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|
// SPDX-License-Identifier: GPL-2.0+
/* Microchip VCAP API
*
* Copyright (c) 2022 Microchip Technology Inc. and its subsidiaries.
*/
#include <linux/types.h>
#include "vcap_api_private.h"
/* Moving a rule in the VCAP address space */
struct vcap_rule_move {
int addr; /* address to move */
int offset; /* change in address */
int count; /* blocksize of addresses to move */
};
/* Stores the filter cookie that enabled the port */
struct vcap_enabled_port {
struct list_head list; /* for insertion in enabled ports list */
struct net_device *ndev; /* the enabled port */
unsigned long cookie; /* filter that enabled the port */
};
void vcap_iter_set(struct vcap_stream_iter *itr, int sw_width,
const struct vcap_typegroup *tg, u32 offset)
{
memset(itr, 0, sizeof(*itr));
itr->offset = offset;
itr->sw_width = sw_width;
itr->regs_per_sw = DIV_ROUND_UP(sw_width, 32);
itr->tg = tg;
}
static void vcap_iter_skip_tg(struct vcap_stream_iter *itr)
{
/* Compensate the field offset for preceding typegroups.
* A typegroup table ends with an all-zero terminator.
*/
while (itr->tg->width && itr->offset >= itr->tg->offset) {
itr->offset += itr->tg->width;
itr->tg++; /* next typegroup */
}
}
void vcap_iter_update(struct vcap_stream_iter *itr)
{
int sw_idx, sw_bitpos;
/* Calculate the subword index and bitposition for current bit */
sw_idx = itr->offset / itr->sw_width;
sw_bitpos = itr->offset % itr->sw_width;
/* Calculate the register index and bitposition for current bit */
itr->reg_idx = (sw_idx * itr->regs_per_sw) + (sw_bitpos / 32);
itr->reg_bitpos = sw_bitpos % 32;
}
void vcap_iter_init(struct vcap_stream_iter *itr, int sw_width,
const struct vcap_typegroup *tg, u32 offset)
{
vcap_iter_set(itr, sw_width, tg, offset);
vcap_iter_skip_tg(itr);
vcap_iter_update(itr);
}
void vcap_iter_next(struct vcap_stream_iter *itr)
{
itr->offset++;
vcap_iter_skip_tg(itr);
vcap_iter_update(itr);
}
static void vcap_set_bit(u32 *stream, struct vcap_stream_iter *itr, bool value)
{
u32 mask = BIT(itr->reg_bitpos);
u32 *p = &stream[itr->reg_idx];
if (value)
*p |= mask;
else
*p &= ~mask;
}
static void vcap_encode_bit(u32 *stream, struct vcap_stream_iter *itr, bool val)
{
/* When intersected by a type group field, stream the type group bits
* before continuing with the value bit
*/
while (itr->tg->width &&
itr->offset >= itr->tg->offset &&
itr->offset < itr->tg->offset + itr->tg->width) {
int tg_bitpos = itr->tg->offset - itr->offset;
vcap_set_bit(stream, itr, (itr->tg->value >> tg_bitpos) & 0x1);
itr->offset++;
vcap_iter_update(itr);
}
vcap_set_bit(stream, itr, val);
}
static void vcap_encode_field(u32 *stream, struct vcap_stream_iter *itr,
int width, const u8 *value)
{
int idx;
/* Loop over the field value bits and add the value bits one by one to
* the output stream.
*/
for (idx = 0; idx < width; idx++) {
u8 bidx = idx & GENMASK(2, 0);
/* Encode one field value bit */
vcap_encode_bit(stream, itr, (value[idx / 8] >> bidx) & 0x1);
vcap_iter_next(itr);
}
}
static void vcap_encode_typegroups(u32 *stream, int sw_width,
const struct vcap_typegroup *tg,
bool mask)
{
struct vcap_stream_iter iter;
int idx;
/* Mask bits must be set to zeros (inverted later when writing to the
* mask cache register), so that the mask typegroup bits consist of
* match-1 or match-0, or both
*/
vcap_iter_set(&iter, sw_width, tg, 0);
while (iter.tg->width) {
/* Set position to current typegroup bit */
iter.offset = iter.tg->offset;
vcap_iter_update(&iter);
for (idx = 0; idx < iter.tg->width; idx++) {
/* Iterate over current typegroup bits. Mask typegroup
* bits are always set
*/
if (mask)
vcap_set_bit(stream, &iter, 0x1);
else
vcap_set_bit(stream, &iter,
(iter.tg->value >> idx) & 0x1);
iter.offset++;
vcap_iter_update(&iter);
}
iter.tg++; /* next typegroup */
}
}
/* Return the list of keyfields for the keyset */
const struct vcap_field *vcap_keyfields(struct vcap_control *vctrl,
enum vcap_type vt,
enum vcap_keyfield_set keyset)
{
/* Check that the keyset exists in the vcap keyset list */
if (keyset >= vctrl->vcaps[vt].keyfield_set_size)
return NULL;
return vctrl->vcaps[vt].keyfield_set_map[keyset];
}
/* Return the keyset information for the keyset */
const struct vcap_set *vcap_keyfieldset(struct vcap_control *vctrl,
enum vcap_type vt,
enum vcap_keyfield_set keyset)
{
const struct vcap_set *kset;
/* Check that the keyset exists in the vcap keyset list */
if (keyset >= vctrl->vcaps[vt].keyfield_set_size)
return NULL;
kset = &vctrl->vcaps[vt].keyfield_set[keyset];
if (kset->sw_per_item == 0 || kset->sw_per_item > vctrl->vcaps[vt].sw_count)
return NULL;
return kset;
}
/* Return the typegroup table for the matching keyset (using subword size) */
const struct vcap_typegroup *
vcap_keyfield_typegroup(struct vcap_control *vctrl,
enum vcap_type vt, enum vcap_keyfield_set keyset)
{
const struct vcap_set *kset = vcap_keyfieldset(vctrl, vt, keyset);
/* Check that the keyset is valid */
if (!kset)
return NULL;
return vctrl->vcaps[vt].keyfield_set_typegroups[kset->sw_per_item];
}
/* Return the number of keyfields in the keyset */
int vcap_keyfield_count(struct vcap_control *vctrl,
enum vcap_type vt, enum vcap_keyfield_set keyset)
{
/* Check that the keyset exists in the vcap keyset list */
if (keyset >= vctrl->vcaps[vt].keyfield_set_size)
return 0;
return vctrl->vcaps[vt].keyfield_set_map_size[keyset];
}
static void vcap_encode_keyfield(struct vcap_rule_internal *ri,
const struct vcap_client_keyfield *kf,
const struct vcap_field *rf,
const struct vcap_typegroup *tgt)
{
int sw_width = ri->vctrl->vcaps[ri->admin->vtype].sw_width;
struct vcap_cache_data *cache = &ri->admin->cache;
struct vcap_stream_iter iter;
const u8 *value, *mask;
/* Encode the fields for the key and the mask in their respective
* streams, respecting the subword width.
*/
switch (kf->ctrl.type) {
case VCAP_FIELD_BIT:
value = &kf->data.u1.value;
mask = &kf->data.u1.mask;
break;
case VCAP_FIELD_U32:
value = (const u8 *)&kf->data.u32.value;
mask = (const u8 *)&kf->data.u32.mask;
break;
case VCAP_FIELD_U48:
value = kf->data.u48.value;
mask = kf->data.u48.mask;
break;
case VCAP_FIELD_U56:
value = kf->data.u56.value;
mask = kf->data.u56.mask;
break;
case VCAP_FIELD_U64:
value = kf->data.u64.value;
mask = kf->data.u64.mask;
break;
case VCAP_FIELD_U72:
value = kf->data.u72.value;
mask = kf->data.u72.mask;
break;
case VCAP_FIELD_U112:
value = kf->data.u112.value;
mask = kf->data.u112.mask;
break;
case VCAP_FIELD_U128:
value = kf->data.u128.value;
mask = kf->data.u128.mask;
break;
}
vcap_iter_init(&iter, sw_width, tgt, rf->offset);
vcap_encode_field(cache->keystream, &iter, rf->width, value);
vcap_iter_init(&iter, sw_width, tgt, rf->offset);
vcap_encode_field(cache->maskstream, &iter, rf->width, mask);
}
static void vcap_encode_keyfield_typegroups(struct vcap_control *vctrl,
struct vcap_rule_internal *ri,
const struct vcap_typegroup *tgt)
{
int sw_width = vctrl->vcaps[ri->admin->vtype].sw_width;
struct vcap_cache_data *cache = &ri->admin->cache;
/* Encode the typegroup bits for the key and the mask in their streams,
* respecting the subword width.
*/
vcap_encode_typegroups(cache->keystream, sw_width, tgt, false);
vcap_encode_typegroups(cache->maskstream, sw_width, tgt, true);
}
static int vcap_encode_rule_keyset(struct vcap_rule_internal *ri)
{
const struct vcap_client_keyfield *ckf;
const struct vcap_typegroup *tg_table;
const struct vcap_field *kf_table;
int keyset_size;
/* Get a valid set of fields for the specific keyset */
kf_table = vcap_keyfields(ri->vctrl, ri->admin->vtype, ri->data.keyset);
if (!kf_table) {
pr_err("%s:%d: no fields available for this keyset: %d\n",
__func__, __LINE__, ri->data.keyset);
return -EINVAL;
}
/* Get a valid typegroup for the specific keyset */
tg_table = vcap_keyfield_typegroup(ri->vctrl, ri->admin->vtype,
ri->data.keyset);
if (!tg_table) {
pr_err("%s:%d: no typegroups available for this keyset: %d\n",
__func__, __LINE__, ri->data.keyset);
return -EINVAL;
}
/* Get a valid size for the specific keyset */
keyset_size = vcap_keyfield_count(ri->vctrl, ri->admin->vtype,
ri->data.keyset);
if (keyset_size == 0) {
pr_err("%s:%d: zero field count for this keyset: %d\n",
__func__, __LINE__, ri->data.keyset);
return -EINVAL;
}
/* Iterate over the keyfields (key, mask) in the rule
* and encode these bits
*/
if (list_empty(&ri->data.keyfields)) {
pr_err("%s:%d: no keyfields in the rule\n", __func__, __LINE__);
return -EINVAL;
}
list_for_each_entry(ckf, &ri->data.keyfields, ctrl.list) {
/* Check that the client entry exists in the keyset */
if (ckf->ctrl.key >= keyset_size) {
pr_err("%s:%d: key %d is not in vcap\n",
__func__, __LINE__, ckf->ctrl.key);
return -EINVAL;
}
vcap_encode_keyfield(ri, ckf, &kf_table[ckf->ctrl.key], tg_table);
}
/* Add typegroup bits to the key/mask bitstreams */
vcap_encode_keyfield_typegroups(ri->vctrl, ri, tg_table);
return 0;
}
/* Return the list of actionfields for the actionset */
const struct vcap_field *
vcap_actionfields(struct vcap_control *vctrl,
enum vcap_type vt, enum vcap_actionfield_set actionset)
{
/* Check that the actionset exists in the vcap actionset list */
if (actionset >= vctrl->vcaps[vt].actionfield_set_size)
return NULL;
return vctrl->vcaps[vt].actionfield_set_map[actionset];
}
const struct vcap_set *
vcap_actionfieldset(struct vcap_control *vctrl,
enum vcap_type vt, enum vcap_actionfield_set actionset)
{
const struct vcap_set *aset;
/* Check that the actionset exists in the vcap actionset list */
if (actionset >= vctrl->vcaps[vt].actionfield_set_size)
return NULL;
aset = &vctrl->vcaps[vt].actionfield_set[actionset];
if (aset->sw_per_item == 0 || aset->sw_per_item > vctrl->vcaps[vt].sw_count)
return NULL;
return aset;
}
/* Return the typegroup table for the matching actionset (using subword size) */
const struct vcap_typegroup *
vcap_actionfield_typegroup(struct vcap_control *vctrl,
enum vcap_type vt, enum vcap_actionfield_set actionset)
{
const struct vcap_set *aset = vcap_actionfieldset(vctrl, vt, actionset);
/* Check that the actionset is valid */
if (!aset)
return NULL;
return vctrl->vcaps[vt].actionfield_set_typegroups[aset->sw_per_item];
}
/* Return the number of actionfields in the actionset */
int vcap_actionfield_count(struct vcap_control *vctrl,
enum vcap_type vt,
enum vcap_actionfield_set actionset)
{
/* Check that the actionset exists in the vcap actionset list */
if (actionset >= vctrl->vcaps[vt].actionfield_set_size)
return 0;
return vctrl->vcaps[vt].actionfield_set_map_size[actionset];
}
static void vcap_encode_actionfield(struct vcap_rule_internal *ri,
const struct vcap_client_actionfield *af,
const struct vcap_field *rf,
const struct vcap_typegroup *tgt)
{
int act_width = ri->vctrl->vcaps[ri->admin->vtype].act_width;
struct vcap_cache_data *cache = &ri->admin->cache;
struct vcap_stream_iter iter;
const u8 *value;
/* Encode the action field in the stream, respecting the subword width */
switch (af->ctrl.type) {
case VCAP_FIELD_BIT:
value = &af->data.u1.value;
break;
case VCAP_FIELD_U32:
value = (const u8 *)&af->data.u32.value;
break;
case VCAP_FIELD_U48:
value = af->data.u48.value;
break;
case VCAP_FIELD_U56:
value = af->data.u56.value;
break;
case VCAP_FIELD_U64:
value = af->data.u64.value;
break;
case VCAP_FIELD_U72:
value = af->data.u72.value;
break;
case VCAP_FIELD_U112:
value = af->data.u112.value;
break;
case VCAP_FIELD_U128:
value = af->data.u128.value;
break;
}
vcap_iter_init(&iter, act_width, tgt, rf->offset);
vcap_encode_field(cache->actionstream, &iter, rf->width, value);
}
static void vcap_encode_actionfield_typegroups(struct vcap_rule_internal *ri,
const struct vcap_typegroup *tgt)
{
int sw_width = ri->vctrl->vcaps[ri->admin->vtype].act_width;
struct vcap_cache_data *cache = &ri->admin->cache;
/* Encode the typegroup bits for the actionstream respecting the subword
* width.
*/
vcap_encode_typegroups(cache->actionstream, sw_width, tgt, false);
}
static int vcap_encode_rule_actionset(struct vcap_rule_internal *ri)
{
const struct vcap_client_actionfield *caf;
const struct vcap_typegroup *tg_table;
const struct vcap_field *af_table;
int actionset_size;
/* Get a valid set of actionset fields for the specific actionset */
af_table = vcap_actionfields(ri->vctrl, ri->admin->vtype,
ri->data.actionset);
if (!af_table) {
pr_err("%s:%d: no fields available for this actionset: %d\n",
__func__, __LINE__, ri->data.actionset);
return -EINVAL;
}
/* Get a valid typegroup for the specific actionset */
tg_table = vcap_actionfield_typegroup(ri->vctrl, ri->admin->vtype,
ri->data.actionset);
if (!tg_table) {
pr_err("%s:%d: no typegroups available for this actionset: %d\n",
__func__, __LINE__, ri->data.actionset);
return -EINVAL;
}
/* Get a valid actionset size for the specific actionset */
actionset_size = vcap_actionfield_count(ri->vctrl, ri->admin->vtype,
ri->data.actionset);
if (actionset_size == 0) {
pr_err("%s:%d: zero field count for this actionset: %d\n",
__func__, __LINE__, ri->data.actionset);
return -EINVAL;
}
/* Iterate over the actionfields in the rule
* and encode these bits
*/
if (list_empty(&ri->data.actionfields))
pr_warn("%s:%d: no actionfields in the rule\n",
__func__, __LINE__);
list_for_each_entry(caf, &ri->data.actionfields, ctrl.list) {
/* Check that the client action exists in the actionset */
if (caf->ctrl.action >= actionset_size) {
pr_err("%s:%d: action %d is not in vcap\n",
__func__, __LINE__, caf->ctrl.action);
return -EINVAL;
}
vcap_encode_actionfield(ri, caf, &af_table[caf->ctrl.action],
tg_table);
}
/* Add typegroup bits to the entry bitstreams */
vcap_encode_actionfield_typegroups(ri, tg_table);
return 0;
}
static int vcap_encode_rule(struct vcap_rule_internal *ri)
{
int err;
err = vcap_encode_rule_keyset(ri);
if (err)
return err;
err = vcap_encode_rule_actionset(ri);
if (err)
return err;
return 0;
}
int vcap_api_check(struct vcap_control *ctrl)
{
if (!ctrl) {
pr_err("%s:%d: vcap control is missing\n", __func__, __LINE__);
return -EINVAL;
}
if (!ctrl->ops || !ctrl->ops->validate_keyset ||
!ctrl->ops->add_default_fields || !ctrl->ops->cache_erase ||
!ctrl->ops->cache_write || !ctrl->ops->cache_read ||
!ctrl->ops->init || !ctrl->ops->update || !ctrl->ops->move ||
!ctrl->ops->port_info || !ctrl->ops->enable) {
pr_err("%s:%d: client operations are missing\n",
__func__, __LINE__);
return -ENOENT;
}
return 0;
}
void vcap_erase_cache(struct vcap_rule_internal *ri)
{
ri->vctrl->ops->cache_erase(ri->admin);
}
/* Update the keyset for the rule */
int vcap_set_rule_set_keyset(struct vcap_rule *rule,
enum vcap_keyfield_set keyset)
{
struct vcap_rule_internal *ri = to_intrule(rule);
const struct vcap_set *kset;
int sw_width;
kset = vcap_keyfieldset(ri->vctrl, ri->admin->vtype, keyset);
/* Check that the keyset is valid */
if (!kset)
return -EINVAL;
ri->keyset_sw = kset->sw_per_item;
sw_width = ri->vctrl->vcaps[ri->admin->vtype].sw_width;
ri->keyset_sw_regs = DIV_ROUND_UP(sw_width, 32);
ri->data.keyset = keyset;
return 0;
}
EXPORT_SYMBOL_GPL(vcap_set_rule_set_keyset);
/* Update the actionset for the rule */
int vcap_set_rule_set_actionset(struct vcap_rule *rule,
enum vcap_actionfield_set actionset)
{
struct vcap_rule_internal *ri = to_intrule(rule);
const struct vcap_set *aset;
int act_width;
aset = vcap_actionfieldset(ri->vctrl, ri->admin->vtype, actionset);
/* Check that the actionset is valid */
if (!aset)
return -EINVAL;
ri->actionset_sw = aset->sw_per_item;
act_width = ri->vctrl->vcaps[ri->admin->vtype].act_width;
ri->actionset_sw_regs = DIV_ROUND_UP(act_width, 32);
ri->data.actionset = actionset;
return 0;
}
EXPORT_SYMBOL_GPL(vcap_set_rule_set_actionset);
/* Find a rule with a provided rule id */
static struct vcap_rule_internal *vcap_lookup_rule(struct vcap_control *vctrl,
u32 id)
{
struct vcap_rule_internal *ri;
struct vcap_admin *admin;
/* Look for the rule id in all vcaps */
list_for_each_entry(admin, &vctrl->list, list)
list_for_each_entry(ri, &admin->rules, list)
if (ri->data.id == id)
return ri;
return NULL;
}
/* Find a rule id with a provided cookie */
int vcap_lookup_rule_by_cookie(struct vcap_control *vctrl, u64 cookie)
{
struct vcap_rule_internal *ri;
struct vcap_admin *admin;
/* Look for the rule id in all vcaps */
list_for_each_entry(admin, &vctrl->list, list)
list_for_each_entry(ri, &admin->rules, list)
if (ri->data.cookie == cookie)
return ri->data.id;
return -ENOENT;
}
EXPORT_SYMBOL_GPL(vcap_lookup_rule_by_cookie);
/* Make a shallow copy of the rule without the fields */
struct vcap_rule_internal *vcap_dup_rule(struct vcap_rule_internal *ri)
{
struct vcap_rule_internal *duprule;
/* Allocate the client part */
duprule = kzalloc(sizeof(*duprule), GFP_KERNEL);
if (!duprule)
return ERR_PTR(-ENOMEM);
*duprule = *ri;
/* Not inserted in the VCAP */
INIT_LIST_HEAD(&duprule->list);
/* No elements in these lists */
INIT_LIST_HEAD(&duprule->data.keyfields);
INIT_LIST_HEAD(&duprule->data.actionfields);
return duprule;
}
/* Write VCAP cache content to the VCAP HW instance */
static int vcap_write_rule(struct vcap_rule_internal *ri)
{
struct vcap_admin *admin = ri->admin;
int sw_idx, ent_idx = 0, act_idx = 0;
u32 addr = ri->addr;
if (!ri->size || !ri->keyset_sw_regs || !ri->actionset_sw_regs) {
pr_err("%s:%d: rule is empty\n", __func__, __LINE__);
return -EINVAL;
}
/* Use the values in the streams to write the VCAP cache */
for (sw_idx = 0; sw_idx < ri->size; sw_idx++, addr++) {
ri->vctrl->ops->cache_write(ri->ndev, admin,
VCAP_SEL_ENTRY, ent_idx,
ri->keyset_sw_regs);
ri->vctrl->ops->cache_write(ri->ndev, admin,
VCAP_SEL_ACTION, act_idx,
ri->actionset_sw_regs);
ri->vctrl->ops->update(ri->ndev, admin, VCAP_CMD_WRITE,
VCAP_SEL_ALL, addr);
ent_idx += ri->keyset_sw_regs;
act_idx += ri->actionset_sw_regs;
}
return 0;
}
static int vcap_write_counter(struct vcap_rule_internal *ri,
struct vcap_counter *ctr)
{
struct vcap_admin *admin = ri->admin;
admin->cache.counter = ctr->value;
admin->cache.sticky = ctr->sticky;
ri->vctrl->ops->cache_write(ri->ndev, admin, VCAP_SEL_COUNTER,
ri->counter_id, 0);
ri->vctrl->ops->update(ri->ndev, admin, VCAP_CMD_WRITE,
VCAP_SEL_COUNTER, ri->addr);
return 0;
}
/* Convert a chain id to a VCAP lookup index */
int vcap_chain_id_to_lookup(struct vcap_admin *admin, int cur_cid)
{
int lookup_first = admin->vinst * admin->lookups_per_instance;
int lookup_last = lookup_first + admin->lookups_per_instance;
int cid_next = admin->first_cid + VCAP_CID_LOOKUP_SIZE;
int cid = admin->first_cid;
int lookup;
for (lookup = lookup_first; lookup < lookup_last; ++lookup,
cid += VCAP_CID_LOOKUP_SIZE, cid_next += VCAP_CID_LOOKUP_SIZE)
if (cur_cid >= cid && cur_cid < cid_next)
return lookup;
return 0;
}
EXPORT_SYMBOL_GPL(vcap_chain_id_to_lookup);
/* Lookup a vcap instance using chain id */
struct vcap_admin *vcap_find_admin(struct vcap_control *vctrl, int cid)
{
struct vcap_admin *admin;
if (vcap_api_check(vctrl))
return NULL;
list_for_each_entry(admin, &vctrl->list, list) {
if (cid >= admin->first_cid && cid <= admin->last_cid)
return admin;
}
return NULL;
}
EXPORT_SYMBOL_GPL(vcap_find_admin);
/* Is the next chain id in the following lookup, possible in another VCAP */
bool vcap_is_next_lookup(struct vcap_control *vctrl, int cur_cid, int next_cid)
{
struct vcap_admin *admin, *next_admin;
int lookup, next_lookup;
/* The offset must be at least one lookup */
if (next_cid < cur_cid + VCAP_CID_LOOKUP_SIZE)
return false;
if (vcap_api_check(vctrl))
return false;
admin = vcap_find_admin(vctrl, cur_cid);
if (!admin)
return false;
/* If no VCAP contains the next chain, the next chain must be beyond
* the last chain in the current VCAP
*/
next_admin = vcap_find_admin(vctrl, next_cid);
if (!next_admin)
return next_cid > admin->last_cid;
lookup = vcap_chain_id_to_lookup(admin, cur_cid);
next_lookup = vcap_chain_id_to_lookup(next_admin, next_cid);
/* Next lookup must be the following lookup */
if (admin == next_admin || admin->vtype == next_admin->vtype)
return next_lookup == lookup + 1;
/* Must be the first lookup in the next VCAP instance */
return next_lookup == 0;
}
EXPORT_SYMBOL_GPL(vcap_is_next_lookup);
/* Check if there is room for a new rule */
static int vcap_rule_space(struct vcap_admin *admin, int size)
{
if (admin->last_used_addr - size < admin->first_valid_addr) {
pr_err("%s:%d: No room for rule size: %u, %u\n",
__func__, __LINE__, size, admin->first_valid_addr);
return -ENOSPC;
}
return 0;
}
/* Add the keyset typefield to the list of rule keyfields */
static int vcap_add_type_keyfield(struct vcap_rule *rule)
{
struct vcap_rule_internal *ri = to_intrule(rule);
enum vcap_keyfield_set keyset = rule->keyset;
enum vcap_type vt = ri->admin->vtype;
const struct vcap_field *fields;
const struct vcap_set *kset;
int ret = -EINVAL;
kset = vcap_keyfieldset(ri->vctrl, vt, keyset);
if (!kset)
return ret;
if (kset->type_id == (u8)-1) /* No type field is needed */
return 0;
fields = vcap_keyfields(ri->vctrl, vt, keyset);
if (!fields)
return -EINVAL;
if (fields[VCAP_KF_TYPE].width > 1) {
ret = vcap_rule_add_key_u32(rule, VCAP_KF_TYPE,
kset->type_id, 0xff);
} else {
if (kset->type_id)
ret = vcap_rule_add_key_bit(rule, VCAP_KF_TYPE,
VCAP_BIT_1);
else
ret = vcap_rule_add_key_bit(rule, VCAP_KF_TYPE,
VCAP_BIT_0);
}
return 0;
}
/* Add a keyset to a keyset list */
bool vcap_keyset_list_add(struct vcap_keyset_list *keysetlist,
enum vcap_keyfield_set keyset)
{
int idx;
if (keysetlist->cnt < keysetlist->max) {
/* Avoid duplicates */
for (idx = 0; idx < keysetlist->cnt; ++idx)
if (keysetlist->keysets[idx] == keyset)
return keysetlist->cnt < keysetlist->max;
keysetlist->keysets[keysetlist->cnt++] = keyset;
}
return keysetlist->cnt < keysetlist->max;
}
EXPORT_SYMBOL_GPL(vcap_keyset_list_add);
/* map keyset id to a string with the keyset name */
const char *vcap_keyset_name(struct vcap_control *vctrl,
enum vcap_keyfield_set keyset)
{
return vctrl->stats->keyfield_set_names[keyset];
}
EXPORT_SYMBOL_GPL(vcap_keyset_name);
/* map key field id to a string with the key name */
const char *vcap_keyfield_name(struct vcap_control *vctrl,
enum vcap_key_field key)
{
return vctrl->stats->keyfield_names[key];
}
EXPORT_SYMBOL_GPL(vcap_keyfield_name);
/* map actionset id to a string with the actionset name */
const char *vcap_actionset_name(struct vcap_control *vctrl,
enum vcap_actionfield_set actionset)
{
return vctrl->stats->actionfield_set_names[actionset];
}
/* map action field id to a string with the action name */
const char *vcap_actionfield_name(struct vcap_control *vctrl,
enum vcap_action_field action)
{
return vctrl->stats->actionfield_names[action];
}
/* Return the keyfield that matches a key in a keyset */
static const struct vcap_field *
vcap_find_keyset_keyfield(struct vcap_control *vctrl,
enum vcap_type vtype,
enum vcap_keyfield_set keyset,
enum vcap_key_field key)
{
const struct vcap_field *fields;
int idx, count;
fields = vcap_keyfields(vctrl, vtype, keyset);
if (!fields)
return NULL;
/* Iterate the keyfields of the keyset */
count = vcap_keyfield_count(vctrl, vtype, keyset);
for (idx = 0; idx < count; ++idx) {
if (fields[idx].width == 0)
continue;
if (key == idx)
return &fields[idx];
}
return NULL;
}
/* Match a list of keys against the keysets available in a vcap type */
static bool vcap_rule_find_keysets(struct vcap_rule_internal *ri,
struct vcap_keyset_list *matches)
{
const struct vcap_client_keyfield *ckf;
int keyset, found, keycount, map_size;
const struct vcap_field **map;
enum vcap_type vtype;
vtype = ri->admin->vtype;
map = ri->vctrl->vcaps[vtype].keyfield_set_map;
map_size = ri->vctrl->vcaps[vtype].keyfield_set_size;
/* Get a count of the keyfields we want to match */
keycount = 0;
list_for_each_entry(ckf, &ri->data.keyfields, ctrl.list)
++keycount;
matches->cnt = 0;
/* Iterate the keysets of the VCAP */
for (keyset = 0; keyset < map_size; ++keyset) {
if (!map[keyset])
continue;
/* Iterate the keys in the rule */
found = 0;
list_for_each_entry(ckf, &ri->data.keyfields, ctrl.list)
if (vcap_find_keyset_keyfield(ri->vctrl, vtype,
keyset, ckf->ctrl.key))
++found;
/* Save the keyset if all keyfields were found */
if (found == keycount)
if (!vcap_keyset_list_add(matches, keyset))
/* bail out when the quota is filled */
break;
}
return matches->cnt > 0;
}
/* Validate a rule with respect to available port keys */
int vcap_val_rule(struct vcap_rule *rule, u16 l3_proto)
{
struct vcap_rule_internal *ri = to_intrule(rule);
struct vcap_keyset_list matches = {};
enum vcap_keyfield_set keysets[10];
int ret;
ret = vcap_api_check(ri->vctrl);
if (ret)
return ret;
if (!ri->admin) {
ri->data.exterr = VCAP_ERR_NO_ADMIN;
return -EINVAL;
}
if (!ri->ndev) {
ri->data.exterr = VCAP_ERR_NO_NETDEV;
return -EINVAL;
}
matches.keysets = keysets;
matches.max = ARRAY_SIZE(keysets);
if (ri->data.keyset == VCAP_KFS_NO_VALUE) {
/* Iterate over rule keyfields and select keysets that fits */
if (!vcap_rule_find_keysets(ri, &matches)) {
ri->data.exterr = VCAP_ERR_NO_KEYSET_MATCH;
return -EINVAL;
}
} else {
/* prepare for keyset validation */
keysets[0] = ri->data.keyset;
matches.cnt = 1;
}
/* Pick a keyset that is supported in the port lookups */
ret = ri->vctrl->ops->validate_keyset(ri->ndev, ri->admin, rule,
&matches, l3_proto);
if (ret < 0) {
pr_err("%s:%d: keyset validation failed: %d\n",
__func__, __LINE__, ret);
ri->data.exterr = VCAP_ERR_NO_PORT_KEYSET_MATCH;
return ret;
}
/* use the keyset that is supported in the port lookups */
ret = vcap_set_rule_set_keyset(rule, ret);
if (ret < 0) {
pr_err("%s:%d: keyset was not updated: %d\n",
__func__, __LINE__, ret);
return ret;
}
if (ri->data.actionset == VCAP_AFS_NO_VALUE) {
/* Later also actionsets will be matched against actions in
* the rule, and the type will be set accordingly
*/
ri->data.exterr = VCAP_ERR_NO_ACTIONSET_MATCH;
return -EINVAL;
}
vcap_add_type_keyfield(rule);
/* Add default fields to this rule */
ri->vctrl->ops->add_default_fields(ri->ndev, ri->admin, rule);
/* Rule size is the maximum of the entry and action subword count */
ri->size = max(ri->keyset_sw, ri->actionset_sw);
/* Finally check if there is room for the rule in the VCAP */
return vcap_rule_space(ri->admin, ri->size);
}
EXPORT_SYMBOL_GPL(vcap_val_rule);
/* Entries are sorted with increasing values of sort_key.
* I.e. Lowest numerical sort_key is first in list.
* In order to locate largest keys first in list we negate the key size with
* (max_size - size).
*/
static u32 vcap_sort_key(u32 max_size, u32 size, u8 user, u16 prio)
{
return ((max_size - size) << 24) | (user << 16) | prio;
}
/* calculate the address of the next rule after this (lower address and prio) */
static u32 vcap_next_rule_addr(u32 addr, struct vcap_rule_internal *ri)
{
return ((addr - ri->size) / ri->size) * ri->size;
}
/* Assign a unique rule id and autogenerate one if id == 0 */
static u32 vcap_set_rule_id(struct vcap_rule_internal *ri)
{
u32 next_id;
if (ri->data.id != 0)
return ri->data.id;
next_id = ri->vctrl->rule_id + 1;
for (next_id = ri->vctrl->rule_id + 1; next_id < ~0; ++next_id) {
if (!vcap_lookup_rule(ri->vctrl, next_id)) {
ri->data.id = next_id;
ri->vctrl->rule_id = next_id;
break;
}
}
return ri->data.id;
}
static int vcap_insert_rule(struct vcap_rule_internal *ri,
struct vcap_rule_move *move)
{
int sw_count = ri->vctrl->vcaps[ri->admin->vtype].sw_count;
struct vcap_rule_internal *duprule, *iter, *elem = NULL;
struct vcap_admin *admin = ri->admin;
u32 addr;
ri->sort_key = vcap_sort_key(sw_count, ri->size, ri->data.user,
ri->data.priority);
/* Insert the new rule in the list of rule based on the sort key
* If the rule needs to be inserted between existing rules then move
* these rules to make room for the new rule and update their start
* address.
*/
list_for_each_entry(iter, &admin->rules, list) {
if (ri->sort_key < iter->sort_key) {
elem = iter;
break;
}
}
if (!elem) {
ri->addr = vcap_next_rule_addr(admin->last_used_addr, ri);
admin->last_used_addr = ri->addr;
/* Add a shallow copy of the rule to the VCAP list */
duprule = vcap_dup_rule(ri);
if (IS_ERR(duprule))
return PTR_ERR(duprule);
list_add_tail(&duprule->list, &admin->rules);
return 0;
}
/* Reuse the space of the current rule */
addr = elem->addr + elem->size;
ri->addr = vcap_next_rule_addr(addr, ri);
addr = ri->addr;
/* Add a shallow copy of the rule to the VCAP list */
duprule = vcap_dup_rule(ri);
if (IS_ERR(duprule))
return PTR_ERR(duprule);
/* Add before the current entry */
list_add_tail(&duprule->list, &elem->list);
/* Update the current rule */
elem->addr = vcap_next_rule_addr(addr, elem);
addr = elem->addr;
/* Update the address in the remaining rules in the list */
list_for_each_entry_continue(elem, &admin->rules, list) {
elem->addr = vcap_next_rule_addr(addr, elem);
addr = elem->addr;
}
/* Update the move info */
move->addr = admin->last_used_addr;
move->count = ri->addr - addr;
move->offset = admin->last_used_addr - addr;
admin->last_used_addr = addr;
return 0;
}
static void vcap_move_rules(struct vcap_rule_internal *ri,
struct vcap_rule_move *move)
{
ri->vctrl->ops->move(ri->ndev, ri->admin, move->addr,
move->offset, move->count);
}
/* Encode and write a validated rule to the VCAP */
int vcap_add_rule(struct vcap_rule *rule)
{
struct vcap_rule_internal *ri = to_intrule(rule);
struct vcap_rule_move move = {0};
int ret;
ret = vcap_api_check(ri->vctrl);
if (ret)
return ret;
/* Insert the new rule in the list of vcap rules */
mutex_lock(&ri->admin->lock);
ret = vcap_insert_rule(ri, &move);
if (ret < 0) {
pr_err("%s:%d: could not insert rule in vcap list: %d\n",
__func__, __LINE__, ret);
goto out;
}
if (move.count > 0)
vcap_move_rules(ri, &move);
ret = vcap_encode_rule(ri);
if (ret) {
pr_err("%s:%d: rule encoding error: %d\n", __func__, __LINE__, ret);
goto out;
}
ret = vcap_write_rule(ri);
if (ret)
pr_err("%s:%d: rule write error: %d\n", __func__, __LINE__, ret);
out:
mutex_unlock(&ri->admin->lock);
return ret;
}
EXPORT_SYMBOL_GPL(vcap_add_rule);
/* Allocate a new rule with the provided arguments */
struct vcap_rule *vcap_alloc_rule(struct vcap_control *vctrl,
struct net_device *ndev, int vcap_chain_id,
enum vcap_user user, u16 priority,
u32 id)
{
struct vcap_rule_internal *ri;
struct vcap_admin *admin;
int err, maxsize;
err = vcap_api_check(vctrl);
if (err)
return ERR_PTR(err);
if (!ndev)
return ERR_PTR(-ENODEV);
/* Get the VCAP instance */
admin = vcap_find_admin(vctrl, vcap_chain_id);
if (!admin)
return ERR_PTR(-ENOENT);
/* Sanity check that this VCAP is supported on this platform */
if (vctrl->vcaps[admin->vtype].rows == 0)
return ERR_PTR(-EINVAL);
/* Check if a rule with this id already exists */
if (vcap_lookup_rule(vctrl, id))
return ERR_PTR(-EEXIST);
/* Check if there is room for the rule in the block(s) of the VCAP */
maxsize = vctrl->vcaps[admin->vtype].sw_count; /* worst case rule size */
if (vcap_rule_space(admin, maxsize))
return ERR_PTR(-ENOSPC);
/* Create a container for the rule and return it */
ri = kzalloc(sizeof(*ri), GFP_KERNEL);
if (!ri)
return ERR_PTR(-ENOMEM);
ri->data.vcap_chain_id = vcap_chain_id;
ri->data.user = user;
ri->data.priority = priority;
ri->data.id = id;
ri->data.keyset = VCAP_KFS_NO_VALUE;
ri->data.actionset = VCAP_AFS_NO_VALUE;
INIT_LIST_HEAD(&ri->list);
INIT_LIST_HEAD(&ri->data.keyfields);
INIT_LIST_HEAD(&ri->data.actionfields);
ri->ndev = ndev;
ri->admin = admin; /* refer to the vcap instance */
ri->vctrl = vctrl; /* refer to the client */
if (vcap_set_rule_id(ri) == 0)
goto out_free;
vcap_erase_cache(ri);
return (struct vcap_rule *)ri;
out_free:
kfree(ri);
return ERR_PTR(-EINVAL);
}
EXPORT_SYMBOL_GPL(vcap_alloc_rule);
/* Free mem of a rule owned by client after the rule as been added to the VCAP */
void vcap_free_rule(struct vcap_rule *rule)
{
struct vcap_rule_internal *ri = to_intrule(rule);
struct vcap_client_actionfield *caf, *next_caf;
struct vcap_client_keyfield *ckf, *next_ckf;
/* Deallocate the list of keys and actions */
list_for_each_entry_safe(ckf, next_ckf, &ri->data.keyfields, ctrl.list) {
list_del(&ckf->ctrl.list);
kfree(ckf);
}
list_for_each_entry_safe(caf, next_caf, &ri->data.actionfields, ctrl.list) {
list_del(&caf->ctrl.list);
kfree(caf);
}
/* Deallocate the rule */
kfree(rule);
}
EXPORT_SYMBOL_GPL(vcap_free_rule);
/* Return the alignment offset for a new rule address */
static int vcap_valid_rule_move(struct vcap_rule_internal *el, int offset)
{
return (el->addr + offset) % el->size;
}
/* Update the rule address with an offset */
static void vcap_adjust_rule_addr(struct vcap_rule_internal *el, int offset)
{
el->addr += offset;
}
/* Rules needs to be moved to fill the gap of the deleted rule */
static int vcap_fill_rule_gap(struct vcap_rule_internal *ri)
{
struct vcap_admin *admin = ri->admin;
struct vcap_rule_internal *elem;
struct vcap_rule_move move;
int gap = 0, offset = 0;
/* If the first rule is deleted: Move other rules to the top */
if (list_is_first(&ri->list, &admin->rules))
offset = admin->last_valid_addr + 1 - ri->addr - ri->size;
/* Locate gaps between odd size rules and adjust the move */
elem = ri;
list_for_each_entry_continue(elem, &admin->rules, list)
gap += vcap_valid_rule_move(elem, ri->size);
/* Update the address in the remaining rules in the list */
elem = ri;
list_for_each_entry_continue(elem, &admin->rules, list)
vcap_adjust_rule_addr(elem, ri->size + gap + offset);
/* Update the move info */
move.addr = admin->last_used_addr;
move.count = ri->addr - admin->last_used_addr - gap;
move.offset = -(ri->size + gap + offset);
/* Do the actual move operation */
vcap_move_rules(ri, &move);
return gap + offset;
}
/* Delete rule in a VCAP instance */
int vcap_del_rule(struct vcap_control *vctrl, struct net_device *ndev, u32 id)
{
struct vcap_rule_internal *ri, *elem;
struct vcap_admin *admin;
int gap = 0, err;
/* This will later also handle rule moving */
if (!ndev)
return -ENODEV;
err = vcap_api_check(vctrl);
if (err)
return err;
/* Look for the rule id in all vcaps */
ri = vcap_lookup_rule(vctrl, id);
if (!ri)
return -EINVAL;
admin = ri->admin;
if (ri->addr > admin->last_used_addr)
gap = vcap_fill_rule_gap(ri);
/* Delete the rule from the list of rules and the cache */
mutex_lock(&admin->lock);
list_del(&ri->list);
vctrl->ops->init(ndev, admin, admin->last_used_addr, ri->size + gap);
kfree(ri);
mutex_unlock(&admin->lock);
/* Update the last used address, set to default when no rules */
if (list_empty(&admin->rules)) {
admin->last_used_addr = admin->last_valid_addr + 1;
} else {
elem = list_last_entry(&admin->rules, struct vcap_rule_internal,
list);
admin->last_used_addr = elem->addr;
}
return 0;
}
EXPORT_SYMBOL_GPL(vcap_del_rule);
/* Delete all rules in the VCAP instance */
int vcap_del_rules(struct vcap_control *vctrl, struct vcap_admin *admin)
{
struct vcap_enabled_port *eport, *next_eport;
struct vcap_rule_internal *ri, *next_ri;
int ret = vcap_api_check(vctrl);
if (ret)
return ret;
mutex_lock(&admin->lock);
list_for_each_entry_safe(ri, next_ri, &admin->rules, list) {
vctrl->ops->init(ri->ndev, admin, ri->addr, ri->size);
list_del(&ri->list);
kfree(ri);
}
admin->last_used_addr = admin->last_valid_addr;
/* Remove list of enabled ports */
list_for_each_entry_safe(eport, next_eport, &admin->enabled, list) {
list_del(&eport->list);
kfree(eport);
}
mutex_unlock(&admin->lock);
return 0;
}
EXPORT_SYMBOL_GPL(vcap_del_rules);
/* Find information on a key field in a rule */
const struct vcap_field *vcap_lookup_keyfield(struct vcap_rule *rule,
enum vcap_key_field key)
{
struct vcap_rule_internal *ri = to_intrule(rule);
enum vcap_keyfield_set keyset = rule->keyset;
enum vcap_type vt = ri->admin->vtype;
const struct vcap_field *fields;
if (keyset == VCAP_KFS_NO_VALUE)
return NULL;
fields = vcap_keyfields(ri->vctrl, vt, keyset);
if (!fields)
return NULL;
return &fields[key];
}
EXPORT_SYMBOL_GPL(vcap_lookup_keyfield);
static void vcap_copy_from_client_keyfield(struct vcap_rule *rule,
struct vcap_client_keyfield *field,
struct vcap_client_keyfield_data *data)
{
/* This will be expanded later to handle different vcap memory layouts */
memcpy(&field->data, data, sizeof(field->data));
}
/* Check if the keyfield is already in the rule */
static bool vcap_keyfield_unique(struct vcap_rule *rule,
enum vcap_key_field key)
{
struct vcap_rule_internal *ri = to_intrule(rule);
const struct vcap_client_keyfield *ckf;
list_for_each_entry(ckf, &ri->data.keyfields, ctrl.list)
if (ckf->ctrl.key == key)
return false;
return true;
}
/* Check if the keyfield is in the keyset */
static bool vcap_keyfield_match_keyset(struct vcap_rule *rule,
enum vcap_key_field key)
{
struct vcap_rule_internal *ri = to_intrule(rule);
enum vcap_keyfield_set keyset = rule->keyset;
enum vcap_type vt = ri->admin->vtype;
const struct vcap_field *fields;
/* the field is accepted if the rule has no keyset yet */
if (keyset == VCAP_KFS_NO_VALUE)
return true;
fields = vcap_keyfields(ri->vctrl, vt, keyset);
if (!fields)
return false;
/* if there is a width there is a way */
return fields[key].width > 0;
}
static int vcap_rule_add_key(struct vcap_rule *rule,
enum vcap_key_field key,
enum vcap_field_type ftype,
struct vcap_client_keyfield_data *data)
{
struct vcap_rule_internal *ri = to_intrule(rule);
struct vcap_client_keyfield *field;
if (!vcap_keyfield_unique(rule, key)) {
pr_warn("%s:%d: keyfield %s is already in the rule\n",
__func__, __LINE__,
vcap_keyfield_name(ri->vctrl, key));
return -EINVAL;
}
if (!vcap_keyfield_match_keyset(rule, key)) {
pr_err("%s:%d: keyfield %s does not belong in the rule keyset\n",
__func__, __LINE__,
vcap_keyfield_name(ri->vctrl, key));
return -EINVAL;
}
field = kzalloc(sizeof(*field), GFP_KERNEL);
if (!field)
return -ENOMEM;
field->ctrl.key = key;
field->ctrl.type = ftype;
vcap_copy_from_client_keyfield(rule, field, data);
list_add_tail(&field->ctrl.list, &rule->keyfields);
return 0;
}
static void vcap_rule_set_key_bitsize(struct vcap_u1_key *u1, enum vcap_bit val)
{
switch (val) {
case VCAP_BIT_0:
u1->value = 0;
u1->mask = 1;
break;
case VCAP_BIT_1:
u1->value = 1;
u1->mask = 1;
break;
case VCAP_BIT_ANY:
u1->value = 0;
u1->mask = 0;
break;
}
}
/* Add a bit key with value and mask to the rule */
int vcap_rule_add_key_bit(struct vcap_rule *rule, enum vcap_key_field key,
enum vcap_bit val)
{
struct vcap_client_keyfield_data data;
vcap_rule_set_key_bitsize(&data.u1, val);
return vcap_rule_add_key(rule, key, VCAP_FIELD_BIT, &data);
}
EXPORT_SYMBOL_GPL(vcap_rule_add_key_bit);
/* Add a 32 bit key field with value and mask to the rule */
int vcap_rule_add_key_u32(struct vcap_rule *rule, enum vcap_key_field key,
u32 value, u32 mask)
{
struct vcap_client_keyfield_data data;
data.u32.value = value;
data.u32.mask = mask;
return vcap_rule_add_key(rule, key, VCAP_FIELD_U32, &data);
}
EXPORT_SYMBOL_GPL(vcap_rule_add_key_u32);
/* Add a 48 bit key with value and mask to the rule */
int vcap_rule_add_key_u48(struct vcap_rule *rule, enum vcap_key_field key,
struct vcap_u48_key *fieldval)
{
struct vcap_client_keyfield_data data;
memcpy(&data.u48, fieldval, sizeof(data.u48));
return vcap_rule_add_key(rule, key, VCAP_FIELD_U48, &data);
}
EXPORT_SYMBOL_GPL(vcap_rule_add_key_u48);
/* Add a 72 bit key with value and mask to the rule */
int vcap_rule_add_key_u72(struct vcap_rule *rule, enum vcap_key_field key,
struct vcap_u72_key *fieldval)
{
struct vcap_client_keyfield_data data;
memcpy(&data.u72, fieldval, sizeof(data.u72));
return vcap_rule_add_key(rule, key, VCAP_FIELD_U72, &data);
}
EXPORT_SYMBOL_GPL(vcap_rule_add_key_u72);
/* Add a 128 bit key with value and mask to the rule */
int vcap_rule_add_key_u128(struct vcap_rule *rule, enum vcap_key_field key,
struct vcap_u128_key *fieldval)
{
struct vcap_client_keyfield_data data;
memcpy(&data.u128, fieldval, sizeof(data.u128));
return vcap_rule_add_key(rule, key, VCAP_FIELD_U128, &data);
}
EXPORT_SYMBOL_GPL(vcap_rule_add_key_u128);
static void vcap_copy_from_client_actionfield(struct vcap_rule *rule,
struct vcap_client_actionfield *field,
struct vcap_client_actionfield_data *data)
{
/* This will be expanded later to handle different vcap memory layouts */
memcpy(&field->data, data, sizeof(field->data));
}
/* Check if the actionfield is already in the rule */
static bool vcap_actionfield_unique(struct vcap_rule *rule,
enum vcap_action_field act)
{
struct vcap_rule_internal *ri = to_intrule(rule);
const struct vcap_client_actionfield *caf;
list_for_each_entry(caf, &ri->data.actionfields, ctrl.list)
if (caf->ctrl.action == act)
return false;
return true;
}
/* Check if the actionfield is in the actionset */
static bool vcap_actionfield_match_actionset(struct vcap_rule *rule,
enum vcap_action_field action)
{
enum vcap_actionfield_set actionset = rule->actionset;
struct vcap_rule_internal *ri = to_intrule(rule);
enum vcap_type vt = ri->admin->vtype;
const struct vcap_field *fields;
/* the field is accepted if the rule has no actionset yet */
if (actionset == VCAP_AFS_NO_VALUE)
return true;
fields = vcap_actionfields(ri->vctrl, vt, actionset);
if (!fields)
return false;
/* if there is a width there is a way */
return fields[action].width > 0;
}
static int vcap_rule_add_action(struct vcap_rule *rule,
enum vcap_action_field action,
enum vcap_field_type ftype,
struct vcap_client_actionfield_data *data)
{
struct vcap_rule_internal *ri = to_intrule(rule);
struct vcap_client_actionfield *field;
if (!vcap_actionfield_unique(rule, action)) {
pr_warn("%s:%d: actionfield %s is already in the rule\n",
__func__, __LINE__,
vcap_actionfield_name(ri->vctrl, action));
return -EINVAL;
}
if (!vcap_actionfield_match_actionset(rule, action)) {
pr_err("%s:%d: actionfield %s does not belong in the rule actionset\n",
__func__, __LINE__,
vcap_actionfield_name(ri->vctrl, action));
return -EINVAL;
}
field = kzalloc(sizeof(*field), GFP_KERNEL);
if (!field)
return -ENOMEM;
field->ctrl.action = action;
field->ctrl.type = ftype;
vcap_copy_from_client_actionfield(rule, field, data);
list_add_tail(&field->ctrl.list, &rule->actionfields);
return 0;
}
static void vcap_rule_set_action_bitsize(struct vcap_u1_action *u1,
enum vcap_bit val)
{
switch (val) {
case VCAP_BIT_0:
u1->value = 0;
break;
case VCAP_BIT_1:
u1->value = 1;
break;
case VCAP_BIT_ANY:
u1->value = 0;
break;
}
}
/* Add a bit action with value to the rule */
int vcap_rule_add_action_bit(struct vcap_rule *rule,
enum vcap_action_field action,
enum vcap_bit val)
{
struct vcap_client_actionfield_data data;
vcap_rule_set_action_bitsize(&data.u1, val);
return vcap_rule_add_action(rule, action, VCAP_FIELD_BIT, &data);
}
EXPORT_SYMBOL_GPL(vcap_rule_add_action_bit);
/* Add a 32 bit action field with value to the rule */
int vcap_rule_add_action_u32(struct vcap_rule *rule,
enum vcap_action_field action,
u32 value)
{
struct vcap_client_actionfield_data data;
data.u32.value = value;
return vcap_rule_add_action(rule, action, VCAP_FIELD_U32, &data);
}
EXPORT_SYMBOL_GPL(vcap_rule_add_action_u32);
static int vcap_read_counter(struct vcap_rule_internal *ri,
struct vcap_counter *ctr)
{
struct vcap_admin *admin = ri->admin;
ri->vctrl->ops->update(ri->ndev, admin, VCAP_CMD_READ, VCAP_SEL_COUNTER,
ri->addr);
ri->vctrl->ops->cache_read(ri->ndev, admin, VCAP_SEL_COUNTER,
ri->counter_id, 0);
ctr->value = admin->cache.counter;
ctr->sticky = admin->cache.sticky;
return 0;
}
/* Copy to host byte order */
void vcap_netbytes_copy(u8 *dst, u8 *src, int count)
{
int idx;
for (idx = 0; idx < count; ++idx, ++dst)
*dst = src[count - idx - 1];
}
EXPORT_SYMBOL_GPL(vcap_netbytes_copy);
/* Convert validation error code into tc extact error message */
void vcap_set_tc_exterr(struct flow_cls_offload *fco, struct vcap_rule *vrule)
{
switch (vrule->exterr) {
case VCAP_ERR_NONE:
break;
case VCAP_ERR_NO_ADMIN:
NL_SET_ERR_MSG_MOD(fco->common.extack,
"Missing VCAP instance");
break;
case VCAP_ERR_NO_NETDEV:
NL_SET_ERR_MSG_MOD(fco->common.extack,
"Missing network interface");
break;
case VCAP_ERR_NO_KEYSET_MATCH:
NL_SET_ERR_MSG_MOD(fco->common.extack,
"No keyset matched the filter keys");
break;
case VCAP_ERR_NO_ACTIONSET_MATCH:
NL_SET_ERR_MSG_MOD(fco->common.extack,
"No actionset matched the filter actions");
break;
case VCAP_ERR_NO_PORT_KEYSET_MATCH:
NL_SET_ERR_MSG_MOD(fco->common.extack,
"No port keyset matched the filter keys");
break;
}
}
EXPORT_SYMBOL_GPL(vcap_set_tc_exterr);
/* Check if this port is already enabled for this VCAP instance */
static bool vcap_is_enabled(struct vcap_admin *admin, struct net_device *ndev,
unsigned long cookie)
{
struct vcap_enabled_port *eport;
list_for_each_entry(eport, &admin->enabled, list)
if (eport->cookie == cookie || eport->ndev == ndev)
return true;
return false;
}
/* Enable this port for this VCAP instance */
static int vcap_enable(struct vcap_admin *admin, struct net_device *ndev,
unsigned long cookie)
{
struct vcap_enabled_port *eport;
eport = kzalloc(sizeof(*eport), GFP_KERNEL);
if (!eport)
return -ENOMEM;
eport->ndev = ndev;
eport->cookie = cookie;
list_add_tail(&eport->list, &admin->enabled);
return 0;
}
/* Disable this port for this VCAP instance */
static int vcap_disable(struct vcap_admin *admin, struct net_device *ndev,
unsigned long cookie)
{
struct vcap_enabled_port *eport;
list_for_each_entry(eport, &admin->enabled, list) {
if (eport->cookie == cookie && eport->ndev == ndev) {
list_del(&eport->list);
kfree(eport);
return 0;
}
}
return -ENOENT;
}
/* Find the VCAP instance that enabled the port using a specific filter */
static struct vcap_admin *vcap_find_admin_by_cookie(struct vcap_control *vctrl,
unsigned long cookie)
{
struct vcap_enabled_port *eport;
struct vcap_admin *admin;
list_for_each_entry(admin, &vctrl->list, list)
list_for_each_entry(eport, &admin->enabled, list)
if (eport->cookie == cookie)
return admin;
return NULL;
}
/* Enable/Disable the VCAP instance lookups. Chain id 0 means disable */
int vcap_enable_lookups(struct vcap_control *vctrl, struct net_device *ndev,
int chain_id, unsigned long cookie, bool enable)
{
struct vcap_admin *admin;
int err;
err = vcap_api_check(vctrl);
if (err)
return err;
if (!ndev)
return -ENODEV;
if (chain_id)
admin = vcap_find_admin(vctrl, chain_id);
else
admin = vcap_find_admin_by_cookie(vctrl, cookie);
if (!admin)
return -ENOENT;
/* first instance and first chain */
if (admin->vinst || chain_id > admin->first_cid)
return -EFAULT;
err = vctrl->ops->enable(ndev, admin, enable);
if (err)
return err;
if (chain_id) {
if (vcap_is_enabled(admin, ndev, cookie))
return -EADDRINUSE;
mutex_lock(&admin->lock);
vcap_enable(admin, ndev, cookie);
} else {
mutex_lock(&admin->lock);
vcap_disable(admin, ndev, cookie);
}
mutex_unlock(&admin->lock);
return 0;
}
EXPORT_SYMBOL_GPL(vcap_enable_lookups);
/* Set a rule counter id (for certain vcaps only) */
void vcap_rule_set_counter_id(struct vcap_rule *rule, u32 counter_id)
{
struct vcap_rule_internal *ri = to_intrule(rule);
ri->counter_id = counter_id;
}
EXPORT_SYMBOL_GPL(vcap_rule_set_counter_id);
/* Provide all rules via a callback interface */
int vcap_rule_iter(struct vcap_control *vctrl,
int (*callback)(void *, struct vcap_rule *), void *arg)
{
struct vcap_rule_internal *ri;
struct vcap_admin *admin;
int ret;
ret = vcap_api_check(vctrl);
if (ret)
return ret;
/* Iterate all rules in each VCAP instance */
list_for_each_entry(admin, &vctrl->list, list) {
list_for_each_entry(ri, &admin->rules, list) {
ret = callback(arg, &ri->data);
if (ret)
return ret;
}
}
return 0;
}
EXPORT_SYMBOL_GPL(vcap_rule_iter);
int vcap_rule_set_counter(struct vcap_rule *rule, struct vcap_counter *ctr)
{
struct vcap_rule_internal *ri = to_intrule(rule);
int err;
err = vcap_api_check(ri->vctrl);
if (err)
return err;
if (!ctr) {
pr_err("%s:%d: counter is missing\n", __func__, __LINE__);
return -EINVAL;
}
return vcap_write_counter(ri, ctr);
}
EXPORT_SYMBOL_GPL(vcap_rule_set_counter);
int vcap_rule_get_counter(struct vcap_rule *rule, struct vcap_counter *ctr)
{
struct vcap_rule_internal *ri = to_intrule(rule);
int err;
err = vcap_api_check(ri->vctrl);
if (err)
return err;
if (!ctr) {
pr_err("%s:%d: counter is missing\n", __func__, __LINE__);
return -EINVAL;
}
return vcap_read_counter(ri, ctr);
}
EXPORT_SYMBOL_GPL(vcap_rule_get_counter);
#ifdef CONFIG_VCAP_KUNIT_TEST
#include "vcap_api_kunit.c"
#endif
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