/* * Copyright (c) 2005-2010 Brocade Communications Systems, Inc. * All rights reserved * www.brocade.com * * Linux driver for Brocade Fibre Channel Host Bus Adapter. * * This program is free software; you can redistribute it and/or modify it * under the terms of the GNU General Public License (GPL) Version 2 as * published by the Free Software Foundation * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. */ /* * bfa_cs.h BFA common services */ #ifndef __BFA_CS_H__ #define __BFA_CS_H__ #include "bfad_drv.h" /* * BFA TRC */ #ifndef BFA_TRC_MAX #define BFA_TRC_MAX (4 * 1024) #endif #define BFA_TRC_TS(_trcm) \ ({ \ struct timeval tv; \ \ do_gettimeofday(&tv); \ (tv.tv_sec*1000000+tv.tv_usec); \ }) #ifndef BFA_TRC_TS #define BFA_TRC_TS(_trcm) ((_trcm)->ticks++) #endif struct bfa_trc_s { #ifdef __BIG_ENDIAN u16 fileno; u16 line; #else u16 line; u16 fileno; #endif u32 timestamp; union { struct { u32 rsvd; u32 u32; } u32; u64 u64; } data; }; struct bfa_trc_mod_s { u32 head; u32 tail; u32 ntrc; u32 stopped; u32 ticks; u32 rsvd[3]; struct bfa_trc_s trc[BFA_TRC_MAX]; }; enum { BFA_TRC_HAL = 1, /* BFA modules */ BFA_TRC_FCS = 2, /* BFA FCS modules */ BFA_TRC_LDRV = 3, /* Linux driver modules */ BFA_TRC_CNA = 4, /* Common modules */ }; #define BFA_TRC_MOD_SH 10 #define BFA_TRC_MOD(__mod) ((BFA_TRC_ ## __mod) << BFA_TRC_MOD_SH) /* * Define a new tracing file (module). Module should match one defined above. */ #define BFA_TRC_FILE(__mod, __submod) \ static int __trc_fileno = ((BFA_TRC_ ## __mod ## _ ## __submod) | \ BFA_TRC_MOD(__mod)) #define bfa_trc32(_trcp, _data) \ __bfa_trc((_trcp)->trcmod, __trc_fileno, __LINE__, (u32)_data) #define bfa_trc(_trcp, _data) \ __bfa_trc((_trcp)->trcmod, __trc_fileno, __LINE__, (u64)_data) static inline void bfa_trc_init(struct bfa_trc_mod_s *trcm) { trcm->head = trcm->tail = trcm->stopped = 0; trcm->ntrc = BFA_TRC_MAX; } static inline void bfa_trc_stop(struct bfa_trc_mod_s *trcm) { trcm->stopped = 1; } static inline void __bfa_trc(struct bfa_trc_mod_s *trcm, int fileno, int line, u64 data) { int tail = trcm->tail; struct bfa_trc_s *trc = &trcm->trc[tail]; if (trcm->stopped) return; trc->fileno = (u16) fileno; trc->line = (u16) line; trc->data.u64 = data; trc->timestamp = BFA_TRC_TS(trcm); trcm->tail = (trcm->tail + 1) & (BFA_TRC_MAX - 1); if (trcm->tail == trcm->head) trcm->head = (trcm->head + 1) & (BFA_TRC_MAX - 1); } static inline void __bfa_trc32(struct bfa_trc_mod_s *trcm, int fileno, int line, u32 data) { int tail = trcm->tail; struct bfa_trc_s *trc = &trcm->trc[tail]; if (trcm->stopped) return; trc->fileno = (u16) fileno; trc->line = (u16) line; trc->data.u32.u32 = data; trc->timestamp = BFA_TRC_TS(trcm); trcm->tail = (trcm->tail + 1) & (BFA_TRC_MAX - 1); if (trcm->tail == trcm->head) trcm->head = (trcm->head + 1) & (BFA_TRC_MAX - 1); } #define bfa_sm_fault(__mod, __event) do { \ bfa_trc(__mod, (((u32)0xDEAD << 16) | __event)); \ printk(KERN_ERR "Assertion failure: %s:%d: %d", \ __FILE__, __LINE__, (__event)); \ } while (0) /* BFA queue definitions */ #define bfa_q_first(_q) ((void *)(((struct list_head *) (_q))->next)) #define bfa_q_next(_qe) (((struct list_head *) (_qe))->next) #define bfa_q_prev(_qe) (((struct list_head *) (_qe))->prev) /* * bfa_q_qe_init - to initialize a queue element */ #define bfa_q_qe_init(_qe) { \ bfa_q_next(_qe) = (struct list_head *) NULL; \ bfa_q_prev(_qe) = (struct list_head *) NULL; \ } /* * bfa_q_deq - dequeue an element from head of the queue */ #define bfa_q_deq(_q, _qe) { \ if (!list_empty(_q)) { \ (*((struct list_head **) (_qe))) = bfa_q_next(_q); \ bfa_q_prev(bfa_q_next(*((struct list_head **) _qe))) = \ (struct list_head *) (_q); \ bfa_q_next(_q) = bfa_q_next(*((struct list_head **) _qe));\ } else { \ *((struct list_head **) (_qe)) = (struct list_head *) NULL;\ } \ } /* * bfa_q_deq_tail - dequeue an element from tail of the queue */ #define bfa_q_deq_tail(_q, _qe) { \ if (!list_empty(_q)) { \ *((struct list_head **) (_qe)) = bfa_q_prev(_q); \ bfa_q_next(bfa_q_prev(*((struct list_head **) _qe))) = \ (struct list_head *) (_q); \ bfa_q_prev(_q) = bfa_q_prev(*(struct list_head **) _qe);\ } else { \ *((struct list_head **) (_qe)) = (struct list_head *) NULL;\ } \ } static inline int bfa_q_is_on_q_func(struct list_head *q, struct list_head *qe) { struct list_head *tqe; tqe = bfa_q_next(q); while (tqe != q) { if (tqe == qe) return 1; tqe = bfa_q_next(tqe); if (tqe == NULL) break; } return 0; } #define bfa_q_is_on_q(_q, _qe) \ bfa_q_is_on_q_func(_q, (struct list_head *)(_qe)) /* * @ BFA state machine interfaces */ typedef void (*bfa_sm_t)(void *sm, int event); /* * oc - object class eg. bfa_ioc * st - state, eg. reset * otype - object type, eg. struct bfa_ioc_s * etype - object type, eg. enum ioc_event */ #define bfa_sm_state_decl(oc, st, otype, etype) \ static void oc ## _sm_ ## st(otype * fsm, etype event) #define bfa_sm_set_state(_sm, _state) ((_sm)->sm = (bfa_sm_t)(_state)) #define bfa_sm_send_event(_sm, _event) ((_sm)->sm((_sm), (_event))) #define bfa_sm_get_state(_sm) ((_sm)->sm) #define bfa_sm_cmp_state(_sm, _state) ((_sm)->sm == (bfa_sm_t)(_state)) /* * For converting from state machine function to state encoding. */ struct bfa_sm_table_s { bfa_sm_t sm; /* state machine function */ int state; /* state machine encoding */ char *name; /* state name for display */ }; #define BFA_SM(_sm) ((bfa_sm_t)(_sm)) /* * State machine with entry actions. */ typedef void (*bfa_fsm_t)(void *fsm, int event); /* * oc - object class eg. bfa_ioc * st - state, eg. reset * otype - object type, eg. struct bfa_ioc_s * etype - object type, eg. enum ioc_event */ #define bfa_fsm_state_decl(oc, st, otype, etype) \ static void oc ## _sm_ ## st(otype * fsm, etype event); \ static void oc ## _sm_ ## st ## _entry(otype * fsm) #define bfa_fsm_set_state(_fsm, _state) do { \ (_fsm)->fsm = (bfa_fsm_t)(_state); \ _state ## _entry(_fsm); \ } while (0) #define bfa_fsm_send_event(_fsm, _event) ((_fsm)->fsm((_fsm), (_event))) #define bfa_fsm_get_state(_fsm) ((_fsm)->fsm) #define bfa_fsm_cmp_state(_fsm, _state) \ ((_fsm)->fsm == (bfa_fsm_t)(_state)) static inline int bfa_sm_to_state(struct bfa_sm_table_s *smt, bfa_sm_t sm) { int i = 0; while (smt[i].sm && smt[i].sm != sm) i++; return smt[i].state; } /* * @ Generic wait counter. */ typedef void (*bfa_wc_resume_t) (void *cbarg); struct bfa_wc_s { bfa_wc_resume_t wc_resume; void *wc_cbarg; int wc_count; }; static inline void bfa_wc_up(struct bfa_wc_s *wc) { wc->wc_count++; } static inline void bfa_wc_down(struct bfa_wc_s *wc) { wc->wc_count--; if (wc->wc_count == 0) wc->wc_resume(wc->wc_cbarg); } /* * Initialize a waiting counter. */ static inline void bfa_wc_init(struct bfa_wc_s *wc, bfa_wc_resume_t wc_resume, void *wc_cbarg) { wc->wc_resume = wc_resume; wc->wc_cbarg = wc_cbarg; wc->wc_count = 0; bfa_wc_up(wc); } /* * Wait for counter to reach zero */ static inline void bfa_wc_wait(struct bfa_wc_s *wc) { bfa_wc_down(wc); } static inline void wwn2str(char *wwn_str, u64 wwn) { union { u64 wwn; u8 byte[8]; } w; w.wwn = wwn; sprintf(wwn_str, "%02x:%02x:%02x:%02x:%02x:%02x:%02x:%02x", w.byte[0], w.byte[1], w.byte[2], w.byte[3], w.byte[4], w.byte[5], w.byte[6], w.byte[7]); } static inline void fcid2str(char *fcid_str, u32 fcid) { union { u32 fcid; u8 byte[4]; } f; f.fcid = fcid; sprintf(fcid_str, "%02x:%02x:%02x", f.byte[1], f.byte[2], f.byte[3]); } #define bfa_swap_3b(_x) \ ((((_x) & 0xff) << 16) | \ ((_x) & 0x00ff00) | \ (((_x) & 0xff0000) >> 16)) #ifndef __BIG_ENDIAN #define bfa_hton3b(_x) bfa_swap_3b(_x) #else #define bfa_hton3b(_x) (_x) #endif #define bfa_ntoh3b(_x) bfa_hton3b(_x) #endif /* __BFA_CS_H__ */