mfii.c revision 1.7.4.2
1 1.7.4.2 thorpej /* $NetBSD: mfii.c,v 1.7.4.2 2021/03/22 16:23:45 thorpej Exp $ */ 2 1.1 bouyer /* $OpenBSD: mfii.c,v 1.58 2018/08/14 05:22:21 jmatthew Exp $ */ 3 1.1 bouyer 4 1.1 bouyer /* 5 1.2 bouyer * Copyright (c) 2018 Manuel Bouyer <Manuel.Bouyer (at) lip6.fr> 6 1.1 bouyer * Copyright (c) 2012 David Gwynne <dlg (at) openbsd.org> 7 1.1 bouyer * 8 1.1 bouyer * Permission to use, copy, modify, and distribute this software for any 9 1.1 bouyer * purpose with or without fee is hereby granted, provided that the above 10 1.1 bouyer * copyright notice and this permission notice appear in all copies. 11 1.1 bouyer * 12 1.1 bouyer * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES 13 1.1 bouyer * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF 14 1.1 bouyer * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR 15 1.1 bouyer * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES 16 1.1 bouyer * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN 17 1.1 bouyer * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF 18 1.1 bouyer * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. 19 1.1 bouyer */ 20 1.1 bouyer 21 1.1 bouyer #include <sys/cdefs.h> 22 1.7.4.2 thorpej __KERNEL_RCSID(0, "$NetBSD: mfii.c,v 1.7.4.2 2021/03/22 16:23:45 thorpej Exp $"); 23 1.1 bouyer 24 1.1 bouyer #include "bio.h" 25 1.1 bouyer 26 1.1 bouyer #include <sys/atomic.h> 27 1.1 bouyer #include <sys/param.h> 28 1.1 bouyer #include <sys/systm.h> 29 1.1 bouyer #include <sys/buf.h> 30 1.1 bouyer #include <sys/ioctl.h> 31 1.1 bouyer #include <sys/device.h> 32 1.1 bouyer #include <sys/kernel.h> 33 1.1 bouyer #include <sys/proc.h> 34 1.1 bouyer #include <sys/cpu.h> 35 1.1 bouyer #include <sys/conf.h> 36 1.1 bouyer #include <sys/kauth.h> 37 1.1 bouyer #include <sys/workqueue.h> 38 1.1 bouyer #include <sys/malloc.h> 39 1.1 bouyer 40 1.1 bouyer #include <uvm/uvm_param.h> 41 1.1 bouyer 42 1.1 bouyer #include <dev/pci/pcidevs.h> 43 1.1 bouyer #include <dev/pci/pcivar.h> 44 1.1 bouyer 45 1.1 bouyer #include <sys/bus.h> 46 1.1 bouyer 47 1.1 bouyer #include <dev/sysmon/sysmonvar.h> 48 1.1 bouyer #include <sys/envsys.h> 49 1.1 bouyer 50 1.1 bouyer #include <dev/scsipi/scsipi_all.h> 51 1.1 bouyer #include <dev/scsipi/scsi_all.h> 52 1.1 bouyer #include <dev/scsipi/scsi_spc.h> 53 1.1 bouyer #include <dev/scsipi/scsipi_disk.h> 54 1.1 bouyer #include <dev/scsipi/scsi_disk.h> 55 1.1 bouyer #include <dev/scsipi/scsiconf.h> 56 1.1 bouyer 57 1.1 bouyer #if NBIO > 0 58 1.1 bouyer #include <dev/biovar.h> 59 1.1 bouyer #endif /* NBIO > 0 */ 60 1.1 bouyer 61 1.1 bouyer #include <dev/ic/mfireg.h> 62 1.1 bouyer #include <dev/pci/mpiireg.h> 63 1.1 bouyer 64 1.1 bouyer #define MFII_BAR 0x14 65 1.1 bouyer #define MFII_BAR_35 0x10 66 1.1 bouyer #define MFII_PCI_MEMSIZE 0x2000 /* 8k */ 67 1.1 bouyer 68 1.1 bouyer #define MFII_OSTS_INTR_VALID 0x00000009 69 1.1 bouyer #define MFII_RPI 0x6c /* reply post host index */ 70 1.1 bouyer #define MFII_OSP2 0xb4 /* outbound scratch pad 2 */ 71 1.1 bouyer #define MFII_OSP3 0xb8 /* outbound scratch pad 3 */ 72 1.1 bouyer 73 1.1 bouyer #define MFII_REQ_TYPE_SCSI MPII_REQ_DESCR_SCSI_IO 74 1.1 bouyer #define MFII_REQ_TYPE_LDIO (0x7 << 1) 75 1.1 bouyer #define MFII_REQ_TYPE_MFA (0x1 << 1) 76 1.1 bouyer #define MFII_REQ_TYPE_NO_LOCK (0x2 << 1) 77 1.1 bouyer #define MFII_REQ_TYPE_HI_PRI (0x6 << 1) 78 1.1 bouyer 79 1.1 bouyer #define MFII_REQ_MFA(_a) htole64((_a) | MFII_REQ_TYPE_MFA) 80 1.1 bouyer 81 1.1 bouyer #define MFII_FUNCTION_PASSTHRU_IO (0xf0) 82 1.1 bouyer #define MFII_FUNCTION_LDIO_REQUEST (0xf1) 83 1.1 bouyer 84 1.1 bouyer #define MFII_MAX_CHAIN_UNIT 0x00400000 85 1.1 bouyer #define MFII_MAX_CHAIN_MASK 0x000003E0 86 1.1 bouyer #define MFII_MAX_CHAIN_SHIFT 5 87 1.1 bouyer 88 1.1 bouyer #define MFII_256K_IO 128 89 1.1 bouyer #define MFII_1MB_IO (MFII_256K_IO * 4) 90 1.1 bouyer 91 1.1 bouyer #define MFII_CHAIN_FRAME_MIN 1024 92 1.1 bouyer 93 1.1 bouyer struct mfii_request_descr { 94 1.1 bouyer u_int8_t flags; 95 1.1 bouyer u_int8_t msix_index; 96 1.1 bouyer u_int16_t smid; 97 1.1 bouyer 98 1.1 bouyer u_int16_t lmid; 99 1.1 bouyer u_int16_t dev_handle; 100 1.1 bouyer } __packed; 101 1.1 bouyer 102 1.1 bouyer #define MFII_RAID_CTX_IO_TYPE_SYSPD (0x1 << 4) 103 1.1 bouyer #define MFII_RAID_CTX_TYPE_CUDA (0x2 << 4) 104 1.1 bouyer 105 1.1 bouyer struct mfii_raid_context { 106 1.1 bouyer u_int8_t type_nseg; 107 1.1 bouyer u_int8_t _reserved1; 108 1.1 bouyer u_int16_t timeout_value; 109 1.1 bouyer 110 1.1 bouyer u_int16_t reg_lock_flags; 111 1.1 bouyer #define MFII_RAID_CTX_RL_FLAGS_SEQNO_EN (0x08) 112 1.1 bouyer #define MFII_RAID_CTX_RL_FLAGS_CPU0 (0x00) 113 1.1 bouyer #define MFII_RAID_CTX_RL_FLAGS_CPU1 (0x10) 114 1.1 bouyer #define MFII_RAID_CTX_RL_FLAGS_CUDA (0x80) 115 1.1 bouyer 116 1.1 bouyer #define MFII_RAID_CTX_ROUTING_FLAGS_SQN (1 << 4) 117 1.1 bouyer #define MFII_RAID_CTX_ROUTING_FLAGS_CPU0 0 118 1.1 bouyer u_int16_t virtual_disk_target_id; 119 1.1 bouyer 120 1.1 bouyer u_int64_t reg_lock_row_lba; 121 1.1 bouyer 122 1.1 bouyer u_int32_t reg_lock_length; 123 1.1 bouyer 124 1.1 bouyer u_int16_t next_lm_id; 125 1.1 bouyer u_int8_t ex_status; 126 1.1 bouyer u_int8_t status; 127 1.1 bouyer 128 1.1 bouyer u_int8_t raid_flags; 129 1.1 bouyer u_int8_t num_sge; 130 1.1 bouyer u_int16_t config_seq_num; 131 1.1 bouyer 132 1.1 bouyer u_int8_t span_arm; 133 1.1 bouyer u_int8_t _reserved3[3]; 134 1.1 bouyer } __packed; 135 1.1 bouyer 136 1.1 bouyer struct mfii_sge { 137 1.1 bouyer u_int64_t sg_addr; 138 1.1 bouyer u_int32_t sg_len; 139 1.1 bouyer u_int16_t _reserved; 140 1.1 bouyer u_int8_t sg_next_chain_offset; 141 1.1 bouyer u_int8_t sg_flags; 142 1.1 bouyer } __packed; 143 1.1 bouyer 144 1.1 bouyer #define MFII_SGE_ADDR_MASK (0x03) 145 1.1 bouyer #define MFII_SGE_ADDR_SYSTEM (0x00) 146 1.1 bouyer #define MFII_SGE_ADDR_IOCDDR (0x01) 147 1.1 bouyer #define MFII_SGE_ADDR_IOCPLB (0x02) 148 1.1 bouyer #define MFII_SGE_ADDR_IOCPLBNTA (0x03) 149 1.1 bouyer #define MFII_SGE_END_OF_LIST (0x40) 150 1.1 bouyer #define MFII_SGE_CHAIN_ELEMENT (0x80) 151 1.1 bouyer 152 1.1 bouyer #define MFII_REQUEST_SIZE 256 153 1.1 bouyer 154 1.1 bouyer #define MR_DCMD_LD_MAP_GET_INFO 0x0300e101 155 1.1 bouyer 156 1.1 bouyer #define MFII_MAX_ROW 32 157 1.1 bouyer #define MFII_MAX_ARRAY 128 158 1.1 bouyer 159 1.1 bouyer struct mfii_array_map { 160 1.1 bouyer uint16_t mam_pd[MFII_MAX_ROW]; 161 1.1 bouyer } __packed; 162 1.1 bouyer 163 1.1 bouyer struct mfii_dev_handle { 164 1.1 bouyer uint16_t mdh_cur_handle; 165 1.1 bouyer uint8_t mdh_valid; 166 1.1 bouyer uint8_t mdh_reserved; 167 1.1 bouyer uint16_t mdh_handle[2]; 168 1.1 bouyer } __packed; 169 1.1 bouyer 170 1.1 bouyer struct mfii_ld_map { 171 1.1 bouyer uint32_t mlm_total_size; 172 1.1 bouyer uint32_t mlm_reserved1[5]; 173 1.1 bouyer uint32_t mlm_num_lds; 174 1.1 bouyer uint32_t mlm_reserved2; 175 1.1 bouyer uint8_t mlm_tgtid_to_ld[2 * MFI_MAX_LD]; 176 1.1 bouyer uint8_t mlm_pd_timeout; 177 1.1 bouyer uint8_t mlm_reserved3[7]; 178 1.1 bouyer struct mfii_array_map mlm_am[MFII_MAX_ARRAY]; 179 1.1 bouyer struct mfii_dev_handle mlm_dev_handle[MFI_MAX_PD]; 180 1.1 bouyer } __packed; 181 1.1 bouyer 182 1.1 bouyer struct mfii_task_mgmt { 183 1.1 bouyer union { 184 1.1 bouyer uint8_t request[128]; 185 1.1 bouyer struct mpii_msg_scsi_task_request 186 1.1 bouyer mpii_request; 187 1.1 bouyer } __packed __aligned(8); 188 1.1 bouyer 189 1.1 bouyer union { 190 1.1 bouyer uint8_t reply[128]; 191 1.1 bouyer uint32_t flags; 192 1.1 bouyer #define MFII_TASK_MGMT_FLAGS_LD (1 << 0) 193 1.1 bouyer #define MFII_TASK_MGMT_FLAGS_PD (1 << 1) 194 1.1 bouyer struct mpii_msg_scsi_task_reply 195 1.1 bouyer mpii_reply; 196 1.1 bouyer } __packed __aligned(8); 197 1.1 bouyer } __packed __aligned(8); 198 1.1 bouyer 199 1.1 bouyer /* We currently don't know the full details of the following struct */ 200 1.1 bouyer struct mfii_foreign_scan_cfg { 201 1.1 bouyer char data[24]; 202 1.1 bouyer } __packed; 203 1.1 bouyer 204 1.1 bouyer struct mfii_foreign_scan_info { 205 1.1 bouyer uint32_t count; /* Number of foreign configs found */ 206 1.1 bouyer struct mfii_foreign_scan_cfg cfgs[8]; 207 1.1 bouyer } __packed; 208 1.1 bouyer 209 1.1 bouyer struct mfii_dmamem { 210 1.1 bouyer bus_dmamap_t mdm_map; 211 1.1 bouyer bus_dma_segment_t mdm_seg; 212 1.1 bouyer size_t mdm_size; 213 1.1 bouyer void * mdm_kva; 214 1.1 bouyer }; 215 1.1 bouyer #define MFII_DMA_MAP(_mdm) ((_mdm)->mdm_map) 216 1.1 bouyer #define MFII_DMA_LEN(_mdm) ((_mdm)->mdm_size) 217 1.1 bouyer #define MFII_DMA_DVA(_mdm) ((u_int64_t)(_mdm)->mdm_map->dm_segs[0].ds_addr) 218 1.1 bouyer #define MFII_DMA_KVA(_mdm) ((void *)(_mdm)->mdm_kva) 219 1.1 bouyer 220 1.1 bouyer struct mfii_softc; 221 1.1 bouyer 222 1.1 bouyer typedef enum mfii_direction { 223 1.1 bouyer MFII_DATA_NONE = 0, 224 1.1 bouyer MFII_DATA_IN, 225 1.1 bouyer MFII_DATA_OUT 226 1.1 bouyer } mfii_direction_t; 227 1.1 bouyer 228 1.1 bouyer struct mfii_ccb { 229 1.1 bouyer struct mfii_softc *ccb_sc; 230 1.1 bouyer void *ccb_request; 231 1.1 bouyer u_int64_t ccb_request_dva; 232 1.1 bouyer bus_addr_t ccb_request_offset; 233 1.1 bouyer 234 1.1 bouyer void *ccb_mfi; 235 1.1 bouyer u_int64_t ccb_mfi_dva; 236 1.1 bouyer bus_addr_t ccb_mfi_offset; 237 1.1 bouyer 238 1.1 bouyer struct mfi_sense *ccb_sense; 239 1.1 bouyer u_int64_t ccb_sense_dva; 240 1.1 bouyer bus_addr_t ccb_sense_offset; 241 1.1 bouyer 242 1.1 bouyer struct mfii_sge *ccb_sgl; 243 1.1 bouyer u_int64_t ccb_sgl_dva; 244 1.1 bouyer bus_addr_t ccb_sgl_offset; 245 1.1 bouyer u_int ccb_sgl_len; 246 1.1 bouyer 247 1.1 bouyer struct mfii_request_descr ccb_req; 248 1.1 bouyer 249 1.1 bouyer bus_dmamap_t ccb_dmamap64; 250 1.1 bouyer bus_dmamap_t ccb_dmamap32; 251 1.1 bouyer bool ccb_dma64; 252 1.1 bouyer 253 1.1 bouyer /* data for sgl */ 254 1.1 bouyer void *ccb_data; 255 1.1 bouyer size_t ccb_len; 256 1.1 bouyer 257 1.1 bouyer mfii_direction_t ccb_direction; 258 1.1 bouyer 259 1.1 bouyer void *ccb_cookie; 260 1.1 bouyer kmutex_t ccb_mtx; 261 1.1 bouyer kcondvar_t ccb_cv; 262 1.1 bouyer void (*ccb_done)(struct mfii_softc *, 263 1.1 bouyer struct mfii_ccb *); 264 1.1 bouyer 265 1.1 bouyer u_int32_t ccb_flags; 266 1.1 bouyer #define MFI_CCB_F_ERR (1<<0) 267 1.1 bouyer u_int ccb_smid; 268 1.1 bouyer SIMPLEQ_ENTRY(mfii_ccb) ccb_link; 269 1.1 bouyer }; 270 1.1 bouyer SIMPLEQ_HEAD(mfii_ccb_list, mfii_ccb); 271 1.1 bouyer 272 1.1 bouyer struct mfii_iop { 273 1.1 bouyer int bar; 274 1.1 bouyer int num_sge_loc; 275 1.1 bouyer #define MFII_IOP_NUM_SGE_LOC_ORIG 0 276 1.1 bouyer #define MFII_IOP_NUM_SGE_LOC_35 1 277 1.1 bouyer u_int16_t ldio_ctx_reg_lock_flags; 278 1.1 bouyer u_int8_t ldio_req_type; 279 1.1 bouyer u_int8_t ldio_ctx_type_nseg; 280 1.1 bouyer u_int8_t sge_flag_chain; 281 1.1 bouyer u_int8_t sge_flag_eol; 282 1.1 bouyer }; 283 1.1 bouyer 284 1.1 bouyer struct mfii_softc { 285 1.1 bouyer device_t sc_dev; 286 1.1 bouyer struct scsipi_channel sc_chan; 287 1.1 bouyer struct scsipi_adapter sc_adapt; 288 1.1 bouyer 289 1.1 bouyer const struct mfii_iop *sc_iop; 290 1.1 bouyer 291 1.1 bouyer pci_chipset_tag_t sc_pc; 292 1.1 bouyer pcitag_t sc_tag; 293 1.1 bouyer 294 1.1 bouyer bus_space_tag_t sc_iot; 295 1.1 bouyer bus_space_handle_t sc_ioh; 296 1.1 bouyer bus_size_t sc_ios; 297 1.1 bouyer bus_dma_tag_t sc_dmat; 298 1.1 bouyer bus_dma_tag_t sc_dmat64; 299 1.1 bouyer bool sc_64bit_dma; 300 1.1 bouyer 301 1.1 bouyer void *sc_ih; 302 1.1 bouyer 303 1.1 bouyer kmutex_t sc_ccb_mtx; 304 1.1 bouyer kmutex_t sc_post_mtx; 305 1.1 bouyer 306 1.1 bouyer u_int sc_max_fw_cmds; 307 1.1 bouyer u_int sc_max_cmds; 308 1.1 bouyer u_int sc_max_sgl; 309 1.1 bouyer 310 1.1 bouyer u_int sc_reply_postq_depth; 311 1.1 bouyer u_int sc_reply_postq_index; 312 1.1 bouyer kmutex_t sc_reply_postq_mtx; 313 1.1 bouyer struct mfii_dmamem *sc_reply_postq; 314 1.1 bouyer 315 1.1 bouyer struct mfii_dmamem *sc_requests; 316 1.1 bouyer struct mfii_dmamem *sc_mfi; 317 1.1 bouyer struct mfii_dmamem *sc_sense; 318 1.1 bouyer struct mfii_dmamem *sc_sgl; 319 1.1 bouyer 320 1.1 bouyer struct mfii_ccb *sc_ccb; 321 1.1 bouyer struct mfii_ccb_list sc_ccb_freeq; 322 1.1 bouyer 323 1.1 bouyer struct mfii_ccb *sc_aen_ccb; 324 1.1 bouyer struct workqueue *sc_aen_wq; 325 1.1 bouyer struct work sc_aen_work; 326 1.1 bouyer 327 1.1 bouyer kmutex_t sc_abort_mtx; 328 1.1 bouyer struct mfii_ccb_list sc_abort_list; 329 1.1 bouyer struct workqueue *sc_abort_wq; 330 1.1 bouyer struct work sc_abort_work; 331 1.1 bouyer 332 1.1 bouyer /* save some useful information for logical drives that is missing 333 1.1 bouyer * in sc_ld_list 334 1.1 bouyer */ 335 1.1 bouyer struct { 336 1.1 bouyer bool ld_present; 337 1.1 bouyer char ld_dev[16]; /* device name sd? */ 338 1.1 bouyer } sc_ld[MFI_MAX_LD]; 339 1.1 bouyer int sc_target_lds[MFI_MAX_LD]; 340 1.1 bouyer 341 1.1 bouyer /* bio */ 342 1.1 bouyer struct mfi_conf *sc_cfg; 343 1.1 bouyer struct mfi_ctrl_info sc_info; 344 1.1 bouyer struct mfi_ld_list sc_ld_list; 345 1.1 bouyer struct mfi_ld_details *sc_ld_details; /* array to all logical disks */ 346 1.1 bouyer int sc_no_pd; /* used physical disks */ 347 1.1 bouyer int sc_ld_sz; /* sizeof sc_ld_details */ 348 1.1 bouyer 349 1.1 bouyer /* mgmt lock */ 350 1.1 bouyer kmutex_t sc_lock; 351 1.1 bouyer bool sc_running; 352 1.1 bouyer 353 1.1 bouyer /* sensors */ 354 1.1 bouyer struct sysmon_envsys *sc_sme; 355 1.1 bouyer envsys_data_t *sc_sensors; 356 1.1 bouyer bool sc_bbuok; 357 1.1 bouyer 358 1.1 bouyer device_t sc_child; 359 1.1 bouyer }; 360 1.1 bouyer 361 1.1 bouyer // #define MFII_DEBUG 362 1.1 bouyer #ifdef MFII_DEBUG 363 1.1 bouyer #define DPRINTF(x...) do { if (mfii_debug) printf(x); } while(0) 364 1.1 bouyer #define DNPRINTF(n,x...) do { if (mfii_debug & n) printf(x); } while(0) 365 1.1 bouyer #define MFII_D_CMD 0x0001 366 1.1 bouyer #define MFII_D_INTR 0x0002 367 1.1 bouyer #define MFII_D_MISC 0x0004 368 1.1 bouyer #define MFII_D_DMA 0x0008 369 1.1 bouyer #define MFII_D_IOCTL 0x0010 370 1.1 bouyer #define MFII_D_RW 0x0020 371 1.1 bouyer #define MFII_D_MEM 0x0040 372 1.1 bouyer #define MFII_D_CCB 0x0080 373 1.1 bouyer uint32_t mfii_debug = 0 374 1.1 bouyer /* | MFII_D_CMD */ 375 1.1 bouyer /* | MFII_D_INTR */ 376 1.1 bouyer | MFII_D_MISC 377 1.1 bouyer /* | MFII_D_DMA */ 378 1.1 bouyer /* | MFII_D_IOCTL */ 379 1.1 bouyer /* | MFII_D_RW */ 380 1.1 bouyer /* | MFII_D_MEM */ 381 1.1 bouyer /* | MFII_D_CCB */ 382 1.1 bouyer ; 383 1.1 bouyer #else 384 1.1 bouyer #define DPRINTF(x...) 385 1.1 bouyer #define DNPRINTF(n,x...) 386 1.1 bouyer #endif 387 1.1 bouyer 388 1.6 maxv static int mfii_match(device_t, cfdata_t, void *); 389 1.6 maxv static void mfii_attach(device_t, device_t, void *); 390 1.6 maxv static int mfii_detach(device_t, int); 391 1.6 maxv static int mfii_rescan(device_t, const char *, const int *); 392 1.6 maxv static void mfii_childdetached(device_t, device_t); 393 1.1 bouyer static bool mfii_suspend(device_t, const pmf_qual_t *); 394 1.1 bouyer static bool mfii_resume(device_t, const pmf_qual_t *); 395 1.1 bouyer static bool mfii_shutdown(device_t, int); 396 1.1 bouyer 397 1.1 bouyer 398 1.1 bouyer CFATTACH_DECL3_NEW(mfii, sizeof(struct mfii_softc), 399 1.1 bouyer mfii_match, mfii_attach, mfii_detach, NULL, mfii_rescan, 400 1.1 bouyer mfii_childdetached, DVF_DETACH_SHUTDOWN); 401 1.1 bouyer 402 1.6 maxv static void mfii_scsipi_request(struct scsipi_channel *, 403 1.1 bouyer scsipi_adapter_req_t, void *); 404 1.6 maxv static void mfii_scsi_cmd_done(struct mfii_softc *, struct mfii_ccb *); 405 1.1 bouyer 406 1.1 bouyer #define DEVNAME(_sc) (device_xname((_sc)->sc_dev)) 407 1.1 bouyer 408 1.1 bouyer static u_int32_t mfii_read(struct mfii_softc *, bus_size_t); 409 1.1 bouyer static void mfii_write(struct mfii_softc *, bus_size_t, u_int32_t); 410 1.1 bouyer 411 1.6 maxv static struct mfii_dmamem * mfii_dmamem_alloc(struct mfii_softc *, size_t); 412 1.6 maxv static void mfii_dmamem_free(struct mfii_softc *, 413 1.1 bouyer struct mfii_dmamem *); 414 1.1 bouyer 415 1.6 maxv static struct mfii_ccb * mfii_get_ccb(struct mfii_softc *); 416 1.6 maxv static void mfii_put_ccb(struct mfii_softc *, struct mfii_ccb *); 417 1.6 maxv static int mfii_init_ccb(struct mfii_softc *); 418 1.6 maxv static void mfii_scrub_ccb(struct mfii_ccb *); 419 1.6 maxv 420 1.6 maxv static int mfii_transition_firmware(struct mfii_softc *); 421 1.6 maxv static int mfii_initialise_firmware(struct mfii_softc *); 422 1.6 maxv static int mfii_get_info(struct mfii_softc *); 423 1.6 maxv 424 1.6 maxv static void mfii_start(struct mfii_softc *, struct mfii_ccb *); 425 1.6 maxv static void mfii_done(struct mfii_softc *, struct mfii_ccb *); 426 1.6 maxv static int mfii_poll(struct mfii_softc *, struct mfii_ccb *); 427 1.6 maxv static void mfii_poll_done(struct mfii_softc *, struct mfii_ccb *); 428 1.6 maxv static int mfii_exec(struct mfii_softc *, struct mfii_ccb *); 429 1.6 maxv static void mfii_exec_done(struct mfii_softc *, struct mfii_ccb *); 430 1.6 maxv static int mfii_my_intr(struct mfii_softc *); 431 1.6 maxv static int mfii_intr(void *); 432 1.6 maxv static void mfii_postq(struct mfii_softc *); 433 1.1 bouyer 434 1.6 maxv static int mfii_load_ccb(struct mfii_softc *, struct mfii_ccb *, 435 1.1 bouyer void *, int); 436 1.6 maxv static int mfii_load_mfa(struct mfii_softc *, struct mfii_ccb *, 437 1.1 bouyer void *, int); 438 1.1 bouyer 439 1.6 maxv static int mfii_mfa_poll(struct mfii_softc *, struct mfii_ccb *); 440 1.1 bouyer 441 1.6 maxv static int mfii_mgmt(struct mfii_softc *, uint32_t, 442 1.1 bouyer const union mfi_mbox *, void *, size_t, 443 1.1 bouyer mfii_direction_t, bool); 444 1.6 maxv static int mfii_do_mgmt(struct mfii_softc *, struct mfii_ccb *, 445 1.1 bouyer uint32_t, const union mfi_mbox *, void *, size_t, 446 1.1 bouyer mfii_direction_t, bool); 447 1.6 maxv static void mfii_empty_done(struct mfii_softc *, struct mfii_ccb *); 448 1.1 bouyer 449 1.6 maxv static int mfii_scsi_cmd_io(struct mfii_softc *, 450 1.1 bouyer struct mfii_ccb *, struct scsipi_xfer *); 451 1.6 maxv static int mfii_scsi_cmd_cdb(struct mfii_softc *, 452 1.1 bouyer struct mfii_ccb *, struct scsipi_xfer *); 453 1.6 maxv static void mfii_scsi_cmd_tmo(void *); 454 1.1 bouyer 455 1.6 maxv static void mfii_abort_task(struct work *, void *); 456 1.6 maxv static void mfii_abort(struct mfii_softc *, struct mfii_ccb *, 457 1.1 bouyer uint16_t, uint16_t, uint8_t, uint32_t); 458 1.6 maxv static void mfii_scsi_cmd_abort_done(struct mfii_softc *, 459 1.1 bouyer struct mfii_ccb *); 460 1.1 bouyer 461 1.6 maxv static int mfii_aen_register(struct mfii_softc *); 462 1.6 maxv static void mfii_aen_start(struct mfii_softc *, struct mfii_ccb *, 463 1.1 bouyer struct mfii_dmamem *, uint32_t); 464 1.6 maxv static void mfii_aen_done(struct mfii_softc *, struct mfii_ccb *); 465 1.6 maxv static void mfii_aen(struct work *, void *); 466 1.6 maxv static void mfii_aen_unregister(struct mfii_softc *); 467 1.1 bouyer 468 1.6 maxv static void mfii_aen_pd_insert(struct mfii_softc *, 469 1.1 bouyer const struct mfi_evtarg_pd_address *); 470 1.6 maxv static void mfii_aen_pd_remove(struct mfii_softc *, 471 1.1 bouyer const struct mfi_evtarg_pd_address *); 472 1.6 maxv static void mfii_aen_pd_state_change(struct mfii_softc *, 473 1.1 bouyer const struct mfi_evtarg_pd_state *); 474 1.6 maxv static void mfii_aen_ld_update(struct mfii_softc *); 475 1.1 bouyer 476 1.1 bouyer #if NBIO > 0 477 1.6 maxv static int mfii_ioctl(device_t, u_long, void *); 478 1.6 maxv static int mfii_ioctl_inq(struct mfii_softc *, struct bioc_inq *); 479 1.6 maxv static int mfii_ioctl_vol(struct mfii_softc *, struct bioc_vol *); 480 1.6 maxv static int mfii_ioctl_disk(struct mfii_softc *, struct bioc_disk *); 481 1.6 maxv static int mfii_ioctl_alarm(struct mfii_softc *, struct bioc_alarm *); 482 1.6 maxv static int mfii_ioctl_blink(struct mfii_softc *sc, struct bioc_blink *); 483 1.6 maxv static int mfii_ioctl_setstate(struct mfii_softc *, 484 1.1 bouyer struct bioc_setstate *); 485 1.6 maxv static int mfii_bio_hs(struct mfii_softc *, int, int, void *); 486 1.6 maxv static int mfii_bio_getitall(struct mfii_softc *); 487 1.1 bouyer #endif /* NBIO > 0 */ 488 1.1 bouyer 489 1.1 bouyer #if 0 490 1.1 bouyer static const char *mfi_bbu_indicators[] = { 491 1.1 bouyer "pack missing", 492 1.1 bouyer "voltage low", 493 1.1 bouyer "temp high", 494 1.1 bouyer "charge active", 495 1.1 bouyer "discharge active", 496 1.1 bouyer "learn cycle req'd", 497 1.1 bouyer "learn cycle active", 498 1.1 bouyer "learn cycle failed", 499 1.1 bouyer "learn cycle timeout", 500 1.1 bouyer "I2C errors", 501 1.1 bouyer "replace pack", 502 1.1 bouyer "low capacity", 503 1.1 bouyer "periodic learn req'd" 504 1.1 bouyer }; 505 1.1 bouyer #endif 506 1.1 bouyer 507 1.6 maxv static void mfii_init_ld_sensor(struct mfii_softc *, envsys_data_t *, int); 508 1.6 maxv static void mfii_refresh_ld_sensor(struct mfii_softc *, envsys_data_t *); 509 1.1 bouyer static void mfii_attach_sensor(struct mfii_softc *, envsys_data_t *); 510 1.6 maxv static int mfii_create_sensors(struct mfii_softc *); 511 1.1 bouyer static int mfii_destroy_sensors(struct mfii_softc *); 512 1.6 maxv static void mfii_refresh_sensor(struct sysmon_envsys *, envsys_data_t *); 513 1.6 maxv static void mfii_bbu(struct mfii_softc *, envsys_data_t *); 514 1.1 bouyer 515 1.1 bouyer /* 516 1.1 bouyer * mfii boards support asynchronous (and non-polled) completion of 517 1.1 bouyer * dcmds by proxying them through a passthru mpii command that points 518 1.1 bouyer * at a dcmd frame. since the passthru command is submitted like 519 1.1 bouyer * the scsi commands using an SMID in the request descriptor, 520 1.1 bouyer * ccb_request memory * must contain the passthru command because 521 1.1 bouyer * that is what the SMID refers to. this means ccb_request cannot 522 1.1 bouyer * contain the dcmd. rather than allocating separate dma memory to 523 1.1 bouyer * hold the dcmd, we reuse the sense memory buffer for it. 524 1.1 bouyer */ 525 1.1 bouyer 526 1.6 maxv static void mfii_dcmd_start(struct mfii_softc *, struct mfii_ccb *); 527 1.1 bouyer 528 1.1 bouyer static inline void 529 1.1 bouyer mfii_dcmd_scrub(struct mfii_ccb *ccb) 530 1.1 bouyer { 531 1.1 bouyer memset(ccb->ccb_sense, 0, sizeof(*ccb->ccb_sense)); 532 1.1 bouyer } 533 1.1 bouyer 534 1.1 bouyer static inline struct mfi_dcmd_frame * 535 1.1 bouyer mfii_dcmd_frame(struct mfii_ccb *ccb) 536 1.1 bouyer { 537 1.1 bouyer CTASSERT(sizeof(struct mfi_dcmd_frame) <= sizeof(*ccb->ccb_sense)); 538 1.1 bouyer return ((struct mfi_dcmd_frame *)ccb->ccb_sense); 539 1.1 bouyer } 540 1.1 bouyer 541 1.1 bouyer static inline void 542 1.1 bouyer mfii_dcmd_sync(struct mfii_softc *sc, struct mfii_ccb *ccb, int flags) 543 1.1 bouyer { 544 1.1 bouyer bus_dmamap_sync(sc->sc_dmat, MFII_DMA_MAP(sc->sc_sense), 545 1.1 bouyer ccb->ccb_sense_offset, sizeof(*ccb->ccb_sense), flags); 546 1.1 bouyer } 547 1.1 bouyer 548 1.1 bouyer #define mfii_fw_state(_sc) mfii_read((_sc), MFI_OSP) 549 1.1 bouyer 550 1.6 maxv static const struct mfii_iop mfii_iop_thunderbolt = { 551 1.1 bouyer MFII_BAR, 552 1.1 bouyer MFII_IOP_NUM_SGE_LOC_ORIG, 553 1.1 bouyer 0, 554 1.1 bouyer MFII_REQ_TYPE_LDIO, 555 1.1 bouyer 0, 556 1.1 bouyer MFII_SGE_CHAIN_ELEMENT | MFII_SGE_ADDR_IOCPLBNTA, 557 1.1 bouyer 0 558 1.1 bouyer }; 559 1.1 bouyer 560 1.1 bouyer /* 561 1.1 bouyer * a lot of these values depend on us not implementing fastpath yet. 562 1.1 bouyer */ 563 1.6 maxv static const struct mfii_iop mfii_iop_25 = { 564 1.1 bouyer MFII_BAR, 565 1.1 bouyer MFII_IOP_NUM_SGE_LOC_ORIG, 566 1.1 bouyer MFII_RAID_CTX_RL_FLAGS_CPU0, /* | MFII_RAID_CTX_RL_FLAGS_SEQNO_EN */ 567 1.1 bouyer MFII_REQ_TYPE_NO_LOCK, 568 1.1 bouyer MFII_RAID_CTX_TYPE_CUDA | 0x1, 569 1.1 bouyer MFII_SGE_CHAIN_ELEMENT, 570 1.1 bouyer MFII_SGE_END_OF_LIST 571 1.1 bouyer }; 572 1.1 bouyer 573 1.6 maxv static const struct mfii_iop mfii_iop_35 = { 574 1.1 bouyer MFII_BAR_35, 575 1.1 bouyer MFII_IOP_NUM_SGE_LOC_35, 576 1.1 bouyer MFII_RAID_CTX_ROUTING_FLAGS_CPU0, /* | MFII_RAID_CTX_ROUTING_FLAGS_SQN */ 577 1.1 bouyer MFII_REQ_TYPE_NO_LOCK, 578 1.1 bouyer MFII_RAID_CTX_TYPE_CUDA | 0x1, 579 1.1 bouyer MFII_SGE_CHAIN_ELEMENT, 580 1.1 bouyer MFII_SGE_END_OF_LIST 581 1.1 bouyer }; 582 1.1 bouyer 583 1.1 bouyer struct mfii_device { 584 1.1 bouyer pcireg_t mpd_vendor; 585 1.1 bouyer pcireg_t mpd_product; 586 1.1 bouyer const struct mfii_iop *mpd_iop; 587 1.1 bouyer }; 588 1.1 bouyer 589 1.6 maxv static const struct mfii_device mfii_devices[] = { 590 1.1 bouyer { PCI_VENDOR_SYMBIOS, PCI_PRODUCT_SYMBIOS_MEGARAID_2208, 591 1.1 bouyer &mfii_iop_thunderbolt }, 592 1.1 bouyer { PCI_VENDOR_SYMBIOS, PCI_PRODUCT_SYMBIOS_MEGARAID_3008, 593 1.1 bouyer &mfii_iop_25 }, 594 1.1 bouyer { PCI_VENDOR_SYMBIOS, PCI_PRODUCT_SYMBIOS_MEGARAID_3108, 595 1.1 bouyer &mfii_iop_25 }, 596 1.1 bouyer { PCI_VENDOR_SYMBIOS, PCI_PRODUCT_SYMBIOS_MEGARAID_3404, 597 1.1 bouyer &mfii_iop_35 }, 598 1.1 bouyer { PCI_VENDOR_SYMBIOS, PCI_PRODUCT_SYMBIOS_MEGARAID_3504, 599 1.1 bouyer &mfii_iop_35 }, 600 1.1 bouyer { PCI_VENDOR_SYMBIOS, PCI_PRODUCT_SYMBIOS_MEGARAID_3408, 601 1.1 bouyer &mfii_iop_35 }, 602 1.1 bouyer { PCI_VENDOR_SYMBIOS, PCI_PRODUCT_SYMBIOS_MEGARAID_3508, 603 1.1 bouyer &mfii_iop_35 }, 604 1.1 bouyer { PCI_VENDOR_SYMBIOS, PCI_PRODUCT_SYMBIOS_MEGARAID_3416, 605 1.1 bouyer &mfii_iop_35 }, 606 1.1 bouyer { PCI_VENDOR_SYMBIOS, PCI_PRODUCT_SYMBIOS_MEGARAID_3516, 607 1.1 bouyer &mfii_iop_35 } 608 1.1 bouyer }; 609 1.1 bouyer 610 1.6 maxv static const struct mfii_iop *mfii_find_iop(struct pci_attach_args *); 611 1.1 bouyer 612 1.6 maxv static const struct mfii_iop * 613 1.1 bouyer mfii_find_iop(struct pci_attach_args *pa) 614 1.1 bouyer { 615 1.1 bouyer const struct mfii_device *mpd; 616 1.1 bouyer int i; 617 1.1 bouyer 618 1.1 bouyer for (i = 0; i < __arraycount(mfii_devices); i++) { 619 1.1 bouyer mpd = &mfii_devices[i]; 620 1.1 bouyer 621 1.1 bouyer if (mpd->mpd_vendor == PCI_VENDOR(pa->pa_id) && 622 1.1 bouyer mpd->mpd_product == PCI_PRODUCT(pa->pa_id)) 623 1.1 bouyer return (mpd->mpd_iop); 624 1.1 bouyer } 625 1.1 bouyer 626 1.1 bouyer return (NULL); 627 1.1 bouyer } 628 1.1 bouyer 629 1.6 maxv static int 630 1.1 bouyer mfii_match(device_t parent, cfdata_t match, void *aux) 631 1.1 bouyer { 632 1.1 bouyer return ((mfii_find_iop(aux) != NULL) ? 2 : 0); 633 1.1 bouyer } 634 1.1 bouyer 635 1.6 maxv static void 636 1.1 bouyer mfii_attach(device_t parent, device_t self, void *aux) 637 1.1 bouyer { 638 1.1 bouyer struct mfii_softc *sc = device_private(self); 639 1.1 bouyer struct pci_attach_args *pa = aux; 640 1.1 bouyer pcireg_t memtype; 641 1.1 bouyer pci_intr_handle_t ih; 642 1.1 bouyer char intrbuf[PCI_INTRSTR_LEN]; 643 1.1 bouyer const char *intrstr; 644 1.1 bouyer u_int32_t status, scpad2, scpad3; 645 1.1 bouyer int chain_frame_sz, nsge_in_io, nsge_in_chain, i; 646 1.1 bouyer struct scsipi_adapter *adapt = &sc->sc_adapt; 647 1.1 bouyer struct scsipi_channel *chan = &sc->sc_chan; 648 1.1 bouyer 649 1.1 bouyer /* init sc */ 650 1.1 bouyer sc->sc_dev = self; 651 1.1 bouyer sc->sc_iop = mfii_find_iop(aux); 652 1.1 bouyer sc->sc_dmat = pa->pa_dmat; 653 1.1 bouyer if (pci_dma64_available(pa)) { 654 1.1 bouyer sc->sc_dmat64 = pa->pa_dmat64; 655 1.1 bouyer sc->sc_64bit_dma = 1; 656 1.1 bouyer } else { 657 1.1 bouyer sc->sc_dmat64 = pa->pa_dmat; 658 1.1 bouyer sc->sc_64bit_dma = 0; 659 1.1 bouyer } 660 1.1 bouyer SIMPLEQ_INIT(&sc->sc_ccb_freeq); 661 1.1 bouyer mutex_init(&sc->sc_ccb_mtx, MUTEX_DEFAULT, IPL_BIO); 662 1.1 bouyer mutex_init(&sc->sc_post_mtx, MUTEX_DEFAULT, IPL_BIO); 663 1.1 bouyer mutex_init(&sc->sc_reply_postq_mtx, MUTEX_DEFAULT, IPL_BIO); 664 1.1 bouyer 665 1.1 bouyer mutex_init(&sc->sc_lock, MUTEX_DEFAULT, IPL_NONE); 666 1.1 bouyer 667 1.1 bouyer sc->sc_aen_ccb = NULL; 668 1.1 bouyer snprintf(intrbuf, sizeof(intrbuf) - 1, "%saen", device_xname(self)); 669 1.1 bouyer workqueue_create(&sc->sc_aen_wq, intrbuf, mfii_aen, sc, 670 1.1 bouyer PRI_BIO, IPL_BIO, WQ_MPSAFE); 671 1.1 bouyer 672 1.1 bouyer snprintf(intrbuf, sizeof(intrbuf) - 1, "%sabrt", device_xname(self)); 673 1.1 bouyer workqueue_create(&sc->sc_abort_wq, intrbuf, mfii_abort_task, 674 1.1 bouyer sc, PRI_BIO, IPL_BIO, WQ_MPSAFE); 675 1.1 bouyer 676 1.1 bouyer mutex_init(&sc->sc_abort_mtx, MUTEX_DEFAULT, IPL_BIO); 677 1.1 bouyer SIMPLEQ_INIT(&sc->sc_abort_list); 678 1.1 bouyer 679 1.1 bouyer /* wire up the bus shizz */ 680 1.1 bouyer memtype = pci_mapreg_type(pa->pa_pc, pa->pa_tag, sc->sc_iop->bar); 681 1.1 bouyer memtype |= PCI_MAPREG_MEM_TYPE_32BIT; 682 1.1 bouyer if (pci_mapreg_map(pa, sc->sc_iop->bar, memtype, 0, 683 1.1 bouyer &sc->sc_iot, &sc->sc_ioh, NULL, &sc->sc_ios)) { 684 1.1 bouyer aprint_error(": unable to map registers\n"); 685 1.1 bouyer return; 686 1.1 bouyer } 687 1.1 bouyer 688 1.1 bouyer /* disable interrupts */ 689 1.1 bouyer mfii_write(sc, MFI_OMSK, 0xffffffff); 690 1.1 bouyer 691 1.1 bouyer if (pci_intr_map(pa, &ih) != 0) { 692 1.1 bouyer aprint_error(": unable to map interrupt\n"); 693 1.1 bouyer goto pci_unmap; 694 1.1 bouyer } 695 1.1 bouyer intrstr = pci_intr_string(pa->pa_pc, ih, intrbuf, sizeof(intrbuf)); 696 1.1 bouyer pci_intr_setattr(pa->pa_pc, &ih, PCI_INTR_MPSAFE, true); 697 1.1 bouyer 698 1.1 bouyer /* lets get started */ 699 1.1 bouyer if (mfii_transition_firmware(sc)) 700 1.1 bouyer goto pci_unmap; 701 1.1 bouyer sc->sc_running = true; 702 1.1 bouyer 703 1.1 bouyer /* determine max_cmds (refer to the Linux megaraid_sas driver) */ 704 1.1 bouyer scpad3 = mfii_read(sc, MFII_OSP3); 705 1.1 bouyer status = mfii_fw_state(sc); 706 1.1 bouyer sc->sc_max_fw_cmds = scpad3 & MFI_STATE_MAXCMD_MASK; 707 1.1 bouyer if (sc->sc_max_fw_cmds == 0) 708 1.1 bouyer sc->sc_max_fw_cmds = status & MFI_STATE_MAXCMD_MASK; 709 1.1 bouyer /* 710 1.1 bouyer * reduce max_cmds by 1 to ensure that the reply queue depth does not 711 1.1 bouyer * exceed FW supplied max_fw_cmds. 712 1.1 bouyer */ 713 1.1 bouyer sc->sc_max_cmds = uimin(sc->sc_max_fw_cmds, 1024) - 1; 714 1.1 bouyer 715 1.1 bouyer /* determine max_sgl (refer to the Linux megaraid_sas driver) */ 716 1.1 bouyer scpad2 = mfii_read(sc, MFII_OSP2); 717 1.1 bouyer chain_frame_sz = 718 1.1 bouyer ((scpad2 & MFII_MAX_CHAIN_MASK) >> MFII_MAX_CHAIN_SHIFT) * 719 1.1 bouyer ((scpad2 & MFII_MAX_CHAIN_UNIT) ? MFII_1MB_IO : MFII_256K_IO); 720 1.1 bouyer if (chain_frame_sz < MFII_CHAIN_FRAME_MIN) 721 1.1 bouyer chain_frame_sz = MFII_CHAIN_FRAME_MIN; 722 1.1 bouyer 723 1.1 bouyer nsge_in_io = (MFII_REQUEST_SIZE - 724 1.1 bouyer sizeof(struct mpii_msg_scsi_io) - 725 1.1 bouyer sizeof(struct mfii_raid_context)) / sizeof(struct mfii_sge); 726 1.1 bouyer nsge_in_chain = chain_frame_sz / sizeof(struct mfii_sge); 727 1.1 bouyer 728 1.1 bouyer /* round down to nearest power of two */ 729 1.1 bouyer sc->sc_max_sgl = 1; 730 1.1 bouyer while ((sc->sc_max_sgl << 1) <= (nsge_in_io + nsge_in_chain)) 731 1.1 bouyer sc->sc_max_sgl <<= 1; 732 1.1 bouyer 733 1.1 bouyer DNPRINTF(MFII_D_MISC, "%s: OSP 0x%08x, OSP2 0x%08x, OSP3 0x%08x\n", 734 1.1 bouyer DEVNAME(sc), status, scpad2, scpad3); 735 1.1 bouyer DNPRINTF(MFII_D_MISC, "%s: max_fw_cmds %d, max_cmds %d\n", 736 1.1 bouyer DEVNAME(sc), sc->sc_max_fw_cmds, sc->sc_max_cmds); 737 1.1 bouyer DNPRINTF(MFII_D_MISC, "%s: nsge_in_io %d, nsge_in_chain %d, " 738 1.1 bouyer "max_sgl %d\n", DEVNAME(sc), nsge_in_io, nsge_in_chain, 739 1.1 bouyer sc->sc_max_sgl); 740 1.1 bouyer 741 1.1 bouyer /* sense memory */ 742 1.1 bouyer CTASSERT(sizeof(struct mfi_sense) == MFI_SENSE_SIZE); 743 1.1 bouyer sc->sc_sense = mfii_dmamem_alloc(sc, sc->sc_max_cmds * MFI_SENSE_SIZE); 744 1.1 bouyer if (sc->sc_sense == NULL) { 745 1.1 bouyer aprint_error(": unable to allocate sense memory\n"); 746 1.1 bouyer goto pci_unmap; 747 1.1 bouyer } 748 1.1 bouyer 749 1.1 bouyer /* reply post queue */ 750 1.1 bouyer sc->sc_reply_postq_depth = roundup(sc->sc_max_fw_cmds, 16); 751 1.1 bouyer 752 1.1 bouyer sc->sc_reply_postq = mfii_dmamem_alloc(sc, 753 1.1 bouyer sc->sc_reply_postq_depth * sizeof(struct mpii_reply_descr)); 754 1.1 bouyer if (sc->sc_reply_postq == NULL) 755 1.1 bouyer goto free_sense; 756 1.1 bouyer 757 1.1 bouyer memset(MFII_DMA_KVA(sc->sc_reply_postq), 0xff, 758 1.1 bouyer MFII_DMA_LEN(sc->sc_reply_postq)); 759 1.1 bouyer 760 1.1 bouyer /* MPII request frame array */ 761 1.1 bouyer sc->sc_requests = mfii_dmamem_alloc(sc, 762 1.1 bouyer MFII_REQUEST_SIZE * (sc->sc_max_cmds + 1)); 763 1.1 bouyer if (sc->sc_requests == NULL) 764 1.1 bouyer goto free_reply_postq; 765 1.1 bouyer 766 1.1 bouyer /* MFI command frame array */ 767 1.1 bouyer sc->sc_mfi = mfii_dmamem_alloc(sc, sc->sc_max_cmds * MFI_FRAME_SIZE); 768 1.1 bouyer if (sc->sc_mfi == NULL) 769 1.1 bouyer goto free_requests; 770 1.1 bouyer 771 1.1 bouyer /* MPII SGL array */ 772 1.1 bouyer sc->sc_sgl = mfii_dmamem_alloc(sc, sc->sc_max_cmds * 773 1.1 bouyer sizeof(struct mfii_sge) * sc->sc_max_sgl); 774 1.1 bouyer if (sc->sc_sgl == NULL) 775 1.1 bouyer goto free_mfi; 776 1.1 bouyer 777 1.1 bouyer if (mfii_init_ccb(sc) != 0) { 778 1.1 bouyer aprint_error(": could not init ccb list\n"); 779 1.1 bouyer goto free_sgl; 780 1.1 bouyer } 781 1.1 bouyer 782 1.1 bouyer /* kickstart firmware with all addresses and pointers */ 783 1.1 bouyer if (mfii_initialise_firmware(sc) != 0) { 784 1.1 bouyer aprint_error(": could not initialize firmware\n"); 785 1.1 bouyer goto free_sgl; 786 1.1 bouyer } 787 1.1 bouyer 788 1.1 bouyer mutex_enter(&sc->sc_lock); 789 1.1 bouyer if (mfii_get_info(sc) != 0) { 790 1.1 bouyer mutex_exit(&sc->sc_lock); 791 1.1 bouyer aprint_error(": could not retrieve controller information\n"); 792 1.1 bouyer goto free_sgl; 793 1.1 bouyer } 794 1.1 bouyer mutex_exit(&sc->sc_lock); 795 1.1 bouyer 796 1.1 bouyer aprint_normal(": \"%s\", firmware %s", 797 1.1 bouyer sc->sc_info.mci_product_name, sc->sc_info.mci_package_version); 798 1.1 bouyer if (le16toh(sc->sc_info.mci_memory_size) > 0) { 799 1.1 bouyer aprint_normal(", %uMB cache", 800 1.1 bouyer le16toh(sc->sc_info.mci_memory_size)); 801 1.1 bouyer } 802 1.1 bouyer aprint_normal("\n"); 803 1.1 bouyer aprint_naive("\n"); 804 1.1 bouyer 805 1.1 bouyer sc->sc_ih = pci_intr_establish_xname(sc->sc_pc, ih, IPL_BIO, 806 1.1 bouyer mfii_intr, sc, DEVNAME(sc)); 807 1.1 bouyer if (sc->sc_ih == NULL) { 808 1.1 bouyer aprint_error_dev(self, "can't establish interrupt"); 809 1.1 bouyer if (intrstr) 810 1.1 bouyer aprint_error(" at %s", intrstr); 811 1.1 bouyer aprint_error("\n"); 812 1.1 bouyer goto free_sgl; 813 1.1 bouyer } 814 1.1 bouyer aprint_normal_dev(self, "interrupting at %s\n", intrstr); 815 1.1 bouyer 816 1.1 bouyer for (i = 0; i < sc->sc_info.mci_lds_present; i++) 817 1.1 bouyer sc->sc_ld[i].ld_present = 1; 818 1.1 bouyer 819 1.1 bouyer memset(adapt, 0, sizeof(*adapt)); 820 1.1 bouyer adapt->adapt_dev = sc->sc_dev; 821 1.1 bouyer adapt->adapt_nchannels = 1; 822 1.1 bouyer /* keep a few commands for management */ 823 1.1 bouyer if (sc->sc_max_cmds > 4) 824 1.1 bouyer adapt->adapt_openings = sc->sc_max_cmds - 4; 825 1.1 bouyer else 826 1.1 bouyer adapt->adapt_openings = sc->sc_max_cmds; 827 1.1 bouyer adapt->adapt_max_periph = adapt->adapt_openings; 828 1.1 bouyer adapt->adapt_request = mfii_scsipi_request; 829 1.1 bouyer adapt->adapt_minphys = minphys; 830 1.1 bouyer adapt->adapt_flags = SCSIPI_ADAPT_MPSAFE; 831 1.1 bouyer 832 1.1 bouyer memset(chan, 0, sizeof(*chan)); 833 1.1 bouyer chan->chan_adapter = adapt; 834 1.1 bouyer chan->chan_bustype = &scsi_sas_bustype; 835 1.1 bouyer chan->chan_channel = 0; 836 1.1 bouyer chan->chan_flags = 0; 837 1.1 bouyer chan->chan_nluns = 8; 838 1.1 bouyer chan->chan_ntargets = sc->sc_info.mci_max_lds; 839 1.1 bouyer chan->chan_id = sc->sc_info.mci_max_lds; 840 1.1 bouyer 841 1.7.4.2 thorpej mfii_rescan(sc->sc_dev, NULL, NULL); 842 1.1 bouyer 843 1.1 bouyer if (mfii_aen_register(sc) != 0) { 844 1.1 bouyer /* error printed by mfii_aen_register */ 845 1.1 bouyer goto intr_disestablish; 846 1.1 bouyer } 847 1.1 bouyer 848 1.1 bouyer mutex_enter(&sc->sc_lock); 849 1.1 bouyer if (mfii_mgmt(sc, MR_DCMD_LD_GET_LIST, NULL, &sc->sc_ld_list, 850 1.1 bouyer sizeof(sc->sc_ld_list), MFII_DATA_IN, true) != 0) { 851 1.1 bouyer mutex_exit(&sc->sc_lock); 852 1.1 bouyer aprint_error_dev(self, 853 1.1 bouyer "getting list of logical disks failed\n"); 854 1.1 bouyer goto intr_disestablish; 855 1.1 bouyer } 856 1.1 bouyer mutex_exit(&sc->sc_lock); 857 1.1 bouyer memset(sc->sc_target_lds, -1, sizeof(sc->sc_target_lds)); 858 1.1 bouyer for (i = 0; i < sc->sc_ld_list.mll_no_ld; i++) { 859 1.1 bouyer int target = sc->sc_ld_list.mll_list[i].mll_ld.mld_target; 860 1.1 bouyer sc->sc_target_lds[target] = i; 861 1.1 bouyer } 862 1.1 bouyer 863 1.1 bouyer /* enable interrupts */ 864 1.1 bouyer mfii_write(sc, MFI_OSTS, 0xffffffff); 865 1.1 bouyer mfii_write(sc, MFI_OMSK, ~MFII_OSTS_INTR_VALID); 866 1.1 bouyer 867 1.1 bouyer #if NBIO > 0 868 1.1 bouyer if (bio_register(sc->sc_dev, mfii_ioctl) != 0) 869 1.1 bouyer panic("%s: controller registration failed", DEVNAME(sc)); 870 1.1 bouyer #endif /* NBIO > 0 */ 871 1.1 bouyer 872 1.1 bouyer if (mfii_create_sensors(sc) != 0) 873 1.1 bouyer aprint_error_dev(self, "unable to create sensors\n"); 874 1.1 bouyer 875 1.1 bouyer if (!pmf_device_register1(sc->sc_dev, mfii_suspend, mfii_resume, 876 1.1 bouyer mfii_shutdown)) 877 1.1 bouyer aprint_error_dev(self, "couldn't establish power handler\n"); 878 1.1 bouyer return; 879 1.1 bouyer intr_disestablish: 880 1.1 bouyer pci_intr_disestablish(sc->sc_pc, sc->sc_ih); 881 1.1 bouyer free_sgl: 882 1.1 bouyer mfii_dmamem_free(sc, sc->sc_sgl); 883 1.1 bouyer free_mfi: 884 1.1 bouyer mfii_dmamem_free(sc, sc->sc_mfi); 885 1.1 bouyer free_requests: 886 1.1 bouyer mfii_dmamem_free(sc, sc->sc_requests); 887 1.1 bouyer free_reply_postq: 888 1.1 bouyer mfii_dmamem_free(sc, sc->sc_reply_postq); 889 1.1 bouyer free_sense: 890 1.1 bouyer mfii_dmamem_free(sc, sc->sc_sense); 891 1.1 bouyer pci_unmap: 892 1.1 bouyer bus_space_unmap(sc->sc_iot, sc->sc_ioh, sc->sc_ios); 893 1.1 bouyer } 894 1.1 bouyer 895 1.1 bouyer #if 0 896 1.1 bouyer struct srp_gc mfii_dev_handles_gc = 897 1.1 bouyer SRP_GC_INITIALIZER(mfii_dev_handles_dtor, NULL); 898 1.1 bouyer 899 1.1 bouyer static inline uint16_t 900 1.1 bouyer mfii_dev_handle(struct mfii_softc *sc, uint16_t target) 901 1.1 bouyer { 902 1.1 bouyer struct srp_ref sr; 903 1.1 bouyer uint16_t *map, handle; 904 1.1 bouyer 905 1.1 bouyer map = srp_enter(&sr, &sc->sc_pd->pd_dev_handles); 906 1.1 bouyer handle = map[target]; 907 1.1 bouyer srp_leave(&sr); 908 1.1 bouyer 909 1.1 bouyer return (handle); 910 1.1 bouyer } 911 1.1 bouyer 912 1.6 maxv static int 913 1.1 bouyer mfii_dev_handles_update(struct mfii_softc *sc) 914 1.1 bouyer { 915 1.1 bouyer struct mfii_ld_map *lm; 916 1.1 bouyer uint16_t *dev_handles = NULL; 917 1.1 bouyer int i; 918 1.1 bouyer int rv = 0; 919 1.1 bouyer 920 1.1 bouyer lm = malloc(sizeof(*lm), M_TEMP, M_WAITOK|M_ZERO); 921 1.1 bouyer 922 1.1 bouyer rv = mfii_mgmt(sc, MR_DCMD_LD_MAP_GET_INFO, NULL, lm, sizeof(*lm), 923 1.1 bouyer MFII_DATA_IN, false); 924 1.1 bouyer 925 1.1 bouyer if (rv != 0) { 926 1.1 bouyer rv = EIO; 927 1.1 bouyer goto free_lm; 928 1.1 bouyer } 929 1.1 bouyer 930 1.1 bouyer dev_handles = mallocarray(MFI_MAX_PD, sizeof(*dev_handles), 931 1.1 bouyer M_DEVBUF, M_WAITOK); 932 1.1 bouyer 933 1.1 bouyer for (i = 0; i < MFI_MAX_PD; i++) 934 1.1 bouyer dev_handles[i] = lm->mlm_dev_handle[i].mdh_cur_handle; 935 1.1 bouyer 936 1.1 bouyer /* commit the updated info */ 937 1.1 bouyer sc->sc_pd->pd_timeout = lm->mlm_pd_timeout; 938 1.1 bouyer srp_update_locked(&mfii_dev_handles_gc, 939 1.1 bouyer &sc->sc_pd->pd_dev_handles, dev_handles); 940 1.1 bouyer 941 1.1 bouyer free_lm: 942 1.1 bouyer free(lm, M_TEMP, sizeof(*lm)); 943 1.1 bouyer 944 1.1 bouyer return (rv); 945 1.1 bouyer } 946 1.1 bouyer 947 1.6 maxv static void 948 1.1 bouyer mfii_dev_handles_dtor(void *null, void *v) 949 1.1 bouyer { 950 1.1 bouyer uint16_t *dev_handles = v; 951 1.1 bouyer 952 1.1 bouyer free(dev_handles, M_DEVBUF, sizeof(*dev_handles) * MFI_MAX_PD); 953 1.1 bouyer } 954 1.1 bouyer #endif /* 0 */ 955 1.1 bouyer 956 1.6 maxv static int 957 1.1 bouyer mfii_detach(device_t self, int flags) 958 1.1 bouyer { 959 1.1 bouyer struct mfii_softc *sc = device_private(self); 960 1.1 bouyer int error; 961 1.1 bouyer 962 1.1 bouyer if (sc->sc_ih == NULL) 963 1.1 bouyer return (0); 964 1.1 bouyer 965 1.1 bouyer if ((error = config_detach_children(sc->sc_dev, flags)) != 0) 966 1.1 bouyer return error; 967 1.1 bouyer 968 1.1 bouyer mfii_destroy_sensors(sc); 969 1.1 bouyer #if NBIO > 0 970 1.1 bouyer bio_unregister(sc->sc_dev); 971 1.1 bouyer #endif 972 1.1 bouyer mfii_shutdown(sc->sc_dev, 0); 973 1.1 bouyer mfii_write(sc, MFI_OMSK, 0xffffffff); 974 1.1 bouyer 975 1.1 bouyer mfii_aen_unregister(sc); 976 1.1 bouyer pci_intr_disestablish(sc->sc_pc, sc->sc_ih); 977 1.1 bouyer mfii_dmamem_free(sc, sc->sc_sgl); 978 1.1 bouyer mfii_dmamem_free(sc, sc->sc_mfi); 979 1.1 bouyer mfii_dmamem_free(sc, sc->sc_requests); 980 1.1 bouyer mfii_dmamem_free(sc, sc->sc_reply_postq); 981 1.1 bouyer mfii_dmamem_free(sc, sc->sc_sense); 982 1.1 bouyer bus_space_unmap(sc->sc_iot, sc->sc_ioh, sc->sc_ios); 983 1.1 bouyer 984 1.1 bouyer return (0); 985 1.1 bouyer } 986 1.1 bouyer 987 1.6 maxv static int 988 1.1 bouyer mfii_rescan(device_t self, const char *ifattr, const int *locators) 989 1.1 bouyer { 990 1.1 bouyer struct mfii_softc *sc = device_private(self); 991 1.1 bouyer if (sc->sc_child != NULL) 992 1.1 bouyer return 0; 993 1.1 bouyer 994 1.7.4.1 thorpej sc->sc_child = config_found(self, &sc->sc_chan, scsiprint, 995 1.7.4.1 thorpej CFARG_IATTR, ifattr, 996 1.7.4.1 thorpej CFARG_LOCATORS, locators, 997 1.7.4.1 thorpej CFARG_EOL); 998 1.1 bouyer return 0; 999 1.1 bouyer } 1000 1.1 bouyer 1001 1.6 maxv static void 1002 1.1 bouyer mfii_childdetached(device_t self, device_t child) 1003 1.1 bouyer { 1004 1.1 bouyer struct mfii_softc *sc = device_private(self); 1005 1.1 bouyer 1006 1.1 bouyer KASSERT(self == sc->sc_dev); 1007 1.1 bouyer KASSERT(child == sc->sc_child); 1008 1.1 bouyer 1009 1.1 bouyer if (child == sc->sc_child) 1010 1.1 bouyer sc->sc_child = NULL; 1011 1.1 bouyer } 1012 1.1 bouyer 1013 1.1 bouyer static bool 1014 1.1 bouyer mfii_suspend(device_t dev, const pmf_qual_t *q) 1015 1.1 bouyer { 1016 1.1 bouyer /* XXX to be implemented */ 1017 1.1 bouyer return false; 1018 1.1 bouyer } 1019 1.1 bouyer 1020 1.1 bouyer static bool 1021 1.1 bouyer mfii_resume(device_t dev, const pmf_qual_t *q) 1022 1.1 bouyer { 1023 1.1 bouyer /* XXX to be implemented */ 1024 1.1 bouyer return false; 1025 1.1 bouyer } 1026 1.1 bouyer 1027 1.1 bouyer static bool 1028 1.1 bouyer mfii_shutdown(device_t dev, int how) 1029 1.1 bouyer { 1030 1.1 bouyer struct mfii_softc *sc = device_private(dev); 1031 1.1 bouyer struct mfii_ccb *ccb; 1032 1.1 bouyer union mfi_mbox mbox; 1033 1.7 msaitoh bool rv = true; 1034 1.1 bouyer 1035 1.1 bouyer memset(&mbox, 0, sizeof(mbox)); 1036 1.1 bouyer 1037 1.1 bouyer mutex_enter(&sc->sc_lock); 1038 1.1 bouyer DNPRINTF(MFI_D_MISC, "%s: mfii_shutdown\n", DEVNAME(sc)); 1039 1.1 bouyer ccb = mfii_get_ccb(sc); 1040 1.1 bouyer if (ccb == NULL) 1041 1.1 bouyer return false; 1042 1.1 bouyer mutex_enter(&sc->sc_ccb_mtx); 1043 1.1 bouyer if (sc->sc_running) { 1044 1.1 bouyer sc->sc_running = 0; /* prevent new commands */ 1045 1.1 bouyer mutex_exit(&sc->sc_ccb_mtx); 1046 1.1 bouyer #if 0 /* XXX why does this hang ? */ 1047 1.1 bouyer mbox.b[0] = MR_FLUSH_CTRL_CACHE | MR_FLUSH_DISK_CACHE; 1048 1.1 bouyer mfii_scrub_ccb(ccb); 1049 1.1 bouyer if (mfii_do_mgmt(sc, ccb, MR_DCMD_CTRL_CACHE_FLUSH, &mbox, 1050 1.1 bouyer NULL, 0, MFII_DATA_NONE, true)) { 1051 1.1 bouyer aprint_error_dev(dev, "shutdown: cache flush failed\n"); 1052 1.1 bouyer rv = false; 1053 1.1 bouyer goto fail; 1054 1.1 bouyer } 1055 1.1 bouyer printf("ok1\n"); 1056 1.1 bouyer #endif 1057 1.1 bouyer mbox.b[0] = 0; 1058 1.1 bouyer mfii_scrub_ccb(ccb); 1059 1.1 bouyer if (mfii_do_mgmt(sc, ccb, MR_DCMD_CTRL_SHUTDOWN, &mbox, 1060 1.1 bouyer NULL, 0, MFII_DATA_NONE, true)) { 1061 1.1 bouyer aprint_error_dev(dev, "shutdown: " 1062 1.1 bouyer "firmware shutdown failed\n"); 1063 1.1 bouyer rv = false; 1064 1.1 bouyer goto fail; 1065 1.1 bouyer } 1066 1.1 bouyer } else { 1067 1.1 bouyer mutex_exit(&sc->sc_ccb_mtx); 1068 1.1 bouyer } 1069 1.1 bouyer fail: 1070 1.1 bouyer mfii_put_ccb(sc, ccb); 1071 1.1 bouyer mutex_exit(&sc->sc_lock); 1072 1.1 bouyer return rv; 1073 1.1 bouyer } 1074 1.1 bouyer 1075 1.1 bouyer static u_int32_t 1076 1.1 bouyer mfii_read(struct mfii_softc *sc, bus_size_t r) 1077 1.1 bouyer { 1078 1.1 bouyer bus_space_barrier(sc->sc_iot, sc->sc_ioh, r, 4, 1079 1.1 bouyer BUS_SPACE_BARRIER_READ); 1080 1.1 bouyer return (bus_space_read_4(sc->sc_iot, sc->sc_ioh, r)); 1081 1.1 bouyer } 1082 1.1 bouyer 1083 1.1 bouyer static void 1084 1.1 bouyer mfii_write(struct mfii_softc *sc, bus_size_t r, u_int32_t v) 1085 1.1 bouyer { 1086 1.1 bouyer bus_space_write_4(sc->sc_iot, sc->sc_ioh, r, v); 1087 1.1 bouyer bus_space_barrier(sc->sc_iot, sc->sc_ioh, r, 4, 1088 1.1 bouyer BUS_SPACE_BARRIER_WRITE); 1089 1.1 bouyer } 1090 1.1 bouyer 1091 1.6 maxv static struct mfii_dmamem * 1092 1.1 bouyer mfii_dmamem_alloc(struct mfii_softc *sc, size_t size) 1093 1.1 bouyer { 1094 1.1 bouyer struct mfii_dmamem *m; 1095 1.1 bouyer int nsegs; 1096 1.1 bouyer 1097 1.5 chs m = malloc(sizeof(*m), M_DEVBUF, M_WAITOK | M_ZERO); 1098 1.1 bouyer m->mdm_size = size; 1099 1.1 bouyer 1100 1.1 bouyer if (bus_dmamap_create(sc->sc_dmat, size, 1, size, 0, 1101 1.1 bouyer BUS_DMA_NOWAIT | BUS_DMA_ALLOCNOW, &m->mdm_map) != 0) 1102 1.1 bouyer goto mdmfree; 1103 1.1 bouyer 1104 1.1 bouyer if (bus_dmamem_alloc(sc->sc_dmat, size, PAGE_SIZE, 0, &m->mdm_seg, 1, 1105 1.1 bouyer &nsegs, BUS_DMA_NOWAIT) != 0) 1106 1.1 bouyer goto destroy; 1107 1.1 bouyer 1108 1.1 bouyer if (bus_dmamem_map(sc->sc_dmat, &m->mdm_seg, nsegs, size, &m->mdm_kva, 1109 1.1 bouyer BUS_DMA_NOWAIT) != 0) 1110 1.1 bouyer goto free; 1111 1.1 bouyer 1112 1.1 bouyer if (bus_dmamap_load(sc->sc_dmat, m->mdm_map, m->mdm_kva, size, NULL, 1113 1.1 bouyer BUS_DMA_NOWAIT) != 0) 1114 1.1 bouyer goto unmap; 1115 1.1 bouyer 1116 1.1 bouyer memset(m->mdm_kva, 0, size); 1117 1.1 bouyer return (m); 1118 1.1 bouyer 1119 1.1 bouyer unmap: 1120 1.1 bouyer bus_dmamem_unmap(sc->sc_dmat, m->mdm_kva, m->mdm_size); 1121 1.1 bouyer free: 1122 1.1 bouyer bus_dmamem_free(sc->sc_dmat, &m->mdm_seg, 1); 1123 1.1 bouyer destroy: 1124 1.1 bouyer bus_dmamap_destroy(sc->sc_dmat, m->mdm_map); 1125 1.1 bouyer mdmfree: 1126 1.1 bouyer free(m, M_DEVBUF); 1127 1.1 bouyer 1128 1.1 bouyer return (NULL); 1129 1.1 bouyer } 1130 1.1 bouyer 1131 1.6 maxv static void 1132 1.1 bouyer mfii_dmamem_free(struct mfii_softc *sc, struct mfii_dmamem *m) 1133 1.1 bouyer { 1134 1.1 bouyer bus_dmamap_unload(sc->sc_dmat, m->mdm_map); 1135 1.1 bouyer bus_dmamem_unmap(sc->sc_dmat, m->mdm_kva, m->mdm_size); 1136 1.1 bouyer bus_dmamem_free(sc->sc_dmat, &m->mdm_seg, 1); 1137 1.1 bouyer bus_dmamap_destroy(sc->sc_dmat, m->mdm_map); 1138 1.1 bouyer free(m, M_DEVBUF); 1139 1.1 bouyer } 1140 1.1 bouyer 1141 1.6 maxv static void 1142 1.1 bouyer mfii_dcmd_start(struct mfii_softc *sc, struct mfii_ccb *ccb) 1143 1.1 bouyer { 1144 1.1 bouyer struct mpii_msg_scsi_io *io = ccb->ccb_request; 1145 1.1 bouyer struct mfii_raid_context *ctx = (struct mfii_raid_context *)(io + 1); 1146 1.1 bouyer struct mfii_sge *sge = (struct mfii_sge *)(ctx + 1); 1147 1.1 bouyer 1148 1.1 bouyer io->function = MFII_FUNCTION_PASSTHRU_IO; 1149 1.1 bouyer io->sgl_offset0 = (uint32_t *)sge - (uint32_t *)io; 1150 1.1 bouyer io->chain_offset = io->sgl_offset0 / 4; 1151 1.1 bouyer 1152 1.1 bouyer sge->sg_addr = htole64(ccb->ccb_sense_dva); 1153 1.1 bouyer sge->sg_len = htole32(sizeof(*ccb->ccb_sense)); 1154 1.1 bouyer sge->sg_flags = MFII_SGE_CHAIN_ELEMENT | MFII_SGE_ADDR_IOCPLBNTA; 1155 1.1 bouyer 1156 1.1 bouyer ccb->ccb_req.flags = MFII_REQ_TYPE_SCSI; 1157 1.1 bouyer ccb->ccb_req.smid = le16toh(ccb->ccb_smid); 1158 1.1 bouyer 1159 1.1 bouyer mfii_start(sc, ccb); 1160 1.1 bouyer } 1161 1.1 bouyer 1162 1.6 maxv static int 1163 1.1 bouyer mfii_aen_register(struct mfii_softc *sc) 1164 1.1 bouyer { 1165 1.1 bouyer struct mfi_evt_log_info mel; 1166 1.1 bouyer struct mfii_ccb *ccb; 1167 1.1 bouyer struct mfii_dmamem *mdm; 1168 1.1 bouyer int rv; 1169 1.1 bouyer 1170 1.1 bouyer ccb = mfii_get_ccb(sc); 1171 1.1 bouyer if (ccb == NULL) { 1172 1.1 bouyer printf("%s: unable to allocate ccb for aen\n", DEVNAME(sc)); 1173 1.1 bouyer return (ENOMEM); 1174 1.1 bouyer } 1175 1.1 bouyer 1176 1.1 bouyer memset(&mel, 0, sizeof(mel)); 1177 1.1 bouyer mfii_scrub_ccb(ccb); 1178 1.1 bouyer 1179 1.1 bouyer rv = mfii_do_mgmt(sc, ccb, MR_DCMD_CTRL_EVENT_GET_INFO, NULL, 1180 1.1 bouyer &mel, sizeof(mel), MFII_DATA_IN, true); 1181 1.1 bouyer if (rv != 0) { 1182 1.1 bouyer mfii_put_ccb(sc, ccb); 1183 1.1 bouyer aprint_error_dev(sc->sc_dev, "unable to get event info\n"); 1184 1.1 bouyer return (EIO); 1185 1.1 bouyer } 1186 1.1 bouyer 1187 1.1 bouyer mdm = mfii_dmamem_alloc(sc, sizeof(struct mfi_evt_detail)); 1188 1.1 bouyer if (mdm == NULL) { 1189 1.1 bouyer mfii_put_ccb(sc, ccb); 1190 1.1 bouyer aprint_error_dev(sc->sc_dev, "unable to allocate event data\n"); 1191 1.1 bouyer return (ENOMEM); 1192 1.1 bouyer } 1193 1.1 bouyer 1194 1.1 bouyer /* replay all the events from boot */ 1195 1.1 bouyer mfii_aen_start(sc, ccb, mdm, le32toh(mel.mel_boot_seq_num)); 1196 1.1 bouyer 1197 1.1 bouyer return (0); 1198 1.1 bouyer } 1199 1.1 bouyer 1200 1.6 maxv static void 1201 1.1 bouyer mfii_aen_start(struct mfii_softc *sc, struct mfii_ccb *ccb, 1202 1.1 bouyer struct mfii_dmamem *mdm, uint32_t seq) 1203 1.1 bouyer { 1204 1.1 bouyer struct mfi_dcmd_frame *dcmd = mfii_dcmd_frame(ccb); 1205 1.1 bouyer struct mfi_frame_header *hdr = &dcmd->mdf_header; 1206 1.1 bouyer union mfi_sgl *sgl = &dcmd->mdf_sgl; 1207 1.1 bouyer union mfi_evt_class_locale mec; 1208 1.1 bouyer 1209 1.1 bouyer mfii_scrub_ccb(ccb); 1210 1.1 bouyer mfii_dcmd_scrub(ccb); 1211 1.1 bouyer memset(MFII_DMA_KVA(mdm), 0, MFII_DMA_LEN(mdm)); 1212 1.1 bouyer 1213 1.1 bouyer ccb->ccb_cookie = mdm; 1214 1.1 bouyer ccb->ccb_done = mfii_aen_done; 1215 1.1 bouyer sc->sc_aen_ccb = ccb; 1216 1.1 bouyer 1217 1.1 bouyer mec.mec_members.class = MFI_EVT_CLASS_DEBUG; 1218 1.1 bouyer mec.mec_members.reserved = 0; 1219 1.1 bouyer mec.mec_members.locale = htole16(MFI_EVT_LOCALE_ALL); 1220 1.1 bouyer 1221 1.1 bouyer hdr->mfh_cmd = MFI_CMD_DCMD; 1222 1.1 bouyer hdr->mfh_sg_count = 1; 1223 1.1 bouyer hdr->mfh_flags = htole16(MFI_FRAME_DIR_READ | MFI_FRAME_SGL64); 1224 1.1 bouyer hdr->mfh_data_len = htole32(MFII_DMA_LEN(mdm)); 1225 1.1 bouyer dcmd->mdf_opcode = htole32(MR_DCMD_CTRL_EVENT_WAIT); 1226 1.1 bouyer dcmd->mdf_mbox.w[0] = htole32(seq); 1227 1.1 bouyer dcmd->mdf_mbox.w[1] = htole32(mec.mec_word); 1228 1.1 bouyer sgl->sg64[0].addr = htole64(MFII_DMA_DVA(mdm)); 1229 1.1 bouyer sgl->sg64[0].len = htole32(MFII_DMA_LEN(mdm)); 1230 1.1 bouyer 1231 1.1 bouyer bus_dmamap_sync(sc->sc_dmat, MFII_DMA_MAP(mdm), 1232 1.1 bouyer 0, MFII_DMA_LEN(mdm), BUS_DMASYNC_PREREAD); 1233 1.1 bouyer 1234 1.1 bouyer mfii_dcmd_sync(sc, ccb, BUS_DMASYNC_PREREAD|BUS_DMASYNC_PREWRITE); 1235 1.1 bouyer mfii_dcmd_start(sc, ccb); 1236 1.1 bouyer } 1237 1.1 bouyer 1238 1.6 maxv static void 1239 1.1 bouyer mfii_aen_done(struct mfii_softc *sc, struct mfii_ccb *ccb) 1240 1.1 bouyer { 1241 1.1 bouyer KASSERT(sc->sc_aen_ccb == ccb); 1242 1.1 bouyer 1243 1.1 bouyer /* 1244 1.1 bouyer * defer to a thread with KERNEL_LOCK so we can run autoconf 1245 1.1 bouyer * We shouldn't have more than one AEN command pending at a time, 1246 1.1 bouyer * so no need to lock 1247 1.1 bouyer */ 1248 1.1 bouyer if (sc->sc_running) 1249 1.1 bouyer workqueue_enqueue(sc->sc_aen_wq, &sc->sc_aen_work, NULL); 1250 1.1 bouyer } 1251 1.1 bouyer 1252 1.6 maxv static void 1253 1.1 bouyer mfii_aen(struct work *wk, void *arg) 1254 1.1 bouyer { 1255 1.1 bouyer struct mfii_softc *sc = arg; 1256 1.1 bouyer struct mfii_ccb *ccb = sc->sc_aen_ccb; 1257 1.1 bouyer struct mfii_dmamem *mdm = ccb->ccb_cookie; 1258 1.1 bouyer const struct mfi_evt_detail *med = MFII_DMA_KVA(mdm); 1259 1.1 bouyer 1260 1.1 bouyer mfii_dcmd_sync(sc, ccb, 1261 1.1 bouyer BUS_DMASYNC_POSTREAD|BUS_DMASYNC_POSTWRITE); 1262 1.1 bouyer bus_dmamap_sync(sc->sc_dmat, MFII_DMA_MAP(mdm), 1263 1.1 bouyer 0, MFII_DMA_LEN(mdm), BUS_DMASYNC_POSTREAD); 1264 1.1 bouyer 1265 1.1 bouyer DNPRINTF(MFII_D_MISC, "%s: %u %08x %02x %s\n", DEVNAME(sc), 1266 1.1 bouyer le32toh(med->med_seq_num), le32toh(med->med_code), 1267 1.1 bouyer med->med_arg_type, med->med_description); 1268 1.1 bouyer 1269 1.1 bouyer switch (le32toh(med->med_code)) { 1270 1.1 bouyer case MR_EVT_PD_INSERTED_EXT: 1271 1.1 bouyer if (med->med_arg_type != MR_EVT_ARGS_PD_ADDRESS) 1272 1.1 bouyer break; 1273 1.1 bouyer 1274 1.1 bouyer mfii_aen_pd_insert(sc, &med->args.pd_address); 1275 1.1 bouyer break; 1276 1.1 bouyer case MR_EVT_PD_REMOVED_EXT: 1277 1.1 bouyer if (med->med_arg_type != MR_EVT_ARGS_PD_ADDRESS) 1278 1.1 bouyer break; 1279 1.1 bouyer 1280 1.1 bouyer mfii_aen_pd_remove(sc, &med->args.pd_address); 1281 1.1 bouyer break; 1282 1.1 bouyer 1283 1.1 bouyer case MR_EVT_PD_STATE_CHANGE: 1284 1.1 bouyer if (med->med_arg_type != MR_EVT_ARGS_PD_STATE) 1285 1.1 bouyer break; 1286 1.1 bouyer 1287 1.1 bouyer mfii_aen_pd_state_change(sc, &med->args.pd_state); 1288 1.1 bouyer break; 1289 1.1 bouyer 1290 1.1 bouyer case MR_EVT_LD_CREATED: 1291 1.1 bouyer case MR_EVT_LD_DELETED: 1292 1.1 bouyer mfii_aen_ld_update(sc); 1293 1.1 bouyer break; 1294 1.1 bouyer 1295 1.1 bouyer default: 1296 1.1 bouyer break; 1297 1.1 bouyer } 1298 1.1 bouyer 1299 1.1 bouyer mfii_aen_start(sc, ccb, mdm, le32toh(med->med_seq_num) + 1); 1300 1.1 bouyer } 1301 1.1 bouyer 1302 1.6 maxv static void 1303 1.1 bouyer mfii_aen_pd_insert(struct mfii_softc *sc, 1304 1.1 bouyer const struct mfi_evtarg_pd_address *pd) 1305 1.1 bouyer { 1306 1.1 bouyer printf("%s: physical disk inserted id %d enclosure %d\n", DEVNAME(sc), 1307 1.1 bouyer le16toh(pd->device_id), le16toh(pd->encl_id)); 1308 1.1 bouyer } 1309 1.1 bouyer 1310 1.6 maxv static void 1311 1.1 bouyer mfii_aen_pd_remove(struct mfii_softc *sc, 1312 1.1 bouyer const struct mfi_evtarg_pd_address *pd) 1313 1.1 bouyer { 1314 1.1 bouyer printf("%s: physical disk removed id %d enclosure %d\n", DEVNAME(sc), 1315 1.1 bouyer le16toh(pd->device_id), le16toh(pd->encl_id)); 1316 1.1 bouyer } 1317 1.1 bouyer 1318 1.6 maxv static void 1319 1.1 bouyer mfii_aen_pd_state_change(struct mfii_softc *sc, 1320 1.1 bouyer const struct mfi_evtarg_pd_state *state) 1321 1.1 bouyer { 1322 1.1 bouyer return; 1323 1.1 bouyer } 1324 1.1 bouyer 1325 1.6 maxv static void 1326 1.1 bouyer mfii_aen_ld_update(struct mfii_softc *sc) 1327 1.1 bouyer { 1328 1.1 bouyer int i, target, old, nld; 1329 1.1 bouyer int newlds[MFI_MAX_LD]; 1330 1.1 bouyer 1331 1.1 bouyer mutex_enter(&sc->sc_lock); 1332 1.1 bouyer if (mfii_mgmt(sc, MR_DCMD_LD_GET_LIST, NULL, &sc->sc_ld_list, 1333 1.1 bouyer sizeof(sc->sc_ld_list), MFII_DATA_IN, false) != 0) { 1334 1.1 bouyer mutex_exit(&sc->sc_lock); 1335 1.1 bouyer DNPRINTF(MFII_D_MISC, "%s: getting list of logical disks failed\n", 1336 1.1 bouyer DEVNAME(sc)); 1337 1.1 bouyer return; 1338 1.1 bouyer } 1339 1.1 bouyer mutex_exit(&sc->sc_lock); 1340 1.1 bouyer 1341 1.1 bouyer memset(newlds, -1, sizeof(newlds)); 1342 1.1 bouyer 1343 1.1 bouyer for (i = 0; i < sc->sc_ld_list.mll_no_ld; i++) { 1344 1.1 bouyer target = sc->sc_ld_list.mll_list[i].mll_ld.mld_target; 1345 1.1 bouyer DNPRINTF(MFII_D_MISC, "%s: target %d: state %d\n", 1346 1.1 bouyer DEVNAME(sc), target, sc->sc_ld_list.mll_list[i].mll_state); 1347 1.1 bouyer newlds[target] = i; 1348 1.1 bouyer } 1349 1.1 bouyer 1350 1.1 bouyer for (i = 0; i < MFI_MAX_LD; i++) { 1351 1.1 bouyer old = sc->sc_target_lds[i]; 1352 1.1 bouyer nld = newlds[i]; 1353 1.1 bouyer 1354 1.1 bouyer if (old == -1 && nld != -1) { 1355 1.1 bouyer printf("%s: logical drive %d added (target %d)\n", 1356 1.1 bouyer DEVNAME(sc), i, nld); 1357 1.1 bouyer 1358 1.1 bouyer // XXX scsi_probe_target(sc->sc_scsibus, i); 1359 1.1 bouyer 1360 1.1 bouyer mfii_init_ld_sensor(sc, &sc->sc_sensors[i], i); 1361 1.1 bouyer mfii_attach_sensor(sc, &sc->sc_sensors[i]); 1362 1.1 bouyer } else if (nld == -1 && old != -1) { 1363 1.1 bouyer printf("%s: logical drive %d removed (target %d)\n", 1364 1.1 bouyer DEVNAME(sc), i, old); 1365 1.1 bouyer 1366 1.1 bouyer scsipi_target_detach(&sc->sc_chan, i, 0, DETACH_FORCE); 1367 1.1 bouyer sysmon_envsys_sensor_detach(sc->sc_sme, 1368 1.1 bouyer &sc->sc_sensors[i]); 1369 1.1 bouyer } 1370 1.1 bouyer } 1371 1.1 bouyer 1372 1.1 bouyer memcpy(sc->sc_target_lds, newlds, sizeof(sc->sc_target_lds)); 1373 1.1 bouyer } 1374 1.1 bouyer 1375 1.6 maxv static void 1376 1.1 bouyer mfii_aen_unregister(struct mfii_softc *sc) 1377 1.1 bouyer { 1378 1.1 bouyer /* XXX */ 1379 1.1 bouyer } 1380 1.1 bouyer 1381 1.6 maxv static int 1382 1.1 bouyer mfii_transition_firmware(struct mfii_softc *sc) 1383 1.1 bouyer { 1384 1.1 bouyer int32_t fw_state, cur_state; 1385 1.1 bouyer int max_wait, i; 1386 1.1 bouyer 1387 1.1 bouyer fw_state = mfii_fw_state(sc) & MFI_STATE_MASK; 1388 1.1 bouyer 1389 1.1 bouyer while (fw_state != MFI_STATE_READY) { 1390 1.1 bouyer cur_state = fw_state; 1391 1.1 bouyer switch (fw_state) { 1392 1.1 bouyer case MFI_STATE_FAULT: 1393 1.1 bouyer printf("%s: firmware fault\n", DEVNAME(sc)); 1394 1.1 bouyer return (1); 1395 1.1 bouyer case MFI_STATE_WAIT_HANDSHAKE: 1396 1.1 bouyer mfii_write(sc, MFI_SKINNY_IDB, 1397 1.1 bouyer MFI_INIT_CLEAR_HANDSHAKE); 1398 1.1 bouyer max_wait = 2; 1399 1.1 bouyer break; 1400 1.1 bouyer case MFI_STATE_OPERATIONAL: 1401 1.1 bouyer mfii_write(sc, MFI_SKINNY_IDB, MFI_INIT_READY); 1402 1.1 bouyer max_wait = 10; 1403 1.1 bouyer break; 1404 1.1 bouyer case MFI_STATE_UNDEFINED: 1405 1.1 bouyer case MFI_STATE_BB_INIT: 1406 1.1 bouyer max_wait = 2; 1407 1.1 bouyer break; 1408 1.1 bouyer case MFI_STATE_FW_INIT: 1409 1.1 bouyer case MFI_STATE_DEVICE_SCAN: 1410 1.1 bouyer case MFI_STATE_FLUSH_CACHE: 1411 1.1 bouyer max_wait = 20; 1412 1.1 bouyer break; 1413 1.1 bouyer default: 1414 1.1 bouyer printf("%s: unknown firmware state %d\n", 1415 1.1 bouyer DEVNAME(sc), fw_state); 1416 1.1 bouyer return (1); 1417 1.1 bouyer } 1418 1.1 bouyer for (i = 0; i < (max_wait * 10); i++) { 1419 1.1 bouyer fw_state = mfii_fw_state(sc) & MFI_STATE_MASK; 1420 1.1 bouyer if (fw_state == cur_state) 1421 1.1 bouyer DELAY(100000); 1422 1.1 bouyer else 1423 1.1 bouyer break; 1424 1.1 bouyer } 1425 1.1 bouyer if (fw_state == cur_state) { 1426 1.1 bouyer printf("%s: firmware stuck in state %#x\n", 1427 1.1 bouyer DEVNAME(sc), fw_state); 1428 1.1 bouyer return (1); 1429 1.1 bouyer } 1430 1.1 bouyer } 1431 1.1 bouyer 1432 1.1 bouyer return (0); 1433 1.1 bouyer } 1434 1.1 bouyer 1435 1.6 maxv static int 1436 1.1 bouyer mfii_get_info(struct mfii_softc *sc) 1437 1.1 bouyer { 1438 1.1 bouyer int i, rv; 1439 1.1 bouyer 1440 1.1 bouyer rv = mfii_mgmt(sc, MR_DCMD_CTRL_GET_INFO, NULL, &sc->sc_info, 1441 1.1 bouyer sizeof(sc->sc_info), MFII_DATA_IN, true); 1442 1.1 bouyer 1443 1.1 bouyer if (rv != 0) 1444 1.1 bouyer return (rv); 1445 1.1 bouyer 1446 1.1 bouyer for (i = 0; i < sc->sc_info.mci_image_component_count; i++) { 1447 1.1 bouyer DPRINTF("%s: active FW %s Version %s date %s time %s\n", 1448 1.1 bouyer DEVNAME(sc), 1449 1.1 bouyer sc->sc_info.mci_image_component[i].mic_name, 1450 1.1 bouyer sc->sc_info.mci_image_component[i].mic_version, 1451 1.1 bouyer sc->sc_info.mci_image_component[i].mic_build_date, 1452 1.1 bouyer sc->sc_info.mci_image_component[i].mic_build_time); 1453 1.1 bouyer } 1454 1.1 bouyer 1455 1.1 bouyer for (i = 0; i < sc->sc_info.mci_pending_image_component_count; i++) { 1456 1.1 bouyer DPRINTF("%s: pending FW %s Version %s date %s time %s\n", 1457 1.1 bouyer DEVNAME(sc), 1458 1.1 bouyer sc->sc_info.mci_pending_image_component[i].mic_name, 1459 1.1 bouyer sc->sc_info.mci_pending_image_component[i].mic_version, 1460 1.1 bouyer sc->sc_info.mci_pending_image_component[i].mic_build_date, 1461 1.1 bouyer sc->sc_info.mci_pending_image_component[i].mic_build_time); 1462 1.1 bouyer } 1463 1.1 bouyer 1464 1.1 bouyer DPRINTF("%s: max_arms %d max_spans %d max_arrs %d max_lds %d name %s\n", 1465 1.1 bouyer DEVNAME(sc), 1466 1.1 bouyer sc->sc_info.mci_max_arms, 1467 1.1 bouyer sc->sc_info.mci_max_spans, 1468 1.1 bouyer sc->sc_info.mci_max_arrays, 1469 1.1 bouyer sc->sc_info.mci_max_lds, 1470 1.1 bouyer sc->sc_info.mci_product_name); 1471 1.1 bouyer 1472 1.1 bouyer DPRINTF("%s: serial %s present %#x fw time %d max_cmds %d max_sg %d\n", 1473 1.1 bouyer DEVNAME(sc), 1474 1.1 bouyer sc->sc_info.mci_serial_number, 1475 1.1 bouyer sc->sc_info.mci_hw_present, 1476 1.1 bouyer sc->sc_info.mci_current_fw_time, 1477 1.1 bouyer sc->sc_info.mci_max_cmds, 1478 1.1 bouyer sc->sc_info.mci_max_sg_elements); 1479 1.1 bouyer 1480 1.1 bouyer DPRINTF("%s: max_rq %d lds_pres %d lds_deg %d lds_off %d pd_pres %d\n", 1481 1.1 bouyer DEVNAME(sc), 1482 1.1 bouyer sc->sc_info.mci_max_request_size, 1483 1.1 bouyer sc->sc_info.mci_lds_present, 1484 1.1 bouyer sc->sc_info.mci_lds_degraded, 1485 1.1 bouyer sc->sc_info.mci_lds_offline, 1486 1.1 bouyer sc->sc_info.mci_pd_present); 1487 1.1 bouyer 1488 1.1 bouyer DPRINTF("%s: pd_dsk_prs %d pd_dsk_pred_fail %d pd_dsk_fail %d\n", 1489 1.1 bouyer DEVNAME(sc), 1490 1.1 bouyer sc->sc_info.mci_pd_disks_present, 1491 1.1 bouyer sc->sc_info.mci_pd_disks_pred_failure, 1492 1.1 bouyer sc->sc_info.mci_pd_disks_failed); 1493 1.1 bouyer 1494 1.1 bouyer DPRINTF("%s: nvram %d mem %d flash %d\n", 1495 1.1 bouyer DEVNAME(sc), 1496 1.1 bouyer sc->sc_info.mci_nvram_size, 1497 1.1 bouyer sc->sc_info.mci_memory_size, 1498 1.1 bouyer sc->sc_info.mci_flash_size); 1499 1.1 bouyer 1500 1.1 bouyer DPRINTF("%s: ram_cor %d ram_uncor %d clus_all %d clus_act %d\n", 1501 1.1 bouyer DEVNAME(sc), 1502 1.1 bouyer sc->sc_info.mci_ram_correctable_errors, 1503 1.1 bouyer sc->sc_info.mci_ram_uncorrectable_errors, 1504 1.1 bouyer sc->sc_info.mci_cluster_allowed, 1505 1.1 bouyer sc->sc_info.mci_cluster_active); 1506 1.1 bouyer 1507 1.1 bouyer DPRINTF("%s: max_strps_io %d raid_lvl %#x adapt_ops %#x ld_ops %#x\n", 1508 1.1 bouyer DEVNAME(sc), 1509 1.1 bouyer sc->sc_info.mci_max_strips_per_io, 1510 1.1 bouyer sc->sc_info.mci_raid_levels, 1511 1.1 bouyer sc->sc_info.mci_adapter_ops, 1512 1.1 bouyer sc->sc_info.mci_ld_ops); 1513 1.1 bouyer 1514 1.1 bouyer DPRINTF("%s: strp_sz_min %d strp_sz_max %d pd_ops %#x pd_mix %#x\n", 1515 1.1 bouyer DEVNAME(sc), 1516 1.1 bouyer sc->sc_info.mci_stripe_sz_ops.min, 1517 1.1 bouyer sc->sc_info.mci_stripe_sz_ops.max, 1518 1.1 bouyer sc->sc_info.mci_pd_ops, 1519 1.1 bouyer sc->sc_info.mci_pd_mix_support); 1520 1.1 bouyer 1521 1.1 bouyer DPRINTF("%s: ecc_bucket %d pckg_prop %s\n", 1522 1.1 bouyer DEVNAME(sc), 1523 1.1 bouyer sc->sc_info.mci_ecc_bucket_count, 1524 1.1 bouyer sc->sc_info.mci_package_version); 1525 1.1 bouyer 1526 1.1 bouyer DPRINTF("%s: sq_nm %d prd_fail_poll %d intr_thrtl %d intr_thrtl_to %d\n", 1527 1.1 bouyer DEVNAME(sc), 1528 1.1 bouyer sc->sc_info.mci_properties.mcp_seq_num, 1529 1.1 bouyer sc->sc_info.mci_properties.mcp_pred_fail_poll_interval, 1530 1.1 bouyer sc->sc_info.mci_properties.mcp_intr_throttle_cnt, 1531 1.1 bouyer sc->sc_info.mci_properties.mcp_intr_throttle_timeout); 1532 1.1 bouyer 1533 1.1 bouyer DPRINTF("%s: rbld_rate %d patr_rd_rate %d bgi_rate %d cc_rate %d\n", 1534 1.1 bouyer DEVNAME(sc), 1535 1.1 bouyer sc->sc_info.mci_properties.mcp_rebuild_rate, 1536 1.1 bouyer sc->sc_info.mci_properties.mcp_patrol_read_rate, 1537 1.1 bouyer sc->sc_info.mci_properties.mcp_bgi_rate, 1538 1.1 bouyer sc->sc_info.mci_properties.mcp_cc_rate); 1539 1.1 bouyer 1540 1.1 bouyer DPRINTF("%s: rc_rate %d ch_flsh %d spin_cnt %d spin_dly %d clus_en %d\n", 1541 1.1 bouyer DEVNAME(sc), 1542 1.1 bouyer sc->sc_info.mci_properties.mcp_recon_rate, 1543 1.1 bouyer sc->sc_info.mci_properties.mcp_cache_flush_interval, 1544 1.1 bouyer sc->sc_info.mci_properties.mcp_spinup_drv_cnt, 1545 1.1 bouyer sc->sc_info.mci_properties.mcp_spinup_delay, 1546 1.1 bouyer sc->sc_info.mci_properties.mcp_cluster_enable); 1547 1.1 bouyer 1548 1.1 bouyer DPRINTF("%s: coerc %d alarm %d dis_auto_rbld %d dis_bat_wrn %d ecc %d\n", 1549 1.1 bouyer DEVNAME(sc), 1550 1.1 bouyer sc->sc_info.mci_properties.mcp_coercion_mode, 1551 1.1 bouyer sc->sc_info.mci_properties.mcp_alarm_enable, 1552 1.1 bouyer sc->sc_info.mci_properties.mcp_disable_auto_rebuild, 1553 1.1 bouyer sc->sc_info.mci_properties.mcp_disable_battery_warn, 1554 1.1 bouyer sc->sc_info.mci_properties.mcp_ecc_bucket_size); 1555 1.1 bouyer 1556 1.1 bouyer DPRINTF("%s: ecc_leak %d rest_hs %d exp_encl_dev %d\n", 1557 1.1 bouyer DEVNAME(sc), 1558 1.1 bouyer sc->sc_info.mci_properties.mcp_ecc_bucket_leak_rate, 1559 1.1 bouyer sc->sc_info.mci_properties.mcp_restore_hotspare_on_insertion, 1560 1.1 bouyer sc->sc_info.mci_properties.mcp_expose_encl_devices); 1561 1.1 bouyer 1562 1.1 bouyer DPRINTF("%s: vendor %#x device %#x subvendor %#x subdevice %#x\n", 1563 1.1 bouyer DEVNAME(sc), 1564 1.1 bouyer sc->sc_info.mci_pci.mip_vendor, 1565 1.1 bouyer sc->sc_info.mci_pci.mip_device, 1566 1.1 bouyer sc->sc_info.mci_pci.mip_subvendor, 1567 1.1 bouyer sc->sc_info.mci_pci.mip_subdevice); 1568 1.1 bouyer 1569 1.1 bouyer DPRINTF("%s: type %#x port_count %d port_addr ", 1570 1.1 bouyer DEVNAME(sc), 1571 1.1 bouyer sc->sc_info.mci_host.mih_type, 1572 1.1 bouyer sc->sc_info.mci_host.mih_port_count); 1573 1.1 bouyer 1574 1.1 bouyer for (i = 0; i < 8; i++) 1575 1.1 bouyer DPRINTF("%.0" PRIx64 " ", sc->sc_info.mci_host.mih_port_addr[i]); 1576 1.1 bouyer DPRINTF("\n"); 1577 1.1 bouyer 1578 1.1 bouyer DPRINTF("%s: type %.x port_count %d port_addr ", 1579 1.1 bouyer DEVNAME(sc), 1580 1.1 bouyer sc->sc_info.mci_device.mid_type, 1581 1.1 bouyer sc->sc_info.mci_device.mid_port_count); 1582 1.1 bouyer 1583 1.1 bouyer for (i = 0; i < 8; i++) 1584 1.1 bouyer DPRINTF("%.0" PRIx64 " ", sc->sc_info.mci_device.mid_port_addr[i]); 1585 1.1 bouyer DPRINTF("\n"); 1586 1.1 bouyer 1587 1.1 bouyer return (0); 1588 1.1 bouyer } 1589 1.1 bouyer 1590 1.6 maxv static int 1591 1.1 bouyer mfii_mfa_poll(struct mfii_softc *sc, struct mfii_ccb *ccb) 1592 1.1 bouyer { 1593 1.1 bouyer struct mfi_frame_header *hdr = ccb->ccb_request; 1594 1.1 bouyer u_int64_t r; 1595 1.1 bouyer int to = 0, rv = 0; 1596 1.1 bouyer 1597 1.1 bouyer #ifdef DIAGNOSTIC 1598 1.1 bouyer if (ccb->ccb_cookie != NULL || ccb->ccb_done != NULL) 1599 1.1 bouyer panic("mfii_mfa_poll called with cookie or done set"); 1600 1.1 bouyer #endif 1601 1.1 bouyer 1602 1.1 bouyer hdr->mfh_context = ccb->ccb_smid; 1603 1.1 bouyer hdr->mfh_cmd_status = MFI_STAT_INVALID_STATUS; 1604 1.1 bouyer hdr->mfh_flags |= htole16(MFI_FRAME_DONT_POST_IN_REPLY_QUEUE); 1605 1.1 bouyer 1606 1.1 bouyer r = MFII_REQ_MFA(ccb->ccb_request_dva); 1607 1.1 bouyer memcpy(&ccb->ccb_req, &r, sizeof(ccb->ccb_req)); 1608 1.1 bouyer 1609 1.1 bouyer mfii_start(sc, ccb); 1610 1.1 bouyer 1611 1.1 bouyer for (;;) { 1612 1.1 bouyer bus_dmamap_sync(sc->sc_dmat, MFII_DMA_MAP(sc->sc_requests), 1613 1.1 bouyer ccb->ccb_request_offset, MFII_REQUEST_SIZE, 1614 1.1 bouyer BUS_DMASYNC_POSTREAD | BUS_DMASYNC_POSTWRITE); 1615 1.1 bouyer 1616 1.1 bouyer if (hdr->mfh_cmd_status != MFI_STAT_INVALID_STATUS) 1617 1.1 bouyer break; 1618 1.1 bouyer 1619 1.1 bouyer if (to++ > 5000) { /* XXX 5 seconds busywait sucks */ 1620 1.1 bouyer printf("%s: timeout on ccb %d\n", DEVNAME(sc), 1621 1.1 bouyer ccb->ccb_smid); 1622 1.1 bouyer ccb->ccb_flags |= MFI_CCB_F_ERR; 1623 1.1 bouyer rv = 1; 1624 1.1 bouyer break; 1625 1.1 bouyer } 1626 1.1 bouyer 1627 1.1 bouyer bus_dmamap_sync(sc->sc_dmat, MFII_DMA_MAP(sc->sc_requests), 1628 1.1 bouyer ccb->ccb_request_offset, MFII_REQUEST_SIZE, 1629 1.1 bouyer BUS_DMASYNC_PREREAD | BUS_DMASYNC_PREWRITE); 1630 1.1 bouyer 1631 1.1 bouyer delay(1000); 1632 1.1 bouyer } 1633 1.1 bouyer 1634 1.1 bouyer if (ccb->ccb_len > 0) { 1635 1.1 bouyer bus_dmamap_sync(sc->sc_dmat, ccb->ccb_dmamap32, 1636 1.1 bouyer 0, ccb->ccb_dmamap32->dm_mapsize, 1637 1.1 bouyer (ccb->ccb_direction == MFII_DATA_IN) ? 1638 1.1 bouyer BUS_DMASYNC_POSTREAD : BUS_DMASYNC_POSTWRITE); 1639 1.1 bouyer 1640 1.1 bouyer bus_dmamap_unload(sc->sc_dmat, ccb->ccb_dmamap32); 1641 1.1 bouyer } 1642 1.1 bouyer 1643 1.1 bouyer return (rv); 1644 1.1 bouyer } 1645 1.1 bouyer 1646 1.6 maxv static int 1647 1.1 bouyer mfii_poll(struct mfii_softc *sc, struct mfii_ccb *ccb) 1648 1.1 bouyer { 1649 1.1 bouyer void (*done)(struct mfii_softc *, struct mfii_ccb *); 1650 1.1 bouyer void *cookie; 1651 1.1 bouyer int rv = 1; 1652 1.1 bouyer 1653 1.1 bouyer done = ccb->ccb_done; 1654 1.1 bouyer cookie = ccb->ccb_cookie; 1655 1.1 bouyer 1656 1.1 bouyer ccb->ccb_done = mfii_poll_done; 1657 1.1 bouyer ccb->ccb_cookie = &rv; 1658 1.1 bouyer 1659 1.1 bouyer mfii_start(sc, ccb); 1660 1.1 bouyer 1661 1.1 bouyer do { 1662 1.1 bouyer delay(10); 1663 1.1 bouyer mfii_postq(sc); 1664 1.1 bouyer } while (rv == 1); 1665 1.1 bouyer 1666 1.1 bouyer ccb->ccb_cookie = cookie; 1667 1.1 bouyer done(sc, ccb); 1668 1.1 bouyer 1669 1.1 bouyer return (0); 1670 1.1 bouyer } 1671 1.1 bouyer 1672 1.6 maxv static void 1673 1.1 bouyer mfii_poll_done(struct mfii_softc *sc, struct mfii_ccb *ccb) 1674 1.1 bouyer { 1675 1.1 bouyer int *rv = ccb->ccb_cookie; 1676 1.1 bouyer 1677 1.1 bouyer *rv = 0; 1678 1.1 bouyer } 1679 1.1 bouyer 1680 1.6 maxv static int 1681 1.1 bouyer mfii_exec(struct mfii_softc *sc, struct mfii_ccb *ccb) 1682 1.1 bouyer { 1683 1.1 bouyer #ifdef DIAGNOSTIC 1684 1.1 bouyer if (ccb->ccb_cookie != NULL || ccb->ccb_done != NULL) 1685 1.1 bouyer panic("mfii_exec called with cookie or done set"); 1686 1.1 bouyer #endif 1687 1.1 bouyer 1688 1.1 bouyer ccb->ccb_cookie = ccb; 1689 1.1 bouyer ccb->ccb_done = mfii_exec_done; 1690 1.1 bouyer 1691 1.1 bouyer mfii_start(sc, ccb); 1692 1.1 bouyer 1693 1.1 bouyer mutex_enter(&ccb->ccb_mtx); 1694 1.1 bouyer while (ccb->ccb_cookie != NULL) 1695 1.1 bouyer cv_wait(&ccb->ccb_cv, &ccb->ccb_mtx); 1696 1.1 bouyer mutex_exit(&ccb->ccb_mtx); 1697 1.1 bouyer 1698 1.1 bouyer return (0); 1699 1.1 bouyer } 1700 1.1 bouyer 1701 1.6 maxv static void 1702 1.1 bouyer mfii_exec_done(struct mfii_softc *sc, struct mfii_ccb *ccb) 1703 1.1 bouyer { 1704 1.1 bouyer mutex_enter(&ccb->ccb_mtx); 1705 1.1 bouyer ccb->ccb_cookie = NULL; 1706 1.1 bouyer cv_signal(&ccb->ccb_cv); 1707 1.1 bouyer mutex_exit(&ccb->ccb_mtx); 1708 1.1 bouyer } 1709 1.1 bouyer 1710 1.6 maxv static int 1711 1.1 bouyer mfii_mgmt(struct mfii_softc *sc, uint32_t opc, const union mfi_mbox *mbox, 1712 1.1 bouyer void *buf, size_t len, mfii_direction_t dir, bool poll) 1713 1.1 bouyer { 1714 1.1 bouyer struct mfii_ccb *ccb; 1715 1.1 bouyer int rv; 1716 1.1 bouyer 1717 1.1 bouyer KASSERT(mutex_owned(&sc->sc_lock)); 1718 1.1 bouyer if (!sc->sc_running) 1719 1.1 bouyer return EAGAIN; 1720 1.1 bouyer 1721 1.1 bouyer ccb = mfii_get_ccb(sc); 1722 1.1 bouyer if (ccb == NULL) 1723 1.1 bouyer return (ENOMEM); 1724 1.1 bouyer 1725 1.1 bouyer mfii_scrub_ccb(ccb); 1726 1.1 bouyer rv = mfii_do_mgmt(sc, ccb, opc, mbox, buf, len, dir, poll); 1727 1.1 bouyer mfii_put_ccb(sc, ccb); 1728 1.1 bouyer 1729 1.1 bouyer return (rv); 1730 1.1 bouyer } 1731 1.1 bouyer 1732 1.6 maxv static int 1733 1.1 bouyer mfii_do_mgmt(struct mfii_softc *sc, struct mfii_ccb *ccb, uint32_t opc, 1734 1.1 bouyer const union mfi_mbox *mbox, void *buf, size_t len, mfii_direction_t dir, 1735 1.1 bouyer bool poll) 1736 1.1 bouyer { 1737 1.1 bouyer struct mpii_msg_scsi_io *io = ccb->ccb_request; 1738 1.1 bouyer struct mfii_raid_context *ctx = (struct mfii_raid_context *)(io + 1); 1739 1.1 bouyer struct mfii_sge *sge = (struct mfii_sge *)(ctx + 1); 1740 1.1 bouyer struct mfi_dcmd_frame *dcmd = ccb->ccb_mfi; 1741 1.1 bouyer struct mfi_frame_header *hdr = &dcmd->mdf_header; 1742 1.1 bouyer int rv = EIO; 1743 1.1 bouyer 1744 1.1 bouyer if (cold) 1745 1.1 bouyer poll = true; 1746 1.1 bouyer 1747 1.1 bouyer ccb->ccb_data = buf; 1748 1.1 bouyer ccb->ccb_len = len; 1749 1.1 bouyer ccb->ccb_direction = dir; 1750 1.1 bouyer switch (dir) { 1751 1.1 bouyer case MFII_DATA_IN: 1752 1.1 bouyer hdr->mfh_flags = htole16(MFI_FRAME_DIR_READ); 1753 1.1 bouyer break; 1754 1.1 bouyer case MFII_DATA_OUT: 1755 1.1 bouyer hdr->mfh_flags = htole16(MFI_FRAME_DIR_WRITE); 1756 1.1 bouyer break; 1757 1.1 bouyer case MFII_DATA_NONE: 1758 1.1 bouyer hdr->mfh_flags = htole16(MFI_FRAME_DIR_NONE); 1759 1.1 bouyer break; 1760 1.1 bouyer } 1761 1.1 bouyer 1762 1.1 bouyer if (mfii_load_mfa(sc, ccb, &dcmd->mdf_sgl, poll) != 0) { 1763 1.1 bouyer rv = ENOMEM; 1764 1.1 bouyer goto done; 1765 1.1 bouyer } 1766 1.1 bouyer 1767 1.1 bouyer hdr->mfh_cmd = MFI_CMD_DCMD; 1768 1.1 bouyer hdr->mfh_context = ccb->ccb_smid; 1769 1.1 bouyer hdr->mfh_data_len = htole32(len); 1770 1.1 bouyer hdr->mfh_sg_count = ccb->ccb_dmamap32->dm_nsegs; 1771 1.1 bouyer KASSERT(!ccb->ccb_dma64); 1772 1.1 bouyer 1773 1.1 bouyer dcmd->mdf_opcode = opc; 1774 1.1 bouyer /* handle special opcodes */ 1775 1.1 bouyer if (mbox != NULL) 1776 1.1 bouyer memcpy(&dcmd->mdf_mbox, mbox, sizeof(dcmd->mdf_mbox)); 1777 1.1 bouyer 1778 1.1 bouyer io->function = MFII_FUNCTION_PASSTHRU_IO; 1779 1.1 bouyer io->sgl_offset0 = ((u_int8_t *)sge - (u_int8_t *)io) / 4; 1780 1.1 bouyer io->chain_offset = ((u_int8_t *)sge - (u_int8_t *)io) / 16; 1781 1.1 bouyer 1782 1.1 bouyer sge->sg_addr = htole64(ccb->ccb_mfi_dva); 1783 1.1 bouyer sge->sg_len = htole32(MFI_FRAME_SIZE); 1784 1.1 bouyer sge->sg_flags = MFII_SGE_CHAIN_ELEMENT | MFII_SGE_ADDR_IOCPLBNTA; 1785 1.1 bouyer 1786 1.1 bouyer ccb->ccb_req.flags = MFII_REQ_TYPE_SCSI; 1787 1.1 bouyer ccb->ccb_req.smid = le16toh(ccb->ccb_smid); 1788 1.1 bouyer 1789 1.1 bouyer if (poll) { 1790 1.1 bouyer ccb->ccb_done = mfii_empty_done; 1791 1.1 bouyer mfii_poll(sc, ccb); 1792 1.1 bouyer } else 1793 1.1 bouyer mfii_exec(sc, ccb); 1794 1.1 bouyer 1795 1.1 bouyer if (hdr->mfh_cmd_status == MFI_STAT_OK) { 1796 1.1 bouyer rv = 0; 1797 1.1 bouyer } 1798 1.1 bouyer 1799 1.1 bouyer done: 1800 1.1 bouyer return (rv); 1801 1.1 bouyer } 1802 1.1 bouyer 1803 1.6 maxv static void 1804 1.1 bouyer mfii_empty_done(struct mfii_softc *sc, struct mfii_ccb *ccb) 1805 1.1 bouyer { 1806 1.1 bouyer return; 1807 1.1 bouyer } 1808 1.1 bouyer 1809 1.6 maxv static int 1810 1.1 bouyer mfii_load_mfa(struct mfii_softc *sc, struct mfii_ccb *ccb, 1811 1.1 bouyer void *sglp, int nosleep) 1812 1.1 bouyer { 1813 1.1 bouyer union mfi_sgl *sgl = sglp; 1814 1.1 bouyer bus_dmamap_t dmap = ccb->ccb_dmamap32; 1815 1.1 bouyer int error; 1816 1.1 bouyer int i; 1817 1.1 bouyer 1818 1.1 bouyer KASSERT(!ccb->ccb_dma64); 1819 1.1 bouyer if (ccb->ccb_len == 0) 1820 1.1 bouyer return (0); 1821 1.1 bouyer 1822 1.1 bouyer error = bus_dmamap_load(sc->sc_dmat, dmap, 1823 1.1 bouyer ccb->ccb_data, ccb->ccb_len, NULL, 1824 1.1 bouyer nosleep ? BUS_DMA_NOWAIT : BUS_DMA_WAITOK); 1825 1.1 bouyer if (error) { 1826 1.1 bouyer printf("%s: error %d loading dmamap\n", DEVNAME(sc), error); 1827 1.1 bouyer return (1); 1828 1.1 bouyer } 1829 1.1 bouyer 1830 1.1 bouyer for (i = 0; i < dmap->dm_nsegs; i++) { 1831 1.1 bouyer sgl->sg32[i].addr = htole32(dmap->dm_segs[i].ds_addr); 1832 1.1 bouyer sgl->sg32[i].len = htole32(dmap->dm_segs[i].ds_len); 1833 1.1 bouyer } 1834 1.1 bouyer 1835 1.1 bouyer bus_dmamap_sync(sc->sc_dmat, dmap, 0, dmap->dm_mapsize, 1836 1.1 bouyer ccb->ccb_direction == MFII_DATA_OUT ? 1837 1.1 bouyer BUS_DMASYNC_PREWRITE : BUS_DMASYNC_PREREAD); 1838 1.1 bouyer 1839 1.1 bouyer return (0); 1840 1.1 bouyer } 1841 1.1 bouyer 1842 1.6 maxv static void 1843 1.1 bouyer mfii_start(struct mfii_softc *sc, struct mfii_ccb *ccb) 1844 1.1 bouyer { 1845 1.1 bouyer u_long *r = (u_long *)&ccb->ccb_req; 1846 1.1 bouyer 1847 1.1 bouyer bus_dmamap_sync(sc->sc_dmat, MFII_DMA_MAP(sc->sc_requests), 1848 1.1 bouyer ccb->ccb_request_offset, MFII_REQUEST_SIZE, 1849 1.1 bouyer BUS_DMASYNC_PREREAD | BUS_DMASYNC_PREWRITE); 1850 1.1 bouyer 1851 1.1 bouyer #if defined(__LP64__) && 0 1852 1.1 bouyer bus_space_write_8(sc->sc_iot, sc->sc_ioh, MFI_IQPL, *r); 1853 1.1 bouyer #else 1854 1.1 bouyer mutex_enter(&sc->sc_post_mtx); 1855 1.1 bouyer bus_space_write_4(sc->sc_iot, sc->sc_ioh, MFI_IQPL, r[0]); 1856 1.1 bouyer bus_space_barrier(sc->sc_iot, sc->sc_ioh, 1857 1.1 bouyer MFI_IQPL, 8, BUS_SPACE_BARRIER_WRITE); 1858 1.1 bouyer 1859 1.1 bouyer bus_space_write_4(sc->sc_iot, sc->sc_ioh, MFI_IQPH, r[1]); 1860 1.1 bouyer bus_space_barrier(sc->sc_iot, sc->sc_ioh, 1861 1.1 bouyer MFI_IQPH, 8, BUS_SPACE_BARRIER_WRITE); 1862 1.1 bouyer mutex_exit(&sc->sc_post_mtx); 1863 1.1 bouyer #endif 1864 1.1 bouyer } 1865 1.1 bouyer 1866 1.6 maxv static void 1867 1.1 bouyer mfii_done(struct mfii_softc *sc, struct mfii_ccb *ccb) 1868 1.1 bouyer { 1869 1.1 bouyer bus_dmamap_sync(sc->sc_dmat, MFII_DMA_MAP(sc->sc_requests), 1870 1.1 bouyer ccb->ccb_request_offset, MFII_REQUEST_SIZE, 1871 1.1 bouyer BUS_DMASYNC_POSTREAD | BUS_DMASYNC_POSTWRITE); 1872 1.1 bouyer 1873 1.1 bouyer if (ccb->ccb_sgl_len > 0) { 1874 1.1 bouyer bus_dmamap_sync(sc->sc_dmat, MFII_DMA_MAP(sc->sc_sgl), 1875 1.1 bouyer ccb->ccb_sgl_offset, ccb->ccb_sgl_len, 1876 1.1 bouyer BUS_DMASYNC_POSTWRITE); 1877 1.1 bouyer } 1878 1.1 bouyer 1879 1.1 bouyer if (ccb->ccb_dma64) { 1880 1.1 bouyer KASSERT(ccb->ccb_len > 0); 1881 1.1 bouyer bus_dmamap_sync(sc->sc_dmat64, ccb->ccb_dmamap64, 1882 1.1 bouyer 0, ccb->ccb_dmamap64->dm_mapsize, 1883 1.1 bouyer (ccb->ccb_direction == MFII_DATA_IN) ? 1884 1.1 bouyer BUS_DMASYNC_POSTREAD : BUS_DMASYNC_POSTWRITE); 1885 1.1 bouyer 1886 1.1 bouyer bus_dmamap_unload(sc->sc_dmat64, ccb->ccb_dmamap64); 1887 1.1 bouyer } else if (ccb->ccb_len > 0) { 1888 1.1 bouyer bus_dmamap_sync(sc->sc_dmat, ccb->ccb_dmamap32, 1889 1.1 bouyer 0, ccb->ccb_dmamap32->dm_mapsize, 1890 1.1 bouyer (ccb->ccb_direction == MFII_DATA_IN) ? 1891 1.1 bouyer BUS_DMASYNC_POSTREAD : BUS_DMASYNC_POSTWRITE); 1892 1.1 bouyer 1893 1.1 bouyer bus_dmamap_unload(sc->sc_dmat, ccb->ccb_dmamap32); 1894 1.1 bouyer } 1895 1.1 bouyer 1896 1.1 bouyer ccb->ccb_done(sc, ccb); 1897 1.1 bouyer } 1898 1.1 bouyer 1899 1.6 maxv static int 1900 1.1 bouyer mfii_initialise_firmware(struct mfii_softc *sc) 1901 1.1 bouyer { 1902 1.1 bouyer struct mpii_msg_iocinit_request *iiq; 1903 1.1 bouyer struct mfii_dmamem *m; 1904 1.1 bouyer struct mfii_ccb *ccb; 1905 1.1 bouyer struct mfi_init_frame *init; 1906 1.1 bouyer int rv; 1907 1.1 bouyer 1908 1.1 bouyer m = mfii_dmamem_alloc(sc, sizeof(*iiq)); 1909 1.1 bouyer if (m == NULL) 1910 1.1 bouyer return (1); 1911 1.1 bouyer 1912 1.1 bouyer iiq = MFII_DMA_KVA(m); 1913 1.1 bouyer memset(iiq, 0, sizeof(*iiq)); 1914 1.1 bouyer 1915 1.1 bouyer iiq->function = MPII_FUNCTION_IOC_INIT; 1916 1.1 bouyer iiq->whoinit = MPII_WHOINIT_HOST_DRIVER; 1917 1.1 bouyer 1918 1.1 bouyer iiq->msg_version_maj = 0x02; 1919 1.1 bouyer iiq->msg_version_min = 0x00; 1920 1.1 bouyer iiq->hdr_version_unit = 0x10; 1921 1.1 bouyer iiq->hdr_version_dev = 0x0; 1922 1.1 bouyer 1923 1.1 bouyer iiq->system_request_frame_size = htole16(MFII_REQUEST_SIZE / 4); 1924 1.1 bouyer 1925 1.1 bouyer iiq->reply_descriptor_post_queue_depth = 1926 1.1 bouyer htole16(sc->sc_reply_postq_depth); 1927 1.1 bouyer iiq->reply_free_queue_depth = htole16(0); 1928 1.1 bouyer 1929 1.1 bouyer iiq->sense_buffer_address_high = htole32( 1930 1.1 bouyer MFII_DMA_DVA(sc->sc_sense) >> 32); 1931 1.1 bouyer 1932 1.3 bouyer iiq->reply_descriptor_post_queue_address_lo = 1933 1.3 bouyer htole32(MFII_DMA_DVA(sc->sc_reply_postq)); 1934 1.3 bouyer iiq->reply_descriptor_post_queue_address_hi = 1935 1.3 bouyer htole32(MFII_DMA_DVA(sc->sc_reply_postq) >> 32); 1936 1.3 bouyer 1937 1.3 bouyer iiq->system_request_frame_base_address_lo = 1938 1.3 bouyer htole32(MFII_DMA_DVA(sc->sc_requests)); 1939 1.3 bouyer iiq->system_request_frame_base_address_hi = 1940 1.3 bouyer htole32(MFII_DMA_DVA(sc->sc_requests) >> 32); 1941 1.1 bouyer 1942 1.1 bouyer iiq->timestamp = htole64(time_uptime); 1943 1.1 bouyer 1944 1.1 bouyer ccb = mfii_get_ccb(sc); 1945 1.1 bouyer if (ccb == NULL) { 1946 1.1 bouyer /* shouldn't ever run out of ccbs during attach */ 1947 1.1 bouyer return (1); 1948 1.1 bouyer } 1949 1.1 bouyer mfii_scrub_ccb(ccb); 1950 1.1 bouyer init = ccb->ccb_request; 1951 1.1 bouyer 1952 1.1 bouyer init->mif_header.mfh_cmd = MFI_CMD_INIT; 1953 1.1 bouyer init->mif_header.mfh_data_len = htole32(sizeof(*iiq)); 1954 1.1 bouyer init->mif_qinfo_new_addr_lo = htole32(MFII_DMA_DVA(m)); 1955 1.1 bouyer init->mif_qinfo_new_addr_hi = htole32((uint64_t)MFII_DMA_DVA(m) >> 32); 1956 1.1 bouyer 1957 1.1 bouyer bus_dmamap_sync(sc->sc_dmat, MFII_DMA_MAP(sc->sc_reply_postq), 1958 1.1 bouyer 0, MFII_DMA_LEN(sc->sc_reply_postq), 1959 1.1 bouyer BUS_DMASYNC_PREREAD); 1960 1.1 bouyer 1961 1.1 bouyer bus_dmamap_sync(sc->sc_dmat, MFII_DMA_MAP(m), 1962 1.1 bouyer 0, sizeof(*iiq), BUS_DMASYNC_PREREAD); 1963 1.1 bouyer 1964 1.1 bouyer rv = mfii_mfa_poll(sc, ccb); 1965 1.1 bouyer 1966 1.1 bouyer bus_dmamap_sync(sc->sc_dmat, MFII_DMA_MAP(m), 1967 1.1 bouyer 0, sizeof(*iiq), BUS_DMASYNC_POSTREAD); 1968 1.1 bouyer 1969 1.1 bouyer mfii_put_ccb(sc, ccb); 1970 1.1 bouyer mfii_dmamem_free(sc, m); 1971 1.1 bouyer 1972 1.1 bouyer return (rv); 1973 1.1 bouyer } 1974 1.1 bouyer 1975 1.6 maxv static int 1976 1.1 bouyer mfii_my_intr(struct mfii_softc *sc) 1977 1.1 bouyer { 1978 1.1 bouyer u_int32_t status; 1979 1.1 bouyer 1980 1.1 bouyer status = mfii_read(sc, MFI_OSTS); 1981 1.1 bouyer 1982 1.1 bouyer DNPRINTF(MFII_D_INTR, "%s: intr status 0x%x\n", DEVNAME(sc), status); 1983 1.1 bouyer if (ISSET(status, 0x1)) { 1984 1.1 bouyer mfii_write(sc, MFI_OSTS, status); 1985 1.1 bouyer return (1); 1986 1.1 bouyer } 1987 1.1 bouyer 1988 1.1 bouyer return (ISSET(status, MFII_OSTS_INTR_VALID) ? 1 : 0); 1989 1.1 bouyer } 1990 1.1 bouyer 1991 1.6 maxv static int 1992 1.1 bouyer mfii_intr(void *arg) 1993 1.1 bouyer { 1994 1.1 bouyer struct mfii_softc *sc = arg; 1995 1.1 bouyer 1996 1.1 bouyer if (!mfii_my_intr(sc)) 1997 1.1 bouyer return (0); 1998 1.1 bouyer 1999 1.1 bouyer mfii_postq(sc); 2000 1.1 bouyer 2001 1.1 bouyer return (1); 2002 1.1 bouyer } 2003 1.1 bouyer 2004 1.6 maxv static void 2005 1.1 bouyer mfii_postq(struct mfii_softc *sc) 2006 1.1 bouyer { 2007 1.1 bouyer struct mfii_ccb_list ccbs = SIMPLEQ_HEAD_INITIALIZER(ccbs); 2008 1.1 bouyer struct mpii_reply_descr *postq = MFII_DMA_KVA(sc->sc_reply_postq); 2009 1.1 bouyer struct mpii_reply_descr *rdp; 2010 1.1 bouyer struct mfii_ccb *ccb; 2011 1.1 bouyer int rpi = 0; 2012 1.1 bouyer 2013 1.1 bouyer mutex_enter(&sc->sc_reply_postq_mtx); 2014 1.1 bouyer 2015 1.1 bouyer bus_dmamap_sync(sc->sc_dmat, MFII_DMA_MAP(sc->sc_reply_postq), 2016 1.1 bouyer 0, MFII_DMA_LEN(sc->sc_reply_postq), 2017 1.1 bouyer BUS_DMASYNC_POSTREAD); 2018 1.1 bouyer 2019 1.1 bouyer for (;;) { 2020 1.1 bouyer rdp = &postq[sc->sc_reply_postq_index]; 2021 1.1 bouyer DNPRINTF(MFII_D_INTR, "%s: mfii_postq index %d flags 0x%x data 0x%x\n", 2022 1.1 bouyer DEVNAME(sc), sc->sc_reply_postq_index, rdp->reply_flags, 2023 1.1 bouyer rdp->data == 0xffffffff); 2024 1.1 bouyer if ((rdp->reply_flags & MPII_REPLY_DESCR_TYPE_MASK) == 2025 1.1 bouyer MPII_REPLY_DESCR_UNUSED) 2026 1.1 bouyer break; 2027 1.1 bouyer if (rdp->data == 0xffffffff) { 2028 1.1 bouyer /* 2029 1.1 bouyer * ioc is still writing to the reply post queue 2030 1.1 bouyer * race condition - bail! 2031 1.1 bouyer */ 2032 1.1 bouyer break; 2033 1.1 bouyer } 2034 1.1 bouyer 2035 1.1 bouyer ccb = &sc->sc_ccb[le16toh(rdp->smid) - 1]; 2036 1.1 bouyer SIMPLEQ_INSERT_TAIL(&ccbs, ccb, ccb_link); 2037 1.1 bouyer memset(rdp, 0xff, sizeof(*rdp)); 2038 1.1 bouyer 2039 1.1 bouyer sc->sc_reply_postq_index++; 2040 1.1 bouyer sc->sc_reply_postq_index %= sc->sc_reply_postq_depth; 2041 1.1 bouyer rpi = 1; 2042 1.1 bouyer } 2043 1.1 bouyer 2044 1.1 bouyer bus_dmamap_sync(sc->sc_dmat, MFII_DMA_MAP(sc->sc_reply_postq), 2045 1.1 bouyer 0, MFII_DMA_LEN(sc->sc_reply_postq), 2046 1.1 bouyer BUS_DMASYNC_PREREAD); 2047 1.1 bouyer 2048 1.1 bouyer if (rpi) 2049 1.1 bouyer mfii_write(sc, MFII_RPI, sc->sc_reply_postq_index); 2050 1.1 bouyer 2051 1.1 bouyer mutex_exit(&sc->sc_reply_postq_mtx); 2052 1.1 bouyer 2053 1.1 bouyer while ((ccb = SIMPLEQ_FIRST(&ccbs)) != NULL) { 2054 1.1 bouyer SIMPLEQ_REMOVE_HEAD(&ccbs, ccb_link); 2055 1.1 bouyer mfii_done(sc, ccb); 2056 1.1 bouyer } 2057 1.1 bouyer } 2058 1.1 bouyer 2059 1.6 maxv static void 2060 1.1 bouyer mfii_scsipi_request(struct scsipi_channel *chan, scsipi_adapter_req_t req, 2061 1.1 bouyer void *arg) 2062 1.1 bouyer { 2063 1.1 bouyer struct scsipi_periph *periph; 2064 1.1 bouyer struct scsipi_xfer *xs; 2065 1.1 bouyer struct scsipi_adapter *adapt = chan->chan_adapter; 2066 1.1 bouyer struct mfii_softc *sc = device_private(adapt->adapt_dev); 2067 1.1 bouyer struct mfii_ccb *ccb; 2068 1.1 bouyer int timeout; 2069 1.1 bouyer int target; 2070 1.1 bouyer 2071 1.1 bouyer switch(req) { 2072 1.1 bouyer case ADAPTER_REQ_GROW_RESOURCES: 2073 1.1 bouyer /* Not supported. */ 2074 1.1 bouyer return; 2075 1.1 bouyer case ADAPTER_REQ_SET_XFER_MODE: 2076 1.1 bouyer { 2077 1.1 bouyer struct scsipi_xfer_mode *xm = arg; 2078 1.1 bouyer xm->xm_mode = PERIPH_CAP_TQING; 2079 1.1 bouyer xm->xm_period = 0; 2080 1.1 bouyer xm->xm_offset = 0; 2081 1.1 bouyer scsipi_async_event(&sc->sc_chan, ASYNC_EVENT_XFER_MODE, xm); 2082 1.1 bouyer return; 2083 1.1 bouyer } 2084 1.1 bouyer case ADAPTER_REQ_RUN_XFER: 2085 1.1 bouyer break; 2086 1.1 bouyer } 2087 1.1 bouyer 2088 1.1 bouyer xs = arg; 2089 1.1 bouyer periph = xs->xs_periph; 2090 1.1 bouyer target = periph->periph_target; 2091 1.1 bouyer 2092 1.1 bouyer if (target >= MFI_MAX_LD || !sc->sc_ld[target].ld_present || 2093 1.1 bouyer periph->periph_lun != 0) { 2094 1.1 bouyer xs->error = XS_SELTIMEOUT; 2095 1.1 bouyer scsipi_done(xs); 2096 1.1 bouyer return; 2097 1.1 bouyer } 2098 1.1 bouyer 2099 1.1 bouyer if ((xs->cmd->opcode == SCSI_SYNCHRONIZE_CACHE_10 || 2100 1.1 bouyer xs->cmd->opcode == SCSI_SYNCHRONIZE_CACHE_16) && sc->sc_bbuok) { 2101 1.1 bouyer /* the cache is stable storage, don't flush */ 2102 1.1 bouyer xs->error = XS_NOERROR; 2103 1.1 bouyer xs->status = SCSI_OK; 2104 1.1 bouyer xs->resid = 0; 2105 1.1 bouyer scsipi_done(xs); 2106 1.1 bouyer return; 2107 1.1 bouyer } 2108 1.1 bouyer 2109 1.1 bouyer ccb = mfii_get_ccb(sc); 2110 1.1 bouyer if (ccb == NULL) { 2111 1.1 bouyer xs->error = XS_RESOURCE_SHORTAGE; 2112 1.1 bouyer scsipi_done(xs); 2113 1.1 bouyer return; 2114 1.1 bouyer } 2115 1.1 bouyer mfii_scrub_ccb(ccb); 2116 1.1 bouyer ccb->ccb_cookie = xs; 2117 1.1 bouyer ccb->ccb_done = mfii_scsi_cmd_done; 2118 1.1 bouyer ccb->ccb_data = xs->data; 2119 1.1 bouyer ccb->ccb_len = xs->datalen; 2120 1.1 bouyer 2121 1.1 bouyer timeout = mstohz(xs->timeout); 2122 1.1 bouyer if (timeout == 0) 2123 1.1 bouyer timeout = 1; 2124 1.1 bouyer callout_reset(&xs->xs_callout, timeout, mfii_scsi_cmd_tmo, ccb); 2125 1.1 bouyer 2126 1.1 bouyer switch (xs->cmd->opcode) { 2127 1.1 bouyer case SCSI_READ_6_COMMAND: 2128 1.1 bouyer case READ_10: 2129 1.1 bouyer case READ_12: 2130 1.1 bouyer case READ_16: 2131 1.1 bouyer case SCSI_WRITE_6_COMMAND: 2132 1.1 bouyer case WRITE_10: 2133 1.1 bouyer case WRITE_12: 2134 1.1 bouyer case WRITE_16: 2135 1.1 bouyer if (mfii_scsi_cmd_io(sc, ccb, xs) != 0) 2136 1.1 bouyer goto stuffup; 2137 1.1 bouyer break; 2138 1.1 bouyer 2139 1.1 bouyer default: 2140 1.1 bouyer if (mfii_scsi_cmd_cdb(sc, ccb, xs) != 0) 2141 1.1 bouyer goto stuffup; 2142 1.1 bouyer break; 2143 1.1 bouyer } 2144 1.1 bouyer 2145 1.1 bouyer xs->error = XS_NOERROR; 2146 1.1 bouyer xs->resid = 0; 2147 1.1 bouyer 2148 1.1 bouyer DNPRINTF(MFII_D_CMD, "%s: start io %d cmd %d\n", DEVNAME(sc), target, 2149 1.1 bouyer xs->cmd->opcode); 2150 1.1 bouyer 2151 1.1 bouyer if (xs->xs_control & XS_CTL_POLL) { 2152 1.1 bouyer if (mfii_poll(sc, ccb) != 0) 2153 1.1 bouyer goto stuffup; 2154 1.1 bouyer return; 2155 1.1 bouyer } 2156 1.1 bouyer 2157 1.1 bouyer mfii_start(sc, ccb); 2158 1.1 bouyer 2159 1.1 bouyer return; 2160 1.1 bouyer 2161 1.1 bouyer stuffup: 2162 1.1 bouyer xs->error = XS_DRIVER_STUFFUP; 2163 1.1 bouyer scsipi_done(xs); 2164 1.1 bouyer mfii_put_ccb(sc, ccb); 2165 1.1 bouyer } 2166 1.1 bouyer 2167 1.6 maxv static void 2168 1.1 bouyer mfii_scsi_cmd_done(struct mfii_softc *sc, struct mfii_ccb *ccb) 2169 1.1 bouyer { 2170 1.1 bouyer struct scsipi_xfer *xs = ccb->ccb_cookie; 2171 1.1 bouyer struct mpii_msg_scsi_io *io = ccb->ccb_request; 2172 1.1 bouyer struct mfii_raid_context *ctx = (struct mfii_raid_context *)(io + 1); 2173 1.1 bouyer 2174 1.1 bouyer if (callout_stop(&xs->xs_callout) != 0) 2175 1.4 bouyer return; 2176 1.1 bouyer 2177 1.1 bouyer switch (ctx->status) { 2178 1.1 bouyer case MFI_STAT_OK: 2179 1.1 bouyer break; 2180 1.1 bouyer 2181 1.1 bouyer case MFI_STAT_SCSI_DONE_WITH_ERROR: 2182 1.1 bouyer xs->error = XS_SENSE; 2183 1.1 bouyer memset(&xs->sense, 0, sizeof(xs->sense)); 2184 1.1 bouyer memcpy(&xs->sense, ccb->ccb_sense, sizeof(xs->sense)); 2185 1.1 bouyer break; 2186 1.1 bouyer 2187 1.1 bouyer case MFI_STAT_LD_OFFLINE: 2188 1.1 bouyer case MFI_STAT_DEVICE_NOT_FOUND: 2189 1.1 bouyer xs->error = XS_SELTIMEOUT; 2190 1.1 bouyer break; 2191 1.1 bouyer 2192 1.1 bouyer default: 2193 1.1 bouyer xs->error = XS_DRIVER_STUFFUP; 2194 1.1 bouyer break; 2195 1.1 bouyer } 2196 1.1 bouyer 2197 1.4 bouyer scsipi_done(xs); 2198 1.4 bouyer mfii_put_ccb(sc, ccb); 2199 1.1 bouyer } 2200 1.1 bouyer 2201 1.6 maxv static int 2202 1.1 bouyer mfii_scsi_cmd_io(struct mfii_softc *sc, struct mfii_ccb *ccb, 2203 1.1 bouyer struct scsipi_xfer *xs) 2204 1.1 bouyer { 2205 1.1 bouyer struct scsipi_periph *periph = xs->xs_periph; 2206 1.1 bouyer struct mpii_msg_scsi_io *io = ccb->ccb_request; 2207 1.1 bouyer struct mfii_raid_context *ctx = (struct mfii_raid_context *)(io + 1); 2208 1.1 bouyer int segs; 2209 1.1 bouyer 2210 1.1 bouyer io->dev_handle = htole16(periph->periph_target); 2211 1.1 bouyer io->function = MFII_FUNCTION_LDIO_REQUEST; 2212 1.1 bouyer io->sense_buffer_low_address = htole32(ccb->ccb_sense_dva); 2213 1.1 bouyer io->sgl_flags = htole16(0x02); /* XXX */ 2214 1.1 bouyer io->sense_buffer_length = sizeof(xs->sense); 2215 1.1 bouyer io->sgl_offset0 = (sizeof(*io) + sizeof(*ctx)) / 4; 2216 1.1 bouyer io->data_length = htole32(xs->datalen); 2217 1.1 bouyer io->io_flags = htole16(xs->cmdlen); 2218 1.1 bouyer switch (xs->xs_control & (XS_CTL_DATA_IN | XS_CTL_DATA_OUT)) { 2219 1.1 bouyer case XS_CTL_DATA_IN: 2220 1.1 bouyer ccb->ccb_direction = MFII_DATA_IN; 2221 1.1 bouyer io->direction = MPII_SCSIIO_DIR_READ; 2222 1.1 bouyer break; 2223 1.1 bouyer case XS_CTL_DATA_OUT: 2224 1.1 bouyer ccb->ccb_direction = MFII_DATA_OUT; 2225 1.1 bouyer io->direction = MPII_SCSIIO_DIR_WRITE; 2226 1.1 bouyer break; 2227 1.1 bouyer default: 2228 1.1 bouyer ccb->ccb_direction = MFII_DATA_NONE; 2229 1.1 bouyer io->direction = MPII_SCSIIO_DIR_NONE; 2230 1.1 bouyer break; 2231 1.1 bouyer } 2232 1.1 bouyer memcpy(io->cdb, xs->cmd, xs->cmdlen); 2233 1.1 bouyer 2234 1.1 bouyer ctx->type_nseg = sc->sc_iop->ldio_ctx_type_nseg; 2235 1.1 bouyer ctx->timeout_value = htole16(0x14); /* XXX */ 2236 1.1 bouyer ctx->reg_lock_flags = htole16(sc->sc_iop->ldio_ctx_reg_lock_flags); 2237 1.1 bouyer ctx->virtual_disk_target_id = htole16(periph->periph_target); 2238 1.1 bouyer 2239 1.1 bouyer if (mfii_load_ccb(sc, ccb, ctx + 1, 2240 1.1 bouyer ISSET(xs->xs_control, XS_CTL_NOSLEEP)) != 0) 2241 1.1 bouyer return (1); 2242 1.1 bouyer 2243 1.1 bouyer KASSERT(ccb->ccb_len == 0 || ccb->ccb_dma64); 2244 1.1 bouyer segs = (ccb->ccb_len == 0) ? 0 : ccb->ccb_dmamap64->dm_nsegs; 2245 1.1 bouyer switch (sc->sc_iop->num_sge_loc) { 2246 1.1 bouyer case MFII_IOP_NUM_SGE_LOC_ORIG: 2247 1.1 bouyer ctx->num_sge = segs; 2248 1.1 bouyer break; 2249 1.1 bouyer case MFII_IOP_NUM_SGE_LOC_35: 2250 1.1 bouyer /* 12 bit field, but we're only using the lower 8 */ 2251 1.1 bouyer ctx->span_arm = segs; 2252 1.1 bouyer break; 2253 1.1 bouyer } 2254 1.1 bouyer 2255 1.1 bouyer ccb->ccb_req.flags = sc->sc_iop->ldio_req_type; 2256 1.1 bouyer ccb->ccb_req.smid = le16toh(ccb->ccb_smid); 2257 1.1 bouyer 2258 1.1 bouyer return (0); 2259 1.1 bouyer } 2260 1.1 bouyer 2261 1.6 maxv static int 2262 1.1 bouyer mfii_scsi_cmd_cdb(struct mfii_softc *sc, struct mfii_ccb *ccb, 2263 1.1 bouyer struct scsipi_xfer *xs) 2264 1.1 bouyer { 2265 1.1 bouyer struct scsipi_periph *periph = xs->xs_periph; 2266 1.1 bouyer struct mpii_msg_scsi_io *io = ccb->ccb_request; 2267 1.1 bouyer struct mfii_raid_context *ctx = (struct mfii_raid_context *)(io + 1); 2268 1.1 bouyer 2269 1.1 bouyer io->dev_handle = htole16(periph->periph_target); 2270 1.1 bouyer io->function = MFII_FUNCTION_LDIO_REQUEST; 2271 1.1 bouyer io->sense_buffer_low_address = htole32(ccb->ccb_sense_dva); 2272 1.1 bouyer io->sgl_flags = htole16(0x02); /* XXX */ 2273 1.1 bouyer io->sense_buffer_length = sizeof(xs->sense); 2274 1.1 bouyer io->sgl_offset0 = (sizeof(*io) + sizeof(*ctx)) / 4; 2275 1.1 bouyer io->data_length = htole32(xs->datalen); 2276 1.1 bouyer io->io_flags = htole16(xs->cmdlen); 2277 1.1 bouyer io->lun[0] = htobe16(periph->periph_lun); 2278 1.1 bouyer switch (xs->xs_control & (XS_CTL_DATA_IN | XS_CTL_DATA_OUT)) { 2279 1.1 bouyer case XS_CTL_DATA_IN: 2280 1.1 bouyer ccb->ccb_direction = MFII_DATA_IN; 2281 1.1 bouyer io->direction = MPII_SCSIIO_DIR_READ; 2282 1.1 bouyer break; 2283 1.1 bouyer case XS_CTL_DATA_OUT: 2284 1.1 bouyer ccb->ccb_direction = MFII_DATA_OUT; 2285 1.1 bouyer io->direction = MPII_SCSIIO_DIR_WRITE; 2286 1.1 bouyer break; 2287 1.1 bouyer default: 2288 1.1 bouyer ccb->ccb_direction = MFII_DATA_NONE; 2289 1.1 bouyer io->direction = MPII_SCSIIO_DIR_NONE; 2290 1.1 bouyer break; 2291 1.1 bouyer } 2292 1.1 bouyer memcpy(io->cdb, xs->cmd, xs->cmdlen); 2293 1.1 bouyer 2294 1.1 bouyer ctx->virtual_disk_target_id = htole16(periph->periph_target); 2295 1.1 bouyer 2296 1.1 bouyer if (mfii_load_ccb(sc, ccb, ctx + 1, 2297 1.1 bouyer ISSET(xs->xs_control, XS_CTL_NOSLEEP)) != 0) 2298 1.1 bouyer return (1); 2299 1.1 bouyer 2300 1.1 bouyer ctx->num_sge = (ccb->ccb_len == 0) ? 0 : ccb->ccb_dmamap64->dm_nsegs; 2301 1.1 bouyer KASSERT(ccb->ccb_len == 0 || ccb->ccb_dma64); 2302 1.1 bouyer 2303 1.1 bouyer ccb->ccb_req.flags = MFII_REQ_TYPE_SCSI; 2304 1.1 bouyer ccb->ccb_req.smid = le16toh(ccb->ccb_smid); 2305 1.1 bouyer 2306 1.1 bouyer return (0); 2307 1.1 bouyer } 2308 1.1 bouyer 2309 1.1 bouyer #if 0 2310 1.1 bouyer void 2311 1.1 bouyer mfii_pd_scsi_cmd(struct scsipi_xfer *xs) 2312 1.1 bouyer { 2313 1.1 bouyer struct scsi_link *link = xs->sc_link; 2314 1.1 bouyer struct mfii_softc *sc = link->adapter_softc; 2315 1.1 bouyer struct mfii_ccb *ccb = xs->io; 2316 1.1 bouyer 2317 1.1 bouyer mfii_scrub_ccb(ccb); 2318 1.1 bouyer ccb->ccb_cookie = xs; 2319 1.1 bouyer ccb->ccb_done = mfii_scsi_cmd_done; 2320 1.1 bouyer ccb->ccb_data = xs->data; 2321 1.1 bouyer ccb->ccb_len = xs->datalen; 2322 1.1 bouyer 2323 1.1 bouyer // XXX timeout_set(&xs->stimeout, mfii_scsi_cmd_tmo, xs); 2324 1.1 bouyer 2325 1.1 bouyer xs->error = mfii_pd_scsi_cmd_cdb(sc, xs); 2326 1.1 bouyer if (xs->error != XS_NOERROR) 2327 1.1 bouyer goto done; 2328 1.1 bouyer 2329 1.1 bouyer xs->resid = 0; 2330 1.1 bouyer 2331 1.1 bouyer if (ISSET(xs->xs_control, XS_CTL_POLL)) { 2332 1.1 bouyer if (mfii_poll(sc, ccb) != 0) 2333 1.1 bouyer goto stuffup; 2334 1.1 bouyer return; 2335 1.1 bouyer } 2336 1.1 bouyer 2337 1.1 bouyer // XXX timeout_add_msec(&xs->stimeout, xs->timeout); 2338 1.1 bouyer mfii_start(sc, ccb); 2339 1.1 bouyer 2340 1.1 bouyer return; 2341 1.1 bouyer 2342 1.1 bouyer stuffup: 2343 1.1 bouyer xs->error = XS_DRIVER_STUFFUP; 2344 1.1 bouyer done: 2345 1.1 bouyer scsi_done(xs); 2346 1.1 bouyer } 2347 1.1 bouyer 2348 1.1 bouyer int 2349 1.1 bouyer mfii_pd_scsi_probe(struct scsi_link *link) 2350 1.1 bouyer { 2351 1.1 bouyer struct mfii_softc *sc = link->adapter_softc; 2352 1.1 bouyer struct mfi_pd_details mpd; 2353 1.1 bouyer union mfi_mbox mbox; 2354 1.1 bouyer int rv; 2355 1.1 bouyer 2356 1.1 bouyer if (link->lun > 0) 2357 1.1 bouyer return (0); 2358 1.1 bouyer 2359 1.1 bouyer memset(&mbox, 0, sizeof(mbox)); 2360 1.1 bouyer mbox.s[0] = htole16(link->target); 2361 1.1 bouyer 2362 1.1 bouyer rv = mfii_mgmt(sc, MR_DCMD_PD_GET_INFO, &mbox, &mpd, sizeof(mpd), 2363 1.1 bouyer MFII_DATA_IN, true); 2364 1.1 bouyer if (rv != 0) 2365 1.1 bouyer return (EIO); 2366 1.1 bouyer 2367 1.1 bouyer if (mpd.mpd_fw_state != htole16(MFI_PD_SYSTEM)) 2368 1.1 bouyer return (ENXIO); 2369 1.1 bouyer 2370 1.1 bouyer return (0); 2371 1.1 bouyer } 2372 1.1 bouyer 2373 1.1 bouyer int 2374 1.1 bouyer mfii_pd_scsi_cmd_cdb(struct mfii_softc *sc, struct mfii_ccb *ccb, 2375 1.1 bouyer struct scsipi_xfer *xs) 2376 1.1 bouyer { 2377 1.1 bouyer struct scsi_link *link = xs->sc_link; 2378 1.1 bouyer struct mpii_msg_scsi_io *io = ccb->ccb_request; 2379 1.1 bouyer struct mfii_raid_context *ctx = (struct mfii_raid_context *)(io + 1); 2380 1.1 bouyer uint16_t dev_handle; 2381 1.1 bouyer 2382 1.1 bouyer dev_handle = mfii_dev_handle(sc, link->target); 2383 1.1 bouyer if (dev_handle == htole16(0xffff)) 2384 1.1 bouyer return (XS_SELTIMEOUT); 2385 1.1 bouyer 2386 1.1 bouyer io->dev_handle = dev_handle; 2387 1.1 bouyer io->function = 0; 2388 1.1 bouyer io->sense_buffer_low_address = htole32(ccb->ccb_sense_dva); 2389 1.1 bouyer io->sgl_flags = htole16(0x02); /* XXX */ 2390 1.1 bouyer io->sense_buffer_length = sizeof(xs->sense); 2391 1.1 bouyer io->sgl_offset0 = (sizeof(*io) + sizeof(*ctx)) / 4; 2392 1.1 bouyer io->data_length = htole32(xs->datalen); 2393 1.1 bouyer io->io_flags = htole16(xs->cmdlen); 2394 1.1 bouyer io->lun[0] = htobe16(link->lun); 2395 1.1 bouyer switch (xs->xs_control & (XS_CTL_DATA_IN | XS_CTL_DATA_OUT)) { 2396 1.1 bouyer case XS_CTL_DATA_IN: 2397 1.1 bouyer ccb->ccb_direction = MFII_DATA_IN; 2398 1.1 bouyer io->direction = MPII_SCSIIO_DIR_READ; 2399 1.1 bouyer break; 2400 1.1 bouyer case XS_CTL_DATA_OUT: 2401 1.1 bouyer ccb->ccb_direction = MFII_DATA_OUT; 2402 1.1 bouyer io->direction = MPII_SCSIIO_DIR_WRITE; 2403 1.1 bouyer break; 2404 1.1 bouyer default: 2405 1.1 bouyer ccb->ccb_direction = MFII_DATA_NONE; 2406 1.1 bouyer io->direction = MPII_SCSIIO_DIR_NONE; 2407 1.1 bouyer break; 2408 1.1 bouyer } 2409 1.1 bouyer memcpy(io->cdb, xs->cmd, xs->cmdlen); 2410 1.1 bouyer 2411 1.1 bouyer ctx->virtual_disk_target_id = htole16(link->target); 2412 1.1 bouyer ctx->raid_flags = MFII_RAID_CTX_IO_TYPE_SYSPD; 2413 1.1 bouyer ctx->timeout_value = sc->sc_pd->pd_timeout; 2414 1.1 bouyer 2415 1.1 bouyer if (mfii_load_ccb(sc, ccb, ctx + 1, 2416 1.1 bouyer ISSET(xs->xs_control, XS_CTL_NOSLEEP)) != 0) 2417 1.1 bouyer return (XS_DRIVER_STUFFUP); 2418 1.1 bouyer 2419 1.1 bouyer ctx->num_sge = (ccb->ccb_len == 0) ? 0 : ccb->ccb_dmamap64->dm_nsegs; 2420 1.1 bouyer KASSERT(ccb->ccb_dma64); 2421 1.1 bouyer 2422 1.1 bouyer ccb->ccb_req.flags = MFII_REQ_TYPE_HI_PRI; 2423 1.1 bouyer ccb->ccb_req.smid = le16toh(ccb->ccb_smid); 2424 1.1 bouyer ccb->ccb_req.dev_handle = dev_handle; 2425 1.1 bouyer 2426 1.1 bouyer return (XS_NOERROR); 2427 1.1 bouyer } 2428 1.1 bouyer #endif 2429 1.1 bouyer 2430 1.6 maxv static int 2431 1.1 bouyer mfii_load_ccb(struct mfii_softc *sc, struct mfii_ccb *ccb, void *sglp, 2432 1.1 bouyer int nosleep) 2433 1.1 bouyer { 2434 1.1 bouyer struct mpii_msg_request *req = ccb->ccb_request; 2435 1.1 bouyer struct mfii_sge *sge = NULL, *nsge = sglp; 2436 1.1 bouyer struct mfii_sge *ce = NULL; 2437 1.1 bouyer bus_dmamap_t dmap = ccb->ccb_dmamap64; 2438 1.1 bouyer u_int space; 2439 1.1 bouyer int i; 2440 1.1 bouyer 2441 1.1 bouyer int error; 2442 1.1 bouyer 2443 1.1 bouyer if (ccb->ccb_len == 0) 2444 1.1 bouyer return (0); 2445 1.1 bouyer 2446 1.1 bouyer ccb->ccb_dma64 = true; 2447 1.1 bouyer error = bus_dmamap_load(sc->sc_dmat64, dmap, 2448 1.1 bouyer ccb->ccb_data, ccb->ccb_len, NULL, 2449 1.1 bouyer nosleep ? BUS_DMA_NOWAIT : BUS_DMA_WAITOK); 2450 1.1 bouyer if (error) { 2451 1.1 bouyer printf("%s: error %d loading dmamap\n", DEVNAME(sc), error); 2452 1.1 bouyer return (1); 2453 1.1 bouyer } 2454 1.1 bouyer 2455 1.1 bouyer space = (MFII_REQUEST_SIZE - ((u_int8_t *)nsge - (u_int8_t *)req)) / 2456 1.1 bouyer sizeof(*nsge); 2457 1.1 bouyer if (dmap->dm_nsegs > space) { 2458 1.1 bouyer space--; 2459 1.1 bouyer 2460 1.1 bouyer ccb->ccb_sgl_len = (dmap->dm_nsegs - space) * sizeof(*nsge); 2461 1.1 bouyer memset(ccb->ccb_sgl, 0, ccb->ccb_sgl_len); 2462 1.1 bouyer 2463 1.1 bouyer ce = nsge + space; 2464 1.1 bouyer ce->sg_addr = htole64(ccb->ccb_sgl_dva); 2465 1.1 bouyer ce->sg_len = htole32(ccb->ccb_sgl_len); 2466 1.1 bouyer ce->sg_flags = sc->sc_iop->sge_flag_chain; 2467 1.1 bouyer 2468 1.1 bouyer req->chain_offset = ((u_int8_t *)ce - (u_int8_t *)req) / 16; 2469 1.1 bouyer } 2470 1.1 bouyer 2471 1.1 bouyer for (i = 0; i < dmap->dm_nsegs; i++) { 2472 1.1 bouyer if (nsge == ce) 2473 1.1 bouyer nsge = ccb->ccb_sgl; 2474 1.1 bouyer 2475 1.1 bouyer sge = nsge; 2476 1.1 bouyer 2477 1.1 bouyer sge->sg_addr = htole64(dmap->dm_segs[i].ds_addr); 2478 1.1 bouyer sge->sg_len = htole32(dmap->dm_segs[i].ds_len); 2479 1.1 bouyer sge->sg_flags = MFII_SGE_ADDR_SYSTEM; 2480 1.1 bouyer 2481 1.1 bouyer nsge = sge + 1; 2482 1.1 bouyer } 2483 1.1 bouyer sge->sg_flags |= sc->sc_iop->sge_flag_eol; 2484 1.1 bouyer 2485 1.1 bouyer bus_dmamap_sync(sc->sc_dmat64, dmap, 0, dmap->dm_mapsize, 2486 1.1 bouyer ccb->ccb_direction == MFII_DATA_OUT ? 2487 1.1 bouyer BUS_DMASYNC_PREWRITE : BUS_DMASYNC_PREREAD); 2488 1.1 bouyer 2489 1.1 bouyer if (ccb->ccb_sgl_len > 0) { 2490 1.1 bouyer bus_dmamap_sync(sc->sc_dmat, MFII_DMA_MAP(sc->sc_sgl), 2491 1.1 bouyer ccb->ccb_sgl_offset, ccb->ccb_sgl_len, 2492 1.1 bouyer BUS_DMASYNC_PREWRITE); 2493 1.1 bouyer } 2494 1.1 bouyer 2495 1.1 bouyer return (0); 2496 1.1 bouyer } 2497 1.1 bouyer 2498 1.6 maxv static void 2499 1.1 bouyer mfii_scsi_cmd_tmo(void *p) 2500 1.1 bouyer { 2501 1.1 bouyer struct mfii_ccb *ccb = p; 2502 1.1 bouyer struct mfii_softc *sc = ccb->ccb_sc; 2503 1.1 bouyer bool start_abort; 2504 1.1 bouyer 2505 1.1 bouyer printf("%s: cmd timeout ccb %p\n", DEVNAME(sc), p); 2506 1.1 bouyer 2507 1.1 bouyer mutex_enter(&sc->sc_abort_mtx); 2508 1.1 bouyer start_abort = (SIMPLEQ_FIRST(&sc->sc_abort_list) == 0); 2509 1.1 bouyer SIMPLEQ_INSERT_TAIL(&sc->sc_abort_list, ccb, ccb_link); 2510 1.1 bouyer if (start_abort) 2511 1.1 bouyer workqueue_enqueue(sc->sc_abort_wq, &sc->sc_abort_work, NULL); 2512 1.1 bouyer mutex_exit(&sc->sc_abort_mtx); 2513 1.1 bouyer } 2514 1.1 bouyer 2515 1.6 maxv static void 2516 1.1 bouyer mfii_abort_task(struct work *wk, void *scp) 2517 1.1 bouyer { 2518 1.1 bouyer struct mfii_softc *sc = scp; 2519 1.1 bouyer struct mfii_ccb *list; 2520 1.1 bouyer 2521 1.1 bouyer mutex_enter(&sc->sc_abort_mtx); 2522 1.1 bouyer list = SIMPLEQ_FIRST(&sc->sc_abort_list); 2523 1.1 bouyer SIMPLEQ_INIT(&sc->sc_abort_list); 2524 1.1 bouyer mutex_exit(&sc->sc_abort_mtx); 2525 1.1 bouyer 2526 1.1 bouyer while (list != NULL) { 2527 1.1 bouyer struct mfii_ccb *ccb = list; 2528 1.1 bouyer struct scsipi_xfer *xs = ccb->ccb_cookie; 2529 1.1 bouyer struct scsipi_periph *periph = xs->xs_periph; 2530 1.1 bouyer struct mfii_ccb *accb; 2531 1.1 bouyer 2532 1.1 bouyer list = SIMPLEQ_NEXT(ccb, ccb_link); 2533 1.1 bouyer 2534 1.1 bouyer if (!sc->sc_ld[periph->periph_target].ld_present) { 2535 1.1 bouyer /* device is gone */ 2536 1.4 bouyer xs->error = XS_SELTIMEOUT; 2537 1.4 bouyer scsipi_done(xs); 2538 1.4 bouyer mfii_put_ccb(sc, ccb); 2539 1.1 bouyer continue; 2540 1.1 bouyer } 2541 1.1 bouyer 2542 1.1 bouyer accb = mfii_get_ccb(sc); 2543 1.1 bouyer mfii_scrub_ccb(accb); 2544 1.1 bouyer mfii_abort(sc, accb, periph->periph_target, ccb->ccb_smid, 2545 1.1 bouyer MPII_SCSI_TASK_ABORT_TASK, 2546 1.1 bouyer htole32(MFII_TASK_MGMT_FLAGS_PD)); 2547 1.1 bouyer 2548 1.1 bouyer accb->ccb_cookie = ccb; 2549 1.1 bouyer accb->ccb_done = mfii_scsi_cmd_abort_done; 2550 1.1 bouyer 2551 1.1 bouyer mfii_start(sc, accb); 2552 1.1 bouyer } 2553 1.1 bouyer } 2554 1.1 bouyer 2555 1.6 maxv static void 2556 1.1 bouyer mfii_abort(struct mfii_softc *sc, struct mfii_ccb *accb, uint16_t dev_handle, 2557 1.1 bouyer uint16_t smid, uint8_t type, uint32_t flags) 2558 1.1 bouyer { 2559 1.1 bouyer struct mfii_task_mgmt *msg; 2560 1.1 bouyer struct mpii_msg_scsi_task_request *req; 2561 1.1 bouyer 2562 1.1 bouyer msg = accb->ccb_request; 2563 1.1 bouyer req = &msg->mpii_request; 2564 1.1 bouyer req->dev_handle = dev_handle; 2565 1.1 bouyer req->function = MPII_FUNCTION_SCSI_TASK_MGMT; 2566 1.1 bouyer req->task_type = type; 2567 1.1 bouyer req->task_mid = htole16( smid); 2568 1.1 bouyer msg->flags = flags; 2569 1.1 bouyer 2570 1.1 bouyer accb->ccb_req.flags = MFII_REQ_TYPE_HI_PRI; 2571 1.1 bouyer accb->ccb_req.smid = le16toh(accb->ccb_smid); 2572 1.1 bouyer } 2573 1.1 bouyer 2574 1.6 maxv static void 2575 1.1 bouyer mfii_scsi_cmd_abort_done(struct mfii_softc *sc, struct mfii_ccb *accb) 2576 1.1 bouyer { 2577 1.1 bouyer struct mfii_ccb *ccb = accb->ccb_cookie; 2578 1.1 bouyer struct scsipi_xfer *xs = ccb->ccb_cookie; 2579 1.1 bouyer 2580 1.1 bouyer /* XXX check accb completion? */ 2581 1.1 bouyer 2582 1.1 bouyer mfii_put_ccb(sc, accb); 2583 1.4 bouyer printf("%s: cmd aborted ccb %p\n", DEVNAME(sc), ccb); 2584 1.1 bouyer 2585 1.4 bouyer xs->error = XS_TIMEOUT; 2586 1.4 bouyer scsipi_done(xs); 2587 1.4 bouyer mfii_put_ccb(sc, ccb); 2588 1.1 bouyer } 2589 1.1 bouyer 2590 1.6 maxv static struct mfii_ccb * 2591 1.1 bouyer mfii_get_ccb(struct mfii_softc *sc) 2592 1.1 bouyer { 2593 1.1 bouyer struct mfii_ccb *ccb; 2594 1.1 bouyer 2595 1.1 bouyer mutex_enter(&sc->sc_ccb_mtx); 2596 1.1 bouyer if (!sc->sc_running) { 2597 1.1 bouyer ccb = NULL; 2598 1.1 bouyer } else { 2599 1.1 bouyer ccb = SIMPLEQ_FIRST(&sc->sc_ccb_freeq); 2600 1.1 bouyer if (ccb != NULL) 2601 1.1 bouyer SIMPLEQ_REMOVE_HEAD(&sc->sc_ccb_freeq, ccb_link); 2602 1.1 bouyer } 2603 1.1 bouyer mutex_exit(&sc->sc_ccb_mtx); 2604 1.1 bouyer return (ccb); 2605 1.1 bouyer } 2606 1.1 bouyer 2607 1.6 maxv static void 2608 1.1 bouyer mfii_scrub_ccb(struct mfii_ccb *ccb) 2609 1.1 bouyer { 2610 1.1 bouyer ccb->ccb_cookie = NULL; 2611 1.1 bouyer ccb->ccb_done = NULL; 2612 1.1 bouyer ccb->ccb_flags = 0; 2613 1.1 bouyer ccb->ccb_data = NULL; 2614 1.1 bouyer ccb->ccb_direction = MFII_DATA_NONE; 2615 1.1 bouyer ccb->ccb_dma64 = false; 2616 1.1 bouyer ccb->ccb_len = 0; 2617 1.1 bouyer ccb->ccb_sgl_len = 0; 2618 1.1 bouyer memset(&ccb->ccb_req, 0, sizeof(ccb->ccb_req)); 2619 1.1 bouyer memset(ccb->ccb_request, 0, MFII_REQUEST_SIZE); 2620 1.1 bouyer memset(ccb->ccb_mfi, 0, MFI_FRAME_SIZE); 2621 1.1 bouyer } 2622 1.1 bouyer 2623 1.6 maxv static void 2624 1.1 bouyer mfii_put_ccb(struct mfii_softc *sc, struct mfii_ccb *ccb) 2625 1.1 bouyer { 2626 1.1 bouyer mutex_enter(&sc->sc_ccb_mtx); 2627 1.1 bouyer SIMPLEQ_INSERT_HEAD(&sc->sc_ccb_freeq, ccb, ccb_link); 2628 1.1 bouyer mutex_exit(&sc->sc_ccb_mtx); 2629 1.1 bouyer } 2630 1.1 bouyer 2631 1.6 maxv static int 2632 1.1 bouyer mfii_init_ccb(struct mfii_softc *sc) 2633 1.1 bouyer { 2634 1.1 bouyer struct mfii_ccb *ccb; 2635 1.1 bouyer u_int8_t *request = MFII_DMA_KVA(sc->sc_requests); 2636 1.1 bouyer u_int8_t *mfi = MFII_DMA_KVA(sc->sc_mfi); 2637 1.1 bouyer u_int8_t *sense = MFII_DMA_KVA(sc->sc_sense); 2638 1.1 bouyer u_int8_t *sgl = MFII_DMA_KVA(sc->sc_sgl); 2639 1.1 bouyer u_int i; 2640 1.1 bouyer int error; 2641 1.1 bouyer 2642 1.1 bouyer sc->sc_ccb = malloc(sc->sc_max_cmds * sizeof(struct mfii_ccb), 2643 1.1 bouyer M_DEVBUF, M_WAITOK|M_ZERO); 2644 1.1 bouyer 2645 1.1 bouyer for (i = 0; i < sc->sc_max_cmds; i++) { 2646 1.1 bouyer ccb = &sc->sc_ccb[i]; 2647 1.1 bouyer ccb->ccb_sc = sc; 2648 1.1 bouyer 2649 1.1 bouyer /* create a dma map for transfer */ 2650 1.1 bouyer error = bus_dmamap_create(sc->sc_dmat, 2651 1.1 bouyer MAXPHYS, sc->sc_max_sgl, MAXPHYS, 0, 2652 1.1 bouyer BUS_DMA_NOWAIT | BUS_DMA_ALLOCNOW, &ccb->ccb_dmamap32); 2653 1.1 bouyer if (error) { 2654 1.1 bouyer printf("%s: cannot create ccb dmamap32 (%d)\n", 2655 1.1 bouyer DEVNAME(sc), error); 2656 1.1 bouyer goto destroy; 2657 1.1 bouyer } 2658 1.1 bouyer error = bus_dmamap_create(sc->sc_dmat64, 2659 1.1 bouyer MAXPHYS, sc->sc_max_sgl, MAXPHYS, 0, 2660 1.1 bouyer BUS_DMA_NOWAIT | BUS_DMA_ALLOCNOW, &ccb->ccb_dmamap64); 2661 1.1 bouyer if (error) { 2662 1.1 bouyer printf("%s: cannot create ccb dmamap64 (%d)\n", 2663 1.1 bouyer DEVNAME(sc), error); 2664 1.1 bouyer goto destroy32; 2665 1.1 bouyer } 2666 1.1 bouyer 2667 1.1 bouyer /* select i + 1'th request. 0 is reserved for events */ 2668 1.1 bouyer ccb->ccb_smid = i + 1; 2669 1.1 bouyer ccb->ccb_request_offset = MFII_REQUEST_SIZE * (i + 1); 2670 1.1 bouyer ccb->ccb_request = request + ccb->ccb_request_offset; 2671 1.1 bouyer ccb->ccb_request_dva = MFII_DMA_DVA(sc->sc_requests) + 2672 1.1 bouyer ccb->ccb_request_offset; 2673 1.1 bouyer 2674 1.1 bouyer /* select i'th MFI command frame */ 2675 1.1 bouyer ccb->ccb_mfi_offset = MFI_FRAME_SIZE * i; 2676 1.1 bouyer ccb->ccb_mfi = mfi + ccb->ccb_mfi_offset; 2677 1.1 bouyer ccb->ccb_mfi_dva = MFII_DMA_DVA(sc->sc_mfi) + 2678 1.1 bouyer ccb->ccb_mfi_offset; 2679 1.1 bouyer 2680 1.1 bouyer /* select i'th sense */ 2681 1.1 bouyer ccb->ccb_sense_offset = MFI_SENSE_SIZE * i; 2682 1.1 bouyer ccb->ccb_sense = (struct mfi_sense *)(sense + 2683 1.1 bouyer ccb->ccb_sense_offset); 2684 1.1 bouyer ccb->ccb_sense_dva = MFII_DMA_DVA(sc->sc_sense) + 2685 1.1 bouyer ccb->ccb_sense_offset; 2686 1.1 bouyer 2687 1.1 bouyer /* select i'th sgl */ 2688 1.1 bouyer ccb->ccb_sgl_offset = sizeof(struct mfii_sge) * 2689 1.1 bouyer sc->sc_max_sgl * i; 2690 1.1 bouyer ccb->ccb_sgl = (struct mfii_sge *)(sgl + ccb->ccb_sgl_offset); 2691 1.1 bouyer ccb->ccb_sgl_dva = MFII_DMA_DVA(sc->sc_sgl) + 2692 1.1 bouyer ccb->ccb_sgl_offset; 2693 1.1 bouyer 2694 1.1 bouyer mutex_init(&ccb->ccb_mtx, MUTEX_DEFAULT, IPL_BIO); 2695 1.1 bouyer cv_init(&ccb->ccb_cv, "mfiiexec"); 2696 1.1 bouyer 2697 1.1 bouyer /* add ccb to queue */ 2698 1.1 bouyer mfii_put_ccb(sc, ccb); 2699 1.1 bouyer } 2700 1.1 bouyer 2701 1.1 bouyer return (0); 2702 1.1 bouyer 2703 1.1 bouyer destroy32: 2704 1.1 bouyer bus_dmamap_destroy(sc->sc_dmat, ccb->ccb_dmamap32); 2705 1.1 bouyer destroy: 2706 1.1 bouyer /* free dma maps and ccb memory */ 2707 1.1 bouyer while ((ccb = mfii_get_ccb(sc)) != NULL) { 2708 1.1 bouyer bus_dmamap_destroy(sc->sc_dmat, ccb->ccb_dmamap32); 2709 1.1 bouyer bus_dmamap_destroy(sc->sc_dmat, ccb->ccb_dmamap64); 2710 1.1 bouyer } 2711 1.1 bouyer 2712 1.1 bouyer free(sc->sc_ccb, M_DEVBUF); 2713 1.1 bouyer 2714 1.1 bouyer return (1); 2715 1.1 bouyer } 2716 1.1 bouyer 2717 1.1 bouyer #if NBIO > 0 2718 1.6 maxv static int 2719 1.1 bouyer mfii_ioctl(device_t dev, u_long cmd, void *addr) 2720 1.1 bouyer { 2721 1.1 bouyer struct mfii_softc *sc = device_private(dev); 2722 1.1 bouyer int error = 0; 2723 1.1 bouyer 2724 1.1 bouyer DNPRINTF(MFII_D_IOCTL, "%s: mfii_ioctl ", DEVNAME(sc)); 2725 1.1 bouyer 2726 1.1 bouyer mutex_enter(&sc->sc_lock); 2727 1.1 bouyer 2728 1.1 bouyer switch (cmd) { 2729 1.1 bouyer case BIOCINQ: 2730 1.1 bouyer DNPRINTF(MFII_D_IOCTL, "inq\n"); 2731 1.1 bouyer error = mfii_ioctl_inq(sc, (struct bioc_inq *)addr); 2732 1.1 bouyer break; 2733 1.1 bouyer 2734 1.1 bouyer case BIOCVOL: 2735 1.1 bouyer DNPRINTF(MFII_D_IOCTL, "vol\n"); 2736 1.1 bouyer error = mfii_ioctl_vol(sc, (struct bioc_vol *)addr); 2737 1.1 bouyer break; 2738 1.1 bouyer 2739 1.1 bouyer case BIOCDISK: 2740 1.1 bouyer DNPRINTF(MFII_D_IOCTL, "disk\n"); 2741 1.1 bouyer error = mfii_ioctl_disk(sc, (struct bioc_disk *)addr); 2742 1.1 bouyer break; 2743 1.1 bouyer 2744 1.1 bouyer case BIOCALARM: 2745 1.1 bouyer DNPRINTF(MFII_D_IOCTL, "alarm\n"); 2746 1.1 bouyer error = mfii_ioctl_alarm(sc, (struct bioc_alarm *)addr); 2747 1.1 bouyer break; 2748 1.1 bouyer 2749 1.1 bouyer case BIOCBLINK: 2750 1.1 bouyer DNPRINTF(MFII_D_IOCTL, "blink\n"); 2751 1.1 bouyer error = mfii_ioctl_blink(sc, (struct bioc_blink *)addr); 2752 1.1 bouyer break; 2753 1.1 bouyer 2754 1.1 bouyer case BIOCSETSTATE: 2755 1.1 bouyer DNPRINTF(MFII_D_IOCTL, "setstate\n"); 2756 1.1 bouyer error = mfii_ioctl_setstate(sc, (struct bioc_setstate *)addr); 2757 1.1 bouyer break; 2758 1.1 bouyer 2759 1.1 bouyer #if 0 2760 1.1 bouyer case BIOCPATROL: 2761 1.1 bouyer DNPRINTF(MFII_D_IOCTL, "patrol\n"); 2762 1.1 bouyer error = mfii_ioctl_patrol(sc, (struct bioc_patrol *)addr); 2763 1.1 bouyer break; 2764 1.1 bouyer #endif 2765 1.1 bouyer 2766 1.1 bouyer default: 2767 1.1 bouyer DNPRINTF(MFII_D_IOCTL, " invalid ioctl\n"); 2768 1.1 bouyer error = ENOTTY; 2769 1.1 bouyer } 2770 1.1 bouyer 2771 1.1 bouyer mutex_exit(&sc->sc_lock); 2772 1.1 bouyer 2773 1.1 bouyer return (error); 2774 1.1 bouyer } 2775 1.1 bouyer 2776 1.6 maxv static int 2777 1.1 bouyer mfii_bio_getitall(struct mfii_softc *sc) 2778 1.1 bouyer { 2779 1.1 bouyer int i, d, rv = EINVAL; 2780 1.1 bouyer size_t size; 2781 1.1 bouyer union mfi_mbox mbox; 2782 1.1 bouyer struct mfi_conf *cfg = NULL; 2783 1.1 bouyer struct mfi_ld_details *ld_det = NULL; 2784 1.1 bouyer 2785 1.1 bouyer /* get info */ 2786 1.1 bouyer if (mfii_get_info(sc)) { 2787 1.1 bouyer DNPRINTF(MFII_D_IOCTL, "%s: mfii_get_info failed\n", 2788 1.1 bouyer DEVNAME(sc)); 2789 1.1 bouyer goto done; 2790 1.1 bouyer } 2791 1.1 bouyer 2792 1.1 bouyer /* send single element command to retrieve size for full structure */ 2793 1.1 bouyer cfg = malloc(sizeof *cfg, M_DEVBUF, M_NOWAIT | M_ZERO); 2794 1.1 bouyer if (cfg == NULL) 2795 1.1 bouyer goto done; 2796 1.1 bouyer if (mfii_mgmt(sc, MR_DCMD_CONF_GET, NULL, cfg, sizeof(*cfg), 2797 1.1 bouyer MFII_DATA_IN, false)) { 2798 1.1 bouyer free(cfg, M_DEVBUF); 2799 1.1 bouyer goto done; 2800 1.1 bouyer } 2801 1.1 bouyer 2802 1.1 bouyer size = cfg->mfc_size; 2803 1.1 bouyer free(cfg, M_DEVBUF); 2804 1.1 bouyer 2805 1.1 bouyer /* memory for read config */ 2806 1.1 bouyer cfg = malloc(size, M_DEVBUF, M_NOWAIT | M_ZERO); 2807 1.1 bouyer if (cfg == NULL) 2808 1.1 bouyer goto done; 2809 1.1 bouyer if (mfii_mgmt(sc, MR_DCMD_CONF_GET, NULL, cfg, size, 2810 1.1 bouyer MFII_DATA_IN, false)) { 2811 1.1 bouyer free(cfg, M_DEVBUF); 2812 1.1 bouyer goto done; 2813 1.1 bouyer } 2814 1.1 bouyer 2815 1.1 bouyer /* replace current pointer with new one */ 2816 1.1 bouyer if (sc->sc_cfg) 2817 1.1 bouyer free(sc->sc_cfg, M_DEVBUF); 2818 1.1 bouyer sc->sc_cfg = cfg; 2819 1.1 bouyer 2820 1.1 bouyer /* get all ld info */ 2821 1.1 bouyer if (mfii_mgmt(sc, MR_DCMD_LD_GET_LIST, NULL, &sc->sc_ld_list, 2822 1.1 bouyer sizeof(sc->sc_ld_list), MFII_DATA_IN, false)) 2823 1.1 bouyer goto done; 2824 1.1 bouyer 2825 1.1 bouyer /* get memory for all ld structures */ 2826 1.1 bouyer size = cfg->mfc_no_ld * sizeof(struct mfi_ld_details); 2827 1.1 bouyer if (sc->sc_ld_sz != size) { 2828 1.1 bouyer if (sc->sc_ld_details) 2829 1.1 bouyer free(sc->sc_ld_details, M_DEVBUF); 2830 1.1 bouyer 2831 1.1 bouyer ld_det = malloc(size, M_DEVBUF, M_NOWAIT | M_ZERO); 2832 1.1 bouyer if (ld_det == NULL) 2833 1.1 bouyer goto done; 2834 1.1 bouyer sc->sc_ld_sz = size; 2835 1.1 bouyer sc->sc_ld_details = ld_det; 2836 1.1 bouyer } 2837 1.1 bouyer 2838 1.1 bouyer /* find used physical disks */ 2839 1.1 bouyer size = sizeof(struct mfi_ld_details); 2840 1.1 bouyer for (i = 0, d = 0; i < cfg->mfc_no_ld; i++) { 2841 1.1 bouyer memset(&mbox, 0, sizeof(mbox)); 2842 1.1 bouyer mbox.b[0] = sc->sc_ld_list.mll_list[i].mll_ld.mld_target; 2843 1.1 bouyer if (mfii_mgmt(sc, MR_DCMD_LD_GET_INFO, &mbox, 2844 1.1 bouyer &sc->sc_ld_details[i], size, MFII_DATA_IN, false)) 2845 1.1 bouyer goto done; 2846 1.1 bouyer 2847 1.1 bouyer d += sc->sc_ld_details[i].mld_cfg.mlc_parm.mpa_no_drv_per_span * 2848 1.1 bouyer sc->sc_ld_details[i].mld_cfg.mlc_parm.mpa_span_depth; 2849 1.1 bouyer } 2850 1.1 bouyer sc->sc_no_pd = d; 2851 1.1 bouyer 2852 1.1 bouyer rv = 0; 2853 1.1 bouyer done: 2854 1.1 bouyer return (rv); 2855 1.1 bouyer } 2856 1.1 bouyer 2857 1.6 maxv static int 2858 1.1 bouyer mfii_ioctl_inq(struct mfii_softc *sc, struct bioc_inq *bi) 2859 1.1 bouyer { 2860 1.1 bouyer int rv = EINVAL; 2861 1.1 bouyer struct mfi_conf *cfg = NULL; 2862 1.1 bouyer 2863 1.1 bouyer DNPRINTF(MFII_D_IOCTL, "%s: mfii_ioctl_inq\n", DEVNAME(sc)); 2864 1.1 bouyer 2865 1.1 bouyer if (mfii_bio_getitall(sc)) { 2866 1.1 bouyer DNPRINTF(MFII_D_IOCTL, "%s: mfii_bio_getitall failed\n", 2867 1.1 bouyer DEVNAME(sc)); 2868 1.1 bouyer goto done; 2869 1.1 bouyer } 2870 1.1 bouyer 2871 1.1 bouyer /* count unused disks as volumes */ 2872 1.1 bouyer if (sc->sc_cfg == NULL) 2873 1.1 bouyer goto done; 2874 1.1 bouyer cfg = sc->sc_cfg; 2875 1.1 bouyer 2876 1.1 bouyer bi->bi_nodisk = sc->sc_info.mci_pd_disks_present; 2877 1.1 bouyer bi->bi_novol = cfg->mfc_no_ld + cfg->mfc_no_hs; 2878 1.1 bouyer #if notyet 2879 1.1 bouyer bi->bi_novol = cfg->mfc_no_ld + cfg->mfc_no_hs + 2880 1.1 bouyer (bi->bi_nodisk - sc->sc_no_pd); 2881 1.1 bouyer #endif 2882 1.1 bouyer /* tell bio who we are */ 2883 1.1 bouyer strlcpy(bi->bi_dev, DEVNAME(sc), sizeof(bi->bi_dev)); 2884 1.1 bouyer 2885 1.1 bouyer rv = 0; 2886 1.1 bouyer done: 2887 1.1 bouyer return (rv); 2888 1.1 bouyer } 2889 1.1 bouyer 2890 1.6 maxv static int 2891 1.1 bouyer mfii_ioctl_vol(struct mfii_softc *sc, struct bioc_vol *bv) 2892 1.1 bouyer { 2893 1.1 bouyer int i, per, rv = EINVAL; 2894 1.1 bouyer 2895 1.1 bouyer DNPRINTF(MFII_D_IOCTL, "%s: mfii_ioctl_vol %#x\n", 2896 1.1 bouyer DEVNAME(sc), bv->bv_volid); 2897 1.1 bouyer 2898 1.1 bouyer /* we really could skip and expect that inq took care of it */ 2899 1.1 bouyer if (mfii_bio_getitall(sc)) { 2900 1.1 bouyer DNPRINTF(MFII_D_IOCTL, "%s: mfii_bio_getitall failed\n", 2901 1.1 bouyer DEVNAME(sc)); 2902 1.1 bouyer goto done; 2903 1.1 bouyer } 2904 1.1 bouyer 2905 1.1 bouyer if (bv->bv_volid >= sc->sc_ld_list.mll_no_ld) { 2906 1.1 bouyer /* go do hotspares & unused disks */ 2907 1.1 bouyer rv = mfii_bio_hs(sc, bv->bv_volid, MFI_MGMT_VD, bv); 2908 1.1 bouyer goto done; 2909 1.1 bouyer } 2910 1.1 bouyer 2911 1.1 bouyer i = bv->bv_volid; 2912 1.1 bouyer strlcpy(bv->bv_dev, sc->sc_ld_details[i].mld_cfg.mlc_prop.mlp_name, 2913 1.1 bouyer sizeof(bv->bv_dev)); 2914 1.1 bouyer 2915 1.1 bouyer switch(sc->sc_ld_list.mll_list[i].mll_state) { 2916 1.1 bouyer case MFI_LD_OFFLINE: 2917 1.1 bouyer bv->bv_status = BIOC_SVOFFLINE; 2918 1.1 bouyer break; 2919 1.1 bouyer 2920 1.1 bouyer case MFI_LD_PART_DEGRADED: 2921 1.1 bouyer case MFI_LD_DEGRADED: 2922 1.1 bouyer bv->bv_status = BIOC_SVDEGRADED; 2923 1.1 bouyer break; 2924 1.1 bouyer 2925 1.1 bouyer case MFI_LD_ONLINE: 2926 1.1 bouyer bv->bv_status = BIOC_SVONLINE; 2927 1.1 bouyer break; 2928 1.1 bouyer 2929 1.1 bouyer default: 2930 1.1 bouyer bv->bv_status = BIOC_SVINVALID; 2931 1.1 bouyer DNPRINTF(MFII_D_IOCTL, "%s: invalid logical disk state %#x\n", 2932 1.1 bouyer DEVNAME(sc), 2933 1.1 bouyer sc->sc_ld_list.mll_list[i].mll_state); 2934 1.1 bouyer } 2935 1.1 bouyer 2936 1.1 bouyer /* additional status can modify MFI status */ 2937 1.1 bouyer switch (sc->sc_ld_details[i].mld_progress.mlp_in_prog) { 2938 1.1 bouyer case MFI_LD_PROG_CC: 2939 1.1 bouyer case MFI_LD_PROG_BGI: 2940 1.1 bouyer bv->bv_status = BIOC_SVSCRUB; 2941 1.1 bouyer per = (int)sc->sc_ld_details[i].mld_progress.mlp_cc.mp_progress; 2942 1.1 bouyer bv->bv_percent = (per * 100) / 0xffff; 2943 1.1 bouyer bv->bv_seconds = 2944 1.1 bouyer sc->sc_ld_details[i].mld_progress.mlp_cc.mp_elapsed_seconds; 2945 1.1 bouyer break; 2946 1.1 bouyer 2947 1.1 bouyer case MFI_LD_PROG_FGI: 2948 1.1 bouyer case MFI_LD_PROG_RECONSTRUCT: 2949 1.1 bouyer /* nothing yet */ 2950 1.1 bouyer break; 2951 1.1 bouyer } 2952 1.1 bouyer 2953 1.1 bouyer #if 0 2954 1.1 bouyer if (sc->sc_ld_details[i].mld_cfg.mlc_prop.mlp_cur_cache_policy & 0x01) 2955 1.1 bouyer bv->bv_cache = BIOC_CVWRITEBACK; 2956 1.1 bouyer else 2957 1.1 bouyer bv->bv_cache = BIOC_CVWRITETHROUGH; 2958 1.1 bouyer #endif 2959 1.1 bouyer 2960 1.1 bouyer /* 2961 1.1 bouyer * The RAID levels are determined per the SNIA DDF spec, this is only 2962 1.1 bouyer * a subset that is valid for the MFI controller. 2963 1.1 bouyer */ 2964 1.1 bouyer bv->bv_level = sc->sc_ld_details[i].mld_cfg.mlc_parm.mpa_pri_raid; 2965 1.1 bouyer if (sc->sc_ld_details[i].mld_cfg.mlc_parm.mpa_span_depth > 1) 2966 1.1 bouyer bv->bv_level *= 10; 2967 1.1 bouyer 2968 1.1 bouyer bv->bv_nodisk = sc->sc_ld_details[i].mld_cfg.mlc_parm.mpa_no_drv_per_span * 2969 1.1 bouyer sc->sc_ld_details[i].mld_cfg.mlc_parm.mpa_span_depth; 2970 1.1 bouyer 2971 1.1 bouyer bv->bv_size = sc->sc_ld_details[i].mld_size * 512; /* bytes per block */ 2972 1.1 bouyer 2973 1.1 bouyer rv = 0; 2974 1.1 bouyer done: 2975 1.1 bouyer return (rv); 2976 1.1 bouyer } 2977 1.1 bouyer 2978 1.6 maxv static int 2979 1.1 bouyer mfii_ioctl_disk(struct mfii_softc *sc, struct bioc_disk *bd) 2980 1.1 bouyer { 2981 1.1 bouyer struct mfi_conf *cfg; 2982 1.1 bouyer struct mfi_array *ar; 2983 1.1 bouyer struct mfi_ld_cfg *ld; 2984 1.1 bouyer struct mfi_pd_details *pd; 2985 1.1 bouyer struct mfi_pd_list *pl; 2986 1.1 bouyer struct scsipi_inquiry_data *inqbuf; 2987 1.1 bouyer char vend[8+16+4+1], *vendp; 2988 1.1 bouyer int i, rv = EINVAL; 2989 1.1 bouyer int arr, vol, disk, span; 2990 1.1 bouyer union mfi_mbox mbox; 2991 1.1 bouyer 2992 1.1 bouyer DNPRINTF(MFII_D_IOCTL, "%s: mfii_ioctl_disk %#x\n", 2993 1.1 bouyer DEVNAME(sc), bd->bd_diskid); 2994 1.1 bouyer 2995 1.1 bouyer /* we really could skip and expect that inq took care of it */ 2996 1.1 bouyer if (mfii_bio_getitall(sc)) { 2997 1.1 bouyer DNPRINTF(MFII_D_IOCTL, "%s: mfii_bio_getitall failed\n", 2998 1.1 bouyer DEVNAME(sc)); 2999 1.1 bouyer return (rv); 3000 1.1 bouyer } 3001 1.1 bouyer cfg = sc->sc_cfg; 3002 1.1 bouyer 3003 1.1 bouyer pd = malloc(sizeof *pd, M_DEVBUF, M_WAITOK); 3004 1.1 bouyer pl = malloc(sizeof *pl, M_DEVBUF, M_WAITOK); 3005 1.1 bouyer 3006 1.1 bouyer ar = cfg->mfc_array; 3007 1.1 bouyer vol = bd->bd_volid; 3008 1.1 bouyer if (vol >= cfg->mfc_no_ld) { 3009 1.1 bouyer /* do hotspares */ 3010 1.1 bouyer rv = mfii_bio_hs(sc, bd->bd_volid, MFI_MGMT_SD, bd); 3011 1.1 bouyer goto freeme; 3012 1.1 bouyer } 3013 1.1 bouyer 3014 1.1 bouyer /* calculate offset to ld structure */ 3015 1.1 bouyer ld = (struct mfi_ld_cfg *)( 3016 1.1 bouyer ((uint8_t *)cfg) + offsetof(struct mfi_conf, mfc_array) + 3017 1.1 bouyer cfg->mfc_array_size * cfg->mfc_no_array); 3018 1.1 bouyer 3019 1.1 bouyer /* use span 0 only when raid group is not spanned */ 3020 1.1 bouyer if (ld[vol].mlc_parm.mpa_span_depth > 1) 3021 1.1 bouyer span = bd->bd_diskid / ld[vol].mlc_parm.mpa_no_drv_per_span; 3022 1.1 bouyer else 3023 1.1 bouyer span = 0; 3024 1.1 bouyer arr = ld[vol].mlc_span[span].mls_index; 3025 1.1 bouyer 3026 1.1 bouyer /* offset disk into pd list */ 3027 1.1 bouyer disk = bd->bd_diskid % ld[vol].mlc_parm.mpa_no_drv_per_span; 3028 1.1 bouyer 3029 1.1 bouyer if (ar[arr].pd[disk].mar_pd.mfp_id == 0xffffU) { 3030 1.1 bouyer /* disk is missing but succeed command */ 3031 1.1 bouyer bd->bd_status = BIOC_SDFAILED; 3032 1.1 bouyer rv = 0; 3033 1.1 bouyer 3034 1.1 bouyer /* try to find an unused disk for the target to rebuild */ 3035 1.1 bouyer if (mfii_mgmt(sc, MR_DCMD_PD_GET_LIST, NULL, pl, sizeof(*pl), 3036 1.1 bouyer MFII_DATA_IN, false)) 3037 1.1 bouyer goto freeme; 3038 1.1 bouyer 3039 1.1 bouyer for (i = 0; i < pl->mpl_no_pd; i++) { 3040 1.1 bouyer if (pl->mpl_address[i].mpa_scsi_type != 0) 3041 1.1 bouyer continue; 3042 1.1 bouyer 3043 1.1 bouyer memset(&mbox, 0, sizeof(mbox)); 3044 1.1 bouyer mbox.s[0] = pl->mpl_address[i].mpa_pd_id; 3045 1.1 bouyer if (mfii_mgmt(sc, MR_DCMD_PD_GET_INFO, &mbox, 3046 1.1 bouyer pd, sizeof(*pd), MFII_DATA_IN, false)) 3047 1.1 bouyer continue; 3048 1.1 bouyer 3049 1.1 bouyer if (pd->mpd_fw_state == MFI_PD_UNCONFIG_GOOD || 3050 1.1 bouyer pd->mpd_fw_state == MFI_PD_UNCONFIG_BAD) 3051 1.1 bouyer break; 3052 1.1 bouyer } 3053 1.1 bouyer 3054 1.1 bouyer if (i == pl->mpl_no_pd) 3055 1.1 bouyer goto freeme; 3056 1.1 bouyer } else { 3057 1.1 bouyer memset(&mbox, 0, sizeof(mbox)); 3058 1.1 bouyer mbox.s[0] = ar[arr].pd[disk].mar_pd.mfp_id; 3059 1.1 bouyer if (mfii_mgmt(sc, MR_DCMD_PD_GET_INFO, &mbox, pd, sizeof(*pd), 3060 1.1 bouyer MFII_DATA_IN, false)) { 3061 1.1 bouyer bd->bd_status = BIOC_SDINVALID; 3062 1.1 bouyer goto freeme; 3063 1.1 bouyer } 3064 1.1 bouyer } 3065 1.1 bouyer 3066 1.1 bouyer /* get the remaining fields */ 3067 1.1 bouyer bd->bd_channel = pd->mpd_enc_idx; 3068 1.1 bouyer bd->bd_target = pd->mpd_enc_slot; 3069 1.1 bouyer 3070 1.1 bouyer /* get status */ 3071 1.1 bouyer switch (pd->mpd_fw_state){ 3072 1.1 bouyer case MFI_PD_UNCONFIG_GOOD: 3073 1.1 bouyer case MFI_PD_UNCONFIG_BAD: 3074 1.1 bouyer bd->bd_status = BIOC_SDUNUSED; 3075 1.1 bouyer break; 3076 1.1 bouyer 3077 1.1 bouyer case MFI_PD_HOTSPARE: /* XXX dedicated hotspare part of array? */ 3078 1.1 bouyer bd->bd_status = BIOC_SDHOTSPARE; 3079 1.1 bouyer break; 3080 1.1 bouyer 3081 1.1 bouyer case MFI_PD_OFFLINE: 3082 1.1 bouyer bd->bd_status = BIOC_SDOFFLINE; 3083 1.1 bouyer break; 3084 1.1 bouyer 3085 1.1 bouyer case MFI_PD_FAILED: 3086 1.1 bouyer bd->bd_status = BIOC_SDFAILED; 3087 1.1 bouyer break; 3088 1.1 bouyer 3089 1.1 bouyer case MFI_PD_REBUILD: 3090 1.1 bouyer bd->bd_status = BIOC_SDREBUILD; 3091 1.1 bouyer break; 3092 1.1 bouyer 3093 1.1 bouyer case MFI_PD_ONLINE: 3094 1.1 bouyer bd->bd_status = BIOC_SDONLINE; 3095 1.1 bouyer break; 3096 1.1 bouyer 3097 1.1 bouyer case MFI_PD_COPYBACK: 3098 1.1 bouyer case MFI_PD_SYSTEM: 3099 1.1 bouyer default: 3100 1.1 bouyer bd->bd_status = BIOC_SDINVALID; 3101 1.1 bouyer break; 3102 1.1 bouyer } 3103 1.1 bouyer 3104 1.1 bouyer bd->bd_size = pd->mpd_size * 512; /* bytes per block */ 3105 1.1 bouyer 3106 1.1 bouyer inqbuf = (struct scsipi_inquiry_data *)&pd->mpd_inq_data; 3107 1.1 bouyer vendp = inqbuf->vendor; 3108 1.1 bouyer memcpy(vend, vendp, sizeof vend - 1); 3109 1.1 bouyer vend[sizeof vend - 1] = '\0'; 3110 1.1 bouyer strlcpy(bd->bd_vendor, vend, sizeof(bd->bd_vendor)); 3111 1.1 bouyer 3112 1.1 bouyer /* XXX find a way to retrieve serial nr from drive */ 3113 1.1 bouyer /* XXX find a way to get bd_procdev */ 3114 1.1 bouyer 3115 1.1 bouyer #if 0 3116 1.1 bouyer mfp = &pd->mpd_progress; 3117 1.1 bouyer if (mfp->mfp_in_prog & MFI_PD_PROG_PR) { 3118 1.1 bouyer mp = &mfp->mfp_patrol_read; 3119 1.1 bouyer bd->bd_patrol.bdp_percent = (mp->mp_progress * 100) / 0xffff; 3120 1.1 bouyer bd->bd_patrol.bdp_seconds = mp->mp_elapsed_seconds; 3121 1.1 bouyer } 3122 1.1 bouyer #endif 3123 1.1 bouyer 3124 1.1 bouyer rv = 0; 3125 1.1 bouyer freeme: 3126 1.1 bouyer free(pd, M_DEVBUF); 3127 1.1 bouyer free(pl, M_DEVBUF); 3128 1.1 bouyer 3129 1.1 bouyer return (rv); 3130 1.1 bouyer } 3131 1.1 bouyer 3132 1.6 maxv static int 3133 1.1 bouyer mfii_ioctl_alarm(struct mfii_softc *sc, struct bioc_alarm *ba) 3134 1.1 bouyer { 3135 1.1 bouyer uint32_t opc; 3136 1.1 bouyer int rv = 0; 3137 1.1 bouyer int8_t ret; 3138 1.1 bouyer mfii_direction_t dir = MFII_DATA_NONE; 3139 1.1 bouyer 3140 1.1 bouyer switch(ba->ba_opcode) { 3141 1.1 bouyer case BIOC_SADISABLE: 3142 1.1 bouyer opc = MR_DCMD_SPEAKER_DISABLE; 3143 1.1 bouyer break; 3144 1.1 bouyer 3145 1.1 bouyer case BIOC_SAENABLE: 3146 1.1 bouyer opc = MR_DCMD_SPEAKER_ENABLE; 3147 1.1 bouyer break; 3148 1.1 bouyer 3149 1.1 bouyer case BIOC_SASILENCE: 3150 1.1 bouyer opc = MR_DCMD_SPEAKER_SILENCE; 3151 1.1 bouyer break; 3152 1.1 bouyer 3153 1.1 bouyer case BIOC_GASTATUS: 3154 1.1 bouyer opc = MR_DCMD_SPEAKER_GET; 3155 1.1 bouyer dir = MFII_DATA_IN; 3156 1.1 bouyer break; 3157 1.1 bouyer 3158 1.1 bouyer case BIOC_SATEST: 3159 1.1 bouyer opc = MR_DCMD_SPEAKER_TEST; 3160 1.1 bouyer break; 3161 1.1 bouyer 3162 1.1 bouyer default: 3163 1.1 bouyer DNPRINTF(MFII_D_IOCTL, "%s: mfii_ioctl_alarm biocalarm invalid " 3164 1.1 bouyer "opcode %x\n", DEVNAME(sc), ba->ba_opcode); 3165 1.1 bouyer return (EINVAL); 3166 1.1 bouyer } 3167 1.1 bouyer 3168 1.1 bouyer if (mfii_mgmt(sc, opc, NULL, &ret, sizeof(ret), dir, false)) 3169 1.1 bouyer rv = EINVAL; 3170 1.1 bouyer else 3171 1.1 bouyer if (ba->ba_opcode == BIOC_GASTATUS) 3172 1.1 bouyer ba->ba_status = ret; 3173 1.1 bouyer else 3174 1.1 bouyer ba->ba_status = 0; 3175 1.1 bouyer 3176 1.1 bouyer return (rv); 3177 1.1 bouyer } 3178 1.1 bouyer 3179 1.6 maxv static int 3180 1.1 bouyer mfii_ioctl_blink(struct mfii_softc *sc, struct bioc_blink *bb) 3181 1.1 bouyer { 3182 1.1 bouyer int i, found, rv = EINVAL; 3183 1.1 bouyer union mfi_mbox mbox; 3184 1.1 bouyer uint32_t cmd; 3185 1.1 bouyer struct mfi_pd_list *pd; 3186 1.1 bouyer 3187 1.1 bouyer DNPRINTF(MFII_D_IOCTL, "%s: mfii_ioctl_blink %x\n", DEVNAME(sc), 3188 1.1 bouyer bb->bb_status); 3189 1.1 bouyer 3190 1.1 bouyer /* channel 0 means not in an enclosure so can't be blinked */ 3191 1.1 bouyer if (bb->bb_channel == 0) 3192 1.1 bouyer return (EINVAL); 3193 1.1 bouyer 3194 1.1 bouyer pd = malloc(sizeof(*pd), M_DEVBUF, M_WAITOK); 3195 1.1 bouyer 3196 1.1 bouyer if (mfii_mgmt(sc, MR_DCMD_PD_GET_LIST, NULL, pd, sizeof(*pd), 3197 1.1 bouyer MFII_DATA_IN, false)) 3198 1.1 bouyer goto done; 3199 1.1 bouyer 3200 1.1 bouyer for (i = 0, found = 0; i < pd->mpl_no_pd; i++) 3201 1.1 bouyer if (bb->bb_channel == pd->mpl_address[i].mpa_enc_index && 3202 1.1 bouyer bb->bb_target == pd->mpl_address[i].mpa_enc_slot) { 3203 1.1 bouyer found = 1; 3204 1.1 bouyer break; 3205 1.1 bouyer } 3206 1.1 bouyer 3207 1.1 bouyer if (!found) 3208 1.1 bouyer goto done; 3209 1.1 bouyer 3210 1.1 bouyer memset(&mbox, 0, sizeof(mbox)); 3211 1.1 bouyer mbox.s[0] = pd->mpl_address[i].mpa_pd_id; 3212 1.1 bouyer 3213 1.1 bouyer switch (bb->bb_status) { 3214 1.1 bouyer case BIOC_SBUNBLINK: 3215 1.1 bouyer cmd = MR_DCMD_PD_UNBLINK; 3216 1.1 bouyer break; 3217 1.1 bouyer 3218 1.1 bouyer case BIOC_SBBLINK: 3219 1.1 bouyer cmd = MR_DCMD_PD_BLINK; 3220 1.1 bouyer break; 3221 1.1 bouyer 3222 1.1 bouyer case BIOC_SBALARM: 3223 1.1 bouyer default: 3224 1.1 bouyer DNPRINTF(MFII_D_IOCTL, "%s: mfii_ioctl_blink biocblink invalid " 3225 1.1 bouyer "opcode %x\n", DEVNAME(sc), bb->bb_status); 3226 1.1 bouyer goto done; 3227 1.1 bouyer } 3228 1.1 bouyer 3229 1.1 bouyer 3230 1.1 bouyer if (mfii_mgmt(sc, cmd, &mbox, NULL, 0, MFII_DATA_NONE, false)) 3231 1.1 bouyer goto done; 3232 1.1 bouyer 3233 1.1 bouyer rv = 0; 3234 1.1 bouyer done: 3235 1.1 bouyer free(pd, M_DEVBUF); 3236 1.1 bouyer return (rv); 3237 1.1 bouyer } 3238 1.1 bouyer 3239 1.1 bouyer static int 3240 1.1 bouyer mfii_makegood(struct mfii_softc *sc, uint16_t pd_id) 3241 1.1 bouyer { 3242 1.1 bouyer struct mfii_foreign_scan_info *fsi; 3243 1.1 bouyer struct mfi_pd_details *pd; 3244 1.1 bouyer union mfi_mbox mbox; 3245 1.1 bouyer int rv; 3246 1.1 bouyer 3247 1.1 bouyer fsi = malloc(sizeof *fsi, M_DEVBUF, M_WAITOK); 3248 1.1 bouyer pd = malloc(sizeof *pd, M_DEVBUF, M_WAITOK); 3249 1.1 bouyer 3250 1.1 bouyer memset(&mbox, 0, sizeof mbox); 3251 1.1 bouyer mbox.s[0] = pd_id; 3252 1.1 bouyer rv = mfii_mgmt(sc, MR_DCMD_PD_GET_INFO, &mbox, pd, sizeof(*pd), 3253 1.1 bouyer MFII_DATA_IN, false); 3254 1.1 bouyer if (rv != 0) 3255 1.1 bouyer goto done; 3256 1.1 bouyer 3257 1.1 bouyer if (pd->mpd_fw_state == MFI_PD_UNCONFIG_BAD) { 3258 1.1 bouyer mbox.s[0] = pd_id; 3259 1.1 bouyer mbox.s[1] = pd->mpd_pd.mfp_seq; 3260 1.1 bouyer mbox.b[4] = MFI_PD_UNCONFIG_GOOD; 3261 1.1 bouyer rv = mfii_mgmt(sc, MR_DCMD_PD_SET_STATE, &mbox, NULL, 0, 3262 1.1 bouyer MFII_DATA_NONE, false); 3263 1.1 bouyer if (rv != 0) 3264 1.1 bouyer goto done; 3265 1.1 bouyer } 3266 1.1 bouyer 3267 1.1 bouyer memset(&mbox, 0, sizeof mbox); 3268 1.1 bouyer mbox.s[0] = pd_id; 3269 1.1 bouyer rv = mfii_mgmt(sc, MR_DCMD_PD_GET_INFO, &mbox, pd, sizeof(*pd), 3270 1.1 bouyer MFII_DATA_IN, false); 3271 1.1 bouyer if (rv != 0) 3272 1.1 bouyer goto done; 3273 1.1 bouyer 3274 1.1 bouyer if (pd->mpd_ddf_state & MFI_DDF_FOREIGN) { 3275 1.1 bouyer rv = mfii_mgmt(sc, MR_DCMD_CFG_FOREIGN_SCAN, NULL, 3276 1.1 bouyer fsi, sizeof(*fsi), MFII_DATA_IN, false); 3277 1.1 bouyer if (rv != 0) 3278 1.1 bouyer goto done; 3279 1.1 bouyer 3280 1.1 bouyer if (fsi->count > 0) { 3281 1.1 bouyer rv = mfii_mgmt(sc, MR_DCMD_CFG_FOREIGN_CLEAR, NULL, 3282 1.1 bouyer NULL, 0, MFII_DATA_NONE, false); 3283 1.1 bouyer if (rv != 0) 3284 1.1 bouyer goto done; 3285 1.1 bouyer } 3286 1.1 bouyer } 3287 1.1 bouyer 3288 1.1 bouyer memset(&mbox, 0, sizeof mbox); 3289 1.1 bouyer mbox.s[0] = pd_id; 3290 1.1 bouyer rv = mfii_mgmt(sc, MR_DCMD_PD_GET_INFO, &mbox, pd, sizeof(*pd), 3291 1.1 bouyer MFII_DATA_IN, false); 3292 1.1 bouyer if (rv != 0) 3293 1.1 bouyer goto done; 3294 1.1 bouyer 3295 1.1 bouyer if (pd->mpd_fw_state != MFI_PD_UNCONFIG_GOOD || 3296 1.1 bouyer pd->mpd_ddf_state & MFI_DDF_FOREIGN) 3297 1.1 bouyer rv = ENXIO; 3298 1.1 bouyer 3299 1.1 bouyer done: 3300 1.1 bouyer free(fsi, M_DEVBUF); 3301 1.1 bouyer free(pd, M_DEVBUF); 3302 1.1 bouyer 3303 1.1 bouyer return (rv); 3304 1.1 bouyer } 3305 1.1 bouyer 3306 1.1 bouyer static int 3307 1.1 bouyer mfii_makespare(struct mfii_softc *sc, uint16_t pd_id) 3308 1.1 bouyer { 3309 1.1 bouyer struct mfi_hotspare *hs; 3310 1.1 bouyer struct mfi_pd_details *pd; 3311 1.1 bouyer union mfi_mbox mbox; 3312 1.1 bouyer size_t size; 3313 1.1 bouyer int rv = EINVAL; 3314 1.1 bouyer 3315 1.1 bouyer /* we really could skip and expect that inq took care of it */ 3316 1.1 bouyer if (mfii_bio_getitall(sc)) { 3317 1.1 bouyer DNPRINTF(MFII_D_IOCTL, "%s: mfii_bio_getitall failed\n", 3318 1.1 bouyer DEVNAME(sc)); 3319 1.1 bouyer return (rv); 3320 1.1 bouyer } 3321 1.1 bouyer size = sizeof *hs + sizeof(uint16_t) * sc->sc_cfg->mfc_no_array; 3322 1.1 bouyer 3323 1.1 bouyer hs = malloc(size, M_DEVBUF, M_WAITOK); 3324 1.1 bouyer pd = malloc(sizeof *pd, M_DEVBUF, M_WAITOK); 3325 1.1 bouyer 3326 1.1 bouyer memset(&mbox, 0, sizeof mbox); 3327 1.1 bouyer mbox.s[0] = pd_id; 3328 1.1 bouyer rv = mfii_mgmt(sc, MR_DCMD_PD_GET_INFO, &mbox, pd, sizeof(*pd), 3329 1.1 bouyer MFII_DATA_IN, false); 3330 1.1 bouyer if (rv != 0) 3331 1.1 bouyer goto done; 3332 1.1 bouyer 3333 1.1 bouyer memset(hs, 0, size); 3334 1.1 bouyer hs->mhs_pd.mfp_id = pd->mpd_pd.mfp_id; 3335 1.1 bouyer hs->mhs_pd.mfp_seq = pd->mpd_pd.mfp_seq; 3336 1.1 bouyer rv = mfii_mgmt(sc, MR_DCMD_CFG_MAKE_SPARE, NULL, hs, size, 3337 1.1 bouyer MFII_DATA_OUT, false); 3338 1.1 bouyer 3339 1.1 bouyer done: 3340 1.1 bouyer free(hs, M_DEVBUF); 3341 1.1 bouyer free(pd, M_DEVBUF); 3342 1.1 bouyer 3343 1.1 bouyer return (rv); 3344 1.1 bouyer } 3345 1.1 bouyer 3346 1.6 maxv static int 3347 1.1 bouyer mfii_ioctl_setstate(struct mfii_softc *sc, struct bioc_setstate *bs) 3348 1.1 bouyer { 3349 1.1 bouyer struct mfi_pd_details *pd; 3350 1.1 bouyer struct mfi_pd_list *pl; 3351 1.1 bouyer int i, found, rv = EINVAL; 3352 1.1 bouyer union mfi_mbox mbox; 3353 1.1 bouyer 3354 1.1 bouyer DNPRINTF(MFII_D_IOCTL, "%s: mfii_ioctl_setstate %x\n", DEVNAME(sc), 3355 1.1 bouyer bs->bs_status); 3356 1.1 bouyer 3357 1.1 bouyer pd = malloc(sizeof *pd, M_DEVBUF, M_WAITOK); 3358 1.1 bouyer pl = malloc(sizeof *pl, M_DEVBUF, M_WAITOK); 3359 1.1 bouyer 3360 1.1 bouyer if (mfii_mgmt(sc, MR_DCMD_PD_GET_LIST, NULL, pl, sizeof(*pl), 3361 1.1 bouyer MFII_DATA_IN, false)) 3362 1.1 bouyer goto done; 3363 1.1 bouyer 3364 1.1 bouyer for (i = 0, found = 0; i < pl->mpl_no_pd; i++) 3365 1.1 bouyer if (bs->bs_channel == pl->mpl_address[i].mpa_enc_index && 3366 1.1 bouyer bs->bs_target == pl->mpl_address[i].mpa_enc_slot) { 3367 1.1 bouyer found = 1; 3368 1.1 bouyer break; 3369 1.1 bouyer } 3370 1.1 bouyer 3371 1.1 bouyer if (!found) 3372 1.1 bouyer goto done; 3373 1.1 bouyer 3374 1.1 bouyer memset(&mbox, 0, sizeof(mbox)); 3375 1.1 bouyer mbox.s[0] = pl->mpl_address[i].mpa_pd_id; 3376 1.1 bouyer 3377 1.1 bouyer if (mfii_mgmt(sc, MR_DCMD_PD_GET_INFO, &mbox, pd, sizeof(*pd), 3378 1.1 bouyer MFII_DATA_IN, false)) 3379 1.1 bouyer goto done; 3380 1.1 bouyer 3381 1.1 bouyer mbox.s[0] = pl->mpl_address[i].mpa_pd_id; 3382 1.1 bouyer mbox.s[1] = pd->mpd_pd.mfp_seq; 3383 1.1 bouyer 3384 1.1 bouyer switch (bs->bs_status) { 3385 1.1 bouyer case BIOC_SSONLINE: 3386 1.1 bouyer mbox.b[4] = MFI_PD_ONLINE; 3387 1.1 bouyer break; 3388 1.1 bouyer 3389 1.1 bouyer case BIOC_SSOFFLINE: 3390 1.1 bouyer mbox.b[4] = MFI_PD_OFFLINE; 3391 1.1 bouyer break; 3392 1.1 bouyer 3393 1.1 bouyer case BIOC_SSHOTSPARE: 3394 1.1 bouyer mbox.b[4] = MFI_PD_HOTSPARE; 3395 1.1 bouyer break; 3396 1.1 bouyer 3397 1.1 bouyer case BIOC_SSREBUILD: 3398 1.1 bouyer if (pd->mpd_fw_state != MFI_PD_OFFLINE) { 3399 1.1 bouyer if ((rv = mfii_makegood(sc, 3400 1.1 bouyer pl->mpl_address[i].mpa_pd_id))) 3401 1.1 bouyer goto done; 3402 1.1 bouyer 3403 1.1 bouyer if ((rv = mfii_makespare(sc, 3404 1.1 bouyer pl->mpl_address[i].mpa_pd_id))) 3405 1.1 bouyer goto done; 3406 1.1 bouyer 3407 1.1 bouyer memset(&mbox, 0, sizeof(mbox)); 3408 1.1 bouyer mbox.s[0] = pl->mpl_address[i].mpa_pd_id; 3409 1.1 bouyer rv = mfii_mgmt(sc, MR_DCMD_PD_GET_INFO, &mbox, 3410 1.1 bouyer pd, sizeof(*pd), MFII_DATA_IN, false); 3411 1.1 bouyer if (rv != 0) 3412 1.1 bouyer goto done; 3413 1.1 bouyer 3414 1.1 bouyer /* rebuilding might be started by mfii_makespare() */ 3415 1.1 bouyer if (pd->mpd_fw_state == MFI_PD_REBUILD) { 3416 1.1 bouyer rv = 0; 3417 1.1 bouyer goto done; 3418 1.1 bouyer } 3419 1.1 bouyer 3420 1.1 bouyer mbox.s[0] = pl->mpl_address[i].mpa_pd_id; 3421 1.1 bouyer mbox.s[1] = pd->mpd_pd.mfp_seq; 3422 1.1 bouyer } 3423 1.1 bouyer mbox.b[4] = MFI_PD_REBUILD; 3424 1.1 bouyer break; 3425 1.1 bouyer 3426 1.1 bouyer default: 3427 1.1 bouyer DNPRINTF(MFII_D_IOCTL, "%s: mfii_ioctl_setstate invalid " 3428 1.1 bouyer "opcode %x\n", DEVNAME(sc), bs->bs_status); 3429 1.1 bouyer goto done; 3430 1.1 bouyer } 3431 1.1 bouyer 3432 1.1 bouyer 3433 1.1 bouyer rv = mfii_mgmt(sc, MR_DCMD_PD_SET_STATE, &mbox, NULL, 0, 3434 1.1 bouyer MFII_DATA_NONE, false); 3435 1.1 bouyer done: 3436 1.1 bouyer free(pd, M_DEVBUF); 3437 1.1 bouyer free(pl, M_DEVBUF); 3438 1.1 bouyer return (rv); 3439 1.1 bouyer } 3440 1.1 bouyer 3441 1.1 bouyer #if 0 3442 1.1 bouyer int 3443 1.1 bouyer mfii_ioctl_patrol(struct mfii_softc *sc, struct bioc_patrol *bp) 3444 1.1 bouyer { 3445 1.1 bouyer uint32_t opc; 3446 1.1 bouyer int rv = 0; 3447 1.1 bouyer struct mfi_pr_properties prop; 3448 1.1 bouyer struct mfi_pr_status status; 3449 1.1 bouyer uint32_t time, exec_freq; 3450 1.1 bouyer 3451 1.1 bouyer switch (bp->bp_opcode) { 3452 1.1 bouyer case BIOC_SPSTOP: 3453 1.1 bouyer case BIOC_SPSTART: 3454 1.1 bouyer if (bp->bp_opcode == BIOC_SPSTART) 3455 1.1 bouyer opc = MR_DCMD_PR_START; 3456 1.1 bouyer else 3457 1.1 bouyer opc = MR_DCMD_PR_STOP; 3458 1.1 bouyer if (mfii_mgmt(sc, opc, NULL, NULL, 0, MFII_DATA_IN, false)) 3459 1.1 bouyer return (EINVAL); 3460 1.1 bouyer break; 3461 1.1 bouyer 3462 1.1 bouyer case BIOC_SPMANUAL: 3463 1.1 bouyer case BIOC_SPDISABLE: 3464 1.1 bouyer case BIOC_SPAUTO: 3465 1.1 bouyer /* Get device's time. */ 3466 1.1 bouyer opc = MR_DCMD_TIME_SECS_GET; 3467 1.1 bouyer if (mfii_mgmt(sc, opc, NULL, &time, sizeof(time), 3468 1.1 bouyer MFII_DATA_IN, false)) 3469 1.1 bouyer return (EINVAL); 3470 1.1 bouyer 3471 1.1 bouyer opc = MR_DCMD_PR_GET_PROPERTIES; 3472 1.1 bouyer if (mfii_mgmt(sc, opc, NULL, &prop, sizeof(prop), 3473 1.1 bouyer MFII_DATA_IN, false)) 3474 1.1 bouyer return (EINVAL); 3475 1.1 bouyer 3476 1.1 bouyer switch (bp->bp_opcode) { 3477 1.1 bouyer case BIOC_SPMANUAL: 3478 1.1 bouyer prop.op_mode = MFI_PR_OPMODE_MANUAL; 3479 1.1 bouyer break; 3480 1.1 bouyer case BIOC_SPDISABLE: 3481 1.1 bouyer prop.op_mode = MFI_PR_OPMODE_DISABLED; 3482 1.1 bouyer break; 3483 1.1 bouyer case BIOC_SPAUTO: 3484 1.1 bouyer if (bp->bp_autoival != 0) { 3485 1.1 bouyer if (bp->bp_autoival == -1) 3486 1.1 bouyer /* continuously */ 3487 1.1 bouyer exec_freq = 0xffffffffU; 3488 1.1 bouyer else if (bp->bp_autoival > 0) 3489 1.1 bouyer exec_freq = bp->bp_autoival; 3490 1.1 bouyer else 3491 1.1 bouyer return (EINVAL); 3492 1.1 bouyer prop.exec_freq = exec_freq; 3493 1.1 bouyer } 3494 1.1 bouyer if (bp->bp_autonext != 0) { 3495 1.1 bouyer if (bp->bp_autonext < 0) 3496 1.1 bouyer return (EINVAL); 3497 1.1 bouyer else 3498 1.1 bouyer prop.next_exec = time + bp->bp_autonext; 3499 1.1 bouyer } 3500 1.1 bouyer prop.op_mode = MFI_PR_OPMODE_AUTO; 3501 1.1 bouyer break; 3502 1.1 bouyer } 3503 1.1 bouyer 3504 1.1 bouyer opc = MR_DCMD_PR_SET_PROPERTIES; 3505 1.1 bouyer if (mfii_mgmt(sc, opc, NULL, &prop, sizeof(prop), 3506 1.1 bouyer MFII_DATA_OUT, false)) 3507 1.1 bouyer return (EINVAL); 3508 1.1 bouyer 3509 1.1 bouyer break; 3510 1.1 bouyer 3511 1.1 bouyer case BIOC_GPSTATUS: 3512 1.1 bouyer opc = MR_DCMD_PR_GET_PROPERTIES; 3513 1.1 bouyer if (mfii_mgmt(sc, opc, NULL, &prop, sizeof(prop), 3514 1.1 bouyer MFII_DATA_IN, false)) 3515 1.1 bouyer return (EINVAL); 3516 1.1 bouyer 3517 1.1 bouyer opc = MR_DCMD_PR_GET_STATUS; 3518 1.1 bouyer if (mfii_mgmt(sc, opc, NULL, &status, sizeof(status), 3519 1.1 bouyer MFII_DATA_IN, false)) 3520 1.1 bouyer return (EINVAL); 3521 1.1 bouyer 3522 1.1 bouyer /* Get device's time. */ 3523 1.1 bouyer opc = MR_DCMD_TIME_SECS_GET; 3524 1.1 bouyer if (mfii_mgmt(sc, opc, NULL, &time, sizeof(time), 3525 1.1 bouyer MFII_DATA_IN, false)) 3526 1.1 bouyer return (EINVAL); 3527 1.1 bouyer 3528 1.1 bouyer switch (prop.op_mode) { 3529 1.1 bouyer case MFI_PR_OPMODE_AUTO: 3530 1.1 bouyer bp->bp_mode = BIOC_SPMAUTO; 3531 1.1 bouyer bp->bp_autoival = prop.exec_freq; 3532 1.1 bouyer bp->bp_autonext = prop.next_exec; 3533 1.1 bouyer bp->bp_autonow = time; 3534 1.1 bouyer break; 3535 1.1 bouyer case MFI_PR_OPMODE_MANUAL: 3536 1.1 bouyer bp->bp_mode = BIOC_SPMMANUAL; 3537 1.1 bouyer break; 3538 1.1 bouyer case MFI_PR_OPMODE_DISABLED: 3539 1.1 bouyer bp->bp_mode = BIOC_SPMDISABLED; 3540 1.1 bouyer break; 3541 1.1 bouyer default: 3542 1.1 bouyer printf("%s: unknown patrol mode %d\n", 3543 1.1 bouyer DEVNAME(sc), prop.op_mode); 3544 1.1 bouyer break; 3545 1.1 bouyer } 3546 1.1 bouyer 3547 1.1 bouyer switch (status.state) { 3548 1.1 bouyer case MFI_PR_STATE_STOPPED: 3549 1.1 bouyer bp->bp_status = BIOC_SPSSTOPPED; 3550 1.1 bouyer break; 3551 1.1 bouyer case MFI_PR_STATE_READY: 3552 1.1 bouyer bp->bp_status = BIOC_SPSREADY; 3553 1.1 bouyer break; 3554 1.1 bouyer case MFI_PR_STATE_ACTIVE: 3555 1.1 bouyer bp->bp_status = BIOC_SPSACTIVE; 3556 1.1 bouyer break; 3557 1.1 bouyer case MFI_PR_STATE_ABORTED: 3558 1.1 bouyer bp->bp_status = BIOC_SPSABORTED; 3559 1.1 bouyer break; 3560 1.1 bouyer default: 3561 1.1 bouyer printf("%s: unknown patrol state %d\n", 3562 1.1 bouyer DEVNAME(sc), status.state); 3563 1.1 bouyer break; 3564 1.1 bouyer } 3565 1.1 bouyer 3566 1.1 bouyer break; 3567 1.1 bouyer 3568 1.1 bouyer default: 3569 1.1 bouyer DNPRINTF(MFII_D_IOCTL, "%s: mfii_ioctl_patrol biocpatrol invalid " 3570 1.1 bouyer "opcode %x\n", DEVNAME(sc), bp->bp_opcode); 3571 1.1 bouyer return (EINVAL); 3572 1.1 bouyer } 3573 1.1 bouyer 3574 1.1 bouyer return (rv); 3575 1.1 bouyer } 3576 1.1 bouyer #endif 3577 1.1 bouyer 3578 1.6 maxv static int 3579 1.1 bouyer mfii_bio_hs(struct mfii_softc *sc, int volid, int type, void *bio_hs) 3580 1.1 bouyer { 3581 1.1 bouyer struct mfi_conf *cfg; 3582 1.1 bouyer struct mfi_hotspare *hs; 3583 1.1 bouyer struct mfi_pd_details *pd; 3584 1.1 bouyer struct bioc_disk *sdhs; 3585 1.1 bouyer struct bioc_vol *vdhs; 3586 1.1 bouyer struct scsipi_inquiry_data *inqbuf; 3587 1.1 bouyer char vend[8+16+4+1], *vendp; 3588 1.1 bouyer int i, rv = EINVAL; 3589 1.1 bouyer uint32_t size; 3590 1.1 bouyer union mfi_mbox mbox; 3591 1.1 bouyer 3592 1.1 bouyer DNPRINTF(MFII_D_IOCTL, "%s: mfii_vol_hs %d\n", DEVNAME(sc), volid); 3593 1.1 bouyer 3594 1.1 bouyer if (!bio_hs) 3595 1.1 bouyer return (EINVAL); 3596 1.1 bouyer 3597 1.1 bouyer pd = malloc(sizeof *pd, M_DEVBUF, M_WAITOK); 3598 1.1 bouyer 3599 1.1 bouyer /* send single element command to retrieve size for full structure */ 3600 1.1 bouyer cfg = malloc(sizeof *cfg, M_DEVBUF, M_WAITOK); 3601 1.1 bouyer if (mfii_mgmt(sc, MR_DCMD_CONF_GET, NULL, cfg, sizeof(*cfg), 3602 1.1 bouyer MFII_DATA_IN, false)) 3603 1.1 bouyer goto freeme; 3604 1.1 bouyer 3605 1.1 bouyer size = cfg->mfc_size; 3606 1.1 bouyer free(cfg, M_DEVBUF); 3607 1.1 bouyer 3608 1.1 bouyer /* memory for read config */ 3609 1.1 bouyer cfg = malloc(size, M_DEVBUF, M_WAITOK|M_ZERO); 3610 1.1 bouyer if (mfii_mgmt(sc, MR_DCMD_CONF_GET, NULL, cfg, size, 3611 1.1 bouyer MFII_DATA_IN, false)) 3612 1.1 bouyer goto freeme; 3613 1.1 bouyer 3614 1.1 bouyer /* calculate offset to hs structure */ 3615 1.1 bouyer hs = (struct mfi_hotspare *)( 3616 1.1 bouyer ((uint8_t *)cfg) + offsetof(struct mfi_conf, mfc_array) + 3617 1.1 bouyer cfg->mfc_array_size * cfg->mfc_no_array + 3618 1.1 bouyer cfg->mfc_ld_size * cfg->mfc_no_ld); 3619 1.1 bouyer 3620 1.1 bouyer if (volid < cfg->mfc_no_ld) 3621 1.1 bouyer goto freeme; /* not a hotspare */ 3622 1.1 bouyer 3623 1.1 bouyer if (volid > (cfg->mfc_no_ld + cfg->mfc_no_hs)) 3624 1.1 bouyer goto freeme; /* not a hotspare */ 3625 1.1 bouyer 3626 1.1 bouyer /* offset into hotspare structure */ 3627 1.1 bouyer i = volid - cfg->mfc_no_ld; 3628 1.1 bouyer 3629 1.1 bouyer DNPRINTF(MFII_D_IOCTL, "%s: mfii_vol_hs i %d volid %d no_ld %d no_hs %d " 3630 1.1 bouyer "hs %p cfg %p id %02x\n", DEVNAME(sc), i, volid, cfg->mfc_no_ld, 3631 1.1 bouyer cfg->mfc_no_hs, hs, cfg, hs[i].mhs_pd.mfp_id); 3632 1.1 bouyer 3633 1.1 bouyer /* get pd fields */ 3634 1.1 bouyer memset(&mbox, 0, sizeof(mbox)); 3635 1.1 bouyer mbox.s[0] = hs[i].mhs_pd.mfp_id; 3636 1.1 bouyer if (mfii_mgmt(sc, MR_DCMD_PD_GET_INFO, &mbox, pd, sizeof(*pd), 3637 1.1 bouyer MFII_DATA_IN, false)) { 3638 1.1 bouyer DNPRINTF(MFII_D_IOCTL, "%s: mfii_vol_hs illegal PD\n", 3639 1.1 bouyer DEVNAME(sc)); 3640 1.1 bouyer goto freeme; 3641 1.1 bouyer } 3642 1.1 bouyer 3643 1.1 bouyer switch (type) { 3644 1.1 bouyer case MFI_MGMT_VD: 3645 1.1 bouyer vdhs = bio_hs; 3646 1.1 bouyer vdhs->bv_status = BIOC_SVONLINE; 3647 1.1 bouyer vdhs->bv_size = pd->mpd_size / 2 * 1024; /* XXX why? */ 3648 1.1 bouyer vdhs->bv_level = -1; /* hotspare */ 3649 1.1 bouyer vdhs->bv_nodisk = 1; 3650 1.1 bouyer break; 3651 1.1 bouyer 3652 1.1 bouyer case MFI_MGMT_SD: 3653 1.1 bouyer sdhs = bio_hs; 3654 1.1 bouyer sdhs->bd_status = BIOC_SDHOTSPARE; 3655 1.1 bouyer sdhs->bd_size = pd->mpd_size / 2 * 1024; /* XXX why? */ 3656 1.1 bouyer sdhs->bd_channel = pd->mpd_enc_idx; 3657 1.1 bouyer sdhs->bd_target = pd->mpd_enc_slot; 3658 1.1 bouyer inqbuf = (struct scsipi_inquiry_data *)&pd->mpd_inq_data; 3659 1.1 bouyer vendp = inqbuf->vendor; 3660 1.1 bouyer memcpy(vend, vendp, sizeof vend - 1); 3661 1.1 bouyer vend[sizeof vend - 1] = '\0'; 3662 1.1 bouyer strlcpy(sdhs->bd_vendor, vend, sizeof(sdhs->bd_vendor)); 3663 1.1 bouyer break; 3664 1.1 bouyer 3665 1.1 bouyer default: 3666 1.1 bouyer goto freeme; 3667 1.1 bouyer } 3668 1.1 bouyer 3669 1.1 bouyer DNPRINTF(MFII_D_IOCTL, "%s: mfii_vol_hs 6\n", DEVNAME(sc)); 3670 1.1 bouyer rv = 0; 3671 1.1 bouyer freeme: 3672 1.1 bouyer free(pd, M_DEVBUF); 3673 1.1 bouyer free(cfg, M_DEVBUF); 3674 1.1 bouyer 3675 1.1 bouyer return (rv); 3676 1.1 bouyer } 3677 1.1 bouyer 3678 1.1 bouyer #endif /* NBIO > 0 */ 3679 1.1 bouyer 3680 1.1 bouyer #define MFI_BBU_SENSORS 4 3681 1.1 bouyer 3682 1.6 maxv static void 3683 1.1 bouyer mfii_bbu(struct mfii_softc *sc, envsys_data_t *edata) 3684 1.1 bouyer { 3685 1.1 bouyer struct mfi_bbu_status bbu; 3686 1.1 bouyer u_int32_t status; 3687 1.1 bouyer u_int32_t mask; 3688 1.1 bouyer u_int32_t soh_bad; 3689 1.1 bouyer int rv; 3690 1.1 bouyer 3691 1.1 bouyer mutex_enter(&sc->sc_lock); 3692 1.1 bouyer rv = mfii_mgmt(sc, MR_DCMD_BBU_GET_STATUS, NULL, &bbu, 3693 1.1 bouyer sizeof(bbu), MFII_DATA_IN, false); 3694 1.1 bouyer mutex_exit(&sc->sc_lock); 3695 1.1 bouyer if (rv != 0) { 3696 1.1 bouyer edata->state = ENVSYS_SINVALID; 3697 1.1 bouyer edata->value_cur = 0; 3698 1.1 bouyer return; 3699 1.1 bouyer } 3700 1.1 bouyer 3701 1.1 bouyer switch (bbu.battery_type) { 3702 1.1 bouyer case MFI_BBU_TYPE_IBBU: 3703 1.1 bouyer mask = MFI_BBU_STATE_BAD_IBBU; 3704 1.1 bouyer soh_bad = 0; 3705 1.1 bouyer break; 3706 1.1 bouyer case MFI_BBU_TYPE_BBU: 3707 1.1 bouyer mask = MFI_BBU_STATE_BAD_BBU; 3708 1.1 bouyer soh_bad = (bbu.detail.bbu.is_SOH_good == 0); 3709 1.1 bouyer break; 3710 1.1 bouyer 3711 1.1 bouyer case MFI_BBU_TYPE_NONE: 3712 1.1 bouyer default: 3713 1.1 bouyer edata->state = ENVSYS_SCRITICAL; 3714 1.1 bouyer edata->value_cur = 0; 3715 1.1 bouyer return; 3716 1.1 bouyer } 3717 1.1 bouyer 3718 1.1 bouyer status = le32toh(bbu.fw_status) & mask; 3719 1.1 bouyer switch(edata->sensor) { 3720 1.1 bouyer case 0: 3721 1.1 bouyer edata->value_cur = (status || soh_bad) ? 0 : 1; 3722 1.1 bouyer edata->state = 3723 1.1 bouyer edata->value_cur ? ENVSYS_SVALID : ENVSYS_SCRITICAL; 3724 1.1 bouyer return; 3725 1.1 bouyer case 1: 3726 1.1 bouyer edata->value_cur = le16toh(bbu.voltage) * 1000; 3727 1.1 bouyer edata->state = ENVSYS_SVALID; 3728 1.1 bouyer return; 3729 1.1 bouyer case 2: 3730 1.1 bouyer edata->value_cur = (int16_t)le16toh(bbu.current) * 1000; 3731 1.1 bouyer edata->state = ENVSYS_SVALID; 3732 1.1 bouyer return; 3733 1.1 bouyer case 3: 3734 1.1 bouyer edata->value_cur = le16toh(bbu.temperature) * 1000000 + 273150000; 3735 1.1 bouyer edata->state = ENVSYS_SVALID; 3736 1.1 bouyer return; 3737 1.1 bouyer } 3738 1.1 bouyer } 3739 1.1 bouyer 3740 1.6 maxv static void 3741 1.1 bouyer mfii_refresh_ld_sensor(struct mfii_softc *sc, envsys_data_t *edata) 3742 1.1 bouyer { 3743 1.1 bouyer struct bioc_vol bv; 3744 1.1 bouyer int error; 3745 1.1 bouyer 3746 1.1 bouyer memset(&bv, 0, sizeof(bv)); 3747 1.1 bouyer bv.bv_volid = edata->sensor - MFI_BBU_SENSORS; 3748 1.1 bouyer mutex_enter(&sc->sc_lock); 3749 1.1 bouyer error = mfii_ioctl_vol(sc, &bv); 3750 1.1 bouyer mutex_exit(&sc->sc_lock); 3751 1.1 bouyer if (error) 3752 1.1 bouyer bv.bv_status = BIOC_SVINVALID; 3753 1.1 bouyer bio_vol_to_envsys(edata, &bv); 3754 1.1 bouyer } 3755 1.1 bouyer 3756 1.6 maxv static void 3757 1.1 bouyer mfii_init_ld_sensor(struct mfii_softc *sc, envsys_data_t *sensor, int i) 3758 1.1 bouyer { 3759 1.1 bouyer sensor->units = ENVSYS_DRIVE; 3760 1.1 bouyer sensor->state = ENVSYS_SINVALID; 3761 1.1 bouyer sensor->value_cur = ENVSYS_DRIVE_EMPTY; 3762 1.1 bouyer /* Enable monitoring for drive state changes */ 3763 1.1 bouyer sensor->flags |= ENVSYS_FMONSTCHANGED; 3764 1.1 bouyer snprintf(sensor->desc, sizeof(sensor->desc), "%s:%d", DEVNAME(sc), i); 3765 1.1 bouyer } 3766 1.1 bouyer 3767 1.1 bouyer static void 3768 1.1 bouyer mfii_attach_sensor(struct mfii_softc *sc, envsys_data_t *s) 3769 1.1 bouyer { 3770 1.1 bouyer if (sysmon_envsys_sensor_attach(sc->sc_sme, s)) 3771 1.1 bouyer aprint_error_dev(sc->sc_dev, 3772 1.1 bouyer "failed to attach sensor %s\n", s->desc); 3773 1.1 bouyer } 3774 1.1 bouyer 3775 1.6 maxv static int 3776 1.1 bouyer mfii_create_sensors(struct mfii_softc *sc) 3777 1.1 bouyer { 3778 1.1 bouyer int i, rv; 3779 1.1 bouyer const int nsensors = MFI_BBU_SENSORS + MFI_MAX_LD; 3780 1.1 bouyer 3781 1.1 bouyer sc->sc_sme = sysmon_envsys_create(); 3782 1.1 bouyer sc->sc_sensors = malloc(sizeof(envsys_data_t) * nsensors, 3783 1.5 chs M_DEVBUF, M_WAITOK | M_ZERO); 3784 1.1 bouyer 3785 1.1 bouyer /* BBU */ 3786 1.1 bouyer sc->sc_sensors[0].units = ENVSYS_INDICATOR; 3787 1.1 bouyer sc->sc_sensors[0].state = ENVSYS_SINVALID; 3788 1.1 bouyer sc->sc_sensors[0].value_cur = 0; 3789 1.1 bouyer sc->sc_sensors[1].units = ENVSYS_SVOLTS_DC; 3790 1.1 bouyer sc->sc_sensors[1].state = ENVSYS_SINVALID; 3791 1.1 bouyer sc->sc_sensors[1].value_cur = 0; 3792 1.1 bouyer sc->sc_sensors[2].units = ENVSYS_SAMPS; 3793 1.1 bouyer sc->sc_sensors[2].state = ENVSYS_SINVALID; 3794 1.1 bouyer sc->sc_sensors[2].value_cur = 0; 3795 1.1 bouyer sc->sc_sensors[3].units = ENVSYS_STEMP; 3796 1.1 bouyer sc->sc_sensors[3].state = ENVSYS_SINVALID; 3797 1.1 bouyer sc->sc_sensors[3].value_cur = 0; 3798 1.1 bouyer 3799 1.1 bouyer if (ISSET(le32toh(sc->sc_info.mci_hw_present), MFI_INFO_HW_BBU)) { 3800 1.1 bouyer sc->sc_bbuok = true; 3801 1.1 bouyer sc->sc_sensors[0].flags |= ENVSYS_FMONCRITICAL; 3802 1.1 bouyer snprintf(sc->sc_sensors[0].desc, sizeof(sc->sc_sensors[0].desc), 3803 1.1 bouyer "%s BBU state", DEVNAME(sc)); 3804 1.1 bouyer snprintf(sc->sc_sensors[1].desc, sizeof(sc->sc_sensors[1].desc), 3805 1.1 bouyer "%s BBU voltage", DEVNAME(sc)); 3806 1.1 bouyer snprintf(sc->sc_sensors[2].desc, sizeof(sc->sc_sensors[2].desc), 3807 1.1 bouyer "%s BBU current", DEVNAME(sc)); 3808 1.1 bouyer snprintf(sc->sc_sensors[3].desc, sizeof(sc->sc_sensors[3].desc), 3809 1.1 bouyer "%s BBU temperature", DEVNAME(sc)); 3810 1.1 bouyer for (i = 0; i < MFI_BBU_SENSORS; i++) { 3811 1.1 bouyer mfii_attach_sensor(sc, &sc->sc_sensors[i]); 3812 1.1 bouyer } 3813 1.1 bouyer } 3814 1.1 bouyer 3815 1.1 bouyer for (i = 0; i < sc->sc_ld_list.mll_no_ld; i++) { 3816 1.1 bouyer mfii_init_ld_sensor(sc, &sc->sc_sensors[i + MFI_BBU_SENSORS], i); 3817 1.1 bouyer mfii_attach_sensor(sc, &sc->sc_sensors[i + MFI_BBU_SENSORS]); 3818 1.1 bouyer } 3819 1.1 bouyer 3820 1.1 bouyer sc->sc_sme->sme_name = DEVNAME(sc); 3821 1.1 bouyer sc->sc_sme->sme_cookie = sc; 3822 1.1 bouyer sc->sc_sme->sme_refresh = mfii_refresh_sensor; 3823 1.1 bouyer rv = sysmon_envsys_register(sc->sc_sme); 3824 1.1 bouyer if (rv) { 3825 1.1 bouyer aprint_error_dev(sc->sc_dev, 3826 1.1 bouyer "unable to register with sysmon (rv = %d)\n", rv); 3827 1.1 bouyer } 3828 1.1 bouyer return rv; 3829 1.1 bouyer 3830 1.1 bouyer } 3831 1.1 bouyer 3832 1.1 bouyer static int 3833 1.1 bouyer mfii_destroy_sensors(struct mfii_softc *sc) 3834 1.1 bouyer { 3835 1.1 bouyer if (sc->sc_sme == NULL) 3836 1.1 bouyer return 0; 3837 1.1 bouyer sysmon_envsys_unregister(sc->sc_sme); 3838 1.1 bouyer sc->sc_sme = NULL; 3839 1.1 bouyer free(sc->sc_sensors, M_DEVBUF); 3840 1.1 bouyer return 0; 3841 1.1 bouyer } 3842 1.1 bouyer 3843 1.6 maxv static void 3844 1.1 bouyer mfii_refresh_sensor(struct sysmon_envsys *sme, envsys_data_t *edata) 3845 1.1 bouyer { 3846 1.1 bouyer struct mfii_softc *sc = sme->sme_cookie; 3847 1.1 bouyer 3848 1.1 bouyer if (edata->sensor >= MFI_BBU_SENSORS + MFI_MAX_LD) 3849 1.1 bouyer return; 3850 1.1 bouyer 3851 1.1 bouyer if (edata->sensor < MFI_BBU_SENSORS) { 3852 1.1 bouyer if (sc->sc_bbuok) 3853 1.1 bouyer mfii_bbu(sc, edata); 3854 1.1 bouyer } else { 3855 1.1 bouyer mfii_refresh_ld_sensor(sc, edata); 3856 1.1 bouyer } 3857 1.1 bouyer } 3858
Indexes created Mon Oct 20 11:09:49 GMT 2025