1 /* SPDX-License-Identifier: GPL-2.0+ */
2 /*	FDDI network adapter driver for DEC FDDIcontroller 700/700-C devices.
3  *
4  *	Copyright (c) 2018  Maciej W. Rozycki
5  *
6  *	This program is free software; you can redistribute it and/or
7  *	modify it under the terms of the GNU General Public License
8  *	as published by the Free Software Foundation; either version
9  *	2 of the License, or (at your option) any later version.
10  *
11  *	References:
12  *
13  *	Dave Sawyer & Phil Weeks & Frank Itkowsky,
14  *	"DEC FDDIcontroller 700 Port Specification",
15  *	Revision 1.1, Digital Equipment Corporation
16  */
17 
18 #include <linux/compiler.h>
19 #include <linux/if_fddi.h>
20 #include <linux/spinlock.h>
21 #include <linux/timer.h>
22 #include <linux/types.h>
23 
24 /* IOmem register offsets. */
25 #define FZA_REG_BASE		0x100000	/* register base address */
26 #define FZA_REG_RESET		0x100200	/* reset, r/w */
27 #define FZA_REG_INT_EVENT	0x100400	/* interrupt event, r/w1c */
28 #define FZA_REG_STATUS		0x100402	/* status, r/o */
29 #define FZA_REG_INT_MASK	0x100404	/* interrupt mask, r/w */
30 #define FZA_REG_CONTROL_A	0x100500	/* control A, r/w1s */
31 #define FZA_REG_CONTROL_B	0x100502	/* control B, r/w */
32 
33 /* Reset register constants.  Bits 1:0 are r/w, others are fixed at 0. */
34 #define FZA_RESET_DLU	0x0002	/* OR with INIT to blast flash memory */
35 #define FZA_RESET_INIT	0x0001	/* switch into the reset state */
36 #define FZA_RESET_CLR	0x0000	/* run self-test and return to work */
37 
38 /* Interrupt event register constants.  All bits are r/w1c. */
39 #define FZA_EVENT_DLU_DONE	0x0800	/* flash memory write complete */
40 #define FZA_EVENT_FLUSH_TX	0x0400	/* transmit ring flush request */
41 #define FZA_EVENT_PM_PARITY_ERR	0x0200	/* onboard packet memory parity err */
42 #define FZA_EVENT_HB_PARITY_ERR	0x0100	/* host bus parity error */
43 #define FZA_EVENT_NXM_ERR	0x0080	/* non-existent memory access error;
44 					 * also raised for unaligned and
45 					 * unsupported partial-word accesses
46 					 */
47 #define FZA_EVENT_LINK_ST_CHG	0x0040	/* link status change */
48 #define FZA_EVENT_STATE_CHG	0x0020	/* adapter state change */
49 #define FZA_EVENT_UNS_POLL	0x0010	/* unsolicited event service request */
50 #define FZA_EVENT_CMD_DONE	0x0008	/* command done ack */
51 #define FZA_EVENT_SMT_TX_POLL	0x0004	/* SMT frame transmit request */
52 #define FZA_EVENT_RX_POLL	0x0002	/* receive request (packet avail.) */
53 #define FZA_EVENT_TX_DONE	0x0001	/* RMC transmit done ack */
54 
55 /* Status register constants.  All bits are r/o. */
56 #define FZA_STATUS_DLU_SHIFT	0xc	/* down line upgrade status bits */
57 #define FZA_STATUS_DLU_MASK	0x03
58 #define FZA_STATUS_LINK_SHIFT	0xb	/* link status bits */
59 #define FZA_STATUS_LINK_MASK	0x01
60 #define FZA_STATUS_STATE_SHIFT	0x8	/* adapter state bits */
61 #define FZA_STATUS_STATE_MASK	0x07
62 #define FZA_STATUS_HALT_SHIFT	0x0	/* halt reason bits */
63 #define FZA_STATUS_HALT_MASK	0xff
64 #define FZA_STATUS_TEST_SHIFT	0x0	/* test failure bits */
65 #define FZA_STATUS_TEST_MASK	0xff
66 
67 #define FZA_STATUS_GET_DLU(x)	(((x) >> FZA_STATUS_DLU_SHIFT) &	\
68 				 FZA_STATUS_DLU_MASK)
69 #define FZA_STATUS_GET_LINK(x)	(((x) >> FZA_STATUS_LINK_SHIFT) &	\
70 				 FZA_STATUS_LINK_MASK)
71 #define FZA_STATUS_GET_STATE(x)	(((x) >> FZA_STATUS_STATE_SHIFT) &	\
72 				 FZA_STATUS_STATE_MASK)
73 #define FZA_STATUS_GET_HALT(x)	(((x) >> FZA_STATUS_HALT_SHIFT) &	\
74 				 FZA_STATUS_HALT_MASK)
75 #define FZA_STATUS_GET_TEST(x)	(((x) >> FZA_STATUS_TEST_SHIFT) &	\
76 				 FZA_STATUS_TEST_MASK)
77 
78 #define FZA_DLU_FAILURE		0x0	/* DLU catastrophic error; brain dead */
79 #define FZA_DLU_ERROR		0x1	/* DLU error; old firmware intact */
80 #define FZA_DLU_SUCCESS		0x2	/* DLU OK; new firmware loaded */
81 
82 #define FZA_LINK_OFF		0x0	/* link unavailable */
83 #define FZA_LINK_ON		0x1	/* link available */
84 
85 #define FZA_STATE_RESET		0x0	/* resetting */
86 #define FZA_STATE_UNINITIALIZED	0x1	/* after a reset */
87 #define FZA_STATE_INITIALIZED	0x2	/* initialized */
88 #define FZA_STATE_RUNNING	0x3	/* running (link active) */
89 #define FZA_STATE_MAINTENANCE	0x4	/* running (link looped back) */
90 #define FZA_STATE_HALTED	0x5	/* halted (error condition) */
91 
92 #define FZA_HALT_UNKNOWN	0x00	/* unknown reason */
93 #define FZA_HALT_HOST		0x01	/* host-directed HALT */
94 #define FZA_HALT_HB_PARITY	0x02	/* host bus parity error */
95 #define FZA_HALT_NXM		0x03	/* adapter non-existent memory ref. */
96 #define FZA_HALT_SW		0x04	/* adapter software fault */
97 #define FZA_HALT_HW		0x05	/* adapter hardware fault */
98 #define FZA_HALT_PC_TRACE	0x06	/* PC Trace path test */
99 #define FZA_HALT_DLSW		0x07	/* data link software fault */
100 #define FZA_HALT_DLHW		0x08	/* data link hardware fault */
101 
102 #define FZA_TEST_FATAL		0x00	/* self-test catastrophic failure */
103 #define FZA_TEST_68K		0x01	/* 68000 CPU */
104 #define FZA_TEST_SRAM_BWADDR	0x02	/* SRAM byte/word address */
105 #define FZA_TEST_SRAM_DBUS	0x03	/* SRAM data bus */
106 #define FZA_TEST_SRAM_STUCK1	0x04	/* SRAM stuck-at range 1 */
107 #define FZA_TEST_SRAM_STUCK2	0x05	/* SRAM stuck-at range 2 */
108 #define FZA_TEST_SRAM_COUPL1	0x06	/* SRAM coupling range 1 */
109 #define FZA_TEST_SRAM_COUPL2	0x07	/* SRAM coupling */
110 #define FZA_TEST_FLASH_CRC	0x08	/* Flash CRC */
111 #define FZA_TEST_ROM		0x09	/* option ROM */
112 #define FZA_TEST_PHY_CSR	0x0a	/* PHY CSR */
113 #define FZA_TEST_MAC_BIST	0x0b	/* MAC BiST */
114 #define FZA_TEST_MAC_CSR	0x0c	/* MAC CSR */
115 #define FZA_TEST_MAC_ADDR_UNIQ	0x0d	/* MAC unique address */
116 #define FZA_TEST_ELM_BIST	0x0e	/* ELM BiST */
117 #define FZA_TEST_ELM_CSR	0x0f	/* ELM CSR */
118 #define FZA_TEST_ELM_ADDR_UNIQ	0x10	/* ELM unique address */
119 #define FZA_TEST_CAM		0x11	/* CAM */
120 #define FZA_TEST_NIROM		0x12	/* NI ROM checksum */
121 #define FZA_TEST_SC_LOOP	0x13	/* SC loopback packet */
122 #define FZA_TEST_LM_LOOP	0x14	/* LM loopback packet */
123 #define FZA_TEST_EB_LOOP	0x15	/* EB loopback packet */
124 #define FZA_TEST_SC_LOOP_BYPS	0x16	/* SC bypass loopback packet */
125 #define FZA_TEST_LM_LOOP_LOCAL	0x17	/* LM local loopback packet */
126 #define FZA_TEST_EB_LOOP_LOCAL	0x18	/* EB local loopback packet */
127 #define FZA_TEST_CDC_LOOP	0x19	/* CDC loopback packet */
128 #define FZA_TEST_FIBER_LOOP	0x1A	/* FIBER loopback packet */
129 #define FZA_TEST_CAM_MATCH_LOOP	0x1B	/* CAM match packet loopback */
130 #define FZA_TEST_68K_IRQ_STUCK	0x1C	/* 68000 interrupt line stuck-at */
131 #define FZA_TEST_IRQ_PRESENT	0x1D	/* interrupt present register */
132 #define FZA_TEST_RMC_BIST	0x1E	/* RMC BiST */
133 #define FZA_TEST_RMC_CSR	0x1F	/* RMC CSR */
134 #define FZA_TEST_RMC_ADDR_UNIQ	0x20	/* RMC unique address */
135 #define FZA_TEST_PM_DPATH	0x21	/* packet memory data path */
136 #define FZA_TEST_PM_ADDR	0x22	/* packet memory address */
137 #define FZA_TEST_RES_23		0x23	/* reserved */
138 #define FZA_TEST_PM_DESC	0x24	/* packet memory descriptor */
139 #define FZA_TEST_PM_OWN		0x25	/* packet memory own bit */
140 #define FZA_TEST_PM_PARITY	0x26	/* packet memory parity */
141 #define FZA_TEST_PM_BSWAP	0x27	/* packet memory byte swap */
142 #define FZA_TEST_PM_WSWAP	0x28	/* packet memory word swap */
143 #define FZA_TEST_PM_REF		0x29	/* packet memory refresh */
144 #define FZA_TEST_PM_CSR		0x2A	/* PM CSR */
145 #define FZA_TEST_PORT_STATUS	0x2B	/* port status register */
146 #define FZA_TEST_HOST_IRQMASK	0x2C	/* host interrupt mask */
147 #define FZA_TEST_TIMER_IRQ1	0x2D	/* RTOS timer */
148 #define FZA_TEST_FORCE_IRQ1	0x2E	/* force RTOS IRQ1 */
149 #define FZA_TEST_TIMER_IRQ5	0x2F	/* IRQ5 backoff timer */
150 #define FZA_TEST_FORCE_IRQ5	0x30	/* force IRQ5 */
151 #define FZA_TEST_RES_31		0x31	/* reserved */
152 #define FZA_TEST_IC_PRIO	0x32	/* interrupt controller priority */
153 #define FZA_TEST_PM_FULL	0x33	/* full packet memory */
154 #define FZA_TEST_PMI_DMA	0x34	/* PMI DMA */
155 
156 /* Interrupt mask register constants.  All bits are r/w. */
157 #define FZA_MASK_RESERVED	0xf000	/* unused */
158 #define FZA_MASK_DLU_DONE	0x0800	/* flash memory write complete */
159 #define FZA_MASK_FLUSH_TX	0x0400	/* transmit ring flush request */
160 #define FZA_MASK_PM_PARITY_ERR	0x0200	/* onboard packet memory parity error
161 					 */
162 #define FZA_MASK_HB_PARITY_ERR	0x0100	/* host bus parity error */
163 #define FZA_MASK_NXM_ERR	0x0080	/* adapter non-existent memory
164 					 * reference
165 					 */
166 #define FZA_MASK_LINK_ST_CHG	0x0040	/* link status change */
167 #define FZA_MASK_STATE_CHG	0x0020	/* adapter state change */
168 #define FZA_MASK_UNS_POLL	0x0010	/* unsolicited event service request */
169 #define FZA_MASK_CMD_DONE	0x0008	/* command ring entry processed */
170 #define FZA_MASK_SMT_TX_POLL	0x0004	/* SMT frame transmit request */
171 #define FZA_MASK_RCV_POLL	0x0002	/* receive request (packet available)
172 					 */
173 #define FZA_MASK_TX_DONE	0x0001	/* RMC transmit done acknowledge */
174 
175 /* Which interrupts to receive: 0/1 is mask/unmask. */
176 #define FZA_MASK_NONE		0x0000
177 #define FZA_MASK_NORMAL							\
178 		((~(FZA_MASK_RESERVED | FZA_MASK_DLU_DONE |		\
179 		    FZA_MASK_PM_PARITY_ERR | FZA_MASK_HB_PARITY_ERR |	\
180 		    FZA_MASK_NXM_ERR)) & 0xffff)
181 
182 /* Control A register constants. */
183 #define FZA_CONTROL_A_HB_PARITY_ERR	0x8000	/* host bus parity error */
184 #define FZA_CONTROL_A_NXM_ERR		0x4000	/* adapter non-existent memory
185 						 * reference
186 						 */
187 #define FZA_CONTROL_A_SMT_RX_OVFL	0x0040	/* SMT receive overflow */
188 #define FZA_CONTROL_A_FLUSH_DONE	0x0020	/* flush tx request complete */
189 #define FZA_CONTROL_A_SHUT		0x0010	/* turn the interface off */
190 #define FZA_CONTROL_A_HALT		0x0008	/* halt the controller */
191 #define FZA_CONTROL_A_CMD_POLL		0x0004	/* command ring poll */
192 #define FZA_CONTROL_A_SMT_RX_POLL	0x0002	/* SMT receive ring poll */
193 #define FZA_CONTROL_A_TX_POLL		0x0001	/* transmit poll */
194 
195 /* Control B register constants.  All bits are r/w.
196  *
197  * Possible values:
198  *	0x0000 after booting into REX,
199  *	0x0003 after issuing `boot #/mop'.
200  */
201 #define FZA_CONTROL_B_CONSOLE	0x0002	/* OR with DRIVER for console
202 					 * (TC firmware) mode
203 					 */
204 #define FZA_CONTROL_B_DRIVER	0x0001	/* driver mode */
205 #define FZA_CONTROL_B_IDLE	0x0000	/* no driver installed */
206 
207 #define FZA_RESET_PAD							\
208 		(FZA_REG_RESET - FZA_REG_BASE)
209 #define FZA_INT_EVENT_PAD						\
210 		(FZA_REG_INT_EVENT - FZA_REG_RESET - sizeof(u16))
211 #define FZA_CONTROL_A_PAD						\
212 		(FZA_REG_CONTROL_A - FZA_REG_INT_MASK - sizeof(u16))
213 
214 /* Layout of registers. */
215 struct fza_regs {
216 	u8  pad0[FZA_RESET_PAD];
217 	u16 reset;				/* reset register */
218 	u8  pad1[FZA_INT_EVENT_PAD];
219 	u16 int_event;				/* interrupt event register */
220 	u16 status;				/* status register */
221 	u16 int_mask;				/* interrupt mask register */
222 	u8  pad2[FZA_CONTROL_A_PAD];
223 	u16 control_a;				/* control A register */
224 	u16 control_b;				/* control B register */
225 };
226 
227 /* Command descriptor ring entry. */
228 struct fza_ring_cmd {
229 	u32 cmd_own;		/* bit 31: ownership, bits [30:0]: command */
230 	u32 stat;		/* command status */
231 	u32 buffer;		/* address of the buffer in the FZA space */
232 	u32 pad0;
233 };
234 
235 #define FZA_RING_CMD		0x200400	/* command ring address */
236 #define FZA_RING_CMD_SIZE	0x40		/* command descriptor ring
237 						 * size
238 						 */
239 /* Command constants. */
240 #define FZA_RING_CMD_MASK	0x7fffffff
241 #define FZA_RING_CMD_NOP	0x00000000	/* nop */
242 #define FZA_RING_CMD_INIT	0x00000001	/* initialize */
243 #define FZA_RING_CMD_MODCAM	0x00000002	/* modify CAM */
244 #define FZA_RING_CMD_PARAM	0x00000003	/* set system parameters */
245 #define FZA_RING_CMD_MODPROM	0x00000004	/* modify promiscuous mode */
246 #define FZA_RING_CMD_SETCHAR	0x00000005	/* set link characteristics */
247 #define FZA_RING_CMD_RDCNTR	0x00000006	/* read counters */
248 #define FZA_RING_CMD_STATUS	0x00000007	/* get link status */
249 #define FZA_RING_CMD_RDCAM	0x00000008	/* read CAM */
250 
251 /* Command status constants. */
252 #define FZA_RING_STAT_SUCCESS	0x00000000
253 
254 /* Unsolicited event descriptor ring entry. */
255 struct fza_ring_uns {
256 	u32 own;		/* bit 31: ownership, bits [30:0]: reserved */
257 	u32 id;			/* event ID */
258 	u32 buffer;		/* address of the buffer in the FZA space */
259 	u32 pad0;		/* reserved */
260 };
261 
262 #define FZA_RING_UNS		0x200800	/* unsolicited ring address */
263 #define FZA_RING_UNS_SIZE	0x40		/* unsolicited descriptor ring
264 						 * size
265 						 */
266 /* Unsolicited event constants. */
267 #define FZA_RING_UNS_UND	0x00000000	/* undefined event ID */
268 #define FZA_RING_UNS_INIT_IN	0x00000001	/* ring init initiated */
269 #define FZA_RING_UNS_INIT_RX	0x00000002	/* ring init received */
270 #define FZA_RING_UNS_BEAC_IN	0x00000003	/* ring beaconing initiated */
271 #define FZA_RING_UNS_DUP_ADDR	0x00000004	/* duplicate address detected */
272 #define FZA_RING_UNS_DUP_TOK	0x00000005	/* duplicate token detected */
273 #define FZA_RING_UNS_PURG_ERR	0x00000006	/* ring purger error */
274 #define FZA_RING_UNS_STRIP_ERR	0x00000007	/* bridge strip error */
275 #define FZA_RING_UNS_OP_OSC	0x00000008	/* ring op oscillation */
276 #define FZA_RING_UNS_BEAC_RX	0x00000009	/* directed beacon received */
277 #define FZA_RING_UNS_PCT_IN	0x0000000a	/* PC trace initiated */
278 #define FZA_RING_UNS_PCT_RX	0x0000000b	/* PC trace received */
279 #define FZA_RING_UNS_TX_UNDER	0x0000000c	/* transmit underrun */
280 #define FZA_RING_UNS_TX_FAIL	0x0000000d	/* transmit failure */
281 #define FZA_RING_UNS_RX_OVER	0x0000000e	/* receive overrun */
282 
283 /* RMC (Ring Memory Control) transmit descriptor ring entry. */
284 struct fza_ring_rmc_tx {
285 	u32 rmc;		/* RMC information */
286 	u32 avl;		/* available for host (unused by RMC) */
287 	u32 own;		/* bit 31: ownership, bits [30:0]: reserved */
288 	u32 pad0;		/* reserved */
289 };
290 
291 #define FZA_TX_BUFFER_ADDR(x)	(0x200000 | (((x) & 0xffff) << 5))
292 #define FZA_TX_BUFFER_SIZE	512
293 struct fza_buffer_tx {
294 	u32 data[FZA_TX_BUFFER_SIZE / sizeof(u32)];
295 };
296 
297 /* Transmit ring RMC constants. */
298 #define FZA_RING_TX_SOP		0x80000000	/* start of packet */
299 #define FZA_RING_TX_EOP		0x40000000	/* end of packet */
300 #define FZA_RING_TX_DTP		0x20000000	/* discard this packet */
301 #define FZA_RING_TX_VBC		0x10000000	/* valid buffer byte count */
302 #define FZA_RING_TX_DCC_MASK	0x0f000000	/* DMA completion code */
303 #define FZA_RING_TX_DCC_SUCCESS	0x01000000	/* transmit succeeded */
304 #define FZA_RING_TX_DCC_DTP_SOP	0x02000000	/* DTP set at SOP */
305 #define FZA_RING_TX_DCC_DTP	0x04000000	/* DTP set within packet */
306 #define FZA_RING_TX_DCC_ABORT	0x05000000	/* MAC-requested abort */
307 #define FZA_RING_TX_DCC_PARITY	0x06000000	/* xmit data parity error */
308 #define FZA_RING_TX_DCC_UNDRRUN	0x07000000	/* transmit underrun */
309 #define FZA_RING_TX_XPO_MASK	0x003fe000	/* transmit packet offset */
310 
311 /* Host receive descriptor ring entry. */
312 struct fza_ring_hst_rx {
313 	u32 buf0_own;		/* bit 31: ownership, bits [30:23]: unused,
314 				 * bits [22:0]: right-shifted address of the
315 				 * buffer in system memory (low buffer)
316 				 */
317 	u32 buffer1;		/* bits [31:23]: unused,
318 				 * bits [22:0]: right-shifted address of the
319 				 * buffer in system memory (high buffer)
320 				 */
321 	u32 rmc;		/* RMC information */
322 	u32 pad0;
323 };
324 
325 #define FZA_RX_BUFFER_SIZE	(4096 + 512)	/* buffer length */
326 
327 /* Receive ring RMC constants. */
328 #define FZA_RING_RX_SOP		0x80000000	/* start of packet */
329 #define FZA_RING_RX_EOP		0x40000000	/* end of packet */
330 #define FZA_RING_RX_FSC_MASK	0x38000000	/* # of frame status bits */
331 #define FZA_RING_RX_FSB_MASK	0x07c00000	/* frame status bits */
332 #define FZA_RING_RX_FSB_ERR	0x04000000	/* error detected */
333 #define FZA_RING_RX_FSB_ADDR	0x02000000	/* address recognized */
334 #define FZA_RING_RX_FSB_COP	0x01000000	/* frame copied */
335 #define FZA_RING_RX_FSB_F0	0x00800000	/* first additional flag */
336 #define FZA_RING_RX_FSB_F1	0x00400000	/* second additional flag */
337 #define FZA_RING_RX_BAD		0x00200000	/* bad packet */
338 #define FZA_RING_RX_CRC		0x00100000	/* CRC error */
339 #define FZA_RING_RX_RRR_MASK	0x000e0000	/* MAC receive status bits */
340 #define FZA_RING_RX_RRR_OK	0x00000000	/* receive OK */
341 #define FZA_RING_RX_RRR_SADDR	0x00020000	/* source address matched */
342 #define FZA_RING_RX_RRR_DADDR	0x00040000	/* dest address not matched */
343 #define FZA_RING_RX_RRR_ABORT	0x00060000	/* RMC abort */
344 #define FZA_RING_RX_RRR_LENGTH	0x00080000	/* invalid length */
345 #define FZA_RING_RX_RRR_FRAG	0x000a0000	/* fragment */
346 #define FZA_RING_RX_RRR_FORMAT	0x000c0000	/* format error */
347 #define FZA_RING_RX_RRR_RESET	0x000e0000	/* MAC reset */
348 #define FZA_RING_RX_DA_MASK	0x00018000	/* daddr match status bits */
349 #define FZA_RING_RX_DA_NONE	0x00000000	/* no match */
350 #define FZA_RING_RX_DA_PROM	0x00008000	/* promiscuous match */
351 #define FZA_RING_RX_DA_CAM	0x00010000	/* CAM entry match */
352 #define FZA_RING_RX_DA_LOCAL	0x00018000	/* link addr or LLC bcast */
353 #define FZA_RING_RX_SA_MASK	0x00006000	/* saddr match status bits */
354 #define FZA_RING_RX_SA_NONE	0x00000000	/* no match */
355 #define FZA_RING_RX_SA_ALIAS	0x00002000	/* alias address match */
356 #define FZA_RING_RX_SA_CAM	0x00004000	/* CAM entry match */
357 #define FZA_RING_RX_SA_LOCAL	0x00006000	/* link address match */
358 
359 /* SMT (Station Management) transmit/receive descriptor ring entry. */
360 struct fza_ring_smt {
361 	u32 own;		/* bit 31: ownership, bits [30:0]: unused */
362 	u32 rmc;		/* RMC information */
363 	u32 buffer;		/* address of the buffer */
364 	u32 pad0;		/* reserved */
365 };
366 
367 /* Ownership constants.
368  *
369  * Only an owner is permitted to process a given ring entry.
370  * RMC transmit ring meanings are reversed.
371  */
372 #define FZA_RING_OWN_MASK	0x80000000
373 #define FZA_RING_OWN_FZA	0x00000000	/* permit FZA, forbid host */
374 #define FZA_RING_OWN_HOST	0x80000000	/* permit host, forbid FZA */
375 #define FZA_RING_TX_OWN_RMC	0x80000000	/* permit RMC, forbid host */
376 #define FZA_RING_TX_OWN_HOST	0x00000000	/* permit host, forbid RMC */
377 
378 /* RMC constants. */
379 #define FZA_RING_PBC_MASK	0x00001fff	/* frame length */
380 
381 /* Layout of counter buffers. */
382 
383 struct fza_counter {
384 	u32 msw;
385 	u32 lsw;
386 };
387 
388 struct fza_counters {
389 	struct fza_counter sys_buf;	/* system buffer unavailable */
390 	struct fza_counter tx_under;	/* transmit underruns */
391 	struct fza_counter tx_fail;	/* transmit failures */
392 	struct fza_counter rx_over;	/* receive data overruns */
393 	struct fza_counter frame_cnt;	/* frame count */
394 	struct fza_counter error_cnt;	/* error count */
395 	struct fza_counter lost_cnt;	/* lost count */
396 	struct fza_counter rinit_in;	/* ring initialization initiated */
397 	struct fza_counter rinit_rx;	/* ring initialization received */
398 	struct fza_counter beac_in;	/* ring beacon initiated */
399 	struct fza_counter dup_addr;	/* duplicate address test failures */
400 	struct fza_counter dup_tok;	/* duplicate token detected */
401 	struct fza_counter purg_err;	/* ring purge errors */
402 	struct fza_counter strip_err;	/* bridge strip errors */
403 	struct fza_counter pct_in;	/* traces initiated */
404 	struct fza_counter pct_rx;	/* traces received */
405 	struct fza_counter lem_rej;	/* LEM rejects */
406 	struct fza_counter tne_rej;	/* TNE expiry rejects */
407 	struct fza_counter lem_event;	/* LEM events */
408 	struct fza_counter lct_rej;	/* LCT rejects */
409 	struct fza_counter conn_cmpl;	/* connections completed */
410 	struct fza_counter el_buf;	/* elasticity buffer errors */
411 };
412 
413 /* Layout of command buffers. */
414 
415 /* INIT command buffer.
416  *
417  * Values of default link parameters given are as obtained from a
418  * DEFZA-AA rev. C03 board.  The board counts time in units of 80ns.
419  */
420 struct fza_cmd_init {
421 	u32 tx_mode;			/* transmit mode */
422 	u32 hst_rx_size;		/* host receive ring entries */
423 
424 	struct fza_counters counters;	/* counters */
425 
426 	u8 rmc_rev[4];			/* RMC revision */
427 	u8 rom_rev[4];			/* ROM revision */
428 	u8 fw_rev[4];			/* firmware revision */
429 
430 	u32 mop_type;			/* MOP device type */
431 
432 	u32 hst_rx;			/* base of host rx descriptor ring */
433 	u32 rmc_tx;			/* base of RMC tx descriptor ring */
434 	u32 rmc_tx_size;		/* size of RMC tx descriptor ring */
435 	u32 smt_tx;			/* base of SMT tx descriptor ring */
436 	u32 smt_tx_size;		/* size of SMT tx descriptor ring */
437 	u32 smt_rx;			/* base of SMT rx descriptor ring */
438 	u32 smt_rx_size;		/* size of SMT rx descriptor ring */
439 
440 	u32 hw_addr[2];			/* link address */
441 
442 	u32 def_t_req;			/* default Requested TTRT (T_REQ) --
443 					 * C03: 100000 [80ns]
444 					 */
445 	u32 def_tvx;			/* default Valid Transmission Time
446 					 * (TVX) -- C03: 32768 [80ns]
447 					 */
448 	u32 def_t_max;			/* default Maximum TTRT (T_MAX) --
449 					 * C03: 2162688 [80ns]
450 					 */
451 	u32 lem_threshold;		/* default LEM threshold -- C03: 8 */
452 	u32 def_station_id[2];		/* default station ID */
453 
454 	u32 pmd_type_alt;		/* alternative PMD type code */
455 
456 	u32 smt_ver;			/* SMT version */
457 
458 	u32 rtoken_timeout;		/* default restricted token timeout
459 					 * -- C03: 12500000 [80ns]
460 					 */
461 	u32 ring_purger;		/* default ring purger enable --
462 					 * C03: 1
463 					 */
464 
465 	u32 smt_ver_max;		/* max SMT version ID */
466 	u32 smt_ver_min;		/* min SMT version ID */
467 	u32 pmd_type;			/* PMD type code */
468 };
469 
470 /* INIT command PMD type codes. */
471 #define FZA_PMD_TYPE_MMF	  0	/* Multimode fiber */
472 #define FZA_PMD_TYPE_TW		101	/* ThinWire */
473 #define FZA_PMD_TYPE_STP	102	/* STP */
474 
475 /* MODCAM/RDCAM command buffer. */
476 #define FZA_CMD_CAM_SIZE	64		/* CAM address entry count */
477 struct fza_cmd_cam {
478 	u32 hw_addr[FZA_CMD_CAM_SIZE][2];	/* CAM address entries */
479 };
480 
481 /* PARAM command buffer.
482  *
483  * Permitted ranges given are as defined by the spec and obtained from a
484  * DEFZA-AA rev. C03 board, respectively.  The rtoken_timeout field is
485  * erroneously interpreted in units of ms.
486  */
487 struct fza_cmd_param {
488 	u32 loop_mode;			/* loopback mode */
489 	u32 t_max;			/* Maximum TTRT (T_MAX)
490 					 * def: ??? [80ns]
491 					 * C03: [t_req+1,4294967295] [80ns]
492 					 */
493 	u32 t_req;			/* Requested TTRT (T_REQ)
494 					 * def: [50000,2097151] [80ns]
495 					 * C03: [50001,t_max-1] [80ns]
496 					 */
497 	u32 tvx;			/* Valid Transmission Time (TVX)
498 					 * def: [29375,65280] [80ns]
499 					 * C03: [29376,65279] [80ns]
500 					 */
501 	u32 lem_threshold;		/* LEM threshold */
502 	u32 station_id[2];		/* station ID */
503 	u32 rtoken_timeout;		/* restricted token timeout
504 					 * def: [0,125000000] [80ns]
505 					 * C03: [0,9999] [ms]
506 					 */
507 	u32 ring_purger;		/* ring purger enable: 0|1 */
508 };
509 
510 /* Loopback modes for the PARAM command. */
511 #define FZA_LOOP_NORMAL		0
512 #define FZA_LOOP_INTERN		1
513 #define FZA_LOOP_EXTERN		2
514 
515 /* MODPROM command buffer. */
516 struct fza_cmd_modprom {
517 	u32 llc_prom;			/* LLC promiscuous enable */
518 	u32 smt_prom;			/* SMT promiscuous enable */
519 	u32 llc_multi;			/* LLC multicast promiscuous enable */
520 	u32 llc_bcast;			/* LLC broadcast promiscuous enable */
521 };
522 
523 /* SETCHAR command buffer.
524  *
525  * Permitted ranges are as for the PARAM command.
526  */
527 struct fza_cmd_setchar {
528 	u32 t_max;			/* Maximum TTRT (T_MAX) */
529 	u32 t_req;			/* Requested TTRT (T_REQ) */
530 	u32 tvx;			/* Valid Transmission Time (TVX) */
531 	u32 lem_threshold;		/* LEM threshold */
532 	u32 rtoken_timeout;		/* restricted token timeout */
533 	u32 ring_purger;		/* ring purger enable */
534 };
535 
536 /* RDCNTR command buffer. */
537 struct fza_cmd_rdcntr {
538 	struct fza_counters counters;	/* counters */
539 };
540 
541 /* STATUS command buffer. */
542 struct fza_cmd_status {
543 	u32 led_state;			/* LED state */
544 	u32 rmt_state;			/* ring management state */
545 	u32 link_state;			/* link state */
546 	u32 dup_addr;			/* duplicate address flag */
547 	u32 ring_purger;		/* ring purger state */
548 	u32 t_neg;			/* negotiated TTRT [80ns] */
549 	u32 una[2];			/* upstream neighbour address */
550 	u32 una_timeout;		/* UNA timed out */
551 	u32 strip_mode;			/* frame strip mode */
552 	u32 yield_mode;			/* claim token yield mode */
553 	u32 phy_state;			/* PHY state */
554 	u32 neigh_phy;			/* neighbour PHY type */
555 	u32 reject;			/* reject reason */
556 	u32 phy_lee;			/* PHY link error estimate [-log10] */
557 	u32 una_old[2];			/* old upstream neighbour address */
558 	u32 rmt_mac;			/* remote MAC indicated */
559 	u32 ring_err;			/* ring error reason */
560 	u32 beac_rx[2];			/* sender of last directed beacon */
561 	u32 un_dup_addr;		/* upstream neighbr dup address flag */
562 	u32 dna[2];			/* downstream neighbour address */
563 	u32 dna_old[2];			/* old downstream neighbour address */
564 };
565 
566 /* Common command buffer. */
567 union fza_cmd_buf {
568 	struct fza_cmd_init init;
569 	struct fza_cmd_cam cam;
570 	struct fza_cmd_param param;
571 	struct fza_cmd_modprom modprom;
572 	struct fza_cmd_setchar setchar;
573 	struct fza_cmd_rdcntr rdcntr;
574 	struct fza_cmd_status status;
575 };
576 
577 /* MAC (Media Access Controller) chip packet request header constants. */
578 
579 /* Packet request header byte #0. */
580 #define FZA_PRH0_FMT_TYPE_MASK	0xc0	/* type of packet, always zero */
581 #define FZA_PRH0_TOK_TYPE_MASK	0x30	/* type of token required
582 					 * to send this frame
583 					 */
584 #define FZA_PRH0_TKN_TYPE_ANY	0x30	/* use either token type */
585 #define FZA_PRH0_TKN_TYPE_UNR	0x20	/* use an unrestricted token */
586 #define FZA_PRH0_TKN_TYPE_RST	0x10	/* use a restricted token */
587 #define FZA_PRH0_TKN_TYPE_IMM	0x00	/* send immediately, no token required
588 					 */
589 #define FZA_PRH0_FRAME_MASK	0x08	/* type of frame to send */
590 #define FZA_PRH0_FRAME_SYNC	0x08	/* send a synchronous frame */
591 #define FZA_PRH0_FRAME_ASYNC	0x00	/* send an asynchronous frame */
592 #define FZA_PRH0_MODE_MASK	0x04	/* send mode */
593 #define FZA_PRH0_MODE_IMMED	0x04	/* an immediate mode, send regardless
594 					 * of the ring operational state
595 					 */
596 #define FZA_PRH0_MODE_NORMAL	0x00	/* a normal mode, send only if ring
597 					 * operational
598 					 */
599 #define FZA_PRH0_SF_MASK	0x02	/* send frame first */
600 #define FZA_PRH0_SF_FIRST	0x02	/* send this frame first
601 					 * with this token capture
602 					 */
603 #define FZA_PRH0_SF_NORMAL	0x00	/* treat this frame normally */
604 #define FZA_PRH0_BCN_MASK	0x01	/* beacon frame */
605 #define FZA_PRH0_BCN_BEACON	0x01	/* send the frame only
606 					 * if in the beacon state
607 					 */
608 #define FZA_PRH0_BCN_DATA	0x01	/* send the frame only
609 					 * if in the data state
610 					 */
611 /* Packet request header byte #1. */
612 					/* bit 7 always zero */
613 #define FZA_PRH1_SL_MASK	0x40	/* send frame last */
614 #define FZA_PRH1_SL_LAST	0x40	/* send this frame last, releasing
615 					 * the token afterwards
616 					 */
617 #define FZA_PRH1_SL_NORMAL	0x00	/* treat this frame normally */
618 #define FZA_PRH1_CRC_MASK	0x20	/* CRC append */
619 #define FZA_PRH1_CRC_NORMAL	0x20	/* calculate the CRC and append it
620 					 * as the FCS field to the frame
621 					 */
622 #define FZA_PRH1_CRC_SKIP	0x00	/* leave the frame as is */
623 #define FZA_PRH1_TKN_SEND_MASK	0x18	/* type of token to send after the
624 					 * frame if this is the last frame
625 					 */
626 #define FZA_PRH1_TKN_SEND_ORIG	0x18	/* send a token of the same type as the
627 					 * originally captured one
628 					 */
629 #define FZA_PRH1_TKN_SEND_RST	0x10	/* send a restricted token */
630 #define FZA_PRH1_TKN_SEND_UNR	0x08	/* send an unrestricted token */
631 #define FZA_PRH1_TKN_SEND_NONE	0x00	/* send no token */
632 #define FZA_PRH1_EXTRA_FS_MASK	0x07	/* send extra frame status indicators
633 					 */
634 #define FZA_PRH1_EXTRA_FS_ST	0x07	/* TR RR ST II */
635 #define FZA_PRH1_EXTRA_FS_SS	0x06	/* TR RR SS II */
636 #define FZA_PRH1_EXTRA_FS_SR	0x05	/* TR RR SR II */
637 #define FZA_PRH1_EXTRA_FS_NONE1	0x04	/* TR RR II II */
638 #define FZA_PRH1_EXTRA_FS_RT	0x03	/* TR RR RT II */
639 #define FZA_PRH1_EXTRA_FS_RS	0x02	/* TR RR RS II */
640 #define FZA_PRH1_EXTRA_FS_RR	0x01	/* TR RR RR II */
641 #define FZA_PRH1_EXTRA_FS_NONE	0x00	/* TR RR II II */
642 /* Packet request header byte #2. */
643 #define FZA_PRH2_NORMAL		0x00	/* always zero */
644 
645 /* PRH used for LLC frames. */
646 #define FZA_PRH0_LLC		(FZA_PRH0_TKN_TYPE_UNR)
647 #define FZA_PRH1_LLC		(FZA_PRH1_CRC_NORMAL | FZA_PRH1_TKN_SEND_UNR)
648 #define FZA_PRH2_LLC		(FZA_PRH2_NORMAL)
649 
650 /* PRH used for SMT frames. */
651 #define FZA_PRH0_SMT		(FZA_PRH0_TKN_TYPE_UNR)
652 #define FZA_PRH1_SMT		(FZA_PRH1_CRC_NORMAL | FZA_PRH1_TKN_SEND_UNR)
653 #define FZA_PRH2_SMT		(FZA_PRH2_NORMAL)
654 
655 #if ((FZA_RING_RX_SIZE) < 2) || ((FZA_RING_RX_SIZE) > 256)
656 # error FZA_RING_RX_SIZE has to be from 2 up to 256
657 #endif
658 #if ((FZA_RING_TX_MODE) != 0) && ((FZA_RING_TX_MODE) != 1)
659 # error FZA_RING_TX_MODE has to be either 0 or 1
660 #endif
661 
662 #define FZA_RING_TX_SIZE (512 << (FZA_RING_TX_MODE))
663 
664 struct fza_private {
665 	struct device *bdev;		/* pointer to the bus device */
666 	const char *name;		/* printable device name */
667 	void __iomem *mmio;		/* MMIO ioremap cookie */
668 	struct fza_regs __iomem *regs;	/* pointer to FZA registers */
669 
670 	struct sk_buff *rx_skbuff[FZA_RING_RX_SIZE];
671 					/* all skbs assigned to the host
672 					 * receive descriptors
673 					 */
674 	dma_addr_t rx_dma[FZA_RING_RX_SIZE];
675 					/* their corresponding DMA addresses */
676 
677 	struct fza_ring_cmd __iomem *ring_cmd;
678 					/* pointer to the command descriptor
679 					 * ring
680 					 */
681 	int ring_cmd_index;		/* index to the command descriptor ring
682 					 * for the next command
683 					 */
684 	struct fza_ring_uns __iomem *ring_uns;
685 					/* pointer to the unsolicited
686 					 * descriptor ring
687 					 */
688 	int ring_uns_index;		/* index to the unsolicited descriptor
689 					 * ring for the next event
690 					 */
691 
692 	struct fza_ring_rmc_tx __iomem *ring_rmc_tx;
693 					/* pointer to the RMC transmit
694 					 * descriptor ring (obtained from the
695 					 * INIT command)
696 					 */
697 	int ring_rmc_tx_size;		/* number of entries in the RMC
698 					 * transmit descriptor ring (obtained
699 					 * from the INIT command)
700 					 */
701 	int ring_rmc_tx_index;		/* index to the RMC transmit descriptor
702 					 * ring for the next transmission
703 					 */
704 	int ring_rmc_txd_index;		/* index to the RMC transmit descriptor
705 					 * ring for the next transmit done
706 					 * acknowledge
707 					 */
708 
709 	struct fza_ring_hst_rx __iomem *ring_hst_rx;
710 					/* pointer to the host receive
711 					 * descriptor ring (obtained from the
712 					 * INIT command)
713 					 */
714 	int ring_hst_rx_size;		/* number of entries in the host
715 					 * receive descriptor ring (set by the
716 					 * INIT command)
717 					 */
718 	int ring_hst_rx_index;		/* index to the host receive descriptor
719 					 * ring for the next transmission
720 					 */
721 
722 	struct fza_ring_smt __iomem *ring_smt_tx;
723 					/* pointer to the SMT transmit
724 					 * descriptor ring (obtained from the
725 					 * INIT command)
726 					 */
727 	int ring_smt_tx_size;		/* number of entries in the SMT
728 					 * transmit descriptor ring (obtained
729 					 * from the INIT command)
730 					 */
731 	int ring_smt_tx_index;		/* index to the SMT transmit descriptor
732 					 * ring for the next transmission
733 					 */
734 
735 	struct fza_ring_smt __iomem *ring_smt_rx;
736 					/* pointer to the SMT transmit
737 					 * descriptor ring (obtained from the
738 					 * INIT command)
739 					 */
740 	int ring_smt_rx_size;		/* number of entries in the SMT
741 					 * receive descriptor ring (obtained
742 					 * from the INIT command)
743 					 */
744 	int ring_smt_rx_index;		/* index to the SMT receive descriptor
745 					 * ring for the next transmission
746 					 */
747 
748 	struct fza_buffer_tx __iomem *buffer_tx;
749 					/* pointer to the RMC transmit buffers
750 					 */
751 
752 	uint state;			/* adapter expected state */
753 
754 	spinlock_t lock;		/* for device & private data access */
755 	uint int_mask;			/* interrupt source selector */
756 
757 	int cmd_done_flag;		/* command completion trigger */
758 	wait_queue_head_t cmd_done_wait;
759 
760 	int state_chg_flag;		/* state change trigger */
761 	wait_queue_head_t state_chg_wait;
762 
763 	struct timer_list reset_timer;	/* RESET time-out trigger */
764 	int timer_state;		/* RESET trigger state */
765 
766 	int queue_active;		/* whether to enable queueing */
767 
768 	struct net_device_stats stats;
769 
770 	uint irq_count_flush_tx;	/* transmit flush irqs */
771 	uint irq_count_uns_poll;	/* unsolicited event irqs */
772 	uint irq_count_smt_tx_poll;	/* SMT transmit irqs */
773 	uint irq_count_rx_poll;		/* host receive irqs */
774 	uint irq_count_tx_done;		/* transmit done irqs */
775 	uint irq_count_cmd_done;	/* command done irqs */
776 	uint irq_count_state_chg;	/* state change irqs */
777 	uint irq_count_link_st_chg;	/* link status change irqs */
778 
779 	uint t_max;			/* T_MAX */
780 	uint t_req;			/* T_REQ */
781 	uint tvx;			/* TVX */
782 	uint lem_threshold;		/* LEM threshold */
783 	uint station_id[2];		/* station ID */
784 	uint rtoken_timeout;		/* restricted token timeout */
785 	uint ring_purger;		/* ring purger enable flag */
786 };
787 
788 struct fza_fddihdr {
789 	u8 pa[2];			/* preamble */
790 	u8 sd;				/* starting delimiter */
791 	struct fddihdr hdr;
792 } __packed;
793