1 /* SPDX-License-Identifier: BSD-3-Clause
2 * Copyright(c) 2001-2021 Intel Corporation
5 #include "ice_common.h"
6 #include "ice_parser_util.h"
8 #define ICE_BST_TCAM_TABLE_SIZE 256
10 static void _bst_np_kb_dump(struct ice_hw *hw, struct ice_np_keybuilder *kb)
12 ice_info(hw, "next proto key builder:\n");
13 ice_info(hw, "\tops = %d\n", kb->ops);
14 ice_info(hw, "\tstart_or_reg0 = %d\n", kb->start_or_reg0);
15 ice_info(hw, "\tlen_or_reg1 = %d\n", kb->len_or_reg1);
18 static void _bst_pg_kb_dump(struct ice_hw *hw, struct ice_pg_keybuilder *kb)
20 ice_info(hw, "parse graph key builder:\n");
21 ice_info(hw, "\tflag0_ena = %d\n", kb->flag0_ena);
22 ice_info(hw, "\tflag1_ena = %d\n", kb->flag1_ena);
23 ice_info(hw, "\tflag2_ena = %d\n", kb->flag2_ena);
24 ice_info(hw, "\tflag3_ena = %d\n", kb->flag3_ena);
25 ice_info(hw, "\tflag0_idx = %d\n", kb->flag0_idx);
26 ice_info(hw, "\tflag1_idx = %d\n", kb->flag1_idx);
27 ice_info(hw, "\tflag2_idx = %d\n", kb->flag2_idx);
28 ice_info(hw, "\tflag3_idx = %d\n", kb->flag3_idx);
29 ice_info(hw, "\talu_reg_idx = %d\n", kb->alu_reg_idx);
32 static void _bst_alu_dump(struct ice_hw *hw, struct ice_alu *alu, int index)
34 ice_info(hw, "alu%d:\n", index);
35 ice_info(hw, "\topc = %d\n", alu->opc);
36 ice_info(hw, "\tsrc_start = %d\n", alu->src_start);
37 ice_info(hw, "\tsrc_len = %d\n", alu->src_len);
38 ice_info(hw, "\tshift_xlate_select = %d\n", alu->shift_xlate_select);
39 ice_info(hw, "\tshift_xlate_key = %d\n", alu->shift_xlate_key);
40 ice_info(hw, "\tsrc_reg_id = %d\n", alu->src_reg_id);
41 ice_info(hw, "\tdst_reg_id = %d\n", alu->dst_reg_id);
42 ice_info(hw, "\tinc0 = %d\n", alu->inc0);
43 ice_info(hw, "\tinc1 = %d\n", alu->inc1);
44 ice_info(hw, "\tproto_offset_opc = %d\n", alu->proto_offset_opc);
45 ice_info(hw, "\tproto_offset = %d\n", alu->proto_offset);
46 ice_info(hw, "\tbranch_addr = %d\n", alu->branch_addr);
47 ice_info(hw, "\timm = %d\n", alu->imm);
48 ice_info(hw, "\tdst_start = %d\n", alu->dst_start);
49 ice_info(hw, "\tdst_len = %d\n", alu->dst_len);
50 ice_info(hw, "\tflags_extr_imm = %d\n", alu->flags_extr_imm);
51 ice_info(hw, "\tflags_start_imm= %d\n", alu->flags_start_imm);
55 * ice_bst_tcam_dump - dump a boost tcam info
56 * @ice_hw: pointer to the hardware structure
57 * @item: boost tcam to dump
59 void ice_bst_tcam_dump(struct ice_hw *hw, struct ice_bst_tcam_item *item)
63 ice_info(hw, "address = %d\n", item->address);
64 ice_info(hw, "key :");
65 for (i = 0; i < 20; i++)
66 ice_info(hw, "%02x ", item->key[i]);
68 ice_info(hw, "key_inv:");
69 for (i = 0; i < 20; i++)
70 ice_info(hw, "%02x ", item->key_inv[i]);
72 ice_info(hw, "hit_idx_grp = %d\n", item->hit_idx_grp);
73 ice_info(hw, "pg_pri = %d\n", item->pg_pri);
74 _bst_np_kb_dump(hw, &item->np_kb);
75 _bst_pg_kb_dump(hw, &item->pg_kb);
76 _bst_alu_dump(hw, &item->alu0, 0);
77 _bst_alu_dump(hw, &item->alu1, 1);
78 _bst_alu_dump(hw, &item->alu2, 2);
81 /** The function parses a 96 bits ALU entry with below format:
82 * BIT 0-5: Opcode (alu->opc)
83 * BIT 6-13: Source Start (alu->src_start)
84 * BIT 14-18: Source Length (alu->src_len)
85 * BIT 19: Shift/Xlate Select (alu->shift_xlate_select)
86 * BIT 20-23: Shift/Xlate Key (alu->shift_xlate_key)
87 * BIT 24-30: Source Register ID (alu->src_reg_id)
88 * BIT 31-37: Dest. Register ID (alu->dst_reg_id)
89 * BIT 38: Inc0 (alu->inc0)
90 * BIT 39: Inc1:(alu->inc1)
91 * BIT 40:41 Protocol Offset Opcode (alu->proto_offset_opc)
92 * BIT 42:49 Protocol Offset (alu->proto_offset)
93 * BIT 50:57 Branch Address (alu->branch_addr)
94 * BIT 58:73 Immediate (alu->imm)
95 * BIT 74 Dedicated Flags Enable (alu->dedicate_flags_ena)
96 * BIT 75:80 Dest. Start (alu->dst_start)
97 * BIT 81:86 Dest. Length (alu->dst_len)
98 * BIT 87 Flags Extract Imm. (alu->flags_extr_imm)
99 * BIT 88:95 Flags Start/Immediate (alu->flags_start_imm)
101 * NOTE: the first 7 bits are skipped as the start bit is not
104 static void _bst_alu_init(struct ice_alu *alu, u8 *data)
106 u64 d64 = *(u64 *)data >> 7;
108 alu->opc = (enum ice_alu_opcode)(d64 & 0x3f);
109 alu->src_start = (u8)((d64 >> 6) & 0xff);
110 alu->src_len = (u8)((d64 >> 14) & 0x1f);
111 alu->shift_xlate_select = ((d64 >> 19) & 0x1) != 0;
112 alu->shift_xlate_key = (u8)((d64 >> 20) & 0xf);
113 alu->src_reg_id = (u8)((d64 >> 24) & 0x7f);
114 alu->dst_reg_id = (u8)((d64 >> 31) & 0x7f);
115 alu->inc0 = ((d64 >> 38) & 0x1) != 0;
116 alu->inc1 = ((d64 >> 39) & 0x1) != 0;
117 alu->proto_offset_opc = (u8)((d64 >> 40) & 0x3);
118 alu->proto_offset = (u8)((d64 >> 42) & 0xff);
120 d64 = *(u64 *)(&data[6]) >> 9;
122 alu->branch_addr = (u8)(d64 & 0xff);
123 alu->imm = (u16)((d64 >> 8) & 0xffff);
124 alu->dedicate_flags_ena = ((d64 >> 24) & 0x1) != 0;
125 alu->dst_start = (u8)((d64 >> 25) & 0x3f);
126 alu->dst_len = (u8)((d64 >> 31) & 0x3f);
127 alu->flags_extr_imm = ((d64 >> 37) & 0x1) != 0;
128 alu->flags_start_imm = (u8)((d64 >> 38) & 0xff);
131 /** The function parses a 35 bits Parse Graph Key Build with below format:
132 * BIT 0: Flag 0 Enable (kb->flag0_ena)
133 * BIT 1-6: Flag 0 Index (kb->flag0_idx)
134 * BIT 7: Flag 1 Enable (kb->flag1_ena)
135 * BIT 8-13: Flag 1 Index (kb->flag1_idx)
136 * BIT 14: Flag 2 Enable (kb->flag2_ena)
137 * BIT 15-20: Flag 2 Index (kb->flag2_idx)
138 * BIT 21: Flag 3 Enable (kb->flag3_ena)
139 * BIT 22-27: Flag 3 Index (kb->flag3_idx)
140 * BIT 28-34: ALU Register Index (kb->alu_reg_idx)
142 static void _bst_pgkb_init(struct ice_pg_keybuilder *kb, u64 data)
144 kb->flag0_ena = (data & 0x1) != 0;
145 kb->flag0_idx = (u8)((data >> 1) & 0x3f);
146 kb->flag1_ena = ((data >> 7) & 0x1) != 0;
147 kb->flag1_idx = (u8)((data >> 8) & 0x3f);
148 kb->flag2_ena = ((data >> 14) & 0x1) != 0;
149 kb->flag2_idx = (u8)((data >> 15) & 0x3f);
150 kb->flag3_ena = ((data >> 21) & 0x1) != 0;
151 kb->flag3_idx = (u8)((data >> 22) & 0x3f);
152 kb->alu_reg_idx = (u8)((data >> 28) & 0x7f);
155 /** The function parses a 18 bits Next Protocol Key Build with below format:
156 * BIT 0-1: Opcode kb->ops
157 * BIT 2-9: Start / Reg 0 (kb->start_or_reg0)
158 * BIT 10-17: Length / Reg 1 (kb->len_or_reg1)
160 static void _bst_npkb_init(struct ice_np_keybuilder *kb, u32 data)
162 kb->ops = (u8)(data & 0x3);
163 kb->start_or_reg0 = (u8)((data >> 2) & 0xff);
164 kb->len_or_reg1 = (u8)((data >> 10) & 0xff);
167 /** The function parses a 704 bits Boost TCAM entry with below format:
168 * BIT 0-15: Address (ti->address)
169 * BIT 16-31: reserved
170 * BIT 32-191: Key (ti->key)
171 * BIT 192-351:Key Invert (ti->key_inv)
172 * BIT 352-359:Boost Hit Index Group (ti->hit_idx_grp)
173 * BIT 360-361:PG Priority (ti->pg_pri)
174 * BIT 362-379:Next Proto Key Build (ti->np_kb)
175 * BIT 380-414:PG Key Build (ti->pg_kb)
176 * BIT 415-510:ALU 0 (ti->alu0)
177 * BIT 511-606:ALU 1 (ti->alu1)
178 * BIT 607-702:ALU 2 (ti->alu2)
181 static void _bst_parse_item(struct ice_hw *hw, u16 idx, void *item,
182 void *data, int size)
184 struct ice_bst_tcam_item *ti = (struct ice_bst_tcam_item *)item;
185 u8 *buf = (u8 *)data;
188 ti->address = *(u16 *)buf;
190 for (i = 0; i < 20; i++)
191 ti->key[i] = buf[4 + i];
192 for (i = 0; i < 20; i++)
193 ti->key_inv[i] = buf[24 + i];
194 ti->hit_idx_grp = buf[44];
195 ti->pg_pri = buf[45] & 0x3;
196 _bst_npkb_init(&ti->np_kb, *(u32 *)&buf[45] >> 2);
197 _bst_pgkb_init(&ti->pg_kb, *(u64 *)&buf[47] >> 4);
198 _bst_alu_init(&ti->alu0, &buf[51]);
199 _bst_alu_init(&ti->alu1, &buf[63]);
200 _bst_alu_init(&ti->alu2, &buf[75]);
202 if (hw->debug_mask & ICE_DBG_PARSER)
203 ice_bst_tcam_dump(hw, ti);
207 * ice_bst_tcam_table_get - create a boost tcam table
208 * @ice_hw: pointer to the hardware structure
210 struct ice_bst_tcam_item *ice_bst_tcam_table_get(struct ice_hw *hw)
212 return (struct ice_bst_tcam_item *)
213 ice_parser_create_table(hw, ICE_SID_RXPARSER_BOOST_TCAM,
214 sizeof(struct ice_bst_tcam_item),
215 ICE_BST_TCAM_TABLE_SIZE,
216 ice_parser_sect_item_get,
217 _bst_parse_item, true);
220 static void _parse_lbl_item(struct ice_hw *hw, u16 idx, void *item,
221 void *data, int size)
223 ice_parse_item_dflt(hw, idx, item, data, size);
225 if (hw->debug_mask & ICE_DBG_PARSER)
226 ice_lbl_dump(hw, (struct ice_lbl_item *)item);
230 * ice_bst_lbl_table_get - create a boost label table
231 * @ice_hw: pointer to the hardware structure
233 struct ice_lbl_item *ice_bst_lbl_table_get(struct ice_hw *hw)
235 return (struct ice_lbl_item *)
236 ice_parser_create_table(hw, ICE_SID_LBL_RXPARSER_TMEM,
237 sizeof(struct ice_lbl_item),
238 ICE_BST_TCAM_TABLE_SIZE,
239 ice_parser_sect_item_get,
240 _parse_lbl_item, true);
244 * ice_bst_tcam_match - match a pattern on the boost tcam table
245 * @tcam_table: boost tcam table to search
246 * @pat: pattern to match
248 struct ice_bst_tcam_item *
249 ice_bst_tcam_match(struct ice_bst_tcam_item *tcam_table, u8 *pat)
253 for (i = 0; i < ICE_BST_TCAM_TABLE_SIZE; i++) {
254 struct ice_bst_tcam_item *item = &tcam_table[i];
256 if (item->hit_idx_grp == 0)
258 if (ice_ternary_match(item->key, item->key_inv, pat, 20))
265 static bool _start_with(const char *prefix, const char *string)
267 int len1 = strlen(prefix);
268 int len2 = strlen(string);
273 return !memcmp(prefix, string, len1);
276 struct ice_bst_tcam_item *
277 ice_bst_tcam_search(struct ice_bst_tcam_item *tcam_table,
278 struct ice_lbl_item *lbl_table,
279 const char *prefix, u16 *start)
283 for (; i < ICE_BST_TCAM_TABLE_SIZE; i++) {
284 if (_start_with(prefix, lbl_table[i].label)) {
286 return &tcam_table[lbl_table[i].idx];