return;
p->u1.str = name;
}
void pvalVarDecSetValue( pval *p, char *value )
{
if (!pvalCheckType(p, "pvalVarDecSetValue", PV_VARDEC))
return;
p->u2.val = value;
}
char* pvalVarDecGetVarname( pval *p )
{
if (!pvalCheckType(p, "pvalVarDecGetVarname", PV_VARDEC))
return 0;
return p->u1.str;
}
char* pvalVarDecGetValue( pval *p )
{
if (!pvalCheckType(p, "pvalVarDecGetValue", PV_VARDEC))
return 0;
return p->u2.val;
}
void pvalGotoSetTarget( pval *p, char *context, char *exten, char *label )
{
pval *con, *ext, *pri;
if (!pvalCheckType(p, "pvalGotoSetTarget", PV_GOTO))
return;
if (context && strlen(context)) {
con = pvalCreateNode(PV_WORD);
ext = pvalCreateNode(PV_WORD);
pri = pvalCreateNode(PV_WORD);
con->u1.str = context;
ext->u1.str = exten;
pri->u1.str = label;
con->next = ext;
ext->next = pri;
p->u1.list = con;
} else if (exten && strlen(exten)) {
ext = pvalCreateNode(PV_WORD);
pri = pvalCreateNode(PV_WORD);
ext->u1.str = exten;
pri->u1.str = label;
ext->next = pri;
p->u1.list = ext;
} else {
pri = pvalCreateNode(PV_WORD);
pri->u1.str = label;
p->u1.list = pri;
}
}
void pvalGotoGetTarget( pval *p, char **context, char **exten, char **label )
{
if (!pvalCheckType(p, "pvalGotoGetTarget", PV_GOTO))
return;
if (p->u1.list && p->u1.list->next && p->u1.list->next->next) {
*context = p->u1.list->u1.str;
*exten = p->u1.list->next->u1.str;
*label = p->u1.list->next->next->u1.str;
} else if (p->u1.list && p->u1.list->next ) {
*exten = p->u1.list->u1.str;
*label = p->u1.list->next->u1.str;
*context = 0;
} else if (p->u1.list) {
*label = p->u1.list->u1.str;
*context = 0;
*exten = 0;
} else {
*context = 0;
*exten = 0;
*label = 0;
}
}
void pvalLabelSetName( pval *p, char *name )
{
if (!pvalCheckType(p, "pvalLabelSetName", PV_LABEL))
return;
p->u1.str = name;
}
char* pvalLabelGetName( pval *p )
{
if (!pvalCheckType(p, "pvalLabelGetName", PV_LABEL))
return 0;
return p->u1.str;
}
void pvalForSetInit( pval *p, char *init )
{
if (!pvalCheckType(p, "pvalForSetInit", PV_FOR))
return;
p->u1.for_init = init;
}
void pvalForSetTest( pval *p, char *test )
{
if (!pvalCheckType(p, "pvalForSetTest", PV_FOR))
return;
p->u2.for_test = test;
}
void pvalForSetInc( pval *p, char *inc )
{
if (!pvalCheckType(p, "pvalForSetInc", PV_FOR))
return;
p->u3.for_inc = inc;
}
void pvalForSetStatement( pval *p, pval *statement )
{
if (!pvalCheckType(p, "pvalForSetStatement", PV_FOR))
return;
p->u4.for_statements = statement;
}
char* pvalForGetInit( pval *p )
{
if (!pvalCheckType(p, "pvalForGetInit", PV_FOR))
return 0;
return p->u1.for_init;
}
char* pvalForGetTest( pval *p )
{
if (!pvalCheckType(p, "pvalForGetTest", PV_FOR))
return 0;
return p->u2.for_test;
}
char* pvalForGetInc( pval *p )
{
if (!pvalCheckType(p, "pvalForGetInc", PV_FOR))
return 0;
return p->u3.for_inc;
}
pval* pvalForGetStatement( pval *p )
{
if (!pvalCheckType(p, "pvalForGetStatement", PV_FOR))
return 0;
return p->u4.for_statements;
}
void pvalIfSetCondition( pval *p, char *expr )
{
if (!pvalCheckType(p, "pvalIfSetCondition", PV_IF))
return;
p->u1.str = expr;
}
char* pvalIfGetCondition( pval *p )
{
if (!pvalCheckType(p, "pvalIfGetCondition", PV_IFTIME))
return 0;
return p->u1.str;
}
void pvalIfTimeSetCondition( pval *p, char *hour_range, char *dow_range, char *dom_range, char *mon_range ) /* time range format: 24-hour format begin-end|dow range|dom range|month range */
{
pval *hr = pvalCreateNode(PV_WORD);
pval *dow = pvalCreateNode(PV_WORD);
pval *dom = pvalCreateNode(PV_WORD);
pval *mon = pvalCreateNode(PV_WORD);
if (!pvalCheckType(p, "pvalIfTimeSetCondition", PV_IFTIME))
return;
pvalWordSetString(hr, hour_range);
pvalWordSetString(dow, dow_range);
pvalWordSetString(dom, dom_range);
pvalWordSetString(mon, mon_range);
dom->next = mon;
dow->next = dom;
hr->next = dow;
p->u1.list = hr;
}
/* is this right??? come back and correct it */
void pvalIfTimeGetCondition( pval *p, char **hour_range, char **dow_range, char **dom_range, char **month_range )
{
if (!pvalCheckType(p, "pvalIfTimeGetCondition", PV_IFTIME))
return;
*hour_range = p->u1.list->u1.str;
*dow_range = p->u1.list->next->u1.str;
*dom_range = p->u1.list->next->next->u1.str;
*month_range = p->u1.list->next->next->next->u1.str;
}
void pvalRandomSetCondition( pval *p, char *percent )
{
if (!pvalCheckType(p, "pvalRandomSetCondition", PV_RANDOM))
return;
p->u1.str = percent;
}
char* pvalRandomGetCondition( pval *p )
{
if (!pvalCheckType(p, "pvalRandomGetCondition", PV_RANDOM))
return 0;
return p->u1.str;
}
void pvalConditionalSetThenStatement( pval *p, pval *statement )
{
p->u2.statements = statement;
}
void pvalConditionalSetElseStatement( pval *p, pval *statement )
{
p->u3.else_statements = statement;
}
pval* pvalConditionalGetThenStatement( pval *p )
{
return p->u2.statements;
}
pval* pvalConditionalGetElseStatement( pval *p )
{
return p->u3.else_statements;
}
void pvalSwitchSetTestexpr( pval *p, char *expr )
{
if (!pvalCheckType(p, "pvalSwitchSetTestexpr", PV_SWITCH))
return;
p->u1.str = expr;
}
char* pvalSwitchGetTestexpr( pval *p )
{
if (!pvalCheckType(p, "pvalSwitchGetTestexpr", PV_SWITCH))
return 0;
return p->u1.str;
}
void pvalSwitchAddCase( pval *p, pval *Case )
{
if (!pvalCheckType(p, "pvalSwitchAddCase", PV_SWITCH))
return;
if (!pvalCheckType(Case, "pvalSwitchAddCase", PV_CASE))
return;
if (!p->u2.statements)
p->u2.statements = Case;
else
linku1(p->u2.statements, Case);
}
pval* pvalSwitchWalkCases( pval *p, pval **next_case )
{
if (!pvalCheckType(p, "pvalSwitchWalkCases", PV_SWITCH))
return 0;
if (!(*next_case))
*next_case = p->u2.statements;
else {
*next_case = (*next_case)->next;
}
return *next_case;
}
void pvalExtenSetName( pval *p, char *name )
{
if (!pvalCheckType(p, "pvalExtenSetName", PV_EXTENSION))
return;
p->u1.str = name;
}
char* pvalExtenGetName( pval *p )
{
if (!pvalCheckType(p, "pvalExtenGetName", PV_EXTENSION))
return 0;
return p->u1.str;
}
void pvalExtenSetRegexten( pval *p )
{
if (!pvalCheckType(p, "pvalExtenSetRegexten", PV_EXTENSION))
return;
p->u4.regexten = 1;
}
void pvalExtenUnSetRegexten( pval *p )
{
if (!pvalCheckType(p, "pvalExtenUnSetRegexten", PV_EXTENSION))
return;
p->u4.regexten = 0;
}
int pvalExtenGetRegexten( pval *p )
{
if (!pvalCheckType(p, "pvalExtenGetRegexten", PV_EXTENSION))
return 0;
return p->u4.regexten;
}
void pvalExtenSetHints( pval *p, char *hints )
{
if (!pvalCheckType(p, "pvalExtenSetHints", PV_EXTENSION))
return;
p->u3.hints = hints;
}
char* pvalExtenGetHints( pval *p )
{
if (!pvalCheckType(p, "pvalExtenGetHints", PV_EXTENSION))
return 0;
return p->u3.hints;
}
void pvalExtenSetStatement( pval *p, pval *statement )
{
if (!pvalCheckType(p, "pvalExtenSetStatement", PV_EXTENSION))
return;
p->u2.statements = statement;
}
pval* pvalExtenGetStatement( pval *p )
{
if (!pvalCheckType(p, "pvalExtenGetStatement", PV_EXTENSION))
return 0;
return p->u2.statements;
}
void pvalIgnorePatSetPattern( pval *p, char *pat )
{
if (!pvalCheckType(p, "pvalIgnorePatSetPattern", PV_IGNOREPAT))
return;
p->u1.str = pat;
}
char* pvalIgnorePatGetPattern( pval *p )
{
if (!pvalCheckType(p, "pvalIgnorePatGetPattern", PV_IGNOREPAT))
return 0;
return p->u1.str;
}
void pvalGlobalsAddStatement( pval *p, pval *statement )
{
if (p->type != PV_GLOBALS) {
ast_log(LOG_ERROR, "pvalGlobalsAddStatement called where first arg is not a Globals!\n");
} else {
if (!p->u1.statements) {
p->u1.statements = statement;
} else {
p->u1.statements = linku1(p->u1.statements,statement);
}
}
}
pval* pvalGlobalsWalkStatements( pval *p, pval **next_statement )
{
if (!pvalCheckType(p, "pvalGlobalsWalkStatements", PV_GLOBALS))
return 0;
if (!next_statement) {
*next_statement = p;
return p;
} else {
*next_statement = (*next_statement)->next;
return (*next_statement)->next;
}
}
void pvalTopLevAddObject( pval *p, pval *contextOrObj )
{
if (p) {
linku1(p,contextOrObj);
} else {
ast_log(LOG_ERROR, "First arg to pvalTopLevel is NULL!\n");
}
}
pval *pvalTopLevWalkObjects(pval *p, pval **next_obj )
{
if (!next_obj) {
*next_obj = p;
return p;
} else {
*next_obj = (*next_obj)->next;
return (*next_obj)->next;
}
}
/* append second element to the list in the first one via next pointers */
pval * linku1(pval *head, pval *tail)
{
if (!head)
return tail;
if (tail) {
if (!head->next) {
head->next = tail;
} else {
head->u1_last->next = tail;
}
head->u1_last = tail;
tail->prev = head; /* the dad link only points to containers */
}
return head;
}
View Git Blame Copy Permalink