#include <linux/types.h>
#include "vcap_api_private.h"
static int keyfield_size_table[] = {
[VCAP_FIELD_BIT] = sizeof(struct vcap_u1_key),
[VCAP_FIELD_U32] = sizeof(struct vcap_u32_key),
[VCAP_FIELD_U48] = sizeof(struct vcap_u48_key),
[VCAP_FIELD_U56] = sizeof(struct vcap_u56_key),
[VCAP_FIELD_U64] = sizeof(struct vcap_u64_key),
[VCAP_FIELD_U72] = sizeof(struct vcap_u72_key),
[VCAP_FIELD_U112] = sizeof(struct vcap_u112_key),
[VCAP_FIELD_U128] = sizeof(struct vcap_u128_key),
};
static int actionfield_size_table[] = {
[VCAP_FIELD_BIT] = sizeof(struct vcap_u1_action),
[VCAP_FIELD_U32] = sizeof(struct vcap_u32_action),
[VCAP_FIELD_U48] = sizeof(struct vcap_u48_action),
[VCAP_FIELD_U56] = sizeof(struct vcap_u56_action),
[VCAP_FIELD_U64] = sizeof(struct vcap_u64_action),
[VCAP_FIELD_U72] = sizeof(struct vcap_u72_action),
[VCAP_FIELD_U112] = sizeof(struct vcap_u112_action),
[VCAP_FIELD_U128] = sizeof(struct vcap_u128_action),
};
struct vcap_rule_move {
int addr;
int offset;
int count;
};
struct vcap_enabled_port {
struct list_head list;
struct net_device *ndev;
unsigned long cookie;
int src_cid;
int dst_cid;
};
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)
{
while (itr->tg->width && itr->offset >= itr->tg->offset) {
itr->offset += itr->tg->width;
itr->tg++;
}
}
void vcap_iter_update(struct vcap_stream_iter *itr)
{
int sw_idx, sw_bitpos;
sw_idx = itr->offset / itr->sw_width;
sw_bitpos = itr->offset % itr->sw_width;
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)
{
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;
for (idx = 0; idx < width; idx++) {
u8 bidx = idx & GENMASK(2, 0);
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;
vcap_iter_set(&iter, sw_width, tg, 0);
while (iter.tg->width) {
iter.offset = iter.tg->offset;
vcap_iter_update(&iter);
for (idx = 0; idx < iter.tg->width; idx++) {
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++;
}
}
static bool vcap_bitarray_zero(int width, u8 *value)
{
int bytes = DIV_ROUND_UP(width, BITS_PER_BYTE);
u8 total = 0, bmask = 0xff;
int rwidth = width;
int idx;
for (idx = 0; idx < bytes; ++idx, rwidth -= BITS_PER_BYTE) {
if (rwidth && rwidth < BITS_PER_BYTE)
bmask = (1 << rwidth) - 1;
total += value[idx] & bmask;
}
return total == 0;
}
static bool vcap_get_bit(u32 *stream, struct vcap_stream_iter *itr)
{
u32 mask = BIT(itr->reg_bitpos);
u32 *p = &stream[itr->reg_idx];
return !!(*p & mask);
}
static void vcap_decode_field(u32 *stream, struct vcap_stream_iter *itr,
int width, u8 *value)
{
int idx;
for (idx = 0; idx < width; idx++) {
u8 bidx = idx & 0x7;
if (vcap_get_bit(stream, itr))
*value |= 1 << bidx;
vcap_iter_next(itr);
if (bidx == 7)
value++;
}
}
static bool vcap_verify_keystream_keyset(struct vcap_control *vctrl,
enum vcap_type vt,
u32 *keystream,
u32 *mskstream,
enum vcap_keyfield_set keyset)
{
const struct vcap_info *vcap = &vctrl->vcaps[vt];
const struct vcap_field *typefld;
const struct vcap_typegroup *tgt;
const struct vcap_field *fields;
struct vcap_stream_iter iter;
const struct vcap_set *info;
u32 value = 0;
u32 mask = 0;
if (vcap_keyfield_count(vctrl, vt, keyset) == 0)
return false;
info = vcap_keyfieldset(vctrl, vt, keyset);
if (!info)
return false;
if (info->type_id == (u8)-1)
return true;
tgt = vcap_keyfield_typegroup(vctrl, vt, keyset);
if (!tgt)
return false;
fields = vcap_keyfields(vctrl, vt, keyset);
if (!fields)
return false;
typefld = &fields[VCAP_KF_TYPE];
vcap_iter_init(&iter, vcap->sw_width, tgt, typefld->offset);
vcap_decode_field(mskstream, &iter, typefld->width, (u8 *)&mask);
if (vcap_bitarray_zero(typefld->width, (u8 *)&mask))
return false;
vcap_iter_init(&iter, vcap->sw_width, tgt, typefld->offset);
vcap_decode_field(keystream, &iter, typefld->width, (u8 *)&value);
return (value & mask) == (info->type_id & mask);
}
static int vcap_verify_typegroups(u32 *stream, int sw_width,
const struct vcap_typegroup *tgt, bool mask,
int sw_max)
{
struct vcap_stream_iter iter;
int sw_cnt, idx;
vcap_iter_set(&iter, sw_width, tgt, 0);
sw_cnt = 0;
while (iter.tg->width) {
u32 value = 0;
u32 tg_value = iter.tg->value;
if (mask)
tg_value = (1 << iter.tg->width) - 1;
iter.offset = iter.tg->offset;
vcap_iter_update(&iter);
for (idx = 0; idx < iter.tg->width; idx++) {
if (vcap_get_bit(stream, &iter))
value |= 1 << idx;
iter.offset++;
vcap_iter_update(&iter);
}
if (value != tg_value)
return -EINVAL;
iter.tg++;
sw_cnt++;
if (sw_max && sw_cnt >= sw_max)
break;
}
return 0;
}
static int vcap_find_keystream_typegroup_sw(struct vcap_control *vctrl,
enum vcap_type vt, u32 *stream,
bool mask, int sw_max)
{
const struct vcap_typegroup **tgt;
int sw_idx, res;
tgt = vctrl->vcaps[vt].keyfield_set_typegroups;
for (sw_idx = vctrl->vcaps[vt].sw_count; sw_idx >= 0; sw_idx--) {
if (!tgt[sw_idx])
continue;
res = vcap_verify_typegroups(stream, vctrl->vcaps[vt].sw_width,
tgt[sw_idx], mask, sw_max);
if (res == 0)
return sw_idx;
}
return -EINVAL;
}
int
vcap_find_keystream_keysets(struct vcap_control *vctrl,
enum vcap_type vt,
u32 *keystream,
u32 *mskstream,
bool mask, int sw_max,
struct vcap_keyset_list *kslist)
{
const struct vcap_set *keyfield_set;
int sw_count, idx;
sw_count = vcap_find_keystream_typegroup_sw(vctrl, vt, keystream, mask,
sw_max);
if (sw_count < 0)
return sw_count;
keyfield_set = vctrl->vcaps[vt].keyfield_set;
for (idx = 0; idx < vctrl->vcaps[vt].keyfield_set_size; ++idx) {
if (keyfield_set[idx].sw_per_item != sw_count)
continue;
if (vcap_verify_keystream_keyset(vctrl, vt, keystream,
mskstream, idx))
vcap_keyset_list_add(kslist, idx);
}
if (kslist->cnt > 0)
return 0;
return -EINVAL;
}
EXPORT_SYMBOL_GPL(vcap_find_keystream_keysets);
int vcap_addr_keysets(struct vcap_control *vctrl,
struct net_device *ndev,
struct vcap_admin *admin,
int addr,
struct vcap_keyset_list *kslist)
{
enum vcap_type vt = admin->vtype;
int keyset_sw_regs, idx;
u32 key = 0, mask = 0;
keyset_sw_regs = DIV_ROUND_UP(vctrl->vcaps[vt].sw_width, 32);
vctrl->ops->update(ndev, admin, VCAP_CMD_READ, VCAP_SEL_ALL, addr);
vctrl->ops->cache_read(ndev, admin, VCAP_SEL_ENTRY, 0,
keyset_sw_regs);
for (idx = 0; idx < keyset_sw_regs; ++idx) {
key |= ~admin->cache.keystream[idx];
mask |= admin->cache.maskstream[idx];
}
if (key == 0 && mask == 0)
return -EINVAL;
return vcap_find_keystream_keysets(vctrl, vt, admin->cache.keystream,
admin->cache.maskstream, false, 0,
kslist);
}
EXPORT_SYMBOL_GPL(vcap_addr_keysets);
const struct vcap_field *vcap_keyfields(struct vcap_control *vctrl,
enum vcap_type vt,
enum vcap_keyfield_set keyset)
{
if (keyset >= vctrl->vcaps[vt].keyfield_set_size)
return NULL;
return vctrl->vcaps[vt].keyfield_set_map[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;
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;
}
EXPORT_SYMBOL_GPL(vcap_keyfieldset);
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);
if (!kset)
return NULL;
return vctrl->vcaps[vt].keyfield_set_typegroups[kset->sw_per_item];
}
int vcap_keyfield_count(struct vcap_control *vctrl,
enum vcap_type vt, enum vcap_keyfield_set keyset)
{
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;
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;
vcap_encode_typegroups(cache->keystream, sw_width, tgt, false);
vcap_encode_typegroups(cache->maskstream, sw_width, tgt, true);
}
static void vcap_copy_to_w32be(u8 *dst, const u8 *src, int size)
{
for (int idx = 0; idx < size; ++idx) {
int first_byte_index = 0;
int nidx;
first_byte_index = size - (((idx >> 2) + 1) << 2);
if (first_byte_index < 0)
first_byte_index = 0;
nidx = idx + first_byte_index - (idx & ~0x3);
dst[nidx] = src[idx];
}
}
static void
vcap_copy_from_client_keyfield(struct vcap_rule *rule,
struct vcap_client_keyfield *dst,
const struct vcap_client_keyfield *src)
{
struct vcap_rule_internal *ri = to_intrule(rule);
const struct vcap_client_keyfield_data *sdata;
struct vcap_client_keyfield_data *ddata;
int size;
dst->ctrl.type = src->ctrl.type;
dst->ctrl.key = src->ctrl.key;
INIT_LIST_HEAD(&dst->ctrl.list);
sdata = &src->data;
ddata = &dst->data;
if (!ri->admin->w32be) {
memcpy(ddata, sdata, sizeof(dst->data));
return;
}
size = keyfield_size_table[dst->ctrl.type] / 2;
switch (dst->ctrl.type) {
case VCAP_FIELD_BIT:
case VCAP_FIELD_U32:
memcpy(ddata, sdata, sizeof(dst->data));
break;
case VCAP_FIELD_U48:
vcap_copy_to_w32be(ddata->u48.value, src->data.u48.value, size);
vcap_copy_to_w32be(ddata->u48.mask, src->data.u48.mask, size);
break;
case VCAP_FIELD_U56:
vcap_copy_to_w32be(ddata->u56.value, sdata->u56.value, size);
vcap_copy_to_w32be(ddata->u56.mask, sdata->u56.mask, size);
break;
case VCAP_FIELD_U64:
vcap_copy_to_w32be(ddata->u64.value, sdata->u64.value, size);
vcap_copy_to_w32be(ddata->u64.mask, sdata->u64.mask, size);
break;
case VCAP_FIELD_U72:
vcap_copy_to_w32be(ddata->u72.value, sdata->u72.value, size);
vcap_copy_to_w32be(ddata->u72.mask, sdata->u72.mask, size);
break;
case VCAP_FIELD_U112:
vcap_copy_to_w32be(ddata->u112.value, sdata->u112.value, size);
vcap_copy_to_w32be(ddata->u112.mask, sdata->u112.mask, size);
break;
case VCAP_FIELD_U128:
vcap_copy_to_w32be(ddata->u128.value, sdata->u128.value, size);
vcap_copy_to_w32be(ddata->u128.mask, sdata->u128.mask, size);
break;
}
}
static void
vcap_copy_from_client_actionfield(struct vcap_rule *rule,
struct vcap_client_actionfield *dst,
const struct vcap_client_actionfield *src)
{
struct vcap_rule_internal *ri = to_intrule(rule);
const struct vcap_client_actionfield_data *sdata;
struct vcap_client_actionfield_data *ddata;
int size;
dst->ctrl.type = src->ctrl.type;
dst->ctrl.action = src->ctrl.action;
INIT_LIST_HEAD(&dst->ctrl.list);
sdata = &src->data;
ddata = &dst->data;
if (!ri->admin->w32be) {
memcpy(ddata, sdata, sizeof(dst->data));
return;
}
size = actionfield_size_table[dst->ctrl.type];
switch (dst->ctrl.type) {
case VCAP_FIELD_BIT:
case VCAP_FIELD_U32:
memcpy(ddata, sdata, sizeof(dst->data));
break;
case VCAP_FIELD_U48:
vcap_copy_to_w32be(ddata->u48.value, sdata->u48.value, size);
break;
case VCAP_FIELD_U56:
vcap_copy_to_w32be(ddata->u56.value, sdata->u56.value, size);
break;
case VCAP_FIELD_U64:
vcap_copy_to_w32be(ddata->u64.value, sdata->u64.value, size);
break;
case VCAP_FIELD_U72:
vcap_copy_to_w32be(ddata->u72.value, sdata->u72.value, size);
break;
case VCAP_FIELD_U112:
vcap_copy_to_w32be(ddata->u112.value, sdata->u112.value, size);
break;
case VCAP_FIELD_U128:
vcap_copy_to_w32be(ddata->u128.value, sdata->u128.value, size);
break;
}
}
static int vcap_encode_rule_keyset(struct vcap_rule_internal *ri)
{
const struct vcap_client_keyfield *ckf;
const struct vcap_typegroup *tg_table;
struct vcap_client_keyfield tempkf;
const struct vcap_field *kf_table;
int keyset_size;
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;
}
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;
}
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;
}
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) {
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_copy_from_client_keyfield(&ri->data, &tempkf, ckf);
vcap_encode_keyfield(ri, &tempkf, &kf_table[ckf->ctrl.key],
tg_table);
}
vcap_encode_keyfield_typegroups(ri->vctrl, ri, tg_table);
return 0;
}
const struct vcap_field *
vcap_actionfields(struct vcap_control *vctrl,
enum vcap_type vt, enum vcap_actionfield_set actionset)
{
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;
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;
}
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);
if (!aset)
return NULL;
return vctrl->vcaps[vt].actionfield_set_typegroups[aset->sw_per_item];
}
int vcap_actionfield_count(struct vcap_control *vctrl,
enum vcap_type vt,
enum vcap_actionfield_set actionset)
{
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;
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;
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;
struct vcap_client_actionfield tempaf;
const struct vcap_field *af_table;
int actionset_size;
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;
}
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;
}
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;
}
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) {
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_copy_from_client_actionfield(&ri->data, &tempaf, caf);
vcap_encode_actionfield(ri, &tempaf,
&af_table[caf->ctrl.action], tg_table);
}
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) {
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);
}
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);
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);
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);
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);
static bool vcap_rule_exists(struct vcap_control *vctrl, u32 id)
{
struct vcap_rule_internal *ri;
struct vcap_admin *admin;
list_for_each_entry(admin, &vctrl->list, list)
list_for_each_entry(ri, &admin->rules, list)
if (ri->data.id == id)
return true;
return false;
}
static struct vcap_rule_internal *
vcap_get_locked_rule(struct vcap_control *vctrl, u32 id)
{
struct vcap_rule_internal *ri;
struct vcap_admin *admin;
list_for_each_entry(admin, &vctrl->list, list) {
mutex_lock(&admin->lock);
list_for_each_entry(ri, &admin->rules, list)
if (ri->data.id == id)
return ri;
mutex_unlock(&admin->lock);
}
return NULL;
}
int vcap_lookup_rule_by_cookie(struct vcap_control *vctrl, u64 cookie)
{
struct vcap_rule_internal *ri;
struct vcap_admin *admin;
int id = 0;
list_for_each_entry(admin, &vctrl->list, list) {
mutex_lock(&admin->lock);
list_for_each_entry(ri, &admin->rules, list) {
if (ri->data.cookie == cookie) {
id = ri->data.id;
break;
}
}
mutex_unlock(&admin->lock);
if (id)
return id;
}
return -ENOENT;
}
EXPORT_SYMBOL_GPL(vcap_lookup_rule_by_cookie);
int vcap_admin_rule_count(struct vcap_admin *admin, int cid)
{
int max_cid = roundup(cid + 1, VCAP_CID_LOOKUP_SIZE);
int min_cid = rounddown(cid, VCAP_CID_LOOKUP_SIZE);
struct vcap_rule_internal *elem;
int count = 0;
list_for_each_entry(elem, &admin->rules, list) {
mutex_lock(&admin->lock);
if (elem->data.vcap_chain_id >= min_cid &&
elem->data.vcap_chain_id < max_cid)
++count;
mutex_unlock(&admin->lock);
}
return count;
}
EXPORT_SYMBOL_GPL(vcap_admin_rule_count);
static struct vcap_rule_internal *vcap_dup_rule(struct vcap_rule_internal *ri,
bool full)
{
struct vcap_client_actionfield *caf, *newcaf;
struct vcap_client_keyfield *ckf, *newckf;
struct vcap_rule_internal *duprule;
duprule = kzalloc(sizeof(*duprule), GFP_KERNEL);
if (!duprule)
return ERR_PTR(-ENOMEM);
*duprule = *ri;
INIT_LIST_HEAD(&duprule->list);
INIT_LIST_HEAD(&duprule->data.keyfields);
INIT_LIST_HEAD(&duprule->data.actionfields);
if (!full)
return duprule;
list_for_each_entry(ckf, &ri->data.keyfields, ctrl.list) {
newckf = kmemdup(ckf, sizeof(*newckf), GFP_KERNEL);
if (!newckf)
goto err;
list_add_tail(&newckf->ctrl.list, &duprule->data.keyfields);
}
list_for_each_entry(caf, &ri->data.actionfields, ctrl.list) {
newcaf = kmemdup(caf, sizeof(*newcaf), GFP_KERNEL);
if (!newcaf)
goto err;
list_add_tail(&newcaf->ctrl.list, &duprule->data.actionfields);
}
return duprule;
err:
list_for_each_entry_safe(ckf, newckf, &duprule->data.keyfields, ctrl.list) {
list_del(&ckf->ctrl.list);
kfree(ckf);
}
list_for_each_entry_safe(caf, newcaf, &duprule->data.actionfields, ctrl.list) {
list_del(&caf->ctrl.list);
kfree(caf);
}
kfree(duprule);
return ERR_PTR(-ENOMEM);
}
static void vcap_apply_width(u8 *dst, int width, int bytes)
{
u8 bmask;
int idx;
for (idx = 0; idx < bytes; idx++) {
if (width > 0)
if (width < 8)
bmask = (1 << width) - 1;
else
bmask = ~0;
else
bmask = 0;
dst[idx] &= bmask;
width -= 8;
}
}
static void vcap_copy_from_w32be(u8 *dst, u8 *src, int size, int width)
{
int idx, ridx, wstart, nidx;
int tail_bytes = (((size + 4) >> 2) << 2) - size;
for (idx = 0, ridx = size - 1; idx < size; ++idx, --ridx) {
wstart = (idx >> 2) << 2;
nidx = wstart + 3 - (idx & 0x3);
if (nidx >= size)
nidx -= tail_bytes;
dst[nidx] = src[ridx];
}
vcap_apply_width(dst, width, size);
}
static void vcap_copy_action_bit_field(struct vcap_u1_action *field, u8 *value)
{
field->value = (*value) & 0x1;
}
static void vcap_copy_limited_actionfield(u8 *dstvalue, u8 *srcvalue,
int width, int bytes)
{
memcpy(dstvalue, srcvalue, bytes);
vcap_apply_width(dstvalue, width, bytes);
}
static void vcap_copy_to_client_actionfield(struct vcap_rule_internal *ri,
struct vcap_client_actionfield *field,
u8 *value, u16 width)
{
int field_size = actionfield_size_table[field->ctrl.type];
if (ri->admin->w32be) {
switch (field->ctrl.type) {
case VCAP_FIELD_BIT:
vcap_copy_action_bit_field(&field->data.u1, value);
break;
case VCAP_FIELD_U32:
vcap_copy_limited_actionfield((u8 *)&field->data.u32.value,
value,
width, field_size);
break;
case VCAP_FIELD_U48:
vcap_copy_from_w32be(field->data.u48.value, value,
field_size, width);
break;
case VCAP_FIELD_U56:
vcap_copy_from_w32be(field->data.u56.value, value,
field_size, width);
break;
case VCAP_FIELD_U64:
vcap_copy_from_w32be(field->data.u64.value, value,
field_size, width);
break;
case VCAP_FIELD_U72:
vcap_copy_from_w32be(field->data.u72.value, value,
field_size, width);
break;
case VCAP_FIELD_U112:
vcap_copy_from_w32be(field->data.u112.value, value,
field_size, width);
break;
case VCAP_FIELD_U128:
vcap_copy_from_w32be(field->data.u128.value, value,
field_size, width);
break;
}
} else {
switch (field->ctrl.type) {
case VCAP_FIELD_BIT:
vcap_copy_action_bit_field(&field->data.u1, value);
break;
case VCAP_FIELD_U32:
vcap_copy_limited_actionfield((u8 *)&field->data.u32.value,
value,
width, field_size);
break;
case VCAP_FIELD_U48:
vcap_copy_limited_actionfield(field->data.u48.value,
value,
width, field_size);
break;
case VCAP_FIELD_U56:
vcap_copy_limited_actionfield(field->data.u56.value,
value,
width, field_size);
break;
case VCAP_FIELD_U64:
vcap_copy_limited_actionfield(field->data.u64.value,
value,
width, field_size);
break;
case VCAP_FIELD_U72:
vcap_copy_limited_actionfield(field->data.u72.value,
value,
width, field_size);
break;
case VCAP_FIELD_U112:
vcap_copy_limited_actionfield(field->data.u112.value,
value,
width, field_size);
break;
case VCAP_FIELD_U128:
vcap_copy_limited_actionfield(field->data.u128.value,
value,
width, field_size);
break;
}
}
}
static void vcap_copy_key_bit_field(struct vcap_u1_key *field,
u8 *value, u8 *mask)
{
field->value = (*value) & 0x1;
field->mask = (*mask) & 0x1;
}
static void vcap_copy_limited_keyfield(u8 *dstvalue, u8 *dstmask,
u8 *srcvalue, u8 *srcmask,
int width, int bytes)
{
memcpy(dstvalue, srcvalue, bytes);
vcap_apply_width(dstvalue, width, bytes);
memcpy(dstmask, srcmask, bytes);
vcap_apply_width(dstmask, width, bytes);
}
static void vcap_copy_to_client_keyfield(struct vcap_rule_internal *ri,
struct vcap_client_keyfield *field,
u8 *value, u8 *mask, u16 width)
{
int field_size = keyfield_size_table[field->ctrl.type] / 2;
if (ri->admin->w32be) {
switch (field->ctrl.type) {
case VCAP_FIELD_BIT:
vcap_copy_key_bit_field(&field->data.u1, value, mask);
break;
case VCAP_FIELD_U32:
vcap_copy_limited_keyfield((u8 *)&field->data.u32.value,
(u8 *)&field->data.u32.mask,
value, mask,
width, field_size);
break;
case VCAP_FIELD_U48:
vcap_copy_from_w32be(field->data.u48.value, value,
field_size, width);
vcap_copy_from_w32be(field->data.u48.mask, mask,
field_size, width);
break;
case VCAP_FIELD_U56:
vcap_copy_from_w32be(field->data.u56.value, value,
field_size, width);
vcap_copy_from_w32be(field->data.u56.mask, mask,
field_size, width);
break;
case VCAP_FIELD_U64:
vcap_copy_from_w32be(field->data.u64.value, value,
field_size, width);
vcap_copy_from_w32be(field->data.u64.mask, mask,
field_size, width);
break;
case VCAP_FIELD_U72:
vcap_copy_from_w32be(field->data.u72.value, value,
field_size, width);
vcap_copy_from_w32be(field->data.u72.mask, mask,
field_size, width);
break;
case VCAP_FIELD_U112:
vcap_copy_from_w32be(field->data.u112.value, value,
field_size, width);
vcap_copy_from_w32be(field->data.u112.mask, mask,
field_size, width);
break;
case VCAP_FIELD_U128:
vcap_copy_from_w32be(field->data.u128.value, value,
field_size, width);
vcap_copy_from_w32be(field->data.u128.mask, mask,
field_size, width);
break;
}
} else {
switch (field->ctrl.type) {
case VCAP_FIELD_BIT:
vcap_copy_key_bit_field(&field->data.u1, value, mask);
break;
case VCAP_FIELD_U32:
vcap_copy_limited_keyfield((u8 *)&field->data.u32.value,
(u8 *)&field->data.u32.mask,
value, mask,
width, field_size);
break;
case VCAP_FIELD_U48:
vcap_copy_limited_keyfield(field->data.u48.value,
field->data.u48.mask,
value, mask,
width, field_size);
break;
case VCAP_FIELD_U56:
vcap_copy_limited_keyfield(field->data.u56.value,
field->data.u56.mask,
value, mask,
width, field_size);
break;
case VCAP_FIELD_U64:
vcap_copy_limited_keyfield(field->data.u64.value,
field->data.u64.mask,
value, mask,
width, field_size);
break;
case VCAP_FIELD_U72:
vcap_copy_limited_keyfield(field->data.u72.value,
field->data.u72.mask,
value, mask,
width, field_size);
break;
case VCAP_FIELD_U112:
vcap_copy_limited_keyfield(field->data.u112.value,
field->data.u112.mask,
value, mask,
width, field_size);
break;
case VCAP_FIELD_U128:
vcap_copy_limited_keyfield(field->data.u128.value,
field->data.u128.mask,
value, mask,
width, field_size);
break;
}
}
}
static void vcap_rule_alloc_keyfield(struct vcap_rule_internal *ri,
const struct vcap_field *keyfield,
enum vcap_key_field key,
u8 *value, u8 *mask)
{
struct vcap_client_keyfield *field;
field = kzalloc(sizeof(*field), GFP_KERNEL);
if (!field)
return;
INIT_LIST_HEAD(&field->ctrl.list);
field->ctrl.key = key;
field->ctrl.type = keyfield->type;
vcap_copy_to_client_keyfield(ri, field, value, mask, keyfield->width);
list_add_tail(&field->ctrl.list, &ri->data.keyfields);
}
static bool
vcap_verify_actionstream_actionset(struct vcap_control *vctrl,
enum vcap_type vt,
u32 *actionstream,
enum vcap_actionfield_set actionset)
{
const struct vcap_typegroup *tgt;
const struct vcap_field *fields;
const struct vcap_set *info;
if (vcap_actionfield_count(vctrl, vt, actionset) == 0)
return false;
info = vcap_actionfieldset(vctrl, vt, actionset);
if (!info)
return false;
if (info->type_id == (u8)-1)
return true;
tgt = vcap_actionfield_typegroup(vctrl, vt, actionset);
if (!tgt)
return false;
fields = vcap_actionfields(vctrl, vt, actionset);
if (!fields)
return false;
return true;
}
static int vcap_find_actionstream_typegroup_sw(struct vcap_control *vctrl,
enum vcap_type vt, u32 *stream,
int sw_max)
{
const struct vcap_typegroup **tgt;
int sw_idx, res;
tgt = vctrl->vcaps[vt].actionfield_set_typegroups;
for (sw_idx = vctrl->vcaps[vt].sw_count; sw_idx >= 0; sw_idx--) {
if (!tgt[sw_idx])
continue;
res = vcap_verify_typegroups(stream, vctrl->vcaps[vt].act_width,
tgt[sw_idx], false, sw_max);
if (res == 0)
return sw_idx;
}
return -EINVAL;
}
static enum vcap_actionfield_set
vcap_find_actionstream_actionset(struct vcap_control *vctrl,
enum vcap_type vt,
u32 *stream,
int sw_max)
{
const struct vcap_set *actionfield_set;
int sw_count, idx;
bool res;
sw_count = vcap_find_actionstream_typegroup_sw(vctrl, vt, stream,
sw_max);
if (sw_count < 0)
return sw_count;
actionfield_set = vctrl->vcaps[vt].actionfield_set;
for (idx = 0; idx < vctrl->vcaps[vt].actionfield_set_size; ++idx) {
if (actionfield_set[idx].sw_per_item != sw_count)
continue;
res = vcap_verify_actionstream_actionset(vctrl, vt,
stream, idx);
if (res)
return idx;
}
return -EINVAL;
}
static void vcap_rule_alloc_actionfield(struct vcap_rule_internal *ri,
const struct vcap_field *actionfield,
enum vcap_action_field action,
u8 *value)
{
struct vcap_client_actionfield *field;
field = kzalloc(sizeof(*field), GFP_KERNEL);
if (!field)
return;
INIT_LIST_HEAD(&field->ctrl.list);
field->ctrl.action = action;
field->ctrl.type = actionfield->type;
vcap_copy_to_client_actionfield(ri, field, value, actionfield->width);
list_add_tail(&field->ctrl.list, &ri->data.actionfields);
}
static int vcap_decode_actionset(struct vcap_rule_internal *ri)
{
struct vcap_control *vctrl = ri->vctrl;
struct vcap_admin *admin = ri->admin;
const struct vcap_field *actionfield;
enum vcap_actionfield_set actionset;
enum vcap_type vt = admin->vtype;
const struct vcap_typegroup *tgt;
struct vcap_stream_iter iter;
int idx, res, actfield_count;
u32 *actstream;
u8 value[16];
actstream = admin->cache.actionstream;
res = vcap_find_actionstream_actionset(vctrl, vt, actstream, 0);
if (res < 0) {
pr_err("%s:%d: could not find valid actionset: %d\n",
__func__, __LINE__, res);
return -EINVAL;
}
actionset = res;
actfield_count = vcap_actionfield_count(vctrl, vt, actionset);
actionfield = vcap_actionfields(vctrl, vt, actionset);
tgt = vcap_actionfield_typegroup(vctrl, vt, actionset);
for (idx = 0; idx < actfield_count; ++idx) {
if (actionfield[idx].width <= 0)
continue;
memset(value, 0, DIV_ROUND_UP(actionfield[idx].width, 8));
vcap_iter_init(&iter, vctrl->vcaps[vt].act_width, tgt,
actionfield[idx].offset);
vcap_decode_field(actstream, &iter, actionfield[idx].width,
value);
if (vcap_bitarray_zero(actionfield[idx].width, value))
continue;
vcap_rule_alloc_actionfield(ri, &actionfield[idx], idx, value);
}
return vcap_set_rule_set_actionset((struct vcap_rule *)ri, actionset);
}
static int vcap_decode_keyset(struct vcap_rule_internal *ri)
{
struct vcap_control *vctrl = ri->vctrl;
struct vcap_stream_iter kiter, miter;
struct vcap_admin *admin = ri->admin;
enum vcap_keyfield_set keysets[10];
const struct vcap_field *keyfield;
enum vcap_type vt = admin->vtype;
const struct vcap_typegroup *tgt;
struct vcap_keyset_list matches;
enum vcap_keyfield_set keyset;
int idx, res, keyfield_count;
u32 *maskstream;
u32 *keystream;
u8 value[16];
u8 mask[16];
keystream = admin->cache.keystream;
maskstream = admin->cache.maskstream;
matches.keysets = keysets;
matches.cnt = 0;
matches.max = ARRAY_SIZE(keysets);
res = vcap_find_keystream_keysets(vctrl, vt, keystream, maskstream,
false, 0, &matches);
if (res < 0) {
pr_err("%s:%d: could not find valid keysets: %d\n",
__func__, __LINE__, res);
return -EINVAL;
}
keyset = matches.keysets[0];
keyfield_count = vcap_keyfield_count(vctrl, vt, keyset);
keyfield = vcap_keyfields(vctrl, vt, keyset);
tgt = vcap_keyfield_typegroup(vctrl, vt, keyset);
for (idx = 0; idx < keyfield_count; ++idx) {
if (keyfield[idx].width <= 0)
continue;
memset(mask, 0, DIV_ROUND_UP(keyfield[idx].width, 8));
vcap_iter_init(&miter, vctrl->vcaps[vt].sw_width, tgt,
keyfield[idx].offset);
vcap_decode_field(maskstream, &miter, keyfield[idx].width,
mask);
if (vcap_bitarray_zero(keyfield[idx].width, mask))
continue;
memset(value, 0, DIV_ROUND_UP(keyfield[idx].width, 8));
vcap_iter_init(&kiter, vctrl->vcaps[vt].sw_width, tgt,
keyfield[idx].offset);
vcap_decode_field(keystream, &kiter, keyfield[idx].width,
value);
vcap_rule_alloc_keyfield(ri, &keyfield[idx], idx, value, mask);
}
return vcap_set_rule_set_keyset((struct vcap_rule *)ri, keyset);
}
static int vcap_read_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;
}
vcap_erase_cache(ri);
for (sw_idx = 0; sw_idx < ri->size; sw_idx++, addr++) {
ri->vctrl->ops->update(ri->ndev, admin, VCAP_CMD_READ,
VCAP_SEL_ALL, addr);
ri->vctrl->ops->cache_read(ri->ndev, admin,
VCAP_SEL_ENTRY, ent_idx,
ri->keyset_sw_regs);
ri->vctrl->ops->cache_read(ri->ndev, admin,
VCAP_SEL_ACTION, act_idx,
ri->actionset_sw_regs);
if (sw_idx == 0)
ri->vctrl->ops->cache_read(ri->ndev, admin,
VCAP_SEL_COUNTER,
ri->counter_id, 0);
ent_idx += ri->keyset_sw_regs;
act_idx += ri->actionset_sw_regs;
}
return 0;
}
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;
}
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;
}
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);
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);
static bool vcap_admin_is_last(struct vcap_control *vctrl,
struct vcap_admin *admin,
bool ingress)
{
struct vcap_admin *iter, *last = NULL;
int max_cid = 0;
list_for_each_entry(iter, &vctrl->list, list) {
if (iter->first_cid > max_cid &&
iter->ingress == ingress) {
last = iter;
max_cid = iter->first_cid;
}
}
if (!last)
return false;
return admin == last;
}
int vcap_chain_offset(struct vcap_control *vctrl, int from_cid, int to_cid)
{
int diff = to_cid - from_cid;
if (diff < 0)
return diff;
to_cid %= VCAP_CID_LOOKUP_SIZE;
if (to_cid == 0)
return 0;
diff %= VCAP_CID_LOOKUP_SIZE;
return diff;
}
EXPORT_SYMBOL_GPL(vcap_chain_offset);
bool vcap_is_next_lookup(struct vcap_control *vctrl, int src_cid, int dst_cid)
{
struct vcap_admin *admin;
int next_cid;
if (vcap_api_check(vctrl))
return false;
next_cid = roundup(src_cid + 1, VCAP_CID_LOOKUP_SIZE);
if (dst_cid < next_cid)
return false;
admin = vcap_find_admin(vctrl, dst_cid);
if (!admin)
return false;
return true;
}
EXPORT_SYMBOL_GPL(vcap_is_next_lookup);
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;
}
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)
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;
}
static int vcap_add_type_actionfield(struct vcap_rule *rule)
{
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;
const struct vcap_set *aset;
int ret = -EINVAL;
aset = vcap_actionfieldset(ri->vctrl, vt, actionset);
if (!aset)
return ret;
if (aset->type_id == (u8)-1)
return 0;
fields = vcap_actionfields(ri->vctrl, vt, actionset);
if (!fields)
return -EINVAL;
if (fields[VCAP_AF_TYPE].width > 1) {
ret = vcap_rule_add_action_u32(rule, VCAP_AF_TYPE,
aset->type_id);
} else {
if (aset->type_id)
ret = vcap_rule_add_action_bit(rule, VCAP_AF_TYPE,
VCAP_BIT_1);
else
ret = vcap_rule_add_action_bit(rule, VCAP_AF_TYPE,
VCAP_BIT_0);
}
return ret;
}
bool vcap_keyset_list_add(struct vcap_keyset_list *keysetlist,
enum vcap_keyfield_set keyset)
{
int idx;
if (keysetlist->cnt < keysetlist->max) {
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);
static bool vcap_actionset_list_add(struct vcap_actionset_list *actionsetlist,
enum vcap_actionfield_set actionset)
{
int idx;
if (actionsetlist->cnt < actionsetlist->max) {
for (idx = 0; idx < actionsetlist->cnt; ++idx)
if (actionsetlist->actionsets[idx] == actionset)
return actionsetlist->cnt < actionsetlist->max;
actionsetlist->actionsets[actionsetlist->cnt++] = actionset;
}
return actionsetlist->cnt < actionsetlist->max;
}
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);
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);
const char *vcap_actionset_name(struct vcap_control *vctrl,
enum vcap_actionfield_set actionset)
{
return vctrl->stats->actionfield_set_names[actionset];
}
const char *vcap_actionfield_name(struct vcap_control *vctrl,
enum vcap_action_field action)
{
return vctrl->stats->actionfield_names[action];
}
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;
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;
}
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;
keycount = 0;
list_for_each_entry(ckf, &ri->data.keyfields, ctrl.list)
++keycount;
matches->cnt = 0;
for (keyset = 0; keyset < map_size; ++keyset) {
if (!map[keyset])
continue;
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;
if (found == keycount)
if (!vcap_keyset_list_add(matches, keyset))
break;
}
return matches->cnt > 0;
}
bool vcap_rule_find_keysets(struct vcap_rule *rule,
struct vcap_keyset_list *matches)
{
struct vcap_rule_internal *ri = to_intrule(rule);
return _vcap_rule_find_keysets(ri, matches);
}
EXPORT_SYMBOL_GPL(vcap_rule_find_keysets);
static const struct vcap_field *
vcap_find_actionset_actionfield(struct vcap_control *vctrl,
enum vcap_type vtype,
enum vcap_actionfield_set actionset,
enum vcap_action_field action)
{
const struct vcap_field *fields;
int idx, count;
fields = vcap_actionfields(vctrl, vtype, actionset);
if (!fields)
return NULL;
count = vcap_actionfield_count(vctrl, vtype, actionset);
for (idx = 0; idx < count; ++idx) {
if (fields[idx].width == 0)
continue;
if (action == idx)
return &fields[idx];
}
return NULL;
}
static bool vcap_rule_find_actionsets(struct vcap_rule_internal *ri,
struct vcap_actionset_list *matches)
{
int actionset, found, actioncount, map_size;
const struct vcap_client_actionfield *ckf;
const struct vcap_field **map;
enum vcap_type vtype;
vtype = ri->admin->vtype;
map = ri->vctrl->vcaps[vtype].actionfield_set_map;
map_size = ri->vctrl->vcaps[vtype].actionfield_set_size;
actioncount = 0;
list_for_each_entry(ckf, &ri->data.actionfields, ctrl.list)
++actioncount;
matches->cnt = 0;
for (actionset = 0; actionset < map_size; ++actionset) {
if (!map[actionset])
continue;
found = 0;
list_for_each_entry(ckf, &ri->data.actionfields, ctrl.list)
if (vcap_find_actionset_actionfield(ri->vctrl, vtype,
actionset,
ckf->ctrl.action))
++found;
if (found == actioncount)
if (!vcap_actionset_list_add(matches, actionset))
break;
}
return matches->cnt > 0;
}
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) {
if (!_vcap_rule_find_keysets(ri, &matches)) {
ri->data.exterr = VCAP_ERR_NO_KEYSET_MATCH;
return -EINVAL;
}
} else {
keysets[0] = ri->data.keyset;
matches.cnt = 1;
}
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;
}
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) {
struct vcap_actionset_list matches = {};
enum vcap_actionfield_set actionsets[10];
matches.actionsets = actionsets;
matches.max = ARRAY_SIZE(actionsets);
if (!vcap_rule_find_actionsets(ri, &matches)) {
ri->data.exterr = VCAP_ERR_NO_ACTIONSET_MATCH;
return -EINVAL;
}
ret = vcap_set_rule_set_actionset(rule, actionsets[0]);
if (ret < 0) {
pr_err("%s:%d: actionset was not updated: %d\n",
__func__, __LINE__, ret);
return ret;
}
}
vcap_add_type_keyfield(rule);
vcap_add_type_actionfield(rule);
ri->vctrl->ops->add_default_fields(ri->ndev, ri->admin, rule);
ri->size = max(ri->keyset_sw, ri->actionset_sw);
return vcap_rule_space(ri->admin, ri->size);
}
EXPORT_SYMBOL_GPL(vcap_val_rule);
static u32 vcap_sort_key(u32 max_size, u32 size, u8 user, u16 prio)
{
return ((max_size - size) << 24) | (user << 16) | prio;
}
static u32 vcap_next_rule_addr(u32 addr, struct vcap_rule_internal *ri)
{
return ((addr - ri->size) / ri->size) * ri->size;
}
static u32 vcap_set_rule_id(struct vcap_rule_internal *ri)
{
if (ri->data.id != 0)
return ri->data.id;
for (u32 next_id = 1; next_id < ~0; ++next_id) {
if (!vcap_rule_exists(ri->vctrl, next_id)) {
ri->data.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);
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;
duprule = vcap_dup_rule(ri, ri->state == VCAP_RS_DISABLED);
if (IS_ERR(duprule))
return PTR_ERR(duprule);
list_add_tail(&duprule->list, &admin->rules);
return 0;
}
addr = elem->addr + elem->size;
ri->addr = vcap_next_rule_addr(addr, ri);
addr = ri->addr;
duprule = vcap_dup_rule(ri, ri->state == VCAP_RS_DISABLED);
if (IS_ERR(duprule))
return PTR_ERR(duprule);
list_add_tail(&duprule->list, &elem->list);
elem->addr = vcap_next_rule_addr(addr, elem);
addr = elem->addr;
list_for_each_entry_continue(elem, &admin->rules, list) {
elem->addr = vcap_next_rule_addr(addr, elem);
addr = elem->addr;
}
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);
}
static bool vcap_is_chain_used(struct vcap_control *vctrl,
struct net_device *ndev, int src_cid)
{
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->src_cid == src_cid && eport->ndev == ndev)
return true;
return false;
}
static int vcap_get_next_chain(struct vcap_control *vctrl,
struct net_device *ndev,
int dst_cid)
{
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->ndev != ndev)
continue;
if (eport->src_cid == dst_cid)
return eport->dst_cid;
}
}
return 0;
}
static bool vcap_path_exist(struct vcap_control *vctrl, struct net_device *ndev,
int dst_cid)
{
int cid = rounddown(dst_cid, VCAP_CID_LOOKUP_SIZE);
struct vcap_enabled_port *eport = NULL;
struct vcap_enabled_port *elem;
struct vcap_admin *admin;
int tmp;
if (cid == 0)
return true;
list_for_each_entry(admin, &vctrl->list, list) {
list_for_each_entry(elem, &admin->enabled, list) {
if (elem->src_cid == 0 && elem->ndev == ndev) {
eport = elem;
break;
}
}
if (eport)
break;
}
if (!eport)
return false;
tmp = eport->dst_cid;
while (tmp != cid && tmp != 0)
tmp = vcap_get_next_chain(vctrl, ndev, tmp);
return !!tmp;
}
static void vcap_rule_set_state(struct vcap_rule_internal *ri)
{
if (ri->data.user <= VCAP_USER_QOS)
ri->state = VCAP_RS_PERMANENT;
else if (vcap_path_exist(ri->vctrl, ri->ndev, ri->data.vcap_chain_id))
ri->state = VCAP_RS_ENABLED;
else
ri->state = VCAP_RS_DISABLED;
}
int vcap_add_rule(struct vcap_rule *rule)
{
struct vcap_rule_internal *ri = to_intrule(rule);
struct vcap_rule_move move = {0};
struct vcap_counter ctr = {0};
int ret;
ret = vcap_api_check(ri->vctrl);
if (ret)
return ret;
mutex_lock(&ri->admin->lock);
vcap_rule_set_state(ri);
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_write_counter(ri, &ctr);
if (ret)
goto out;
if (ri->state == VCAP_RS_DISABLED) {
ri->vctrl->ops->init(ri->ndev, ri->admin, ri->addr, ri->size);
goto out;
}
vcap_erase_cache(ri);
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);
goto out;
}
out:
mutex_unlock(&ri->admin->lock);
return ret;
}
EXPORT_SYMBOL_GPL(vcap_add_rule);
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);
admin = vcap_find_admin(vctrl, vcap_chain_id);
if (!admin)
return ERR_PTR(-ENOENT);
if (vctrl->vcaps[admin->vtype].rows == 0)
return ERR_PTR(-EINVAL);
mutex_lock(&admin->lock);
if (vcap_rule_exists(vctrl, id)) {
err = -EINVAL;
goto out_unlock;
}
maxsize = vctrl->vcaps[admin->vtype].sw_count;
if (vcap_rule_space(admin, maxsize)) {
err = -ENOSPC;
goto out_unlock;
}
ri = kzalloc(sizeof(*ri), GFP_KERNEL);
if (!ri) {
err = -ENOMEM;
goto out_unlock;
}
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;
ri->vctrl = vctrl;
if (vcap_set_rule_id(ri) == 0) {
err = -EINVAL;
goto out_free;
}
mutex_unlock(&admin->lock);
return (struct vcap_rule *)ri;
out_free:
kfree(ri);
out_unlock:
mutex_unlock(&admin->lock);
return ERR_PTR(err);
}
EXPORT_SYMBOL_GPL(vcap_alloc_rule);
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;
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);
}
kfree(rule);
}
EXPORT_SYMBOL_GPL(vcap_free_rule);
struct vcap_rule *vcap_decode_rule(struct vcap_rule_internal *elem)
{
struct vcap_rule_internal *ri;
int err;
ri = vcap_dup_rule(elem, elem->state == VCAP_RS_DISABLED);
if (IS_ERR(ri))
return ERR_CAST(ri);
if (ri->state == VCAP_RS_DISABLED)
goto out;
err = vcap_read_rule(ri);
if (err)
return ERR_PTR(err);
err = vcap_decode_keyset(ri);
if (err)
return ERR_PTR(err);
err = vcap_decode_actionset(ri);
if (err)
return ERR_PTR(err);
out:
return &ri->data;
}
struct vcap_rule *vcap_get_rule(struct vcap_control *vctrl, u32 id)
{
struct vcap_rule_internal *elem;
struct vcap_rule *rule;
int err;
err = vcap_api_check(vctrl);
if (err)
return ERR_PTR(err);
elem = vcap_get_locked_rule(vctrl, id);
if (!elem)
return ERR_PTR(-ENOENT);
rule = vcap_decode_rule(elem);
mutex_unlock(&elem->admin->lock);
return rule;
}
EXPORT_SYMBOL_GPL(vcap_get_rule);
int vcap_mod_rule(struct vcap_rule *rule)
{
struct vcap_rule_internal *ri = to_intrule(rule);
struct vcap_counter ctr;
int err;
err = vcap_api_check(ri->vctrl);
if (err)
return err;
if (!vcap_get_locked_rule(ri->vctrl, ri->data.id))
return -ENOENT;
vcap_rule_set_state(ri);
if (ri->state == VCAP_RS_DISABLED)
goto out;
vcap_erase_cache(ri);
err = vcap_encode_rule(ri);
if (err)
goto out;
err = vcap_write_rule(ri);
if (err)
goto out;
memset(&ctr, 0, sizeof(ctr));
err = vcap_write_counter(ri, &ctr);
out:
mutex_unlock(&ri->admin->lock);
return err;
}
EXPORT_SYMBOL_GPL(vcap_mod_rule);
static int vcap_valid_rule_move(struct vcap_rule_internal *el, int offset)
{
return (el->addr + offset) % el->size;
}
static void vcap_adjust_rule_addr(struct vcap_rule_internal *el, int offset)
{
el->addr += offset;
}
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 (list_is_first(&ri->list, &admin->rules))
offset = admin->last_valid_addr + 1 - ri->addr - ri->size;
elem = ri;
list_for_each_entry_continue(elem, &admin->rules, list)
gap += vcap_valid_rule_move(elem, ri->size);
elem = ri;
list_for_each_entry_continue(elem, &admin->rules, list)
vcap_adjust_rule_addr(elem, ri->size + gap + offset);
move.addr = admin->last_used_addr;
move.count = ri->addr - admin->last_used_addr - gap;
move.offset = -(ri->size + gap + offset);
vcap_move_rules(ri, &move);
return gap + offset;
}
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;
if (!ndev)
return -ENODEV;
err = vcap_api_check(vctrl);
if (err)
return err;
ri = vcap_get_locked_rule(vctrl, id);
if (!ri)
return -ENOENT;
admin = ri->admin;
if (ri->addr > admin->last_used_addr)
gap = vcap_fill_rule_gap(ri);
list_del(&ri->list);
vctrl->ops->init(ndev, admin, admin->last_used_addr, ri->size + gap);
vcap_free_rule(&ri->data);
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;
}
mutex_unlock(&admin->lock);
return err;
}
EXPORT_SYMBOL_GPL(vcap_del_rule);
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);
vcap_free_rule(&ri->data);
}
admin->last_used_addr = admin->last_valid_addr;
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);
static struct vcap_client_keyfield *
vcap_find_keyfield(struct vcap_rule *rule, enum vcap_key_field key)
{
struct vcap_rule_internal *ri = to_intrule(rule);
struct vcap_client_keyfield *ckf;
list_for_each_entry(ckf, &ri->data.keyfields, ctrl.list)
if (ckf->ctrl.key == key)
return ckf;
return NULL;
}
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 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;
}
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;
if (keyset == VCAP_KFS_NO_VALUE)
return true;
fields = vcap_keyfields(ri->vctrl, vt, keyset);
if (!fields)
return false;
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;
memcpy(&field->data, data, sizeof(field->data));
field->ctrl.key = key;
field->ctrl.type = ftype;
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;
}
}
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);
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);
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);
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);
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);
int vcap_rule_get_key_u32(struct vcap_rule *rule, enum vcap_key_field key,
u32 *value, u32 *mask)
{
struct vcap_client_keyfield *ckf;
ckf = vcap_find_keyfield(rule, key);
if (!ckf)
return -ENOENT;
*value = ckf->data.u32.value;
*mask = ckf->data.u32.mask;
return 0;
}
EXPORT_SYMBOL_GPL(vcap_rule_get_key_u32);
struct vcap_client_actionfield *
vcap_find_actionfield(struct vcap_rule *rule, enum vcap_action_field act)
{
struct vcap_rule_internal *ri = (struct vcap_rule_internal *)rule;
struct vcap_client_actionfield *caf;
list_for_each_entry(caf, &ri->data.actionfields, ctrl.list)
if (caf->ctrl.action == act)
return caf;
return NULL;
}
EXPORT_SYMBOL_GPL(vcap_find_actionfield);
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;
}
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;
if (actionset == VCAP_AFS_NO_VALUE)
return true;
fields = vcap_actionfields(ri->vctrl, vt, actionset);
if (!fields)
return false;
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;
memcpy(&field->data, data, sizeof(field->data));
field->ctrl.action = action;
field->ctrl.type = ftype;
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;
}
}
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);
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;
}
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);
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);
static int vcap_enable_rule(struct vcap_rule_internal *ri)
{
struct vcap_client_actionfield *af, *naf;
struct vcap_client_keyfield *kf, *nkf;
int err;
vcap_erase_cache(ri);
err = vcap_encode_rule(ri);
if (err)
goto out;
err = vcap_write_rule(ri);
if (err)
goto out;
list_for_each_entry_safe(kf, nkf, &ri->data.keyfields, ctrl.list) {
list_del(&kf->ctrl.list);
kfree(kf);
}
list_for_each_entry_safe(af, naf, &ri->data.actionfields, ctrl.list) {
list_del(&af->ctrl.list);
kfree(af);
}
ri->state = VCAP_RS_ENABLED;
out:
return err;
}
static int vcap_enable_rules(struct vcap_control *vctrl,
struct net_device *ndev, int chain)
{
int next_chain = chain + VCAP_CID_LOOKUP_SIZE;
struct vcap_rule_internal *ri;
struct vcap_admin *admin;
int err = 0;
list_for_each_entry(admin, &vctrl->list, list) {
if (!(chain >= admin->first_cid && chain <= admin->last_cid))
continue;
mutex_lock(&admin->lock);
list_for_each_entry(ri, &admin->rules, list) {
if (!(ri->data.vcap_chain_id >= chain &&
ri->data.vcap_chain_id < next_chain)) {
continue;
}
if (ri->ndev != ndev)
continue;
if (ri->state != VCAP_RS_DISABLED)
continue;
err = vcap_enable_rule(ri);
if (err)
break;
}
mutex_unlock(&admin->lock);
if (err)
break;
}
return err;
}
static int vcap_disable_rule(struct vcap_rule_internal *ri)
{
int err;
err = vcap_read_rule(ri);
if (err)
return err;
err = vcap_decode_keyset(ri);
if (err)
return err;
err = vcap_decode_actionset(ri);
if (err)
return err;
ri->state = VCAP_RS_DISABLED;
ri->vctrl->ops->init(ri->ndev, ri->admin, ri->addr, ri->size);
return 0;
}
static int vcap_disable_rules(struct vcap_control *vctrl,
struct net_device *ndev, int chain)
{
struct vcap_rule_internal *ri;
struct vcap_admin *admin;
int err = 0;
list_for_each_entry(admin, &vctrl->list, list) {
if (!(chain >= admin->first_cid && chain <= admin->last_cid))
continue;
mutex_lock(&admin->lock);
list_for_each_entry(ri, &admin->rules, list) {
if (ri->data.vcap_chain_id != chain)
continue;
if (ri->ndev != ndev)
continue;
if (ri->state != VCAP_RS_ENABLED)
continue;
err = vcap_disable_rule(ri);
if (err)
break;
}
mutex_unlock(&admin->lock);
if (err)
break;
}
return err;
}
static bool vcap_is_enabled(struct vcap_control *vctrl, struct net_device *ndev,
int dst_cid)
{
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->dst_cid == dst_cid && eport->ndev == ndev)
return true;
return false;
}
static int vcap_enable(struct vcap_control *vctrl, struct net_device *ndev,
unsigned long cookie, int src_cid, int dst_cid)
{
struct vcap_enabled_port *eport;
struct vcap_admin *admin;
if (src_cid >= dst_cid)
return -EFAULT;
admin = vcap_find_admin(vctrl, dst_cid);
if (!admin)
return -ENOENT;
eport = kzalloc(sizeof(*eport), GFP_KERNEL);
if (!eport)
return -ENOMEM;
eport->ndev = ndev;
eport->cookie = cookie;
eport->src_cid = src_cid;
eport->dst_cid = dst_cid;
mutex_lock(&admin->lock);
list_add_tail(&eport->list, &admin->enabled);
mutex_unlock(&admin->lock);
if (vcap_path_exist(vctrl, ndev, src_cid)) {
while (dst_cid) {
admin = vcap_find_admin(vctrl, dst_cid);
if (!admin)
return -ENOENT;
vcap_enable_rules(vctrl, ndev, dst_cid);
dst_cid = vcap_get_next_chain(vctrl, ndev, dst_cid);
}
}
return 0;
}
static int vcap_disable(struct vcap_control *vctrl, struct net_device *ndev,
unsigned long cookie)
{
struct vcap_enabled_port *elem, *eport = NULL;
struct vcap_admin *found = NULL, *admin;
int dst_cid;
list_for_each_entry(admin, &vctrl->list, list) {
list_for_each_entry(elem, &admin->enabled, list) {
if (elem->cookie == cookie && elem->ndev == ndev) {
eport = elem;
found = admin;
break;
}
}
if (eport)
break;
}
if (!eport)
return -ENOENT;
dst_cid = eport->dst_cid;
while (dst_cid) {
admin = vcap_find_admin(vctrl, dst_cid);
if (!admin)
return -ENOENT;
vcap_disable_rules(vctrl, ndev, dst_cid);
dst_cid = vcap_get_next_chain(vctrl, ndev, dst_cid);
}
mutex_lock(&found->lock);
list_del(&eport->list);
mutex_unlock(&found->lock);
kfree(eport);
return 0;
}
int vcap_enable_lookups(struct vcap_control *vctrl, struct net_device *ndev,
int src_cid, int dst_cid, unsigned long cookie,
bool enable)
{
int err;
err = vcap_api_check(vctrl);
if (err)
return err;
if (!ndev)
return -ENODEV;
if (src_cid % VCAP_CID_LOOKUP_SIZE)
return -EFAULT;
if (dst_cid % VCAP_CID_LOOKUP_SIZE)
return -EFAULT;
if (enable) {
if (vcap_is_enabled(vctrl, ndev, dst_cid))
return -EADDRINUSE;
if (vcap_is_chain_used(vctrl, ndev, src_cid))
return -EADDRNOTAVAIL;
err = vcap_enable(vctrl, ndev, cookie, src_cid, dst_cid);
} else {
err = vcap_disable(vctrl, ndev, cookie);
}
return err;
}
EXPORT_SYMBOL_GPL(vcap_enable_lookups);
bool vcap_is_last_chain(struct vcap_control *vctrl, int cid, bool ingress)
{
struct vcap_admin *admin;
int lookup;
if (vcap_api_check(vctrl))
return false;
admin = vcap_find_admin(vctrl, cid);
if (!admin)
return false;
if (!vcap_admin_is_last(vctrl, admin, ingress))
return false;
lookup = vcap_chain_id_to_lookup(admin, cid);
return lookup == admin->lookups - 1;
}
EXPORT_SYMBOL_GPL(vcap_is_last_chain);
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);
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;
}
mutex_lock(&ri->admin->lock);
err = vcap_write_counter(ri, ctr);
mutex_unlock(&ri->admin->lock);
return err;
}
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;
}
mutex_lock(&ri->admin->lock);
err = vcap_read_counter(ri, ctr);
mutex_unlock(&ri->admin->lock);
return err;
}
EXPORT_SYMBOL_GPL(vcap_rule_get_counter);
static int vcap_rule_get_key(struct vcap_rule *rule,
enum vcap_key_field key,
struct vcap_client_keyfield *ckf)
{
struct vcap_client_keyfield *field;
field = vcap_find_keyfield(rule, key);
if (!field)
return -EINVAL;
memcpy(ckf, field, sizeof(*ckf));
INIT_LIST_HEAD(&ckf->ctrl.list);
return 0;
}
static int vcap_rule_get_untyped_keyset(struct vcap_rule_internal *ri,
struct vcap_keyset_list *matches)
{
struct vcap_control *vctrl = ri->vctrl;
enum vcap_type vt = ri->admin->vtype;
const struct vcap_set *keyfield_set;
int idx;
keyfield_set = vctrl->vcaps[vt].keyfield_set;
for (idx = 0; idx < vctrl->vcaps[vt].keyfield_set_size; ++idx) {
if (keyfield_set[idx].sw_per_item == ri->keyset_sw &&
keyfield_set[idx].type_id == (u8)-1) {
vcap_keyset_list_add(matches, idx);
return 0;
}
}
return -EINVAL;
}
int vcap_rule_get_keysets(struct vcap_rule_internal *ri,
struct vcap_keyset_list *matches)
{
struct vcap_control *vctrl = ri->vctrl;
enum vcap_type vt = ri->admin->vtype;
const struct vcap_set *keyfield_set;
struct vcap_client_keyfield kf = {};
u32 value, mask;
int err, idx;
err = vcap_rule_get_key(&ri->data, VCAP_KF_TYPE, &kf);
if (err)
return vcap_rule_get_untyped_keyset(ri, matches);
if (kf.ctrl.type == VCAP_FIELD_BIT) {
value = kf.data.u1.value;
mask = kf.data.u1.mask;
} else if (kf.ctrl.type == VCAP_FIELD_U32) {
value = kf.data.u32.value;
mask = kf.data.u32.mask;
} else {
return -EINVAL;
}
keyfield_set = vctrl->vcaps[vt].keyfield_set;
for (idx = 0; idx < vctrl->vcaps[vt].keyfield_set_size; ++idx) {
if (keyfield_set[idx].sw_per_item != ri->keyset_sw)
continue;
if (keyfield_set[idx].type_id == (u8)-1) {
vcap_keyset_list_add(matches, idx);
continue;
}
if ((keyfield_set[idx].type_id & mask) == value)
vcap_keyset_list_add(matches, idx);
}
if (matches->cnt > 0)
return 0;
return -EINVAL;
}
int vcap_get_rule_count_by_cookie(struct vcap_control *vctrl,
struct vcap_counter *ctr, u64 cookie)
{
struct vcap_rule_internal *ri;
struct vcap_counter temp = {};
struct vcap_admin *admin;
int err;
err = vcap_api_check(vctrl);
if (err)
return err;
list_for_each_entry(admin, &vctrl->list, list) {
mutex_lock(&admin->lock);
list_for_each_entry(ri, &admin->rules, list) {
if (ri->data.cookie != cookie)
continue;
err = vcap_read_counter(ri, &temp);
if (err)
goto unlock;
ctr->value += temp.value;
temp.value = 0;
temp.sticky = 0;
err = vcap_write_counter(ri, &temp);
if (err)
goto unlock;
}
mutex_unlock(&admin->lock);
}
return err;
unlock:
mutex_unlock(&admin->lock);
return err;
}
EXPORT_SYMBOL_GPL(vcap_get_rule_count_by_cookie);
static int vcap_rule_mod_key(struct vcap_rule *rule,
enum vcap_key_field key,
enum vcap_field_type ftype,
struct vcap_client_keyfield_data *data)
{
struct vcap_client_keyfield *field;
field = vcap_find_keyfield(rule, key);
if (!field)
return vcap_rule_add_key(rule, key, ftype, data);
memcpy(&field->data, data, sizeof(field->data));
return 0;
}
int vcap_rule_mod_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_mod_key(rule, key, VCAP_FIELD_U32, &data);
}
EXPORT_SYMBOL_GPL(vcap_rule_mod_key_u32);
int vcap_rule_rem_key(struct vcap_rule *rule, enum vcap_key_field key)
{
struct vcap_rule_internal *ri = to_intrule(rule);
struct vcap_client_keyfield *field;
field = vcap_find_keyfield(rule, key);
if (!field) {
pr_err("%s:%d: key %s is not in the rule\n",
__func__, __LINE__, vcap_keyfield_name(ri->vctrl, key));
return -EINVAL;
}
list_del(&field->ctrl.list);
kfree(field);
return 0;
}
EXPORT_SYMBOL_GPL(vcap_rule_rem_key);
static int vcap_rule_mod_action(struct vcap_rule *rule,
enum vcap_action_field action,
enum vcap_field_type ftype,
struct vcap_client_actionfield_data *data)
{
struct vcap_client_actionfield *field;
field = vcap_find_actionfield(rule, action);
if (!field)
return vcap_rule_add_action(rule, action, ftype, data);
memcpy(&field->data, data, sizeof(field->data));
return 0;
}
int vcap_rule_mod_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_mod_action(rule, action, VCAP_FIELD_U32, &data);
}
EXPORT_SYMBOL_GPL(vcap_rule_mod_action_u32);
int vcap_filter_rule_keys(struct vcap_rule *rule,
enum vcap_key_field keylist[], int length,
bool drop_unsupported)
{
struct vcap_rule_internal *ri = to_intrule(rule);
struct vcap_client_keyfield *ckf, *next_ckf;
const struct vcap_field *fields;
enum vcap_key_field key;
int err = 0;
int idx;
if (length > 0) {
err = -EEXIST;
list_for_each_entry_safe(ckf, next_ckf,
&ri->data.keyfields, ctrl.list) {
key = ckf->ctrl.key;
for (idx = 0; idx < length; ++idx)
if (key == keylist[idx]) {
list_del(&ckf->ctrl.list);
kfree(ckf);
idx++;
err = 0;
}
}
}
if (drop_unsupported) {
err = -EEXIST;
fields = vcap_keyfields(ri->vctrl, ri->admin->vtype,
rule->keyset);
if (!fields)
return err;
list_for_each_entry_safe(ckf, next_ckf,
&ri->data.keyfields, ctrl.list) {
key = ckf->ctrl.key;
if (fields[key].width == 0) {
list_del(&ckf->ctrl.list);
kfree(ckf);
err = 0;
}
}
}
return err;
}
EXPORT_SYMBOL_GPL(vcap_filter_rule_keys);
enum vcap_keyfield_set
vcap_select_min_rule_keyset(struct vcap_control *vctrl,
enum vcap_type vtype,
struct vcap_keyset_list *kslist)
{
enum vcap_keyfield_set ret = VCAP_KFS_NO_VALUE;
const struct vcap_set *kset;
int max = 100, idx;
for (idx = 0; idx < kslist->cnt; ++idx) {
kset = vcap_keyfieldset(vctrl, vtype, kslist->keysets[idx]);
if (!kset)
continue;
if (kset->sw_per_item >= max)
continue;
max = kset->sw_per_item;
ret = kslist->keysets[idx];
}
return ret;
}
EXPORT_SYMBOL_GPL(vcap_select_min_rule_keyset);
struct vcap_rule *vcap_copy_rule(struct vcap_rule *erule)
{
struct vcap_rule_internal *ri = to_intrule(erule);
struct vcap_client_actionfield *caf;
struct vcap_client_keyfield *ckf;
struct vcap_rule *rule;
int err;
err = vcap_api_check(ri->vctrl);
if (err)
return ERR_PTR(err);
rule = vcap_alloc_rule(ri->vctrl, ri->ndev, ri->data.vcap_chain_id,
ri->data.user, ri->data.priority, 0);
if (IS_ERR(rule))
return rule;
list_for_each_entry(ckf, &ri->data.keyfields, ctrl.list) {
err = vcap_rule_add_key(rule,
ckf->ctrl.key,
ckf->ctrl.type,
&ckf->data);
if (err)
goto err;
}
list_for_each_entry(caf, &ri->data.actionfields, ctrl.list) {
err = vcap_rule_add_action(rule,
caf->ctrl.action,
caf->ctrl.type,
&caf->data);
if (err)
goto err;
}
return rule;
err:
vcap_free_rule(rule);
return ERR_PTR(err);
}
EXPORT_SYMBOL_GPL(vcap_copy_rule);
#ifdef CONFIG_VCAP_KUNIT_TEST
#include "vcap_api_kunit.c"
#endif