net/ice/base: init IMEM table for parser

Parse DDP section ICE_SID_RXPARSER_IMEM into an array of
struct ice_imem_item.

The Instruction Memory (IMEM) section contains three VLIW instructions
for the ALUs, a key extraction instruction for the Parse Graph CAM, and
several other fields.

Signed-off-by: Qi Zhang <qi.z.zhang@intel.com>
Acked-by: Junfeng Guo <junfeng.guo@intel.com>
This commit is contained in:
Qi Zhang 2021-09-17 22:43:04 +08:00
parent 7fe2d98070
commit b3e73a812f
7 changed files with 483 additions and 0 deletions

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@ -0,0 +1,244 @@
/* SPDX-License-Identifier: BSD-3-Clause
* Copyright(c) 2001-2021 Intel Corporation
*/
#include "ice_common.h"
#include "ice_parser_util.h"
#define ICE_IMEM_TABLE_SIZE 192
static void _imem_bst_bm_dump(struct ice_hw *hw, struct ice_bst_main *bm)
{
ice_info(hw, "boost main:\n");
ice_info(hw, "\tal0 = %d\n", bm->al0);
ice_info(hw, "\tal1 = %d\n", bm->al1);
ice_info(hw, "\tal2 = %d\n", bm->al2);
ice_info(hw, "\tpg = %d\n", bm->pg);
}
static void _imem_bst_kb_dump(struct ice_hw *hw, struct ice_bst_keybuilder *kb)
{
ice_info(hw, "boost key builder:\n");
ice_info(hw, "\tpriority = %d\n", kb->priority);
ice_info(hw, "\ttsr_ctrl = %d\n", kb->tsr_ctrl);
}
static void _imem_np_kb_dump(struct ice_hw *hw, struct ice_np_keybuilder *kb)
{
ice_info(hw, "next proto key builder:\n");
ice_info(hw, "\tops = %d\n", kb->ops);
ice_info(hw, "\tstart_or_reg0 = %d\n", kb->start_or_reg0);
ice_info(hw, "\tlen_or_reg1 = %d\n", kb->len_or_reg1);
}
static void _imem_pg_kb_dump(struct ice_hw *hw, struct ice_pg_keybuilder *kb)
{
ice_info(hw, "parse graph key builder:\n");
ice_info(hw, "\tflag0_ena = %d\n", kb->flag0_ena);
ice_info(hw, "\tflag1_ena = %d\n", kb->flag1_ena);
ice_info(hw, "\tflag2_ena = %d\n", kb->flag2_ena);
ice_info(hw, "\tflag3_ena = %d\n", kb->flag3_ena);
ice_info(hw, "\tflag0_idx = %d\n", kb->flag0_idx);
ice_info(hw, "\tflag1_idx = %d\n", kb->flag1_idx);
ice_info(hw, "\tflag2_idx = %d\n", kb->flag2_idx);
ice_info(hw, "\tflag3_idx = %d\n", kb->flag3_idx);
ice_info(hw, "\talu_reg_idx = %d\n", kb->alu_reg_idx);
}
static void _imem_alu_dump(struct ice_hw *hw, struct ice_alu *alu, int index)
{
ice_info(hw, "alu%d:\n", index);
ice_info(hw, "\topc = %d\n", alu->opc);
ice_info(hw, "\tsrc_start = %d\n", alu->src_start);
ice_info(hw, "\tsrc_len = %d\n", alu->src_len);
ice_info(hw, "\tshift_xlate_select = %d\n", alu->shift_xlate_select);
ice_info(hw, "\tshift_xlate_key = %d\n", alu->shift_xlate_key);
ice_info(hw, "\tsrc_reg_id = %d\n", alu->src_reg_id);
ice_info(hw, "\tdst_reg_id = %d\n", alu->dst_reg_id);
ice_info(hw, "\tinc0 = %d\n", alu->inc0);
ice_info(hw, "\tinc1 = %d\n", alu->inc1);
ice_info(hw, "\tproto_offset_opc = %d\n", alu->proto_offset_opc);
ice_info(hw, "\tproto_offset = %d\n", alu->proto_offset);
ice_info(hw, "\tbranch_addr = %d\n", alu->branch_addr);
ice_info(hw, "\timm = %d\n", alu->imm);
ice_info(hw, "\tdst_start = %d\n", alu->dst_start);
ice_info(hw, "\tdst_len = %d\n", alu->dst_len);
ice_info(hw, "\tflags_extr_imm = %d\n", alu->flags_extr_imm);
ice_info(hw, "\tflags_start_imm= %d\n", alu->flags_start_imm);
}
/**
* ice_imem_dump - dump an imem item info
* @ice_hw: pointer to the hardware structure
* @item: imem item to dump
*/
void ice_imem_dump(struct ice_hw *hw, struct ice_imem_item *item)
{
ice_info(hw, "index = %d\n", item->idx);
_imem_bst_bm_dump(hw, &item->b_m);
_imem_bst_kb_dump(hw, &item->b_kb);
ice_info(hw, "pg priority = %d\n", item->pg);
_imem_np_kb_dump(hw, &item->np_kb);
_imem_pg_kb_dump(hw, &item->pg_kb);
_imem_alu_dump(hw, &item->alu0, 0);
_imem_alu_dump(hw, &item->alu1, 1);
_imem_alu_dump(hw, &item->alu2, 2);
}
/** The function parses a 4 bits Boost Main with below format:
* BIT 0: ALU 0 (bm->alu0)
* BIT 1: ALU 1 (bm->alu1)
* BIT 2: ALU 2 (bm->alu2)
* BIT 3: Parge Graph (bm->pg)
*/
static void _imem_bm_init(struct ice_bst_main *bm, u8 data)
{
bm->al0 = (data & 0x1) != 0;
bm->al1 = (data & 0x2) != 0;
bm->al2 = (data & 0x4) != 0;
bm->pg = (data & 0x8) != 0;
}
/** The function parses a 10 bits Boost Main Build with below format:
* BIT 0-7: Priority (bkb->priority)
* BIT 8: TSR Control (bkb->tsr_ctrl)
* BIT 9: Reserved
*/
static void _imem_bkb_init(struct ice_bst_keybuilder *bkb, u16 data)
{
bkb->priority = (u8)(data & 0xff);
bkb->tsr_ctrl = (data & 0x100) != 0;
}
/** The function parses a 18 bits Next Protocol Key Build with below format:
* BIT 0-1: Opcode kb->ops
* BIT 2-9: Start / Reg 0 (kb->start_or_reg0)
* BIT 10-17: Length / Reg 1 (kb->len_or_reg1)
*/
static void _imem_npkb_init(struct ice_np_keybuilder *kb, u32 data)
{
kb->ops = (u8)(data & 0x3);
kb->start_or_reg0 = (u8)((data >> 2) & 0xff);
kb->len_or_reg1 = (u8)((data >> 10) & 0xff);
}
/** The function parses a 35 bits Parse Graph Key Build with below format:
* BIT 0: Flag 0 Enable (kb->flag0_ena)
* BIT 1-6: Flag 0 Index (kb->flag0_idx)
* BIT 7: Flag 1 Enable (kb->flag1_ena)
* BIT 8-13: Flag 1 Index (kb->flag1_idx)
* BIT 14: Flag 2 Enable (kb->flag2_ena)
* BIT 15-20: Flag 2 Index (kb->flag2_idx)
* BIT 21: Flag 3 Enable (kb->flag3_ena)
* BIT 22-27: Flag 3 Index (kb->flag3_idx)
* BIT 28-34: ALU Register Index (kb->alu_reg_idx)
*/
static void _imem_pgkb_init(struct ice_pg_keybuilder *kb, u64 data)
{
kb->flag0_ena = (data & 0x1) != 0;
kb->flag0_idx = (u8)((data >> 1) & 0x3f);
kb->flag1_ena = ((data >> 7) & 0x1) != 0;
kb->flag1_idx = (u8)((data >> 8) & 0x3f);
kb->flag2_ena = ((data >> 14) & 0x1) != 0;
kb->flag2_idx = (u8)((data >> 15) & 0x3f);
kb->flag3_ena = ((data >> 21) & 0x1) != 0;
kb->flag3_idx = (u8)((data >> 22) & 0x3f);
kb->alu_reg_idx = (u8)((data >> 28) & 0x7f);
}
/** The function parses a 96 bits ALU entry with below format:
* BIT 0-5: Opcode (alu->opc)
* BIT 6-13: Source Start (alu->src_start)
* BIT 14-18: Source Length (alu->src_len)
* BIT 19: Shift/Xlate Select (alu->shift_xlate_select)
* BIT 20-23: Shift/Xlate Key (alu->shift_xlate_key)
* BIT 24-30: Source Register ID (alu->src_reg_id)
* BIT 31-37: Dest. Register ID (alu->dst_reg_id)
* BIT 38: Inc0 (alu->inc0)
* BIT 39: Inc1:(alu->inc1)
* BIT 40:41 Protocol Offset Opcode (alu->proto_offset_opc)
* BIT 42:49 Protocol Offset (alu->proto_offset)
* BIT 50:57 Branch Address (alu->branch_addr)
* BIT 58:73 Immediate (alu->imm)
* BIT 74 Dedicated Flags Enable (alu->dedicate_flags_ena)
* BIT 75:80 Dest. Start (alu->dst_start)
* BIT 81:86 Dest. Length (alu->dst_len)
* BIT 87 Flags Extract Imm. (alu->flags_extr_imm)
* BIT 88:95 Flags Start/Immediate (alu->flags_start_imm)
*
* NOTE: the first 5 bits are skipped as the start bit is not
* byte aligned.
*/
static void _imem_alu_init(struct ice_alu *alu, u8 *data)
{
u64 d64 = *(u64 *)data >> 5;
alu->opc = (enum ice_alu_opcode)(d64 & 0x3f);
alu->src_start = (u8)((d64 >> 6) & 0xff);
alu->src_len = (u8)((d64 >> 14) & 0x1f);
alu->shift_xlate_select = ((d64 >> 19) & 0x1) != 0;
alu->shift_xlate_key = (u8)((d64 >> 20) & 0xf);
alu->src_reg_id = (u8)((d64 >> 24) & 0x7f);
alu->dst_reg_id = (u8)((d64 >> 31) & 0x7f);
alu->inc0 = ((d64 >> 38) & 0x1) != 0;
alu->inc1 = ((d64 >> 39) & 0x1) != 0;
alu->proto_offset_opc = (u8)((d64 >> 40) & 0x3);
alu->proto_offset = (u8)((d64 >> 42) & 0xff);
alu->branch_addr = (u8)((d64 >> 50) & 0xff);
d64 = *(u64 *)(&data[7]) >> 7;
alu->imm = (u16)(d64 & 0xffff);
alu->dedicate_flags_ena = ((d64 >> 16) & 0x1) != 0;
alu->dst_start = (u8)((d64 >> 17) & 0x3f);
alu->dst_len = (u8)((d64 >> 23) & 0x3f);
alu->flags_extr_imm = ((d64 >> 29) & 0x1) != 0;
alu->flags_start_imm = (u8)((d64 >> 30) & 0xff);
}
/** The function parses a 384 bits IMEM entry with below format:
* BIT 0-3: Boost Main (ii->b_m)
* BIT 4-13: Boost Key Build (ii->b_kb)
* BIT 14-15: PG Priority (ii->pg)
* BIT 16-33: Next Proto Key Build (ii->np_kb)
* BIT 34-68: PG Key Build (ii->pg_kb)
* BIT 69-164: ALU0 (ii->alu0)
* BIT 165-260:ALU1 (ii->alu1)
* BIT 261-356:ALU2 (ii->alu2)
* BIT 357-383:Reserved
*/
static void _imem_parse_item(struct ice_hw *hw, u16 idx, void *item,
void *data, int size)
{
struct ice_imem_item *ii = (struct ice_imem_item *)item;
u8 *buf = (u8 *)data;
ii->idx = idx;
_imem_bm_init(&ii->b_m, buf[0]);
_imem_bkb_init(&ii->b_kb, *((u16 *)(&buf[0])) >> 4);
ii->pg = (u8)((buf[1] & 0xc0) >> 6);
_imem_npkb_init(&ii->np_kb, *((u32 *)(&buf[2])));
_imem_pgkb_init(&ii->pg_kb, *((u64 *)(&buf[2])) >> 18);
_imem_alu_init(&ii->alu0, &buf[8]);
_imem_alu_init(&ii->alu1, &buf[20]);
_imem_alu_init(&ii->alu2, &buf[32]);
if (hw->debug_mask & ICE_DBG_PARSER)
ice_imem_dump(hw, ii);
}
/**
* ice_imem_table_get - create an imem table
* @ice_hw: pointer to the hardware structure
*/
struct ice_imem_item *ice_imem_table_get(struct ice_hw *hw)
{
return (struct ice_imem_item *)
ice_parser_create_table(hw, ICE_SID_RXPARSER_IMEM,
sizeof(struct ice_imem_item),
ICE_IMEM_TABLE_SIZE,
ice_parser_sect_item_get,
_imem_parse_item);
}

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@ -0,0 +1,109 @@
/* SPDX-License-Identifier: BSD-3-Clause
* Copyright(c) 2001-2021 Intel Corporation
*/
#ifndef _ICE_IMEM_H_
#define _ICE_IMEM_H_
struct ice_bst_main {
bool al0;
bool al1;
bool al2;
bool pg;
};
struct ice_bst_keybuilder {
u8 priority;
bool tsr_ctrl;
};
struct ice_np_keybuilder {
u8 ops;
u8 start_or_reg0;
u8 len_or_reg1;
};
struct ice_pg_keybuilder {
bool flag0_ena;
bool flag1_ena;
bool flag2_ena;
bool flag3_ena;
u8 flag0_idx;
u8 flag1_idx;
u8 flag2_idx;
u8 flag3_idx;
u8 alu_reg_idx;
};
enum ice_alu_opcode {
ICE_ALU_PARK = 0,
ICE_ALU_MOV_ADD = 1,
ICE_ALU_ADD = 2,
ICE_ALU_MOV_AND = 4,
ICE_ALU_AND = 5,
ICE_ALU_AND_IMM = 6,
ICE_ALU_MOV_OR = 7,
ICE_ALU_OR = 8,
ICE_ALU_MOV_XOR = 9,
ICE_ALU_XOR = 10,
ICE_ALU_NOP = 11,
ICE_ALU_BR = 12,
ICE_ALU_BREQ = 13,
ICE_ALU_BRNEQ = 14,
ICE_ALU_BRGT = 15,
ICE_ALU_BRLT = 16,
ICE_ALU_BRGEQ = 17,
ICE_ALU_BRLEG = 18,
ICE_ALU_SETEQ = 19,
ICE_ALU_ANDEQ = 20,
ICE_ALU_OREQ = 21,
ICE_ALU_SETNEQ = 22,
ICE_ALU_ANDNEQ = 23,
ICE_ALU_ORNEQ = 24,
ICE_ALU_SETGT = 25,
ICE_ALU_ANDGT = 26,
ICE_ALU_ORGT = 27,
ICE_ALU_SETLT = 28,
ICE_ALU_ANDLT = 29,
ICE_ALU_ORLT = 30,
ICE_ALU_MOV_SUB = 31,
ICE_ALU_SUB = 32,
ICE_ALU_INVALID = 64,
};
struct ice_alu {
enum ice_alu_opcode opc;
u8 src_start;
u8 src_len;
bool shift_xlate_select;
u8 shift_xlate_key;
u8 src_reg_id;
u8 dst_reg_id;
bool inc0;
bool inc1;
u8 proto_offset_opc;
u8 proto_offset;
u8 branch_addr;
u16 imm;
bool dedicate_flags_ena;
u8 dst_start;
u8 dst_len;
bool flags_extr_imm;
u8 flags_start_imm;
};
struct ice_imem_item {
u16 idx;
struct ice_bst_main b_m;
struct ice_bst_keybuilder b_kb;
u8 pg;
struct ice_np_keybuilder np_kb;
struct ice_pg_keybuilder pg_kb;
struct ice_alu alu0;
struct ice_alu alu1;
struct ice_alu alu2;
};
void ice_imem_dump(struct ice_hw *hw, struct ice_imem_item *item);
struct ice_imem_item *ice_imem_table_get(struct ice_hw *hw);
#endif /* _ICE_IMEM_H_ */

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@ -3,6 +3,94 @@
*/ */
#include "ice_common.h" #include "ice_common.h"
#include "ice_parser_util.h"
#define ICE_SEC_DATA_OFFSET 4
#define ICE_SID_RXPARSER_IMEM_ENTRY_SIZE 48
/**
* ice_parser_sect_item_get - parse a item from a section
* @sect_type: section type
* @section: section object
* @index: index of the item to get
* @offset: dummy as prototype of ice_pkg_enum_entry's last parameter
*/
void *ice_parser_sect_item_get(u32 sect_type, void *section,
u32 index, u32 *offset)
{
struct ice_pkg_sect_hdr *hdr;
int data_off = ICE_SEC_DATA_OFFSET;
int size;
if (!section)
return NULL;
switch (sect_type) {
case ICE_SID_RXPARSER_IMEM:
size = ICE_SID_RXPARSER_IMEM_ENTRY_SIZE;
break;
default:
return NULL;
}
hdr = (struct ice_pkg_sect_hdr *)section;
if (index >= LE16_TO_CPU(hdr->count))
return NULL;
return (void *)((uintptr_t)section + data_off + index * size);
}
/**
* ice_parser_create_table - create a item table from a section
* @hw: pointer to the hardware structure
* @sect_type: section type
* @item_size: item size in byte
* @length: number of items in the table to create
* @item_get: the function will be parsed to ice_pkg_enum_entry
* @parser_item: the function to parse the item
*/
void *ice_parser_create_table(struct ice_hw *hw, u32 sect_type,
u32 item_size, u32 length,
void *(*item_get)(u32 sect_type, void *section,
u32 index, u32 *offset),
void (*parse_item)(struct ice_hw *hw, u16 idx,
void *item, void *data,
int size))
{
struct ice_seg *seg = hw->seg;
struct ice_pkg_enum state;
u16 idx = 0;
void *table;
void *data;
if (!seg)
return NULL;
table = ice_malloc(hw, item_size * length);
if (!table) {
ice_debug(hw, ICE_DBG_PARSER, "failed to allocate memory for table type %d.\n",
sect_type);
return NULL;
}
ice_memset(&state, 0, sizeof(state), ICE_NONDMA_MEM);
do {
data = ice_pkg_enum_entry(seg, &state, sect_type, NULL,
item_get);
seg = NULL;
if (data) {
struct ice_pkg_sect_hdr *hdr =
(struct ice_pkg_sect_hdr *)state.sect;
idx = hdr->offset + state.entry_idx;
parse_item(hw, idx,
(void *)((uintptr_t)table + idx * item_size),
data, item_size);
}
} while (data);
return table;
}
/** /**
* ice_parser_create - create a parser instance * ice_parser_create - create a parser instance
@ -11,6 +99,7 @@
*/ */
enum ice_status ice_parser_create(struct ice_hw *hw, struct ice_parser **psr) enum ice_status ice_parser_create(struct ice_hw *hw, struct ice_parser **psr)
{ {
enum ice_status status;
struct ice_parser *p; struct ice_parser *p;
p = (struct ice_parser *)ice_malloc(hw, sizeof(struct ice_parser)); p = (struct ice_parser *)ice_malloc(hw, sizeof(struct ice_parser));
@ -20,8 +109,17 @@ enum ice_status ice_parser_create(struct ice_hw *hw, struct ice_parser **psr)
p->hw = hw; p->hw = hw;
p->imem_table = ice_imem_table_get(hw);
if (!p->imem_table) {
status = ICE_ERR_PARAM;
goto err;
}
*psr = p; *psr = p;
return ICE_SUCCESS; return ICE_SUCCESS;
err:
ice_parser_destroy(p);
return status;
} }
/** /**
@ -30,5 +128,7 @@ enum ice_status ice_parser_create(struct ice_hw *hw, struct ice_parser **psr)
*/ */
void ice_parser_destroy(struct ice_parser *psr) void ice_parser_destroy(struct ice_parser *psr)
{ {
ice_free(psr->hw, psr->imem_table);
ice_free(psr->hw, psr); ice_free(psr->hw, psr);
} }

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@ -7,6 +7,9 @@
struct ice_parser { struct ice_parser {
struct ice_hw *hw; /* pointer to the hardware structure */ struct ice_hw *hw; /* pointer to the hardware structure */
/* load data from section ICE_SID_RX_PARSER_IMEM */
struct ice_imem_item *imem_table;
}; };
enum ice_status ice_parser_create(struct ice_hw *hw, struct ice_parser **psr); enum ice_status ice_parser_create(struct ice_hw *hw, struct ice_parser **psr);

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@ -0,0 +1,25 @@
/* SPDX-License-Identifier: BSD-3-Clause
* Copyright(c) 2001-2021 Intel Corporation
*/
#ifndef _ICE_PARSER_UTIL_H_
#define _ICE_PARSER_UTIL_H_
#include "ice_imem.h"
struct ice_pkg_sect_hdr {
__le16 count;
__le16 offset;
};
void *ice_parser_sect_item_get(u32 sect_type, void *section,
u32 index, u32 *offset);
void *ice_parser_create_table(struct ice_hw *hw, u32 sect_type,
u32 item_size, u32 length,
void *(*handler)(u32 sect_type, void *section,
u32 index, u32 *offset),
void (*parse_item)(struct ice_hw *hw, u16 idx,
void *item, void *data,
int size));
#endif /* _ICE_PARSER_UTIL_H_ */

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@ -141,6 +141,7 @@ static inline u32 ice_round_to_num(u32 N, u32 R)
ICE_DBG_AQ_DESC | \ ICE_DBG_AQ_DESC | \
ICE_DBG_AQ_DESC_BUF | \ ICE_DBG_AQ_DESC_BUF | \
ICE_DBG_AQ_CMD) ICE_DBG_AQ_CMD)
#define ICE_DBG_PARSER BIT_ULL(28)
#define ICE_DBG_USER BIT_ULL(31) #define ICE_DBG_USER BIT_ULL(31)
#define ICE_DBG_ALL 0xFFFFFFFFFFFFFFFFULL #define ICE_DBG_ALL 0xFFFFFFFFFFFFFFFFULL

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@ -16,6 +16,7 @@ sources = [
'ice_vlan_mode.c', 'ice_vlan_mode.c',
'ice_ptp_hw.c', 'ice_ptp_hw.c',
'ice_parser.c', 'ice_parser.c',
'ice_imem.c',
] ]
error_cflags = [ error_cflags = [