]> git.baikalelectronics.ru Git - kernel.git/commitdiff
net: atlantic: MACSec offload statistics HW bindings
authorDmitry Bogdanov <dbogdanov@marvell.com>
Wed, 25 Mar 2020 12:52:44 +0000 (15:52 +0300)
committerDavid S. Miller <davem@davemloft.net>
Fri, 27 Mar 2020 03:17:37 +0000 (20:17 -0700)
This patch adds the Atlantic HW-specific bindings for MACSec statistics,
e.g. register addresses / structs, helper function, etc, which will be
used by actual callback implementations.

Signed-off-by: Dmitry Bogdanov <dbogdanov@marvell.com>
Signed-off-by: Mark Starovoytov <mstarovoitov@marvell.com>
Signed-off-by: Igor Russkikh <irusskikh@marvell.com>
Signed-off-by: David S. Miller <davem@davemloft.net>
drivers/net/ethernet/aquantia/atlantic/macsec/macsec_api.c
drivers/net/ethernet/aquantia/atlantic/macsec/macsec_api.h
drivers/net/ethernet/aquantia/atlantic/macsec/macsec_struct.h

index 44d9296dfa63891635849e237b9d528bea91979c..97901c114bfab4253e104ecbcc34163162a341c4 100644 (file)
@@ -1817,6 +1817,551 @@ int aq_mss_get_egress_sakey_record(struct aq_hw_s *hw,
        return AQ_API_CALL_SAFE(get_egress_sakey_record, hw, rec, table_index);
 }
 
+static int get_egress_sc_counters(struct aq_hw_s *hw,
+                                 struct aq_mss_egress_sc_counters *counters,
+                                 u16 sc_index)
+{
+       u16 packed_record[4];
+       int ret;
+
+       if (sc_index >= NUMROWS_EGRESSSCRECORD)
+               return -EINVAL;
+
+       ret = get_raw_egress_record(hw, packed_record, 4, 3, sc_index * 8 + 4);
+       if (unlikely(ret))
+               return ret;
+       counters->sc_protected_pkts[0] =
+               packed_record[0] | (packed_record[1] << 16);
+       counters->sc_protected_pkts[1] =
+               packed_record[2] | (packed_record[3] << 16);
+
+       ret = get_raw_egress_record(hw, packed_record, 4, 3, sc_index * 8 + 5);
+       if (unlikely(ret))
+               return ret;
+       counters->sc_encrypted_pkts[0] =
+               packed_record[0] | (packed_record[1] << 16);
+       counters->sc_encrypted_pkts[1] =
+               packed_record[2] | (packed_record[3] << 16);
+
+       ret = get_raw_egress_record(hw, packed_record, 4, 3, sc_index * 8 + 6);
+       if (unlikely(ret))
+               return ret;
+       counters->sc_protected_octets[0] =
+               packed_record[0] | (packed_record[1] << 16);
+       counters->sc_protected_octets[1] =
+               packed_record[2] | (packed_record[3] << 16);
+
+       ret = get_raw_egress_record(hw, packed_record, 4, 3, sc_index * 8 + 7);
+       if (unlikely(ret))
+               return ret;
+       counters->sc_encrypted_octets[0] =
+               packed_record[0] | (packed_record[1] << 16);
+       counters->sc_encrypted_octets[1] =
+               packed_record[2] | (packed_record[3] << 16);
+
+       return 0;
+}
+
+int aq_mss_get_egress_sc_counters(struct aq_hw_s *hw,
+                                 struct aq_mss_egress_sc_counters *counters,
+                                 u16 sc_index)
+{
+       memset(counters, 0, sizeof(*counters));
+
+       return AQ_API_CALL_SAFE(get_egress_sc_counters, hw, counters, sc_index);
+}
+
+static int get_egress_sa_counters(struct aq_hw_s *hw,
+                                 struct aq_mss_egress_sa_counters *counters,
+                                 u16 sa_index)
+{
+       u16 packed_record[4];
+       int ret;
+
+       if (sa_index >= NUMROWS_EGRESSSARECORD)
+               return -EINVAL;
+
+       ret = get_raw_egress_record(hw, packed_record, 4, 3, sa_index * 8 + 0);
+       if (unlikely(ret))
+               return ret;
+       counters->sa_hit_drop_redirect[0] =
+               packed_record[0] | (packed_record[1] << 16);
+       counters->sa_hit_drop_redirect[1] =
+               packed_record[2] | (packed_record[3] << 16);
+
+       ret = get_raw_egress_record(hw, packed_record, 4, 3, sa_index * 8 + 1);
+       if (unlikely(ret))
+               return ret;
+       counters->sa_protected2_pkts[0] =
+               packed_record[0] | (packed_record[1] << 16);
+       counters->sa_protected2_pkts[1] =
+               packed_record[2] | (packed_record[3] << 16);
+
+       ret = get_raw_egress_record(hw, packed_record, 4, 3, sa_index * 8 + 2);
+       if (unlikely(ret))
+               return ret;
+       counters->sa_protected_pkts[0] =
+               packed_record[0] | (packed_record[1] << 16);
+       counters->sa_protected_pkts[1] =
+               packed_record[2] | (packed_record[3] << 16);
+
+       ret = get_raw_egress_record(hw, packed_record, 4, 3, sa_index * 8 + 3);
+       if (unlikely(ret))
+               return ret;
+       counters->sa_encrypted_pkts[0] =
+               packed_record[0] | (packed_record[1] << 16);
+       counters->sa_encrypted_pkts[1] =
+               packed_record[2] | (packed_record[3] << 16);
+
+       return 0;
+}
+
+int aq_mss_get_egress_sa_counters(struct aq_hw_s *hw,
+                                 struct aq_mss_egress_sa_counters *counters,
+                                 u16 sa_index)
+{
+       memset(counters, 0, sizeof(*counters));
+
+       return AQ_API_CALL_SAFE(get_egress_sa_counters, hw, counters, sa_index);
+}
+
+static int
+get_egress_common_counters(struct aq_hw_s *hw,
+                          struct aq_mss_egress_common_counters *counters)
+{
+       u16 packed_record[4];
+       int ret;
+
+       ret = get_raw_egress_record(hw, packed_record, 4, 3, 256 + 0);
+       if (unlikely(ret))
+               return ret;
+       counters->ctl_pkt[0] = packed_record[0] | (packed_record[1] << 16);
+       counters->ctl_pkt[1] = packed_record[2] | (packed_record[3] << 16);
+
+       ret = get_raw_egress_record(hw, packed_record, 4, 3, 256 + 1);
+       if (unlikely(ret))
+               return ret;
+       counters->unknown_sa_pkts[0] =
+               packed_record[0] | (packed_record[1] << 16);
+       counters->unknown_sa_pkts[1] =
+               packed_record[2] | (packed_record[3] << 16);
+
+       ret = get_raw_egress_record(hw, packed_record, 4, 3, 256 + 2);
+       if (unlikely(ret))
+               return ret;
+       counters->untagged_pkts[0] =
+               packed_record[0] | (packed_record[1] << 16);
+       counters->untagged_pkts[1] =
+               packed_record[2] | (packed_record[3] << 16);
+
+       ret = get_raw_egress_record(hw, packed_record, 4, 3, 256 + 3);
+       if (unlikely(ret))
+               return ret;
+       counters->too_long[0] = packed_record[0] | (packed_record[1] << 16);
+       counters->too_long[1] = packed_record[2] | (packed_record[3] << 16);
+
+       ret = get_raw_egress_record(hw, packed_record, 4, 3, 256 + 4);
+       if (unlikely(ret))
+               return ret;
+       counters->ecc_error_pkts[0] =
+               packed_record[0] | (packed_record[1] << 16);
+       counters->ecc_error_pkts[1] =
+               packed_record[2] | (packed_record[3] << 16);
+
+       ret = get_raw_egress_record(hw, packed_record, 4, 3, 256 + 5);
+       if (unlikely(ret))
+               return ret;
+       counters->unctrl_hit_drop_redir[0] =
+               packed_record[0] | (packed_record[1] << 16);
+       counters->unctrl_hit_drop_redir[1] =
+               packed_record[2] | (packed_record[3] << 16);
+
+       return 0;
+}
+
+int aq_mss_get_egress_common_counters(struct aq_hw_s *hw,
+       struct aq_mss_egress_common_counters *counters)
+{
+       memset(counters, 0, sizeof(*counters));
+
+       return AQ_API_CALL_SAFE(get_egress_common_counters, hw, counters);
+}
+
+static int clear_egress_counters(struct aq_hw_s *hw)
+{
+       struct mss_egress_ctl_register ctl_reg;
+       int ret;
+
+       memset(&ctl_reg, 0, sizeof(ctl_reg));
+
+       ret = aq_mss_mdio_read(hw, MDIO_MMD_VEND1, MSS_EGRESS_CTL_REGISTER_ADDR,
+                              &ctl_reg.word_0);
+       if (unlikely(ret))
+               return ret;
+       ret = aq_mss_mdio_read(hw, MDIO_MMD_VEND1,
+                              MSS_EGRESS_CTL_REGISTER_ADDR + 4,
+                              &ctl_reg.word_1);
+       if (unlikely(ret))
+               return ret;
+
+       /* Toggle the Egress MIB clear bit 0->1->0 */
+       ctl_reg.bits_0.clear_counter = 0;
+       ret = aq_mss_mdio_write(hw, MDIO_MMD_VEND1,
+                               MSS_EGRESS_CTL_REGISTER_ADDR, ctl_reg.word_0);
+       if (unlikely(ret))
+               return ret;
+       ret = aq_mss_mdio_write(hw, MDIO_MMD_VEND1,
+                               MSS_EGRESS_CTL_REGISTER_ADDR + 4,
+                               ctl_reg.word_1);
+       if (unlikely(ret))
+               return ret;
+
+       ctl_reg.bits_0.clear_counter = 1;
+       ret = aq_mss_mdio_write(hw, MDIO_MMD_VEND1,
+                               MSS_EGRESS_CTL_REGISTER_ADDR, ctl_reg.word_0);
+       if (unlikely(ret))
+               return ret;
+       ret = aq_mss_mdio_write(hw, MDIO_MMD_VEND1,
+                               MSS_EGRESS_CTL_REGISTER_ADDR + 4,
+                               ctl_reg.word_1);
+       if (unlikely(ret))
+               return ret;
+
+       ctl_reg.bits_0.clear_counter = 0;
+       ret = aq_mss_mdio_write(hw, MDIO_MMD_VEND1,
+                               MSS_EGRESS_CTL_REGISTER_ADDR, ctl_reg.word_0);
+       if (unlikely(ret))
+               return ret;
+       ret = aq_mss_mdio_write(hw, MDIO_MMD_VEND1,
+                               MSS_EGRESS_CTL_REGISTER_ADDR + 4,
+                               ctl_reg.word_1);
+       if (unlikely(ret))
+               return ret;
+
+       return 0;
+}
+
+int aq_mss_clear_egress_counters(struct aq_hw_s *hw)
+{
+       return AQ_API_CALL_SAFE(clear_egress_counters, hw);
+}
+
+static int get_ingress_sa_counters(struct aq_hw_s *hw,
+                                  struct aq_mss_ingress_sa_counters *counters,
+                                  u16 sa_index)
+{
+       u16 packed_record[4];
+       int ret;
+
+       if (sa_index >= NUMROWS_INGRESSSARECORD)
+               return -EINVAL;
+
+       ret = get_raw_ingress_record(hw, packed_record, 4, 6,
+                                    sa_index * 12 + 0);
+       if (unlikely(ret))
+               return ret;
+       counters->untagged_hit_pkts[0] =
+               packed_record[0] | (packed_record[1] << 16);
+       counters->untagged_hit_pkts[1] =
+               packed_record[2] | (packed_record[3] << 16);
+
+       ret = get_raw_ingress_record(hw, packed_record, 4, 6,
+                                    sa_index * 12 + 1);
+       if (unlikely(ret))
+               return ret;
+       counters->ctrl_hit_drop_redir_pkts[0] =
+               packed_record[0] | (packed_record[1] << 16);
+       counters->ctrl_hit_drop_redir_pkts[1] =
+               packed_record[2] | (packed_record[3] << 16);
+
+       ret = get_raw_ingress_record(hw, packed_record, 4, 6,
+                                    sa_index * 12 + 2);
+       if (unlikely(ret))
+               return ret;
+       counters->not_using_sa[0] = packed_record[0] | (packed_record[1] << 16);
+       counters->not_using_sa[1] = packed_record[2] | (packed_record[3] << 16);
+
+       ret = get_raw_ingress_record(hw, packed_record, 4, 6,
+                                    sa_index * 12 + 3);
+       if (unlikely(ret))
+               return ret;
+       counters->unused_sa[0] = packed_record[0] | (packed_record[1] << 16);
+       counters->unused_sa[1] = packed_record[2] | (packed_record[3] << 16);
+
+       ret = get_raw_ingress_record(hw, packed_record, 4, 6,
+                                    sa_index * 12 + 4);
+       if (unlikely(ret))
+               return ret;
+       counters->not_valid_pkts[0] =
+               packed_record[0] | (packed_record[1] << 16);
+       counters->not_valid_pkts[1] =
+               packed_record[2] | (packed_record[3] << 16);
+
+       ret = get_raw_ingress_record(hw, packed_record, 4, 6,
+                                    sa_index * 12 + 5);
+       if (unlikely(ret))
+               return ret;
+       counters->invalid_pkts[0] = packed_record[0] | (packed_record[1] << 16);
+       counters->invalid_pkts[1] = packed_record[2] | (packed_record[3] << 16);
+
+       ret = get_raw_ingress_record(hw, packed_record, 4, 6,
+                                    sa_index * 12 + 6);
+       if (unlikely(ret))
+               return ret;
+       counters->ok_pkts[0] = packed_record[0] | (packed_record[1] << 16);
+       counters->ok_pkts[1] = packed_record[2] | (packed_record[3] << 16);
+
+       ret = get_raw_ingress_record(hw, packed_record, 4, 6,
+                                    sa_index * 12 + 7);
+       if (unlikely(ret))
+               return ret;
+       counters->late_pkts[0] = packed_record[0] | (packed_record[1] << 16);
+       counters->late_pkts[1] = packed_record[2] | (packed_record[3] << 16);
+
+       ret = get_raw_ingress_record(hw, packed_record, 4, 6,
+                                    sa_index * 12 + 8);
+       if (unlikely(ret))
+               return ret;
+       counters->delayed_pkts[0] = packed_record[0] | (packed_record[1] << 16);
+       counters->delayed_pkts[1] = packed_record[2] | (packed_record[3] << 16);
+
+       ret = get_raw_ingress_record(hw, packed_record, 4, 6,
+                                    sa_index * 12 + 9);
+       if (unlikely(ret))
+               return ret;
+       counters->unchecked_pkts[0] =
+               packed_record[0] | (packed_record[1] << 16);
+       counters->unchecked_pkts[1] =
+               packed_record[2] | (packed_record[3] << 16);
+
+       ret = get_raw_ingress_record(hw, packed_record, 4, 6,
+                                    sa_index * 12 + 10);
+       if (unlikely(ret))
+               return ret;
+       counters->validated_octets[0] =
+               packed_record[0] | (packed_record[1] << 16);
+       counters->validated_octets[1] =
+               packed_record[2] | (packed_record[3] << 16);
+
+       ret = get_raw_ingress_record(hw, packed_record, 4, 6,
+                                    sa_index * 12 + 11);
+       if (unlikely(ret))
+               return ret;
+       counters->decrypted_octets[0] =
+               packed_record[0] | (packed_record[1] << 16);
+       counters->decrypted_octets[1] =
+               packed_record[2] | (packed_record[3] << 16);
+
+       return 0;
+}
+
+int aq_mss_get_ingress_sa_counters(struct aq_hw_s *hw,
+                                  struct aq_mss_ingress_sa_counters *counters,
+                                  u16 sa_index)
+{
+       memset(counters, 0, sizeof(*counters));
+
+       return AQ_API_CALL_SAFE(get_ingress_sa_counters, hw, counters,
+                               sa_index);
+}
+
+static int
+get_ingress_common_counters(struct aq_hw_s *hw,
+                           struct aq_mss_ingress_common_counters *counters)
+{
+       u16 packed_record[4];
+       int ret;
+
+       ret = get_raw_ingress_record(hw, packed_record, 4, 6, 385 + 0);
+       if (unlikely(ret))
+               return ret;
+       counters->ctl_pkts[0] = packed_record[0] | (packed_record[1] << 16);
+       counters->ctl_pkts[1] = packed_record[2] | (packed_record[3] << 16);
+
+       ret = get_raw_ingress_record(hw, packed_record, 4, 6, 385 + 1);
+       if (unlikely(ret))
+               return ret;
+       counters->tagged_miss_pkts[0] =
+               packed_record[0] | (packed_record[1] << 16);
+       counters->tagged_miss_pkts[1] =
+               packed_record[2] | (packed_record[3] << 16);
+
+       ret = get_raw_ingress_record(hw, packed_record, 4, 6, 385 + 2);
+       if (unlikely(ret))
+               return ret;
+       counters->untagged_miss_pkts[0] =
+               packed_record[0] | (packed_record[1] << 16);
+       counters->untagged_miss_pkts[1] =
+               packed_record[2] | (packed_record[3] << 16);
+
+       ret = get_raw_ingress_record(hw, packed_record, 4, 6, 385 + 3);
+       if (unlikely(ret))
+               return ret;
+       counters->notag_pkts[0] = packed_record[0] | (packed_record[1] << 16);
+       counters->notag_pkts[1] = packed_record[2] | (packed_record[3] << 16);
+
+       ret = get_raw_ingress_record(hw, packed_record, 4, 6, 385 + 4);
+       if (unlikely(ret))
+               return ret;
+       counters->untagged_pkts[0] =
+               packed_record[0] | (packed_record[1] << 16);
+       counters->untagged_pkts[1] =
+               packed_record[2] | (packed_record[3] << 16);
+
+       ret = get_raw_ingress_record(hw, packed_record, 4, 6, 385 + 5);
+       if (unlikely(ret))
+               return ret;
+       counters->bad_tag_pkts[0] = packed_record[0] | (packed_record[1] << 16);
+       counters->bad_tag_pkts[1] = packed_record[2] | (packed_record[3] << 16);
+
+       ret = get_raw_ingress_record(hw, packed_record, 4, 6, 385 + 6);
+       if (unlikely(ret))
+               return ret;
+       counters->no_sci_pkts[0] = packed_record[0] | (packed_record[1] << 16);
+       counters->no_sci_pkts[1] = packed_record[2] | (packed_record[3] << 16);
+
+       ret = get_raw_ingress_record(hw, packed_record, 4, 6, 385 + 7);
+       if (unlikely(ret))
+               return ret;
+       counters->unknown_sci_pkts[0] =
+               packed_record[0] | (packed_record[1] << 16);
+       counters->unknown_sci_pkts[1] =
+               packed_record[2] | (packed_record[3] << 16);
+
+       ret = get_raw_ingress_record(hw, packed_record, 4, 6, 385 + 8);
+       if (unlikely(ret))
+               return ret;
+       counters->ctrl_prt_pass_pkts[0] =
+               packed_record[0] | (packed_record[1] << 16);
+       counters->ctrl_prt_pass_pkts[1] =
+               packed_record[2] | (packed_record[3] << 16);
+
+       ret = get_raw_ingress_record(hw, packed_record, 4, 6, 385 + 9);
+       if (unlikely(ret))
+               return ret;
+       counters->unctrl_prt_pass_pkts[0] =
+               packed_record[0] | (packed_record[1] << 16);
+       counters->unctrl_prt_pass_pkts[1] =
+               packed_record[2] | (packed_record[3] << 16);
+
+       ret = get_raw_ingress_record(hw, packed_record, 4, 6, 385 + 10);
+       if (unlikely(ret))
+               return ret;
+       counters->ctrl_prt_fail_pkts[0] =
+               packed_record[0] | (packed_record[1] << 16);
+       counters->ctrl_prt_fail_pkts[1] =
+               packed_record[2] | (packed_record[3] << 16);
+
+       ret = get_raw_ingress_record(hw, packed_record, 4, 6, 385 + 11);
+       if (unlikely(ret))
+               return ret;
+       counters->unctrl_prt_fail_pkts[0] =
+               packed_record[0] | (packed_record[1] << 16);
+       counters->unctrl_prt_fail_pkts[1] =
+               packed_record[2] | (packed_record[3] << 16);
+
+       ret = get_raw_ingress_record(hw, packed_record, 4, 6, 385 + 12);
+       if (unlikely(ret))
+               return ret;
+       counters->too_long_pkts[0] =
+               packed_record[0] | (packed_record[1] << 16);
+       counters->too_long_pkts[1] =
+               packed_record[2] | (packed_record[3] << 16);
+
+       ret = get_raw_ingress_record(hw, packed_record, 4, 6, 385 + 13);
+       if (unlikely(ret))
+               return ret;
+       counters->igpoc_ctl_pkts[0] =
+               packed_record[0] | (packed_record[1] << 16);
+       counters->igpoc_ctl_pkts[1] =
+               packed_record[2] | (packed_record[3] << 16);
+
+       ret = get_raw_ingress_record(hw, packed_record, 4, 6, 385 + 14);
+       if (unlikely(ret))
+               return ret;
+       counters->ecc_error_pkts[0] =
+               packed_record[0] | (packed_record[1] << 16);
+       counters->ecc_error_pkts[1] =
+               packed_record[2] | (packed_record[3] << 16);
+
+       ret = get_raw_ingress_record(hw, packed_record, 4, 6, 385 + 15);
+       if (unlikely(ret))
+               return ret;
+       counters->unctrl_hit_drop_redir[0] =
+               packed_record[0] | (packed_record[1] << 16);
+       counters->unctrl_hit_drop_redir[1] =
+               packed_record[2] | (packed_record[3] << 16);
+
+       return 0;
+}
+
+int aq_mss_get_ingress_common_counters(struct aq_hw_s *hw,
+       struct aq_mss_ingress_common_counters *counters)
+{
+       memset(counters, 0, sizeof(*counters));
+
+       return AQ_API_CALL_SAFE(get_ingress_common_counters, hw, counters);
+}
+
+static int clear_ingress_counters(struct aq_hw_s *hw)
+{
+       struct mss_ingress_ctl_register ctl_reg;
+       int ret;
+
+       memset(&ctl_reg, 0, sizeof(ctl_reg));
+
+       ret = aq_mss_mdio_read(hw, MDIO_MMD_VEND1,
+                              MSS_INGRESS_CTL_REGISTER_ADDR, &ctl_reg.word_0);
+       if (unlikely(ret))
+               return ret;
+       ret = aq_mss_mdio_read(hw, MDIO_MMD_VEND1,
+                              MSS_INGRESS_CTL_REGISTER_ADDR + 4,
+                              &ctl_reg.word_1);
+       if (unlikely(ret))
+               return ret;
+
+       /* Toggle the Ingress MIB clear bit 0->1->0 */
+       ctl_reg.bits_0.clear_count = 0;
+       ret = aq_mss_mdio_write(hw, MDIO_MMD_VEND1,
+                               MSS_INGRESS_CTL_REGISTER_ADDR, ctl_reg.word_0);
+       if (unlikely(ret))
+               return ret;
+       ret = aq_mss_mdio_write(hw, MDIO_MMD_VEND1,
+                               MSS_INGRESS_CTL_REGISTER_ADDR + 4,
+                               ctl_reg.word_1);
+       if (unlikely(ret))
+               return ret;
+
+       ctl_reg.bits_0.clear_count = 1;
+       ret = aq_mss_mdio_write(hw, MDIO_MMD_VEND1,
+                               MSS_INGRESS_CTL_REGISTER_ADDR, ctl_reg.word_0);
+       if (unlikely(ret))
+               return ret;
+       ret = aq_mss_mdio_write(hw, MDIO_MMD_VEND1,
+                               MSS_INGRESS_CTL_REGISTER_ADDR + 4,
+                               ctl_reg.word_1);
+       if (unlikely(ret))
+               return ret;
+
+       ctl_reg.bits_0.clear_count = 0;
+       ret = aq_mss_mdio_write(hw, MDIO_MMD_VEND1,
+                               MSS_INGRESS_CTL_REGISTER_ADDR, ctl_reg.word_0);
+       if (unlikely(ret))
+               return ret;
+       ret = aq_mss_mdio_write(hw, MDIO_MMD_VEND1,
+                               MSS_INGRESS_CTL_REGISTER_ADDR + 4,
+                               ctl_reg.word_1);
+       if (unlikely(ret))
+               return ret;
+
+       return 0;
+}
+
+int aq_mss_clear_ingress_counters(struct aq_hw_s *hw)
+{
+       return AQ_API_CALL_SAFE(clear_ingress_counters, hw);
+}
+
 static int get_egress_sa_expired(struct aq_hw_s *hw, u32 *expired)
 {
        u16 val;
index ab5415f99a32afcdc35d9131b40c162e6203b419..ff03cc462a37a3b02ae4fd79c87f17b6d48b99f2 100644 (file)
@@ -262,6 +262,53 @@ int aq_mss_set_ingress_postctlf_record(struct aq_hw_s *hw,
        const struct aq_mss_ingress_postctlf_record *rec,
        u16 table_index);
 
+/*!  Read the counters for the specified SC, and unpack them into the
+ *   fields of counters.
+ *  counters - [OUT] The raw table row data will be unpacked here.
+ *  sc_index - The table row to read (max 31).
+ */
+int aq_mss_get_egress_sc_counters(struct aq_hw_s *hw,
+                                 struct aq_mss_egress_sc_counters *counters,
+                                 u16 sc_index);
+
+/*!  Read the counters for the specified SA, and unpack them into the
+ *   fields of counters.
+ *  counters - [OUT] The raw table row data will be unpacked here.
+ *  sa_index - The table row to read (max 31).
+ */
+int aq_mss_get_egress_sa_counters(struct aq_hw_s *hw,
+                                 struct aq_mss_egress_sa_counters *counters,
+                                 u16 sa_index);
+
+/*!  Read the counters for the common egress counters, and unpack them
+ *   into the fields of counters.
+ *  counters - [OUT] The raw table row data will be unpacked here.
+ */
+int aq_mss_get_egress_common_counters(struct aq_hw_s *hw,
+       struct aq_mss_egress_common_counters *counters);
+
+/*!  Clear all Egress counters to 0.*/
+int aq_mss_clear_egress_counters(struct aq_hw_s *hw);
+
+/*!  Read the counters for the specified SA, and unpack them into the
+ *   fields of counters.
+ *  counters - [OUT] The raw table row data will be unpacked here.
+ *  sa_index - The table row to read (max 31).
+ */
+int aq_mss_get_ingress_sa_counters(struct aq_hw_s *hw,
+                                  struct aq_mss_ingress_sa_counters *counters,
+                                  u16 sa_index);
+
+/*!  Read the counters for the common ingress counters, and unpack them
+ *   into the fields of counters.
+ *  counters - [OUT] The raw table row data will be unpacked here.
+ */
+int aq_mss_get_ingress_common_counters(struct aq_hw_s *hw,
+       struct aq_mss_ingress_common_counters *counters);
+
+/*!  Clear all Ingress counters to 0. */
+int aq_mss_clear_ingress_counters(struct aq_hw_s *hw);
+
 /*!  Get Egress SA expired. */
 int aq_mss_get_egress_sa_expired(struct aq_hw_s *hw, u32 *expired);
 /*!  Get Egress SA threshold expired. */
index 8c38a34705187383c86939ca92f6940c445b33bd..b6119dcc3bb9aa1532b2c4576b8ed6cac0e2f879 100644 (file)
@@ -697,4 +697,218 @@ struct aq_mss_ingress_postctlf_record {
        u32 action;
 };
 
+/*! Represents the Egress MIB counters for a single SC. Counters are
+ *  64 bits, lower 32 bits in field[0].
+ */
+struct aq_mss_egress_sc_counters {
+       /*! The number of integrity protected but not encrypted packets
+        *  for this transmitting SC.
+        */
+       u32 sc_protected_pkts[2];
+       /*! The number of integrity protected and encrypted packets for
+        *  this transmitting SC.
+        */
+       u32 sc_encrypted_pkts[2];
+       /*! The number of plain text octets that are integrity protected
+        *  but not encrypted on the transmitting SC.
+        */
+       u32 sc_protected_octets[2];
+       /*! The number of plain text octets that are integrity protected
+        *  and encrypted on the transmitting SC.
+        */
+       u32 sc_encrypted_octets[2];
+};
+
+/*! Represents the Egress MIB counters for a single SA. Counters are
+ *  64 bits, lower 32 bits in field[0].
+ */
+struct aq_mss_egress_sa_counters {
+       /*! The number of dropped packets for this transmitting SA. */
+       u32 sa_hit_drop_redirect[2];
+       /*! TODO */
+       u32 sa_protected2_pkts[2];
+       /*! The number of integrity protected but not encrypted packets
+        *  for this transmitting SA.
+        */
+       u32 sa_protected_pkts[2];
+       /*! The number of integrity protected and encrypted packets for
+        *  this transmitting SA.
+        */
+       u32 sa_encrypted_pkts[2];
+};
+
+/*! Represents the common Egress MIB counters; the counter not
+ *  associated with a particular SC/SA. Counters are 64 bits, lower 32
+ *  bits in field[0].
+ */
+struct aq_mss_egress_common_counters {
+       /*! The number of transmitted packets classified as MAC_CTL packets. */
+       u32 ctl_pkt[2];
+       /*! The number of transmitted packets that did not match any rows
+        *  in the Egress Packet Classifier table.
+        */
+       u32 unknown_sa_pkts[2];
+       /*! The number of transmitted packets where the SC table entry has
+        *  protect=0 (so packets are forwarded unchanged).
+        */
+       u32 untagged_pkts[2];
+       /*! The number of transmitted packets discarded because the packet
+        *  length is greater than the ifMtu of the Common Port interface.
+        */
+       u32 too_long[2];
+       /*! The number of transmitted packets for which table memory was
+        *  affected by an ECC error during processing.
+        */
+       u32 ecc_error_pkts[2];
+       /*! The number of transmitted packets for where the matched row in
+        *  the Egress Packet Classifier table has action=drop.
+        */
+       u32 unctrl_hit_drop_redir[2];
+};
+
+/*! Represents the Ingress MIB counters for a single SA. Counters are
+ *  64 bits, lower 32 bits in field[0].
+ */
+struct aq_mss_ingress_sa_counters {
+       /*! For this SA, the number of received packets without a SecTAG. */
+       u32 untagged_hit_pkts[2];
+       /*! For this SA, the number of received packets that were dropped. */
+       u32 ctrl_hit_drop_redir_pkts[2];
+       /*! For this SA which is not currently in use, the number of
+        *  received packets that have been discarded, and have either the
+        *  packets encrypted or the matched row in the Ingress SC Lookup
+        *  table has validate_frames=Strict.
+        */
+       u32 not_using_sa[2];
+       /*! For this SA which is not currently in use, the number of
+        *  received, unencrypted, packets with the matched row in the
+        *  Ingress SC Lookup table has validate_frames!=Strict.
+        */
+       u32 unused_sa[2];
+       /*! For this SA, the number discarded packets with the condition
+        *  that the packets are not valid and one of the following
+        *  conditions are true: either the matched row in the Ingress SC
+        *  Lookup table has validate_frames=Strict or the packets
+        *  encrypted.
+        */
+       u32 not_valid_pkts[2];
+       /*! For this SA, the number of packets with the condition that the
+        *  packets are not valid and the matched row in the Ingress SC
+        *  Lookup table has validate_frames=Check.
+        */
+       u32 invalid_pkts[2];
+       /*! For this SA, the number of validated packets. */
+       u32 ok_pkts[2];
+       /*! For this SC, the number of received packets that have been
+        *  discarded with the condition: the matched row in the Ingress
+        *  SC Lookup table has replay_protect=1 and the PN of the packet
+        *  is lower than the lower bound replay check PN.
+        */
+       u32 late_pkts[2];
+       /*! For this SA, the number of packets with the condition that the
+        *  PN of the packets is lower than the lower bound replay
+        *  protection PN.
+        */
+       u32 delayed_pkts[2];
+       /*! For this SC, the number of packets with the following condition:
+        *  - the matched row in the Ingress SC Lookup table has
+        *    replay_protect=0 or
+        *  - the matched row in the Ingress SC Lookup table has
+        *    replay_protect=1 and the packet is not encrypted and the
+        *    integrity check has failed or
+        *  - the matched row in the Ingress SC Lookup table has
+        *    replay_protect=1 and the packet is encrypted and integrity
+        *    check has failed.
+        */
+       u32 unchecked_pkts[2];
+       /*! The number of octets of plaintext recovered from received
+        *  packets that were integrity protected but not encrypted.
+        */
+       u32 validated_octets[2];
+       /*! The number of octets of plaintext recovered from received
+        *  packets that were integrity protected and encrypted.
+        */
+       u32 decrypted_octets[2];
+};
+
+/*! Represents the common Ingress MIB counters; the counter not
+ *  associated with a particular SA. Counters are 64 bits, lower 32
+ *  bits in field[0].
+ */
+struct aq_mss_ingress_common_counters {
+       /*! The number of received packets classified as MAC_CTL packets. */
+       u32 ctl_pkts[2];
+       /*! The number of received packets with the MAC security tag
+        *  (SecTAG), not matching any rows in the Ingress Pre-MACSec
+        *  Packet Classifier table.
+        */
+       u32 tagged_miss_pkts[2];
+       /*! The number of received packets without the MAC security tag
+        *  (SecTAG), not matching any rows in the Ingress Pre-MACSec
+        *  Packet Classifier table.
+        */
+       u32 untagged_miss_pkts[2];
+       /*! The number of received packets discarded without the MAC
+        *  security tag (SecTAG) and with the matched row in the Ingress
+        *  SC Lookup table having validate_frames=Strict.
+        */
+       u32 notag_pkts[2];
+       /*! The number of received packets without the MAC security tag
+        *  (SecTAG) and with the matched row in the Ingress SC Lookup
+        *  table having validate_frames!=Strict.
+        */
+       u32 untagged_pkts[2];
+       /*! The number of received packets discarded with an invalid
+        *  SecTAG or a zero value PN or an invalid ICV.
+        */
+       u32 bad_tag_pkts[2];
+       /*! The number of received packets discarded with unknown SCI
+        *  information with the condition:
+        *  the matched row in the Ingress SC Lookup table has
+        *  validate_frames=Strict or the C bit in the SecTAG is set.
+        */
+       u32 no_sci_pkts[2];
+       /*! The number of received packets with unknown SCI with the condition:
+        *  The matched row in the Ingress SC Lookup table has
+        *  validate_frames!=Strict and the C bit in the SecTAG is not set.
+        */
+       u32 unknown_sci_pkts[2];
+       /*! The number of received packets by the controlled port service
+        *  that passed the Ingress Post-MACSec Packet Classifier table
+        *  check.
+        */
+       u32 ctrl_prt_pass_pkts[2];
+       /*! The number of received packets by the uncontrolled port
+        *  service that passed the Ingress Post-MACSec Packet Classifier
+        *  table check.
+        */
+       u32 unctrl_prt_pass_pkts[2];
+       /*! The number of received packets by the controlled port service
+        *  that failed the Ingress Post-MACSec Packet Classifier table
+        *  check.
+        */
+       u32 ctrl_prt_fail_pkts[2];
+       /*! The number of received packets by the uncontrolled port
+        *  service that failed the Ingress Post-MACSec Packet Classifier
+        *  table check.
+        */
+       u32 unctrl_prt_fail_pkts[2];
+       /*! The number of received packets discarded because the packet
+        *  length is greater than the ifMtu of the Common Port interface.
+        */
+       u32 too_long_pkts[2];
+       /*! The number of received packets classified as MAC_CTL by the
+        *  Ingress Post-MACSec CTL Filter table.
+        */
+       u32 igpoc_ctl_pkts[2];
+       /*! The number of received packets for which table memory was
+        *  affected by an ECC error during processing.
+        */
+       u32 ecc_error_pkts[2];
+       /*! The number of received packets by the uncontrolled port
+        *  service that were dropped.
+        */
+       u32 unctrl_hit_drop_redir[2];
+};
+
 #endif