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|
/*
* pair.c Functions to handle VALUE_PAIRs
*
* Version: $Id$
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA
*
* Copyright 2000,2006 The FreeRADIUS server project
*/
RCSID("$Id$")
#include <freeradius-devel/libradius.h>
#include <freeradius-devel/regex.h>
#include <ctype.h>
/** Free a VALUE_PAIR
*
* @note Do not call directly, use talloc_free instead.
*
* @param vp to free.
* @return 0
*/
static int _fr_pair_free(VALUE_PAIR *vp) {
#ifndef NDEBUG
vp->vp_integer = 0xf4eef4ee;
#endif
#ifdef TALLOC_DEBUG
talloc_report_depth_cb(NULL, 0, -1, fr_talloc_verify_cb, NULL);
#endif
return 0;
}
VALUE_PAIR *fr_pair_alloc(TALLOC_CTX *ctx)
{
VALUE_PAIR *vp;
vp = talloc_zero(ctx, VALUE_PAIR);
if (!vp) {
fr_strerror_printf("Out of memory");
return NULL;
}
vp->op = T_OP_EQ;
vp->tag = TAG_ANY;
vp->type = VT_NONE;
talloc_set_destructor(vp, _fr_pair_free);
return vp;
}
/** Dynamically allocate a new attribute
*
* Allocates a new attribute and a new dictionary attr if no DA is provided.
*
* @param[in] ctx for allocated memory, usually a pointer to a RADIUS_PACKET
* @param[in] da Specifies the dictionary attribute to build the VP from.
* @return a new value pair or NULL if an error occurred.
*/
VALUE_PAIR *fr_pair_afrom_da(TALLOC_CTX *ctx, DICT_ATTR const *da)
{
VALUE_PAIR *vp;
/*
* Caller must specify a da else we don't know what the attribute type is.
*/
if (!da) {
fr_strerror_printf("Invalid arguments");
return NULL;
}
vp = fr_pair_alloc(ctx);
if (!vp) {
fr_strerror_printf("Out of memory");
return NULL;
}
/*
* Use the 'da' to initialize more fields.
*/
vp->da = da;
vp->vp_length = da->flags.length;
return vp;
}
/** Create a new valuepair
*
* If attr and vendor match a dictionary entry then a VP with that DICT_ATTR
* will be returned.
*
* If attr or vendor are uknown will call dict_attruknown to create a dynamic
* DICT_ATTR of PW_TYPE_OCTETS.
*
* Which type of DICT_ATTR the VALUE_PAIR was created with can be determined by
* checking @verbatim vp->da->flags.is_unknown @endverbatim.
*
* @param[in] ctx for allocated memory, usually a pointer to a RADIUS_PACKET
* @param[in] attr number.
* @param[in] vendor number.
* @return the new valuepair or NULL on error.
*/
VALUE_PAIR *fr_pair_afrom_num(TALLOC_CTX *ctx, unsigned int attr, unsigned int vendor)
{
DICT_ATTR const *da;
da = dict_attrbyvalue(attr, vendor);
if (!da) return NULL;
return fr_pair_afrom_da(ctx, da);
}
/** Free memory used by a valuepair list.
*
* @todo TLV: needs to free all dependents of each VP freed.
*/
void fr_pair_list_free(VALUE_PAIR **vps)
{
VALUE_PAIR *vp;
vp_cursor_t cursor;
if (!vps || !*vps) {
return;
}
for (vp = fr_cursor_init(&cursor, vps);
vp;
vp = fr_cursor_next(&cursor)) {
VERIFY_VP(vp);
talloc_free(vp);
}
*vps = NULL;
}
/** Mark malformed or unrecognised attributed as unknown
*
* @param vp to change DICT_ATTR of.
* @return 0 on success (or if already unknown) else -1 on error.
*/
int fr_pair_to_unknown(VALUE_PAIR *vp)
{
DICT_ATTR const *da;
VERIFY_VP(vp);
if (vp->da->flags.is_unknown) {
return 0;
}
da = dict_unknown_afrom_fields(vp, vp->da->attr, vp->da->vendor);
if (!da) {
return -1;
}
vp->da = da;
return 0;
}
/** Find the pair with the matching DAs
*
*/
VALUE_PAIR *fr_pair_find_by_da(VALUE_PAIR *vp, DICT_ATTR const *da, int8_t tag)
{
vp_cursor_t cursor;
if(!fr_assert(da)) {
return NULL;
}
(void) fr_cursor_init(&cursor, &vp);
return fr_cursor_next_by_da(&cursor, da, tag);
}
/** Find the pair with the matching attribute
*
* @todo should take DAs and do a pointer comparison.
*/
VALUE_PAIR *fr_pair_find_by_num(VALUE_PAIR *vp, unsigned int attr, unsigned int vendor, int8_t tag)
{
vp_cursor_t cursor;
/* List head may be NULL if it contains no VPs */
if (!vp) return NULL;
VERIFY_LIST(vp, "");
(void) fr_cursor_init(&cursor, &vp);
return fr_cursor_next_by_num(&cursor, attr, vendor, tag);
}
/** Delete matching pairs
*
* Delete matching pairs from the attribute list.
*
* @param[in,out] first VP in list.
* @param[in] attr to match.
* @param[in] vendor to match.
* @param[in] tag to match. TAG_ANY matches any tag, TAG_NONE matches tagless VPs.
*
* @todo should take DAs and do a point comparison.
*/
void fr_pair_delete_by_num(VALUE_PAIR **first, unsigned int attr, unsigned int vendor, int8_t tag)
{
VALUE_PAIR *i, *next;
VALUE_PAIR **last = first;
for(i = *first; i; i = next) {
VERIFY_VP(i);
next = i->next;
if ((i->da->attr == attr) && (i->da->vendor == vendor) &&
(!i->da->flags.has_tag || TAG_EQ(tag, i->tag))) {
*last = next;
talloc_free(i);
} else {
last = &i->next;
}
}
}
/** Delete matching pairs by da
*
* Delete matching pairs from the attribute list.
*
* @param[in,out] first VP in list.
* @param[in] da to match.
*/
void fr_pair_delete_by_da(VALUE_PAIR **first, DICT_ATTR const *da)
{
VALUE_PAIR *i, *next;
VALUE_PAIR **last = first;
for(i = *first; i; i = next) {
VERIFY_VP(i);
next = i->next;
if (i->da == da) {
*last = next;
talloc_free(i);
} else {
last = &i->next;
}
}
}
/** Add a VP to the end of the list.
*
* Locates the end of 'first', and links an additional VP 'add' at the end.
*
* @param[in] first VP in linked list. Will add new VP to the end of this list.
* @param[in] add VP to add to list.
*/
void fr_pair_add(VALUE_PAIR **first, VALUE_PAIR *add)
{
VALUE_PAIR *i;
if (!add) return;
VERIFY_VP(add);
if (*first == NULL) {
*first = add;
return;
}
for (i = *first; i->next; i = i->next) {
#ifdef WITH_VERIFY_PTR
VERIFY_VP(i);
/*
* The same VP should never by added multiple times
* to the same list.
*/
fr_assert(i != add);
#endif
}
i->next = add;
}
/** Add a VP to the start of the list.
*
* Links the new VP to 'first', then points 'first' at the new VP.
*
* @param[in] first VP in linked list. Will add new VP to the start of this list.
* @param[in] add VP to add to list.
*/
void fr_pair_prepend(VALUE_PAIR **first, VALUE_PAIR *add)
{
VALUE_PAIR *i;
if (!add) return;
VERIFY_VP(add);
if (*first == NULL) {
*first = add;
return;
}
/*
* Find the end of the list to be prepended
*/
for (i = add; i->next; i = i->next) {
#ifdef WITH_VERIFY_PTR
VERIFY_VP(i);
/*
* The same VP should never by added multiple times
* to the same list.
*/
fr_assert(*first != i);
#endif
}
i->next = *first;
*first = add;
}
/** Replace all matching VPs
*
* Walks over 'first', and replaces the first VP that matches 'replace'.
*
* @note Memory used by the VP being replaced will be freed.
* @note Will not work with unknown attributes.
*
* @param[in,out] first VP in linked list. Will search and replace in this list.
* @param[in] replace VP to replace.
*/
void fr_pair_replace(VALUE_PAIR **first, VALUE_PAIR *replace)
{
VALUE_PAIR *i, *next;
VALUE_PAIR **prev = first;
VERIFY_VP(replace);
if (*first == NULL) {
*first = replace;
return;
}
/*
* Not an empty list, so find item if it is there, and
* replace it. Note, we always replace the first one, and
* we ignore any others that might exist.
*/
for(i = *first; i; i = next) {
VERIFY_VP(i);
next = i->next;
/*
* Found the first attribute, replace it,
* and return.
*/
if ((i->da == replace->da) && (!i->da->flags.has_tag || TAG_EQ(replace->tag, i->tag))) {
*prev = replace;
/*
* Should really assert that replace->next == NULL
*/
replace->next = next;
talloc_free(i);
return;
}
/*
* Point to where the attribute should go.
*/
prev = &i->next;
}
/*
* If we got here, we didn't find anything to replace, so
* stopped at the last item, which we just append to.
*/
*prev = replace;
}
int8_t fr_pair_cmp_by_da_tag(void const *a, void const *b)
{
VALUE_PAIR const *my_a = a;
VALUE_PAIR const *my_b = b;
VERIFY_VP(my_a);
VERIFY_VP(my_b);
uint8_t cmp;
cmp = fr_pointer_cmp(my_a->da, my_b->da);
if (cmp != 0) return cmp;
if (my_a->tag < my_b->tag) return -1;
if (my_a->tag > my_b->tag) return 1;
return 0;
}
static void fr_pair_list_sort_split(VALUE_PAIR *source, VALUE_PAIR **front, VALUE_PAIR **back)
{
VALUE_PAIR *fast;
VALUE_PAIR *slow;
/*
* Stopping condition - no more elements left to split
*/
if (!source || !source->next) {
*front = source;
*back = NULL;
return;
}
/*
* Fast advances twice as fast as slow, so when it gets to the end,
* slow will point to the middle of the linked list.
*/
slow = source;
fast = source->next;
while (fast) {
fast = fast->next;
if (fast) {
slow = slow->next;
fast = fast->next;
}
}
*front = source;
*back = slow->next;
slow->next = NULL;
}
static VALUE_PAIR *fr_pair_list_sort_merge(VALUE_PAIR *a, VALUE_PAIR *b, fr_cmp_t cmp)
{
VALUE_PAIR *result = NULL;
if (!a) return b;
if (!b) return a;
/*
* Compare the DICT_ATTRs and tags
*/
if (cmp(a, b) <= 0) {
result = a;
result->next = fr_pair_list_sort_merge(a->next, b, cmp);
} else {
result = b;
result->next = fr_pair_list_sort_merge(a, b->next, cmp);
}
return result;
}
/** Sort a linked list of VALUE_PAIRs using merge sort
*
* @param[in,out] vps List of VALUE_PAIRs to sort.
* @param[in] cmp to sort with
*/
void fr_pair_list_sort(VALUE_PAIR **vps, fr_cmp_t cmp)
{
VALUE_PAIR *head = *vps;
VALUE_PAIR *a;
VALUE_PAIR *b;
/*
* If there's 0-1 elements it must already be sorted.
*/
if (!head || !head->next) {
return;
}
fr_pair_list_sort_split(head, &a, &b); /* Split into sublists */
fr_pair_list_sort(&a, cmp); /* Traverse left */
fr_pair_list_sort(&b, cmp); /* Traverse right */
/*
* merge the two sorted lists together
*/
*vps = fr_pair_list_sort_merge(a, b, cmp);
}
/** Write an error to the library errorbuff detailing the mismatch
*
* Retrieve output with fr_strerror();
*
* @todo add thread specific talloc contexts.
*
* @param ctx a hack until we have thread specific talloc contexts.
* @param failed pair of attributes which didn't match.
*/
void fr_pair_validate_debug(TALLOC_CTX *ctx, VALUE_PAIR const *failed[2])
{
VALUE_PAIR const *filter = failed[0];
VALUE_PAIR const *list = failed[1];
char *value, *str;
(void) fr_strerror(); /* Clear any existing messages */
if (!fr_assert(!(!filter && !list))) return;
if (!list) {
if (!filter) return;
fr_strerror_printf("Attribute \"%s\" not found in list", filter->da->name);
return;
}
if (!filter || (filter->da != list->da)) {
fr_strerror_printf("Attribute \"%s\" not found in filter", list->da->name);
return;
}
if (!TAG_EQ(filter->tag, list->tag)) {
fr_strerror_printf("Attribute \"%s\" tag \"%i\" didn't match filter tag \"%i\"",
list->da->name, list->tag, filter->tag);
return;
}
value = vp_aprints_value(ctx, list, '"');
str = vp_aprints(ctx, filter, '"');
fr_strerror_printf("Attribute value \"%s\" didn't match filter: %s", value, str);
talloc_free(str);
talloc_free(value);
return;
}
/** Uses fr_pair_cmp to verify all VALUE_PAIRs in list match the filter defined by check
*
* @note will sort both filter and list in place.
*
* @param failed pointer to an array to write the pointers of the filter/list attributes that didn't match.
* May be NULL.
* @param filter attributes to check list against.
* @param list attributes, probably a request or reply
*/
bool fr_pair_validate(VALUE_PAIR const *failed[2], VALUE_PAIR *filter, VALUE_PAIR *list)
{
vp_cursor_t filter_cursor;
vp_cursor_t list_cursor;
VALUE_PAIR *check, *match;
if (!filter && !list) {
return true;
}
/*
* This allows us to verify the sets of validate and reply are equal
* i.e. we have a validate rule which matches every reply attribute.
*
* @todo this should be removed one we have sets and lists
*/
fr_pair_list_sort(&filter, fr_pair_cmp_by_da_tag);
fr_pair_list_sort(&list, fr_pair_cmp_by_da_tag);
check = fr_cursor_init(&filter_cursor, &filter);
match = fr_cursor_init(&list_cursor, &list);
while (match || check) {
/*
* Lists are of different lengths
*/
if (!match || !check) goto mismatch;
/*
* The lists are sorted, so if the first
* attributes aren't of the same type, then we're
* done.
*/
if (!ATTRIBUTE_EQ(check, match)) goto mismatch;
/*
* They're of the same type, but don't have the
* same values. This is a problem.
*
* Note that the RFCs say that for attributes of
* the same type, order is important.
*/
if (fr_pair_cmp(check, match) != 1) goto mismatch;
check = fr_cursor_next(&filter_cursor);
match = fr_cursor_next(&list_cursor);
}
return true;
mismatch:
if (failed) {
failed[0] = check;
failed[1] = match;
}
return false;
}
/** Uses fr_pair_cmp to verify all VALUE_PAIRs in list match the filter defined by check
*
* @note will sort both filter and list in place.
*
* @param failed pointer to an array to write the pointers of the filter/list attributes that didn't match.
* May be NULL.
* @param filter attributes to check list against.
* @param list attributes, probably a request or reply
*/
bool fr_pair_validate_relaxed(VALUE_PAIR const *failed[2], VALUE_PAIR *filter, VALUE_PAIR *list)
{
vp_cursor_t filter_cursor;
vp_cursor_t list_cursor;
VALUE_PAIR *check, *last_check = NULL, *match = NULL;
if (!filter && !list) {
return true;
}
/*
* This allows us to verify the sets of validate and reply are equal
* i.e. we have a validate rule which matches every reply attribute.
*
* @todo this should be removed one we have sets and lists
*/
fr_pair_list_sort(&filter, fr_pair_cmp_by_da_tag);
fr_pair_list_sort(&list, fr_pair_cmp_by_da_tag);
fr_cursor_init(&list_cursor, &list);
for (check = fr_cursor_init(&filter_cursor, &filter);
check;
check = fr_cursor_next(&filter_cursor)) {
/*
* Were processing check attributes of a new type.
*/
if (!ATTRIBUTE_EQ(last_check, check)) {
/*
* Record the start of the matching attributes in the pair list
* For every other operator we require the match to be present
*/
match = fr_cursor_next_by_da(&list_cursor, check->da, check->tag);
if (!match) {
if (check->op == T_OP_CMP_FALSE) continue;
goto mismatch;
}
fr_cursor_init(&list_cursor, &match);
last_check = check;
}
/*
* Now iterate over all attributes of the same type.
*/
for (match = fr_cursor_first(&list_cursor);
ATTRIBUTE_EQ(match, check);
match = fr_cursor_next(&list_cursor)) {
/*
* This attribute passed the filter
*/
if (!fr_pair_cmp(check, match)) goto mismatch;
}
}
return true;
mismatch:
if (failed) {
failed[0] = check;
failed[1] = match;
}
return false;
}
/** Copy a single valuepair
*
* Allocate a new valuepair and copy the da from the old vp.
*
* @param[in] ctx for talloc
* @param[in] vp to copy.
* @return a copy of the input VP or NULL on error.
*/
VALUE_PAIR *fr_pair_copy(TALLOC_CTX *ctx, VALUE_PAIR const *vp)
{
VALUE_PAIR *n;
if (!vp) return NULL;
VERIFY_VP(vp);
n = fr_pair_afrom_da(ctx, vp->da);
if (!n) return NULL;
memcpy(n, vp, sizeof(*n));
/*
* If the DA is unknown, steal "n" to "ctx". This does
* nothing for "n", but will also copy the unknown "da".
*/
if (n->da->flags.is_unknown) {
fr_pair_steal(ctx, n);
}
n->next = NULL;
/*
* If it's an xlat, copy the raw string and return early,
* so we don't pre-expand or otherwise mangle the VALUE_PAIR.
*/
if (vp->type == VT_XLAT) {
n->value.xlat = talloc_typed_strdup(n, n->value.xlat);
return n;
}
switch (vp->da->type) {
case PW_TYPE_OCTETS:
n->vp_octets = NULL; /* else fr_pair_value_memcpy will free vp's value */
fr_pair_value_memcpy(n, vp->vp_octets, n->vp_length);
break;
case PW_TYPE_STRING:
n->vp_strvalue = NULL; /* else pairstrnpy will free vp's value */
fr_pair_value_bstrncpy(n, vp->vp_strvalue, n->vp_length);
break;
default:
break;
}
return n;
}
/** Copy a pairlist.
*
* Copy all pairs from 'from' regardless of tag, attribute or vendor.
*
* @param[in] ctx for new VALUE_PAIRs to be allocated in.
* @param[in] from whence to copy VALUE_PAIRs.
* @return the head of the new VALUE_PAIR list or NULL on error.
*/
VALUE_PAIR *fr_pair_list_copy(TALLOC_CTX *ctx, VALUE_PAIR *from)
{
vp_cursor_t src, dst;
VALUE_PAIR *out = NULL, *vp;
fr_cursor_init(&dst, &out);
for (vp = fr_cursor_init(&src, &from);
vp;
vp = fr_cursor_next(&src)) {
VERIFY_VP(vp);
vp = fr_pair_copy(ctx, vp);
if (!vp) {
fr_pair_list_free(&out);
return NULL;
}
fr_cursor_insert(&dst, vp); /* fr_pair_list_copy sets next pointer to NULL */
}
return out;
}
/** Copy matching pairs
*
* Copy pairs of a matching attribute number, vendor number and tag from the
* the input list to a new list, and returns the head of this list.
*
* @param[in] ctx for talloc
* @param[in] from whence to copy VALUE_PAIRs.
* @param[in] attr to match. If attribute PW_VENDOR_SPECIFIC and vendor 0,
* will match (and therefore copy) only VSAs.
* If attribute 0 and vendor 0 will match (and therefore copy) all
* attributes.
* @param[in] vendor to match.
* @param[in] tag to match, TAG_ANY matches any tag, TAG_NONE matches tagless VPs.
* @return the head of the new VALUE_PAIR list or NULL on error.
*/
VALUE_PAIR *fr_pair_list_copy_by_num(TALLOC_CTX *ctx, VALUE_PAIR *from,
unsigned int attr, unsigned int vendor, int8_t tag)
{
vp_cursor_t src, dst;
VALUE_PAIR *out = NULL, *vp;
fr_cursor_init(&dst, &out);
for (vp = fr_cursor_init(&src, &from);
vp;
vp = fr_cursor_next(&src)) {
VERIFY_VP(vp);
if (vp->da->flags.has_tag && !TAG_EQ(tag, vp->tag)) {
continue;
}
/*
* Attr/vendor of 0 means "move them all".
* It's better than "fr_pair_copy(foo,bar);bar=NULL"
*/
if ((attr == 0) && (vendor == 0)) {
goto do_copy;
}
/*
* vendor=0, attr = PW_VENDOR_SPECIFIC means
* "match any vendor attribute".
*/
if ((vendor == 0) && (attr == PW_VENDOR_SPECIFIC)) {
/*
* It's a VSA: copy it over.
*/
if (vp->da->vendor != 0) goto do_copy;
/*
* It's Vendor-Specific: copy it over.
*/
if (vp->da->attr == attr) goto do_copy;
/*
* It's not a VSA: ignore it.
*/
continue;
}
if ((vp->da->attr != attr) || (vp->da->vendor != vendor)) {
continue;
}
do_copy:
vp = fr_pair_copy(ctx, vp);
if (!vp) {
fr_pair_list_free(&out);
return NULL;
}
fr_cursor_insert(&dst, vp);
}
return out;
}
/** Steal one VP
*
* @param[in] ctx to move VALUE_PAIR into
* @param[in] vp VALUE_PAIR to move into the new context.
*/
void fr_pair_steal(TALLOC_CTX *ctx, VALUE_PAIR *vp)
{
(void) talloc_steal(ctx, vp);
/*
* The DA may be unknown. If we're stealing the VPs to a
* different context, copy the unknown DA. We use the VP
* as a context here instead of "ctx", so that when the
* VP is freed, so is the DA.
*
* Since we have no introspection into OTHER VPs using
* the same DA, we can't have multiple VPs use the same
* DA. So we might as well tie it to this VP.
*/
if (vp->da->flags.is_unknown) {
DICT_ATTR *da;
char *p;
size_t size;
size = talloc_get_size(vp->da);
p = talloc_zero_array(vp, char, size);
da = (DICT_ATTR *) p;
talloc_set_type(p, DICT_ATTR);
memcpy(da, vp->da, size);
vp->da = da;
}
}
/** Move pairs from source list to destination list respecting operator
*
* @note This function does some additional magic that's probably not needed
* in most places. Consider using radius_pairmove in server code.
*
* @note fr_pair_list_free should be called on the head of the source list to free
* unmoved attributes (if they're no longer needed).
*
* @note Does not respect tags when matching.
*
* @param[in] ctx for talloc
* @param[in,out] to destination list.
* @param[in,out] from source list.
* @param[in] op operator for move.
*
* @see radius_pairmove
*/
void fr_pair_list_move(TALLOC_CTX *ctx, VALUE_PAIR **to, VALUE_PAIR **from, FR_TOKEN op)
{
VALUE_PAIR *i, *found;
VALUE_PAIR *head_new, **tail_new;
VALUE_PAIR *head_prepend;
VALUE_PAIR **tail_from;
if (!to || !from || !*from) return;
/*
* We're editing the "to" list while we're adding new
* attributes to it. We don't want the new attributes to
* be edited, so we create an intermediate list to hold
* them during the editing process.
*/
head_new = NULL;
tail_new = &head_new;
/*
* Any attributes that are requested to be prepended
* are added to a temporary list here
*/
head_prepend = NULL;
/*
* We're looping over the "from" list, moving some
* attributes out, but leaving others in place.
*/
tail_from = from;
while ((i = *tail_from) != NULL) {
VALUE_PAIR *j;
VERIFY_VP(i);
/*
* We never move Fall-Through.
*/
if (!i->da->vendor && i->da->attr == PW_FALL_THROUGH) {
tail_from = &(i->next);
continue;
}
/*
* Unlike previous versions, we treat all other
* attributes as normal. i.e. there's no special
* treatment for passwords or Hint.
*/
switch (i->op) {
/*
* Anything else are operators which
* shouldn't occur. We ignore them, and
* leave them in place.
*/
default:
tail_from = &(i->next);
continue;
/*
* Add it to the "to" list, but only if
* it doesn't already exist.
*/
case T_OP_EQ:
found = fr_pair_find_by_da(*to, i->da, TAG_ANY);
if (!found) goto do_add;
tail_from = &(i->next);
continue;
/*
* Add it to the "to" list, and delete any attribute
* of the same vendor/attr which already exists.
*/
case T_OP_SET:
found = fr_pair_find_by_da(*to, i->da, TAG_ANY);
if (!found) goto do_add;
/*
* Do NOT call fr_pair_delete_by_num() here,
* due to issues with re-writing
* "request->username".
*
* Everybody calls fr_pair_move, and
* expects it to work. We can't
* update request->username here,
* so instead we over-write the
* vp that it's pointing to.
*/
switch (found->da->type) {
default:
j = found->next;
memcpy(found, i, sizeof(*found));
found->next = j;
break;
case PW_TYPE_OCTETS:
fr_pair_value_memsteal(found, i->vp_octets);
i->vp_octets = NULL;
break;
case PW_TYPE_STRING:
fr_pair_value_strsteal(found, i->vp_strvalue);
i->vp_strvalue = NULL;
found->tag = i->tag;
break;
}
/*
* Delete *all* of the attributes
* of the same number.
*/
fr_pair_delete_by_num(&found->next,
found->da->attr,
found->da->vendor, TAG_ANY);
/*
* Remove this attribute from the
* "from" list.
*/
*tail_from = i->next;
i->next = NULL;
fr_pair_list_free(&i);
continue;
/*
* Move it from the old list and add it
* to the new list.
*/
case T_OP_ADD:
do_add:
*tail_from = i->next;
i->next = NULL;
*tail_new = i;
fr_pair_steal(ctx, i);
tail_new = &(i->next);
continue;
case T_OP_PREPEND:
i->next = head_prepend;
head_prepend = i;
fr_pair_steal(ctx, i);
continue;
}
} /* loop over the "from" list. */
/*
* If the op parameter was prepend, add the "new" list
* attributes first as those whose individual operator
* is prepend should be prepended to the resulting list
*/
if (op == T_OP_PREPEND) {
fr_pair_prepend(to, head_new);
}
/*
* If there are any items in the prepend list prepend
* it to the "to" list
*/
fr_pair_prepend(to, head_prepend);
/*
* If the op parameter was not prepend, take the "new"
* list, and append it to the "to" list.
*/
if (op != T_OP_PREPEND) {
fr_pair_add(to, head_new);
}
}
/** Move matching pairs between VALUE_PAIR lists
*
* Move pairs of a matching attribute number, vendor number and tag from the
* the input list to the output list.
*
* @note fr_pair_list_free should be called on the head of the old list to free unmoved
attributes (if they're no longer needed).
*
* @param[in] ctx for talloc
* @param[in,out] to destination list.
* @param[in,out] from source list.
* @param[in] attr to match. If attribute PW_VENDOR_SPECIFIC and vendor 0,
* will match (and therefore copy) only VSAs.
* If attribute 0 and vendor 0 will match (and therefore copy) all
* attributes.
* @param[in] vendor to match.
* @param[in] tag to match, TAG_ANY matches any tag, TAG_NONE matches tagless VPs.
* @param[in] move if set to "true", VPs are moved. If set to "false", VPs are copied, and the old one deleted.
*/
static void fr_pair_list_move_by_num_internal(TALLOC_CTX *ctx, VALUE_PAIR **to, VALUE_PAIR **from,
unsigned int attr, unsigned int vendor, int8_t tag,
bool move)
{
VALUE_PAIR *to_tail, *i, *next, *this;
VALUE_PAIR *iprev = NULL;
/*
* Find the last pair in the "to" list and put it in "to_tail".
*
* @todo: replace the "if" with "VALUE_PAIR **tail"
*/
if (*to != NULL) {
to_tail = *to;
for(i = *to; i; i = i->next) {
VERIFY_VP(i);
to_tail = i;
}
} else
to_tail = NULL;
/*
* Attr/vendor of 0 means "move them all".
* It's better than "fr_pair_add(foo,bar);bar=NULL"
*/
if ((vendor == 0) && (attr == 0)) {
if (*to) {
to_tail->next = *from;
} else {
*to = *from;
}
for (i = *from; i; i = i->next) {
fr_pair_steal(ctx, i);
}
*from = NULL;
return;
}
for(i = *from; i; i = next) {
VERIFY_VP(i);
next = i->next;
if (i->da->flags.has_tag && !TAG_EQ(tag, i->tag)) {
iprev = i;
continue;
}
/*
* vendor=0, attr = PW_VENDOR_SPECIFIC means
* "match any vendor attribute".
*/
if ((vendor == 0) && (attr == PW_VENDOR_SPECIFIC)) {
/*
* It's a VSA: move it over.
*/
if (i->da->vendor != 0) goto move;
/*
* It's Vendor-Specific: move it over.
*/
if (i->da->attr == attr) goto move;
/*
* It's not a VSA: ignore it.
*/
iprev = i;
continue;
}
/*
* If it isn't an exact match, ignore it.
*/
if (!((i->da->vendor == vendor) && (i->da->attr == attr))) {
iprev = i;
continue;
}
move:
/*
* Remove the attribute from the "from" list.
*/
if (iprev)
iprev->next = next;
else
*from = next;
if (move) {
this = i;
} else {
this = fr_pair_copy(ctx, i);
}
/*
* Add the attribute to the "to" list.
*/
if (to_tail)
to_tail->next = this;
else
*to = this;
to_tail = this;
this->next = NULL;
if (move) {
fr_pair_steal(ctx, i);
} else {
talloc_free(i);
}
}
}
/** Move matching pairs between VALUE_PAIR lists
*
* Move pairs of a matching attribute number, vendor number and tag from the
* the input list to the output list.
*
* @note pairs which are moved have their parent changed to ctx.
*
* @note fr_pair_list_free should be called on the head of the old list to free unmoved
attributes (if they're no longer needed).
*
* @param[in] ctx for talloc
* @param[in,out] to destination list.
* @param[in,out] from source list.
* @param[in] attr to match. If attribute PW_VENDOR_SPECIFIC and vendor 0,
* will match (and therefore copy) only VSAs.
* If attribute 0 and vendor 0 will match (and therefore copy) all
* attributes.
* @param[in] vendor to match.
* @param[in] tag to match, TAG_ANY matches any tag, TAG_NONE matches tagless VPs.
*/
void fr_pair_list_move_by_num(TALLOC_CTX *ctx, VALUE_PAIR **to, VALUE_PAIR **from,
unsigned int attr, unsigned int vendor, int8_t tag)
{
fr_pair_list_move_by_num_internal(ctx, to, from, attr, vendor, tag, true);
}
/** Copy / delete matching pairs between VALUE_PAIR lists
*
* Move pairs of a matching attribute number, vendor number and tag from the
* the input list to the output list. Like fr_pair_list_move_by_num(), but
* instead does copy / delete.
*
* @note The pair is NOT reparented. It is copied and deleted.
*
* @note fr_pair_list_free should be called on the head of the old list to free unmoved
attributes (if they're no longer needed).
*
* @param[in] ctx for talloc
* @param[in,out] to destination list.
* @param[in,out] from source list.
* @param[in] attr to match. If attribute PW_VENDOR_SPECIFIC and vendor 0,
* will match (and therefore copy) only VSAs.
* If attribute 0 and vendor 0 will match (and therefore copy) all
* attributes.
* @param[in] vendor to match.
* @param[in] tag to match, TAG_ANY matches any tag, TAG_NONE matches tagless VPs.
*/
void fr_pair_list_mcopy_by_num(TALLOC_CTX *ctx, VALUE_PAIR **to, VALUE_PAIR **from,
unsigned int attr, unsigned int vendor, int8_t tag)
{
fr_pair_list_move_by_num_internal(ctx, to, from, attr, vendor, tag, false);
}
/** Convert string value to native attribute value
*
* @param vp to assign value to.
* @param value string to convert. Binary safe for variable length values if len is provided.
* @param inlen may be < 0 in which case strlen(len) is used to determine length, else inline
* should be the length of the string or sub string to parse.
* @return 0 on success -1 on error.
*/
int fr_pair_value_from_str(VALUE_PAIR *vp, char const *value, size_t inlen)
{
ssize_t ret;
PW_TYPE type;
VERIFY_VP(vp);
if (!value) return -1;
type = vp->da->type;
/*
* We presume that the input data is from a double quoted
* string, and needs escaping
*/
ret = value_data_from_str(vp, &vp->data, &type, vp->da, value, inlen, '"');
if (ret < 0) return -1;
/*
* If we parsed to a different type than the DA associated with
* the VALUE_PAIR we now need to fixup the DA.
*/
if (type != vp->da->type) {
DICT_ATTR const *da;
da = dict_attrbytype(vp->da->attr, vp->da->vendor, type);
if (!da) {
fr_strerror_printf("Cannot find %s variant of attribute \"%s\"",
fr_int2str(dict_attr_types, type, "<INVALID>"), vp->da->name);
return -1;
}
vp->da = da;
}
vp->vp_length = ret;
vp->type = VT_DATA;
VERIFY_VP(vp);
return 0;
}
/** Use simple heuristics to create an VALUE_PAIR from an unknown address string
*
* If a DICT_ATTR is not provided for the address type, parsing will fail with
* and error.
*
* @param ctx to allocate VP in.
* @param value IPv4/IPv6 address/prefix string.
* @param ipv4 dictionary attribute to use for an IPv4 address.
* @param ipv6 dictionary attribute to use for an IPv6 address.
* @param ipv4_prefix dictionary attribute to use for an IPv4 prefix.
* @param ipv6_prefix dictionary attribute to use for an IPv6 prefix.
* @return NULL on error, or new VALUE_PAIR.
*/
VALUE_PAIR *fr_pair_afrom_ip_str(TALLOC_CTX *ctx, char const *value, DICT_ATTR *ipv4, DICT_ATTR *ipv6,
DICT_ATTR *ipv4_prefix, DICT_ATTR *ipv6_prefix)
{
VALUE_PAIR *vp;
DICT_ATTR *da = NULL;
if (!fr_assert(ipv4 || ipv6 || ipv4_prefix || ipv6_prefix)) {
return NULL;
}
/* No point in repeating the work of fr_pair_value_from_str */
if (strchr(value, ':')) {
if (strchr(value, '/')) {
da = ipv6_prefix;
goto finish;
}
da = ipv6;
goto finish;
}
if (strchr(value, '/')) {
da = ipv4_prefix;
goto finish;
}
if (ipv4) {
da = ipv4;
goto finish;
}
fr_strerror_printf("Invalid IP value specified, allowed types are %s%s%s%s",
ipv4 ? "ipaddr " : "", ipv6 ? "ipv6addr " : "",
ipv4_prefix ? "ipv4prefix " : "", ipv6_prefix ? "ipv6prefix" : "");
finish:
vp = fr_pair_afrom_da(ctx, da);
if (!vp) return NULL;
if (fr_pair_value_from_str(vp, value, -1) < 0) {
talloc_free(vp);
return NULL;
}
return vp;
}
/** Create a valuepair from an ASCII attribute and value
*
* Where the attribute name is in the form:
* - Attr-%d
* - Attr-%d.%d.%d...
* - Vendor-%d-Attr-%d
* - VendorName-Attr-%d
*
* @param ctx for talloc
* @param attribute name to parse.
* @param value to parse (must be a hex string).
* @param op to assign to new valuepair.
* @return new valuepair or NULL on error.
*/
static VALUE_PAIR *fr_pair_make_unknown(TALLOC_CTX *ctx,
char const *attribute, char const *value,
FR_TOKEN op)
{
VALUE_PAIR *vp, *vp2;
DICT_ATTR const *da;
uint8_t *data;
size_t size;
ssize_t len;
vp = fr_pair_alloc(ctx);
if (!vp) return NULL;
vp->da = dict_unknown_afrom_str(vp, attribute);
if (!vp->da) {
talloc_free(vp);
return NULL;
}
/*
* No value. Nothing more to do.
*/
if (!value) return vp;
/*
* Unknown attributes MUST be of type 'octets'
*/
if (strncasecmp(value, "0x", 2) != 0) {
fr_strerror_printf("Unknown attribute \"%s\" requires a hex "
"string, not \"%s\"", attribute, value);
talloc_free(vp);
return NULL;
}
/*
* Convert the hex data to binary.
*/
size = strlen(value + 2);
vp->vp_length = size >> 1;
vp->vp_octets = data = talloc_array(vp, uint8_t, vp->vp_length);
vp->type = VT_DATA;
vp->op = (op == 0) ? T_OP_EQ : op;
if (fr_hex2bin(data, vp->vp_length, value + 2, size) != vp->vp_length) {
fr_strerror_printf("Invalid hex string");
talloc_free(vp);
return NULL;
}
/*
* It's still unknown, return it as-is.
*/
da = dict_attrbyvalue(vp->da->attr, vp->da->vendor);
if (!da) return vp;
/*
* It MIGHT be known. See if we can decode the raw data
* into a valid attribute.
*/
len = data2vp(ctx, NULL, NULL, NULL, da,
vp->vp_octets, vp->vp_length, vp->vp_length,
&vp2);
if (len <= 0) return vp;
/*
* It's still unknown. Return the original VP.
*/
if (vp2->da->flags.is_unknown) {
fr_pair_list_free(&vp2);
return vp;
}
/*
* Didn't parse all of it. Return the "unknown" one.
*
* FIXME: it COULD have parsed 2 attributes and
* then not the third, so returning 2 "knowns"
* and 1 "unknown" is likely preferable.
*/
if ((size_t) len < vp->vp_length) {
fr_pair_list_free(&vp2);
return vp;
}
fr_pair_list_free(&vp);
return vp2;
}
/** Create a VALUE_PAIR from ASCII strings
*
* Converts an attribute string identifier (with an optional tag qualifier)
* and value string into a VALUE_PAIR.
*
* The string value is parsed according to the type of VALUE_PAIR being created.
*
* @param[in] ctx for talloc
* @param[in] vps list where the attribute will be added (optional)
* @param[in] attribute name.
* @param[in] value attribute value (may be NULL if value will be set later).
* @param[in] op to assign to new VALUE_PAIR.
* @return a new VALUE_PAIR.
*/
VALUE_PAIR *fr_pair_make(TALLOC_CTX *ctx, VALUE_PAIR **vps,
char const *attribute, char const *value, FR_TOKEN op)
{
DICT_ATTR const *da;
VALUE_PAIR *vp;
char *tc, *ts;
int8_t tag;
bool found_tag;
char buffer[256];
char const *attrname = attribute;
/*
* Check for tags in 'Attribute:Tag' format.
*/
found_tag = false;
tag = TAG_ANY;
ts = strrchr(attribute, ':');
if (ts && !ts[1]) {
fr_strerror_printf("Invalid tag for attribute %s", attribute);
return NULL;
}
if (ts && ts[1]) {
strlcpy(buffer, attribute, sizeof(buffer));
attrname = buffer;
ts = strrchr(attrname, ':');
if (!ts) return NULL;
/* Colon found with something behind it */
if (ts[1] == '*' && ts[2] == 0) {
/* Wildcard tag for check items */
tag = TAG_ANY;
*ts = '\0';
} else if ((ts[1] >= '0') && (ts[1] <= '9')) {
/* It's not a wild card tag */
tag = strtol(ts + 1, &tc, 0);
if (tc && !*tc && TAG_VALID_ZERO(tag))
*ts = '\0';
else tag = TAG_ANY;
} else {
fr_strerror_printf("Invalid tag for attribute %s", attribute);
return NULL;
}
found_tag = true;
}
/*
* It's not found in the dictionary, so we use
* another method to create the attribute.
*/
da = dict_attrbyname(attrname);
if (!da) {
vp = fr_pair_make_unknown(ctx, attrname, value, op);
if (vp && vps) fr_pair_add(vps, vp);
return vp;
}
/* Check for a tag in the 'Merit' format of:
* :Tag:Value. Print an error if we already found
* a tag in the Attribute.
*/
if (value && (*value == ':' && da->flags.has_tag)) {
/* If we already found a tag, this is invalid */
if(found_tag) {
fr_strerror_printf("Duplicate tag %s for attribute %s",
value, da->name);
DEBUG("Duplicate tag %s for attribute %s\n",
value, da->name);
return NULL;
}
/* Colon found and attribute allows a tag */
if (value[1] == '*' && value[2] == ':') {
/* Wildcard tag for check items */
tag = TAG_ANY;
value += 3;
} else {
/* Real tag */
tag = strtol(value + 1, &tc, 0);
if (tc && *tc==':' && TAG_VALID_ZERO(tag))
value = tc + 1;
else tag = 0;
}
}
vp = fr_pair_afrom_da(ctx, da);
if (!vp) return NULL;
vp->op = (op == 0) ? T_OP_EQ : op;
vp->tag = tag;
switch (vp->op) {
case T_OP_CMP_TRUE:
case T_OP_CMP_FALSE:
vp->vp_strvalue = NULL;
vp->vp_length = 0;
value = NULL; /* ignore it! */
break;
/*
* Regular expression comparison of integer attributes
* does a STRING comparison of the names of their
* integer attributes.
*/
case T_OP_REG_EQ: /* =~ */
case T_OP_REG_NE: /* !~ */
{
#ifndef HAVE_REGEX
fr_strerror_printf("Regular expressions are not supported");
return NULL;
#else
ssize_t slen;
regex_t *preg;
/*
* Someone else will fill in the value.
*/
if (!value) break;
talloc_free(vp);
slen = regex_compile(ctx, &preg, value, strlen(value), false, false, false, true);
if (slen <= 0) {
fr_strerror_printf("Error at offset %zu compiling regex for %s: %s", -slen,
attribute, fr_strerror());
return NULL;
}
talloc_free(preg);
vp = fr_pair_make(ctx, NULL, attribute, NULL, op);
if (!vp) return NULL;
if (fr_pair_mark_xlat(vp, value) < 0) {
talloc_free(vp);
return NULL;
}
value = NULL; /* ignore it */
break;
#endif
}
default:
break;
}
/*
* We allow this for stupidity, but it's really a bad idea.
*/
if (vp->da->type == PW_TYPE_TLV) {
ssize_t len;
DICT_ATTR const *unknown;
VALUE_PAIR *head = NULL;
VALUE_PAIR **tail = &head;
if (!value) {
talloc_free(vp);
return NULL;
}
unknown = dict_unknown_afrom_fields(vp, vp->da->attr, vp->da->vendor);
if (!unknown) {
talloc_free(vp);
return NULL;
}
vp->da = unknown;
/*
* Parse it as an unknown type, i.e. octets.
*/
if (fr_pair_value_from_str(vp, value, -1) < 0) {
talloc_free(vp);
return NULL;
}
/*
* It's badly formatted. Treat it as unknown.
*/
if (rad_tlv_ok(vp->vp_octets, vp->vp_length, 1, 1) < 0) {
goto do_add;
}
/*
* Decode the TLVs
*/
len = rad_data2vp_tlvs(ctx, NULL, NULL, NULL, da, vp->vp_octets,
vp->vp_length, tail);
if (len < 0) {
goto do_add;
}
talloc_free(vp);
vp = head;
goto do_add;
}
/*
* FIXME: if (strcasecmp(attribute, vp->da->name) != 0)
* then the user MAY have typed in the attribute name
* as Vendor-%d-Attr-%d, and the value MAY be octets.
*
* We probably want to fix fr_pair_value_from_str to accept
* octets as values for any attribute.
*/
if (value && (fr_pair_value_from_str(vp, value, -1) < 0)) {
talloc_free(vp);
return NULL;
}
do_add:
if (vps) fr_pair_add(vps, vp);
return vp;
}
/** Mark a valuepair for xlat expansion
*
* Copies xlat source (unprocessed) string to valuepair value,
* and sets value type.
*
* @param vp to mark for expansion.
* @param value to expand.
* @return 0 if marking succeeded or -1 if vp already had a value, or OOM.
*/
int fr_pair_mark_xlat(VALUE_PAIR *vp, char const *value)
{
char *raw;
/*
* valuepair should not already have a value.
*/
if (vp->type != VT_NONE) {
fr_strerror_printf("Pair already has a value");
return -1;
}
raw = talloc_typed_strdup(vp, value);
if (!raw) {
fr_strerror_printf("Out of memory");
return -1;
}
vp->type = VT_XLAT;
vp->value.xlat = raw;
vp->vp_length = 0;
return 0;
}
/** Read a single valuepair from a buffer, and advance the pointer
*
* Returns T_EOL if end of line was encountered.
*
* @param[in,out] ptr to read from and update.
* @param[out] raw The struct to write the raw VALUE_PAIR to.
* @return the last token read.
*/
FR_TOKEN fr_pair_raw_from_str(char const **ptr, VALUE_PAIR_RAW *raw)
{
char const *p;
char *q;
FR_TOKEN ret = T_INVALID, next, quote;
char buf[8];
if (!ptr || !*ptr || !raw) {
fr_strerror_printf("Invalid arguments");
return T_INVALID;
}
/*
* Skip leading spaces
*/
p = *ptr;
while ((*p == ' ') || (*p == '\t')) p++;
if (!*p) {
fr_strerror_printf("No token read where we expected "
"an attribute name");
return T_INVALID;
}
if (*p == '#') return T_HASH;
/*
* Try to get the attribute name.
*/
q = raw->l_opand;
*q = '\0';
while (*p) {
uint8_t const *t = (uint8_t const *) p;
if (q >= (raw->l_opand + sizeof(raw->l_opand))) {
too_long:
fr_strerror_printf("Attribute name too long");
return T_INVALID;
}
/*
* This is arguably easier than trying to figure
* out which operators come after the attribute
* name. Yes, our "lexer" is bad.
*/
if (!dict_attr_allowed_chars[(unsigned int) *t]) {
break;
}
/*
* Attribute:=value is NOT
*
* Attribute:
* =
* value
*/
if ((*p == ':') && (!isdigit((uint8_t) p[1]))) {
break;
}
*(q++) = *(p++);
}
/*
* Haven't found any valid characters in the name.
*/
if (!*raw->l_opand) {
fr_strerror_printf("Invalid attribute name");
return T_INVALID;
}
/*
* Look for tag (:#). This is different from :=, which
* is an operator.
*/
if ((*p == ':') && (isdigit((uint8_t) p[1]))) {
if (q >= (raw->l_opand + sizeof(raw->l_opand))) {
goto too_long;
}
*(q++) = *(p++);
while (isdigit((uint8_t) *p)) {
if (q >= (raw->l_opand + sizeof(raw->l_opand))) {
goto too_long;
}
*(q++) = *(p++);
}
}
*q = '\0';
*ptr = p;
/* Now we should have an operator here. */
raw->op = gettoken(ptr, buf, sizeof(buf), false);
if (raw->op < T_EQSTART || raw->op > T_EQEND) {
fr_strerror_printf("Expecting operator");
return T_INVALID;
}
/*
* Read value. Note that empty string values are allowed
*/
quote = gettoken(ptr, raw->r_opand, sizeof(raw->r_opand), false);
if (quote == T_EOL) {
fr_strerror_printf("Failed to get value");
return T_INVALID;
}
/*
* Peek at the next token. Must be T_EOL, T_COMMA, or T_HASH
*/
p = *ptr;
next = gettoken(&p, buf, sizeof(buf), false);
switch (next) {
case T_HASH:
next = T_EOL;
break;
case T_EOL:
break;
case T_COMMA:
*ptr = p;
break;
default:
fr_strerror_printf("Expected end of line or comma");
return T_INVALID;
}
ret = next;
switch (quote) {
/*
* Perhaps do xlat's
*/
case T_DOUBLE_QUOTED_STRING:
/*
* Only report as double quoted if it contained valid
* a valid xlat expansion.
*/
p = strchr(raw->r_opand, '%');
if (p && (p[1] == '{')) {
raw->quote = quote;
} else {
raw->quote = T_SINGLE_QUOTED_STRING;
}
break;
case T_SINGLE_QUOTED_STRING:
case T_BACK_QUOTED_STRING:
case T_BARE_WORD:
raw->quote = quote;
break;
default:
fr_strerror_printf("Failed to find expected value on right hand side in %s", raw->l_opand);
return T_INVALID;
}
return ret;
}
/** Read one line of attribute/value pairs into a list.
*
* The line may specify multiple attributes separated by commas.
*
* @note If the function returns T_INVALID, an error has occurred and
* @note the valuepair list should probably be freed.
*
* @param ctx for talloc
* @param buffer to read valuepairs from.
* @param list where the parsed VALUE_PAIRs will be appended.
* @return the last token parsed, or T_INVALID
*/
FR_TOKEN fr_pair_list_afrom_str(TALLOC_CTX *ctx, char const *buffer, VALUE_PAIR **list)
{
VALUE_PAIR *vp, *head, **tail;
char const *p;
FR_TOKEN last_token = T_INVALID;
VALUE_PAIR_RAW raw;
/*
* We allow an empty line.
*/
if (buffer[0] == 0) {
return T_EOL;
}
head = NULL;
tail = &head;
p = buffer;
do {
raw.l_opand[0] = '\0';
raw.r_opand[0] = '\0';
last_token = fr_pair_raw_from_str(&p, &raw);
/*
* JUST a hash. Don't try to create a VP.
* Let the caller determine if an empty list is OK.
*/
if (last_token == T_HASH) {
last_token = T_EOL;
break;
}
if (last_token == T_INVALID) break;
if (raw.quote == T_DOUBLE_QUOTED_STRING) {
vp = fr_pair_make(ctx, NULL, raw.l_opand, NULL, raw.op);
if (!vp) {
last_token = T_INVALID;
break;
}
if (fr_pair_mark_xlat(vp, raw.r_opand) < 0) {
talloc_free(vp);
last_token = T_INVALID;
break;
}
} else {
vp = fr_pair_make(ctx, NULL, raw.l_opand, raw.r_opand, raw.op);
if (!vp) {
last_token = T_INVALID;
break;
}
}
*tail = vp;
tail = &((*tail)->next);
} while (*p && (last_token == T_COMMA));
if (last_token == T_INVALID) {
fr_pair_list_free(&head);
} else {
fr_pair_add(list, head);
}
/*
* And return the last token which we read.
*/
return last_token;
}
/*
* Read valuepairs from the fp up to End-Of-File.
*/
int fr_pair_list_afrom_file(TALLOC_CTX *ctx, VALUE_PAIR **out, FILE *fp, bool *pfiledone)
{
char buf[8192];
FR_TOKEN last_token = T_EOL;
vp_cursor_t cursor;
VALUE_PAIR *vp = NULL;
fr_cursor_init(&cursor, out);
while (fgets(buf, sizeof(buf), fp) != NULL) {
/*
* If we get a '\n' by itself, we assume that's
* the end of that VP
*/
if (buf[0] == '\n') {
if (vp) {
*pfiledone = false;
return 0;
}
continue;
}
/*
* Comments get ignored
*/
if (buf[0] == '#') continue;
/*
* Read all of the attributes on the current line.
*/
vp = NULL;
last_token = fr_pair_list_afrom_str(ctx, buf, &vp);
if (!vp) {
if (last_token != T_EOL) goto error;
break;
}
fr_cursor_merge(&cursor, vp);
buf[0] = '\0';
}
*pfiledone = true;
return 0;
error:
*pfiledone = false;
vp = fr_cursor_first(&cursor);
if (vp) fr_pair_list_free(&vp);
return -1;
}
/** Compare two pairs, using the operator from "a"
*
* i.e. given two attributes, it does:
*
* (b->data) (a->operator) (a->data)
*
* e.g. "foo" != "bar"
*
* @param[in] a the first attribute
* @param[in] b the second attribute
* @return 1 if true, 0 if false, -1 on error.
*/
int fr_pair_cmp(VALUE_PAIR *a, VALUE_PAIR *b)
{
if (!a) return -1;
VERIFY_VP(a);
if (b) VERIFY_VP(b);
switch (a->op) {
case T_OP_CMP_TRUE:
return (b != NULL);
case T_OP_CMP_FALSE:
return (b == NULL);
/*
* a is a regex, compile it, print b to a string,
* and then do string comparisons.
*/
case T_OP_REG_EQ:
case T_OP_REG_NE:
#ifndef HAVE_REGEX
return -1;
#else
if (!b) return false;
{
ssize_t slen;
regex_t *preg;
char *value;
if (!fr_assert(a->da->type == PW_TYPE_STRING)) return -1;
slen = regex_compile(NULL, &preg, a->value.xlat, talloc_array_length(a->value.xlat) - 1, false, false, false, true);
if (slen <= 0) {
fr_strerror_printf("Error at offset %zu compiling regex for %s: %s",
-slen, a->da->name, fr_strerror());
return -1;
}
value = vp_aprints_value(NULL, b, '\0');
if (!value) {
talloc_free(preg);
return -1;
}
/*
* Don't care about substring matches, oh well...
*/
slen = regex_exec(preg, value, talloc_array_length(value) - 1, NULL, NULL);
talloc_free(preg);
talloc_free(value);
if (slen < 0) return -1;
if (a->op == T_OP_REG_EQ) return (int)slen;
return !slen;
}
#endif
default: /* we're OK */
if (!b) return false;
break;
}
return fr_pair_cmp_op(a->op, b, a);
}
/** Determine equality of two lists
*
* This is useful for comparing lists of attributes inserted into a binary tree.
*
* @param a first list of VALUE_PAIRs.
* @param b second list of VALUE_PAIRs.
* @return -1 if a < b, 0 if the two lists are equal, 1 if a > b, -2 on error.
*/
int fr_pair_list_cmp(VALUE_PAIR *a, VALUE_PAIR *b)
{
vp_cursor_t a_cursor, b_cursor;
VALUE_PAIR *a_p, *b_p;
int ret;
for (a_p = fr_cursor_init(&a_cursor, &a), b_p = fr_cursor_init(&b_cursor, &b);
a_p && b_p;
a_p = fr_cursor_next(&a_cursor), b_p = fr_cursor_next(&b_cursor)) {
/* Same VP, no point doing expensive checks */
if (a_p == b_p) {
continue;
}
if (a_p->da < b_p->da) {
return -1;
}
if (a_p->da > b_p->da) {
return 1;
}
if (a_p->tag < b_p->tag) {
return -1;
}
if (a_p->tag > b_p->tag) {
return 1;
}
ret = value_data_cmp(a_p->da->type, &a_p->data, a_p->vp_length,
b_p->da->type, &b_p->data, b_p->vp_length);
if (ret != 0) {
fr_assert(ret >= -1); /* Comparison error */
return ret;
}
}
if (!a_p && !b_p) {
return 0;
}
if (!a_p) {
return -1;
}
/* if(!b_p) */
return 1;
}
/** Set the type of the VALUE_PAIR value buffer to match it's DICT_ATTR
*
* @param vp to fixup.
*/
static void fr_pair_value_set_type(VALUE_PAIR *vp)
{
if (!vp->data.ptr) return;
switch (vp->da->type) {
case PW_TYPE_OCTETS:
talloc_set_type(vp->data.ptr, uint8_t);
return;
case PW_TYPE_STRING:
talloc_set_type(vp->data.ptr, char);
return;
default:
return;
}
}
/** Copy data into an "octets" data type.
*
* @param[in,out] vp to update
* @param[in] src data to copy
* @param[in] size of the data, may be 0 in which case previous value will be freed.
*/
void fr_pair_value_memcpy(VALUE_PAIR *vp, uint8_t const *src, size_t size)
{
uint8_t *p = NULL, *q;
VERIFY_VP(vp);
if (size > 0) {
p = talloc_memdup(vp, src, size);
if (!p) return;
talloc_set_type(p, uint8_t);
}
memcpy(&q, &vp->vp_octets, sizeof(q));
TALLOC_FREE(q);
vp->vp_octets = p;
vp->vp_length = size;
if (size > 0) fr_pair_value_set_type(vp);
}
/** Reparent an allocated octet buffer to a VALUE_PAIR
*
* @param[in,out] vp to update
* @param[in] src buffer to steal.
*/
void fr_pair_value_memsteal(VALUE_PAIR *vp, uint8_t const *src)
{
uint8_t *q;
VERIFY_VP(vp);
memcpy(&q, &vp->vp_octets, sizeof(q));
talloc_free(q);
vp->vp_octets = talloc_steal(vp, src);
vp->type = VT_DATA;
vp->vp_length = talloc_array_length(vp->vp_strvalue);
fr_pair_value_set_type(vp);
}
/** Reparent an allocated char buffer to a VALUE_PAIR
*
* @param[in,out] vp to update
* @param[in] src buffer to steal.
*/
void fr_pair_value_strsteal(VALUE_PAIR *vp, char const *src)
{
uint8_t *q;
VERIFY_VP(vp);
memcpy(&q, &vp->vp_octets, sizeof(q));
talloc_free(q);
vp->vp_strvalue = talloc_steal(vp, src);
vp->type = VT_DATA;
vp->vp_length = talloc_array_length(vp->vp_strvalue) - 1;
fr_pair_value_set_type(vp);
}
/** Copy data into an "string" data type.
*
* @param[in,out] vp to update
* @param[in] src data to copy
*/
void fr_pair_value_strcpy(VALUE_PAIR *vp, char const *src)
{
char *p, *q;
VERIFY_VP(vp);
p = talloc_strdup(vp, src);
if (!p) return;
memcpy(&q, &vp->vp_strvalue, sizeof(q));
talloc_free(q);
vp->vp_strvalue = p;
vp->type = VT_DATA;
vp->vp_length = talloc_array_length(vp->vp_strvalue) - 1;
fr_pair_value_set_type(vp);
}
/** Copy data into an "string" data type.
*
* @note unlike the original strncpy, this function does not stop
* if it finds \0 bytes embedded in the string.
*
* @param[in,out] vp to update.
* @param[in] src data to copy.
* @param[in] len of data to copy.
*/
void fr_pair_value_bstrncpy(VALUE_PAIR *vp, void const *src, size_t len)
{
char *p, *q;
VERIFY_VP(vp);
if (!src) return;
p = talloc_array(vp, char, len + 1);
if (!p) return;
memcpy(p, src, len); /* embdedded \0 safe */
p[len] = '\0';
memcpy(&q, &vp->vp_strvalue, sizeof(q));
talloc_free(q);
vp->vp_strvalue = p;
vp->type = VT_DATA;
vp->vp_length = len;
fr_pair_value_set_type(vp);
}
/** Print data into an "string" data type.
*
* @param[in,out] vp to update
* @param[in] fmt the format string
*/
void fr_pair_value_sprintf(VALUE_PAIR *vp, char const *fmt, ...)
{
va_list ap;
char *p, *q;
VERIFY_VP(vp);
va_start(ap, fmt);
p = talloc_vasprintf(vp, fmt, ap);
va_end(ap);
if (!p) return;
memcpy(&q, &vp->vp_strvalue, sizeof(q));
talloc_free(q);
vp->vp_strvalue = p;
vp->type = VT_DATA;
vp->vp_length = talloc_array_length(vp->vp_strvalue) - 1;
fr_pair_value_set_type(vp);
}
#ifdef WITH_VERIFY_PTR
/*
* Verify a VALUE_PAIR
*/
inline void fr_pair_verify(char const *file, int line, VALUE_PAIR const *vp)
{
if (!vp) {
FR_FAULT_LOG("CONSISTENCY CHECK FAILED %s[%u]: VALUE_PAIR pointer was NULL", file, line);
fr_assert(0);
fr_exit_now(1);
}
(void) talloc_get_type_abort(vp, VALUE_PAIR);
if (!vp->da) {
FR_FAULT_LOG("CONSISTENCY CHECK FAILED %s[%u]: VALUE_PAIR da pointer was NULL", file, line);
fr_assert(0);
fr_exit_now(1);
}
if (vp->data.ptr) switch (vp->da->type) {
case PW_TYPE_OCTETS:
{
size_t len;
TALLOC_CTX *parent;
if (!talloc_get_type(vp->data.ptr, uint8_t)) {
FR_FAULT_LOG("CONSISTENCY CHECK FAILED %s[%u]: VALUE_PAIR \"%s\" data buffer type should be "
"uint8_t but is %s\n", file, line, vp->da->name, talloc_get_name(vp->data.ptr));
(void) talloc_get_type_abort(vp->data.ptr, uint8_t);
}
len = talloc_array_length(vp->vp_octets);
if (vp->vp_length > len) {
FR_FAULT_LOG("CONSISTENCY CHECK FAILED %s[%u]: VALUE_PAIR \"%s\" length %zu is greater than "
"uint8_t data buffer length %zu\n", file, line, vp->da->name, vp->vp_length, len);
fr_assert(0);
fr_exit_now(1);
}
parent = talloc_parent(vp->data.ptr);
if (parent != vp) {
FR_FAULT_LOG("CONSISTENCY CHECK FAILED %s[%u]: VALUE_PAIR \"%s\" char buffer is not "
"parented by VALUE_PAIR %p, instead parented by %p (%s)\n",
file, line, vp->da->name,
vp, parent, parent ? talloc_get_name(parent) : "NULL");
fr_assert(0);
fr_exit_now(1);
}
}
break;
case PW_TYPE_STRING:
{
size_t len;
TALLOC_CTX *parent;
if (!talloc_get_type(vp->data.ptr, char)) {
FR_FAULT_LOG("CONSISTENCY CHECK FAILED %s[%u]: VALUE_PAIR \"%s\" data buffer type should be "
"char but is %s\n", file, line, vp->da->name, talloc_get_name(vp->data.ptr));
(void) talloc_get_type_abort(vp->data.ptr, char);
}
len = (talloc_array_length(vp->vp_strvalue) - 1);
if (vp->vp_length > len) {
FR_FAULT_LOG("CONSISTENCY CHECK FAILED %s[%u]: VALUE_PAIR \"%s\" length %zu is greater than "
"char buffer length %zu\n", file, line, vp->da->name, vp->vp_length, len);
fr_assert(0);
fr_exit_now(1);
}
if (vp->vp_strvalue[vp->vp_length] != '\0') {
FR_FAULT_LOG("CONSISTENCY CHECK FAILED %s[%u]: VALUE_PAIR \"%s\" char buffer not \\0 "
"terminated\n", file, line, vp->da->name);
fr_assert(0);
fr_exit_now(1);
}
parent = talloc_parent(vp->data.ptr);
if (parent != vp) {
FR_FAULT_LOG("CONSISTENCY CHECK FAILED %s[%u]: VALUE_PAIR \"%s\" char buffer is not "
"parented by VALUE_PAIR %p, instead parented by %p (%s)\n",
file, line, vp->da->name,
vp, parent, parent ? talloc_get_name(parent) : "NULL");
fr_assert(0);
fr_exit_now(1);
}
}
break;
default:
break;
}
if (vp->da->flags.is_unknown) {
(void) talloc_get_type_abort(vp->da, DICT_ATTR);
} else {
DICT_ATTR const *da;
/*
* Attribute may be present with multiple names
*/
da = dict_attrbyname(vp->da->name);
if (!da) {
FR_FAULT_LOG("CONSISTENCY CHECK FAILED %s[%u]: VALUE_PAIR attribute %p \"%s\" (%s) "
"not found in global dictionary",
file, line, vp->da, vp->da->name,
fr_int2str(dict_attr_types, vp->da->type, "<INVALID>"));
fr_assert(0);
fr_exit_now(1);
}
if (da->type == PW_TYPE_COMBO_IP_ADDR) {
da = dict_attrbytype(vp->da->attr, vp->da->vendor, vp->da->type);
if (!da) {
FR_FAULT_LOG("CONSISTENCY CHECK FAILED %s[%u]: VALUE_PAIR attribute %p \"%s\" "
"variant (%s) not found in global dictionary",
file, line, vp->da, vp->da->name,
fr_int2str(dict_attr_types, vp->da->type, "<INVALID>"));
fr_assert(0);
fr_exit_now(1);
}
}
if (da != vp->da) {
FR_FAULT_LOG("CONSISTENCY CHECK FAILED %s[%u]: VALUE_PAIR "
"dictionary pointer %p \"%s\" (%s) "
"and global dictionary pointer %p \"%s\" (%s) differ",
file, line, vp->da, vp->da->name,
fr_int2str(dict_attr_types, vp->da->type, "<INVALID>"),
da, da->name, fr_int2str(dict_attr_types, da->type, "<INVALID>"));
fr_assert(0);
fr_exit_now(1);
}
}
}
/*
* Verify a pair list
*/
void fr_pair_list_verify(char const *file, int line, TALLOC_CTX *expected, VALUE_PAIR *vps, char const *name)
{
vp_cursor_t cursor;
VALUE_PAIR *vp;
TALLOC_CTX *parent;
for (vp = fr_cursor_init(&cursor, &vps);
vp;
vp = fr_cursor_next(&cursor)) {
VERIFY_VP(vp);
parent = talloc_parent(vp);
if (expected && (parent != expected)) {
FR_FAULT_LOG("CONSISTENCY CHECK FAILED %s[%u]: Expected VALUE_PAIR \"%s\" to be parented "
"by %p (%s) name %s, instead parented by %p (%s)\n",
file, line, vp->da->name,
expected, talloc_get_name(expected), name,
parent, parent ? talloc_get_name(parent) : "NULL");
fr_log_talloc_report(expected);
if (parent) fr_log_talloc_report(parent);
fr_assert(0);
fr_exit_now(1);
}
}
}
#endif
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