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|
/*
* Copyright (c) 2022 Pablo Neira Ayuso <pablo@netfilter.org>
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License version 2 (or any
* later) as published by the Free Software Foundation.
*/
#include <nftables.h>
#include <expression.h>
#include <intervals.h>
#include <rule.h>
static void setelem_expr_to_range(struct expr *expr)
{
unsigned char data[sizeof(struct in6_addr) * BITS_PER_BYTE];
struct expr *key, *value;
mpz_t rop;
assert(expr->etype == EXPR_SET_ELEM);
switch (expr->key->etype) {
case EXPR_SET_ELEM_CATCHALL:
case EXPR_RANGE:
break;
case EXPR_PREFIX:
mpz_init(rop);
mpz_bitmask(rop, expr->key->len - expr->key->prefix_len);
if (expr_basetype(expr)->type == TYPE_STRING)
mpz_switch_byteorder(expr->key->prefix->value, expr->len / BITS_PER_BYTE);
mpz_ior(rop, rop, expr->key->prefix->value);
mpz_export_data(data, rop, expr->key->prefix->byteorder,
expr->key->prefix->len / BITS_PER_BYTE);
mpz_clear(rop);
value = constant_expr_alloc(&expr->location,
expr->key->prefix->dtype,
expr->key->prefix->byteorder,
expr->key->prefix->len, data);
key = range_expr_alloc(&expr->location,
expr_get(expr->key->prefix),
value);
expr_free(expr->key);
expr->key = key;
break;
case EXPR_VALUE:
if (expr_basetype(expr)->type == TYPE_STRING)
mpz_switch_byteorder(expr->key->value, expr->len / BITS_PER_BYTE);
key = range_expr_alloc(&expr->location,
expr_clone(expr->key),
expr_get(expr->key));
expr_free(expr->key);
expr->key = key;
break;
default:
BUG("unhandled key type %d\n", expr->key->etype);
}
}
struct set_automerge_ctx {
struct set *set;
struct expr *init;
struct expr *purge;
unsigned int debug_mask;
};
static void purge_elem(struct set_automerge_ctx *ctx, struct expr *i)
{
if (ctx->debug_mask & NFT_DEBUG_SEGTREE) {
pr_gmp_debug("remove: [%Zx-%Zx]\n",
i->key->left->value,
i->key->right->value);
}
list_move_tail(&i->list, &ctx->purge->expressions);
}
static void remove_overlapping_range(struct set_automerge_ctx *ctx,
struct expr *prev, struct expr *i)
{
if (i->flags & EXPR_F_KERNEL) {
purge_elem(ctx, i);
return;
}
list_del(&i->list);
expr_free(i);
ctx->init->size--;
}
struct range {
mpz_t low;
mpz_t high;
};
static bool merge_ranges(struct set_automerge_ctx *ctx,
struct expr *prev, struct expr *i,
struct range *prev_range, struct range *range)
{
if (prev->flags & EXPR_F_KERNEL) {
purge_elem(ctx, prev);
expr_free(i->key->left);
i->key->left = expr_get(prev->key->left);
mpz_set(prev_range->high, range->high);
return true;
} else if (i->flags & EXPR_F_KERNEL) {
purge_elem(ctx, i);
expr_free(prev->key->right);
prev->key->right = expr_get(i->key->right);
mpz_set(prev_range->high, range->high);
} else {
expr_free(prev->key->right);
prev->key->right = expr_get(i->key->right);
mpz_set(prev_range->high, range->high);
list_del(&i->list);
expr_free(i);
ctx->init->size--;
}
return false;
}
static void setelem_automerge(struct set_automerge_ctx *ctx)
{
struct expr *i, *next, *prev = NULL;
struct range range, prev_range;
mpz_t rop;
mpz_init(prev_range.low);
mpz_init(prev_range.high);
mpz_init(range.low);
mpz_init(range.high);
mpz_init(rop);
list_for_each_entry_safe(i, next, &ctx->init->expressions, list) {
if (i->key->etype == EXPR_SET_ELEM_CATCHALL)
continue;
range_expr_value_low(range.low, i);
range_expr_value_high(range.high, i);
if (!prev) {
prev = i;
mpz_set(prev_range.low, range.low);
mpz_set(prev_range.high, range.high);
continue;
}
if (mpz_cmp(prev_range.low, range.low) <= 0 &&
mpz_cmp(prev_range.high, range.high) >= 0) {
remove_overlapping_range(ctx, prev, i);
continue;
} else if (mpz_cmp(range.low, prev_range.high) <= 0) {
if (merge_ranges(ctx, prev, i, &prev_range, &range))
prev = i;
continue;
} else if (ctx->set->automerge) {
mpz_sub(rop, range.low, prev_range.high);
/* two contiguous ranges */
if (mpz_cmp_ui(rop, 1) == 0) {
if (merge_ranges(ctx, prev, i, &prev_range, &range))
prev = i;
continue;
}
}
prev = i;
mpz_set(prev_range.low, range.low);
mpz_set(prev_range.high, range.high);
}
mpz_clear(prev_range.low);
mpz_clear(prev_range.high);
mpz_clear(range.low);
mpz_clear(range.high);
mpz_clear(rop);
}
static struct expr *interval_expr_key(struct expr *i)
{
struct expr *elem;
switch (i->etype) {
case EXPR_MAPPING:
elem = i->left;
break;
case EXPR_SET_ELEM:
elem = i;
break;
default:
BUG("unhandled expression type %d\n", i->etype);
return NULL;
}
return elem;
}
void set_to_range(struct expr *init)
{
struct expr *i, *elem;
list_for_each_entry(i, &init->expressions, list) {
elem = interval_expr_key(i);
setelem_expr_to_range(elem);
}
}
int set_automerge(struct list_head *msgs, struct cmd *cmd, struct set *set,
struct expr *init, unsigned int debug_mask)
{
struct set *existing_set = set->existing_set;
struct set_automerge_ctx ctx = {
.set = set,
.init = init,
.debug_mask = debug_mask,
};
struct expr *i, *next, *clone;
struct cmd *purge_cmd;
struct handle h = {};
if (set->flags & NFT_SET_MAP) {
set_to_range(init);
list_expr_sort(&init->expressions);
return 0;
}
if (existing_set) {
if (existing_set->init) {
list_splice_init(&existing_set->init->expressions,
&init->expressions);
} else {
existing_set->init = set_expr_alloc(&internal_location,
set);
}
}
set_to_range(init);
list_expr_sort(&init->expressions);
ctx.purge = set_expr_alloc(&internal_location, set);
setelem_automerge(&ctx);
list_for_each_entry_safe(i, next, &init->expressions, list) {
if (i->flags & EXPR_F_KERNEL) {
list_move_tail(&i->list, &existing_set->init->expressions);
} else if (existing_set) {
if (debug_mask & NFT_DEBUG_SEGTREE) {
pr_gmp_debug("add: [%Zx-%Zx]\n",
i->key->left->value, i->key->right->value);
}
clone = expr_clone(i);
clone->flags |= EXPR_F_KERNEL;
list_add_tail(&clone->list, &existing_set->init->expressions);
}
}
if (list_empty(&ctx.purge->expressions)) {
expr_free(ctx.purge);
return 0;
}
handle_merge(&h, &set->handle);
purge_cmd = cmd_alloc(CMD_DELETE, CMD_OBJ_ELEMENTS, &h, &init->location, ctx.purge);
purge_cmd->elem.set = set_get(set);
list_add_tail(&purge_cmd->list, &cmd->list);
return 0;
}
static void remove_elem(struct expr *prev, struct set *set, struct expr *purge)
{
struct expr *clone;
if (prev->flags & EXPR_F_KERNEL) {
clone = expr_clone(prev);
list_move_tail(&clone->list, &purge->expressions);
}
}
static void __adjust_elem_left(struct set *set, struct expr *prev, struct expr *i)
{
prev->flags &= ~EXPR_F_KERNEL;
expr_free(prev->key->left);
prev->key->left = expr_get(i->key->right);
mpz_add_ui(prev->key->left->value, prev->key->left->value, 1);
list_move(&prev->list, &set->existing_set->init->expressions);
}
static void adjust_elem_left(struct set *set, struct expr *prev, struct expr *i,
struct expr *purge)
{
remove_elem(prev, set, purge);
__adjust_elem_left(set, prev, i);
list_del(&i->list);
expr_free(i);
}
static void __adjust_elem_right(struct set *set, struct expr *prev, struct expr *i)
{
prev->flags &= ~EXPR_F_KERNEL;
expr_free(prev->key->right);
prev->key->right = expr_get(i->key->left);
mpz_sub_ui(prev->key->right->value, prev->key->right->value, 1);
list_move(&prev->list, &set->existing_set->init->expressions);
}
static void adjust_elem_right(struct set *set, struct expr *prev, struct expr *i,
struct expr *purge)
{
remove_elem(prev, set, purge);
__adjust_elem_right(set, prev, i);
list_del(&i->list);
expr_free(i);
}
static void split_range(struct set *set, struct expr *prev, struct expr *i,
struct expr *purge)
{
struct expr *clone;
if (prev->flags & EXPR_F_KERNEL) {
clone = expr_clone(prev);
list_move_tail(&clone->list, &purge->expressions);
}
prev->flags &= ~EXPR_F_KERNEL;
clone = expr_clone(prev);
expr_free(clone->key->left);
clone->key->left = expr_get(i->key->right);
mpz_add_ui(clone->key->left->value, i->key->right->value, 1);
list_add_tail(&clone->list, &set->existing_set->init->expressions);
expr_free(prev->key->right);
prev->key->right = expr_get(i->key->left);
mpz_sub_ui(prev->key->right->value, i->key->left->value, 1);
list_move(&prev->list, &set->existing_set->init->expressions);
list_del(&i->list);
expr_free(i);
}
static int setelem_adjust(struct set *set, struct expr *purge,
struct range *prev_range, struct range *range,
struct expr *prev, struct expr *i)
{
if (mpz_cmp(prev_range->low, range->low) == 0 &&
mpz_cmp(prev_range->high, range->high) > 0) {
if (i->flags & EXPR_F_REMOVE)
adjust_elem_left(set, prev, i, purge);
} else if (mpz_cmp(prev_range->low, range->low) < 0 &&
mpz_cmp(prev_range->high, range->high) == 0) {
if (i->flags & EXPR_F_REMOVE)
adjust_elem_right(set, prev, i, purge);
} else if (mpz_cmp(prev_range->low, range->low) < 0 &&
mpz_cmp(prev_range->high, range->high) > 0) {
if (i->flags & EXPR_F_REMOVE)
split_range(set, prev, i, purge);
} else {
return -1;
}
return 0;
}
static int setelem_delete(struct list_head *msgs, struct set *set,
struct expr *purge, struct expr *elems,
unsigned int debug_mask)
{
struct expr *i, *next, *prev = NULL;
struct range range, prev_range;
int err = 0;
mpz_t rop;
mpz_init(prev_range.low);
mpz_init(prev_range.high);
mpz_init(range.low);
mpz_init(range.high);
mpz_init(rop);
list_for_each_entry_safe(i, next, &elems->expressions, list) {
if (i->key->etype == EXPR_SET_ELEM_CATCHALL)
continue;
range_expr_value_low(range.low, i);
range_expr_value_high(range.high, i);
if (!prev && i->flags & EXPR_F_REMOVE) {
expr_error(msgs, i, "element does not exist");
err = -1;
goto err;
}
if (!(i->flags & EXPR_F_REMOVE)) {
prev = i;
mpz_set(prev_range.low, range.low);
mpz_set(prev_range.high, range.high);
continue;
}
if (mpz_cmp(prev_range.low, range.low) == 0 &&
mpz_cmp(prev_range.high, range.high) == 0) {
if (i->flags & EXPR_F_REMOVE) {
if (prev->flags & EXPR_F_KERNEL)
list_move_tail(&prev->list, &purge->expressions);
list_del(&i->list);
expr_free(i);
}
} else if (set->automerge &&
setelem_adjust(set, purge, &prev_range, &range, prev, i) < 0) {
expr_error(msgs, i, "element does not exist");
err = -1;
goto err;
}
prev = NULL;
}
err:
mpz_clear(prev_range.low);
mpz_clear(prev_range.high);
mpz_clear(range.low);
mpz_clear(range.high);
mpz_clear(rop);
return err;
}
static void automerge_delete(struct list_head *msgs, struct set *set,
struct expr *init, unsigned int debug_mask)
{
struct set_automerge_ctx ctx = {
.set = set,
.init = init,
.debug_mask = debug_mask,
};
ctx.purge = set_expr_alloc(&internal_location, set);
list_expr_sort(&init->expressions);
setelem_automerge(&ctx);
expr_free(ctx.purge);
}
static int __set_delete(struct list_head *msgs, struct expr *i, struct set *set,
struct expr *init, struct set *existing_set,
unsigned int debug_mask)
{
i->flags |= EXPR_F_REMOVE;
list_move(&i->list, &existing_set->init->expressions);
list_expr_sort(&existing_set->init->expressions);
return setelem_delete(msgs, set, init, existing_set->init, debug_mask);
}
/* detection for unexisting intervals already exists in Linux kernels >= 5.7. */
int set_delete(struct list_head *msgs, struct cmd *cmd, struct set *set,
struct expr *init, unsigned int debug_mask)
{
struct set *existing_set = set->existing_set;
struct expr *i, *next, *add, *clone;
struct handle h = {};
struct cmd *add_cmd;
LIST_HEAD(del_list);
int err;
set_to_range(init);
if (set->automerge)
automerge_delete(msgs, set, init, debug_mask);
set_to_range(existing_set->init);
list_splice_init(&init->expressions, &del_list);
list_for_each_entry_safe(i, next, &del_list, list) {
err = __set_delete(msgs, i, set, init, existing_set, debug_mask);
if (err < 0) {
list_splice(&del_list, &init->expressions);
return err;
}
}
add = set_expr_alloc(&internal_location, set);
list_for_each_entry(i, &existing_set->init->expressions, list) {
if (!(i->flags & EXPR_F_KERNEL)) {
clone = expr_clone(i);
list_add_tail(&clone->list, &add->expressions);
i->flags |= EXPR_F_KERNEL;
}
}
if (debug_mask & NFT_DEBUG_SEGTREE) {
list_for_each_entry(i, &init->expressions, list)
pr_gmp_debug("remove: [%Zx-%Zx]\n",
i->key->left->value, i->key->right->value);
list_for_each_entry(i, &add->expressions, list)
pr_gmp_debug("add: [%Zx-%Zx]\n",
i->key->left->value, i->key->right->value);
list_for_each_entry(i, &existing_set->init->expressions, list)
pr_gmp_debug("existing: [%Zx-%Zx]\n",
i->key->left->value, i->key->right->value);
}
if (list_empty(&add->expressions)) {
expr_free(add);
return 0;
}
handle_merge(&h, &cmd->handle);
add_cmd = cmd_alloc(CMD_ADD, CMD_OBJ_ELEMENTS, &h, &cmd->location, add);
add_cmd->elem.set = set_get(set);
list_add(&add_cmd->list, &cmd->list);
return 0;
}
static int setelem_overlap(struct list_head *msgs, struct set *set,
struct expr *init)
{
struct expr *i, *next, *elem, *prev = NULL;
struct range range, prev_range;
int err = 0;
mpz_t rop;
mpz_init(prev_range.low);
mpz_init(prev_range.high);
mpz_init(range.low);
mpz_init(range.high);
mpz_init(rop);
list_for_each_entry_safe(elem, next, &init->expressions, list) {
i = interval_expr_key(elem);
if (i->key->etype == EXPR_SET_ELEM_CATCHALL)
continue;
range_expr_value_low(range.low, i);
range_expr_value_high(range.high, i);
if (!prev) {
prev = elem;
mpz_set(prev_range.low, range.low);
mpz_set(prev_range.high, range.high);
continue;
}
if (mpz_cmp(prev_range.low, range.low) == 0 &&
mpz_cmp(prev_range.high, range.high) == 0)
goto next;
if (mpz_cmp(prev_range.low, range.low) <= 0 &&
mpz_cmp(prev_range.high, range.high) >= 0) {
if (prev->flags & EXPR_F_KERNEL)
expr_error(msgs, i, "interval overlaps with an existing one");
else if (elem->flags & EXPR_F_KERNEL)
expr_error(msgs, prev, "interval overlaps with an existing one");
else
expr_binary_error(msgs, i, prev,
"conflicting intervals specified");
err = -1;
goto err_out;
} else if (mpz_cmp(range.low, prev_range.high) <= 0) {
if (prev->flags & EXPR_F_KERNEL)
expr_error(msgs, i, "interval overlaps with an existing one");
else if (elem->flags & EXPR_F_KERNEL)
expr_error(msgs, prev, "interval overlaps with an existing one");
else
expr_binary_error(msgs, i, prev,
"conflicting intervals specified");
err = -1;
goto err_out;
}
next:
prev = elem;
mpz_set(prev_range.low, range.low);
mpz_set(prev_range.high, range.high);
}
err_out:
mpz_clear(prev_range.low);
mpz_clear(prev_range.high);
mpz_clear(range.low);
mpz_clear(range.high);
mpz_clear(rop);
return err;
}
/* overlap detection for intervals already exists in Linux kernels >= 5.7. */
int set_overlap(struct list_head *msgs, struct set *set, struct expr *init)
{
struct set *existing_set = set->existing_set;
struct expr *i, *n, *clone;
int err;
if (existing_set) {
if (existing_set->init) {
list_splice_init(&existing_set->init->expressions,
&init->expressions);
} else {
existing_set->init = set_expr_alloc(&internal_location,
set);
}
}
set_to_range(init);
list_expr_sort(&init->expressions);
err = setelem_overlap(msgs, set, init);
list_for_each_entry_safe(i, n, &init->expressions, list) {
if (i->flags & EXPR_F_KERNEL)
list_move_tail(&i->list, &existing_set->init->expressions);
else if (existing_set) {
clone = expr_clone(i);
clone->flags |= EXPR_F_KERNEL;
list_add_tail(&clone->list, &existing_set->init->expressions);
}
}
return err;
}
static bool segtree_needs_first_segment(const struct set *set,
const struct expr *init, bool add)
{
if (add && !set->root) {
/* Add the first segment in four situations:
*
* 1) This is an anonymous set.
* 2) This set exists and it is empty.
* 3) New empty set and, separately, new elements are added.
* 4) This set is created with a number of initial elements.
*/
if ((set_is_anonymous(set->flags)) ||
(set->init && set->init->size == 0) ||
(set->init == NULL && init) ||
(set->init == init)) {
return true;
}
}
/* This is an update for a set that already contains elements, so don't
* add the first non-matching elements otherwise we hit EEXIST.
*/
return false;
}
int set_to_intervals(const struct set *set, struct expr *init, bool add)
{
struct expr *i, *n, *prev = NULL, *elem, *newelem = NULL, *root, *expr;
LIST_HEAD(intervals);
uint32_t flags;
mpz_t p, q;
mpz_init2(p, set->key->len);
mpz_init2(q, set->key->len);
list_for_each_entry_safe(i, n, &init->expressions, list) {
flags = 0;
elem = interval_expr_key(i);
if (elem->key->etype == EXPR_SET_ELEM_CATCHALL)
continue;
if (!prev && segtree_needs_first_segment(set, init, add) &&
mpz_cmp_ui(elem->key->left->value, 0)) {
mpz_set_ui(p, 0);
expr = constant_expr_alloc(&internal_location,
set->key->dtype,
set->key->byteorder,
set->key->len, NULL);
mpz_set(expr->value, p);
root = set_elem_expr_alloc(&internal_location, expr);
if (i->etype == EXPR_MAPPING) {
root = mapping_expr_alloc(&internal_location,
root,
expr_get(i->right));
}
root->flags |= EXPR_F_INTERVAL_END;
list_add(&root->list, &intervals);
init->size++;
}
if (newelem) {
mpz_set(p, interval_expr_key(newelem)->key->value);
if (set->key->byteorder == BYTEORDER_HOST_ENDIAN)
mpz_switch_byteorder(p, set->key->len / BITS_PER_BYTE);
if (!(set->flags & NFT_SET_ANONYMOUS) ||
mpz_cmp(p, elem->key->left->value) != 0)
list_add_tail(&newelem->list, &intervals);
else
expr_free(newelem);
}
newelem = NULL;
if (mpz_scan0(elem->key->right->value, 0) != set->key->len) {
mpz_add_ui(p, elem->key->right->value, 1);
expr = constant_expr_alloc(&elem->key->location, set->key->dtype,
set->key->byteorder, set->key->len,
NULL);
mpz_set(expr->value, p);
if (set->key->byteorder == BYTEORDER_HOST_ENDIAN)
mpz_switch_byteorder(expr->value, set->key->len / BITS_PER_BYTE);
newelem = set_elem_expr_alloc(&internal_location, expr);
if (i->etype == EXPR_MAPPING) {
newelem = mapping_expr_alloc(&internal_location,
newelem,
expr_get(i->right));
}
newelem->flags |= EXPR_F_INTERVAL_END;
} else {
flags = NFTNL_SET_ELEM_F_INTERVAL_OPEN;
}
expr = constant_expr_alloc(&elem->key->location, set->key->dtype,
set->key->byteorder, set->key->len, NULL);
mpz_set(expr->value, elem->key->left->value);
if (set->key->byteorder == BYTEORDER_HOST_ENDIAN)
mpz_switch_byteorder(expr->value, set->key->len / BITS_PER_BYTE);
expr_free(elem->key);
elem->key = expr;
i->elem_flags |= flags;
init->size++;
list_move_tail(&i->list, &intervals);
prev = i;
}
if (newelem)
list_add_tail(&newelem->list, &intervals);
list_splice_init(&intervals, &init->expressions);
mpz_clear(p);
mpz_clear(q);
return 0;
}
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