/* SPDX-License-Identifier: BSD-3-Clause * Copyright(c) 2001-2021 Intel Corporation */ #include "ice_common.h" #define ICE_XLT_KB_TBL_OFF 12 #define ICE_XLT_KB_TBL_ENTRY_SIZE 24 static void _xlt_kb_entry_dump(struct ice_hw *hw, struct ice_xlt_kb_entry *entry, int idx) { int i; ice_info(hw, "key builder entry %d\n", idx); ice_info(hw, "\txlt1_ad_sel = %d\n", entry->xlt1_ad_sel); ice_info(hw, "\txlt2_ad_sel = %d\n", entry->xlt2_ad_sel); for (i = 0; i < ICE_XLT_KB_FLAG0_14_CNT; i++) ice_info(hw, "\tflg%d_sel = %d\n", i, entry->flg0_14_sel[i]); ice_info(hw, "\txlt1_md_sel = %d\n", entry->xlt1_md_sel); ice_info(hw, "\txlt2_md_sel = %d\n", entry->xlt2_md_sel); } /** * ice_imem_dump - dump a xlt key build info * @ice_hw: pointer to the hardware structure * @kb: key build to dump */ void ice_xlt_kb_dump(struct ice_hw *hw, struct ice_xlt_kb *kb) { int i; ice_info(hw, "xlt1_pm = %d\n", kb->xlt1_pm); ice_info(hw, "xlt2_pm = %d\n", kb->xlt2_pm); ice_info(hw, "prof_id_pm = %d\n", kb->prof_id_pm); ice_info(hw, "flag15 low = 0x%08x\n", (u32)kb->flag15); ice_info(hw, "flag15 high = 0x%08x\n", (u32)(kb->flag15 >> 32)); for (i = 0; i < ICE_XLT_KB_TBL_CNT; i++) _xlt_kb_entry_dump(hw, &kb->entries[i], i); } /** The function parses a 192 bits XLT Key Build entry with below format: * BIT 0-31: reserved * BIT 32-34: XLT1 AdSel (entry->xlt1_ad_sel) * BIT 35-37: XLT2 AdSel (entry->xlt2_ad_sel) * BIT 38-46: Flag 0 Select (entry->flg0_14_sel[0]) * BIT 47-55: Flag 1 Select (entry->flg0_14_sel[1]) * BIT 56-64: Flag 2 Select (entry->flg0_14_sel[2]) * BIT 65-73: Flag 3 Select (entry->flg0_14_sel[3]) * BIT 74-82: Flag 4 Select (entry->flg0_14_sel[4]) * BIT 83-91: Flag 5 Select (entry->flg0_14_sel[5]) * BIT 92-100: Flag 6 Select (entry->flg0_14_sel[6]) * BIT 101-109:Flag 7 Select (entry->flg0_14_sel[7]) * BIT 110-118:Flag 8 Select (entry->flg0_14_sel[8]) * BIT 119-127:Flag 9 Select (entry->flg0_14_sel[9]) * BIT 128-136:Flag 10 Select (entry->flg0_14_sel[10]) * BIT 137-145:Flag 11 Select (entry->flg0_14_sel[11]) * BIT 146-154:Flag 12 Select (entry->flg0_14_sel[12]) * BIT 155-163:Flag 13 Select (entry->flg0_14_sel[13]) * BIT 164-172:Flag 14 Select (entry->flg0_14_sel[14]) * BIT 173-181:reserved * BIT 182-186:XLT1 MdSel (entry->xlt1_md_sel) * BIT 187-191:XLT2 MdSel (entry->xlt2_md_sel) */ static void _kb_entry_init(struct ice_xlt_kb_entry *entry, u8 *data) { u64 d64 = *(u64 *)&data[4]; entry->xlt1_ad_sel = (u8)(d64 & 0x7); entry->xlt2_ad_sel = (u8)((d64 >> 3) & 0x7); entry->flg0_14_sel[0] = (u16)((d64 >> 6) & 0x1ff); entry->flg0_14_sel[1] = (u16)((d64 >> 15) & 0x1ff); entry->flg0_14_sel[2] = (u16)((d64 >> 24) & 0x1ff); entry->flg0_14_sel[3] = (u16)((d64 >> 33) & 0x1ff); entry->flg0_14_sel[4] = (u16)((d64 >> 42) & 0x1ff); entry->flg0_14_sel[5] = (u16)((d64 >> 51) & 0x1ff); d64 = (*(u64 *)&data[11] >> 4); entry->flg0_14_sel[6] = (u16)(d64 & 0x1ff); entry->flg0_14_sel[7] = (u16)((d64 >> 9) & 0x1ff); entry->flg0_14_sel[8] = (u16)((d64 >> 18) & 0x1ff); entry->flg0_14_sel[9] = (u16)((d64 >> 27) & 0x1ff); entry->flg0_14_sel[10] = (u16)((d64 >> 36) & 0x1ff); entry->flg0_14_sel[11] = (u16)((d64 >> 45) & 0x1ff); d64 = (*(u64 *)&data[18] >> 2); entry->flg0_14_sel[12] = (u16)(d64 & 0x1ff); entry->flg0_14_sel[13] = (u16)((d64 >> 9) & 0x1ff); entry->flg0_14_sel[14] = (u16)((d64 >> 18) & 0x1ff); entry->xlt1_md_sel = (u8)((d64 >> 36) & 0x1f); entry->xlt2_md_sel = (u8)((d64 >> 41) & 0x1f); } /** The function parses a 204 bytes XLT Key Build Table with below format: * byte 0: XLT1 Partition Mode (kb->xlt1_pm) * byte 1: XLT2 Partition Mode (kb->xlt2_pm) * byte 2: Profile ID Partition Mode (kb->prof_id_pm) * byte 3: reserved * byte 4-11: Flag15 Mask (kb->flag15) * byte 12-203:8 Key Build entries (kb->entries) */ static void _parse_kb_data(struct ice_hw *hw, struct ice_xlt_kb *kb, void *data) { u8 *buf = (u8 *)data; int i; kb->xlt1_pm = buf[0]; kb->xlt2_pm = buf[1]; kb->prof_id_pm = buf[2]; kb->flag15 = *(u64 *)&buf[4]; for (i = 0; i < ICE_XLT_KB_TBL_CNT; i++) _kb_entry_init(&kb->entries[i], &buf[ICE_XLT_KB_TBL_OFF + i * ICE_XLT_KB_TBL_ENTRY_SIZE]); if (hw->debug_mask & ICE_DBG_PARSER) ice_xlt_kb_dump(hw, kb); } static struct ice_xlt_kb *_xlt_kb_get(struct ice_hw *hw, u32 sect_type) { struct ice_seg *seg = hw->seg; struct ice_pkg_enum state; struct ice_xlt_kb *kb; void *data; if (!seg) return NULL; kb = (struct ice_xlt_kb *)ice_malloc(hw, sizeof(*kb)); if (!kb) { ice_debug(hw, ICE_DBG_PARSER, "failed to allocate memory for xlt key builder type %d.\n", sect_type); return NULL; } ice_memset(&state, 0, sizeof(state), ICE_NONDMA_MEM); data = ice_pkg_enum_section(seg, &state, sect_type); if (!data) { ice_debug(hw, ICE_DBG_PARSER, "failed to find section type %d.\n", sect_type); return NULL; } _parse_kb_data(hw, kb, data); return kb; } /** * ice_xlt_kb_get_sw - create switch xlt key build * @ice_hw: pointer to the hardware structure */ struct ice_xlt_kb *ice_xlt_kb_get_sw(struct ice_hw *hw) { return _xlt_kb_get(hw, ICE_SID_XLT_KEY_BUILDER_SW); } /** * ice_xlt_kb_get_acl - create acl xlt key build * @ice_hw: pointer to the hardware structure */ struct ice_xlt_kb *ice_xlt_kb_get_acl(struct ice_hw *hw) { return _xlt_kb_get(hw, ICE_SID_XLT_KEY_BUILDER_ACL); } /** * ice_xlt_kb_get_fd - create fdir xlt key build * @ice_hw: pointer to the hardware structure */ struct ice_xlt_kb *ice_xlt_kb_get_fd(struct ice_hw *hw) { return _xlt_kb_get(hw, ICE_SID_XLT_KEY_BUILDER_FD); } /** * ice_xlt_kb_get_fd - create rss xlt key build * @ice_hw: pointer to the hardware structure */ struct ice_xlt_kb *ice_xlt_kb_get_rss(struct ice_hw *hw) { return _xlt_kb_get(hw, ICE_SID_XLT_KEY_BUILDER_RSS); } /** * ice_xlt_kb_flag_get - aggregate 64 bits packet flag into 16 bits xlt flag * @kb: xlt key build * @pkt_flag: 64 bits packet flag */ u16 ice_xlt_kb_flag_get(struct ice_xlt_kb *kb, u64 pkt_flag) { struct ice_xlt_kb_entry *entry = &kb->entries[0]; u16 flg = 0; int i; /* check flag 15 */ if (kb->flag15 & pkt_flag) flg = (u16)(1u << 15); /* check flag 0 - 14 */ for (i = 0; i < 15; i++) { /* only check first entry */ u16 idx = (u16)(entry->flg0_14_sel[i] & 0x3f); if (pkt_flag & (1ul << idx)) flg |= (u16)(1u << i); } return flg; }