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1 /*
2  * Copyright 2008-2015 Freescale Semiconductor Inc.
3  *
4  * Redistribution and use in source and binary forms, with or without
5  * modification, are permitted provided that the following conditions are met:
6  *     * Redistributions of source code must retain the above copyright
7  *       notice, this list of conditions and the following disclaimer.
8  *     * Redistributions in binary form must reproduce the above copyright
9  *       notice, this list of conditions and the following disclaimer in the
10  *       documentation and/or other materials provided with the distribution.
11  *     * Neither the name of Freescale Semiconductor nor the
12  *       names of its contributors may be used to endorse or promote products
13  *       derived from this software without specific prior written permission.
14  *
15  *
16  * ALTERNATIVELY, this software may be distributed under the terms of the
17  * GNU General Public License ("GPL") as published by the Free Software
18  * Foundation, either version 2 of that License or (at your option) any
19  * later version.
20  *
21  * THIS SOFTWARE IS PROVIDED BY Freescale Semiconductor ``AS IS'' AND ANY
22  * EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
23  * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
24  * DISCLAIMED. IN NO EVENT SHALL Freescale Semiconductor BE LIABLE FOR ANY
25  * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
26  * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
27  * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
28  * ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
29  * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
30  * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
31  */
32 
33 /* FM MAC ... */
34 #ifndef __FM_MAC_H
35 #define __FM_MAC_H
36 
37 #include "fman.h"
38 
39 #include <linux/slab.h>
40 #include <linux/phy.h>
41 #include <linux/if_ether.h>
42 
43 struct fman_mac;
44 
45 /* Ethernet Address */
46 typedef u8 enet_addr_t[ETH_ALEN];
47 
48 #define ENET_ADDR_TO_UINT64(_enet_addr)		\
49 	(u64)(((u64)(_enet_addr)[0] << 40) |		\
50 	      ((u64)(_enet_addr)[1] << 32) |		\
51 	      ((u64)(_enet_addr)[2] << 24) |		\
52 	      ((u64)(_enet_addr)[3] << 16) |		\
53 	      ((u64)(_enet_addr)[4] << 8) |		\
54 	      ((u64)(_enet_addr)[5]))
55 
56 #define MAKE_ENET_ADDR_FROM_UINT64(_addr64, _enet_addr) \
57 	do { \
58 		int i; \
59 		for (i = 0; i < ETH_ALEN; i++) \
60 			(_enet_addr)[i] = \
61 			(u8)((_addr64) >> ((5 - i) * 8)); \
62 	} while (0)
63 
64 /* defaults */
65 #define DEFAULT_RESET_ON_INIT                 false
66 
67 /* PFC defines */
68 #define FSL_FM_PAUSE_TIME_ENABLE	0xf000
69 #define FSL_FM_PAUSE_TIME_DISABLE	0
70 #define FSL_FM_PAUSE_THRESH_DEFAULT	0
71 
72 #define FM_MAC_NO_PFC   0xff
73 
74 /* HASH defines */
75 #define ETH_HASH_ENTRY_OBJ(ptr)	\
76 	hlist_entry_safe(ptr, struct eth_hash_entry, node)
77 
78 /* Enumeration (bit flags) of communication modes (Transmit,
79  * receive or both).
80  */
81 enum comm_mode {
82 	COMM_MODE_NONE = 0,	/* No transmit/receive communication */
83 	COMM_MODE_RX = 1,	/* Only receive communication */
84 	COMM_MODE_TX = 2,	/* Only transmit communication */
85 	COMM_MODE_RX_AND_TX = 3	/* Both transmit and receive communication */
86 };
87 
88 /* FM MAC Exceptions */
89 enum fman_mac_exceptions {
90 	FM_MAC_EX_10G_MDIO_SCAN_EVENT = 0
91 	/* 10GEC MDIO scan event interrupt */
92 	, FM_MAC_EX_10G_MDIO_CMD_CMPL
93 	/* 10GEC MDIO command completion interrupt */
94 	, FM_MAC_EX_10G_REM_FAULT
95 	/* 10GEC, mEMAC Remote fault interrupt */
96 	, FM_MAC_EX_10G_LOC_FAULT
97 	/* 10GEC, mEMAC Local fault interrupt */
98 	, FM_MAC_EX_10G_TX_ECC_ER
99 	/* 10GEC, mEMAC Transmit frame ECC error interrupt */
100 	, FM_MAC_EX_10G_TX_FIFO_UNFL
101 	/* 10GEC, mEMAC Transmit FIFO underflow interrupt */
102 	, FM_MAC_EX_10G_TX_FIFO_OVFL
103 	/* 10GEC, mEMAC Transmit FIFO overflow interrupt */
104 	, FM_MAC_EX_10G_TX_ER
105 	/* 10GEC Transmit frame error interrupt */
106 	, FM_MAC_EX_10G_RX_FIFO_OVFL
107 	/* 10GEC, mEMAC Receive FIFO overflow interrupt */
108 	, FM_MAC_EX_10G_RX_ECC_ER
109 	/* 10GEC, mEMAC Receive frame ECC error interrupt */
110 	, FM_MAC_EX_10G_RX_JAB_FRM
111 	/* 10GEC Receive jabber frame interrupt */
112 	, FM_MAC_EX_10G_RX_OVRSZ_FRM
113 	/* 10GEC Receive oversized frame interrupt */
114 	, FM_MAC_EX_10G_RX_RUNT_FRM
115 	/* 10GEC Receive runt frame interrupt */
116 	, FM_MAC_EX_10G_RX_FRAG_FRM
117 	/* 10GEC Receive fragment frame interrupt */
118 	, FM_MAC_EX_10G_RX_LEN_ER
119 	/* 10GEC Receive payload length error interrupt */
120 	, FM_MAC_EX_10G_RX_CRC_ER
121 	/* 10GEC Receive CRC error interrupt */
122 	, FM_MAC_EX_10G_RX_ALIGN_ER
123 	/* 10GEC Receive alignment error interrupt */
124 	, FM_MAC_EX_1G_BAB_RX
125 	/* dTSEC Babbling receive error */
126 	, FM_MAC_EX_1G_RX_CTL
127 	/* dTSEC Receive control (pause frame) interrupt */
128 	, FM_MAC_EX_1G_GRATEFUL_TX_STP_COMPLET
129 	/* dTSEC Graceful transmit stop complete */
130 	, FM_MAC_EX_1G_BAB_TX
131 	/* dTSEC Babbling transmit error */
132 	, FM_MAC_EX_1G_TX_CTL
133 	/* dTSEC Transmit control (pause frame) interrupt */
134 	, FM_MAC_EX_1G_TX_ERR
135 	/* dTSEC Transmit error */
136 	, FM_MAC_EX_1G_LATE_COL
137 	/* dTSEC Late collision */
138 	, FM_MAC_EX_1G_COL_RET_LMT
139 	/* dTSEC Collision retry limit */
140 	, FM_MAC_EX_1G_TX_FIFO_UNDRN
141 	/* dTSEC Transmit FIFO underrun */
142 	, FM_MAC_EX_1G_MAG_PCKT
143 	/* dTSEC Magic Packet detection */
144 	, FM_MAC_EX_1G_MII_MNG_RD_COMPLET
145 	/* dTSEC MII management read completion */
146 	, FM_MAC_EX_1G_MII_MNG_WR_COMPLET
147 	/* dTSEC MII management write completion */
148 	, FM_MAC_EX_1G_GRATEFUL_RX_STP_COMPLET
149 	/* dTSEC Graceful receive stop complete */
150 	, FM_MAC_EX_1G_DATA_ERR
151 	/* dTSEC Internal data error on transmit */
152 	, FM_MAC_1G_RX_DATA_ERR
153 	/* dTSEC Internal data error on receive */
154 	, FM_MAC_EX_1G_1588_TS_RX_ERR
155 	/* dTSEC Time-Stamp Receive Error */
156 	, FM_MAC_EX_1G_RX_MIB_CNT_OVFL
157 	/* dTSEC MIB counter overflow */
158 	, FM_MAC_EX_TS_FIFO_ECC_ERR
159 	/* mEMAC Time-stamp FIFO ECC error interrupt;
160 	 * not supported on T4240/B4860 rev1 chips
161 	 */
162 	, FM_MAC_EX_MAGIC_PACKET_INDICATION = FM_MAC_EX_1G_MAG_PCKT
163 	/* mEMAC Magic Packet Indication Interrupt */
164 };
165 
166 struct eth_hash_entry {
167 	u64 addr;		/* Ethernet Address  */
168 	struct list_head node;
169 };
170 
171 typedef void (fman_mac_exception_cb)(void *dev_id,
172 				    enum fman_mac_exceptions exceptions);
173 
174 /* FMan MAC config input */
175 struct fman_mac_params {
176 	/* Base of memory mapped FM MAC registers */
177 	void __iomem *base_addr;
178 	/* MAC address of device; First octet is sent first */
179 	enet_addr_t addr;
180 	/* MAC ID; numbering of dTSEC and 1G-mEMAC:
181 	 * 0 - FM_MAX_NUM_OF_1G_MACS;
182 	 * numbering of 10G-MAC (TGEC) and 10G-mEMAC:
183 	 * 0 - FM_MAX_NUM_OF_10G_MACS
184 	 */
185 	u8 mac_id;
186 	/* PHY interface */
187 	phy_interface_t	 phy_if;
188 	/* Note that the speed should indicate the maximum rate that
189 	 * this MAC should support rather than the actual speed;
190 	 */
191 	u16 max_speed;
192 	/* A handle to the FM object this port related to */
193 	void *fm;
194 	void *dev_id; /* device cookie used by the exception cbs */
195 	fman_mac_exception_cb *event_cb;    /* MDIO Events Callback Routine */
196 	fman_mac_exception_cb *exception_cb;/* Exception Callback Routine */
197 	/* SGMII/QSGII interface with 1000BaseX auto-negotiation between MAC
198 	 * and phy or backplane; Note: 1000BaseX auto-negotiation relates only
199 	 * to interface between MAC and phy/backplane, SGMII phy can still
200 	 * synchronize with far-end phy at 10Mbps, 100Mbps or 1000Mbps
201 	*/
202 	bool basex_if;
203 	/* Pointer to TBI/PCS PHY node, used for TBI/PCS PHY access */
204 	struct device_node *internal_phy_node;
205 };
206 
207 struct eth_hash_t {
208 	u16 size;
209 	struct list_head *lsts;
210 };
211 
212 static inline struct eth_hash_entry
dequeue_addr_from_hash_entry(struct list_head * addr_lst)213 *dequeue_addr_from_hash_entry(struct list_head *addr_lst)
214 {
215 	struct eth_hash_entry *hash_entry = NULL;
216 
217 	if (!list_empty(addr_lst)) {
218 		hash_entry = ETH_HASH_ENTRY_OBJ(addr_lst->next);
219 		list_del_init(&hash_entry->node);
220 	}
221 	return hash_entry;
222 }
223 
free_hash_table(struct eth_hash_t * hash)224 static inline void free_hash_table(struct eth_hash_t *hash)
225 {
226 	struct eth_hash_entry *hash_entry;
227 	int i = 0;
228 
229 	if (hash) {
230 		if (hash->lsts) {
231 			for (i = 0; i < hash->size; i++) {
232 				hash_entry =
233 				dequeue_addr_from_hash_entry(&hash->lsts[i]);
234 				while (hash_entry) {
235 					kfree(hash_entry);
236 					hash_entry =
237 					dequeue_addr_from_hash_entry(&hash->
238 								     lsts[i]);
239 				}
240 			}
241 
242 			kfree(hash->lsts);
243 		}
244 
245 		kfree(hash);
246 	}
247 }
248 
alloc_hash_table(u16 size)249 static inline struct eth_hash_t *alloc_hash_table(u16 size)
250 {
251 	u32 i;
252 	struct eth_hash_t *hash;
253 
254 	/* Allocate address hash table */
255 	hash = kmalloc(sizeof(*hash), GFP_KERNEL);
256 	if (!hash)
257 		return NULL;
258 
259 	hash->size = size;
260 
261 	hash->lsts = kmalloc_array(hash->size, sizeof(struct list_head),
262 				   GFP_KERNEL);
263 	if (!hash->lsts) {
264 		kfree(hash);
265 		return NULL;
266 	}
267 
268 	for (i = 0; i < hash->size; i++)
269 		INIT_LIST_HEAD(&hash->lsts[i]);
270 
271 	return hash;
272 }
273 
274 #endif /* __FM_MAC_H */
275