/* Composes 'fm' so that executing it will implement 'learn' given that the * packet being processed has 'flow' as its flow. * * Uses 'ofpacts' to store the flow mod's actions. The caller must initialize * 'ofpacts' and retains ownership of it. 'fm->ofpacts' will point into the * 'ofpacts' buffer. * * The caller has to actually execute 'fm'. */ void learn_execute(const struct ofpact_learn *learn, const struct flow *flow, struct ofputil_flow_mod *fm, struct ofpbuf *ofpacts) { const struct ofpact_learn_spec *spec; match_init_catchall(&fm->match); fm->priority = learn->priority; fm->cookie = htonll(0); fm->cookie_mask = htonll(0); fm->new_cookie = learn->cookie; fm->modify_cookie = fm->new_cookie != OVS_BE64_MAX; fm->table_id = learn->table_id; fm->command = OFPFC_MODIFY_STRICT; fm->idle_timeout = learn->idle_timeout; fm->hard_timeout = learn->hard_timeout; fm->importance = 0; fm->buffer_id = UINT32_MAX; fm->out_port = OFPP_NONE; fm->flags = 0; if (learn->flags & NX_LEARN_F_SEND_FLOW_REM) { fm->flags |= OFPUTIL_FF_SEND_FLOW_REM; } fm->ofpacts = NULL; fm->ofpacts_len = 0; fm->delete_reason = OFPRR_DELETE; if (learn->fin_idle_timeout || learn->fin_hard_timeout) { struct ofpact_fin_timeout *oft; oft = ofpact_put_FIN_TIMEOUT(ofpacts); oft->fin_idle_timeout = learn->fin_idle_timeout; oft->fin_hard_timeout = learn->fin_hard_timeout; } for (spec = learn->specs; spec < &learn->specs[learn->n_specs]; spec++) { struct ofpact_set_field *sf; union mf_subvalue value; if (spec->src_type == NX_LEARN_SRC_FIELD) { mf_read_subfield(&spec->src, flow, &value); } else { value = spec->src_imm; } switch (spec->dst_type) { case NX_LEARN_DST_MATCH: mf_write_subfield(&spec->dst, &value, &fm->match); break; case NX_LEARN_DST_LOAD: sf = ofpact_put_reg_load(ofpacts); sf->field = spec->dst.field; bitwise_copy(&value, sizeof value, 0, &sf->value, spec->dst.field->n_bytes, spec->dst.ofs, spec->n_bits); bitwise_one(&sf->mask, spec->dst.field->n_bytes, spec->dst.ofs, spec->n_bits); break; case NX_LEARN_DST_OUTPUT: if (spec->n_bits <= 16 || is_all_zeros(value.u8, sizeof value - 2)) { ovs_be16 *last_be16 = &value.be16[ARRAY_SIZE(value.be16) - 1]; ofp_port_t port = u16_to_ofp(ntohs(*last_be16)); if (ofp_to_u16(port) < ofp_to_u16(OFPP_MAX) || port == OFPP_IN_PORT || port == OFPP_FLOOD || port == OFPP_LOCAL || port == OFPP_ALL) { ofpact_put_OUTPUT(ofpacts)->port = port; } } break; } } ofpact_pad(ofpacts); fm->ofpacts = ofpbuf_data(ofpacts); fm->ofpacts_len = ofpbuf_size(ofpacts); }
void learn_execute(const struct nx_action_learn *learn, const struct flow *flow, struct ofputil_flow_mod *fm) { const void *p, *end; struct ofpbuf actions; cls_rule_init_catchall(&fm->cr, ntohs(learn->priority)); fm->cookie = htonll(0); fm->cookie_mask = htonll(0); fm->new_cookie = learn->cookie; fm->table_id = learn->table_id; fm->command = OFPFC_MODIFY_STRICT; fm->idle_timeout = ntohs(learn->idle_timeout); fm->hard_timeout = ntohs(learn->hard_timeout); fm->buffer_id = UINT32_MAX; fm->out_port = OFPP_NONE; fm->flags = ntohs(learn->flags) & OFPFF_SEND_FLOW_REM; fm->actions = NULL; fm->n_actions = 0; ofpbuf_init(&actions, 64); if (learn->fin_idle_timeout || learn->fin_hard_timeout) { struct nx_action_fin_timeout *naft; naft = ofputil_put_NXAST_FIN_TIMEOUT(&actions); naft->fin_idle_timeout = learn->fin_idle_timeout; naft->fin_hard_timeout = learn->fin_hard_timeout; } for (p = learn + 1, end = (char *) learn + ntohs(learn->len); p != end; ) { uint16_t header = ntohs(get_be16(&p)); int n_bits = header & NX_LEARN_N_BITS_MASK; int src_type = header & NX_LEARN_SRC_MASK; int dst_type = header & NX_LEARN_DST_MASK; union mf_subvalue value; struct mf_subfield dst; int chunk, ofs; if (!header) { break; } if (src_type == NX_LEARN_SRC_FIELD) { struct mf_subfield src; get_subfield(n_bits, &p, &src); mf_read_subfield(&src, flow, &value); } else { int p_bytes = 2 * DIV_ROUND_UP(n_bits, 16); memset(&value, 0, sizeof value); bitwise_copy(p, p_bytes, 0, &value, sizeof value, 0, n_bits); p = (const uint8_t *) p + p_bytes; } switch (dst_type) { case NX_LEARN_DST_MATCH: get_subfield(n_bits, &p, &dst); mf_write_subfield(&dst, &value, &fm->cr); break; case NX_LEARN_DST_LOAD: get_subfield(n_bits, &p, &dst); for (ofs = 0; ofs < n_bits; ofs += chunk) { struct nx_action_reg_load *load; chunk = MIN(n_bits - ofs, 64); load = ofputil_put_NXAST_REG_LOAD(&actions); load->ofs_nbits = nxm_encode_ofs_nbits(dst.ofs + ofs, chunk); load->dst = htonl(dst.field->nxm_header); bitwise_copy(&value, sizeof value, ofs, &load->value, sizeof load->value, 0, chunk); } break; case NX_LEARN_DST_OUTPUT: if (n_bits <= 16 || is_all_zeros(value.u8, sizeof value - 2)) { ofputil_put_OFPAT10_OUTPUT(&actions)->port = value.be16[7]; } break; } } fm->actions = ofpbuf_steal_data(&actions); fm->n_actions = actions.size / sizeof(struct ofp_action_header); }
/* Composes 'fm' so that executing it will implement 'learn' given that the * packet being processed has 'flow' as its flow. * * Uses 'ofpacts' to store the flow mod's actions. The caller must initialize * 'ofpacts' and retains ownership of it. 'fm->ofpacts' will point into the * 'ofpacts' buffer. * * The caller has to actually execute 'fm'. */ void learn_execute(const struct ofpact_learn *learn, const struct flow *flow, struct ofputil_flow_mod *fm, struct ofpbuf *ofpacts) { const struct ofpact_learn_spec *spec; match_init_catchall(&fm->match); fm->priority = learn->priority; fm->cookie = htonll(0); fm->cookie_mask = htonll(0); fm->new_cookie = htonll(learn->cookie); fm->table_id = learn->table_id; fm->command = OFPFC_MODIFY_STRICT; fm->idle_timeout = learn->idle_timeout; fm->hard_timeout = learn->hard_timeout; fm->buffer_id = UINT32_MAX; fm->out_port = OFPP_NONE; fm->flags = learn->flags; fm->ofpacts = NULL; fm->ofpacts_len = 0; if (learn->fin_idle_timeout || learn->fin_hard_timeout) { struct ofpact_fin_timeout *oft; oft = ofpact_put_FIN_TIMEOUT(ofpacts); oft->fin_idle_timeout = learn->fin_idle_timeout; oft->fin_hard_timeout = learn->fin_hard_timeout; } for (spec = learn->specs; spec < &learn->specs[learn->n_specs]; spec++) { union mf_subvalue value; int chunk, ofs; if (spec->src_type == NX_LEARN_SRC_FIELD) { mf_read_subfield(&spec->src, flow, &value); } else { value = spec->src_imm; } switch (spec->dst_type) { case NX_LEARN_DST_MATCH: mf_write_subfield(&spec->dst, &value, &fm->match); break; case NX_LEARN_DST_LOAD: for (ofs = 0; ofs < spec->n_bits; ofs += chunk) { struct ofpact_reg_load *load; chunk = MIN(spec->n_bits - ofs, 64); load = ofpact_put_REG_LOAD(ofpacts); load->dst.field = spec->dst.field; load->dst.ofs = spec->dst.ofs + ofs; load->dst.n_bits = chunk; bitwise_copy(&value, sizeof value, ofs, &load->subvalue, sizeof load->subvalue, 0, chunk); } break; case NX_LEARN_DST_OUTPUT: if (spec->n_bits <= 16 || is_all_zeros(value.u8, sizeof value - 2)) { ofp_port_t port = u16_to_ofp(ntohs(value.be16[7])); if (ofp_to_u16(port) < ofp_to_u16(OFPP_MAX) || port == OFPP_IN_PORT || port == OFPP_FLOOD || port == OFPP_LOCAL || port == OFPP_ALL) { ofpact_put_OUTPUT(ofpacts)->port = port; } } break; } } ofpact_pad(ofpacts); fm->ofpacts = ofpacts->data; fm->ofpacts_len = ofpacts->size; }
/* Composes 'fm' so that executing it will implement 'learn' given that the * packet being processed has 'flow' as its flow. * * Uses 'ofpacts' to store the flow mod's actions. The caller must initialize * 'ofpacts' and retains ownership of it. 'fm->ofpacts' will point into the * 'ofpacts' buffer. * * The caller has to actually execute 'fm'. */ void learn_execute(const struct ofpact_learn *learn, const struct flow *flow, struct ofputil_flow_mod *fm, struct ofpbuf *ofpacts) { const struct ofpact_learn_spec *spec; match_init_catchall(&fm->match); fm->priority = learn->priority; fm->cookie = htonll(0); fm->cookie_mask = htonll(0); fm->new_cookie = learn->cookie; fm->modify_cookie = fm->new_cookie != OVS_BE64_MAX; fm->table_id = learn->table_id; fm->command = OFPFC_MODIFY_STRICT; fm->idle_timeout = learn->idle_timeout; fm->hard_timeout = learn->hard_timeout; fm->importance = 0; fm->buffer_id = UINT32_MAX; fm->out_port = OFPP_NONE; fm->ofpacts_tlv_bitmap = 0; fm->flags = 0; if (learn->flags & NX_LEARN_F_SEND_FLOW_REM) { fm->flags |= OFPUTIL_FF_SEND_FLOW_REM; } fm->ofpacts = NULL; fm->ofpacts_len = 0; if (learn->fin_idle_timeout || learn->fin_hard_timeout) { struct ofpact_fin_timeout *oft; oft = ofpact_put_FIN_TIMEOUT(ofpacts); oft->fin_idle_timeout = learn->fin_idle_timeout; oft->fin_hard_timeout = learn->fin_hard_timeout; } OFPACT_LEARN_SPEC_FOR_EACH (spec, learn) { struct ofpact_set_field *sf; union mf_subvalue value; if (spec->src_type == NX_LEARN_SRC_FIELD) { mf_read_subfield(&spec->src, flow, &value); } else { mf_subvalue_from_value(&spec->dst, &value, ofpact_learn_spec_imm(spec)); } switch (spec->dst_type) { case NX_LEARN_DST_MATCH: mf_write_subfield(&spec->dst, &value, &fm->match); match_add_ethernet_prereq(&fm->match, spec->dst.field); mf_vl_mff_set_tlv_bitmap( spec->dst.field, &fm->match.flow.tunnel.metadata.present.map); break; case NX_LEARN_DST_LOAD: sf = ofpact_put_reg_load(ofpacts, spec->dst.field, NULL, NULL); bitwise_copy(&value, sizeof value, 0, sf->value, spec->dst.field->n_bytes, spec->dst.ofs, spec->n_bits); bitwise_one(ofpact_set_field_mask(sf), spec->dst.field->n_bytes, spec->dst.ofs, spec->n_bits); mf_vl_mff_set_tlv_bitmap(spec->dst.field, &fm->ofpacts_tlv_bitmap); break; case NX_LEARN_DST_OUTPUT: if (spec->n_bits <= 16 || is_all_zeros(value.u8, sizeof value - 2)) { ofp_port_t port = u16_to_ofp(ntohll(value.integer)); if (ofp_to_u16(port) < ofp_to_u16(OFPP_MAX) || port == OFPP_IN_PORT || port == OFPP_FLOOD || port == OFPP_LOCAL || port == OFPP_ALL) { ofpact_put_OUTPUT(ofpacts)->port = port; } } break; } } fm->ofpacts = ofpacts->data; fm->ofpacts_len = ofpacts->size; }