diff options
author | Linus Torvalds <torvalds@ppc970.osdl.org> | 2005-04-16 18:20:36 -0400 |
---|---|---|
committer | Linus Torvalds <torvalds@ppc970.osdl.org> | 2005-04-16 18:20:36 -0400 |
commit | 1da177e4c3f41524e886b7f1b8a0c1fc7321cac2 (patch) | |
tree | 0bba044c4ce775e45a88a51686b5d9f90697ea9d /drivers/net/skfp/pcmplc.c |
Linux-2.6.12-rc2v2.6.12-rc2
Initial git repository build. I'm not bothering with the full history,
even though we have it. We can create a separate "historical" git
archive of that later if we want to, and in the meantime it's about
3.2GB when imported into git - space that would just make the early
git days unnecessarily complicated, when we don't have a lot of good
infrastructure for it.
Let it rip!
Diffstat (limited to 'drivers/net/skfp/pcmplc.c')
-rw-r--r-- | drivers/net/skfp/pcmplc.c | 2024 |
1 files changed, 2024 insertions, 0 deletions
diff --git a/drivers/net/skfp/pcmplc.c b/drivers/net/skfp/pcmplc.c new file mode 100644 index 000000000000..571f055c096b --- /dev/null +++ b/drivers/net/skfp/pcmplc.c | |||
@@ -0,0 +1,2024 @@ | |||
1 | /****************************************************************************** | ||
2 | * | ||
3 | * (C)Copyright 1998,1999 SysKonnect, | ||
4 | * a business unit of Schneider & Koch & Co. Datensysteme GmbH. | ||
5 | * | ||
6 | * See the file "skfddi.c" for further information. | ||
7 | * | ||
8 | * This program is free software; you can redistribute it and/or modify | ||
9 | * it under the terms of the GNU General Public License as published by | ||
10 | * the Free Software Foundation; either version 2 of the License, or | ||
11 | * (at your option) any later version. | ||
12 | * | ||
13 | * The information in this file is provided "AS IS" without warranty. | ||
14 | * | ||
15 | ******************************************************************************/ | ||
16 | |||
17 | /* | ||
18 | PCM | ||
19 | Physical Connection Management | ||
20 | */ | ||
21 | |||
22 | /* | ||
23 | * Hardware independent state machine implemantation | ||
24 | * The following external SMT functions are referenced : | ||
25 | * | ||
26 | * queue_event() | ||
27 | * smt_timer_start() | ||
28 | * smt_timer_stop() | ||
29 | * | ||
30 | * The following external HW dependent functions are referenced : | ||
31 | * sm_pm_control() | ||
32 | * sm_ph_linestate() | ||
33 | * sm_pm_ls_latch() | ||
34 | * | ||
35 | * The following HW dependent events are required : | ||
36 | * PC_QLS | ||
37 | * PC_ILS | ||
38 | * PC_HLS | ||
39 | * PC_MLS | ||
40 | * PC_NSE | ||
41 | * PC_LEM | ||
42 | * | ||
43 | */ | ||
44 | |||
45 | |||
46 | #include "h/types.h" | ||
47 | #include "h/fddi.h" | ||
48 | #include "h/smc.h" | ||
49 | #include "h/supern_2.h" | ||
50 | #define KERNEL | ||
51 | #include "h/smtstate.h" | ||
52 | |||
53 | #ifndef lint | ||
54 | static const char ID_sccs[] = "@(#)pcmplc.c 2.55 99/08/05 (C) SK " ; | ||
55 | #endif | ||
56 | |||
57 | #ifdef FDDI_MIB | ||
58 | extern int snmp_fddi_trap( | ||
59 | #ifdef ANSIC | ||
60 | struct s_smc * smc, int type, int index | ||
61 | #endif | ||
62 | ); | ||
63 | #endif | ||
64 | #ifdef CONCENTRATOR | ||
65 | extern int plc_is_installed( | ||
66 | #ifdef ANSIC | ||
67 | struct s_smc *smc , | ||
68 | int p | ||
69 | #endif | ||
70 | ) ; | ||
71 | #endif | ||
72 | /* | ||
73 | * FSM Macros | ||
74 | */ | ||
75 | #define AFLAG (0x20) | ||
76 | #define GO_STATE(x) (mib->fddiPORTPCMState = (x)|AFLAG) | ||
77 | #define ACTIONS_DONE() (mib->fddiPORTPCMState &= ~AFLAG) | ||
78 | #define ACTIONS(x) (x|AFLAG) | ||
79 | |||
80 | /* | ||
81 | * PCM states | ||
82 | */ | ||
83 | #define PC0_OFF 0 | ||
84 | #define PC1_BREAK 1 | ||
85 | #define PC2_TRACE 2 | ||
86 | #define PC3_CONNECT 3 | ||
87 | #define PC4_NEXT 4 | ||
88 | #define PC5_SIGNAL 5 | ||
89 | #define PC6_JOIN 6 | ||
90 | #define PC7_VERIFY 7 | ||
91 | #define PC8_ACTIVE 8 | ||
92 | #define PC9_MAINT 9 | ||
93 | |||
94 | #ifdef DEBUG | ||
95 | /* | ||
96 | * symbolic state names | ||
97 | */ | ||
98 | static const char * const pcm_states[] = { | ||
99 | "PC0_OFF","PC1_BREAK","PC2_TRACE","PC3_CONNECT","PC4_NEXT", | ||
100 | "PC5_SIGNAL","PC6_JOIN","PC7_VERIFY","PC8_ACTIVE","PC9_MAINT" | ||
101 | } ; | ||
102 | |||
103 | /* | ||
104 | * symbolic event names | ||
105 | */ | ||
106 | static const char * const pcm_events[] = { | ||
107 | "NONE","PC_START","PC_STOP","PC_LOOP","PC_JOIN","PC_SIGNAL", | ||
108 | "PC_REJECT","PC_MAINT","PC_TRACE","PC_PDR", | ||
109 | "PC_ENABLE","PC_DISABLE", | ||
110 | "PC_QLS","PC_ILS","PC_MLS","PC_HLS","PC_LS_PDR","PC_LS_NONE", | ||
111 | "PC_TIMEOUT_TB_MAX","PC_TIMEOUT_TB_MIN", | ||
112 | "PC_TIMEOUT_C_MIN","PC_TIMEOUT_T_OUT", | ||
113 | "PC_TIMEOUT_TL_MIN","PC_TIMEOUT_T_NEXT","PC_TIMEOUT_LCT", | ||
114 | "PC_NSE","PC_LEM" | ||
115 | } ; | ||
116 | #endif | ||
117 | |||
118 | #ifdef MOT_ELM | ||
119 | /* | ||
120 | * PCL-S control register | ||
121 | * this register in the PLC-S controls the scrambling parameters | ||
122 | */ | ||
123 | #define PLCS_CONTROL_C_U 0 | ||
124 | #define PLCS_CONTROL_C_S (PL_C_SDOFF_ENABLE | PL_C_SDON_ENABLE | \ | ||
125 | PL_C_CIPHER_ENABLE) | ||
126 | #define PLCS_FASSERT_U 0 | ||
127 | #define PLCS_FASSERT_S 0xFd76 /* 52.0 us */ | ||
128 | #define PLCS_FDEASSERT_U 0 | ||
129 | #define PLCS_FDEASSERT_S 0 | ||
130 | #else /* nMOT_ELM */ | ||
131 | /* | ||
132 | * PCL-S control register | ||
133 | * this register in the PLC-S controls the scrambling parameters | ||
134 | * can be patched for ANSI compliance if standard changes | ||
135 | */ | ||
136 | static const u_char plcs_control_c_u[17] = "PLC_CNTRL_C_U=\0\0" ; | ||
137 | static const u_char plcs_control_c_s[17] = "PLC_CNTRL_C_S=\01\02" ; | ||
138 | |||
139 | #define PLCS_CONTROL_C_U (plcs_control_c_u[14] | (plcs_control_c_u[15]<<8)) | ||
140 | #define PLCS_CONTROL_C_S (plcs_control_c_s[14] | (plcs_control_c_s[15]<<8)) | ||
141 | #endif /* nMOT_ELM */ | ||
142 | |||
143 | /* | ||
144 | * external vars | ||
145 | */ | ||
146 | /* struct definition see 'cmtdef.h' (also used by CFM) */ | ||
147 | |||
148 | #define PS_OFF 0 | ||
149 | #define PS_BIT3 1 | ||
150 | #define PS_BIT4 2 | ||
151 | #define PS_BIT7 3 | ||
152 | #define PS_LCT 4 | ||
153 | #define PS_BIT8 5 | ||
154 | #define PS_JOIN 6 | ||
155 | #define PS_ACTIVE 7 | ||
156 | |||
157 | #define LCT_LEM_MAX 255 | ||
158 | |||
159 | /* | ||
160 | * PLC timing parameter | ||
161 | */ | ||
162 | |||
163 | #define PLC_MS(m) ((int)((0x10000L-(m*100000L/2048)))) | ||
164 | #define SLOW_TL_MIN PLC_MS(6) | ||
165 | #define SLOW_C_MIN PLC_MS(10) | ||
166 | |||
167 | static const struct plt { | ||
168 | int timer ; /* relative plc timer address */ | ||
169 | int para ; /* default timing parameters */ | ||
170 | } pltm[] = { | ||
171 | { PL_C_MIN, SLOW_C_MIN }, /* min t. to remain Connect State */ | ||
172 | { PL_TL_MIN, SLOW_TL_MIN }, /* min t. to transmit a Line State */ | ||
173 | { PL_TB_MIN, TP_TB_MIN }, /* min break time */ | ||
174 | { PL_T_OUT, TP_T_OUT }, /* Signaling timeout */ | ||
175 | { PL_LC_LENGTH, TP_LC_LENGTH }, /* Link Confidence Test Time */ | ||
176 | { PL_T_SCRUB, TP_T_SCRUB }, /* Scrub Time == MAC TVX time ! */ | ||
177 | { PL_NS_MAX, TP_NS_MAX }, /* max t. that noise is tolerated */ | ||
178 | { 0,0 } | ||
179 | } ; | ||
180 | |||
181 | /* | ||
182 | * interrupt mask | ||
183 | */ | ||
184 | #ifdef SUPERNET_3 | ||
185 | /* | ||
186 | * Do we need the EBUF error during signaling, too, to detect SUPERNET_3 | ||
187 | * PLL bug? | ||
188 | */ | ||
189 | static int plc_imsk_na = PL_PCM_CODE | PL_TRACE_PROP | PL_PCM_BREAK | | ||
190 | PL_PCM_ENABLED | PL_SELF_TEST | PL_EBUF_ERR; | ||
191 | #else /* SUPERNET_3 */ | ||
192 | /* | ||
193 | * We do NOT need the elasticity buffer error during signaling. | ||
194 | */ | ||
195 | static int plc_imsk_na = PL_PCM_CODE | PL_TRACE_PROP | PL_PCM_BREAK | | ||
196 | PL_PCM_ENABLED | PL_SELF_TEST ; | ||
197 | #endif /* SUPERNET_3 */ | ||
198 | static int plc_imsk_act = PL_PCM_CODE | PL_TRACE_PROP | PL_PCM_BREAK | | ||
199 | PL_PCM_ENABLED | PL_SELF_TEST | PL_EBUF_ERR; | ||
200 | |||
201 | /* external functions */ | ||
202 | void all_selection_criteria(struct s_smc *smc); | ||
203 | |||
204 | /* internal functions */ | ||
205 | static void pcm_fsm(struct s_smc *smc, struct s_phy *phy, int cmd); | ||
206 | static void pc_rcode_actions(struct s_smc *smc, int bit, struct s_phy *phy); | ||
207 | static void pc_tcode_actions(struct s_smc *smc, const int bit, struct s_phy *phy); | ||
208 | static void reset_lem_struct(struct s_phy *phy); | ||
209 | static void plc_init(struct s_smc *smc, int p); | ||
210 | static void sm_ph_lem_start(struct s_smc *smc, int np, int threshold); | ||
211 | static void sm_ph_lem_stop(struct s_smc *smc, int np); | ||
212 | static void sm_ph_linestate(struct s_smc *smc, int phy, int ls); | ||
213 | static void real_init_plc(struct s_smc *smc); | ||
214 | |||
215 | /* | ||
216 | * SMT timer interface | ||
217 | * start PCM timer 0 | ||
218 | */ | ||
219 | static void start_pcm_timer0(struct s_smc *smc, u_long value, int event, | ||
220 | struct s_phy *phy) | ||
221 | { | ||
222 | phy->timer0_exp = FALSE ; /* clear timer event flag */ | ||
223 | smt_timer_start(smc,&phy->pcm_timer0,value, | ||
224 | EV_TOKEN(EVENT_PCM+phy->np,event)) ; | ||
225 | } | ||
226 | /* | ||
227 | * SMT timer interface | ||
228 | * stop PCM timer 0 | ||
229 | */ | ||
230 | static void stop_pcm_timer0(struct s_smc *smc, struct s_phy *phy) | ||
231 | { | ||
232 | if (phy->pcm_timer0.tm_active) | ||
233 | smt_timer_stop(smc,&phy->pcm_timer0) ; | ||
234 | } | ||
235 | |||
236 | /* | ||
237 | init PCM state machine (called by driver) | ||
238 | clear all PCM vars and flags | ||
239 | */ | ||
240 | void pcm_init(struct s_smc *smc) | ||
241 | { | ||
242 | int i ; | ||
243 | int np ; | ||
244 | struct s_phy *phy ; | ||
245 | struct fddi_mib_p *mib ; | ||
246 | |||
247 | for (np = 0,phy = smc->y ; np < NUMPHYS ; np++,phy++) { | ||
248 | /* Indicates the type of PHY being used */ | ||
249 | mib = phy->mib ; | ||
250 | mib->fddiPORTPCMState = ACTIONS(PC0_OFF) ; | ||
251 | phy->np = np ; | ||
252 | switch (smc->s.sas) { | ||
253 | #ifdef CONCENTRATOR | ||
254 | case SMT_SAS : | ||
255 | mib->fddiPORTMy_Type = (np == PS) ? TS : TM ; | ||
256 | break ; | ||
257 | case SMT_DAS : | ||
258 | mib->fddiPORTMy_Type = (np == PA) ? TA : | ||
259 | (np == PB) ? TB : TM ; | ||
260 | break ; | ||
261 | case SMT_NAC : | ||
262 | mib->fddiPORTMy_Type = TM ; | ||
263 | break; | ||
264 | #else | ||
265 | case SMT_SAS : | ||
266 | mib->fddiPORTMy_Type = (np == PS) ? TS : TNONE ; | ||
267 | mib->fddiPORTHardwarePresent = (np == PS) ? TRUE : | ||
268 | FALSE ; | ||
269 | #ifndef SUPERNET_3 | ||
270 | smc->y[PA].mib->fddiPORTPCMState = PC0_OFF ; | ||
271 | #else | ||
272 | smc->y[PB].mib->fddiPORTPCMState = PC0_OFF ; | ||
273 | #endif | ||
274 | break ; | ||
275 | case SMT_DAS : | ||
276 | mib->fddiPORTMy_Type = (np == PB) ? TB : TA ; | ||
277 | break ; | ||
278 | #endif | ||
279 | } | ||
280 | /* | ||
281 | * set PMD-type | ||
282 | */ | ||
283 | phy->pmd_scramble = 0 ; | ||
284 | switch (phy->pmd_type[PMD_SK_PMD]) { | ||
285 | case 'P' : | ||
286 | mib->fddiPORTPMDClass = MIB_PMDCLASS_MULTI ; | ||
287 | break ; | ||
288 | case 'L' : | ||
289 | mib->fddiPORTPMDClass = MIB_PMDCLASS_LCF ; | ||
290 | break ; | ||
291 | case 'D' : | ||
292 | mib->fddiPORTPMDClass = MIB_PMDCLASS_TP ; | ||
293 | break ; | ||
294 | case 'S' : | ||
295 | mib->fddiPORTPMDClass = MIB_PMDCLASS_TP ; | ||
296 | phy->pmd_scramble = TRUE ; | ||
297 | break ; | ||
298 | case 'U' : | ||
299 | mib->fddiPORTPMDClass = MIB_PMDCLASS_TP ; | ||
300 | phy->pmd_scramble = TRUE ; | ||
301 | break ; | ||
302 | case '1' : | ||
303 | mib->fddiPORTPMDClass = MIB_PMDCLASS_SINGLE1 ; | ||
304 | break ; | ||
305 | case '2' : | ||
306 | mib->fddiPORTPMDClass = MIB_PMDCLASS_SINGLE2 ; | ||
307 | break ; | ||
308 | case '3' : | ||
309 | mib->fddiPORTPMDClass = MIB_PMDCLASS_SINGLE2 ; | ||
310 | break ; | ||
311 | case '4' : | ||
312 | mib->fddiPORTPMDClass = MIB_PMDCLASS_SINGLE1 ; | ||
313 | break ; | ||
314 | case 'H' : | ||
315 | mib->fddiPORTPMDClass = MIB_PMDCLASS_UNKNOWN ; | ||
316 | break ; | ||
317 | case 'I' : | ||
318 | mib->fddiPORTPMDClass = MIB_PMDCLASS_TP ; | ||
319 | break ; | ||
320 | case 'G' : | ||
321 | mib->fddiPORTPMDClass = MIB_PMDCLASS_TP ; | ||
322 | break ; | ||
323 | default: | ||
324 | mib->fddiPORTPMDClass = MIB_PMDCLASS_UNKNOWN ; | ||
325 | break ; | ||
326 | } | ||
327 | /* | ||
328 | * A and B port can be on primary and secondary path | ||
329 | */ | ||
330 | switch (mib->fddiPORTMy_Type) { | ||
331 | case TA : | ||
332 | mib->fddiPORTAvailablePaths |= MIB_PATH_S ; | ||
333 | mib->fddiPORTRequestedPaths[1] = MIB_P_PATH_LOCAL ; | ||
334 | mib->fddiPORTRequestedPaths[2] = | ||
335 | MIB_P_PATH_LOCAL | | ||
336 | MIB_P_PATH_CON_ALTER | | ||
337 | MIB_P_PATH_SEC_PREFER ; | ||
338 | mib->fddiPORTRequestedPaths[3] = | ||
339 | MIB_P_PATH_LOCAL | | ||
340 | MIB_P_PATH_CON_ALTER | | ||
341 | MIB_P_PATH_SEC_PREFER | | ||
342 | MIB_P_PATH_THRU ; | ||
343 | break ; | ||
344 | case TB : | ||
345 | mib->fddiPORTAvailablePaths |= MIB_PATH_S ; | ||
346 | mib->fddiPORTRequestedPaths[1] = MIB_P_PATH_LOCAL ; | ||
347 | mib->fddiPORTRequestedPaths[2] = | ||
348 | MIB_P_PATH_LOCAL | | ||
349 | MIB_P_PATH_PRIM_PREFER ; | ||
350 | mib->fddiPORTRequestedPaths[3] = | ||
351 | MIB_P_PATH_LOCAL | | ||
352 | MIB_P_PATH_PRIM_PREFER | | ||
353 | MIB_P_PATH_CON_PREFER | | ||
354 | MIB_P_PATH_THRU ; | ||
355 | break ; | ||
356 | case TS : | ||
357 | mib->fddiPORTAvailablePaths |= MIB_PATH_S ; | ||
358 | mib->fddiPORTRequestedPaths[1] = MIB_P_PATH_LOCAL ; | ||
359 | mib->fddiPORTRequestedPaths[2] = | ||
360 | MIB_P_PATH_LOCAL | | ||
361 | MIB_P_PATH_CON_ALTER | | ||
362 | MIB_P_PATH_PRIM_PREFER ; | ||
363 | mib->fddiPORTRequestedPaths[3] = | ||
364 | MIB_P_PATH_LOCAL | | ||
365 | MIB_P_PATH_CON_ALTER | | ||
366 | MIB_P_PATH_PRIM_PREFER ; | ||
367 | break ; | ||
368 | case TM : | ||
369 | mib->fddiPORTRequestedPaths[1] = MIB_P_PATH_LOCAL ; | ||
370 | mib->fddiPORTRequestedPaths[2] = | ||
371 | MIB_P_PATH_LOCAL | | ||
372 | MIB_P_PATH_SEC_ALTER | | ||
373 | MIB_P_PATH_PRIM_ALTER ; | ||
374 | mib->fddiPORTRequestedPaths[3] = 0 ; | ||
375 | break ; | ||
376 | } | ||
377 | |||
378 | phy->pc_lem_fail = FALSE ; | ||
379 | mib->fddiPORTPCMStateX = mib->fddiPORTPCMState ; | ||
380 | mib->fddiPORTLCTFail_Ct = 0 ; | ||
381 | mib->fddiPORTBS_Flag = 0 ; | ||
382 | mib->fddiPORTCurrentPath = MIB_PATH_ISOLATED ; | ||
383 | mib->fddiPORTNeighborType = TNONE ; | ||
384 | phy->ls_flag = 0 ; | ||
385 | phy->rc_flag = 0 ; | ||
386 | phy->tc_flag = 0 ; | ||
387 | phy->td_flag = 0 ; | ||
388 | if (np >= PM) | ||
389 | phy->phy_name = '0' + np - PM ; | ||
390 | else | ||
391 | phy->phy_name = 'A' + np ; | ||
392 | phy->wc_flag = FALSE ; /* set by SMT */ | ||
393 | memset((char *)&phy->lem,0,sizeof(struct lem_counter)) ; | ||
394 | reset_lem_struct(phy) ; | ||
395 | memset((char *)&phy->plc,0,sizeof(struct s_plc)) ; | ||
396 | phy->plc.p_state = PS_OFF ; | ||
397 | for (i = 0 ; i < NUMBITS ; i++) { | ||
398 | phy->t_next[i] = 0 ; | ||
399 | } | ||
400 | } | ||
401 | real_init_plc(smc) ; | ||
402 | } | ||
403 | |||
404 | void init_plc(struct s_smc *smc) | ||
405 | { | ||
406 | SK_UNUSED(smc) ; | ||
407 | |||
408 | /* | ||
409 | * dummy | ||
410 | * this is an obsolete public entry point that has to remain | ||
411 | * for compat. It is used by various drivers. | ||
412 | * the work is now done in real_init_plc() | ||
413 | * which is called from pcm_init() ; | ||
414 | */ | ||
415 | } | ||
416 | |||
417 | static void real_init_plc(struct s_smc *smc) | ||
418 | { | ||
419 | int p ; | ||
420 | |||
421 | for (p = 0 ; p < NUMPHYS ; p++) | ||
422 | plc_init(smc,p) ; | ||
423 | } | ||
424 | |||
425 | static void plc_init(struct s_smc *smc, int p) | ||
426 | { | ||
427 | int i ; | ||
428 | #ifndef MOT_ELM | ||
429 | int rev ; /* Revision of PLC-x */ | ||
430 | #endif /* MOT_ELM */ | ||
431 | |||
432 | /* transit PCM state machine to MAINT state */ | ||
433 | outpw(PLC(p,PL_CNTRL_B),0) ; | ||
434 | outpw(PLC(p,PL_CNTRL_B),PL_PCM_STOP) ; | ||
435 | outpw(PLC(p,PL_CNTRL_A),0) ; | ||
436 | |||
437 | /* | ||
438 | * if PLC-S then set control register C | ||
439 | */ | ||
440 | #ifndef MOT_ELM | ||
441 | rev = inpw(PLC(p,PL_STATUS_A)) & PLC_REV_MASK ; | ||
442 | if (rev != PLC_REVISION_A) | ||
443 | #endif /* MOT_ELM */ | ||
444 | { | ||
445 | if (smc->y[p].pmd_scramble) { | ||
446 | outpw(PLC(p,PL_CNTRL_C),PLCS_CONTROL_C_S) ; | ||
447 | #ifdef MOT_ELM | ||
448 | outpw(PLC(p,PL_T_FOT_ASS),PLCS_FASSERT_S) ; | ||
449 | outpw(PLC(p,PL_T_FOT_DEASS),PLCS_FDEASSERT_S) ; | ||
450 | #endif /* MOT_ELM */ | ||
451 | } | ||
452 | else { | ||
453 | outpw(PLC(p,PL_CNTRL_C),PLCS_CONTROL_C_U) ; | ||
454 | #ifdef MOT_ELM | ||
455 | outpw(PLC(p,PL_T_FOT_ASS),PLCS_FASSERT_U) ; | ||
456 | outpw(PLC(p,PL_T_FOT_DEASS),PLCS_FDEASSERT_U) ; | ||
457 | #endif /* MOT_ELM */ | ||
458 | } | ||
459 | } | ||
460 | |||
461 | /* | ||
462 | * set timer register | ||
463 | */ | ||
464 | for ( i = 0 ; pltm[i].timer; i++) /* set timer parameter reg */ | ||
465 | outpw(PLC(p,pltm[i].timer),pltm[i].para) ; | ||
466 | |||
467 | (void)inpw(PLC(p,PL_INTR_EVENT)) ; /* clear interrupt event reg */ | ||
468 | plc_clear_irq(smc,p) ; | ||
469 | outpw(PLC(p,PL_INTR_MASK),plc_imsk_na); /* enable non active irq's */ | ||
470 | |||
471 | /* | ||
472 | * if PCM is configured for class s, it will NOT go to the | ||
473 | * REMOVE state if offline (page 3-36;) | ||
474 | * in the concentrator, all inactive PHYS always must be in | ||
475 | * the remove state | ||
476 | * there's no real need to use this feature at all .. | ||
477 | */ | ||
478 | #ifndef CONCENTRATOR | ||
479 | if ((smc->s.sas == SMT_SAS) && (p == PS)) { | ||
480 | outpw(PLC(p,PL_CNTRL_B),PL_CLASS_S) ; | ||
481 | } | ||
482 | #endif | ||
483 | } | ||
484 | |||
485 | /* | ||
486 | * control PCM state machine | ||
487 | */ | ||
488 | static void plc_go_state(struct s_smc *smc, int p, int state) | ||
489 | { | ||
490 | HW_PTR port ; | ||
491 | int val ; | ||
492 | |||
493 | SK_UNUSED(smc) ; | ||
494 | |||
495 | port = (HW_PTR) (PLC(p,PL_CNTRL_B)) ; | ||
496 | val = inpw(port) & ~(PL_PCM_CNTRL | PL_MAINT) ; | ||
497 | outpw(port,val) ; | ||
498 | outpw(port,val | state) ; | ||
499 | } | ||
500 | |||
501 | /* | ||
502 | * read current line state (called by ECM & PCM) | ||
503 | */ | ||
504 | int sm_pm_get_ls(struct s_smc *smc, int phy) | ||
505 | { | ||
506 | int state ; | ||
507 | |||
508 | #ifdef CONCENTRATOR | ||
509 | if (!plc_is_installed(smc,phy)) | ||
510 | return(PC_QLS) ; | ||
511 | #endif | ||
512 | |||
513 | state = inpw(PLC(phy,PL_STATUS_A)) & PL_LINE_ST ; | ||
514 | switch(state) { | ||
515 | case PL_L_QLS: | ||
516 | state = PC_QLS ; | ||
517 | break ; | ||
518 | case PL_L_MLS: | ||
519 | state = PC_MLS ; | ||
520 | break ; | ||
521 | case PL_L_HLS: | ||
522 | state = PC_HLS ; | ||
523 | break ; | ||
524 | case PL_L_ILS4: | ||
525 | case PL_L_ILS16: | ||
526 | state = PC_ILS ; | ||
527 | break ; | ||
528 | case PL_L_ALS: | ||
529 | state = PC_LS_PDR ; | ||
530 | break ; | ||
531 | default : | ||
532 | state = PC_LS_NONE ; | ||
533 | } | ||
534 | return(state) ; | ||
535 | } | ||
536 | |||
537 | static int plc_send_bits(struct s_smc *smc, struct s_phy *phy, int len) | ||
538 | { | ||
539 | int np = phy->np ; /* PHY index */ | ||
540 | int n ; | ||
541 | int i ; | ||
542 | |||
543 | SK_UNUSED(smc) ; | ||
544 | |||
545 | /* create bit vector */ | ||
546 | for (i = len-1,n = 0 ; i >= 0 ; i--) { | ||
547 | n = (n<<1) | phy->t_val[phy->bitn+i] ; | ||
548 | } | ||
549 | if (inpw(PLC(np,PL_STATUS_B)) & PL_PCM_SIGNAL) { | ||
550 | #if 0 | ||
551 | printf("PL_PCM_SIGNAL is set\n") ; | ||
552 | #endif | ||
553 | return(1) ; | ||
554 | } | ||
555 | /* write bit[n] & length = 1 to regs */ | ||
556 | outpw(PLC(np,PL_VECTOR_LEN),len-1) ; /* len=nr-1 */ | ||
557 | outpw(PLC(np,PL_XMIT_VECTOR),n) ; | ||
558 | #ifdef DEBUG | ||
559 | #if 1 | ||
560 | #ifdef DEBUG_BRD | ||
561 | if (smc->debug.d_plc & 0x80) | ||
562 | #else | ||
563 | if (debug.d_plc & 0x80) | ||
564 | #endif | ||
565 | printf("SIGNALING bit %d .. %d\n",phy->bitn,phy->bitn+len-1) ; | ||
566 | #endif | ||
567 | #endif | ||
568 | return(0) ; | ||
569 | } | ||
570 | |||
571 | /* | ||
572 | * config plc muxes | ||
573 | */ | ||
574 | void plc_config_mux(struct s_smc *smc, int mux) | ||
575 | { | ||
576 | if (smc->s.sas != SMT_DAS) | ||
577 | return ; | ||
578 | if (mux == MUX_WRAPB) { | ||
579 | SETMASK(PLC(PA,PL_CNTRL_B),PL_CONFIG_CNTRL,PL_CONFIG_CNTRL) ; | ||
580 | SETMASK(PLC(PA,PL_CNTRL_A),PL_SC_REM_LOOP,PL_SC_REM_LOOP) ; | ||
581 | } | ||
582 | else { | ||
583 | CLEAR(PLC(PA,PL_CNTRL_B),PL_CONFIG_CNTRL) ; | ||
584 | CLEAR(PLC(PA,PL_CNTRL_A),PL_SC_REM_LOOP) ; | ||
585 | } | ||
586 | CLEAR(PLC(PB,PL_CNTRL_B),PL_CONFIG_CNTRL) ; | ||
587 | CLEAR(PLC(PB,PL_CNTRL_A),PL_SC_REM_LOOP) ; | ||
588 | } | ||
589 | |||
590 | /* | ||
591 | PCM state machine | ||
592 | called by dispatcher & fddi_init() (driver) | ||
593 | do | ||
594 | display state change | ||
595 | process event | ||
596 | until SM is stable | ||
597 | */ | ||
598 | void pcm(struct s_smc *smc, const int np, int event) | ||
599 | { | ||
600 | int state ; | ||
601 | int oldstate ; | ||
602 | struct s_phy *phy ; | ||
603 | struct fddi_mib_p *mib ; | ||
604 | |||
605 | #ifndef CONCENTRATOR | ||
606 | /* | ||
607 | * ignore 2nd PHY if SAS | ||
608 | */ | ||
609 | if ((np != PS) && (smc->s.sas == SMT_SAS)) | ||
610 | return ; | ||
611 | #endif | ||
612 | phy = &smc->y[np] ; | ||
613 | mib = phy->mib ; | ||
614 | oldstate = mib->fddiPORTPCMState ; | ||
615 | do { | ||
616 | DB_PCM("PCM %c: state %s", | ||
617 | phy->phy_name, | ||
618 | (mib->fddiPORTPCMState & AFLAG) ? "ACTIONS " : "") ; | ||
619 | DB_PCM("%s, event %s\n", | ||
620 | pcm_states[mib->fddiPORTPCMState & ~AFLAG], | ||
621 | pcm_events[event]) ; | ||
622 | state = mib->fddiPORTPCMState ; | ||
623 | pcm_fsm(smc,phy,event) ; | ||
624 | event = 0 ; | ||
625 | } while (state != mib->fddiPORTPCMState) ; | ||
626 | /* | ||
627 | * because the PLC does the bit signaling for us, | ||
628 | * we're always in SIGNAL state | ||
629 | * the MIB want's to see CONNECT | ||
630 | * we therefore fake an entry in the MIB | ||
631 | */ | ||
632 | if (state == PC5_SIGNAL) | ||
633 | mib->fddiPORTPCMStateX = PC3_CONNECT ; | ||
634 | else | ||
635 | mib->fddiPORTPCMStateX = state ; | ||
636 | |||
637 | #ifndef SLIM_SMT | ||
638 | /* | ||
639 | * path change | ||
640 | */ | ||
641 | if ( mib->fddiPORTPCMState != oldstate && | ||
642 | ((oldstate == PC8_ACTIVE) || (mib->fddiPORTPCMState == PC8_ACTIVE))) { | ||
643 | smt_srf_event(smc,SMT_EVENT_PORT_PATH_CHANGE, | ||
644 | (int) (INDEX_PORT+ phy->np),0) ; | ||
645 | } | ||
646 | #endif | ||
647 | |||
648 | #ifdef FDDI_MIB | ||
649 | /* check whether a snmp-trap has to be sent */ | ||
650 | |||
651 | if ( mib->fddiPORTPCMState != oldstate ) { | ||
652 | /* a real state change took place */ | ||
653 | DB_SNMP ("PCM from %d to %d\n", oldstate, mib->fddiPORTPCMState); | ||
654 | if ( mib->fddiPORTPCMState == PC0_OFF ) { | ||
655 | /* send first trap */ | ||
656 | snmp_fddi_trap (smc, 1, (int) mib->fddiPORTIndex ); | ||
657 | } else if ( oldstate == PC0_OFF ) { | ||
658 | /* send second trap */ | ||
659 | snmp_fddi_trap (smc, 2, (int) mib->fddiPORTIndex ); | ||
660 | } else if ( mib->fddiPORTPCMState != PC2_TRACE && | ||
661 | oldstate == PC8_ACTIVE ) { | ||
662 | /* send third trap */ | ||
663 | snmp_fddi_trap (smc, 3, (int) mib->fddiPORTIndex ); | ||
664 | } else if ( mib->fddiPORTPCMState == PC8_ACTIVE ) { | ||
665 | /* send fourth trap */ | ||
666 | snmp_fddi_trap (smc, 4, (int) mib->fddiPORTIndex ); | ||
667 | } | ||
668 | } | ||
669 | #endif | ||
670 | |||
671 | pcm_state_change(smc,np,state) ; | ||
672 | } | ||
673 | |||
674 | /* | ||
675 | * PCM state machine | ||
676 | */ | ||
677 | static void pcm_fsm(struct s_smc *smc, struct s_phy *phy, int cmd) | ||
678 | { | ||
679 | int i ; | ||
680 | int np = phy->np ; /* PHY index */ | ||
681 | struct s_plc *plc ; | ||
682 | struct fddi_mib_p *mib ; | ||
683 | #ifndef MOT_ELM | ||
684 | u_short plc_rev ; /* Revision of the plc */ | ||
685 | #endif /* nMOT_ELM */ | ||
686 | |||
687 | plc = &phy->plc ; | ||
688 | mib = phy->mib ; | ||
689 | |||
690 | /* | ||
691 | * general transitions independent of state | ||
692 | */ | ||
693 | switch (cmd) { | ||
694 | case PC_STOP : | ||
695 | /*PC00-PC80*/ | ||
696 | if (mib->fddiPORTPCMState != PC9_MAINT) { | ||
697 | GO_STATE(PC0_OFF) ; | ||
698 | AIX_EVENT(smc, (u_long) FDDI_RING_STATUS, (u_long) | ||
699 | FDDI_PORT_EVENT, (u_long) FDDI_PORT_STOP, | ||
700 | smt_get_port_event_word(smc)); | ||
701 | } | ||
702 | return ; | ||
703 | case PC_START : | ||
704 | /*PC01-PC81*/ | ||
705 | if (mib->fddiPORTPCMState != PC9_MAINT) | ||
706 | GO_STATE(PC1_BREAK) ; | ||
707 | return ; | ||
708 | case PC_DISABLE : | ||
709 | /* PC09-PC99 */ | ||
710 | GO_STATE(PC9_MAINT) ; | ||
711 | AIX_EVENT(smc, (u_long) FDDI_RING_STATUS, (u_long) | ||
712 | FDDI_PORT_EVENT, (u_long) FDDI_PORT_DISABLED, | ||
713 | smt_get_port_event_word(smc)); | ||
714 | return ; | ||
715 | case PC_TIMEOUT_LCT : | ||
716 | /* if long or extended LCT */ | ||
717 | stop_pcm_timer0(smc,phy) ; | ||
718 | CLEAR(PLC(np,PL_CNTRL_B),PL_LONG) ; | ||
719 | /* end of LCT is indicate by PCM_CODE (initiate PCM event) */ | ||
720 | return ; | ||
721 | } | ||
722 | |||
723 | switch(mib->fddiPORTPCMState) { | ||
724 | case ACTIONS(PC0_OFF) : | ||
725 | stop_pcm_timer0(smc,phy) ; | ||
726 | outpw(PLC(np,PL_CNTRL_A),0) ; | ||
727 | CLEAR(PLC(np,PL_CNTRL_B),PL_PC_JOIN) ; | ||
728 | CLEAR(PLC(np,PL_CNTRL_B),PL_LONG) ; | ||
729 | sm_ph_lem_stop(smc,np) ; /* disable LEM */ | ||
730 | phy->cf_loop = FALSE ; | ||
731 | phy->cf_join = FALSE ; | ||
732 | queue_event(smc,EVENT_CFM,CF_JOIN+np) ; | ||
733 | plc_go_state(smc,np,PL_PCM_STOP) ; | ||
734 | mib->fddiPORTConnectState = PCM_DISABLED ; | ||
735 | ACTIONS_DONE() ; | ||
736 | break ; | ||
737 | case PC0_OFF: | ||
738 | /*PC09*/ | ||
739 | if (cmd == PC_MAINT) { | ||
740 | GO_STATE(PC9_MAINT) ; | ||
741 | break ; | ||
742 | } | ||
743 | break ; | ||
744 | case ACTIONS(PC1_BREAK) : | ||
745 | /* Stop the LCT timer if we came from Signal state */ | ||
746 | stop_pcm_timer0(smc,phy) ; | ||
747 | ACTIONS_DONE() ; | ||
748 | plc_go_state(smc,np,0) ; | ||
749 | CLEAR(PLC(np,PL_CNTRL_B),PL_PC_JOIN) ; | ||
750 | CLEAR(PLC(np,PL_CNTRL_B),PL_LONG) ; | ||
751 | sm_ph_lem_stop(smc,np) ; /* disable LEM */ | ||
752 | /* | ||
753 | * if vector is already loaded, go to OFF to clear PCM_SIGNAL | ||
754 | */ | ||
755 | #if 0 | ||
756 | if (inpw(PLC(np,PL_STATUS_B)) & PL_PCM_SIGNAL) { | ||
757 | plc_go_state(smc,np,PL_PCM_STOP) ; | ||
758 | /* TB_MIN ? */ | ||
759 | } | ||
760 | #endif | ||
761 | /* | ||
762 | * Go to OFF state in any case. | ||
763 | */ | ||
764 | plc_go_state(smc,np,PL_PCM_STOP) ; | ||
765 | |||
766 | if (mib->fddiPORTPC_Withhold == PC_WH_NONE) | ||
767 | mib->fddiPORTConnectState = PCM_CONNECTING ; | ||
768 | phy->cf_loop = FALSE ; | ||
769 | phy->cf_join = FALSE ; | ||
770 | queue_event(smc,EVENT_CFM,CF_JOIN+np) ; | ||
771 | phy->ls_flag = FALSE ; | ||
772 | phy->pc_mode = PM_NONE ; /* needed by CFM */ | ||
773 | phy->bitn = 0 ; /* bit signaling start bit */ | ||
774 | for (i = 0 ; i < 3 ; i++) | ||
775 | pc_tcode_actions(smc,i,phy) ; | ||
776 | |||
777 | /* Set the non-active interrupt mask register */ | ||
778 | outpw(PLC(np,PL_INTR_MASK),plc_imsk_na) ; | ||
779 | |||
780 | /* | ||
781 | * If the LCT was stopped. There might be a | ||
782 | * PCM_CODE interrupt event present. | ||
783 | * This must be cleared. | ||
784 | */ | ||
785 | (void)inpw(PLC(np,PL_INTR_EVENT)) ; | ||
786 | #ifndef MOT_ELM | ||
787 | /* Get the plc revision for revision dependent code */ | ||
788 | plc_rev = inpw(PLC(np,PL_STATUS_A)) & PLC_REV_MASK ; | ||
789 | |||
790 | if (plc_rev != PLC_REV_SN3) | ||
791 | #endif /* MOT_ELM */ | ||
792 | { | ||
793 | /* | ||
794 | * No supernet III PLC, so set Xmit verctor and | ||
795 | * length BEFORE starting the state machine. | ||
796 | */ | ||
797 | if (plc_send_bits(smc,phy,3)) { | ||
798 | return ; | ||
799 | } | ||
800 | } | ||
801 | |||
802 | /* | ||
803 | * Now give the Start command. | ||
804 | * - The start command shall be done before setting the bits | ||
805 | * to be signaled. (In PLC-S description and PLCS in SN3. | ||
806 | * - The start command shall be issued AFTER setting the | ||
807 | * XMIT vector and the XMIT length register. | ||
808 | * | ||
809 | * We do it exactly according this specs for the old PLC and | ||
810 | * the new PLCS inside the SN3. | ||
811 | * For the usual PLCS we try it the way it is done for the | ||
812 | * old PLC and set the XMIT registers again, if the PLC is | ||
813 | * not in SIGNAL state. This is done according to an PLCS | ||
814 | * errata workaround. | ||
815 | */ | ||
816 | |||
817 | plc_go_state(smc,np,PL_PCM_START) ; | ||
818 | |||
819 | /* | ||
820 | * workaround for PLC-S eng. sample errata | ||
821 | */ | ||
822 | #ifdef MOT_ELM | ||
823 | if (!(inpw(PLC(np,PL_STATUS_B)) & PL_PCM_SIGNAL)) | ||
824 | #else /* nMOT_ELM */ | ||
825 | if (((inpw(PLC(np,PL_STATUS_A)) & PLC_REV_MASK) != | ||
826 | PLC_REVISION_A) && | ||
827 | !(inpw(PLC(np,PL_STATUS_B)) & PL_PCM_SIGNAL)) | ||
828 | #endif /* nMOT_ELM */ | ||
829 | { | ||
830 | /* | ||
831 | * Set register again (PLCS errata) or the first time | ||
832 | * (new SN3 PLCS). | ||
833 | */ | ||
834 | (void) plc_send_bits(smc,phy,3) ; | ||
835 | } | ||
836 | /* | ||
837 | * end of workaround | ||
838 | */ | ||
839 | |||
840 | GO_STATE(PC5_SIGNAL) ; | ||
841 | plc->p_state = PS_BIT3 ; | ||
842 | plc->p_bits = 3 ; | ||
843 | plc->p_start = 0 ; | ||
844 | |||
845 | break ; | ||
846 | case PC1_BREAK : | ||
847 | break ; | ||
848 | case ACTIONS(PC2_TRACE) : | ||
849 | plc_go_state(smc,np,PL_PCM_TRACE) ; | ||
850 | ACTIONS_DONE() ; | ||
851 | break ; | ||
852 | case PC2_TRACE : | ||
853 | break ; | ||
854 | |||
855 | case PC3_CONNECT : /* these states are done by hardware */ | ||
856 | case PC4_NEXT : | ||
857 | break ; | ||
858 | |||
859 | case ACTIONS(PC5_SIGNAL) : | ||
860 | ACTIONS_DONE() ; | ||
861 | case PC5_SIGNAL : | ||
862 | if ((cmd != PC_SIGNAL) && (cmd != PC_TIMEOUT_LCT)) | ||
863 | break ; | ||
864 | switch (plc->p_state) { | ||
865 | case PS_BIT3 : | ||
866 | for (i = 0 ; i <= 2 ; i++) | ||
867 | pc_rcode_actions(smc,i,phy) ; | ||
868 | pc_tcode_actions(smc,3,phy) ; | ||
869 | plc->p_state = PS_BIT4 ; | ||
870 | plc->p_bits = 1 ; | ||
871 | plc->p_start = 3 ; | ||
872 | phy->bitn = 3 ; | ||
873 | if (plc_send_bits(smc,phy,1)) { | ||
874 | return ; | ||
875 | } | ||
876 | break ; | ||
877 | case PS_BIT4 : | ||
878 | pc_rcode_actions(smc,3,phy) ; | ||
879 | for (i = 4 ; i <= 6 ; i++) | ||
880 | pc_tcode_actions(smc,i,phy) ; | ||
881 | plc->p_state = PS_BIT7 ; | ||
882 | plc->p_bits = 3 ; | ||
883 | plc->p_start = 4 ; | ||
884 | phy->bitn = 4 ; | ||
885 | if (plc_send_bits(smc,phy,3)) { | ||
886 | return ; | ||
887 | } | ||
888 | break ; | ||
889 | case PS_BIT7 : | ||
890 | for (i = 3 ; i <= 6 ; i++) | ||
891 | pc_rcode_actions(smc,i,phy) ; | ||
892 | plc->p_state = PS_LCT ; | ||
893 | plc->p_bits = 0 ; | ||
894 | plc->p_start = 7 ; | ||
895 | phy->bitn = 7 ; | ||
896 | sm_ph_lem_start(smc,np,(int)smc->s.lct_short) ; /* enable LEM */ | ||
897 | /* start LCT */ | ||
898 | i = inpw(PLC(np,PL_CNTRL_B)) & ~PL_PC_LOOP ; | ||
899 | outpw(PLC(np,PL_CNTRL_B),i) ; /* must be cleared */ | ||
900 | outpw(PLC(np,PL_CNTRL_B),i | PL_RLBP) ; | ||
901 | break ; | ||
902 | case PS_LCT : | ||
903 | /* check for local LCT failure */ | ||
904 | pc_tcode_actions(smc,7,phy) ; | ||
905 | /* | ||
906 | * set tval[7] | ||
907 | */ | ||
908 | plc->p_state = PS_BIT8 ; | ||
909 | plc->p_bits = 1 ; | ||
910 | plc->p_start = 7 ; | ||
911 | phy->bitn = 7 ; | ||
912 | if (plc_send_bits(smc,phy,1)) { | ||
913 | return ; | ||
914 | } | ||
915 | break ; | ||
916 | case PS_BIT8 : | ||
917 | /* check for remote LCT failure */ | ||
918 | pc_rcode_actions(smc,7,phy) ; | ||
919 | if (phy->t_val[7] || phy->r_val[7]) { | ||
920 | plc_go_state(smc,np,PL_PCM_STOP) ; | ||
921 | GO_STATE(PC1_BREAK) ; | ||
922 | break ; | ||
923 | } | ||
924 | for (i = 8 ; i <= 9 ; i++) | ||
925 | pc_tcode_actions(smc,i,phy) ; | ||
926 | plc->p_state = PS_JOIN ; | ||
927 | plc->p_bits = 2 ; | ||
928 | plc->p_start = 8 ; | ||
929 | phy->bitn = 8 ; | ||
930 | if (plc_send_bits(smc,phy,2)) { | ||
931 | return ; | ||
932 | } | ||
933 | break ; | ||
934 | case PS_JOIN : | ||
935 | for (i = 8 ; i <= 9 ; i++) | ||
936 | pc_rcode_actions(smc,i,phy) ; | ||
937 | plc->p_state = PS_ACTIVE ; | ||
938 | GO_STATE(PC6_JOIN) ; | ||
939 | break ; | ||
940 | } | ||
941 | break ; | ||
942 | |||
943 | case ACTIONS(PC6_JOIN) : | ||
944 | /* | ||
945 | * prevent mux error when going from WRAP_A to WRAP_B | ||
946 | */ | ||
947 | if (smc->s.sas == SMT_DAS && np == PB && | ||
948 | (smc->y[PA].pc_mode == PM_TREE || | ||
949 | smc->y[PB].pc_mode == PM_TREE)) { | ||
950 | SETMASK(PLC(np,PL_CNTRL_A), | ||
951 | PL_SC_REM_LOOP,PL_SC_REM_LOOP) ; | ||
952 | SETMASK(PLC(np,PL_CNTRL_B), | ||
953 | PL_CONFIG_CNTRL,PL_CONFIG_CNTRL) ; | ||
954 | } | ||
955 | SETMASK(PLC(np,PL_CNTRL_B),PL_PC_JOIN,PL_PC_JOIN) ; | ||
956 | SETMASK(PLC(np,PL_CNTRL_B),PL_PC_JOIN,PL_PC_JOIN) ; | ||
957 | ACTIONS_DONE() ; | ||
958 | cmd = 0 ; | ||
959 | /* fall thru */ | ||
960 | case PC6_JOIN : | ||
961 | switch (plc->p_state) { | ||
962 | case PS_ACTIVE: | ||
963 | /*PC88b*/ | ||
964 | if (!phy->cf_join) { | ||
965 | phy->cf_join = TRUE ; | ||
966 | queue_event(smc,EVENT_CFM,CF_JOIN+np) ; ; | ||
967 | } | ||
968 | if (cmd == PC_JOIN) | ||
969 | GO_STATE(PC8_ACTIVE) ; | ||
970 | /*PC82*/ | ||
971 | if (cmd == PC_TRACE) { | ||
972 | GO_STATE(PC2_TRACE) ; | ||
973 | break ; | ||
974 | } | ||
975 | break ; | ||
976 | } | ||
977 | break ; | ||
978 | |||
979 | case PC7_VERIFY : | ||
980 | break ; | ||
981 | |||
982 | case ACTIONS(PC8_ACTIVE) : | ||
983 | /* | ||
984 | * start LEM for SMT | ||
985 | */ | ||
986 | sm_ph_lem_start(smc,(int)phy->np,LCT_LEM_MAX) ; | ||
987 | |||
988 | phy->tr_flag = FALSE ; | ||
989 | mib->fddiPORTConnectState = PCM_ACTIVE ; | ||
990 | |||
991 | /* Set the active interrupt mask register */ | ||
992 | outpw(PLC(np,PL_INTR_MASK),plc_imsk_act) ; | ||
993 | |||
994 | ACTIONS_DONE() ; | ||
995 | break ; | ||
996 | case PC8_ACTIVE : | ||
997 | /*PC81 is done by PL_TNE_EXPIRED irq */ | ||
998 | /*PC82*/ | ||
999 | if (cmd == PC_TRACE) { | ||
1000 | GO_STATE(PC2_TRACE) ; | ||
1001 | break ; | ||
1002 | } | ||
1003 | /*PC88c: is done by TRACE_PROP irq */ | ||
1004 | |||
1005 | break ; | ||
1006 | case ACTIONS(PC9_MAINT) : | ||
1007 | stop_pcm_timer0(smc,phy) ; | ||
1008 | CLEAR(PLC(np,PL_CNTRL_B),PL_PC_JOIN) ; | ||
1009 | CLEAR(PLC(np,PL_CNTRL_B),PL_LONG) ; | ||
1010 | CLEAR(PLC(np,PL_INTR_MASK),PL_LE_CTR) ; /* disable LEM int. */ | ||
1011 | sm_ph_lem_stop(smc,np) ; /* disable LEM */ | ||
1012 | phy->cf_loop = FALSE ; | ||
1013 | phy->cf_join = FALSE ; | ||
1014 | queue_event(smc,EVENT_CFM,CF_JOIN+np) ; | ||
1015 | plc_go_state(smc,np,PL_PCM_STOP) ; | ||
1016 | mib->fddiPORTConnectState = PCM_DISABLED ; | ||
1017 | SETMASK(PLC(np,PL_CNTRL_B),PL_MAINT,PL_MAINT) ; | ||
1018 | sm_ph_linestate(smc,np,(int) MIB2LS(mib->fddiPORTMaint_LS)) ; | ||
1019 | outpw(PLC(np,PL_CNTRL_A),PL_SC_BYPASS) ; | ||
1020 | ACTIONS_DONE() ; | ||
1021 | break ; | ||
1022 | case PC9_MAINT : | ||
1023 | DB_PCMN(1,"PCM %c : MAINT\n",phy->phy_name,0) ; | ||
1024 | /*PC90*/ | ||
1025 | if (cmd == PC_ENABLE) { | ||
1026 | GO_STATE(PC0_OFF) ; | ||
1027 | break ; | ||
1028 | } | ||
1029 | break ; | ||
1030 | |||
1031 | default: | ||
1032 | SMT_PANIC(smc,SMT_E0118, SMT_E0118_MSG) ; | ||
1033 | break ; | ||
1034 | } | ||
1035 | } | ||
1036 | |||
1037 | /* | ||
1038 | * force line state on a PHY output (only in MAINT state) | ||
1039 | */ | ||
1040 | static void sm_ph_linestate(struct s_smc *smc, int phy, int ls) | ||
1041 | { | ||
1042 | int cntrl ; | ||
1043 | |||
1044 | SK_UNUSED(smc) ; | ||
1045 | |||
1046 | cntrl = (inpw(PLC(phy,PL_CNTRL_B)) & ~PL_MAINT_LS) | | ||
1047 | PL_PCM_STOP | PL_MAINT ; | ||
1048 | switch(ls) { | ||
1049 | case PC_QLS: /* Force Quiet */ | ||
1050 | cntrl |= PL_M_QUI0 ; | ||
1051 | break ; | ||
1052 | case PC_MLS: /* Force Master */ | ||
1053 | cntrl |= PL_M_MASTR ; | ||
1054 | break ; | ||
1055 | case PC_HLS: /* Force Halt */ | ||
1056 | cntrl |= PL_M_HALT ; | ||
1057 | break ; | ||
1058 | default : | ||
1059 | case PC_ILS: /* Force Idle */ | ||
1060 | cntrl |= PL_M_IDLE ; | ||
1061 | break ; | ||
1062 | case PC_LS_PDR: /* Enable repeat filter */ | ||
1063 | cntrl |= PL_M_TPDR ; | ||
1064 | break ; | ||
1065 | } | ||
1066 | outpw(PLC(phy,PL_CNTRL_B),cntrl) ; | ||
1067 | } | ||
1068 | |||
1069 | static void reset_lem_struct(struct s_phy *phy) | ||
1070 | { | ||
1071 | struct lem_counter *lem = &phy->lem ; | ||
1072 | |||
1073 | phy->mib->fddiPORTLer_Estimate = 15 ; | ||
1074 | lem->lem_float_ber = 15 * 100 ; | ||
1075 | } | ||
1076 | |||
1077 | /* | ||
1078 | * link error monitor | ||
1079 | */ | ||
1080 | static void lem_evaluate(struct s_smc *smc, struct s_phy *phy) | ||
1081 | { | ||
1082 | int ber ; | ||
1083 | u_long errors ; | ||
1084 | struct lem_counter *lem = &phy->lem ; | ||
1085 | struct fddi_mib_p *mib ; | ||
1086 | int cond ; | ||
1087 | |||
1088 | mib = phy->mib ; | ||
1089 | |||
1090 | if (!lem->lem_on) | ||
1091 | return ; | ||
1092 | |||
1093 | errors = inpw(PLC(((int) phy->np),PL_LINK_ERR_CTR)) ; | ||
1094 | lem->lem_errors += errors ; | ||
1095 | mib->fddiPORTLem_Ct += errors ; | ||
1096 | |||
1097 | errors = lem->lem_errors ; | ||
1098 | /* | ||
1099 | * calculation is called on a intervall of 8 seconds | ||
1100 | * -> this means, that one error in 8 sec. is one of 8*125*10E6 | ||
1101 | * the same as BER = 10E-9 | ||
1102 | * Please note: | ||
1103 | * -> 9 errors in 8 seconds mean: | ||
1104 | * BER = 9 * 10E-9 and this is | ||
1105 | * < 10E-8, so the limit of 10E-8 is not reached! | ||
1106 | */ | ||
1107 | |||
1108 | if (!errors) ber = 15 ; | ||
1109 | else if (errors <= 9) ber = 9 ; | ||
1110 | else if (errors <= 99) ber = 8 ; | ||
1111 | else if (errors <= 999) ber = 7 ; | ||
1112 | else if (errors <= 9999) ber = 6 ; | ||
1113 | else if (errors <= 99999) ber = 5 ; | ||
1114 | else if (errors <= 999999) ber = 4 ; | ||
1115 | else if (errors <= 9999999) ber = 3 ; | ||
1116 | else if (errors <= 99999999) ber = 2 ; | ||
1117 | else if (errors <= 999999999) ber = 1 ; | ||
1118 | else ber = 0 ; | ||
1119 | |||
1120 | /* | ||
1121 | * weighted average | ||
1122 | */ | ||
1123 | ber *= 100 ; | ||
1124 | lem->lem_float_ber = lem->lem_float_ber * 7 + ber * 3 ; | ||
1125 | lem->lem_float_ber /= 10 ; | ||
1126 | mib->fddiPORTLer_Estimate = lem->lem_float_ber / 100 ; | ||
1127 | if (mib->fddiPORTLer_Estimate < 4) { | ||
1128 | mib->fddiPORTLer_Estimate = 4 ; | ||
1129 | } | ||
1130 | |||
1131 | if (lem->lem_errors) { | ||
1132 | DB_PCMN(1,"LEM %c :\n",phy->np == PB? 'B' : 'A',0) ; | ||
1133 | DB_PCMN(1,"errors : %ld\n",lem->lem_errors,0) ; | ||
1134 | DB_PCMN(1,"sum_errors : %ld\n",mib->fddiPORTLem_Ct,0) ; | ||
1135 | DB_PCMN(1,"current BER : 10E-%d\n",ber/100,0) ; | ||
1136 | DB_PCMN(1,"float BER : 10E-(%d/100)\n",lem->lem_float_ber,0) ; | ||
1137 | DB_PCMN(1,"avg. BER : 10E-%d\n", | ||
1138 | mib->fddiPORTLer_Estimate,0) ; | ||
1139 | } | ||
1140 | |||
1141 | lem->lem_errors = 0L ; | ||
1142 | |||
1143 | #ifndef SLIM_SMT | ||
1144 | cond = (mib->fddiPORTLer_Estimate <= mib->fddiPORTLer_Alarm) ? | ||
1145 | TRUE : FALSE ; | ||
1146 | #ifdef SMT_EXT_CUTOFF | ||
1147 | smt_ler_alarm_check(smc,phy,cond) ; | ||
1148 | #endif /* nSMT_EXT_CUTOFF */ | ||
1149 | if (cond != mib->fddiPORTLerFlag) { | ||
1150 | smt_srf_event(smc,SMT_COND_PORT_LER, | ||
1151 | (int) (INDEX_PORT+ phy->np) ,cond) ; | ||
1152 | } | ||
1153 | #endif | ||
1154 | |||
1155 | if ( mib->fddiPORTLer_Estimate <= mib->fddiPORTLer_Cutoff) { | ||
1156 | phy->pc_lem_fail = TRUE ; /* flag */ | ||
1157 | mib->fddiPORTLem_Reject_Ct++ ; | ||
1158 | /* | ||
1159 | * "forgive 10e-2" if we cutoff so we can come | ||
1160 | * up again .. | ||
1161 | */ | ||
1162 | lem->lem_float_ber += 2*100 ; | ||
1163 | |||
1164 | /*PC81b*/ | ||
1165 | #ifdef CONCENTRATOR | ||
1166 | DB_PCMN(1,"PCM: LER cutoff on port %d cutoff %d\n", | ||
1167 | phy->np, mib->fddiPORTLer_Cutoff) ; | ||
1168 | #endif | ||
1169 | #ifdef SMT_EXT_CUTOFF | ||
1170 | smt_port_off_event(smc,phy->np); | ||
1171 | #else /* nSMT_EXT_CUTOFF */ | ||
1172 | queue_event(smc,(int)(EVENT_PCM+phy->np),PC_START) ; | ||
1173 | #endif /* nSMT_EXT_CUTOFF */ | ||
1174 | } | ||
1175 | } | ||
1176 | |||
1177 | /* | ||
1178 | * called by SMT to calculate LEM bit error rate | ||
1179 | */ | ||
1180 | void sm_lem_evaluate(struct s_smc *smc) | ||
1181 | { | ||
1182 | int np ; | ||
1183 | |||
1184 | for (np = 0 ; np < NUMPHYS ; np++) | ||
1185 | lem_evaluate(smc,&smc->y[np]) ; | ||
1186 | } | ||
1187 | |||
1188 | static void lem_check_lct(struct s_smc *smc, struct s_phy *phy) | ||
1189 | { | ||
1190 | struct lem_counter *lem = &phy->lem ; | ||
1191 | struct fddi_mib_p *mib ; | ||
1192 | int errors ; | ||
1193 | |||
1194 | mib = phy->mib ; | ||
1195 | |||
1196 | phy->pc_lem_fail = FALSE ; /* flag */ | ||
1197 | errors = inpw(PLC(((int)phy->np),PL_LINK_ERR_CTR)) ; | ||
1198 | lem->lem_errors += errors ; | ||
1199 | mib->fddiPORTLem_Ct += errors ; | ||
1200 | if (lem->lem_errors) { | ||
1201 | switch(phy->lc_test) { | ||
1202 | case LC_SHORT: | ||
1203 | if (lem->lem_errors >= smc->s.lct_short) | ||
1204 | phy->pc_lem_fail = TRUE ; | ||
1205 | break ; | ||
1206 | case LC_MEDIUM: | ||
1207 | if (lem->lem_errors >= smc->s.lct_medium) | ||
1208 | phy->pc_lem_fail = TRUE ; | ||
1209 | break ; | ||
1210 | case LC_LONG: | ||
1211 | if (lem->lem_errors >= smc->s.lct_long) | ||
1212 | phy->pc_lem_fail = TRUE ; | ||
1213 | break ; | ||
1214 | case LC_EXTENDED: | ||
1215 | if (lem->lem_errors >= smc->s.lct_extended) | ||
1216 | phy->pc_lem_fail = TRUE ; | ||
1217 | break ; | ||
1218 | } | ||
1219 | DB_PCMN(1," >>errors : %d\n",lem->lem_errors,0) ; | ||
1220 | } | ||
1221 | if (phy->pc_lem_fail) { | ||
1222 | mib->fddiPORTLCTFail_Ct++ ; | ||
1223 | mib->fddiPORTLem_Reject_Ct++ ; | ||
1224 | } | ||
1225 | else | ||
1226 | mib->fddiPORTLCTFail_Ct = 0 ; | ||
1227 | } | ||
1228 | |||
1229 | /* | ||
1230 | * LEM functions | ||
1231 | */ | ||
1232 | static void sm_ph_lem_start(struct s_smc *smc, int np, int threshold) | ||
1233 | { | ||
1234 | struct lem_counter *lem = &smc->y[np].lem ; | ||
1235 | |||
1236 | lem->lem_on = 1 ; | ||
1237 | lem->lem_errors = 0L ; | ||
1238 | |||
1239 | /* Do NOT reset mib->fddiPORTLer_Estimate here. It is called too | ||
1240 | * often. | ||
1241 | */ | ||
1242 | |||
1243 | outpw(PLC(np,PL_LE_THRESHOLD),threshold) ; | ||
1244 | (void)inpw(PLC(np,PL_LINK_ERR_CTR)) ; /* clear error counter */ | ||
1245 | |||
1246 | /* enable LE INT */ | ||
1247 | SETMASK(PLC(np,PL_INTR_MASK),PL_LE_CTR,PL_LE_CTR) ; | ||
1248 | } | ||
1249 | |||
1250 | static void sm_ph_lem_stop(struct s_smc *smc, int np) | ||
1251 | { | ||
1252 | struct lem_counter *lem = &smc->y[np].lem ; | ||
1253 | |||
1254 | lem->lem_on = 0 ; | ||
1255 | CLEAR(PLC(np,PL_INTR_MASK),PL_LE_CTR) ; | ||
1256 | } | ||
1257 | |||
1258 | /* ARGSUSED */ | ||
1259 | void sm_pm_ls_latch(struct s_smc *smc, int phy, int on_off) | ||
1260 | /* int on_off; en- or disable ident. ls */ | ||
1261 | { | ||
1262 | SK_UNUSED(smc) ; | ||
1263 | |||
1264 | phy = phy ; on_off = on_off ; | ||
1265 | } | ||
1266 | |||
1267 | |||
1268 | /* | ||
1269 | * PCM pseudo code | ||
1270 | * receive actions are called AFTER the bit n is received, | ||
1271 | * i.e. if pc_rcode_actions(5) is called, bit 6 is the next bit to be received | ||
1272 | */ | ||
1273 | |||
1274 | /* | ||
1275 | * PCM pseudo code 5.1 .. 6.1 | ||
1276 | */ | ||
1277 | static void pc_rcode_actions(struct s_smc *smc, int bit, struct s_phy *phy) | ||
1278 | { | ||
1279 | struct fddi_mib_p *mib ; | ||
1280 | |||
1281 | mib = phy->mib ; | ||
1282 | |||
1283 | DB_PCMN(1,"SIG rec %x %x: \n", bit,phy->r_val[bit] ) ; | ||
1284 | bit++ ; | ||
1285 | |||
1286 | switch(bit) { | ||
1287 | case 0: | ||
1288 | case 1: | ||
1289 | case 2: | ||
1290 | break ; | ||
1291 | case 3 : | ||
1292 | if (phy->r_val[1] == 0 && phy->r_val[2] == 0) | ||
1293 | mib->fddiPORTNeighborType = TA ; | ||
1294 | else if (phy->r_val[1] == 0 && phy->r_val[2] == 1) | ||
1295 | mib->fddiPORTNeighborType = TB ; | ||
1296 | else if (phy->r_val[1] == 1 && phy->r_val[2] == 0) | ||
1297 | mib->fddiPORTNeighborType = TS ; | ||
1298 | else if (phy->r_val[1] == 1 && phy->r_val[2] == 1) | ||
1299 | mib->fddiPORTNeighborType = TM ; | ||
1300 | break ; | ||
1301 | case 4: | ||
1302 | if (mib->fddiPORTMy_Type == TM && | ||
1303 | mib->fddiPORTNeighborType == TM) { | ||
1304 | DB_PCMN(1,"PCM %c : E100 withhold M-M\n", | ||
1305 | phy->phy_name,0) ; | ||
1306 | mib->fddiPORTPC_Withhold = PC_WH_M_M ; | ||
1307 | RS_SET(smc,RS_EVENT) ; | ||
1308 | } | ||
1309 | else if (phy->t_val[3] || phy->r_val[3]) { | ||
1310 | mib->fddiPORTPC_Withhold = PC_WH_NONE ; | ||
1311 | if (mib->fddiPORTMy_Type == TM || | ||
1312 | mib->fddiPORTNeighborType == TM) | ||
1313 | phy->pc_mode = PM_TREE ; | ||
1314 | else | ||
1315 | phy->pc_mode = PM_PEER ; | ||
1316 | |||
1317 | /* reevaluate the selection criteria (wc_flag) */ | ||
1318 | all_selection_criteria (smc); | ||
1319 | |||
1320 | if (phy->wc_flag) { | ||
1321 | mib->fddiPORTPC_Withhold = PC_WH_PATH ; | ||
1322 | } | ||
1323 | } | ||
1324 | else { | ||
1325 | mib->fddiPORTPC_Withhold = PC_WH_OTHER ; | ||
1326 | RS_SET(smc,RS_EVENT) ; | ||
1327 | DB_PCMN(1,"PCM %c : E101 withhold other\n", | ||
1328 | phy->phy_name,0) ; | ||
1329 | } | ||
1330 | phy->twisted = ((mib->fddiPORTMy_Type != TS) && | ||
1331 | (mib->fddiPORTMy_Type != TM) && | ||
1332 | (mib->fddiPORTNeighborType == | ||
1333 | mib->fddiPORTMy_Type)) ; | ||
1334 | if (phy->twisted) { | ||
1335 | DB_PCMN(1,"PCM %c : E102 !!! TWISTED !!!\n", | ||
1336 | phy->phy_name,0) ; | ||
1337 | } | ||
1338 | break ; | ||
1339 | case 5 : | ||
1340 | break ; | ||
1341 | case 6: | ||
1342 | if (phy->t_val[4] || phy->r_val[4]) { | ||
1343 | if ((phy->t_val[4] && phy->t_val[5]) || | ||
1344 | (phy->r_val[4] && phy->r_val[5]) ) | ||
1345 | phy->lc_test = LC_EXTENDED ; | ||
1346 | else | ||
1347 | phy->lc_test = LC_LONG ; | ||
1348 | } | ||
1349 | else if (phy->t_val[5] || phy->r_val[5]) | ||
1350 | phy->lc_test = LC_MEDIUM ; | ||
1351 | else | ||
1352 | phy->lc_test = LC_SHORT ; | ||
1353 | switch (phy->lc_test) { | ||
1354 | case LC_SHORT : /* 50ms */ | ||
1355 | outpw(PLC((int)phy->np,PL_LC_LENGTH), TP_LC_LENGTH ) ; | ||
1356 | phy->t_next[7] = smc->s.pcm_lc_short ; | ||
1357 | break ; | ||
1358 | case LC_MEDIUM : /* 500ms */ | ||
1359 | outpw(PLC((int)phy->np,PL_LC_LENGTH), TP_LC_LONGLN ) ; | ||
1360 | phy->t_next[7] = smc->s.pcm_lc_medium ; | ||
1361 | break ; | ||
1362 | case LC_LONG : | ||
1363 | SETMASK(PLC((int)phy->np,PL_CNTRL_B),PL_LONG,PL_LONG) ; | ||
1364 | phy->t_next[7] = smc->s.pcm_lc_long ; | ||
1365 | break ; | ||
1366 | case LC_EXTENDED : | ||
1367 | SETMASK(PLC((int)phy->np,PL_CNTRL_B),PL_LONG,PL_LONG) ; | ||
1368 | phy->t_next[7] = smc->s.pcm_lc_extended ; | ||
1369 | break ; | ||
1370 | } | ||
1371 | if (phy->t_next[7] > smc->s.pcm_lc_medium) { | ||
1372 | start_pcm_timer0(smc,phy->t_next[7],PC_TIMEOUT_LCT,phy); | ||
1373 | } | ||
1374 | DB_PCMN(1,"LCT timer = %ld us\n", phy->t_next[7], 0) ; | ||
1375 | phy->t_next[9] = smc->s.pcm_t_next_9 ; | ||
1376 | break ; | ||
1377 | case 7: | ||
1378 | if (phy->t_val[6]) { | ||
1379 | phy->cf_loop = TRUE ; | ||
1380 | } | ||
1381 | phy->td_flag = TRUE ; | ||
1382 | break ; | ||
1383 | case 8: | ||
1384 | if (phy->t_val[7] || phy->r_val[7]) { | ||
1385 | DB_PCMN(1,"PCM %c : E103 LCT fail %s\n", | ||
1386 | phy->phy_name,phy->t_val[7]? "local":"remote") ; | ||
1387 | queue_event(smc,(int)(EVENT_PCM+phy->np),PC_START) ; | ||
1388 | } | ||
1389 | break ; | ||
1390 | case 9: | ||
1391 | if (phy->t_val[8] || phy->r_val[8]) { | ||
1392 | if (phy->t_val[8]) | ||
1393 | phy->cf_loop = TRUE ; | ||
1394 | phy->td_flag = TRUE ; | ||
1395 | } | ||
1396 | break ; | ||
1397 | case 10: | ||
1398 | if (phy->r_val[9]) { | ||
1399 | /* neighbor intends to have MAC on output */ ; | ||
1400 | mib->fddiPORTMacIndicated.R_val = TRUE ; | ||
1401 | } | ||
1402 | else { | ||
1403 | /* neighbor does not intend to have MAC on output */ ; | ||
1404 | mib->fddiPORTMacIndicated.R_val = FALSE ; | ||
1405 | } | ||
1406 | break ; | ||
1407 | } | ||
1408 | } | ||
1409 | |||
1410 | /* | ||
1411 | * PCM pseudo code 5.1 .. 6.1 | ||
1412 | */ | ||
1413 | static void pc_tcode_actions(struct s_smc *smc, const int bit, struct s_phy *phy) | ||
1414 | { | ||
1415 | int np = phy->np ; | ||
1416 | struct fddi_mib_p *mib ; | ||
1417 | |||
1418 | mib = phy->mib ; | ||
1419 | |||
1420 | switch(bit) { | ||
1421 | case 0: | ||
1422 | phy->t_val[0] = 0 ; /* no escape used */ | ||
1423 | break ; | ||
1424 | case 1: | ||
1425 | if (mib->fddiPORTMy_Type == TS || mib->fddiPORTMy_Type == TM) | ||
1426 | phy->t_val[1] = 1 ; | ||
1427 | else | ||
1428 | phy->t_val[1] = 0 ; | ||
1429 | break ; | ||
1430 | case 2 : | ||
1431 | if (mib->fddiPORTMy_Type == TB || mib->fddiPORTMy_Type == TM) | ||
1432 | phy->t_val[2] = 1 ; | ||
1433 | else | ||
1434 | phy->t_val[2] = 0 ; | ||
1435 | break ; | ||
1436 | case 3: | ||
1437 | { | ||
1438 | int type,ne ; | ||
1439 | int policy ; | ||
1440 | |||
1441 | type = mib->fddiPORTMy_Type ; | ||
1442 | ne = mib->fddiPORTNeighborType ; | ||
1443 | policy = smc->mib.fddiSMTConnectionPolicy ; | ||
1444 | |||
1445 | phy->t_val[3] = 1 ; /* Accept connection */ | ||
1446 | switch (type) { | ||
1447 | case TA : | ||
1448 | if ( | ||
1449 | ((policy & POLICY_AA) && ne == TA) || | ||
1450 | ((policy & POLICY_AB) && ne == TB) || | ||
1451 | ((policy & POLICY_AS) && ne == TS) || | ||
1452 | ((policy & POLICY_AM) && ne == TM) ) | ||
1453 | phy->t_val[3] = 0 ; /* Reject */ | ||
1454 | break ; | ||
1455 | case TB : | ||
1456 | if ( | ||
1457 | ((policy & POLICY_BA) && ne == TA) || | ||
1458 | ((policy & POLICY_BB) && ne == TB) || | ||
1459 | ((policy & POLICY_BS) && ne == TS) || | ||
1460 | ((policy & POLICY_BM) && ne == TM) ) | ||
1461 | phy->t_val[3] = 0 ; /* Reject */ | ||
1462 | break ; | ||
1463 | case TS : | ||
1464 | if ( | ||
1465 | ((policy & POLICY_SA) && ne == TA) || | ||
1466 | ((policy & POLICY_SB) && ne == TB) || | ||
1467 | ((policy & POLICY_SS) && ne == TS) || | ||
1468 | ((policy & POLICY_SM) && ne == TM) ) | ||
1469 | phy->t_val[3] = 0 ; /* Reject */ | ||
1470 | break ; | ||
1471 | case TM : | ||
1472 | if ( ne == TM || | ||
1473 | ((policy & POLICY_MA) && ne == TA) || | ||
1474 | ((policy & POLICY_MB) && ne == TB) || | ||
1475 | ((policy & POLICY_MS) && ne == TS) || | ||
1476 | ((policy & POLICY_MM) && ne == TM) ) | ||
1477 | phy->t_val[3] = 0 ; /* Reject */ | ||
1478 | break ; | ||
1479 | } | ||
1480 | #ifndef SLIM_SMT | ||
1481 | /* | ||
1482 | * detect undesirable connection attempt event | ||
1483 | */ | ||
1484 | if ( (type == TA && ne == TA ) || | ||
1485 | (type == TA && ne == TS ) || | ||
1486 | (type == TB && ne == TB ) || | ||
1487 | (type == TB && ne == TS ) || | ||
1488 | (type == TS && ne == TA ) || | ||
1489 | (type == TS && ne == TB ) ) { | ||
1490 | smt_srf_event(smc,SMT_EVENT_PORT_CONNECTION, | ||
1491 | (int) (INDEX_PORT+ phy->np) ,0) ; | ||
1492 | } | ||
1493 | #endif | ||
1494 | } | ||
1495 | break ; | ||
1496 | case 4: | ||
1497 | if (mib->fddiPORTPC_Withhold == PC_WH_NONE) { | ||
1498 | if (phy->pc_lem_fail) { | ||
1499 | phy->t_val[4] = 1 ; /* long */ | ||
1500 | phy->t_val[5] = 0 ; | ||
1501 | } | ||
1502 | else { | ||
1503 | phy->t_val[4] = 0 ; | ||
1504 | if (mib->fddiPORTLCTFail_Ct > 0) | ||
1505 | phy->t_val[5] = 1 ; /* medium */ | ||
1506 | else | ||
1507 | phy->t_val[5] = 0 ; /* short */ | ||
1508 | |||
1509 | /* | ||
1510 | * Implementers choice: use medium | ||
1511 | * instead of short when undesired | ||
1512 | * connection attempt is made. | ||
1513 | */ | ||
1514 | if (phy->wc_flag) | ||
1515 | phy->t_val[5] = 1 ; /* medium */ | ||
1516 | } | ||
1517 | mib->fddiPORTConnectState = PCM_CONNECTING ; | ||
1518 | } | ||
1519 | else { | ||
1520 | mib->fddiPORTConnectState = PCM_STANDBY ; | ||
1521 | phy->t_val[4] = 1 ; /* extended */ | ||
1522 | phy->t_val[5] = 1 ; | ||
1523 | } | ||
1524 | break ; | ||
1525 | case 5: | ||
1526 | break ; | ||
1527 | case 6: | ||
1528 | /* we do NOT have a MAC for LCT */ | ||
1529 | phy->t_val[6] = 0 ; | ||
1530 | break ; | ||
1531 | case 7: | ||
1532 | phy->cf_loop = FALSE ; | ||
1533 | lem_check_lct(smc,phy) ; | ||
1534 | if (phy->pc_lem_fail) { | ||
1535 | DB_PCMN(1,"PCM %c : E104 LCT failed\n", | ||
1536 | phy->phy_name,0) ; | ||
1537 | phy->t_val[7] = 1 ; | ||
1538 | } | ||
1539 | else | ||
1540 | phy->t_val[7] = 0 ; | ||
1541 | break ; | ||
1542 | case 8: | ||
1543 | phy->t_val[8] = 0 ; /* Don't request MAC loopback */ | ||
1544 | break ; | ||
1545 | case 9: | ||
1546 | phy->cf_loop = 0 ; | ||
1547 | if ((mib->fddiPORTPC_Withhold != PC_WH_NONE) || | ||
1548 | ((smc->s.sas == SMT_DAS) && (phy->wc_flag))) { | ||
1549 | queue_event(smc,EVENT_PCM+np,PC_START) ; | ||
1550 | break ; | ||
1551 | } | ||
1552 | phy->t_val[9] = FALSE ; | ||
1553 | switch (smc->s.sas) { | ||
1554 | case SMT_DAS : | ||
1555 | /* | ||
1556 | * MAC intended on output | ||
1557 | */ | ||
1558 | if (phy->pc_mode == PM_TREE) { | ||
1559 | if ((np == PB) || ((np == PA) && | ||
1560 | (smc->y[PB].mib->fddiPORTConnectState != | ||
1561 | PCM_ACTIVE))) | ||
1562 | phy->t_val[9] = TRUE ; | ||
1563 | } | ||
1564 | else { | ||
1565 | if (np == PB) | ||
1566 | phy->t_val[9] = TRUE ; | ||
1567 | } | ||
1568 | break ; | ||
1569 | case SMT_SAS : | ||
1570 | if (np == PS) | ||
1571 | phy->t_val[9] = TRUE ; | ||
1572 | break ; | ||
1573 | #ifdef CONCENTRATOR | ||
1574 | case SMT_NAC : | ||
1575 | /* | ||
1576 | * MAC intended on output | ||
1577 | */ | ||
1578 | if (np == PB) | ||
1579 | phy->t_val[9] = TRUE ; | ||
1580 | break ; | ||
1581 | #endif | ||
1582 | } | ||
1583 | mib->fddiPORTMacIndicated.T_val = phy->t_val[9] ; | ||
1584 | break ; | ||
1585 | } | ||
1586 | DB_PCMN(1,"SIG snd %x %x: \n", bit,phy->t_val[bit] ) ; | ||
1587 | } | ||
1588 | |||
1589 | /* | ||
1590 | * return status twisted (called by SMT) | ||
1591 | */ | ||
1592 | int pcm_status_twisted(struct s_smc *smc) | ||
1593 | { | ||
1594 | int twist = 0 ; | ||
1595 | if (smc->s.sas != SMT_DAS) | ||
1596 | return(0) ; | ||
1597 | if (smc->y[PA].twisted && (smc->y[PA].mib->fddiPORTPCMState == PC8_ACTIVE)) | ||
1598 | twist |= 1 ; | ||
1599 | if (smc->y[PB].twisted && (smc->y[PB].mib->fddiPORTPCMState == PC8_ACTIVE)) | ||
1600 | twist |= 2 ; | ||
1601 | return(twist) ; | ||
1602 | } | ||
1603 | |||
1604 | /* | ||
1605 | * return status (called by SMT) | ||
1606 | * type | ||
1607 | * state | ||
1608 | * remote phy type | ||
1609 | * remote mac yes/no | ||
1610 | */ | ||
1611 | void pcm_status_state(struct s_smc *smc, int np, int *type, int *state, | ||
1612 | int *remote, int *mac) | ||
1613 | { | ||
1614 | struct s_phy *phy = &smc->y[np] ; | ||
1615 | struct fddi_mib_p *mib ; | ||
1616 | |||
1617 | mib = phy->mib ; | ||
1618 | |||
1619 | /* remote PHY type and MAC - set only if active */ | ||
1620 | *mac = 0 ; | ||
1621 | *type = mib->fddiPORTMy_Type ; /* our PHY type */ | ||
1622 | *state = mib->fddiPORTConnectState ; | ||
1623 | *remote = mib->fddiPORTNeighborType ; | ||
1624 | |||
1625 | switch(mib->fddiPORTPCMState) { | ||
1626 | case PC8_ACTIVE : | ||
1627 | *mac = mib->fddiPORTMacIndicated.R_val ; | ||
1628 | break ; | ||
1629 | } | ||
1630 | } | ||
1631 | |||
1632 | /* | ||
1633 | * return rooted station status (called by SMT) | ||
1634 | */ | ||
1635 | int pcm_rooted_station(struct s_smc *smc) | ||
1636 | { | ||
1637 | int n ; | ||
1638 | |||
1639 | for (n = 0 ; n < NUMPHYS ; n++) { | ||
1640 | if (smc->y[n].mib->fddiPORTPCMState == PC8_ACTIVE && | ||
1641 | smc->y[n].mib->fddiPORTNeighborType == TM) | ||
1642 | return(0) ; | ||
1643 | } | ||
1644 | return(1) ; | ||
1645 | } | ||
1646 | |||
1647 | /* | ||
1648 | * Interrupt actions for PLC & PCM events | ||
1649 | */ | ||
1650 | void plc_irq(struct s_smc *smc, int np, unsigned int cmd) | ||
1651 | /* int np; PHY index */ | ||
1652 | { | ||
1653 | struct s_phy *phy = &smc->y[np] ; | ||
1654 | struct s_plc *plc = &phy->plc ; | ||
1655 | int n ; | ||
1656 | #ifdef SUPERNET_3 | ||
1657 | int corr_mask ; | ||
1658 | #endif /* SUPERNET_3 */ | ||
1659 | int i ; | ||
1660 | |||
1661 | if (np >= smc->s.numphys) { | ||
1662 | plc->soft_err++ ; | ||
1663 | return ; | ||
1664 | } | ||
1665 | if (cmd & PL_EBUF_ERR) { /* elastic buff. det. over-|underflow*/ | ||
1666 | /* | ||
1667 | * Check whether the SRF Condition occurred. | ||
1668 | */ | ||
1669 | if (!plc->ebuf_cont && phy->mib->fddiPORTPCMState == PC8_ACTIVE){ | ||
1670 | /* | ||
1671 | * This is the real Elasticity Error. | ||
1672 | * More than one in a row are treated as a | ||
1673 | * single one. | ||
1674 | * Only count this in the active state. | ||
1675 | */ | ||
1676 | phy->mib->fddiPORTEBError_Ct ++ ; | ||
1677 | |||
1678 | } | ||
1679 | |||
1680 | plc->ebuf_err++ ; | ||
1681 | if (plc->ebuf_cont <= 1000) { | ||
1682 | /* | ||
1683 | * Prevent counter from being wrapped after | ||
1684 | * hanging years in that interrupt. | ||
1685 | */ | ||
1686 | plc->ebuf_cont++ ; /* Ebuf continous error */ | ||
1687 | } | ||
1688 | |||
1689 | #ifdef SUPERNET_3 | ||
1690 | if (plc->ebuf_cont == 1000 && | ||
1691 | ((inpw(PLC(np,PL_STATUS_A)) & PLC_REV_MASK) == | ||
1692 | PLC_REV_SN3)) { | ||
1693 | /* | ||
1694 | * This interrupt remeained high for at least | ||
1695 | * 1000 consecutive interrupt calls. | ||
1696 | * | ||
1697 | * This is caused by a hardware error of the | ||
1698 | * ORION part of the Supernet III chipset. | ||
1699 | * | ||
1700 | * Disable this bit from the mask. | ||
1701 | */ | ||
1702 | corr_mask = (plc_imsk_na & ~PL_EBUF_ERR) ; | ||
1703 | outpw(PLC(np,PL_INTR_MASK),corr_mask); | ||
1704 | |||
1705 | /* | ||
1706 | * Disconnect from the ring. | ||
1707 | * Call the driver with the reset indication. | ||
1708 | */ | ||
1709 | queue_event(smc,EVENT_ECM,EC_DISCONNECT) ; | ||
1710 | |||
1711 | /* | ||
1712 | * Make an error log entry. | ||
1713 | */ | ||
1714 | SMT_ERR_LOG(smc,SMT_E0136, SMT_E0136_MSG) ; | ||
1715 | |||
1716 | /* | ||
1717 | * Indicate the Reset. | ||
1718 | */ | ||
1719 | drv_reset_indication(smc) ; | ||
1720 | } | ||
1721 | #endif /* SUPERNET_3 */ | ||
1722 | } else { | ||
1723 | /* Reset the continous error variable */ | ||
1724 | plc->ebuf_cont = 0 ; /* reset Ebuf continous error */ | ||
1725 | } | ||
1726 | if (cmd & PL_PHYINV) { /* physical layer invalid signal */ | ||
1727 | plc->phyinv++ ; | ||
1728 | } | ||
1729 | if (cmd & PL_VSYM_CTR) { /* violation symbol counter has incr.*/ | ||
1730 | plc->vsym_ctr++ ; | ||
1731 | } | ||
1732 | if (cmd & PL_MINI_CTR) { /* dep. on PLC_CNTRL_A's MINI_CTR_INT*/ | ||
1733 | plc->mini_ctr++ ; | ||
1734 | } | ||
1735 | if (cmd & PL_LE_CTR) { /* link error event counter */ | ||
1736 | int j ; | ||
1737 | |||
1738 | /* | ||
1739 | * note: PL_LINK_ERR_CTR MUST be read to clear it | ||
1740 | */ | ||
1741 | j = inpw(PLC(np,PL_LE_THRESHOLD)) ; | ||
1742 | i = inpw(PLC(np,PL_LINK_ERR_CTR)) ; | ||
1743 | |||
1744 | if (i < j) { | ||
1745 | /* wrapped around */ | ||
1746 | i += 256 ; | ||
1747 | } | ||
1748 | |||
1749 | if (phy->lem.lem_on) { | ||
1750 | /* Note: Lem errors shall only be counted when | ||
1751 | * link is ACTIVE or LCT is active. | ||
1752 | */ | ||
1753 | phy->lem.lem_errors += i ; | ||
1754 | phy->mib->fddiPORTLem_Ct += i ; | ||
1755 | } | ||
1756 | } | ||
1757 | if (cmd & PL_TPC_EXPIRED) { /* TPC timer reached zero */ | ||
1758 | if (plc->p_state == PS_LCT) { | ||
1759 | /* | ||
1760 | * end of LCT | ||
1761 | */ | ||
1762 | ; | ||
1763 | } | ||
1764 | plc->tpc_exp++ ; | ||
1765 | } | ||
1766 | if (cmd & PL_LS_MATCH) { /* LS == LS in PLC_CNTRL_B's MATCH_LS*/ | ||
1767 | switch (inpw(PLC(np,PL_CNTRL_B)) & PL_MATCH_LS) { | ||
1768 | case PL_I_IDLE : phy->curr_ls = PC_ILS ; break ; | ||
1769 | case PL_I_HALT : phy->curr_ls = PC_HLS ; break ; | ||
1770 | case PL_I_MASTR : phy->curr_ls = PC_MLS ; break ; | ||
1771 | case PL_I_QUIET : phy->curr_ls = PC_QLS ; break ; | ||
1772 | } | ||
1773 | } | ||
1774 | if (cmd & PL_PCM_BREAK) { /* PCM has entered the BREAK state */ | ||
1775 | int reason; | ||
1776 | |||
1777 | reason = inpw(PLC(np,PL_STATUS_B)) & PL_BREAK_REASON ; | ||
1778 | |||
1779 | switch (reason) { | ||
1780 | case PL_B_PCS : plc->b_pcs++ ; break ; | ||
1781 | case PL_B_TPC : plc->b_tpc++ ; break ; | ||
1782 | case PL_B_TNE : plc->b_tne++ ; break ; | ||
1783 | case PL_B_QLS : plc->b_qls++ ; break ; | ||
1784 | case PL_B_ILS : plc->b_ils++ ; break ; | ||
1785 | case PL_B_HLS : plc->b_hls++ ; break ; | ||
1786 | } | ||
1787 | |||
1788 | /*jd 05-Aug-1999 changed: Bug #10419 */ | ||
1789 | DB_PCMN(1,"PLC %d: MDcF = %x\n", np, smc->e.DisconnectFlag); | ||
1790 | if (smc->e.DisconnectFlag == FALSE) { | ||
1791 | DB_PCMN(1,"PLC %d: restart (reason %x)\n", np, reason); | ||
1792 | queue_event(smc,EVENT_PCM+np,PC_START) ; | ||
1793 | } | ||
1794 | else { | ||
1795 | DB_PCMN(1,"PLC %d: NO!! restart (reason %x)\n", np, reason); | ||
1796 | } | ||
1797 | return ; | ||
1798 | } | ||
1799 | /* | ||
1800 | * If both CODE & ENABLE are set ignore enable | ||
1801 | */ | ||
1802 | if (cmd & PL_PCM_CODE) { /* receive last sign.-bit | LCT complete */ | ||
1803 | queue_event(smc,EVENT_PCM+np,PC_SIGNAL) ; | ||
1804 | n = inpw(PLC(np,PL_RCV_VECTOR)) ; | ||
1805 | for (i = 0 ; i < plc->p_bits ; i++) { | ||
1806 | phy->r_val[plc->p_start+i] = n & 1 ; | ||
1807 | n >>= 1 ; | ||
1808 | } | ||
1809 | } | ||
1810 | else if (cmd & PL_PCM_ENABLED) { /* asserted SC_JOIN, scrub.completed*/ | ||
1811 | queue_event(smc,EVENT_PCM+np,PC_JOIN) ; | ||
1812 | } | ||
1813 | if (cmd & PL_TRACE_PROP) { /* MLS while PC8_ACTIV || PC2_TRACE */ | ||
1814 | /*PC22b*/ | ||
1815 | if (!phy->tr_flag) { | ||
1816 | DB_PCMN(1,"PCM : irq TRACE_PROP %d %d\n", | ||
1817 | np,smc->mib.fddiSMTECMState) ; | ||
1818 | phy->tr_flag = TRUE ; | ||
1819 | smc->e.trace_prop |= ENTITY_BIT(ENTITY_PHY(np)) ; | ||
1820 | queue_event(smc,EVENT_ECM,EC_TRACE_PROP) ; | ||
1821 | } | ||
1822 | } | ||
1823 | /* | ||
1824 | * filter PLC glitch ??? | ||
1825 | * QLS || HLS only while in PC2_TRACE state | ||
1826 | */ | ||
1827 | if ((cmd & PL_SELF_TEST) && (phy->mib->fddiPORTPCMState == PC2_TRACE)) { | ||
1828 | /*PC22a*/ | ||
1829 | if (smc->e.path_test == PT_PASSED) { | ||
1830 | DB_PCMN(1,"PCM : state = %s %d\n", get_pcmstate(smc,np), | ||
1831 | phy->mib->fddiPORTPCMState) ; | ||
1832 | |||
1833 | smc->e.path_test = PT_PENDING ; | ||
1834 | queue_event(smc,EVENT_ECM,EC_PATH_TEST) ; | ||
1835 | } | ||
1836 | } | ||
1837 | if (cmd & PL_TNE_EXPIRED) { /* TNE: length of noise events */ | ||
1838 | /* break_required (TNE > NS_Max) */ | ||
1839 | if (phy->mib->fddiPORTPCMState == PC8_ACTIVE) { | ||
1840 | if (!phy->tr_flag) { | ||
1841 | DB_PCMN(1,"PCM %c : PC81 %s\n",phy->phy_name,"NSE"); | ||
1842 | queue_event(smc,EVENT_PCM+np,PC_START) ; | ||
1843 | return ; | ||
1844 | } | ||
1845 | } | ||
1846 | } | ||
1847 | #if 0 | ||
1848 | if (cmd & PL_NP_ERR) { /* NP has requested to r/w an inv reg*/ | ||
1849 | /* | ||
1850 | * It's a bug by AMD | ||
1851 | */ | ||
1852 | plc->np_err++ ; | ||
1853 | } | ||
1854 | /* pin inactiv (GND) */ | ||
1855 | if (cmd & PL_PARITY_ERR) { /* p. error dedected on TX9-0 inp */ | ||
1856 | plc->parity_err++ ; | ||
1857 | } | ||
1858 | if (cmd & PL_LSDO) { /* carrier detected */ | ||
1859 | ; | ||
1860 | } | ||
1861 | #endif | ||
1862 | } | ||
1863 | |||
1864 | void pcm_set_lct_short(struct s_smc *smc, int n) | ||
1865 | { | ||
1866 | if (n <= 0 || n > 1000) | ||
1867 | return ; | ||
1868 | smc->s.lct_short = n ; | ||
1869 | } | ||
1870 | |||
1871 | #ifdef DEBUG | ||
1872 | /* | ||
1873 | * fill state struct | ||
1874 | */ | ||
1875 | void pcm_get_state(struct s_smc *smc, struct smt_state *state) | ||
1876 | { | ||
1877 | struct s_phy *phy ; | ||
1878 | struct pcm_state *pcs ; | ||
1879 | int i ; | ||
1880 | int ii ; | ||
1881 | short rbits ; | ||
1882 | short tbits ; | ||
1883 | struct fddi_mib_p *mib ; | ||
1884 | |||
1885 | for (i = 0, phy = smc->y, pcs = state->pcm_state ; i < NUMPHYS ; | ||
1886 | i++ , phy++, pcs++ ) { | ||
1887 | mib = phy->mib ; | ||
1888 | pcs->pcm_type = (u_char) mib->fddiPORTMy_Type ; | ||
1889 | pcs->pcm_state = (u_char) mib->fddiPORTPCMState ; | ||
1890 | pcs->pcm_mode = phy->pc_mode ; | ||
1891 | pcs->pcm_neighbor = (u_char) mib->fddiPORTNeighborType ; | ||
1892 | pcs->pcm_bsf = mib->fddiPORTBS_Flag ; | ||
1893 | pcs->pcm_lsf = phy->ls_flag ; | ||
1894 | pcs->pcm_lct_fail = (u_char) mib->fddiPORTLCTFail_Ct ; | ||
1895 | pcs->pcm_ls_rx = LS2MIB(sm_pm_get_ls(smc,i)) ; | ||
1896 | for (ii = 0, rbits = tbits = 0 ; ii < NUMBITS ; ii++) { | ||
1897 | rbits <<= 1 ; | ||
1898 | tbits <<= 1 ; | ||
1899 | if (phy->r_val[NUMBITS-1-ii]) | ||
1900 | rbits |= 1 ; | ||
1901 | if (phy->t_val[NUMBITS-1-ii]) | ||
1902 | tbits |= 1 ; | ||
1903 | } | ||
1904 | pcs->pcm_r_val = rbits ; | ||
1905 | pcs->pcm_t_val = tbits ; | ||
1906 | } | ||
1907 | } | ||
1908 | |||
1909 | int get_pcm_state(struct s_smc *smc, int np) | ||
1910 | { | ||
1911 | int pcs ; | ||
1912 | |||
1913 | SK_UNUSED(smc) ; | ||
1914 | |||
1915 | switch (inpw(PLC(np,PL_STATUS_B)) & PL_PCM_STATE) { | ||
1916 | case PL_PC0 : pcs = PC_STOP ; break ; | ||
1917 | case PL_PC1 : pcs = PC_START ; break ; | ||
1918 | case PL_PC2 : pcs = PC_TRACE ; break ; | ||
1919 | case PL_PC3 : pcs = PC_SIGNAL ; break ; | ||
1920 | case PL_PC4 : pcs = PC_SIGNAL ; break ; | ||
1921 | case PL_PC5 : pcs = PC_SIGNAL ; break ; | ||
1922 | case PL_PC6 : pcs = PC_JOIN ; break ; | ||
1923 | case PL_PC7 : pcs = PC_JOIN ; break ; | ||
1924 | case PL_PC8 : pcs = PC_ENABLE ; break ; | ||
1925 | case PL_PC9 : pcs = PC_MAINT ; break ; | ||
1926 | default : pcs = PC_DISABLE ; break ; | ||
1927 | } | ||
1928 | return(pcs) ; | ||
1929 | } | ||
1930 | |||
1931 | char *get_linestate(struct s_smc *smc, int np) | ||
1932 | { | ||
1933 | char *ls = "" ; | ||
1934 | |||
1935 | SK_UNUSED(smc) ; | ||
1936 | |||
1937 | switch (inpw(PLC(np,PL_STATUS_A)) & PL_LINE_ST) { | ||
1938 | case PL_L_NLS : ls = "NOISE" ; break ; | ||
1939 | case PL_L_ALS : ls = "ACTIV" ; break ; | ||
1940 | case PL_L_UND : ls = "UNDEF" ; break ; | ||
1941 | case PL_L_ILS4: ls = "ILS 4" ; break ; | ||
1942 | case PL_L_QLS : ls = "QLS" ; break ; | ||
1943 | case PL_L_MLS : ls = "MLS" ; break ; | ||
1944 | case PL_L_HLS : ls = "HLS" ; break ; | ||
1945 | case PL_L_ILS16:ls = "ILS16" ; break ; | ||
1946 | #ifdef lint | ||
1947 | default: ls = "unknown" ; break ; | ||
1948 | #endif | ||
1949 | } | ||
1950 | return(ls) ; | ||
1951 | } | ||
1952 | |||
1953 | char *get_pcmstate(struct s_smc *smc, int np) | ||
1954 | { | ||
1955 | char *pcs ; | ||
1956 | |||
1957 | SK_UNUSED(smc) ; | ||
1958 | |||
1959 | switch (inpw(PLC(np,PL_STATUS_B)) & PL_PCM_STATE) { | ||
1960 | case PL_PC0 : pcs = "OFF" ; break ; | ||
1961 | case PL_PC1 : pcs = "BREAK" ; break ; | ||
1962 | case PL_PC2 : pcs = "TRACE" ; break ; | ||
1963 | case PL_PC3 : pcs = "CONNECT"; break ; | ||
1964 | case PL_PC4 : pcs = "NEXT" ; break ; | ||
1965 | case PL_PC5 : pcs = "SIGNAL" ; break ; | ||
1966 | case PL_PC6 : pcs = "JOIN" ; break ; | ||
1967 | case PL_PC7 : pcs = "VERIFY" ; break ; | ||
1968 | case PL_PC8 : pcs = "ACTIV" ; break ; | ||
1969 | case PL_PC9 : pcs = "MAINT" ; break ; | ||
1970 | default : pcs = "UNKNOWN" ; break ; | ||
1971 | } | ||
1972 | return(pcs) ; | ||
1973 | } | ||
1974 | |||
1975 | void list_phy(struct s_smc *smc) | ||
1976 | { | ||
1977 | struct s_plc *plc ; | ||
1978 | int np ; | ||
1979 | |||
1980 | for (np = 0 ; np < NUMPHYS ; np++) { | ||
1981 | plc = &smc->y[np].plc ; | ||
1982 | printf("PHY %d:\tERRORS\t\t\tBREAK_REASONS\t\tSTATES:\n",np) ; | ||
1983 | printf("\tsoft_error: %ld \t\tPC_Start : %ld\n", | ||
1984 | plc->soft_err,plc->b_pcs); | ||
1985 | printf("\tparity_err: %ld \t\tTPC exp. : %ld\t\tLine: %s\n", | ||
1986 | plc->parity_err,plc->b_tpc,get_linestate(smc,np)) ; | ||
1987 | printf("\tebuf_error: %ld \t\tTNE exp. : %ld\n", | ||
1988 | plc->ebuf_err,plc->b_tne) ; | ||
1989 | printf("\tphyinvalid: %ld \t\tQLS det. : %ld\t\tPCM : %s\n", | ||
1990 | plc->phyinv,plc->b_qls,get_pcmstate(smc,np)) ; | ||
1991 | printf("\tviosym_ctr: %ld \t\tILS det. : %ld\n", | ||
1992 | plc->vsym_ctr,plc->b_ils) ; | ||
1993 | printf("\tmingap_ctr: %ld \t\tHLS det. : %ld\n", | ||
1994 | plc->mini_ctr,plc->b_hls) ; | ||
1995 | printf("\tnodepr_err: %ld\n",plc->np_err) ; | ||
1996 | printf("\tTPC_exp : %ld\n",plc->tpc_exp) ; | ||
1997 | printf("\tLEM_err : %ld\n",smc->y[np].lem.lem_errors) ; | ||
1998 | } | ||
1999 | } | ||
2000 | |||
2001 | |||
2002 | #ifdef CONCENTRATOR | ||
2003 | void pcm_lem_dump(struct s_smc *smc) | ||
2004 | { | ||
2005 | int i ; | ||
2006 | struct s_phy *phy ; | ||
2007 | struct fddi_mib_p *mib ; | ||
2008 | |||
2009 | char *entostring() ; | ||
2010 | |||
2011 | printf("PHY errors BER\n") ; | ||
2012 | printf("----------------------\n") ; | ||
2013 | for (i = 0,phy = smc->y ; i < NUMPHYS ; i++,phy++) { | ||
2014 | if (!plc_is_installed(smc,i)) | ||
2015 | continue ; | ||
2016 | mib = phy->mib ; | ||
2017 | printf("%s\t%ld\t10E-%d\n", | ||
2018 | entostring(smc,ENTITY_PHY(i)), | ||
2019 | mib->fddiPORTLem_Ct, | ||
2020 | mib->fddiPORTLer_Estimate) ; | ||
2021 | } | ||
2022 | } | ||
2023 | #endif | ||
2024 | #endif | ||