// SPDX-License-Identifier: GPL-2.0 /* Copyright (C) 2024 Intel Corporation */ #include "ice_common.h" static void ice_rt_tsr_set(struct ice_parser_rt *rt, u16 tsr) { rt->gpr[ICE_GPR_TSR_IDX] = tsr; } static void ice_rt_ho_set(struct ice_parser_rt *rt, u16 ho) { rt->gpr[ICE_GPR_HO_IDX] = ho; memcpy(&rt->gpr[ICE_GPR_HV_IDX], &rt->pkt_buf[ho], ICE_GPR_HV_SIZE); } static void ice_rt_np_set(struct ice_parser_rt *rt, u16 pc) { rt->gpr[ICE_GPR_NP_IDX] = pc; } static void ice_rt_nn_set(struct ice_parser_rt *rt, u16 node) { rt->gpr[ICE_GPR_NN_IDX] = node; } static void ice_rt_flag_set(struct ice_parser_rt *rt, unsigned int idx, bool set) { struct ice_hw *hw = rt->psr->hw; unsigned int word, id; word = idx / ICE_GPR_FLG_SIZE; id = idx % ICE_GPR_FLG_SIZE; if (set) { rt->gpr[ICE_GPR_FLG_IDX + word] |= (u16)BIT(id); ice_debug(hw, ICE_DBG_PARSER, "Set parser flag %u\n", idx); } else { rt->gpr[ICE_GPR_FLG_IDX + word] &= ~(u16)BIT(id); ice_debug(hw, ICE_DBG_PARSER, "Clear parser flag %u\n", idx); } } static void ice_rt_gpr_set(struct ice_parser_rt *rt, int idx, u16 val) { struct ice_hw *hw = rt->psr->hw; if (idx == ICE_GPR_HO_IDX) ice_rt_ho_set(rt, val); else rt->gpr[idx] = val; ice_debug(hw, ICE_DBG_PARSER, "Set GPR %d value %d\n", idx, val); } static void ice_rt_err_set(struct ice_parser_rt *rt, unsigned int idx, bool set) { struct ice_hw *hw = rt->psr->hw; if (set) { rt->gpr[ICE_GPR_ERR_IDX] |= (u16)BIT(idx); ice_debug(hw, ICE_DBG_PARSER, "Set parser error %u\n", idx); } else { rt->gpr[ICE_GPR_ERR_IDX] &= ~(u16)BIT(idx); ice_debug(hw, ICE_DBG_PARSER, "Reset parser error %u\n", idx); } } /** * ice_parser_rt_reset - reset the parser runtime * @rt: pointer to the parser runtime */ void ice_parser_rt_reset(struct ice_parser_rt *rt) { struct ice_parser *psr = rt->psr; struct ice_metainit_item *mi; unsigned int i; mi = &psr->mi_table[0]; memset(rt, 0, sizeof(*rt)); rt->psr = psr; ice_rt_tsr_set(rt, mi->tsr); ice_rt_ho_set(rt, mi->ho); ice_rt_np_set(rt, mi->pc); ice_rt_nn_set(rt, mi->pg_rn); for (i = 0; i < ICE_PARSER_FLG_NUM; i++) { if (mi->flags & BIT(i)) ice_rt_flag_set(rt, i, true); } } /** * ice_parser_rt_pktbuf_set - set a packet into parser runtime * @rt: pointer to the parser runtime * @pkt_buf: buffer with packet data * @pkt_len: packet buffer length */ void ice_parser_rt_pktbuf_set(struct ice_parser_rt *rt, const u8 *pkt_buf, int pkt_len) { int len = min(ICE_PARSER_MAX_PKT_LEN, pkt_len); u16 ho = rt->gpr[ICE_GPR_HO_IDX]; memcpy(rt->pkt_buf, pkt_buf, len); rt->pkt_len = pkt_len; memcpy(&rt->gpr[ICE_GPR_HV_IDX], &rt->pkt_buf[ho], ICE_GPR_HV_SIZE); } static void ice_bst_key_init(struct ice_parser_rt *rt, struct ice_imem_item *imem) { u8 tsr = (u8)rt->gpr[ICE_GPR_TSR_IDX]; u16 ho = rt->gpr[ICE_GPR_HO_IDX]; u8 *key = rt->bst_key; int idd, i; idd = ICE_BST_TCAM_KEY_SIZE - 1; if (imem->b_kb.tsr_ctrl) key[idd] = tsr; else key[idd] = imem->b_kb.prio; idd = ICE_BST_KEY_TCAM_SIZE - 1; for (i = idd; i >= 0; i--) { int j; j = ho + idd - i; if (j < ICE_PARSER_MAX_PKT_LEN) key[i] = rt->pkt_buf[ho + idd - i]; else key[i] = 0; } ice_debug(rt->psr->hw, ICE_DBG_PARSER, "Generated Boost TCAM Key:\n"); ice_debug(rt->psr->hw, ICE_DBG_PARSER, "%02X %02X %02X %02X %02X %02X %02X %02X %02X %02X\n", key[0], key[1], key[2], key[3], key[4], key[5], key[6], key[7], key[8], key[9]); ice_debug(rt->psr->hw, ICE_DBG_PARSER, "\n"); } static u16 ice_bit_rev_u16(u16 v, int len) { return bitrev16(v) >> (BITS_PER_TYPE(v) - len); } static u32 ice_bit_rev_u32(u32 v, int len) { return bitrev32(v) >> (BITS_PER_TYPE(v) - len); } static u32 ice_hv_bit_sel(struct ice_parser_rt *rt, int start, int len) { int offset; u32 buf[2]; u64 val; offset = ICE_GPR_HV_IDX + (start / BITS_PER_TYPE(u16)); memcpy(buf, &rt->gpr[offset], sizeof(buf)); buf[0] = bitrev8x4(buf[0]); buf[1] = bitrev8x4(buf[1]); val = *(u64 *)buf; val >>= start % BITS_PER_TYPE(u16); return ice_bit_rev_u32(val, len); } static u32 ice_pk_build(struct ice_parser_rt *rt, struct ice_np_keybuilder *kb) { if (kb->opc == ICE_NPKB_OPC_EXTRACT) return ice_hv_bit_sel(rt, kb->start_reg0, kb->len_reg1); else if (kb->opc == ICE_NPKB_OPC_BUILD) return rt->gpr[kb->start_reg0] | ((u32)rt->gpr[kb->len_reg1] << BITS_PER_TYPE(u16)); else if (kb->opc == ICE_NPKB_OPC_BYPASS) return 0; ice_debug(rt->psr->hw, ICE_DBG_PARSER, "Unsupported OP Code %u\n", kb->opc); return U32_MAX; } static bool ice_flag_get(struct ice_parser_rt *rt, unsigned int index) { int word = index / ICE_GPR_FLG_SIZE; int id = index % ICE_GPR_FLG_SIZE; return !!(rt->gpr[ICE_GPR_FLG_IDX + word] & (u16)BIT(id)); } static int ice_imem_pgk_init(struct ice_parser_rt *rt, struct ice_imem_item *imem) { memset(&rt->pg_key, 0, sizeof(rt->pg_key)); rt->pg_key.next_proto = ice_pk_build(rt, &imem->np_kb); if (rt->pg_key.next_proto == U32_MAX) return -EINVAL; if (imem->pg_kb.flag0_ena) rt->pg_key.flag0 = ice_flag_get(rt, imem->pg_kb.flag0_idx); if (imem->pg_kb.flag1_ena) rt->pg_key.flag1 = ice_flag_get(rt, imem->pg_kb.flag1_idx); if (imem->pg_kb.flag2_ena) rt->pg_key.flag2 = ice_flag_get(rt, imem->pg_kb.flag2_idx); if (imem->pg_kb.flag3_ena) rt->pg_key.flag3 = ice_flag_get(rt, imem->pg_kb.flag3_idx); rt->pg_key.alu_reg = rt->gpr[imem->pg_kb.alu_reg_idx]; rt->pg_key.node_id = rt->gpr[ICE_GPR_NN_IDX]; ice_debug(rt->psr->hw, ICE_DBG_PARSER, "Generate Parse Graph Key: node_id(%d), flag0-3(%d,%d,%d,%d), boost_idx(%d), alu_reg(0x%04x), next_proto(0x%08x)\n", rt->pg_key.node_id, rt->pg_key.flag0, rt->pg_key.flag1, rt->pg_key.flag2, rt->pg_key.flag3, rt->pg_key.boost_idx, rt->pg_key.alu_reg, rt->pg_key.next_proto); return 0; } static void ice_imem_alu0_set(struct ice_parser_rt *rt, struct ice_imem_item *imem) { rt->alu0 = &imem->alu0; ice_debug(rt->psr->hw, ICE_DBG_PARSER, "Load ALU0 from imem pc %d\n", imem->idx); } static void ice_imem_alu1_set(struct ice_parser_rt *rt, struct ice_imem_item *imem) { rt->alu1 = &imem->alu1; ice_debug(rt->psr->hw, ICE_DBG_PARSER, "Load ALU1 from imem pc %d\n", imem->idx); } static void ice_imem_alu2_set(struct ice_parser_rt *rt, struct ice_imem_item *imem) { rt->alu2 = &imem->alu2; ice_debug(rt->psr->hw, ICE_DBG_PARSER, "Load ALU2 from imem pc %d\n", imem->idx); } static void ice_imem_pgp_set(struct ice_parser_rt *rt, struct ice_imem_item *imem) { rt->pg_prio = imem->pg_prio; ice_debug(rt->psr->hw, ICE_DBG_PARSER, "Load PG priority %d from imem pc %d\n", rt->pg_prio, imem->idx); } static int ice_bst_pgk_init(struct ice_parser_rt *rt, struct ice_bst_tcam_item *bst) { memset(&rt->pg_key, 0, sizeof(rt->pg_key)); rt->pg_key.boost_idx = bst->hit_idx_grp; rt->pg_key.next_proto = ice_pk_build(rt, &bst->np_kb); if (rt->pg_key.next_proto == U32_MAX) return -EINVAL; if (bst->pg_kb.flag0_ena) rt->pg_key.flag0 = ice_flag_get(rt, bst->pg_kb.flag0_idx); if (bst->pg_kb.flag1_ena) rt->pg_key.flag1 = ice_flag_get(rt, bst->pg_kb.flag1_idx); if (bst->pg_kb.flag2_ena) rt->pg_key.flag2 = ice_flag_get(rt, bst->pg_kb.flag2_idx); if (bst->pg_kb.flag3_ena) rt->pg_key.flag3 = ice_flag_get(rt, bst->pg_kb.flag3_idx); rt->pg_key.alu_reg = rt->gpr[bst->pg_kb.alu_reg_idx]; rt->pg_key.node_id = rt->gpr[ICE_GPR_NN_IDX]; ice_debug(rt->psr->hw, ICE_DBG_PARSER, "Generate Parse Graph Key: node_id(%d), flag0-3(%d,%d,%d,%d), boost_idx(%d), alu_reg(0x%04x), next_proto(0x%08x)\n", rt->pg_key.node_id, rt->pg_key.flag0, rt->pg_key.flag1, rt->pg_key.flag2, rt->pg_key.flag3, rt->pg_key.boost_idx, rt->pg_key.alu_reg, rt->pg_key.next_proto); return 0; } static void ice_bst_alu0_set(struct ice_parser_rt *rt, struct ice_bst_tcam_item *bst) { rt->alu0 = &bst->alu0; ice_debug(rt->psr->hw, ICE_DBG_PARSER, "Load ALU0 from boost address %d\n", bst->addr); } static void ice_bst_alu1_set(struct ice_parser_rt *rt, struct ice_bst_tcam_item *bst) { rt->alu1 = &bst->alu1; ice_debug(rt->psr->hw, ICE_DBG_PARSER, "Load ALU1 from boost address %d\n", bst->addr); } static void ice_bst_alu2_set(struct ice_parser_rt *rt, struct ice_bst_tcam_item *bst) { rt->alu2 = &bst->alu2; ice_debug(rt->psr->hw, ICE_DBG_PARSER, "Load ALU2 from boost address %d\n", bst->addr); } static void ice_bst_pgp_set(struct ice_parser_rt *rt, struct ice_bst_tcam_item *bst) { rt->pg_prio = bst->pg_prio; ice_debug(rt->psr->hw, ICE_DBG_PARSER, "Load PG priority %d from boost address %d\n", rt->pg_prio, bst->addr); } static struct ice_pg_cam_item *ice_rt_pg_cam_match(struct ice_parser_rt *rt) { struct ice_parser *psr = rt->psr; struct ice_pg_cam_item *item; item = ice_pg_cam_match(psr->pg_cam_table, ICE_PG_CAM_TABLE_SIZE, &rt->pg_key); if (!item) item = ice_pg_cam_match(psr->pg_sp_cam_table, ICE_PG_SP_CAM_TABLE_SIZE, &rt->pg_key); return item; } static struct ice_pg_nm_cam_item *ice_rt_pg_nm_cam_match(struct ice_parser_rt *rt) { struct ice_parser *psr = rt->psr; struct ice_pg_nm_cam_item *item; item = ice_pg_nm_cam_match(psr->pg_nm_cam_table, ICE_PG_NM_CAM_TABLE_SIZE, &rt->pg_key); if (!item) item = ice_pg_nm_cam_match(psr->pg_nm_sp_cam_table, ICE_PG_NM_SP_CAM_TABLE_SIZE, &rt->pg_key); return item; } static void ice_gpr_add(struct ice_parser_rt *rt, int idx, u16 val) { rt->pu.gpr_val_upd[idx] = true; rt->pu.gpr_val[idx] = val; ice_debug(rt->psr->hw, ICE_DBG_PARSER, "Pending update for register %d value %d\n", idx, val); } static void ice_pg_exe(struct ice_parser_rt *rt) { ice_debug(rt->psr->hw, ICE_DBG_PARSER, "Executing ParseGraph action ...\n"); ice_gpr_add(rt, ICE_GPR_NP_IDX, rt->action->next_pc); ice_gpr_add(rt, ICE_GPR_NN_IDX, rt->action->next_node); ice_debug(rt->psr->hw, ICE_DBG_PARSER, "Executing ParseGraph action done.\n"); } static void ice_flg_add(struct ice_parser_rt *rt, int idx, bool val) { rt->pu.flg_msk |= BIT_ULL(idx); if (val) rt->pu.flg_val |= BIT_ULL(idx); else rt->pu.flg_val &= ~BIT_ULL(idx); ice_debug(rt->psr->hw, ICE_DBG_PARSER, "Pending update for flag %d value %d\n", idx, val); } static void ice_flg_update(struct ice_parser_rt *rt, struct ice_alu *alu) { u32 hv_bit_sel; int i; if (!alu->dedicate_flags_ena) return; if (alu->flags_extr_imm) { for (i = 0; i < alu->dst_len; i++) ice_flg_add(rt, alu->dst_start + i, !!(alu->flags_start_imm & BIT(i))); } else { for (i = 0; i < alu->dst_len; i++) { hv_bit_sel = ice_hv_bit_sel(rt, alu->flags_start_imm + i, 1); ice_flg_add(rt, alu->dst_start + i, !!hv_bit_sel); } } } static void ice_po_update(struct ice_parser_rt *rt, struct ice_alu *alu) { if (alu->proto_offset_opc == ICE_PO_OFF_HDR_ADD) rt->po = (u16)(rt->gpr[ICE_GPR_HO_IDX] + alu->proto_offset); else if (alu->proto_offset_opc == ICE_PO_OFF_HDR_SUB) rt->po = (u16)(rt->gpr[ICE_GPR_HO_IDX] - alu->proto_offset); else if (alu->proto_offset_opc == ICE_PO_OFF_REMAIN) rt->po = rt->gpr[ICE_GPR_HO_IDX]; ice_debug(rt->psr->hw, ICE_DBG_PARSER, "Update Protocol Offset = %d\n", rt->po); } static u16 ice_reg_bit_sel(struct ice_parser_rt *rt, int reg_idx, int start, int len) { int offset; u32 val; offset = ICE_GPR_HV_IDX + (start / BITS_PER_TYPE(u16)); memcpy(&val, &rt->gpr[offset], sizeof(val)); val = bitrev8x4(val); val >>= start % BITS_PER_TYPE(u16); return ice_bit_rev_u16(val, len); } static void ice_err_add(struct ice_parser_rt *rt, int idx, bool val) { rt->pu.err_msk |= (u16)BIT(idx); if (val) rt->pu.flg_val |= (u64)BIT_ULL(idx); else rt->pu.flg_val &= ~(u64)BIT_ULL(idx); ice_debug(rt->psr->hw, ICE_DBG_PARSER, "Pending update for error %d value %d\n", idx, val); } static void ice_dst_reg_bit_set(struct ice_parser_rt *rt, struct ice_alu *alu, bool val) { u16 flg_idx; if (alu->dedicate_flags_ena) { ice_debug(rt->psr->hw, ICE_DBG_PARSER, "DedicatedFlagsEnable should not be enabled in opcode %d\n", alu->opc); return; } if (alu->dst_reg_id == ICE_GPR_ERR_IDX) { if (alu->dst_start >= ICE_PARSER_ERR_NUM) { ice_debug(rt->psr->hw, ICE_DBG_PARSER, "Invalid error %d\n", alu->dst_start); return; } ice_err_add(rt, alu->dst_start, val); } else if (alu->dst_reg_id >= ICE_GPR_FLG_IDX) { flg_idx = (u16)(((alu->dst_reg_id - ICE_GPR_FLG_IDX) << 4) + alu->dst_start); if (flg_idx >= ICE_PARSER_FLG_NUM) { ice_debug(rt->psr->hw, ICE_DBG_PARSER, "Invalid flag %d\n", flg_idx); return; } ice_flg_add(rt, flg_idx, val); } else { ice_debug(rt->psr->hw, ICE_DBG_PARSER, "Unexpected Dest Register Bit set, RegisterID %d Start %d\n", alu->dst_reg_id, alu->dst_start); } } static void ice_alu_exe(struct ice_parser_rt *rt, struct ice_alu *alu) { u16 dst, src, shift, imm; if (alu->shift_xlate_sel) { ice_debug(rt->psr->hw, ICE_DBG_PARSER, "shift_xlate_sel != 0 is not expected\n"); return; } ice_po_update(rt, alu); ice_flg_update(rt, alu); dst = rt->gpr[alu->dst_reg_id]; src = ice_reg_bit_sel(rt, alu->src_reg_id, alu->src_start, alu->src_len); shift = alu->shift_xlate_key; imm = alu->imm; switch (alu->opc) { case ICE_ALU_PARK: break; case ICE_ALU_MOV_ADD: dst = (src << shift) + imm; ice_gpr_add(rt, alu->dst_reg_id, dst); break; case ICE_ALU_ADD: dst += (src << shift) + imm; ice_gpr_add(rt, alu->dst_reg_id, dst); break; case ICE_ALU_ORLT: if (src < imm) ice_dst_reg_bit_set(rt, alu, true); ice_gpr_add(rt, ICE_GPR_NP_IDX, alu->branch_addr); break; case ICE_ALU_OREQ: if (src == imm) ice_dst_reg_bit_set(rt, alu, true); ice_gpr_add(rt, ICE_GPR_NP_IDX, alu->branch_addr); break; case ICE_ALU_SETEQ: ice_dst_reg_bit_set(rt, alu, src == imm); ice_gpr_add(rt, ICE_GPR_NP_IDX, alu->branch_addr); break; case ICE_ALU_MOV_XOR: dst = (src << shift) ^ imm; ice_gpr_add(rt, alu->dst_reg_id, dst); break; default: ice_debug(rt->psr->hw, ICE_DBG_PARSER, "Unsupported ALU instruction %d\n", alu->opc); break; } } static void ice_alu0_exe(struct ice_parser_rt *rt) { ice_debug(rt->psr->hw, ICE_DBG_PARSER, "Executing ALU0 ...\n"); ice_alu_exe(rt, rt->alu0); ice_debug(rt->psr->hw, ICE_DBG_PARSER, "Executing ALU0 done.\n"); } static void ice_alu1_exe(struct ice_parser_rt *rt) { ice_debug(rt->psr->hw, ICE_DBG_PARSER, "Executing ALU1 ...\n"); ice_alu_exe(rt, rt->alu1); ice_debug(rt->psr->hw, ICE_DBG_PARSER, "Executing ALU1 done.\n"); } static void ice_alu2_exe(struct ice_parser_rt *rt) { ice_debug(rt->psr->hw, ICE_DBG_PARSER, "Executing ALU2 ...\n"); ice_alu_exe(rt, rt->alu2); ice_debug(rt->psr->hw, ICE_DBG_PARSER, "Executing ALU2 done.\n"); } static void ice_pu_exe(struct ice_parser_rt *rt) { struct ice_gpr_pu *pu = &rt->pu; unsigned int i; ice_debug(rt->psr->hw, ICE_DBG_PARSER, "Updating Registers ...\n"); for (i = 0; i < ICE_PARSER_GPR_NUM; i++) { if (pu->gpr_val_upd[i]) ice_rt_gpr_set(rt, i, pu->gpr_val[i]); } for (i = 0; i < ICE_PARSER_FLG_NUM; i++) { if (pu->flg_msk & BIT(i)) ice_rt_flag_set(rt, i, pu->flg_val & BIT(i)); } for (i = 0; i < ICE_PARSER_ERR_NUM; i++) { if (pu->err_msk & BIT(i)) ice_rt_err_set(rt, i, pu->err_val & BIT(i)); } ice_debug(rt->psr->hw, ICE_DBG_PARSER, "Updating Registers done.\n"); } static void ice_alu_pg_exe(struct ice_parser_rt *rt) { memset(&rt->pu, 0, sizeof(rt->pu)); switch (rt->pg_prio) { case (ICE_PG_P0): ice_pg_exe(rt); ice_alu0_exe(rt); ice_alu1_exe(rt); ice_alu2_exe(rt); break; case (ICE_PG_P1): ice_alu0_exe(rt); ice_pg_exe(rt); ice_alu1_exe(rt); ice_alu2_exe(rt); break; case (ICE_PG_P2): ice_alu0_exe(rt); ice_alu1_exe(rt); ice_pg_exe(rt); ice_alu2_exe(rt); break; case (ICE_PG_P3): ice_alu0_exe(rt); ice_alu1_exe(rt); ice_alu2_exe(rt); ice_pg_exe(rt); break; } ice_pu_exe(rt); if (rt->action->ho_inc == 0) return; if (rt->action->ho_polarity) ice_rt_ho_set(rt, rt->gpr[ICE_GPR_HO_IDX] + rt->action->ho_inc); else ice_rt_ho_set(rt, rt->gpr[ICE_GPR_HO_IDX] - rt->action->ho_inc); } static void ice_proto_off_update(struct ice_parser_rt *rt) { struct ice_parser *psr = rt->psr; if (rt->action->is_pg) { struct ice_proto_grp_item *proto_grp = &psr->proto_grp_table[rt->action->proto_id]; u16 po; int i; for (i = 0; i < ICE_PROTO_COUNT_PER_GRP; i++) { struct ice_proto_off *entry = &proto_grp->po[i]; if (entry->proto_id == U8_MAX) break; if (!entry->polarity) po = rt->po + entry->offset; else po = rt->po - entry->offset; rt->protocols[entry->proto_id] = true; rt->offsets[entry->proto_id] = po; ice_debug(rt->psr->hw, ICE_DBG_PARSER, "Set Protocol %d at offset %d\n", entry->proto_id, po); } } else { rt->protocols[rt->action->proto_id] = true; rt->offsets[rt->action->proto_id] = rt->po; ice_debug(rt->psr->hw, ICE_DBG_PARSER, "Set Protocol %d at offset %d\n", rt->action->proto_id, rt->po); } } static void ice_marker_set(struct ice_parser_rt *rt, int idx) { unsigned int byte = idx / BITS_PER_BYTE; unsigned int bit = idx % BITS_PER_BYTE; rt->markers[byte] |= (u8)BIT(bit); } static void ice_marker_update(struct ice_parser_rt *rt) { struct ice_parser *psr = rt->psr; if (rt->action->is_mg) { struct ice_mk_grp_item *mk_grp = &psr->mk_grp_table[rt->action->marker_id]; int i; for (i = 0; i < ICE_MARKER_ID_NUM; i++) { u8 marker = mk_grp->markers[i]; if (marker == ICE_MARKER_MAX_SIZE) break; ice_marker_set(rt, marker); ice_debug(rt->psr->hw, ICE_DBG_PARSER, "Set Marker %d\n", marker); } } else { if (rt->action->marker_id != ICE_MARKER_MAX_SIZE) ice_marker_set(rt, rt->action->marker_id); ice_debug(rt->psr->hw, ICE_DBG_PARSER, "Set Marker %d\n", rt->action->marker_id); } } static u16 ice_ptype_resolve(struct ice_parser_rt *rt) { struct ice_ptype_mk_tcam_item *item; struct ice_parser *psr = rt->psr; item = ice_ptype_mk_tcam_match(psr->ptype_mk_tcam_table, rt->markers, ICE_MARKER_ID_SIZE); if (item) return item->ptype; ice_debug(rt->psr->hw, ICE_DBG_PARSER, "Could not resolve PTYPE\n"); return U16_MAX; } static void ice_proto_off_resolve(struct ice_parser_rt *rt, struct ice_parser_result *rslt) { int i; for (i = 0; i < ICE_PO_PAIR_SIZE - 1; i++) { if (rt->protocols[i]) { rslt->po[rslt->po_num].proto_id = (u8)i; rslt->po[rslt->po_num].offset = rt->offsets[i]; rslt->po_num++; } } } static void ice_result_resolve(struct ice_parser_rt *rt, struct ice_parser_result *rslt) { struct ice_parser *psr = rt->psr; memset(rslt, 0, sizeof(*rslt)); memcpy(&rslt->flags_psr, &rt->gpr[ICE_GPR_FLG_IDX], ICE_PARSER_FLAG_PSR_SIZE); rslt->flags_pkt = ice_flg_redirect(psr->flg_rd_table, rslt->flags_psr); rslt->flags_sw = ice_xlt_kb_flag_get(psr->xlt_kb_sw, rslt->flags_pkt); rslt->flags_fd = ice_xlt_kb_flag_get(psr->xlt_kb_fd, rslt->flags_pkt); rslt->flags_rss = ice_xlt_kb_flag_get(psr->xlt_kb_rss, rslt->flags_pkt); ice_proto_off_resolve(rt, rslt); rslt->ptype = ice_ptype_resolve(rt); } /** * ice_parser_rt_execute - parser execution routine * @rt: pointer to the parser runtime * @rslt: input/output parameter to save parser result * * Return: 0 on success or errno. */ int ice_parser_rt_execute(struct ice_parser_rt *rt, struct ice_parser_result *rslt) { struct ice_pg_nm_cam_item *pg_nm_cam; struct ice_parser *psr = rt->psr; struct ice_pg_cam_item *pg_cam; int status = 0; u16 node; u16 pc; node = rt->gpr[ICE_GPR_NN_IDX]; ice_debug(rt->psr->hw, ICE_DBG_PARSER, "Start with Node: %u\n", node); while (true) { struct ice_bst_tcam_item *bst; struct ice_imem_item *imem; pc = rt->gpr[ICE_GPR_NP_IDX]; imem = &psr->imem_table[pc]; ice_debug(rt->psr->hw, ICE_DBG_PARSER, "Load imem at pc: %u\n", pc); ice_bst_key_init(rt, imem); bst = ice_bst_tcam_match(psr->bst_tcam_table, rt->bst_key); if (!bst) { ice_debug(rt->psr->hw, ICE_DBG_PARSER, "No Boost TCAM Match\n"); status = ice_imem_pgk_init(rt, imem); if (status) break; ice_imem_alu0_set(rt, imem); ice_imem_alu1_set(rt, imem); ice_imem_alu2_set(rt, imem); ice_imem_pgp_set(rt, imem); } else { ice_debug(rt->psr->hw, ICE_DBG_PARSER, "Boost TCAM Match address: %u\n", bst->addr); if (imem->b_m.pg) { status = ice_bst_pgk_init(rt, bst); if (status) break; ice_bst_pgp_set(rt, bst); } else { status = ice_imem_pgk_init(rt, imem); if (status) break; ice_imem_pgp_set(rt, imem); } if (imem->b_m.alu0) ice_bst_alu0_set(rt, bst); else ice_imem_alu0_set(rt, imem); if (imem->b_m.alu1) ice_bst_alu1_set(rt, bst); else ice_imem_alu1_set(rt, imem); if (imem->b_m.alu2) ice_bst_alu2_set(rt, bst); else ice_imem_alu2_set(rt, imem); } rt->action = NULL; pg_cam = ice_rt_pg_cam_match(rt); if (!pg_cam) { pg_nm_cam = ice_rt_pg_nm_cam_match(rt); if (pg_nm_cam) { ice_debug(rt->psr->hw, ICE_DBG_PARSER, "Match ParseGraph Nomatch CAM Address %u\n", pg_nm_cam->idx); rt->action = &pg_nm_cam->action; } } else { ice_debug(rt->psr->hw, ICE_DBG_PARSER, "Match ParseGraph CAM Address %u\n", pg_cam->idx); rt->action = &pg_cam->action; } if (!rt->action) { ice_debug(rt->psr->hw, ICE_DBG_PARSER, "Failed to match ParseGraph CAM, stop parsing.\n"); status = -EINVAL; break; } ice_alu_pg_exe(rt); ice_marker_update(rt); ice_proto_off_update(rt); ice_debug(rt->psr->hw, ICE_DBG_PARSER, "Go to node %u\n", rt->action->next_node); if (rt->action->is_last_round) { ice_debug(rt->psr->hw, ICE_DBG_PARSER, "Last Round in ParseGraph Action, stop parsing.\n"); break; } if (rt->gpr[ICE_GPR_HO_IDX] >= rt->pkt_len) { ice_debug(rt->psr->hw, ICE_DBG_PARSER, "Header Offset (%u) is larger than packet len (%u), stop parsing\n", rt->gpr[ICE_GPR_HO_IDX], rt->pkt_len); break; } } ice_result_resolve(rt, rslt); return status; }