1 /* SPDX-License-Identifier: GPL-2.0 */
2 /* Texas Instruments ICSSG Ethernet driver
3  *
4  * Copyright (C) 2022 Texas Instruments Incorporated - https://www.ti.com/
5  *
6  */
7 
8 #ifndef __NET_TI_ICSSG_CONFIG_H
9 #define __NET_TI_ICSSG_CONFIG_H
10 
11 struct icssg_buffer_pool_cfg {
12 	__le32	addr;
13 	__le32	len;
14 } __packed;
15 
16 struct icssg_flow_cfg {
17 	__le16 rx_base_flow;
18 	__le16 mgm_base_flow;
19 } __packed;
20 
21 #define PRUETH_PKT_TYPE_CMD	0x10
22 #define PRUETH_NAV_PS_DATA_SIZE	16	/* Protocol specific data size */
23 #define PRUETH_NAV_SW_DATA_SIZE	16	/* SW related data size */
24 #define PRUETH_MAX_TX_DESC	512
25 #define PRUETH_MAX_RX_DESC	512
26 #define PRUETH_MAX_RX_FLOWS	1	/* excluding default flow */
27 #define PRUETH_RX_FLOW_DATA	0
28 
29 #define PRUETH_EMAC_BUF_POOL_SIZE	SZ_8K
30 #define PRUETH_EMAC_POOLS_PER_SLICE	24
31 #define PRUETH_EMAC_BUF_POOL_START	8
32 #define PRUETH_NUM_BUF_POOLS	8
33 #define PRUETH_EMAC_RX_CTX_BUF_SIZE	SZ_16K	/* per slice */
34 #define MSMC_RAM_SIZE	\
35 	(2 * (PRUETH_EMAC_BUF_POOL_SIZE * PRUETH_NUM_BUF_POOLS + \
36 	 PRUETH_EMAC_RX_CTX_BUF_SIZE * 2))
37 
38 #define PRUETH_SW_BUF_POOL_SIZE_HOST	SZ_4K
39 #define PRUETH_SW_NUM_BUF_POOLS_HOST	8
40 #define PRUETH_SW_NUM_BUF_POOLS_PER_PRU 4
41 #define MSMC_RAM_SIZE_SWITCH_MODE \
42 	(MSMC_RAM_SIZE + \
43 	(2 * PRUETH_SW_BUF_POOL_SIZE_HOST * PRUETH_SW_NUM_BUF_POOLS_HOST))
44 
45 #define PRUETH_SWITCH_FDB_MASK ((SIZE_OF_FDB / NUMBER_OF_FDB_BUCKET_ENTRIES) - 1)
46 
47 struct icssg_rxq_ctx {
48 	__le32 start[3];
49 	__le32 end;
50 } __packed;
51 
52 /* Load time Fiwmware Configuration */
53 
54 #define ICSSG_FW_MGMT_CMD_HEADER	0x81
55 #define ICSSG_FW_MGMT_FDB_CMD_TYPE	0x03
56 #define ICSSG_FW_MGMT_CMD_TYPE		0x04
57 #define ICSSG_FW_MGMT_PKT		0x80000000
58 
59 struct icssg_r30_cmd {
60 	u32 cmd[4];
61 } __packed;
62 
63 enum icssg_port_state_cmd {
64 	ICSSG_EMAC_PORT_DISABLE = 0,
65 	ICSSG_EMAC_PORT_BLOCK,
66 	ICSSG_EMAC_PORT_FORWARD,
67 	ICSSG_EMAC_PORT_FORWARD_WO_LEARNING,
68 	ICSSG_EMAC_PORT_ACCEPT_ALL,
69 	ICSSG_EMAC_PORT_ACCEPT_TAGGED,
70 	ICSSG_EMAC_PORT_ACCEPT_UNTAGGED_N_PRIO,
71 	ICSSG_EMAC_PORT_TAS_TRIGGER,
72 	ICSSG_EMAC_PORT_TAS_ENABLE,
73 	ICSSG_EMAC_PORT_TAS_RESET,
74 	ICSSG_EMAC_PORT_TAS_DISABLE,
75 	ICSSG_EMAC_PORT_UC_FLOODING_ENABLE,
76 	ICSSG_EMAC_PORT_UC_FLOODING_DISABLE,
77 	ICSSG_EMAC_PORT_MC_FLOODING_ENABLE,
78 	ICSSG_EMAC_PORT_MC_FLOODING_DISABLE,
79 	ICSSG_EMAC_PORT_PREMPT_TX_ENABLE,
80 	ICSSG_EMAC_PORT_PREMPT_TX_DISABLE,
81 	ICSSG_EMAC_PORT_VLAN_AWARE_ENABLE,
82 	ICSSG_EMAC_PORT_VLAN_AWARE_DISABLE,
83 	ICSSG_EMAC_HSR_RX_OFFLOAD_ENABLE,
84 	ICSSG_EMAC_HSR_RX_OFFLOAD_DISABLE,
85 	ICSSG_EMAC_PORT_MAX_COMMANDS
86 };
87 
88 #define EMAC_NONE           0xffff0000
89 #define EMAC_PRU0_P_DI      0xffff0004
90 #define EMAC_PRU1_P_DI      0xffff0040
91 #define EMAC_TX_P_DI        0xffff0100
92 
93 #define EMAC_PRU0_P_EN      0xfffb0000
94 #define EMAC_PRU1_P_EN      0xffbf0000
95 #define EMAC_TX_P_EN        0xfeff0000
96 
97 #define EMAC_P_BLOCK        0xffff0040
98 #define EMAC_TX_P_BLOCK     0xffff0200
99 #define EMAC_P_UNBLOCK      0xffbf0000
100 #define EMAC_TX_P_UNBLOCK   0xfdff0000
101 #define EMAC_LEAN_EN        0xfff70000
102 #define EMAC_LEAN_DI        0xffff0008
103 
104 #define EMAC_ACCEPT_ALL     0xffff0001
105 #define EMAC_ACCEPT_TAG     0xfffe0002
106 #define EMAC_ACCEPT_PRIOR   0xfffc0000
107 
108 /* Config area lies in DRAM */
109 #define ICSSG_CONFIG_OFFSET	0x0
110 
111 /* Config area lies in shared RAM */
112 #define ICSSG_CONFIG_OFFSET_SLICE0   0
113 #define ICSSG_CONFIG_OFFSET_SLICE1   0x8000
114 
115 #define ICSSG_NUM_NORMAL_PDS	64
116 #define ICSSG_NUM_SPECIAL_PDS	16
117 
118 #define ICSSG_NORMAL_PD_SIZE	8
119 #define ICSSG_SPECIAL_PD_SIZE	20
120 
121 #define ICSSG_FLAG_MASK		0xff00ffff
122 
123 /* SR1.0-specific bits */
124 #define PRUETH_MAX_RX_FLOWS_SR1			4	/* excluding default flow */
125 #define PRUETH_RX_FLOW_DATA_SR1			3       /* highest priority flow */
126 #define PRUETH_MAX_RX_MGM_DESC_SR1		8
127 #define PRUETH_MAX_RX_MGM_FLOWS_SR1		2	/* excluding default flow */
128 #define PRUETH_RX_MGM_FLOW_RESPONSE_SR1		0
129 #define PRUETH_RX_MGM_FLOW_TIMESTAMP_SR1	1
130 
131 #define PRUETH_NUM_BUF_POOLS_SR1		16
132 #define PRUETH_EMAC_BUF_POOL_START_SR1		8
133 #define PRUETH_EMAC_BUF_POOL_MIN_SIZE_SR1	128
134 #define PRUETH_EMAC_BUF_SIZE_SR1		1536
135 #define PRUETH_EMAC_NUM_BUF_SR1			4
136 #define PRUETH_EMAC_BUF_POOL_SIZE_SR1	(PRUETH_EMAC_NUM_BUF_SR1 * \
137 					 PRUETH_EMAC_BUF_SIZE_SR1)
138 #define MSMC_RAM_SIZE_SR1	(SZ_64K + SZ_32K + SZ_2K) /* 0x1880 x 8 x 2 */
139 
140 struct icssg_sr1_config {
141 	__le32 status;		/* Firmware status */
142 	__le32 addr_lo;		/* MSMC Buffer pool base address low. */
143 	__le32 addr_hi;		/* MSMC Buffer pool base address high. Must be 0 */
144 	__le32 tx_buf_sz[16];	/* Array of buffer pool sizes */
145 	__le32 num_tx_threads;	/* Number of active egress threads, 1 to 4 */
146 	__le32 tx_rate_lim_en;	/* Bitmask: Egress rate limit en per thread */
147 	__le32 rx_flow_id;	/* RX flow id for first rx ring */
148 	__le32 rx_mgr_flow_id;	/* RX flow id for the first management ring */
149 	__le32 flags;		/* TBD */
150 	__le32 n_burst;		/* for debug */
151 	__le32 rtu_status;	/* RTU status */
152 	__le32 info;		/* reserved */
153 	__le32 reserve;
154 	__le32 rand_seed;	/* Used for the random number generation at fw */
155 } __packed;
156 
157 /* SR1.0 shutdown command to stop processing at firmware.
158  * Command format: 0x8101ss00, where
159  *	- ss: sequence number. Currently not used by driver.
160  */
161 #define ICSSG_SHUTDOWN_CMD_SR1		0x81010000
162 
163 /* SR1.0 pstate speed/duplex command to set speed and duplex settings
164  * in firmware.
165  * Command format: 0x8102ssPN, where
166  *	- ss: sequence number. Currently not used by driver.
167  *	- P: port number (for switch mode).
168  *	- N: Speed/Duplex state:
169  *		0x0 - 10Mbps/Half duplex;
170  *		0x8 - 10Mbps/Full duplex;
171  *		0x2 - 100Mbps/Half duplex;
172  *		0xa - 100Mbps/Full duplex;
173  *		0xc - 1Gbps/Full duplex;
174  *		NOTE: The above are the same value as bits [3..1](slice 0)
175  *		      or bits [7..5](slice 1) of RGMII CFG register.
176  */
177 #define ICSSG_PSTATE_SPEED_DUPLEX_CMD_SR1	0x81020000
178 
179 struct icssg_setclock_desc {
180 	u8 request;
181 	u8 restore;
182 	u8 acknowledgment;
183 	u8 cmp_status;
184 	u32 margin;
185 	u32 cyclecounter0_set;
186 	u32 cyclecounter1_set;
187 	u32 iepcount_set;
188 	u32 rsvd1;
189 	u32 rsvd2;
190 	u32 CMP0_current;
191 	u32 iepcount_current;
192 	u32 difference;
193 	u32 cyclecounter0_new;
194 	u32 cyclecounter1_new;
195 	u32 CMP0_new;
196 } __packed;
197 
198 #define ICSSG_CMD_POP_SLICE0	56
199 #define ICSSG_CMD_POP_SLICE1	60
200 
201 #define ICSSG_CMD_PUSH_SLICE0	57
202 #define ICSSG_CMD_PUSH_SLICE1	61
203 
204 #define ICSSG_RSP_POP_SLICE0	58
205 #define ICSSG_RSP_POP_SLICE1	62
206 
207 #define ICSSG_RSP_PUSH_SLICE0	56
208 #define ICSSG_RSP_PUSH_SLICE1	60
209 
210 #define ICSSG_TS_POP_SLICE0	59
211 #define ICSSG_TS_POP_SLICE1	63
212 
213 #define ICSSG_TS_PUSH_SLICE0	40
214 #define ICSSG_TS_PUSH_SLICE1	41
215 
216 struct mgmt_cmd {
217 	u8 param;
218 	u8 seqnum;
219 	u8 type;
220 	u8 header;
221 	u32 cmd_args[3];
222 };
223 
224 struct mgmt_cmd_rsp {
225 	u32 reserved;
226 	u8 status;
227 	u8 seqnum;
228 	u8 type;
229 	u8 header;
230 	u32 cmd_args[3];
231 };
232 
233 /* FDB FID_C2 flag definitions */
234 /* Indicates host port membership.*/
235 #define ICSSG_FDB_ENTRY_P0_MEMBERSHIP         BIT(0)
236 /* Indicates that MAC ID is connected to physical port 1 */
237 #define ICSSG_FDB_ENTRY_P1_MEMBERSHIP         BIT(1)
238 /* Indicates that MAC ID is connected to physical port 2 */
239 #define ICSSG_FDB_ENTRY_P2_MEMBERSHIP         BIT(2)
240 /* Ageable bit is set for learned entries and cleared for static entries */
241 #define ICSSG_FDB_ENTRY_AGEABLE               BIT(3)
242 /* If set for DA then packet is determined to be a special packet */
243 #define ICSSG_FDB_ENTRY_BLOCK                 BIT(4)
244 /* If set for DA then the SA from the packet is not learned */
245 #define ICSSG_FDB_ENTRY_SECURE                BIT(5)
246 /* If set, it means packet has been seen recently with source address + FID
247  * matching MAC address/FID of entry
248  */
249 #define ICSSG_FDB_ENTRY_TOUCHED               BIT(6)
250 /* Set if entry is valid */
251 #define ICSSG_FDB_ENTRY_VALID                 BIT(7)
252 
253 /**
254  * struct prueth_vlan_tbl - VLAN table entries struct in ICSSG SMEM
255  * @fid_c1: membership and forwarding rules flag to this table. See
256  *          above to defines for bit definitions
257  * @fid: FDB index for this VID (there is 1-1 mapping b/w VID and FID)
258  */
259 struct prueth_vlan_tbl {
260 	u8 fid_c1;
261 	u8 fid;
262 } __packed;
263 
264 /**
265  * struct prueth_fdb_slot - Result of FDB slot lookup
266  * @mac: MAC address
267  * @fid: fid to be associated with MAC
268  * @fid_c2: FID_C2 entry for this MAC
269  */
270 struct prueth_fdb_slot {
271 	u8 mac[ETH_ALEN];
272 	u8 fid;
273 	u8 fid_c2;
274 } __packed;
275 
276 enum icssg_ietfpe_verify_states {
277 	ICSSG_IETFPE_STATE_UNKNOWN = 0,
278 	ICSSG_IETFPE_STATE_INITIAL,
279 	ICSSG_IETFPE_STATE_VERIFYING,
280 	ICSSG_IETFPE_STATE_SUCCEEDED,
281 	ICSSG_IETFPE_STATE_FAILED,
282 	ICSSG_IETFPE_STATE_DISABLED
283 };
284 #endif /* __NET_TI_ICSSG_CONFIG_H */
285