d/numam-dpdk
1
0
Fork 0
Code Issues Pull Requests Projects Releases Wiki Activity
numam-dpdk/drivers/common/cnxk/roc_npc.c
Satheesh Paul d43a7bee1a net/cnxk: get flow operations 
This patch adds flow ops get operation to enable rte_flow_ops.A

This patch also add support for flow dev dump API.
Every flow rule added will be dumped in the below format.

MCAM Index:1881
Interface :NIX-RX (0)
Priority  :1
NPC RX Action:0X00000000404001
	ActionOp:NIX_RX_ACTIONOP_UCAST (1)
	PF_FUNC: 0X400
	RQ Index:0X004
	Match Id:0000
	Flow Key Alg:0
NPC RX VTAG Action:0X00000000008100
	VTAG0:relptr:0
	lid:0X1
	type:0
Patterns:
	NPC_PARSE_NIBBLE_CHAN:000
	NPC_PARSE_NIBBLE_LA_LTYPE:LA_ETHER
	NPC_PARSE_NIBBLE_LB_LTYPE:NONE
	NPC_PARSE_NIBBLE_LC_LTYPE:LC_IP
	NPC_PARSE_NIBBLE_LD_LTYPE:LD_TCP
	NPC_PARSE_NIBBLE_LE_LTYPE:NONE
	LA_ETHER, hdr offset:0, len:0X6, key offset:0X8,\
		Data:0X4AE124FC7FFF, Mask:0XFFFFFFFFFFFF
	LA_ETHER, hdr offset:0XC, len:0X2, key offset:0X4, Data:0XCA5A,\
		Mask:0XFFFF
	LC_IP, hdr offset:0XC, len:0X8, key offset:0X10,\
		Data:0X0A01010300000000, Mask:0XFFFFFFFF00000000
	LD_TCP, hdr offset:0, len:0X4, key offset:0X18, Data:0X03450000,\
		Mask:0XFFFF0000
MCAM Raw Data :
	DW0     :0000CA5A01202000
	DW0_Mask:0000FFFF0FF0F000
	DW1     :00004AE124FC7FFF
	DW1_Mask:0000FFFFFFFFFFFF
	DW2     :0A01010300000000
	DW2_Mask:FFFFFFFF00000000
	DW3     :0000000003450000
	DW3_Mask:00000000FFFF0000
	DW4     :0000000000000000
	DW4_Mask:0000000000000000
	DW5     :0000000000000000
	DW5_Mask:0000000000000000
	DW6     :0000000000000000
	DW6_Mask:0000000000000000

Signed-off-by: Satheesh Paul <psatheesh@marvell.com>
Reviewed-by: Kiran Kumar K <kirankumark@marvell.com>
2021-06-30 02:14:27 +02:00

1139 lines
28 KiB
C
Raw Blame History

/* SPDX-License-Identifier: BSD-3-Clause
* Copyright(C) 2021 Marvell.
*/
#include "roc_api.h"
#include "roc_priv.h"
int
roc_npc_vtag_actions_get(struct roc_npc *roc_npc)
{
struct npc *npc = roc_npc_to_npc_priv(roc_npc);
return npc->vtag_actions;
}
int
roc_npc_vtag_actions_sub_return(struct roc_npc *roc_npc, uint32_t count)
{
struct npc *npc = roc_npc_to_npc_priv(roc_npc);
npc->vtag_actions -= count;
return npc->vtag_actions;
}
int
roc_npc_mcam_free_counter(struct roc_npc *roc_npc, uint16_t ctr_id)
{
struct npc *npc = roc_npc_to_npc_priv(roc_npc);
return npc_mcam_free_counter(npc, ctr_id);
}
int
roc_npc_mcam_read_counter(struct roc_npc *roc_npc, uint32_t ctr_id,
uint64_t *count)
{
struct npc *npc = roc_npc_to_npc_priv(roc_npc);
return npc_mcam_read_counter(npc, ctr_id, count);
}
int
roc_npc_mcam_clear_counter(struct roc_npc *roc_npc, uint32_t ctr_id)
{
struct npc *npc = roc_npc_to_npc_priv(roc_npc);
return npc_mcam_clear_counter(npc, ctr_id);
}
int
roc_npc_mcam_free_entry(struct roc_npc *roc_npc, uint32_t entry)
{
struct npc *npc = roc_npc_to_npc_priv(roc_npc);
return npc_mcam_free_entry(npc, entry);
}
int
roc_npc_mcam_free_all_resources(struct roc_npc *roc_npc)
{
struct npc *npc = roc_npc_to_npc_priv(roc_npc);
return npc_flow_free_all_resources(npc);
}
int
roc_npc_mcam_alloc_entries(struct roc_npc *roc_npc, int ref_entry,
int *alloc_entry, int req_count, int priority,
int *resp_count)
{
struct npc *npc = roc_npc_to_npc_priv(roc_npc);
return npc_mcam_alloc_entries(npc, ref_entry, alloc_entry, req_count,
priority, resp_count);
}
int
roc_npc_mcam_alloc_entry(struct roc_npc *roc_npc, struct roc_npc_flow *mcam,
struct roc_npc_flow *ref_mcam, int prio,
int *resp_count)
{
struct npc *npc = roc_npc_to_npc_priv(roc_npc);
return npc_mcam_alloc_entry(npc, mcam, ref_mcam, prio, resp_count);
}
int
roc_npc_mcam_ena_dis_entry(struct roc_npc *roc_npc, struct roc_npc_flow *mcam,
bool enable)
{
struct npc *npc = roc_npc_to_npc_priv(roc_npc);
return npc_mcam_ena_dis_entry(npc, mcam, enable);
}
int
roc_npc_mcam_write_entry(struct roc_npc *roc_npc, struct roc_npc_flow *mcam)
{
struct npc *npc = roc_npc_to_npc_priv(roc_npc);
return npc_mcam_write_entry(npc, mcam);
}
int
roc_npc_get_low_priority_mcam(struct roc_npc *roc_npc)
{
struct npc *npc = roc_npc_to_npc_priv(roc_npc);
if (roc_model_is_cn10k())
return (npc->mcam_entries - NPC_MCAME_RESVD_10XX - 1);
else
return (npc->mcam_entries - NPC_MCAME_RESVD_9XXX - 1);
}
static int
npc_mcam_tot_entries(void)
{
/* FIXME: change to reading in AF from NPC_AF_CONST1/2
* MCAM_BANK_DEPTH(_EXT) * MCAM_BANKS
*/
if (roc_model_is_cn10k() || roc_model_is_cn98xx())
return 16 * 1024; /* MCAM_BANKS = 4, BANK_DEPTH_EXT = 4096 */
else
return 4 * 1024; /* MCAM_BANKS = 4, BANK_DEPTH_EXT = 1024 */
}
const char *
roc_npc_profile_name_get(struct roc_npc *roc_npc)
{
struct npc *npc = roc_npc_to_npc_priv(roc_npc);
return (char *)npc->profile_name;
}
int
roc_npc_init(struct roc_npc *roc_npc)
{
uint8_t *mem = NULL, *nix_mem = NULL, *npc_mem = NULL;
struct nix *nix = roc_nix_to_nix_priv(roc_npc->roc_nix);
struct npc *npc = roc_npc_to_npc_priv(roc_npc);
uint32_t bmap_sz;
int rc = 0, idx;
size_t sz;
PLT_STATIC_ASSERT(sizeof(struct npc) <= ROC_NPC_MEM_SZ);
memset(npc, 0, sizeof(*npc));
npc->mbox = (&nix->dev)->mbox;
roc_npc->channel = nix->rx_chan_base;
roc_npc->pf_func = (&nix->dev)->pf_func;
npc->channel = roc_npc->channel;
npc->pf_func = roc_npc->pf_func;
npc->flow_max_priority = roc_npc->flow_max_priority;
npc->switch_header_type = roc_npc->switch_header_type;
npc->flow_prealloc_size = roc_npc->flow_prealloc_size;
if (npc->mbox == NULL)
return NPC_ERR_PARAM;
rc = npc_mcam_fetch_kex_cfg(npc);
if (rc)
goto done;
roc_npc->kex_capability = npc_get_kex_capability(npc);
roc_npc->rx_parse_nibble = npc->keyx_supp_nmask[NPC_MCAM_RX];
npc->mark_actions = 0;
npc->mcam_entries = npc_mcam_tot_entries() >> npc->keyw[NPC_MCAM_RX];
/* Free, free_rev, live and live_rev entries */
bmap_sz = plt_bitmap_get_memory_footprint(npc->mcam_entries);
mem = plt_zmalloc(4 * bmap_sz * npc->flow_max_priority, 0);
if (mem == NULL) {
plt_err("Bmap alloc failed");
rc = NPC_ERR_NO_MEM;
return rc;
}
sz = npc->flow_max_priority * sizeof(struct npc_mcam_ents_info);
npc->flow_entry_info = plt_zmalloc(sz, 0);
if (npc->flow_entry_info == NULL) {
plt_err("flow_entry_info alloc failed");
rc = NPC_ERR_NO_MEM;
goto done;
}
sz = npc->flow_max_priority * sizeof(struct plt_bitmap *);
npc->free_entries = plt_zmalloc(sz, 0);
if (npc->free_entries == NULL) {
plt_err("free_entries alloc failed");
rc = NPC_ERR_NO_MEM;
goto done;
}
sz = npc->flow_max_priority * sizeof(struct plt_bitmap *);
npc->free_entries_rev = plt_zmalloc(sz, 0);
if (npc->free_entries_rev == NULL) {
plt_err("free_entries_rev alloc failed");
rc = NPC_ERR_NO_MEM;
goto done;
}
sz = npc->flow_max_priority * sizeof(struct plt_bitmap *);
npc->live_entries = plt_zmalloc(sz, 0);
if (npc->live_entries == NULL) {
plt_err("live_entries alloc failed");
rc = NPC_ERR_NO_MEM;
goto done;
}
sz = npc->flow_max_priority * sizeof(struct plt_bitmap *);
npc->live_entries_rev = plt_zmalloc(sz, 0);
if (npc->live_entries_rev == NULL) {
plt_err("live_entries_rev alloc failed");
rc = NPC_ERR_NO_MEM;
goto done;
}
sz = npc->flow_max_priority * sizeof(struct npc_flow_list);
npc->flow_list = plt_zmalloc(sz, 0);
if (npc->flow_list == NULL) {
plt_err("flow_list alloc failed");
rc = NPC_ERR_NO_MEM;
goto done;
}
npc_mem = mem;
for (idx = 0; idx < npc->flow_max_priority; idx++) {
TAILQ_INIT(&npc->flow_list[idx]);
npc->free_entries[idx] =
plt_bitmap_init(npc->mcam_entries, mem, bmap_sz);
mem += bmap_sz;
npc->free_entries_rev[idx] =
plt_bitmap_init(npc->mcam_entries, mem, bmap_sz);
mem += bmap_sz;
npc->live_entries[idx] =
plt_bitmap_init(npc->mcam_entries, mem, bmap_sz);
mem += bmap_sz;
npc->live_entries_rev[idx] =
plt_bitmap_init(npc->mcam_entries, mem, bmap_sz);
mem += bmap_sz;
npc->flow_entry_info[idx].free_ent = 0;
npc->flow_entry_info[idx].live_ent = 0;
npc->flow_entry_info[idx].max_id = 0;
npc->flow_entry_info[idx].min_id = ~(0);
}
npc->rss_grps = NPC_RSS_GRPS;
bmap_sz = plt_bitmap_get_memory_footprint(npc->rss_grps);
nix_mem = plt_zmalloc(bmap_sz, 0);
if (nix_mem == NULL) {
plt_err("Bmap alloc failed");
rc = NPC_ERR_NO_MEM;
goto done;
}
npc->rss_grp_entries = plt_bitmap_init(npc->rss_grps, nix_mem, bmap_sz);
if (!npc->rss_grp_entries) {
plt_err("bitmap init failed");
rc = NPC_ERR_NO_MEM;
goto done;
}
/* Group 0 will be used for RSS,
* 1 -7 will be used for npc_flow RSS action
*/
plt_bitmap_set(npc->rss_grp_entries, 0);
return rc;
done:
if (npc->flow_list)
plt_free(npc->flow_list);
if (npc->live_entries_rev)
plt_free(npc->live_entries_rev);
if (npc->live_entries)
plt_free(npc->live_entries);
if (npc->free_entries_rev)
plt_free(npc->free_entries_rev);
if (npc->free_entries)
plt_free(npc->free_entries);
if (npc->flow_entry_info)
plt_free(npc->flow_entry_info);
if (npc_mem)
plt_free(npc_mem);
return rc;
}
int
roc_npc_fini(struct roc_npc *roc_npc)
{
struct npc *npc = roc_npc_to_npc_priv(roc_npc);
int rc;
rc = npc_flow_free_all_resources(npc);
if (rc) {
plt_err("Error when deleting NPC MCAM entries, counters");
return rc;
}
if (npc->flow_list) {
plt_free(npc->flow_list);
npc->flow_list = NULL;
}
if (npc->live_entries_rev) {
plt_free(npc->live_entries_rev);
npc->live_entries_rev = NULL;
}
if (npc->live_entries) {
plt_free(npc->live_entries);
npc->live_entries = NULL;
}
if (npc->free_entries_rev) {
plt_free(npc->free_entries_rev);
npc->free_entries_rev = NULL;
}
if (npc->free_entries) {
plt_free(npc->free_entries);
npc->free_entries = NULL;
}
if (npc->flow_entry_info) {
plt_free(npc->flow_entry_info);
npc->flow_entry_info = NULL;
}
return 0;
}
static int
npc_parse_actions(struct npc *npc, const struct roc_npc_attr *attr,
const struct roc_npc_action actions[],
struct roc_npc_flow *flow)
{
const struct roc_npc_action_mark *act_mark;
const struct roc_npc_action_queue *act_q;
const struct roc_npc_action_vf *vf_act;
bool vlan_insert_action = false;
int sel_act, req_act = 0;
uint16_t pf_func, vf_id;
int errcode = 0;
int mark = 0;
int rq = 0;
/* Initialize actions */
flow->ctr_id = NPC_COUNTER_NONE;
pf_func = npc->pf_func;
for (; actions->type != ROC_NPC_ACTION_TYPE_END; actions++) {
switch (actions->type) {
case ROC_NPC_ACTION_TYPE_VOID:
break;
case ROC_NPC_ACTION_TYPE_MARK:
act_mark = (const struct roc_npc_action_mark *)
actions->conf;
if (act_mark->id > (NPC_FLOW_FLAG_VAL - 2)) {
plt_err("mark value must be < 0xfffe");
goto err_exit;
}
mark = act_mark->id + 1;
req_act |= ROC_NPC_ACTION_TYPE_MARK;
npc->mark_actions += 1;
break;
case ROC_NPC_ACTION_TYPE_FLAG:
mark = NPC_FLOW_FLAG_VAL;
req_act |= ROC_NPC_ACTION_TYPE_FLAG;
npc->mark_actions += 1;
break;
case ROC_NPC_ACTION_TYPE_COUNT:
/* Indicates, need a counter */
flow->ctr_id = 1;
req_act |= ROC_NPC_ACTION_TYPE_COUNT;
break;
case ROC_NPC_ACTION_TYPE_DROP:
req_act |= ROC_NPC_ACTION_TYPE_DROP;
break;
case ROC_NPC_ACTION_TYPE_PF:
req_act |= ROC_NPC_ACTION_TYPE_PF;
pf_func &= (0xfc00);
break;
case ROC_NPC_ACTION_TYPE_VF:
vf_act =
(const struct roc_npc_action_vf *)actions->conf;
req_act |= ROC_NPC_ACTION_TYPE_VF;
vf_id = vf_act->id & RVU_PFVF_FUNC_MASK;
pf_func &= (0xfc00);
pf_func = (pf_func | (vf_id + 1));
break;
case ROC_NPC_ACTION_TYPE_QUEUE:
act_q = (const struct roc_npc_action_queue *)
actions->conf;
rq = act_q->index;
req_act |= ROC_NPC_ACTION_TYPE_QUEUE;
break;
case ROC_NPC_ACTION_TYPE_RSS:
req_act |= ROC_NPC_ACTION_TYPE_RSS;
break;
case ROC_NPC_ACTION_TYPE_SEC:
/* Assumes user has already configured security
* session for this flow. Associated conf is
* opaque. When security is implemented,
* we need to verify that for specified security
* session:
* action_type ==
* NPC_SECURITY_ACTION_TYPE_INLINE_PROTOCOL &&
* session_protocol ==
* NPC_SECURITY_PROTOCOL_IPSEC
*
* RSS is not supported with inline ipsec. Get the
* rq from associated conf, or make
* ROC_NPC_ACTION_TYPE_QUEUE compulsory with this
* action.
* Currently, rq = 0 is assumed.
*/
req_act |= ROC_NPC_ACTION_TYPE_SEC;
rq = 0;
break;
case ROC_NPC_ACTION_TYPE_VLAN_STRIP:
req_act |= ROC_NPC_ACTION_TYPE_VLAN_STRIP;
break;
case ROC_NPC_ACTION_TYPE_VLAN_INSERT:
req_act |= ROC_NPC_ACTION_TYPE_VLAN_INSERT;
break;
case ROC_NPC_ACTION_TYPE_VLAN_ETHTYPE_INSERT:
req_act |= ROC_NPC_ACTION_TYPE_VLAN_ETHTYPE_INSERT;
break;
case ROC_NPC_ACTION_TYPE_VLAN_PCP_INSERT:
req_act |= ROC_NPC_ACTION_TYPE_VLAN_PCP_INSERT;
break;
default:
errcode = NPC_ERR_ACTION_NOTSUP;
goto err_exit;
}
}
if (req_act & (ROC_NPC_ACTION_TYPE_VLAN_INSERT |
ROC_NPC_ACTION_TYPE_VLAN_ETHTYPE_INSERT |
ROC_NPC_ACTION_TYPE_VLAN_PCP_INSERT))
vlan_insert_action = true;
if ((req_act & (ROC_NPC_ACTION_TYPE_VLAN_INSERT |
ROC_NPC_ACTION_TYPE_VLAN_ETHTYPE_INSERT |
ROC_NPC_ACTION_TYPE_VLAN_PCP_INSERT)) ==
ROC_NPC_ACTION_TYPE_VLAN_PCP_INSERT) {
plt_err("PCP insert action can't be supported alone");
errcode = NPC_ERR_ACTION_NOTSUP;
goto err_exit;
}
/* Both STRIP and INSERT actions are not supported */
if (vlan_insert_action && (req_act & ROC_NPC_ACTION_TYPE_VLAN_STRIP)) {
errcode = NPC_ERR_ACTION_NOTSUP;
goto err_exit;
}
/* Check if actions specified are compatible */
if (attr->egress) {
if (req_act & ROC_NPC_ACTION_TYPE_VLAN_STRIP) {
plt_err("VLAN pop action is not supported on Egress");
errcode = NPC_ERR_ACTION_NOTSUP;
goto err_exit;
}
if (req_act & ROC_NPC_ACTION_TYPE_DROP) {
flow->npc_action = NIX_TX_ACTIONOP_DROP;
} else if ((req_act & ROC_NPC_ACTION_TYPE_COUNT) ||
vlan_insert_action) {
flow->npc_action = NIX_TX_ACTIONOP_UCAST_DEFAULT;
} else {
plt_err("Unsupported action for egress");
errcode = NPC_ERR_ACTION_NOTSUP;
goto err_exit;
}
goto set_pf_func;
} else {
if (vlan_insert_action) {
errcode = NPC_ERR_ACTION_NOTSUP;
goto err_exit;
}
}
/* We have already verified the attr, this is ingress.
* - Exactly one terminating action is supported
* - Exactly one of MARK or FLAG is supported
* - If terminating action is DROP, only count is valid.
*/
sel_act = req_act & NPC_ACTION_TERM;
if ((sel_act & (sel_act - 1)) != 0) {
errcode = NPC_ERR_ACTION_NOTSUP;
goto err_exit;
}
if (req_act & ROC_NPC_ACTION_TYPE_DROP) {
sel_act = req_act & ~ROC_NPC_ACTION_TYPE_COUNT;
if ((sel_act & (sel_act - 1)) != 0) {
errcode = NPC_ERR_ACTION_NOTSUP;
goto err_exit;
}
}
if ((req_act & (ROC_NPC_ACTION_TYPE_FLAG | ROC_NPC_ACTION_TYPE_MARK)) ==
(ROC_NPC_ACTION_TYPE_FLAG | ROC_NPC_ACTION_TYPE_MARK)) {
errcode = NPC_ERR_ACTION_NOTSUP;
goto err_exit;
}
if (req_act & ROC_NPC_ACTION_TYPE_VLAN_STRIP)
npc->vtag_actions++;
/* Only VLAN action is provided */
if (req_act == ROC_NPC_ACTION_TYPE_VLAN_STRIP)
flow->npc_action = NIX_RX_ACTIONOP_UCAST;
/* Set NIX_RX_ACTIONOP */
if (req_act & (ROC_NPC_ACTION_TYPE_PF | ROC_NPC_ACTION_TYPE_VF)) {
flow->npc_action = NIX_RX_ACTIONOP_UCAST;
if (req_act & ROC_NPC_ACTION_TYPE_QUEUE)
flow->npc_action |= (uint64_t)rq << 20;
} else if (req_act & ROC_NPC_ACTION_TYPE_DROP) {
flow->npc_action = NIX_RX_ACTIONOP_DROP;
} else if (req_act & ROC_NPC_ACTION_TYPE_QUEUE) {
flow->npc_action = NIX_RX_ACTIONOP_UCAST;
flow->npc_action |= (uint64_t)rq << 20;
} else if (req_act & ROC_NPC_ACTION_TYPE_RSS) {
flow->npc_action = NIX_RX_ACTIONOP_UCAST;
} else if (req_act & ROC_NPC_ACTION_TYPE_SEC) {
flow->npc_action = NIX_RX_ACTIONOP_UCAST_IPSEC;
flow->npc_action |= (uint64_t)rq << 20;
} else if (req_act &
(ROC_NPC_ACTION_TYPE_FLAG | ROC_NPC_ACTION_TYPE_MARK)) {
flow->npc_action = NIX_RX_ACTIONOP_UCAST;
} else if (req_act & ROC_NPC_ACTION_TYPE_COUNT) {
/* Keep ROC_NPC_ACTION_TYPE_COUNT_ACT always at the end
* This is default action, when user specify only
* COUNT ACTION
*/
flow->npc_action = NIX_RX_ACTIONOP_UCAST;
} else {
/* Should never reach here */
errcode = NPC_ERR_ACTION_NOTSUP;
goto err_exit;
}
if (mark)
flow->npc_action |= (uint64_t)mark << 40;
set_pf_func:
/* Ideally AF must ensure that correct pf_func is set */
flow->npc_action |= (uint64_t)pf_func << 4;
return 0;
err_exit:
return errcode;
}
typedef int (*npc_parse_stage_func_t)(struct npc_parse_state *pst);
static int
npc_parse_pattern(struct npc *npc, const struct roc_npc_item_info pattern[],
struct roc_npc_flow *flow, struct npc_parse_state *pst)
{
npc_parse_stage_func_t parse_stage_funcs[] = {
npc_parse_meta_items, npc_parse_cpt_hdr, npc_parse_higig2_hdr,
npc_parse_la, npc_parse_lb, npc_parse_lc,
npc_parse_ld, npc_parse_le, npc_parse_lf,
npc_parse_lg, npc_parse_lh,
};
uint8_t layer = 0;
int key_offset;
int rc;
if (pattern == NULL)
return NPC_ERR_PARAM;
memset(pst, 0, sizeof(*pst));
pst->npc = npc;
pst->flow = flow;
/* Use integral byte offset */
key_offset = pst->npc->keyx_len[flow->nix_intf];
key_offset = (key_offset + 7) / 8;
/* Location where LDATA would begin */
pst->mcam_data = (uint8_t *)flow->mcam_data;
pst->mcam_mask = (uint8_t *)flow->mcam_mask;
while (pattern->type != ROC_NPC_ITEM_TYPE_END &&
layer < PLT_DIM(parse_stage_funcs)) {
/* Skip place-holders */
pattern = npc_parse_skip_void_and_any_items(pattern);
pst->pattern = pattern;
rc = parse_stage_funcs[layer](pst);
if (rc != 0)
return rc;
layer++;
/*
* Parse stage function sets pst->pattern to
* 1 past the last item it consumed.
*/
pattern = pst->pattern;
if (pst->terminate)
break;
}
/* Skip trailing place-holders */
pattern = npc_parse_skip_void_and_any_items(pattern);
/* Are there more items than what we can handle? */
if (pattern->type != ROC_NPC_ITEM_TYPE_END)
return NPC_ERR_PATTERN_NOTSUP;
return 0;
}
static int
npc_parse_attr(struct npc *npc, const struct roc_npc_attr *attr,
struct roc_npc_flow *flow)
{
if (attr == NULL)
return NPC_ERR_PARAM;
else if (attr->priority >= npc->flow_max_priority)
return NPC_ERR_PARAM;
else if ((!attr->egress && !attr->ingress) ||
(attr->egress && attr->ingress))
return NPC_ERR_PARAM;
if (attr->ingress)
flow->nix_intf = ROC_NPC_INTF_RX;
else
flow->nix_intf = ROC_NPC_INTF_TX;
flow->priority = attr->priority;
return 0;
}
static int
npc_parse_rule(struct npc *npc, const struct roc_npc_attr *attr,
const struct roc_npc_item_info pattern[],
const struct roc_npc_action actions[], struct roc_npc_flow *flow,
struct npc_parse_state *pst)
{
int err;
/* Check attr */
err = npc_parse_attr(npc, attr, flow);
if (err)
return err;
/* Check pattern */
err = npc_parse_pattern(npc, pattern, flow, pst);
if (err)
return err;
/* Check action */
err = npc_parse_actions(npc, attr, actions, flow);
if (err)
return err;
return 0;
}
int
roc_npc_flow_parse(struct roc_npc *roc_npc, const struct roc_npc_attr *attr,
const struct roc_npc_item_info pattern[],
const struct roc_npc_action actions[],
struct roc_npc_flow *flow)
{
struct npc *npc = roc_npc_to_npc_priv(roc_npc);
struct npc_parse_state parse_state = {0};
int rc;
rc = npc_parse_rule(npc, attr, pattern, actions, flow, &parse_state);
if (rc)
return rc;
parse_state.is_vf = !roc_nix_is_pf(roc_npc->roc_nix);
return npc_program_mcam(npc, &parse_state, 0);
}
int
npc_rss_free_grp_get(struct npc *npc, uint32_t *pos)
{
struct plt_bitmap *bmap = npc->rss_grp_entries;
for (*pos = 0; *pos < ROC_NIX_RSS_GRPS; ++*pos) {
if (!plt_bitmap_get(bmap, *pos))
break;
}
return *pos < ROC_NIX_RSS_GRPS ? 0 : -1;
}
int
npc_rss_action_configure(struct roc_npc *roc_npc,
const struct roc_npc_action_rss *rss, uint8_t *alg_idx,
uint32_t *rss_grp, uint32_t mcam_id)
{
struct npc *npc = roc_npc_to_npc_priv(roc_npc);
struct roc_nix *roc_nix = roc_npc->roc_nix;
struct nix *nix = roc_nix_to_nix_priv(roc_nix);
uint32_t flowkey_cfg, rss_grp_idx, i, rem;
uint8_t key[ROC_NIX_RSS_KEY_LEN];
const uint8_t *key_ptr;
uint8_t flowkey_algx;
uint16_t *reta;
int rc;
rc = npc_rss_free_grp_get(npc, &rss_grp_idx);
/* RSS group :0 is not usable for flow rss action */
if (rc < 0 || rss_grp_idx == 0)
return -ENOSPC;
for (i = 0; i < rss->queue_num; i++) {
if (rss->queue[i] >= nix->nb_rx_queues) {
plt_err("queue id > max number of queues");
return -EINVAL;
}
}
*rss_grp = rss_grp_idx;
if (rss->key == NULL) {
roc_nix_rss_key_default_fill(roc_nix, key);
key_ptr = key;
} else {
key_ptr = rss->key;
}
roc_nix_rss_key_set(roc_nix, key_ptr);
/* If queue count passed in the rss action is less than
* HW configured reta size, replicate rss action reta
* across HW reta table.
*/
reta = nix->reta[rss_grp_idx];
if (rss->queue_num > nix->reta_sz) {
plt_err("too many queues for RSS context");
return -ENOTSUP;
}
for (i = 0; i < (nix->reta_sz / rss->queue_num); i++)
memcpy(reta + i * rss->queue_num, rss->queue,
sizeof(uint16_t) * rss->queue_num);
rem = nix->reta_sz % rss->queue_num;
if (rem)
memcpy(&reta[i * rss->queue_num], rss->queue,
rem * sizeof(uint16_t));
rc = roc_nix_rss_reta_set(roc_nix, *rss_grp, reta);
if (rc) {
plt_err("Failed to init rss table rc = %d", rc);
return rc;
}
flowkey_cfg = roc_npc->flowkey_cfg_state;
rc = roc_nix_rss_flowkey_set(roc_nix, &flowkey_algx, flowkey_cfg,
*rss_grp, mcam_id);
if (rc) {
plt_err("Failed to set rss hash function rc = %d", rc);
return rc;
}
*alg_idx = flowkey_algx;
plt_bitmap_set(npc->rss_grp_entries, *rss_grp);
return 0;
}
int
npc_rss_action_program(struct roc_npc *roc_npc,
const struct roc_npc_action actions[],
struct roc_npc_flow *flow)
{
const struct roc_npc_action_rss *rss;
uint32_t rss_grp;
uint8_t alg_idx;
int rc;
for (; actions->type != ROC_NPC_ACTION_TYPE_END; actions++) {
if (actions->type == ROC_NPC_ACTION_TYPE_RSS) {
rss = (const struct roc_npc_action_rss *)actions->conf;
rc = npc_rss_action_configure(roc_npc, rss, &alg_idx,
&rss_grp, flow->mcam_id);
if (rc)
return rc;
flow->npc_action &= (~(0xfULL));
flow->npc_action |= NIX_RX_ACTIONOP_RSS;
flow->npc_action |=
((uint64_t)(alg_idx & NPC_RSS_ACT_ALG_MASK)
<< NPC_RSS_ACT_ALG_OFFSET) |
((uint64_t)(rss_grp & NPC_RSS_ACT_GRP_MASK)
<< NPC_RSS_ACT_GRP_OFFSET);
break;
}
}
return 0;
}
int
roc_npc_mark_actions_get(struct roc_npc *roc_npc)
{
struct npc *npc = roc_npc_to_npc_priv(roc_npc);
return npc->mark_actions;
}
int
roc_npc_mark_actions_sub_return(struct roc_npc *roc_npc, uint32_t count)
{
struct npc *npc = roc_npc_to_npc_priv(roc_npc);
npc->mark_actions -= count;
return npc->mark_actions;
}
static int
npc_vtag_cfg_delete(struct roc_npc *roc_npc, struct roc_npc_flow *flow)
{
struct roc_nix *roc_nix = roc_npc->roc_nix;
struct nix_vtag_config *vtag_cfg;
struct nix_vtag_config_rsp *rsp;
struct mbox *mbox;
struct nix *nix;
int rc = 0;
union {
uint64_t reg;
struct nix_tx_vtag_action_s act;
} tx_vtag_action;
nix = roc_nix_to_nix_priv(roc_nix);
mbox = (&nix->dev)->mbox;
tx_vtag_action.reg = flow->vtag_action;
vtag_cfg = mbox_alloc_msg_nix_vtag_cfg(mbox);
if (vtag_cfg == NULL)
return -ENOSPC;
vtag_cfg->cfg_type = VTAG_TX;
vtag_cfg->vtag_size = NIX_VTAGSIZE_T4;
vtag_cfg->tx.vtag0_idx = tx_vtag_action.act.vtag0_def;
vtag_cfg->tx.free_vtag0 = true;
rc = mbox_process_msg(mbox, (void *)&rsp);
if (rc)
return rc;
return 0;
}
static int
npc_vtag_action_program(struct roc_npc *roc_npc,
const struct roc_npc_action actions[],
struct roc_npc_flow *flow)
{
uint16_t vlan_id = 0, vlan_ethtype = ROC_ETHER_TYPE_VLAN;
struct npc *npc = roc_npc_to_npc_priv(roc_npc);
struct roc_nix *roc_nix = roc_npc->roc_nix;
struct nix_vtag_config *vtag_cfg;
struct nix_vtag_config_rsp *rsp;
uint64_t rx_vtag_action = 0;
uint8_t vlan_pcp = 0;
struct mbox *mbox;
struct nix *nix;
int rc;
union {
uint64_t reg;
struct nix_tx_vtag_action_s act;
} tx_vtag_action;
nix = roc_nix_to_nix_priv(roc_nix);
mbox = (&nix->dev)->mbox;
flow->vtag_insert_enabled = false;
for (; actions->type != ROC_NPC_ACTION_TYPE_END; actions++) {
if (actions->type == ROC_NPC_ACTION_TYPE_VLAN_STRIP) {
if (npc->vtag_actions == 1) {
vtag_cfg = mbox_alloc_msg_nix_vtag_cfg(mbox);
if (vtag_cfg == NULL)
return -ENOSPC;
vtag_cfg->cfg_type = VTAG_RX;
vtag_cfg->rx.strip_vtag = 1;
/* Always capture */
vtag_cfg->rx.capture_vtag = 1;
vtag_cfg->vtag_size = NIX_VTAGSIZE_T4;
vtag_cfg->rx.vtag_type = 0;
rc = mbox_process(mbox);
if (rc)
return rc;
}
rx_vtag_action |= (NIX_RX_VTAGACTION_VTAG_VALID << 15);
rx_vtag_action |= ((uint64_t)NPC_LID_LB << 8);
rx_vtag_action |= NIX_RX_VTAGACTION_VTAG0_RELPTR;
flow->vtag_action = rx_vtag_action;
} else if (actions->type == ROC_NPC_ACTION_TYPE_VLAN_INSERT) {
const struct roc_npc_action_of_set_vlan_vid *vtag =
(const struct roc_npc_action_of_set_vlan_vid *)
actions->conf;
vlan_id = plt_be_to_cpu_16(vtag->vlan_vid);
if (vlan_id > 0xfff) {
plt_err("Invalid vlan_id for set vlan action");
return -EINVAL;
}
flow->vtag_insert_enabled = true;
} else if (actions->type ==
ROC_NPC_ACTION_TYPE_VLAN_ETHTYPE_INSERT) {
const struct roc_npc_action_of_push_vlan *ethtype =
(const struct roc_npc_action_of_push_vlan *)
actions->conf;
vlan_ethtype = plt_be_to_cpu_16(ethtype->ethertype);
if (vlan_ethtype != ROC_ETHER_TYPE_VLAN &&
vlan_ethtype != ROC_ETHER_TYPE_QINQ) {
plt_err("Invalid ethtype specified for push"
" vlan action");
return -EINVAL;
}
flow->vtag_insert_enabled = true;
} else if (actions->type ==
ROC_NPC_ACTION_TYPE_VLAN_PCP_INSERT) {
const struct roc_npc_action_of_set_vlan_pcp *pcp =
(const struct roc_npc_action_of_set_vlan_pcp *)
actions->conf;
vlan_pcp = pcp->vlan_pcp;
if (vlan_pcp > 0x7) {
plt_err("Invalid PCP value for pcp action");
return -EINVAL;
}
flow->vtag_insert_enabled = true;
}
}
if (flow->vtag_insert_enabled) {
vtag_cfg = mbox_alloc_msg_nix_vtag_cfg(mbox);
if (vtag_cfg == NULL)
return -ENOSPC;
vtag_cfg->cfg_type = VTAG_TX;
vtag_cfg->vtag_size = NIX_VTAGSIZE_T4;
vtag_cfg->tx.vtag0 =
((vlan_ethtype << 16) | (vlan_pcp << 13) | vlan_id);
vtag_cfg->tx.cfg_vtag0 = 1;
rc = mbox_process_msg(mbox, (void *)&rsp);
if (rc)
return rc;
if (rsp->vtag0_idx < 0) {
plt_err("Failed to config TX VTAG action");
return -EINVAL;
}
tx_vtag_action.reg = 0;
tx_vtag_action.act.vtag0_def = rsp->vtag0_idx;
tx_vtag_action.act.vtag0_lid = NPC_LID_LA;
tx_vtag_action.act.vtag0_op = NIX_TX_VTAGOP_INSERT;
tx_vtag_action.act.vtag0_relptr =
NIX_TX_VTAGACTION_VTAG0_RELPTR;
flow->vtag_action = tx_vtag_action.reg;
}
return 0;
}
struct roc_npc_flow *
roc_npc_flow_create(struct roc_npc *roc_npc, const struct roc_npc_attr *attr,
const struct roc_npc_item_info pattern[],
const struct roc_npc_action actions[], int *errcode)
{
struct npc *npc = roc_npc_to_npc_priv(roc_npc);
struct roc_npc_flow *flow, *flow_iter;
struct npc_parse_state parse_state;
struct npc_flow_list *list;
int rc;
npc->channel = roc_npc->channel;
flow = plt_zmalloc(sizeof(*flow), 0);
if (flow == NULL) {
*errcode = NPC_ERR_NO_MEM;
return NULL;
}
memset(flow, 0, sizeof(*flow));
rc = npc_parse_rule(npc, attr, pattern, actions, flow, &parse_state);
if (rc != 0) {
*errcode = rc;
goto err_exit;
}
rc = npc_vtag_action_program(roc_npc, actions, flow);
if (rc != 0) {
*errcode = rc;
goto err_exit;
}
parse_state.is_vf = !roc_nix_is_pf(roc_npc->roc_nix);
rc = npc_program_mcam(npc, &parse_state, 1);
if (rc != 0) {
*errcode = rc;
goto err_exit;
}
rc = npc_rss_action_program(roc_npc, actions, flow);
if (rc != 0) {
*errcode = rc;
goto set_rss_failed;
}
list = &npc->flow_list[flow->priority];
/* List in ascending order of mcam entries */
TAILQ_FOREACH(flow_iter, list, next) {
if (flow_iter->mcam_id > flow->mcam_id) {
TAILQ_INSERT_BEFORE(flow_iter, flow, next);
return flow;
}
}
TAILQ_INSERT_TAIL(list, flow, next);
return flow;
set_rss_failed:
rc = npc_mcam_free_entry(npc, flow->mcam_id);
if (rc != 0) {
*errcode = rc;
plt_free(flow);
return NULL;
}
err_exit:
plt_free(flow);
return NULL;
}
int
npc_rss_group_free(struct npc *npc, struct roc_npc_flow *flow)
{
uint32_t rss_grp;
if ((flow->npc_action & 0xF) == NIX_RX_ACTIONOP_RSS) {
rss_grp = (flow->npc_action >> NPC_RSS_ACT_GRP_OFFSET) &
NPC_RSS_ACT_GRP_MASK;
if (rss_grp == 0 || rss_grp >= npc->rss_grps)
return -EINVAL;
plt_bitmap_clear(npc->rss_grp_entries, rss_grp);
}
return 0;
}
int
roc_npc_flow_destroy(struct roc_npc *roc_npc, struct roc_npc_flow *flow)
{
struct npc *npc = roc_npc_to_npc_priv(roc_npc);
struct plt_bitmap *bmap;
int rc;
rc = npc_rss_group_free(npc, flow);
if (rc != 0) {
plt_err("Failed to free rss action rc = %d", rc);
return rc;
}
if (flow->vtag_insert_enabled) {
rc = npc_vtag_cfg_delete(roc_npc, flow);
if (rc != 0)
return rc;
}
rc = npc_mcam_free_entry(npc, flow->mcam_id);
if (rc != 0)
return rc;
TAILQ_REMOVE(&npc->flow_list[flow->priority], flow, next);
bmap = npc->live_entries[flow->priority];
plt_bitmap_clear(bmap, flow->mcam_id);
plt_free(flow);
return 0;
}
void
roc_npc_flow_dump(FILE *file, struct roc_npc *roc_npc)
{
struct npc *npc = roc_npc_to_npc_priv(roc_npc);
struct roc_npc_flow *flow_iter;
struct npc_flow_list *list;
uint32_t max_prio, i;
max_prio = npc->flow_max_priority;
for (i = 0; i < max_prio; i++) {
list = &npc->flow_list[i];
/* List in ascending order of mcam entries */
TAILQ_FOREACH(flow_iter, list, next) {
roc_npc_flow_mcam_dump(file, roc_npc, flow_iter);
}
}
}
Reference in New Issue View Git Blame Copy Permalink