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gerrit.opencord.org / freeDiameter-old / 13b0e7de0d66906d50e074a339f890d6e59813ad / . / extensions / dict_legacy_xml / dict_lxml_xml.c
blob: 748c43fbf086934ee6099fee176cd6dbe33862f9 [file] [log] [blame]
/*********************************************************************************************************
* Software License Agreement (BSD License) *
* Author: Sebastien Decugis <sdecugis@freediameter.net> *
* *
* Copyright (c) 2013, WIDE Project and NICT *
* All rights reserved. *
* *
* Redistribution and use of this software in source and binary forms, with or without modification, are *
* permitted provided that the following conditions are met: *
* *
* * Redistributions of source code must retain the above *
* copyright notice, this list of conditions and the *
* following disclaimer. *
* *
* * Redistributions in binary form must reproduce the above *
* copyright notice, this list of conditions and the *
* following disclaimer in the documentation and/or other *
* materials provided with the distribution. *
* *
* * Neither the name of the WIDE Project or NICT nor the *
* names of its contributors may be used to endorse or *
* promote products derived from this software without *
* specific prior written permission of WIDE Project and *
* NICT. *
* *
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY EXPRESS OR IMPLIED *
* WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A *
* PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR *
* ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT *
* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS *
* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR *
* TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF *
* ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. *
*********************************************************************************************************/
#include "dict_lxml.h"
/*
The internal freeDiameter dictionary has strong dependency relations between
the different objects, as follow:
vendor
/ \
application \
/ \ |
command \ |
| type |
| / \ |
\ enumval \ |
\ avp
\ _____/
\ /
rule
It means an AVP cannot be defined unless the parent TYPE has already been defined,
in turn depending on parent APPLICATION, etc. (top-to-bottom dependencies on the graph)
On the other hand, the hierarchy of the XML format described in draft-frascone-xml-dictionary-00
does not enforce most of these dependencies, the structure is as follows:
vendor application
/ | \
command | avp
/ type \
rule enumval
(in addition if DTD validation was performed, command and avp refer to vendor, avp refers to type,
but we do not do it for larger compatibility -- we just report when errors are found)
As a consequence of this difference, it is impossible to parse the XML tree and create the dictionary objects in freeDiameter
in only 1 pass. To avoid parsing the tree several times, we use a temporary structure in memory to contain all the data
from the XML file, and when the parsing is complete we store all the objects in the dictionary.
*/
/* We use the SAX interface of libxml2 (from GNOME) to parse the XML file. */
#include <libxml/parser.h>
/*******************************************/
/* Helper functions */
static int xmltoint(xmlChar * xmlinteger, uint32_t * conv) {
TRACE_ENTRY("%p %p", xmlinteger, conv);
/* Attempt at converting the string to an integer */
if (sscanf((char *)xmlinteger, "%u", conv) != 1) {
TRACE_DEBUG(INFO, "Unable to convert '%s' to integer.", (char *)xmlinteger)
return EINVAL;
}
return 0;
}
/*******************************************
The temporary structure that is being built when the XML file is parsed
*******************************************/
/* VENDOR */
struct t_vend {
struct fd_list chain; /* link in the t_dictionary->vendors */
uint32_t id;
uint8_t * name;
};
static int new_vendor(struct fd_list * parent, xmlChar * xmlid, xmlChar * xmlname) {
struct t_vend * new;
uint32_t id = 0;
TRACE_ENTRY("%p %p %p", parent, xmlid, xmlname);
CHECK_PARAMS( parent && xmlid && xmlname );
CHECK_FCT( xmltoint(xmlid, &id) );
CHECK_MALLOC( new = malloc(sizeof(struct t_vend)) );
memset(new, 0, sizeof(struct t_vend));
fd_list_init(&new->chain, NULL);
new->id = id;
CHECK_MALLOC( new->name = (uint8_t *)strdup((char *)xmlname) );
fd_list_insert_before(parent, &new->chain);
return 0;
}
static void dump_vendor(struct t_vend * v) {
fd_log_debug(" Vendor %d:'%s'", v->id, (char *)v->name);
}
static void del_vendor_contents(struct t_vend * v) {
TRACE_ENTRY("%p", v);
free(v->name);
}
/* RULE */
struct t_rule {
struct fd_list chain; /* link in either t_cmd or t_avp */
uint8_t * avpname;
int max;
int min;
};
static int new_rule(struct fd_list * parent, xmlChar * xmlname, /* position is never used */ xmlChar * xmlmaximum, xmlChar * xmlminimum) {
struct t_rule * new;
uint32_t min, max;
TRACE_ENTRY("%p %p %p %p", parent, xmlname, xmlmaximum, xmlminimum);
CHECK_PARAMS( parent && xmlname );
CHECK_MALLOC( new = malloc(sizeof(struct t_rule)) );
memset(new, 0, sizeof(struct t_rule));
fd_list_init(&new->chain, NULL);
if (xmlminimum) {
CHECK_FCT( xmltoint(xmlminimum, &min) );
new->min = (int) min;
} else {
new->min = -1;
}
if (xmlmaximum) {
CHECK_FCT( xmltoint(xmlmaximum, &max) );
new->max = (int) max;
} else {
new->max = -1;
}
CHECK_MALLOC( new->avpname = (uint8_t *)strdup((char *)xmlname) );
fd_list_insert_before(parent, &new->chain);
return 0;
}
static void dump_rule(struct t_rule * r, char * prefix) {
fd_log_debug("%s ", prefix);
if (r->min != -1)
fd_log_debug("m:%d ", r->min);
if (r->max != -1)
fd_log_debug("M:%d ", r->max);
fd_log_debug("%s", (char *)r->avpname);
}
static void del_rule_contents(struct t_rule * r) {
TRACE_ENTRY("%p",r);
free(r->avpname);
}
/* COMMAND */
struct t_cmd {
struct fd_list chain; /* link in t_appl->commands */
uint32_t code;
uint8_t * name;
uint8_t flags;
uint8_t fmask;
struct fd_list reqrules_fixed; /* list of t_rule */
struct fd_list reqrules_required; /* list of t_rule */
struct fd_list reqrules_optional; /* list of t_rule */
struct fd_list ansrules_fixed; /* list of t_rule */
struct fd_list ansrules_required; /* list of t_rule */
struct fd_list ansrules_optional; /* list of t_rule */
};
static int new_cmd(struct fd_list * parent, xmlChar * xmlcode, xmlChar * xmlname /*, ignore the vendor id because we don't use it */, xmlChar * xmlpbit, struct t_cmd **ret) {
struct t_cmd * new;
uint32_t code;
uint32_t flag = 0;
uint32_t fmask = 0;
TRACE_ENTRY("%p %p %p %p", parent, xmlcode, xmlname, xmlpbit);
CHECK_PARAMS( parent && xmlcode && xmlname );
CHECK_FCT( xmltoint(xmlcode, &code) );
if (xmlpbit) {
uint32_t val;
CHECK_FCT( xmltoint(xmlpbit, &val) );
fmask |= CMD_FLAG_PROXIABLE;
if (val)
flag |= CMD_FLAG_PROXIABLE;
}
CHECK_MALLOC( new = malloc(sizeof(struct t_cmd)) );
memset(new, 0, sizeof(struct t_cmd));
fd_list_init(&new->chain, NULL);
new->code = code;
CHECK_MALLOC( new->name = (uint8_t *)strdup((char *)xmlname) );
new->flags = flag;
new->fmask = fmask;
fd_list_init(&new->reqrules_fixed, NULL);
fd_list_init(&new->reqrules_required, NULL);
fd_list_init(&new->reqrules_optional, NULL);
fd_list_init(&new->ansrules_fixed, NULL);
fd_list_init(&new->ansrules_required, NULL);
fd_list_init(&new->ansrules_optional, NULL);
fd_list_insert_before(parent, &new->chain);
*ret = new;
return 0;
}
static void dump_cmd(struct t_cmd * c) {
struct fd_list * li;
fd_log_debug(" Command %d %s: %s", c->code,
c->fmask ? ( c->flags ? "[P=1]" : "[P=0]") : "", c->name);
for (li = c->reqrules_fixed.next; li != &c->reqrules_fixed; li = li->next)
dump_rule((struct t_rule *)li, " Request fixed AVP:");
for (li = c->reqrules_required.next; li != &c->reqrules_required; li = li->next)
dump_rule((struct t_rule *)li, " Request required AVP:");
for (li = c->reqrules_optional.next; li != &c->reqrules_optional; li = li->next)
dump_rule((struct t_rule *)li, " Request optional AVP:");
for (li = c->ansrules_fixed.next; li != &c->ansrules_fixed; li = li->next)
dump_rule((struct t_rule *)li, " Answer fixed AVP:");
for (li = c->ansrules_required.next; li != &c->ansrules_required; li = li->next)
dump_rule((struct t_rule *)li, " Answer required AVP:");
for (li = c->ansrules_optional.next; li != &c->ansrules_optional; li = li->next)
dump_rule((struct t_rule *)li, " Answer optional AVP:");
}
static void del_cmd_contents(struct t_cmd * c) {
TRACE_ENTRY("%p", c);
free(c->name);
while (!FD_IS_LIST_EMPTY(&c->reqrules_fixed)) {
struct fd_list * li = c->reqrules_fixed.next;
fd_list_unlink(li);
del_rule_contents((struct t_rule *)li);
free(li);
}
while (!FD_IS_LIST_EMPTY(&c->reqrules_required)) {
struct fd_list * li = c->reqrules_required.next;
fd_list_unlink(li);
del_rule_contents((struct t_rule *)li);
free(li);
}
while (!FD_IS_LIST_EMPTY(&c->reqrules_optional)) {
struct fd_list * li = c->reqrules_optional.next;
fd_list_unlink(li);
del_rule_contents((struct t_rule *)li);
free(li);
}
while (!FD_IS_LIST_EMPTY(&c->ansrules_fixed)) {
struct fd_list * li = c->ansrules_fixed.next;
fd_list_unlink(li);
del_rule_contents((struct t_rule *)li);
free(li);
}
while (!FD_IS_LIST_EMPTY(&c->ansrules_required)) {
struct fd_list * li = c->ansrules_required.next;
fd_list_unlink(li);
del_rule_contents((struct t_rule *)li);
free(li);
}
while (!FD_IS_LIST_EMPTY(&c->ansrules_optional)) {
struct fd_list * li = c->ansrules_optional.next;
fd_list_unlink(li);
del_rule_contents((struct t_rule *)li);
free(li);
}
}
/* TYPE */
struct t_typedefn {
struct fd_list chain; /* link in t_appl->types */
uint8_t * name;
uint8_t * parent_name;
};
static int new_type(struct fd_list * parent, xmlChar * xmlname, xmlChar * xmlparent /*, xmlChar * xmldescription -- ignore */) {
struct t_typedefn * new;
TRACE_ENTRY("%p %p %p", parent, xmlname, xmlparent);
CHECK_PARAMS( parent && xmlname );
CHECK_MALLOC( new = malloc(sizeof(struct t_typedefn)) );
memset(new, 0, sizeof(struct t_typedefn));
fd_list_init(&new->chain, NULL);
CHECK_MALLOC( new->name = (uint8_t *)strdup((char *)xmlname) );
if (xmlparent) {
CHECK_MALLOC( new->parent_name = (uint8_t *)strdup((char *)xmlparent) );
}
fd_list_insert_before(parent, &new->chain);
return 0;
}
static void dump_type(struct t_typedefn * t) {
fd_log_debug(" Type %s%s%s%s", (char *)t->name,
t->parent_name ? "(parent: " : "",
t->parent_name ? (char *)t->parent_name : "",
t->parent_name ? ")" : "");
}
static void del_type_contents(struct t_typedefn * t) {
TRACE_ENTRY("%p", t);
free(t->name);
free(t->parent_name);
}
/* TYPE INSIDE AVP */
struct t_avptype {
struct fd_list chain; /* link in t_avp->type */
uint8_t * type_name;
};
static int new_avptype(struct fd_list * parent, xmlChar * xmlname) {
struct t_avptype * new;
TRACE_ENTRY("%p %p", parent, xmlname);
CHECK_PARAMS( parent && xmlname );
CHECK_MALLOC( new = malloc(sizeof(struct t_avptype)) );
memset(new, 0, sizeof(struct t_avptype));
fd_list_init(&new->chain, NULL);
CHECK_MALLOC( new->type_name = (uint8_t *)strdup((char *)xmlname) );
fd_list_insert_before(parent, &new->chain);
return 0;
}
static void dump_avptype(struct t_avptype * t) {
fd_log_debug(" data type: %s", t->type_name);
}
static void del_avptype_contents(struct t_avptype * t) {
TRACE_ENTRY("%p", t);
free(t->type_name);
}
/* ENUM */
struct t_enum {
struct fd_list chain; /* link in t_avp->enums */
uint32_t code;
uint8_t * name;
};
static int new_enum(struct fd_list * parent, xmlChar * xmlcode, xmlChar * xmlname) {
struct t_enum * new;
uint32_t code = 0;
TRACE_ENTRY("%p %p %p", parent, xmlcode, xmlname);
CHECK_PARAMS( parent && xmlcode && xmlname );
CHECK_FCT( xmltoint(xmlcode, &code) );
CHECK_MALLOC( new = malloc(sizeof(struct t_enum)) );
memset(new, 0, sizeof(struct t_enum));
fd_list_init(&new->chain, NULL);
new->code = code;
CHECK_MALLOC( new->name = (uint8_t *)strdup((char *)xmlname) );
fd_list_insert_before(parent, &new->chain);
return 0;
}
static void dump_enum(struct t_enum * e) {
fd_log_debug(" Value: %d == %s", e->code, e->name);
}
static void del_enum_contents(struct t_enum * e) {
TRACE_ENTRY("%p", e);
free(e->name);
}
/* AVP */
struct t_avp {
struct fd_list chain; /* link in t_appl->avps */
uint32_t code;
uint8_t * name;
uint8_t flags;
uint8_t fmask;
uint32_t vendor;
struct fd_list type; /* list of t_avptype -- there must be at max 1 item in the list */
struct fd_list enums; /* list of t_enum */
struct fd_list grouped_fixed; /* list of t_rule */
struct fd_list grouped_required; /* list of t_rule */
struct fd_list grouped_optional; /* list of t_rule */
};
static int new_avp(struct fd_list * parent, xmlChar * xmlcode, xmlChar * xmlname, xmlChar * xmlmandatory, xmlChar * xmlvendor, struct t_avp **ret) {
/* we ignore description, may-encrypt, protected, ... */
struct t_avp * new;
uint32_t code;
uint32_t vendor = 0;
uint32_t flag = 0;
uint32_t fmask = 0;
TRACE_ENTRY("%p %p %p %p %p", parent, xmlcode, xmlname, xmlmandatory, xmlvendor);
CHECK_PARAMS( parent && xmlcode && xmlname );
CHECK_FCT( xmltoint(xmlcode, &code) );
if (xmlmandatory && !strcasecmp((char *)xmlmandatory, "must")) {
flag |= AVP_FLAG_MANDATORY;
fmask |= AVP_FLAG_MANDATORY;
}
if (xmlvendor) {
CHECK_FCT( xmltoint(xmlvendor, &vendor) );
if (vendor)
flag |= AVP_FLAG_VENDOR;
fmask |= AVP_FLAG_VENDOR;
}
CHECK_MALLOC( new = malloc(sizeof(struct t_avp)) );
memset(new, 0, sizeof(struct t_avp));
fd_list_init(&new->chain, NULL);
new->code = code;
CHECK_MALLOC( new->name = (uint8_t *)strdup((char *)xmlname) );
new->flags = flag;
new->fmask = fmask;
new->vendor= vendor;
fd_list_init(&new->type, NULL);
fd_list_init(&new->enums, NULL);
fd_list_init(&new->grouped_fixed, NULL);
fd_list_init(&new->grouped_required, NULL);
fd_list_init(&new->grouped_optional, NULL);
fd_list_insert_before(parent, &new->chain);
*ret = new;
return 0;
}
static void dump_avp(struct t_avp * a) {
struct fd_list * li;
fd_log_debug(" AVP %d %s%s: %s", a->code,
a->fmask & AVP_FLAG_MANDATORY ? ( a->flags & AVP_FLAG_MANDATORY ? "[M=1]" : "[M=0]") : "",
a->fmask & AVP_FLAG_VENDOR ? ( a->flags & AVP_FLAG_VENDOR ? "[V=1]" : "[V=0]") : "",
a->name);
if (a->fmask & AVP_FLAG_VENDOR)
fd_log_debug(" vendor: %d", a->vendor);
for (li = a->type.next; li != &a->type; li = li->next)
dump_avptype((struct t_avptype *)li);
for (li = a->enums.next; li != &a->enums; li = li->next)
dump_enum((struct t_enum *)li);
for (li = a->grouped_fixed.next; li != &a->grouped_fixed; li = li->next)
dump_rule((struct t_rule *)li, " Grouped, fixed AVP:");
for (li = a->grouped_required.next; li != &a->grouped_required; li = li->next)
dump_rule((struct t_rule *)li, " Grouped, required AVP:");
for (li = a->grouped_optional.next; li != &a->grouped_optional; li = li->next)
dump_rule((struct t_rule *)li, " Grouped, optional AVP:");
}
static void del_avp_contents(struct t_avp * a) {
TRACE_ENTRY("%p", a);
free(a->name);
while (!FD_IS_LIST_EMPTY(&a->type)) {
struct fd_list * li = a->type.next;
fd_list_unlink(li);
del_avptype_contents((struct t_avptype *)li);
free(li);
}
while (!FD_IS_LIST_EMPTY(&a->enums)) {
struct fd_list * li = a->enums.next;
fd_list_unlink(li);
del_enum_contents((struct t_enum *)li);
free(li);
}
while (!FD_IS_LIST_EMPTY(&a->grouped_fixed)) {
struct fd_list * li = a->grouped_fixed.next;
fd_list_unlink(li);
del_rule_contents((struct t_rule *)li);
free(li);
}
while (!FD_IS_LIST_EMPTY(&a->grouped_required)) {
struct fd_list * li = a->grouped_required.next;
fd_list_unlink(li);
del_rule_contents((struct t_rule *)li);
free(li);
}
while (!FD_IS_LIST_EMPTY(&a->grouped_optional)) {
struct fd_list * li = a->grouped_optional.next;
fd_list_unlink(li);
del_rule_contents((struct t_rule *)li);
free(li);
}
}
/* APPLICATION */
struct t_appl {
struct fd_list chain; /* link in the t_dictionary->base_and_applications, the sentinel corresponds to "base" */
uint32_t id;
uint8_t * name;
struct fd_list commands; /* list of t_cmd */
struct fd_list types; /* list of t_typedefn */
struct fd_list avps; /* list of t_avp */
};
static int new_appl(struct fd_list * parent, xmlChar * xmlid, xmlChar * xmlname /* We ignore the URI */, struct t_appl **ret) {
struct t_appl * new;
uint32_t id = 0;
TRACE_ENTRY("%p %p %p", parent, xmlid, xmlname);
CHECK_PARAMS( parent && xmlid && xmlname );
CHECK_FCT( xmltoint(xmlid, &id) );
CHECK_MALLOC( new = malloc(sizeof(struct t_appl)) );
memset(new, 0, sizeof(struct t_appl));
fd_list_init(&new->chain, NULL);
new->id = id;
CHECK_MALLOC( new->name = (uint8_t *)strdup((char *)xmlname) );
fd_list_init(&new->commands, NULL);
fd_list_init(&new->types, NULL);
fd_list_init(&new->avps, NULL);
fd_list_insert_before(parent, &new->chain);
*ret = new;
return 0;
}
static void dump_appl(struct t_appl * a) {
struct fd_list * li;
fd_log_debug(" Application %d: %s", a->id, a->name);
for (li = a->commands.next; li != &a->commands; li = li->next)
dump_cmd((struct t_cmd *)li);
for (li = a->types.next; li != &a->types; li = li->next)
dump_type((struct t_typedefn *)li);
for (li = a->avps.next; li != &a->avps; li = li->next)
dump_avp((struct t_avp *)li);
}
static void del_appl_contents(struct t_appl * a) {
TRACE_ENTRY("%p", a);
free(a->name);
while (!FD_IS_LIST_EMPTY(&a->commands)) {
struct fd_list * li = a->commands.next;
fd_list_unlink(li);
del_cmd_contents((struct t_cmd *)li);
free(li);
}
while (!FD_IS_LIST_EMPTY(&a->types)) {
struct fd_list * li = a->types.next;
fd_list_unlink(li);
del_type_contents((struct t_typedefn *)li);
free(li);
}
while (!FD_IS_LIST_EMPTY(&a->avps)) {
struct fd_list * li = a->avps.next;
fd_list_unlink(li);
del_avp_contents((struct t_avp *)li);
free(li);
}
}
/* DICTIONARY */
struct t_dictionary {
struct fd_list vendors;
struct t_appl base_and_applications;
};
static void dump_dict(struct t_dictionary * d) {
struct fd_list * li;
for (li = d->vendors.next; li != &d->vendors; li = li->next)
dump_vendor((struct t_vend *)li);
dump_appl(&d->base_and_applications);
for (li = d->base_and_applications.chain.next; li != &d->base_and_applications.chain; li = li->next)
dump_appl((struct t_appl *)li);
}
static void del_dict_contents(struct t_dictionary * d) {
TRACE_ENTRY("%p", d);
while (!FD_IS_LIST_EMPTY(&d->vendors)) {
struct fd_list * li = d->vendors.next;
fd_list_unlink(li);
del_vendor_contents((struct t_vend *)li);
free(li);
}
while (!FD_IS_LIST_EMPTY(&d->base_and_applications.chain)) {
struct fd_list * li = d->base_and_applications.chain.next;
fd_list_unlink(li);
del_appl_contents((struct t_appl *)li);
free(li);
}
d->base_and_applications.name = NULL;
del_appl_contents(&d->base_and_applications);
}
/*********************************************/
/* The states for the SAX parser, corresponding roughly to the expected structure of the XML file.
We use the states mostly to validate the XML file. */
enum state {
INIT = 0,
START, /* In "dictionary" */
IN_VENDOR,
IN_APPLICATION, /* note that "base" is equivalent to "application" for our state machine */
IN_COMMAND,
IN_REQRULES,
IN_REQRULES_FIXED,
IN_REQRULES_REQUIRED,
IN_REQRULES_OPTIONAL,
IN_ANSRULES,
IN_ANSRULES_FIXED,
IN_ANSRULES_REQUIRED,
IN_ANSRULES_OPTIONAL,
IN_TYPEDEFN,
IN_AVP,
IN_AVP_TYPE,
IN_AVP_ENUM,
IN_AVP_GROUPED,
IN_AVP_GROUPED_FIXED,
IN_AVP_GROUPED_REQUIRED,
IN_AVP_GROUPED_OPTIONAL
};
/* The context passed to the SAX parser */
struct parser_ctx {
enum state state; /* the current state */
int error_depth; /* if non 0, we are in an unexpected element, wait until the count goes back to 0 to resume normal parsing. */
struct t_dictionary dict; /* The dictionary being built */
struct t_appl * cur_app;
struct t_cmd * cur_cmd;
struct t_avp * cur_avp;
char * xmlfilename; /* Name of the file, for error messages */
};
/* Find an attribute with given name in the list */
static void get_attr(const xmlChar ** atts_array, const char * attr_name, xmlChar ** attr_val) {
int i;
*attr_val = NULL;
if (atts_array == NULL)
return;
for (i=0; atts_array[i] != NULL; i+=2) {
if (!strcasecmp((char *)atts_array[i], attr_name)) {
/* found */
*attr_val = (xmlChar *)atts_array[i+1];
return;
}
}
/* not found */
return;
}
/* The following macro avoids duplicating a lot of code in the state machine */
#define ADD_RULE( _parent_list ) { \
xmlChar *xname, *xmin, *xmax; \
/* We are expecting an <avprule> tag at this point */ \
if (strcasecmp((char *)name, "avprule")) \
goto xml_tree_error; \
/* Search the expected attributes */ \
get_attr(atts, "name", &xname); \
get_attr(atts, "maximum", &xmax); \
get_attr(atts, "minimum", &xmin); \
/* Check the mandatory name is here */ \
CHECK_PARAMS_DO(xname, \
{ TRACE_DEBUG(INFO, "Invalid 'avprule' tag found without 'name' attribute."); goto xml_tree_error; } ); \
/* Create the rule and add into the parent list */ \
CHECK_FCT_DO( new_rule((_parent_list), xname, xmax, xmin),\
{ TRACE_DEBUG(INFO, "An error occurred while parsing an avprule tag. Entry ignored."); goto xml_tree_error; } ); \
/* Done. we don't change the state */ \
}
/* The function called on each XML element start tag (startElementSAXFunc) */
static void SAXstartelem (void * ctx, const xmlChar * name, const xmlChar ** atts)
{
struct parser_ctx * data = ctx;
TRACE_ENTRY("%p %p %p", ctx, name, atts);
CHECK_PARAMS_DO( ctx && name, { return; } );
TRACE_DEBUG(CALL, "Tag: <%s>", (char *)name);
if (data->error_depth) /* we are in an unknown element, just skip until it is closed */
goto xml_tree_error;
switch (data->state) {
case INIT: /* we are just starting. We only expect a <dictionary> tag, reject anything else. */
if (strcasecmp((char *)name, "dictionary"))
goto xml_tree_error;
data->state = START;
break;
case START:
/* We are in <dictionary>
Valid tags are: <vendor>, <base>, <application> */
if (!strcasecmp((char *)name, "vendor")) {
xmlChar *xid, *xname;
get_attr(atts, "id", &xid);
get_attr(atts, "name", &xname);
/* id and name are required */
CHECK_PARAMS_DO(xid && xname,
{ TRACE_DEBUG(INFO, "Invalid 'vendor' tag found without 'id' or 'name' attribute."); goto xml_tree_error; } );
CHECK_FCT_DO( new_vendor(&data->dict.vendors, xid, xname),
{ TRACE_DEBUG(INFO, "An error occurred while parsing a vendor tag. Entry ignored."); goto xml_tree_error; } )
data->state = IN_VENDOR;
break;
}
if (!strcasecmp((char *)name, "base")) {
/* we don't care for the 'uri' attribute */
data->cur_app = &data->dict.base_and_applications;
data->state = IN_APPLICATION;
break;
}
if (!strcasecmp((char *)name, "application")) {
/* we don't care for the 'uri' attribute */
xmlChar *xid, *xname;
char buf[50];
get_attr(atts, "id", &xid);
get_attr(atts, "name", &xname);
CHECK_PARAMS_DO(xid,
{ TRACE_DEBUG(INFO, "Invalid 'application' tag found without 'id' attribute."); goto xml_tree_error; } );
/* Name is optional, if not provided we create a name */
if (!xname) {
snprintf(buf, sizeof(buf), "Application %s", xid);
xname = (xmlChar *)buf;
}
CHECK_FCT_DO( new_appl(&data->dict.base_and_applications.chain, xid, xname, &data->cur_app),
{ TRACE_DEBUG(INFO, "An error occurred while parsing an application tag. Entry ignored."); goto xml_tree_error; } )
data->state = IN_APPLICATION;
break;
}
/* Other tags are errors */
goto xml_tree_error;
case IN_VENDOR: /* nothing is allowed inside <vendor> */
goto xml_tree_error;
case IN_APPLICATION:
/* We are in <base> or <application>
Valid tags are: <command>, <typedefn>, <avp> */
if (!strcasecmp((char *)name, "command")) {
/* we don't care for the 'vendor-id' attribute. */
xmlChar *xcode, *xname, *xpbit;
get_attr(atts, "code", &xcode);
get_attr(atts, "name", &xname);
get_attr(atts, "pbit", &xpbit);
/* code and name are required */
CHECK_PARAMS_DO(xcode && xname,
{ TRACE_DEBUG(INFO, "Invalid 'command' tag found without 'code' or 'name' attribute."); goto xml_tree_error; } );
CHECK_FCT_DO( new_cmd( &data->cur_app->commands, xcode, xname, xpbit, &data->cur_cmd),
{ TRACE_DEBUG(INFO, "An error occurred while parsing a command tag. Entry ignored."); goto xml_tree_error; } )
data->state = IN_COMMAND;
break;
}
if (!strcasecmp((char *)name, "typedefn")) {
/* we don't care for the 'description' attribute. */
xmlChar *xname, *xparent;
get_attr(atts, "type-name", &xname);
get_attr(atts, "type-parent", &xparent);
/* name is required */
CHECK_PARAMS_DO(xname,
{ TRACE_DEBUG(INFO, "Invalid 'typedefn' tag found without 'name' attribute."); goto xml_tree_error; } );
CHECK_FCT_DO( new_type( &data->cur_app->types, xname, xparent),
{ TRACE_DEBUG(INFO, "An error occurred while parsing a typedefn tag. Entry ignored."); goto xml_tree_error; } )
data->state = IN_TYPEDEFN;
break;
}
if (!strcasecmp((char *)name, "avp")) {
/* we don't care for the description, may-encrypt, and protected attributes */
xmlChar *xname, *xcode, *xmandatory, *xvendor;
get_attr(atts, "name", &xname);
get_attr(atts, "code", &xcode);
get_attr(atts, "mandatory", &xmandatory);
get_attr(atts, "vendor-id", &xvendor);
/* code and name are required */
CHECK_PARAMS_DO(xcode && xname,
{ TRACE_DEBUG(INFO, "Invalid 'avp' tag found without 'code' or 'name' attribute."); goto xml_tree_error; } );
CHECK_FCT_DO( new_avp(&data->cur_app->avps, xcode, xname, xmandatory, xvendor, &data->cur_avp),
{ TRACE_DEBUG(INFO, "An error occurred while parsing an avp tag. Entry ignored."); goto xml_tree_error; } )
data->state = IN_AVP;
break;
}
/* Other tags are errors */
goto xml_tree_error;
case IN_COMMAND:
/* We are in <command>
Valid tags are: <requestrules>, <answerrules> */
if (!strcasecmp((char *)name, "requestrules")) {
data->state = IN_REQRULES;
break;
}
if (!strcasecmp((char *)name, "answerrules")) {
data->state = IN_ANSRULES;
break;
}
/* Other tags are errors */
goto xml_tree_error;
case IN_REQRULES:
/* We are in <requestrules>
Valid tags are: <fixed>, <required>, <optional> */
if (!strcasecmp((char *)name, "fixed")) {
data->state = IN_REQRULES_FIXED;
break;
}
if (!strcasecmp((char *)name, "required")) {
data->state = IN_REQRULES_REQUIRED;
break;
}
if (!strcasecmp((char *)name, "optional")) {
data->state = IN_REQRULES_OPTIONAL;
break;
}
/* Other tags are errors */
goto xml_tree_error;
case IN_ANSRULES:
/* We are in <answerrules>
Valid tags are: <fixed>, <required>, <optional> */
if (!strcasecmp((char *)name, "fixed")) {
data->state = IN_ANSRULES_FIXED;
break;
}
if (!strcasecmp((char *)name, "required")) {
data->state = IN_ANSRULES_REQUIRED;
break;
}
if (!strcasecmp((char *)name, "optional")) {
data->state = IN_ANSRULES_OPTIONAL;
break;
}
/* Other tags are errors */
goto xml_tree_error;
case IN_REQRULES_FIXED:
/* We are in <command><answerrules><fixed>
Valid tags are: <avprule> */
ADD_RULE( &data->cur_cmd->reqrules_fixed );
break;
case IN_REQRULES_REQUIRED:
ADD_RULE( &data->cur_cmd->reqrules_required );
break;
case IN_REQRULES_OPTIONAL:
ADD_RULE( &data->cur_cmd->reqrules_optional );
break;
case IN_ANSRULES_FIXED:
ADD_RULE( &data->cur_cmd->ansrules_fixed );
break;
case IN_ANSRULES_REQUIRED:
ADD_RULE( &data->cur_cmd->ansrules_required );
break;
case IN_ANSRULES_OPTIONAL:
ADD_RULE( &data->cur_cmd->ansrules_optional );
break;
case IN_TYPEDEFN: /* nothing is allowed inside <typedefn> */
goto xml_tree_error;
case IN_AVP:
/* We are in <avp>
Valid tags are: <type>, <enum>, <grouped> */
if (!strcasecmp((char *)name, "type")) {
xmlChar *xname;
get_attr(atts, "type-name", &xname);
/* name is required */
CHECK_PARAMS_DO(xname,
{ TRACE_DEBUG(INFO, "Invalid 'type' tag found without 'name' attribute."); goto xml_tree_error; } );
/* Check there is only 1 type */
if (!FD_IS_LIST_EMPTY(&data->cur_avp->type)) {
TRACE_DEBUG(INFO, "Multiple 'type' tags found for AVP.");
goto xml_tree_error;
}
/* Add the new type */
CHECK_FCT_DO( new_avptype(&data->cur_avp->type, xname),
{ TRACE_DEBUG(INFO, "An error occurred while parsing a type tag. Entry ignored."); goto xml_tree_error; } )
data->state = IN_AVP_TYPE;
break;
}
if (!strcasecmp((char *)name, "enum")) {
xmlChar *xcode, *xname;
get_attr(atts, "code", &xcode);
get_attr(atts, "name", &xname);
/* code and name are required */
CHECK_PARAMS_DO(xcode && xname,
{ TRACE_DEBUG(INFO, "Invalid 'enum' tag found without 'code' or 'name' attribute."); goto xml_tree_error; } );
CHECK_FCT_DO( new_enum(&data->cur_avp->enums, xcode, xname),
{ TRACE_DEBUG(INFO, "An error occurred while parsing a command tag. Entry ignored."); goto xml_tree_error; } )
data->state = IN_AVP_ENUM;
break;
}
if (!strcasecmp((char *)name, "grouped")) {
/* no attribute for this one */
data->state = IN_AVP_GROUPED;
break;
}
/* Other tags are errors */
goto xml_tree_error;
case IN_AVP_TYPE: /* nothing is allowed inside <type> */
goto xml_tree_error;
case IN_AVP_ENUM: /* nothing is allowed inside <enum> */
goto xml_tree_error;
case IN_AVP_GROUPED:
/* We are in <avp><grouped>
Valid tags are: <fixed>, <required>, <optional> */
if (!strcasecmp((char *)name, "fixed")) {
data->state = IN_AVP_GROUPED_FIXED;
break;
}
if (!strcasecmp((char *)name, "required")) {
data->state = IN_AVP_GROUPED_REQUIRED;
break;
}
if (!strcasecmp((char *)name, "optional")) {
data->state = IN_AVP_GROUPED_OPTIONAL;
break;
}
/* Other tags are errors */
goto xml_tree_error;
case IN_AVP_GROUPED_FIXED:
/* We are in <avp><grouped><fixed>
Valid tags are: <avprule> */
ADD_RULE( &data->cur_avp->grouped_fixed );
break;
case IN_AVP_GROUPED_REQUIRED:
ADD_RULE( &data->cur_avp->grouped_required );
break;
case IN_AVP_GROUPED_OPTIONAL:
ADD_RULE( &data->cur_avp->grouped_optional );
break;
default:
TRACE_DEBUG(INFO, "Internal parsing error, unexpected state %d.", data->state);
}
return;
xml_tree_error:
if (!data->error_depth) {
TRACE_DEBUG(INFO, "Unexpected XML element found: '%s'. Ignoring...", name);
}
data->error_depth += 1;
if (data->cur_app || data->cur_cmd || data->cur_avp) {
TRACE_DEBUG(INFO, "Error encountered while parsing tag of:");
if (data->cur_app)
fd_log_debug(" Application: '%s'", data->cur_app->name);
if (data->cur_cmd)
fd_log_debug(" Command : '%s'", data->cur_cmd->name);
if (data->cur_avp)
fd_log_debug(" AVP : '%s'", data->cur_avp->name);
}
return;
}
/* The function called on each XML element end tag (endElementSAXFunc) */
static void SAXendelem (void * ctx, const xmlChar * name)
{
struct parser_ctx * data = ctx;
TRACE_ENTRY("%p %p", ctx, name);
CHECK_PARAMS_DO( ctx && name, { return; } );
TRACE_DEBUG(CALL, "Tag: </%s>", (char *)name);
if (data->error_depth) {
/* we are recovering from an erroneous element */
data->error_depth -= 1;
return;
}
switch (data->state) {
case INIT:
goto state_machine_error;
case START:
if (strcasecmp((char *)name, "dictionary"))
goto state_machine_error;
data->state = 0;
break;
case IN_VENDOR:
if (strcasecmp((char *)name, "vendor"))
goto state_machine_error;
data->state = START;
break;
case IN_APPLICATION:
if (strcasecmp((char *)name, "base") && strcasecmp((char *)name, "application"))
goto state_machine_error;
data->cur_app = NULL;
data->state = START;
break;
case IN_COMMAND:
if (strcasecmp((char *)name, "command"))
goto state_machine_error;
data->cur_cmd = NULL;
data->state = IN_APPLICATION;
break;
case IN_REQRULES:
if (strcasecmp((char *)name, "requestrules"))
goto state_machine_error;
data->state = IN_COMMAND;
break;
case IN_REQRULES_FIXED:
if (!strcasecmp((char *)name, "avprule"))
/* we don't have a special state for these, just ignore */
return;
if (strcasecmp((char *)name, "fixed"))
goto state_machine_error;
data->state = IN_REQRULES;
break;
case IN_REQRULES_REQUIRED:
if (!strcasecmp((char *)name, "avprule"))
/* we don't have a special state for these, just ignore */
return;
if (strcasecmp((char *)name, "required"))
goto state_machine_error;
data->state = IN_REQRULES;
break;
case IN_REQRULES_OPTIONAL:
if (!strcasecmp((char *)name, "avprule"))
/* we don't have a special state for these, just ignore */
return;
if (strcasecmp((char *)name, "optional"))
goto state_machine_error;
data->state = IN_REQRULES;
break;
case IN_ANSRULES:
if (strcasecmp((char *)name, "answerrules"))
goto state_machine_error;
data->state = IN_COMMAND;
break;
case IN_ANSRULES_FIXED:
if (!strcasecmp((char *)name, "avprule"))
/* we don't have a special state for these, just ignore */
return;
if (strcasecmp((char *)name, "fixed"))
goto state_machine_error;
data->state = IN_ANSRULES;
break;
case IN_ANSRULES_REQUIRED:
if (!strcasecmp((char *)name, "avprule"))
/* we don't have a special state for these, just ignore */
return;
if (strcasecmp((char *)name, "required"))
goto state_machine_error;
data->state = IN_ANSRULES;
break;
case IN_ANSRULES_OPTIONAL:
if (!strcasecmp((char *)name, "avprule"))
/* we don't have a special state for these, just ignore */
return;
if (strcasecmp((char *)name, "optional"))
goto state_machine_error;
data->state = IN_ANSRULES;
break;
case IN_TYPEDEFN:
if (strcasecmp((char *)name, "typedefn"))
goto state_machine_error;
data->state = IN_APPLICATION;
break;
case IN_AVP:
if (strcasecmp((char *)name, "avp"))
goto state_machine_error;
data->cur_avp = NULL;
data->state = IN_APPLICATION;
break;
case IN_AVP_TYPE:
if (strcasecmp((char *)name, "type"))
goto state_machine_error;
data->state = IN_AVP;
break;
case IN_AVP_ENUM:
if (strcasecmp((char *)name, "enum"))
goto state_machine_error;
data->state = IN_AVP;
break;
case IN_AVP_GROUPED:
if (strcasecmp((char *)name, "grouped"))
goto state_machine_error;
data->state = IN_AVP;
break;
case IN_AVP_GROUPED_FIXED:
if (!strcasecmp((char *)name, "avprule"))
/* we don't have a special state for these, just ignore */
return;
if (strcasecmp((char *)name, "fixed"))
goto state_machine_error;
data->state = IN_AVP_GROUPED;
break;
case IN_AVP_GROUPED_REQUIRED:
if (!strcasecmp((char *)name, "avprule"))
return;
if (strcasecmp((char *)name, "required"))
goto state_machine_error;
data->state = IN_AVP_GROUPED;
break;
case IN_AVP_GROUPED_OPTIONAL:
if (!strcasecmp((char *)name, "avprule"))
return;
if (strcasecmp((char *)name, "optional"))
goto state_machine_error;
data->state = IN_AVP_GROUPED;
break;
default:
TRACE_DEBUG(INFO, "Internal parsing error, unexpected state %d.", data->state);
}
return;
state_machine_error:
TRACE_DEBUG(INFO, "Internal parsing error, ignored [state %d, closing tag '%s'].", data->state, name);
return;
}
/* The SAX parser sends a warning, error, fatalerror -- do we need these ?
static void SAXwarning (void * ctx, const char * msg, ...)
{
}
static void SAXerror (void * ctx, const char * msg, ...)
{
}
static void SAXfatal (void * ctx, const char * msg, ...)
{
}
*/
/*********************************************/
/* 2nd pass: from memory to fD dictionary */
/*********************************************/
/* Find or create a vendor */
static int vend_to_fD(struct t_vend * v, struct dictionary * fD_dict, struct dict_object ** fd_v, int * nb_added)
{
int ret;
struct dict_object * prev = NULL;
struct dict_vendor_data vd;
TRACE_ENTRY("%p %p %p %p", v, fD_dict, fd_v, nb_added);
CHECK_PARAMS(v && fD_dict);
/* Prepare the data in fD's format */
memset(&vd, 0, sizeof(vd));
vd.vendor_id = v->id;
vd.vendor_name = (char *)v->name;
/* Create or search in the dictionary */
ret = fd_dict_new ( fD_dict, DICT_VENDOR, &vd, NULL, &prev );
if (fd_v)
*fd_v = prev;
if (ret == EEXIST) {
/* Conflict with existing entry */
CHECK_FCT( fd_dict_getval(prev, &vd) );
TRACE_DEBUG(INFO, "[dict_legacy_xml] Warning: Conflicting entry.");
TRACE_DEBUG(INFO, "[dict_legacy_xml] New entry (ignored): %u - '%s'", v->id, (char *)v->name);
TRACE_DEBUG(INFO, "[dict_legacy_xml] Old entry : %u - '%s'", vd.vendor_id, vd.vendor_name);
return 0;
} else {
/* other errors are stoppers */
CHECK_FCT(ret);
}
/* Update count */
if (nb_added)
*nb_added += 1;
/* Done */
return 0;
}
/* Find the base fD type from a type name */
static int resolve_base_type(struct dictionary * fD_dict, uint8_t * type_name, enum dict_avp_basetype * basetype, struct dict_object **type)
{
int ret;
struct dict_type_data td;
struct dict_object *t;
TRACE_ENTRY("%p, %p %p", fD_dict, type_name, basetype);
CHECK_PARAMS( fD_dict && type_name && basetype );
/* First, check if the type is already in the dictionary */
ret = fd_dict_search ( fD_dict, DICT_TYPE, TYPE_BY_NAME, type_name, &t, ENOENT);
switch (ret) {
case 0: /* the type is already in the dictionary */
CHECK_FCT( fd_dict_getval(t, &td) );
*basetype = td.type_base;
if (type)
*type = t;
return 0;
case ENOENT: /* We did not find it, it is maybe normal */
break;
default:
/* An unexpected error occurred */
CHECK_FCT(ret);
}
/* at this point we did not find the type in the dictionary */
#define PREDEF_TYPES( _typename_, _basetype_ ) \
if (!strcasecmp((char *)type_name, (_typename_))) { \
*basetype = (_basetype_); \
return 0; \
}
PREDEF_TYPES( "OctetString", AVP_TYPE_OCTETSTRING );
PREDEF_TYPES( "Integer32", AVP_TYPE_INTEGER32 );
PREDEF_TYPES( "Integer64", AVP_TYPE_INTEGER64 );
PREDEF_TYPES( "Unsigned32", AVP_TYPE_UNSIGNED32 );
PREDEF_TYPES( "Enumerated", AVP_TYPE_INTEGER32 );
PREDEF_TYPES( "Unsigned64", AVP_TYPE_UNSIGNED64 );
PREDEF_TYPES( "Float32", AVP_TYPE_FLOAT32 );
PREDEF_TYPES( "Float64", AVP_TYPE_FLOAT64 );
/* When we reach this point, we have not yet found this type anywhere. */
TODO("Type not found. Maybe search in whole xmldictionary if it is defined later?");
TRACE_DEBUG(INFO, "The type '%s' could not be resolved. Please check it is defined before use.", type_name);
return ENOENT;
}
/* Find or create a type. */
static int typdefn_to_fD(struct t_typedefn * t, struct dictionary * fD_dict, struct dict_object * fd_appl, struct dict_object ** fd_t, int * nb_added)
{
int ret;
struct dict_object * prev = NULL;
struct dict_type_data td;
TRACE_ENTRY("%p %p %p %p %p", t, fD_dict, fd_appl, fd_t, nb_added);
CHECK_PARAMS(t && fD_dict);
/* Prepare the data in fD's format */
memset(&td, 0, sizeof(td));
td.type_name = (char *)t->name;
/* infer td.type_base from t->parent_name */
CHECK_FCT( resolve_base_type(fD_dict, t->parent_name, &td.type_base, NULL) );
/* Create or search in the dictionary */
ret = fd_dict_new ( fD_dict, DICT_TYPE, &td, fd_appl, &prev );
if (fd_t)
*fd_t = prev;
if (ret == EEXIST) {
/* Conflict with existing entry */
enum dict_avp_basetype xmlbt = td.type_base;
extern const char * type_base_name[]; /* in libfreeDiameter/dictionary.c */
CHECK_FCT( fd_dict_getval(prev, &td) );
TRACE_DEBUG(INFO, "[dict_legacy_xml] Warning: Conflicting entry.");
TRACE_DEBUG(INFO, "[dict_legacy_xml] New entry (ignored): '%s' (%d - %s)", t->name, xmlbt, type_base_name[xmlbt] );
TRACE_DEBUG(INFO, "[dict_legacy_xml] Old entry : '%s' (%d - %s)", td.type_name, td.type_base, type_base_name[td.type_base]);
return 0;
} else {
/* other errors are stoppers */
CHECK_FCT(ret);
}
/* Update count */
if (nb_added)
*nb_added += 1;
/* Done */
return 0;
}
/* Process one list of rules */
static int rules_to_fD_onelist(struct dictionary * fD_dict, struct dict_object * parent, enum rule_position position, struct fd_list * list, int * nb_added)
{
struct dict_rule_data rd;
struct fd_list * li;
int order = 0;
int ret;
TRACE_ENTRY("%p %p %d %p %p", fD_dict, parent, position, list, nb_added);
CHECK_PARAMS(fD_dict && parent && position && list);
for (li = list->next; li != list; li = li->next) {
struct t_rule * r = (struct t_rule *)li;
/* The [AVP] rule in all ABNF definitions is implicit in freeDiameter, skip it */
if (!strcmp((char *)r->avpname, "AVP"))
continue;
/* Prepare rule data */
memset(&rd, 0, sizeof(rd));
rd.rule_position = position;
rd.rule_order = ++order; /* actually only used for fixed rules, but no harm for others */
rd.rule_min = r->min;
rd.rule_max = r->max;
/* Resolve the AVP */
ret = fd_dict_search(fD_dict, DICT_AVP, AVP_BY_NAME_ALL_VENDORS, r->avpname, &rd.rule_avp, ENOENT);
if (ret == ENOENT) {
TRACE_DEBUG(INFO, "[dict_legacy_xml] Error: AVP '%s' used in a rule before being defined.", r->avpname);
}
CHECK_FCT(ret);
/* Now create the new rule */
CHECK_FCT_DO( ret = fd_dict_new ( fD_dict, DICT_RULE, &rd, parent, NULL ),
{ TRACE_DEBUG(INFO, "Error creating rule for sub-AVP '%s'", r->avpname); return ret; } );
if (nb_added)
*nb_added += 1;
}
return 0;
}
/* Process lists of rules */
static int rules_to_fD(struct dictionary * fD_dict, struct dict_object * parent, struct fd_list * fixed, struct fd_list * required, struct fd_list * optional, int * nb_added)
{
int ret;
TRACE_ENTRY("%p %p %p %p %p %p", fD_dict, parent, fixed, required, optional, nb_added);
/* Process the rules */
CHECK_FCT_DO( ret = rules_to_fD_onelist(fD_dict, parent, RULE_FIXED_HEAD, fixed, nb_added),
{ TRACE_DEBUG(INFO, "Error processing FIXED rules"); return ret; } );
CHECK_FCT_DO( ret = rules_to_fD_onelist(fD_dict, parent, RULE_REQUIRED, required, nb_added),
{ TRACE_DEBUG(INFO, "Error processing REQUIRED rules"); return ret; } );
CHECK_FCT_DO( ret = rules_to_fD_onelist(fD_dict, parent, RULE_OPTIONAL, optional, nb_added),
{ TRACE_DEBUG(INFO, "Error processing OPTIONAL rules"); return ret; } );
return 0;
}
/* Find or create an AVP (and dependent objects) */
static int avp_to_fD(struct t_avp * a, struct dictionary * fD_dict, struct dict_object * fd_appl, struct dict_object ** fd_a, int * nb_added)
{
int ret;
struct dict_object * prev = NULL, *type = NULL;
struct dict_avp_data ad;
struct fd_list * li;
TRACE_ENTRY("%p %p %p %p %p", a, fD_dict, fd_appl, fd_a, nb_added);
CHECK_PARAMS(a && fD_dict);
/* Prepare the data in fD's format */
memset(&ad, 0, sizeof(ad));
ad.avp_code = a->code;
ad.avp_vendor = a->vendor;
ad.avp_name = (char *)a->name;
ad.avp_flag_mask = a->fmask | AVP_FLAG_VENDOR;
ad.avp_flag_val = a->flags;
if (!FD_IS_LIST_EMPTY(&a->type)) {
/* special exception: we use per-AVP enumerated types in fD */
if (!strcasecmp("Enumerated", (char *)((struct t_avptype *)a->type.next)->type_name))
goto enumerated;
/* Let's allow "Integer32" instead of "Enumerated" also... */
if ((!FD_IS_LIST_EMPTY(&a->enums)) && (!strcasecmp("Integer32", (char *)((struct t_avptype *)a->type.next)->type_name)))
goto enumerated;
/* The type was explicitly specified, resolve it */
CHECK_FCT( resolve_base_type(fD_dict, ((struct t_avptype *)a->type.next)->type_name, &ad.avp_basetype, &type) );
} else {
/* The type was not specified, try to infer it from provided data */
if ( !FD_IS_LIST_EMPTY(&a->grouped_optional)
|| !FD_IS_LIST_EMPTY(&a->grouped_required)
|| !FD_IS_LIST_EMPTY(&a->grouped_fixed) ) {
/* The AVP has rules, it is a grouped AVP */
CHECK_PARAMS_DO( FD_IS_LIST_EMPTY(&a->enums),
{ TRACE_DEBUG(INFO, "Conflict: The AVP '%s' has both enum values and rules.", ad.avp_name); return EINVAL; } );
ad.avp_basetype = AVP_TYPE_GROUPED;
} else {
/* It should be an enumerated AVP... */
if (FD_IS_LIST_EMPTY(&a->enums)) {
TRACE_DEBUG(INFO, "Error: Missing type information for AVP '%s'", ad.avp_name);
return EINVAL;
} else {
/* We create a new type to hold the enumerated values -- fD specifics */
char typename[256];
struct dict_type_data tdata;
enumerated:
snprintf(typename, sizeof(typename), "Enumerated(%s)", ad.avp_name);
memset(&tdata, 0, sizeof(tdata));
tdata.type_base = AVP_TYPE_INTEGER32;
tdata.type_name = &typename[0];
CHECK_FCT( fd_dict_new ( fD_dict, DICT_TYPE, &tdata, fd_appl, &type ) );
if (nb_added)
*nb_added += 1;
ad.avp_basetype = AVP_TYPE_INTEGER32;
}
}
}
/* At this point, ad.avp_basetype is defined and type might also be */
/* Create or search in the dictionary */
ret = fd_dict_new ( fD_dict, DICT_AVP, &ad, type, &prev );
if (fd_a)
*fd_a = prev;
if (ret == EEXIST) {
/* Conflict with existing entry */
CHECK_FCT( fd_dict_getval(prev, &ad) );
TRACE_DEBUG(INFO, "[dict_legacy_xml] Warning: Conflicting entry.");
TRACE_DEBUG(INFO, "[dict_legacy_xml] New entry (ignored): %u - '%s'", a->code, (char *)a->name);
TRACE_DEBUG(INFO, "[dict_legacy_xml] Old entry : %u - '%s'", ad.avp_code, ad.avp_name);
goto inside;
} else {
/* other errors are stoppers */
CHECK_FCT(ret);
}
/* Update count */
if (nb_added)
*nb_added += 1;
inside:
/* Now, the inner elements, if any */
if ( (!FD_IS_LIST_EMPTY(&a->enums)) && (ad.avp_basetype != AVP_TYPE_UNSIGNED32)) {
TRACE_DEBUG(INFO, "AVP '%s' type is not an Unsigned32 but it has enum values (invalid in this extension).", ad.avp_name);
return EINVAL;
}
/* In case of enumeration, define the enum values */
for (li = a->enums.next; li != &a->enums; li = li->next) {
struct t_enum * e = (struct t_enum *)li;
struct dict_enumval_data ed;
memset(&ed, 0, sizeof(ed));
ed.enum_name = (char *)e->name;
ed.enum_value.u32 = e->code;
CHECK_FCT_DO( ret = fd_dict_new ( fD_dict, DICT_ENUMVAL, &ed, type, NULL ),
{
TRACE_DEBUG(INFO, "Error defining constant value '%s' for AVP '%s': %s", ed.enum_name, ad.avp_name, strerror(ret));
return ret;
} );
if (nb_added)
*nb_added += 1;
}
/* In case of grouped AVP, check the type is really grouped */
if ( !FD_IS_LIST_EMPTY(&a->grouped_optional)
|| !FD_IS_LIST_EMPTY(&a->grouped_required)
|| !FD_IS_LIST_EMPTY(&a->grouped_fixed) ) {
CHECK_PARAMS_DO( ad.avp_basetype == AVP_TYPE_GROUPED,
{ TRACE_DEBUG(INFO, "Got rules for non-grouped AVP '%s'", ad.avp_name); return EINVAL;} );
CHECK_FCT_DO( ret = rules_to_fD(fD_dict, prev, &a->grouped_fixed, &a->grouped_required, &a->grouped_optional, nb_added),
{ TRACE_DEBUG(INFO, "Error processing rules for AVP '%s': %s", ad.avp_name, strerror(ret)); return ret; } );
}
/* done! */
return 0;
}
/* Find or create a command. */
static int cmd_to_fD(struct t_cmd * c, struct dictionary * fD_dict, struct dict_object * fd_appl, struct dict_object ** fd_req, int * nb_added)
{
int ret;
struct dict_object * req = NULL, *ans = NULL;
struct dict_cmd_data cd;
char cmdname[512];
TRACE_ENTRY("%p %p %p %p %p", c, fD_dict, fd_appl, fd_req, nb_added);
CHECK_PARAMS(c && fD_dict);
/* Prepare the request data in fD's format */
memset(&cd, 0, sizeof(cd));
cd.cmd_code = c->code;
snprintf(cmdname, sizeof(cmdname), "%s-Request", (char *)c->name);
cd.cmd_name = &cmdname[0];
cd.cmd_flag_mask = c->fmask | CMD_FLAG_REQUEST | CMD_FLAG_ERROR;
cd.cmd_flag_val = c->flags | CMD_FLAG_REQUEST;
/* Create or search in the dictionary */
ret = fd_dict_new ( fD_dict, DICT_COMMAND, &cd, fd_appl, &req );
if (fd_req)
*fd_req = req;
if (ret == EEXIST) {
struct dict_cmd_data prevcd;
/* Conflict with existing entry */
CHECK_FCT( fd_dict_getval(req, &prevcd) );
TRACE_DEBUG(INFO, "[dict_legacy_xml] Warning: Conflicting entry.");
TRACE_DEBUG(INFO, "[dict_legacy_xml] New entry (ignored): %u - '%s'", cd.cmd_code, cd.cmd_name);
TRACE_DEBUG(INFO, "[dict_legacy_xml] Old entry : %u - '%s'", prevcd.cmd_code, prevcd.cmd_name);
goto answer;
} else {
/* other errors are stoppers */
CHECK_FCT(ret);
}
/* Update count */
if (nb_added)
*nb_added += 1;
answer:
/* update data for the answer */
snprintf(cmdname, sizeof(cmdname), "%s-Answer", (char *)c->name);
cd.cmd_flag_val &= ~CMD_FLAG_REQUEST;
cd.cmd_flag_mask &= ~CMD_FLAG_ERROR;
ret = fd_dict_new ( fD_dict, DICT_COMMAND, &cd, fd_appl, &ans );
if (ret == EEXIST) {
struct dict_cmd_data prevcd;
/* Conflict with existing entry */
CHECK_FCT( fd_dict_getval(ans, &prevcd) );
TRACE_DEBUG(INFO, "[dict_legacy_xml] Warning: Conflicting entry.");
TRACE_DEBUG(INFO, "[dict_legacy_xml] New entry (ignored): %u - '%s'", cd.cmd_code, cd.cmd_name);
TRACE_DEBUG(INFO, "[dict_legacy_xml] Old entry : %u - '%s'", prevcd.cmd_code, prevcd.cmd_name);
goto rules;
} else {
/* other errors are stoppers */
CHECK_FCT(ret);
}
/* Update count */
if (nb_added)
*nb_added += 1;
rules:
/* Now process the rules inside the command */
CHECK_FCT_DO( ret = rules_to_fD(fD_dict, req, &c->reqrules_fixed, &c->reqrules_required, &c->reqrules_optional, nb_added),
{
TRACE_DEBUG(INFO, "Error converting data from request rules: %s", strerror(ret));
return ret;
} );
CHECK_FCT_DO( ret = rules_to_fD(fD_dict, ans, &c->ansrules_fixed, &c->ansrules_required, &c->ansrules_optional, nb_added),
{
TRACE_DEBUG(INFO, "Error converting data from answer rules: %s", strerror(ret));
return ret;
} );
/* Done */
return 0;
}
/* Find or create an application (and dependent objects) */
static int appl_to_fD(struct t_appl * a, struct dictionary * fD_dict, struct dict_object ** fd_a, int * nb_added)
{
int ret;
struct dict_object * prev = NULL;
struct dict_application_data ad;
struct fd_list * li;
TRACE_ENTRY("%p %p %p %p", a, fD_dict, fd_a, nb_added);
CHECK_PARAMS(a && fD_dict);
if (a->id) { /* skip app 0 */
/* Prepare the data in fD's format */
memset(&ad, 0, sizeof(ad));
ad.application_id = a->id;
ad.application_name = (char *)a->name;
/* Create or search in the dictionary */
ret = fd_dict_new ( fD_dict,
DICT_APPLICATION,
&ad,
NULL /* we don't have a parent vendor in XML files, so currently everything links to no vendor */,
&prev );
if (fd_a)
*fd_a = prev;
if (ret == EEXIST) {
/* Conflict with existing entry */
CHECK_FCT( fd_dict_getval(prev, &ad) );
TRACE_DEBUG(INFO, "[dict_legacy_xml] Warning: Conflicting entry.");
TRACE_DEBUG(INFO, "[dict_legacy_xml] New entry (ignored): %u - '%s'", a->id, (char *)a->name);
TRACE_DEBUG(INFO, "[dict_legacy_xml] Old entry : %u - '%s'", ad.application_id, ad.application_name);
goto inside;
} else {
/* other errors are stoppers */
CHECK_FCT(ret);
}
/* Update count */
if (nb_added)
*nb_added += 1;
}
inside:
/* Now, the inner elements */
/* First, define all the types */
for (li = a->types.next; li != &a->types; li = li->next) {
CHECK_FCT_DO( ret = typdefn_to_fD((struct t_typedefn *)li, fD_dict, prev, NULL, nb_added),
{
TRACE_DEBUG(INFO, "Error converting data from typedefn '%s': %s", ((struct t_typedefn *)li)->name, strerror(ret));
return ret;
} );
}
/* Then, AVPs, enums, and grouped AVP rules */
for (li = a->avps.next; li != &a->avps; li = li->next) {
CHECK_FCT_DO( ret = avp_to_fD((struct t_avp *)li, fD_dict, prev, NULL, nb_added),
{
TRACE_DEBUG(INFO, "Error converting data from AVP '%s': %s", ((struct t_avp *)li)->name, strerror(ret));
return ret;
} );
}
/* Finally, the commands and rules */
for (li = a->commands.next; li != &a->commands; li = li->next) {
CHECK_FCT_DO( ret = cmd_to_fD((struct t_cmd *)li, fD_dict, prev, NULL, nb_added),
{
TRACE_DEBUG(INFO, "Error converting data from command '%s': %s", ((struct t_cmd *)li)->name, strerror(ret));
return ret;
} );
}
/* done! */
return 0;
}
static int dict_to_fD(struct dictionary * fD_dict, struct t_dictionary * xmldict, int * nb_added)
{
struct fd_list * li;
int ret;
TRACE_ENTRY("%p %p %p", fD_dict, xmldict, nb_added);
CHECK_PARAMS(fD_dict && xmldict && nb_added);
*nb_added = 0;
/* Create all the vendors */
for (li = xmldict->vendors.next; li != &xmldict->vendors; li = li->next) {
CHECK_FCT_DO( ret = vend_to_fD((struct t_vend *)li, fD_dict, NULL, nb_added),
{
TRACE_DEBUG(INFO, "Error converting data from vendor '%s': %s", ((struct t_vend *)li)->name, strerror(ret));
return ret;
} );
}
/* Now, process each application */
CHECK_FCT_DO( ret = appl_to_fD(&xmldict->base_and_applications, fD_dict, NULL, nb_added),
{
TRACE_DEBUG(INFO, "Error converting data from Base application: %s", strerror(ret));
return ret;
} );
for (li = xmldict->base_and_applications.chain.next; li != &xmldict->base_and_applications.chain; li = li->next) {
CHECK_FCT_DO( ret = appl_to_fD((struct t_appl *) li, fD_dict, NULL, nb_added),
{
TRACE_DEBUG(INFO, "Error converting data from application '%s': %s", ((struct t_appl *)li)->name, strerror(ret));
return ret;
} );
}
/* Complete! */
return 0;
}
/*********************************************/
int dict_lxml_parse(char * xmlfilename)
{
xmlSAXHandler handler;
struct parser_ctx data;
int ret;
TRACE_ENTRY("%p", xmlfilename);
CHECK_PARAMS_DO(xmlfilename, { return -1; } );
TRACE_DEBUG(FULL, "Parsing next XML file: %s...", xmlfilename);
/* Initialize the parser */
memset(&handler, 0, sizeof(handler));
handler.startElement = SAXstartelem;
handler.endElement = SAXendelem;
/* Initialize the data */
memset(&data, 0, sizeof(data));
fd_list_init( &data.dict.vendors, NULL );
fd_list_init( &data.dict.base_and_applications.chain, NULL );
data.dict.base_and_applications.name = (uint8_t *)"[Diameter Base Protocol]";
fd_list_init( &data.dict.base_and_applications.commands, NULL );
fd_list_init( &data.dict.base_and_applications.types, NULL );
fd_list_init( &data.dict.base_and_applications.avps, NULL );
data.xmlfilename = xmlfilename;
/* Parse the file */
ret = xmlSAXUserParseFile(&handler, &data, xmlfilename);
if (ret < 0) {
TRACE_DEBUG(INFO, "An error occurred while parsing %s, aborting.", xmlfilename);
del_dict_contents(&data.dict);
return -1;
}
TRACE_DEBUG(FULL, "XML file parsing, 1st pass completed.");
if (TRACE_BOOL(ANNOYING)) {
dump_dict(&data.dict);
}
/* Now, convert all the objects from the temporary tree into the freeDiameter dictionary */
CHECK_FCT_DO( dict_to_fD(fd_g_config->cnf_dict, &data.dict, &ret),
{
TRACE_DEBUG(INFO, "Error while converting data read from file '%s'", xmlfilename);
del_dict_contents(&data.dict);
return -1;
} );
TRACE_DEBUG(FULL, "Conversion from '%s' to freeDiameter internal format complete.", xmlfilename);
/* Done */
del_dict_contents(&data.dict);
return ret;
}