1 /*****************************************************************************/ 2 /* ips.c -- driver for the Adaptec / IBM ServeRAID controller */ 3 /* */ 4 /* Written By: Keith Mitchell, IBM Corporation */ 5 /* Jack Hammer, Adaptec, Inc. */ 6 /* David Jeffery, Adaptec, Inc. */ 7 /* */ 8 /* Copyright (C) 2000 IBM Corporation */ 9 /* Copyright (C) 2002,2003 Adaptec, Inc. */ 10 /* */ 11 /* This program is free software; you can redistribute it and/or modify */ 12 /* it under the terms of the GNU General Public License as published by */ 13 /* the Free Software Foundation; either version 2 of the License, or */ 14 /* (at your option) any later version. */ 15 /* */ 16 /* This program is distributed in the hope that it will be useful, */ 17 /* but WITHOUT ANY WARRANTY; without even the implied warranty of */ 18 /* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the */ 19 /* GNU General Public License for more details. */ 20 /* */ 21 /* NO WARRANTY */ 22 /* THE PROGRAM IS PROVIDED ON AN "AS IS" BASIS, WITHOUT WARRANTIES OR */ 23 /* CONDITIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED INCLUDING, WITHOUT */ 24 /* LIMITATION, ANY WARRANTIES OR CONDITIONS OF TITLE, NON-INFRINGEMENT, */ 25 /* MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. Each Recipient is */ 26 /* solely responsible for determining the appropriateness of using and */ 27 /* distributing the Program and assumes all risks associated with its */ 28 /* exercise of rights under this Agreement, including but not limited to */ 29 /* the risks and costs of program errors, damage to or loss of data, */ 30 /* programs or equipment, and unavailability or interruption of operations. */ 31 /* */ 32 /* DISCLAIMER OF LIABILITY */ 33 /* NEITHER RECIPIENT NOR ANY CONTRIBUTORS SHALL HAVE ANY LIABILITY FOR ANY */ 34 /* DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL */ 35 /* DAMAGES (INCLUDING WITHOUT LIMITATION LOST PROFITS), HOWEVER CAUSED AND */ 36 /* ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR */ 37 /* TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE */ 38 /* USE OR DISTRIBUTION OF THE PROGRAM OR THE EXERCISE OF ANY RIGHTS GRANTED */ 39 /* HEREUNDER, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGES */ 40 /* */ 41 /* You should have received a copy of the GNU General Public License */ 42 /* along with this program; if not, write to the Free Software */ 43 /* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ 44 /* */ 45 /* Bugs/Comments/Suggestions about this driver should be mailed to: */ 46 /* ipslinux@adaptec.com */ 47 /* */ 48 /* For system support issues, contact your local IBM Customer support. */ 49 /* Directions to find IBM Customer Support for each country can be found at: */ 50 /* http://www.ibm.com/planetwide/ */ 51 /* */ 52 /*****************************************************************************/ 53 54 /*****************************************************************************/ 55 /* Change Log */ 56 /* */ 57 /* 0.99.02 - Breakup commands that are bigger than 8 * the stripe size */ 58 /* 0.99.03 - Make interrupt routine handle all completed request on the */ 59 /* adapter not just the first one */ 60 /* - Make sure passthru commands get woken up if we run out of */ 61 /* SCBs */ 62 /* - Send all of the commands on the queue at once rather than */ 63 /* one at a time since the card will support it. */ 64 /* 0.99.04 - Fix race condition in the passthru mechanism -- this required */ 65 /* the interface to the utilities to change */ 66 /* - Fix error recovery code */ 67 /* 0.99.05 - Fix an oops when we get certain passthru commands */ 68 /* 1.00.00 - Initial Public Release */ 69 /* Functionally equivalent to 0.99.05 */ 70 /* 3.60.00 - Bump max commands to 128 for use with firmware 3.60 */ 71 /* - Change version to 3.60 to coincide with release numbering. */ 72 /* 3.60.01 - Remove bogus error check in passthru routine */ 73 /* 3.60.02 - Make DCDB direction based on lookup table */ 74 /* - Only allow one DCDB command to a SCSI ID at a time */ 75 /* 4.00.00 - Add support for ServeRAID 4 */ 76 /* 4.00.01 - Add support for First Failure Data Capture */ 77 /* 4.00.02 - Fix problem with PT DCDB with no buffer */ 78 /* 4.00.03 - Add alternative passthru interface */ 79 /* - Add ability to flash BIOS */ 80 /* 4.00.04 - Rename structures/constants to be prefixed with IPS_ */ 81 /* 4.00.05 - Remove wish_block from init routine */ 82 /* - Use linux/spinlock.h instead of asm/spinlock.h for kernels */ 83 /* 2.3.18 and later */ 84 /* - Sync with other changes from the 2.3 kernels */ 85 /* 4.00.06 - Fix timeout with initial FFDC command */ 86 /* 4.00.06a - Port to 2.4 (trivial) -- Christoph Hellwig <hch@infradead.org> */ 87 /* 4.10.00 - Add support for ServeRAID 4M/4L */ 88 /* 4.10.13 - Fix for dynamic unload and proc file system */ 89 /* 4.20.03 - Rename version to coincide with new release schedules */ 90 /* Performance fixes */ 91 /* Fix truncation of /proc files with cat */ 92 /* Merge in changes through kernel 2.4.0test1ac21 */ 93 /* 4.20.13 - Fix some failure cases / reset code */ 94 /* - Hook into the reboot_notifier to flush the controller cache */ 95 /* 4.50.01 - Fix problem when there is a hole in logical drive numbering */ 96 /* 4.70.09 - Use a Common ( Large Buffer ) for Flashing from the JCRM CD */ 97 /* - Add IPSSEND Flash Support */ 98 /* - Set Sense Data for Unknown SCSI Command */ 99 /* - Use Slot Number from NVRAM Page 5 */ 100 /* - Restore caller's DCDB Structure */ 101 /* 4.70.12 - Corrective actions for bad controller ( during initialization )*/ 102 /* 4.70.13 - Don't Send CDB's if we already know the device is not present */ 103 /* - Don't release HA Lock in ips_next() until SC taken off queue */ 104 /* - Unregister SCSI device in ips_release() */ 105 /* 4.70.15 - Fix Breakup for very large ( non-SG ) requests in ips_done() */ 106 /* 4.71.00 - Change all memory allocations to not use GFP_DMA flag */ 107 /* Code Clean-Up for 2.4.x kernel */ 108 /* 4.72.00 - Allow for a Scatter-Gather Element to exceed MAX_XFER Size */ 109 /* 4.72.01 - I/O Mapped Memory release ( so "insmod ips" does not Fail ) */ 110 /* - Don't Issue Internal FFDC Command if there are Active Commands */ 111 /* - Close Window for getting too many IOCTL's active */ 112 /* 4.80.00 - Make ia64 Safe */ 113 /* 4.80.04 - Eliminate calls to strtok() if 2.4.x or greater */ 114 /* - Adjustments to Device Queue Depth */ 115 /* 4.80.14 - Take all semaphores off stack */ 116 /* - Clean Up New_IOCTL path */ 117 /* 4.80.20 - Set max_sectors in Scsi_Host structure ( if >= 2.4.7 kernel ) */ 118 /* - 5 second delay needed after resetting an i960 adapter */ 119 /* 4.80.26 - Clean up potential code problems ( Arjan's recommendations ) */ 120 /* 4.90.01 - Version Matching for FirmWare, BIOS, and Driver */ 121 /* 4.90.05 - Use New PCI Architecture to facilitate Hot Plug Development */ 122 /* 4.90.08 - Increase Delays in Flashing ( Trombone Only - 4H ) */ 123 /* 4.90.08 - Data Corruption if First Scatter Gather Element is > 64K */ 124 /* 4.90.11 - Don't actually RESET unless it's physically required */ 125 /* - Remove unused compile options */ 126 /* 5.00.01 - Sarasota ( 5i ) adapters must always be scanned first */ 127 /* - Get rid on IOCTL_NEW_COMMAND code */ 128 /* - Add Extended DCDB Commands for Tape Support in 5I */ 129 /* 5.10.12 - use pci_dma interfaces, update for 2.5 kernel changes */ 130 /* 5.10.15 - remove unused code (sem, macros, etc.) */ 131 /* 5.30.00 - use __devexit_p() */ 132 /* 6.00.00 - Add 6x Adapters and Battery Flash */ 133 /* 6.10.00 - Remove 1G Addressing Limitations */ 134 /* 6.11.xx - Get VersionInfo buffer off the stack ! DDTS 60401 */ 135 /* 6.11.xx - Make Logical Drive Info structure safe for DMA DDTS 60639 */ 136 /* 7.10.18 - Add highmem_io flag in SCSI Templete for 2.4 kernels */ 137 /* - Fix path/name for scsi_hosts.h include for 2.6 kernels */ 138 /* - Fix sort order of 7k */ 139 /* - Remove 3 unused "inline" functions */ 140 /* 7.12.xx - Use STATIC functions wherever possible */ 141 /* - Clean up deprecated MODULE_PARM calls */ 142 /* 7.12.05 - Remove Version Matching per IBM request */ 143 /*****************************************************************************/ 144 145 /* 146 * Conditional Compilation directives for this driver: 147 * 148 * IPS_DEBUG - Turn on debugging info 149 * 150 * Parameters: 151 * 152 * debug:<number> - Set debug level to <number> 153 * NOTE: only works when IPS_DEBUG compile directive is used. 154 * 1 - Normal debug messages 155 * 2 - Verbose debug messages 156 * 11 - Method trace (non interrupt) 157 * 12 - Method trace (includes interrupt) 158 * 159 * noi2o - Don't use I2O Queues (ServeRAID 4 only) 160 * nommap - Don't use memory mapped I/O 161 * ioctlsize - Initial size of the IOCTL buffer 162 */ 163 164 #include <asm/io.h> 165 #include <asm/byteorder.h> 166 #include <asm/page.h> 167 #include <linux/stddef.h> 168 #include <linux/string.h> 169 #include <linux/errno.h> 170 #include <linux/kernel.h> 171 #include <linux/ioport.h> 172 #include <linux/slab.h> 173 #include <linux/delay.h> 174 #include <linux/pci.h> 175 #include <linux/proc_fs.h> 176 #include <linux/reboot.h> 177 #include <linux/interrupt.h> 178 179 #include <linux/blkdev.h> 180 #include <linux/types.h> 181 #include <linux/dma-mapping.h> 182 183 #include <scsi/scsi.h> 184 #include <scsi/scsi_cmnd.h> 185 #include <scsi/scsi_device.h> 186 #include <scsi/scsi_eh.h> 187 #include <scsi/scsi_host.h> 188 #include <scsi/scsi_tcq.h> 189 #include <scsi/sg.h> 190 191 #include "ips.h" 192 193 #include <linux/module.h> 194 195 #include <linux/stat.h> 196 197 #include <linux/spinlock.h> 198 #include <linux/init.h> 199 200 #include <linux/smp.h> 201 202 #ifdef MODULE 203 static char *ips = NULL; 204 module_param(ips, charp, 0); 205 #endif 206 207 /* 208 * DRIVER_VER 209 */ 210 #define IPS_VERSION_HIGH IPS_VER_MAJOR_STRING "." IPS_VER_MINOR_STRING 211 #define IPS_VERSION_LOW "." IPS_VER_BUILD_STRING " " 212 213 #define IPS_DMA_DIR(scb) ((!scb->scsi_cmd || ips_is_passthru(scb->scsi_cmd) || \ 214 DMA_NONE == scb->scsi_cmd->sc_data_direction) ? \ 215 DMA_BIDIRECTIONAL : \ 216 scb->scsi_cmd->sc_data_direction) 217 218 #ifdef IPS_DEBUG 219 #define METHOD_TRACE(s, i) if (ips_debug >= (i+10)) printk(KERN_NOTICE s "\n"); 220 #define DEBUG(i, s) if (ips_debug >= i) printk(KERN_NOTICE s "\n"); 221 #define DEBUG_VAR(i, s, v...) if (ips_debug >= i) printk(KERN_NOTICE s "\n", v); 222 #else 223 #define METHOD_TRACE(s, i) 224 #define DEBUG(i, s) 225 #define DEBUG_VAR(i, s, v...) 226 #endif 227 228 /* 229 * Function prototypes 230 */ 231 static int ips_eh_abort(struct scsi_cmnd *); 232 static int ips_eh_reset(struct scsi_cmnd *); 233 static int ips_queue(struct Scsi_Host *, struct scsi_cmnd *); 234 static const char *ips_info(struct Scsi_Host *); 235 static irqreturn_t do_ipsintr(int, void *); 236 static int ips_hainit(ips_ha_t *); 237 static int ips_map_status(ips_ha_t *, ips_scb_t *, ips_stat_t *); 238 static int ips_send_wait(ips_ha_t *, ips_scb_t *, int, int); 239 static int ips_send_cmd(ips_ha_t *, ips_scb_t *); 240 static int ips_online(ips_ha_t *, ips_scb_t *); 241 static int ips_inquiry(ips_ha_t *, ips_scb_t *); 242 static int ips_rdcap(ips_ha_t *, ips_scb_t *); 243 static int ips_msense(ips_ha_t *, ips_scb_t *); 244 static int ips_reqsen(ips_ha_t *, ips_scb_t *); 245 static int ips_deallocatescbs(ips_ha_t *, int); 246 static int ips_allocatescbs(ips_ha_t *); 247 static int ips_reset_copperhead(ips_ha_t *); 248 static int ips_reset_copperhead_memio(ips_ha_t *); 249 static int ips_reset_morpheus(ips_ha_t *); 250 static int ips_issue_copperhead(ips_ha_t *, ips_scb_t *); 251 static int ips_issue_copperhead_memio(ips_ha_t *, ips_scb_t *); 252 static int ips_issue_i2o(ips_ha_t *, ips_scb_t *); 253 static int ips_issue_i2o_memio(ips_ha_t *, ips_scb_t *); 254 static int ips_isintr_copperhead(ips_ha_t *); 255 static int ips_isintr_copperhead_memio(ips_ha_t *); 256 static int ips_isintr_morpheus(ips_ha_t *); 257 static int ips_wait(ips_ha_t *, int, int); 258 static int ips_write_driver_status(ips_ha_t *, int); 259 static int ips_read_adapter_status(ips_ha_t *, int); 260 static int ips_read_subsystem_parameters(ips_ha_t *, int); 261 static int ips_read_config(ips_ha_t *, int); 262 static int ips_clear_adapter(ips_ha_t *, int); 263 static int ips_readwrite_page5(ips_ha_t *, int, int); 264 static int ips_init_copperhead(ips_ha_t *); 265 static int ips_init_copperhead_memio(ips_ha_t *); 266 static int ips_init_morpheus(ips_ha_t *); 267 static int ips_isinit_copperhead(ips_ha_t *); 268 static int ips_isinit_copperhead_memio(ips_ha_t *); 269 static int ips_isinit_morpheus(ips_ha_t *); 270 static int ips_erase_bios(ips_ha_t *); 271 static int ips_program_bios(ips_ha_t *, char *, uint32_t, uint32_t); 272 static int ips_verify_bios(ips_ha_t *, char *, uint32_t, uint32_t); 273 static int ips_erase_bios_memio(ips_ha_t *); 274 static int ips_program_bios_memio(ips_ha_t *, char *, uint32_t, uint32_t); 275 static int ips_verify_bios_memio(ips_ha_t *, char *, uint32_t, uint32_t); 276 static int ips_flash_copperhead(ips_ha_t *, ips_passthru_t *, ips_scb_t *); 277 static int ips_flash_bios(ips_ha_t *, ips_passthru_t *, ips_scb_t *); 278 static int ips_flash_firmware(ips_ha_t *, ips_passthru_t *, ips_scb_t *); 279 static void ips_free_flash_copperhead(ips_ha_t * ha); 280 static void ips_get_bios_version(ips_ha_t *, int); 281 static void ips_identify_controller(ips_ha_t *); 282 static void ips_chkstatus(ips_ha_t *, IPS_STATUS *); 283 static void ips_enable_int_copperhead(ips_ha_t *); 284 static void ips_enable_int_copperhead_memio(ips_ha_t *); 285 static void ips_enable_int_morpheus(ips_ha_t *); 286 static int ips_intr_copperhead(ips_ha_t *); 287 static int ips_intr_morpheus(ips_ha_t *); 288 static void ips_next(ips_ha_t *, int); 289 static void ipsintr_blocking(ips_ha_t *, struct ips_scb *); 290 static void ipsintr_done(ips_ha_t *, struct ips_scb *); 291 static void ips_done(ips_ha_t *, ips_scb_t *); 292 static void ips_free(ips_ha_t *); 293 static void ips_init_scb(ips_ha_t *, ips_scb_t *); 294 static void ips_freescb(ips_ha_t *, ips_scb_t *); 295 static void ips_setup_funclist(ips_ha_t *); 296 static void ips_statinit(ips_ha_t *); 297 static void ips_statinit_memio(ips_ha_t *); 298 static void ips_fix_ffdc_time(ips_ha_t *, ips_scb_t *, time64_t); 299 static void ips_ffdc_reset(ips_ha_t *, int); 300 static void ips_ffdc_time(ips_ha_t *); 301 static uint32_t ips_statupd_copperhead(ips_ha_t *); 302 static uint32_t ips_statupd_copperhead_memio(ips_ha_t *); 303 static uint32_t ips_statupd_morpheus(ips_ha_t *); 304 static ips_scb_t *ips_getscb(ips_ha_t *); 305 static void ips_putq_scb_head(ips_scb_queue_t *, ips_scb_t *); 306 static void ips_putq_wait_tail(ips_wait_queue_entry_t *, struct scsi_cmnd *); 307 static void ips_putq_copp_tail(ips_copp_queue_t *, 308 ips_copp_wait_item_t *); 309 static ips_scb_t *ips_removeq_scb_head(ips_scb_queue_t *); 310 static ips_scb_t *ips_removeq_scb(ips_scb_queue_t *, ips_scb_t *); 311 static struct scsi_cmnd *ips_removeq_wait_head(ips_wait_queue_entry_t *); 312 static struct scsi_cmnd *ips_removeq_wait(ips_wait_queue_entry_t *, 313 struct scsi_cmnd *); 314 static ips_copp_wait_item_t *ips_removeq_copp(ips_copp_queue_t *, 315 ips_copp_wait_item_t *); 316 static ips_copp_wait_item_t *ips_removeq_copp_head(ips_copp_queue_t *); 317 318 static int ips_is_passthru(struct scsi_cmnd *); 319 static int ips_make_passthru(ips_ha_t *, struct scsi_cmnd *, ips_scb_t *, int); 320 static int ips_usrcmd(ips_ha_t *, ips_passthru_t *, ips_scb_t *); 321 static void ips_cleanup_passthru(ips_ha_t *, ips_scb_t *); 322 static void ips_scmd_buf_write(struct scsi_cmnd * scmd, void *data, 323 unsigned int count); 324 static void ips_scmd_buf_read(struct scsi_cmnd * scmd, void *data, 325 unsigned int count); 326 327 static int ips_write_info(struct Scsi_Host *, char *, int); 328 static int ips_show_info(struct seq_file *, struct Scsi_Host *); 329 static int ips_host_info(ips_ha_t *, struct seq_file *); 330 static int ips_abort_init(ips_ha_t * ha, int index); 331 static int ips_init_phase2(int index); 332 333 static int ips_init_phase1(struct pci_dev *pci_dev, int *indexPtr); 334 static int ips_register_scsi(int index); 335 336 static int ips_poll_for_flush_complete(ips_ha_t * ha); 337 static void ips_flush_and_reset(ips_ha_t *ha); 338 339 /* 340 * global variables 341 */ 342 static const char ips_name[] = "ips"; 343 static struct Scsi_Host *ips_sh[IPS_MAX_ADAPTERS]; /* Array of host controller structures */ 344 static ips_ha_t *ips_ha[IPS_MAX_ADAPTERS]; /* Array of HA structures */ 345 static unsigned int ips_next_controller; 346 static unsigned int ips_num_controllers; 347 static unsigned int ips_released_controllers; 348 static int ips_hotplug; 349 static int ips_cmd_timeout = 60; 350 static int ips_reset_timeout = 60 * 5; 351 static int ips_force_memio = 1; /* Always use Memory Mapped I/O */ 352 static int ips_force_i2o = 1; /* Always use I2O command delivery */ 353 static int ips_ioctlsize = IPS_IOCTL_SIZE; /* Size of the ioctl buffer */ 354 static int ips_cd_boot; /* Booting from Manager CD */ 355 static char *ips_FlashData = NULL; /* CD Boot - Flash Data Buffer */ 356 static dma_addr_t ips_flashbusaddr; 357 static long ips_FlashDataInUse; /* CD Boot - Flash Data In Use Flag */ 358 static uint32_t MaxLiteCmds = 32; /* Max Active Cmds for a Lite Adapter */ 359 static struct scsi_host_template ips_driver_template = { 360 .info = ips_info, 361 .queuecommand = ips_queue, 362 .eh_abort_handler = ips_eh_abort, 363 .eh_host_reset_handler = ips_eh_reset, 364 .proc_name = "ips", 365 .show_info = ips_show_info, 366 .write_info = ips_write_info, 367 .slave_configure = ips_slave_configure, 368 .bios_param = ips_biosparam, 369 .this_id = -1, 370 .sg_tablesize = IPS_MAX_SG, 371 .cmd_per_lun = 3, 372 .no_write_same = 1, 373 }; 374 375 376 /* This table describes all ServeRAID Adapters */ 377 static struct pci_device_id ips_pci_table[] = { 378 { 0x1014, 0x002E, PCI_ANY_ID, PCI_ANY_ID, 0, 0 }, 379 { 0x1014, 0x01BD, PCI_ANY_ID, PCI_ANY_ID, 0, 0 }, 380 { 0x9005, 0x0250, PCI_ANY_ID, PCI_ANY_ID, 0, 0 }, 381 { 0, } 382 }; 383 384 MODULE_DEVICE_TABLE( pci, ips_pci_table ); 385 386 static char ips_hot_plug_name[] = "ips"; 387 388 static int ips_insert_device(struct pci_dev *pci_dev, const struct pci_device_id *ent); 389 static void ips_remove_device(struct pci_dev *pci_dev); 390 391 static struct pci_driver ips_pci_driver = { 392 .name = ips_hot_plug_name, 393 .id_table = ips_pci_table, 394 .probe = ips_insert_device, 395 .remove = ips_remove_device, 396 }; 397 398 399 /* 400 * Necessary forward function protoypes 401 */ 402 static int ips_halt(struct notifier_block *nb, ulong event, void *buf); 403 404 #define MAX_ADAPTER_NAME 15 405 406 static char ips_adapter_name[][30] = { 407 "ServeRAID", 408 "ServeRAID II", 409 "ServeRAID on motherboard", 410 "ServeRAID on motherboard", 411 "ServeRAID 3H", 412 "ServeRAID 3L", 413 "ServeRAID 4H", 414 "ServeRAID 4M", 415 "ServeRAID 4L", 416 "ServeRAID 4Mx", 417 "ServeRAID 4Lx", 418 "ServeRAID 5i", 419 "ServeRAID 5i", 420 "ServeRAID 6M", 421 "ServeRAID 6i", 422 "ServeRAID 7t", 423 "ServeRAID 7k", 424 "ServeRAID 7M" 425 }; 426 427 static struct notifier_block ips_notifier = { 428 ips_halt, NULL, 0 429 }; 430 431 /* 432 * Direction table 433 */ 434 static char ips_command_direction[] = { 435 IPS_DATA_NONE, IPS_DATA_NONE, IPS_DATA_IN, IPS_DATA_IN, IPS_DATA_OUT, 436 IPS_DATA_IN, IPS_DATA_IN, IPS_DATA_OUT, IPS_DATA_IN, IPS_DATA_UNK, 437 IPS_DATA_OUT, IPS_DATA_OUT, IPS_DATA_UNK, IPS_DATA_UNK, IPS_DATA_UNK, 438 IPS_DATA_IN, IPS_DATA_NONE, IPS_DATA_NONE, IPS_DATA_IN, IPS_DATA_OUT, 439 IPS_DATA_IN, IPS_DATA_OUT, IPS_DATA_NONE, IPS_DATA_NONE, IPS_DATA_OUT, 440 IPS_DATA_NONE, IPS_DATA_IN, IPS_DATA_NONE, IPS_DATA_IN, IPS_DATA_OUT, 441 IPS_DATA_NONE, IPS_DATA_UNK, IPS_DATA_IN, IPS_DATA_UNK, IPS_DATA_IN, 442 IPS_DATA_UNK, IPS_DATA_OUT, IPS_DATA_IN, IPS_DATA_UNK, IPS_DATA_UNK, 443 IPS_DATA_IN, IPS_DATA_IN, IPS_DATA_OUT, IPS_DATA_NONE, IPS_DATA_UNK, 444 IPS_DATA_IN, IPS_DATA_OUT, IPS_DATA_OUT, IPS_DATA_OUT, IPS_DATA_OUT, 445 IPS_DATA_OUT, IPS_DATA_NONE, IPS_DATA_IN, IPS_DATA_NONE, IPS_DATA_NONE, 446 IPS_DATA_IN, IPS_DATA_OUT, IPS_DATA_OUT, IPS_DATA_OUT, IPS_DATA_OUT, 447 IPS_DATA_IN, IPS_DATA_OUT, IPS_DATA_IN, IPS_DATA_OUT, IPS_DATA_OUT, 448 IPS_DATA_OUT, IPS_DATA_IN, IPS_DATA_IN, IPS_DATA_IN, IPS_DATA_NONE, 449 IPS_DATA_UNK, IPS_DATA_NONE, IPS_DATA_NONE, IPS_DATA_NONE, IPS_DATA_UNK, 450 IPS_DATA_NONE, IPS_DATA_OUT, IPS_DATA_IN, IPS_DATA_UNK, IPS_DATA_UNK, 451 IPS_DATA_UNK, IPS_DATA_UNK, IPS_DATA_UNK, IPS_DATA_UNK, IPS_DATA_UNK, 452 IPS_DATA_OUT, IPS_DATA_UNK, IPS_DATA_UNK, IPS_DATA_UNK, IPS_DATA_UNK, 453 IPS_DATA_IN, IPS_DATA_UNK, IPS_DATA_UNK, IPS_DATA_UNK, IPS_DATA_UNK, 454 IPS_DATA_UNK, IPS_DATA_UNK, IPS_DATA_UNK, IPS_DATA_UNK, IPS_DATA_UNK, 455 IPS_DATA_UNK, IPS_DATA_UNK, IPS_DATA_UNK, IPS_DATA_UNK, IPS_DATA_UNK, 456 IPS_DATA_UNK, IPS_DATA_UNK, IPS_DATA_UNK, IPS_DATA_UNK, IPS_DATA_UNK, 457 IPS_DATA_UNK, IPS_DATA_UNK, IPS_DATA_UNK, IPS_DATA_UNK, IPS_DATA_UNK, 458 IPS_DATA_UNK, IPS_DATA_UNK, IPS_DATA_UNK, IPS_DATA_UNK, IPS_DATA_UNK, 459 IPS_DATA_UNK, IPS_DATA_UNK, IPS_DATA_UNK, IPS_DATA_UNK, IPS_DATA_UNK, 460 IPS_DATA_UNK, IPS_DATA_UNK, IPS_DATA_UNK, IPS_DATA_UNK, IPS_DATA_UNK, 461 IPS_DATA_UNK, IPS_DATA_UNK, IPS_DATA_UNK, IPS_DATA_UNK, IPS_DATA_UNK, 462 IPS_DATA_UNK, IPS_DATA_UNK, IPS_DATA_UNK, IPS_DATA_UNK, IPS_DATA_UNK, 463 IPS_DATA_UNK, IPS_DATA_UNK, IPS_DATA_UNK, IPS_DATA_UNK, IPS_DATA_UNK, 464 IPS_DATA_UNK, IPS_DATA_UNK, IPS_DATA_UNK, IPS_DATA_UNK, IPS_DATA_UNK, 465 IPS_DATA_UNK, IPS_DATA_UNK, IPS_DATA_UNK, IPS_DATA_UNK, IPS_DATA_UNK, 466 IPS_DATA_UNK, IPS_DATA_UNK, IPS_DATA_UNK, IPS_DATA_UNK, IPS_DATA_UNK, 467 IPS_DATA_UNK, IPS_DATA_UNK, IPS_DATA_UNK, IPS_DATA_UNK, IPS_DATA_UNK, 468 IPS_DATA_NONE, IPS_DATA_NONE, IPS_DATA_UNK, IPS_DATA_IN, IPS_DATA_NONE, 469 IPS_DATA_OUT, IPS_DATA_UNK, IPS_DATA_NONE, IPS_DATA_UNK, IPS_DATA_OUT, 470 IPS_DATA_OUT, IPS_DATA_OUT, IPS_DATA_OUT, IPS_DATA_OUT, IPS_DATA_NONE, 471 IPS_DATA_UNK, IPS_DATA_IN, IPS_DATA_OUT, IPS_DATA_IN, IPS_DATA_IN, 472 IPS_DATA_UNK, IPS_DATA_UNK, IPS_DATA_UNK, IPS_DATA_UNK, IPS_DATA_UNK, 473 IPS_DATA_UNK, IPS_DATA_UNK, IPS_DATA_UNK, IPS_DATA_UNK, IPS_DATA_UNK, 474 IPS_DATA_UNK, IPS_DATA_UNK, IPS_DATA_UNK, IPS_DATA_UNK, IPS_DATA_UNK, 475 IPS_DATA_UNK, IPS_DATA_UNK, IPS_DATA_UNK, IPS_DATA_UNK, IPS_DATA_UNK, 476 IPS_DATA_UNK, IPS_DATA_UNK, IPS_DATA_UNK, IPS_DATA_UNK, IPS_DATA_UNK, 477 IPS_DATA_UNK, IPS_DATA_UNK, IPS_DATA_UNK, IPS_DATA_UNK, IPS_DATA_UNK, 478 IPS_DATA_UNK, IPS_DATA_UNK, IPS_DATA_UNK, IPS_DATA_UNK, IPS_DATA_UNK, 479 IPS_DATA_UNK, IPS_DATA_UNK, IPS_DATA_UNK, IPS_DATA_UNK, IPS_DATA_UNK, 480 IPS_DATA_UNK, IPS_DATA_UNK, IPS_DATA_UNK, IPS_DATA_UNK, IPS_DATA_UNK, 481 IPS_DATA_UNK, IPS_DATA_UNK, IPS_DATA_UNK, IPS_DATA_UNK, IPS_DATA_OUT, 482 IPS_DATA_UNK, IPS_DATA_UNK, IPS_DATA_UNK, IPS_DATA_UNK, IPS_DATA_UNK, 483 IPS_DATA_UNK, IPS_DATA_UNK, IPS_DATA_UNK, IPS_DATA_UNK, IPS_DATA_UNK, 484 IPS_DATA_UNK, IPS_DATA_UNK, IPS_DATA_UNK, IPS_DATA_UNK, IPS_DATA_UNK, 485 IPS_DATA_UNK, IPS_DATA_UNK, IPS_DATA_UNK, IPS_DATA_UNK, IPS_DATA_UNK 486 }; 487 488 489 /****************************************************************************/ 490 /* */ 491 /* Routine Name: ips_setup */ 492 /* */ 493 /* Routine Description: */ 494 /* */ 495 /* setup parameters to the driver */ 496 /* */ 497 /****************************************************************************/ 498 static int 499 ips_setup(char *ips_str) 500 { 501 502 int i; 503 char *key; 504 char *value; 505 static const IPS_OPTION options[] = { 506 {"noi2o", &ips_force_i2o, 0}, 507 {"nommap", &ips_force_memio, 0}, 508 {"ioctlsize", &ips_ioctlsize, IPS_IOCTL_SIZE}, 509 {"cdboot", &ips_cd_boot, 0}, 510 {"maxcmds", &MaxLiteCmds, 32}, 511 }; 512 513 /* Don't use strtok() anymore ( if 2.4 Kernel or beyond ) */ 514 /* Search for value */ 515 while ((key = strsep(&ips_str, ",."))) { 516 if (!*key) 517 continue; 518 value = strchr(key, ':'); 519 if (value) 520 *value++ = '\0'; 521 /* 522 * We now have key/value pairs. 523 * Update the variables 524 */ 525 for (i = 0; i < ARRAY_SIZE(options); i++) { 526 if (strncasecmp 527 (key, options[i].option_name, 528 strlen(options[i].option_name)) == 0) { 529 if (value) 530 *options[i].option_flag = 531 simple_strtoul(value, NULL, 0); 532 else 533 *options[i].option_flag = 534 options[i].option_value; 535 break; 536 } 537 } 538 } 539 540 return (1); 541 } 542 543 __setup("ips=", ips_setup); 544 545 /****************************************************************************/ 546 /* */ 547 /* Routine Name: ips_detect */ 548 /* */ 549 /* Routine Description: */ 550 /* */ 551 /* Detect and initialize the driver */ 552 /* */ 553 /* NOTE: this routine is called under the io_request_lock spinlock */ 554 /* */ 555 /****************************************************************************/ 556 static int 557 ips_detect(struct scsi_host_template * SHT) 558 { 559 int i; 560 561 METHOD_TRACE("ips_detect", 1); 562 563 #ifdef MODULE 564 if (ips) 565 ips_setup(ips); 566 #endif 567 568 for (i = 0; i < ips_num_controllers; i++) { 569 if (ips_register_scsi(i)) 570 ips_free(ips_ha[i]); 571 ips_released_controllers++; 572 } 573 ips_hotplug = 1; 574 return (ips_num_controllers); 575 } 576 577 /****************************************************************************/ 578 /* configure the function pointers to use the functions that will work */ 579 /* with the found version of the adapter */ 580 /****************************************************************************/ 581 static void 582 ips_setup_funclist(ips_ha_t * ha) 583 { 584 585 /* 586 * Setup Functions 587 */ 588 if (IPS_IS_MORPHEUS(ha) || IPS_IS_MARCO(ha)) { 589 /* morpheus / marco / sebring */ 590 ha->func.isintr = ips_isintr_morpheus; 591 ha->func.isinit = ips_isinit_morpheus; 592 ha->func.issue = ips_issue_i2o_memio; 593 ha->func.init = ips_init_morpheus; 594 ha->func.statupd = ips_statupd_morpheus; 595 ha->func.reset = ips_reset_morpheus; 596 ha->func.intr = ips_intr_morpheus; 597 ha->func.enableint = ips_enable_int_morpheus; 598 } else if (IPS_USE_MEMIO(ha)) { 599 /* copperhead w/MEMIO */ 600 ha->func.isintr = ips_isintr_copperhead_memio; 601 ha->func.isinit = ips_isinit_copperhead_memio; 602 ha->func.init = ips_init_copperhead_memio; 603 ha->func.statupd = ips_statupd_copperhead_memio; 604 ha->func.statinit = ips_statinit_memio; 605 ha->func.reset = ips_reset_copperhead_memio; 606 ha->func.intr = ips_intr_copperhead; 607 ha->func.erasebios = ips_erase_bios_memio; 608 ha->func.programbios = ips_program_bios_memio; 609 ha->func.verifybios = ips_verify_bios_memio; 610 ha->func.enableint = ips_enable_int_copperhead_memio; 611 if (IPS_USE_I2O_DELIVER(ha)) 612 ha->func.issue = ips_issue_i2o_memio; 613 else 614 ha->func.issue = ips_issue_copperhead_memio; 615 } else { 616 /* copperhead */ 617 ha->func.isintr = ips_isintr_copperhead; 618 ha->func.isinit = ips_isinit_copperhead; 619 ha->func.init = ips_init_copperhead; 620 ha->func.statupd = ips_statupd_copperhead; 621 ha->func.statinit = ips_statinit; 622 ha->func.reset = ips_reset_copperhead; 623 ha->func.intr = ips_intr_copperhead; 624 ha->func.erasebios = ips_erase_bios; 625 ha->func.programbios = ips_program_bios; 626 ha->func.verifybios = ips_verify_bios; 627 ha->func.enableint = ips_enable_int_copperhead; 628 629 if (IPS_USE_I2O_DELIVER(ha)) 630 ha->func.issue = ips_issue_i2o; 631 else 632 ha->func.issue = ips_issue_copperhead; 633 } 634 } 635 636 /****************************************************************************/ 637 /* */ 638 /* Routine Name: ips_release */ 639 /* */ 640 /* Routine Description: */ 641 /* */ 642 /* Remove a driver */ 643 /* */ 644 /****************************************************************************/ 645 static void ips_release(struct Scsi_Host *sh) 646 { 647 ips_scb_t *scb; 648 ips_ha_t *ha; 649 int i; 650 651 METHOD_TRACE("ips_release", 1); 652 653 scsi_remove_host(sh); 654 655 for (i = 0; i < IPS_MAX_ADAPTERS && ips_sh[i] != sh; i++) ; 656 657 if (i == IPS_MAX_ADAPTERS) { 658 printk(KERN_WARNING 659 "(%s) release, invalid Scsi_Host pointer.\n", ips_name); 660 BUG(); 661 } 662 663 ha = IPS_HA(sh); 664 665 if (!ha) 666 return; 667 668 /* flush the cache on the controller */ 669 scb = &ha->scbs[ha->max_cmds - 1]; 670 671 ips_init_scb(ha, scb); 672 673 scb->timeout = ips_cmd_timeout; 674 scb->cdb[0] = IPS_CMD_FLUSH; 675 676 scb->cmd.flush_cache.op_code = IPS_CMD_FLUSH; 677 scb->cmd.flush_cache.command_id = IPS_COMMAND_ID(ha, scb); 678 scb->cmd.flush_cache.state = IPS_NORM_STATE; 679 scb->cmd.flush_cache.reserved = 0; 680 scb->cmd.flush_cache.reserved2 = 0; 681 scb->cmd.flush_cache.reserved3 = 0; 682 scb->cmd.flush_cache.reserved4 = 0; 683 684 IPS_PRINTK(KERN_WARNING, ha->pcidev, "Flushing Cache.\n"); 685 686 /* send command */ 687 if (ips_send_wait(ha, scb, ips_cmd_timeout, IPS_INTR_ON) == IPS_FAILURE) 688 IPS_PRINTK(KERN_WARNING, ha->pcidev, "Incomplete Flush.\n"); 689 690 IPS_PRINTK(KERN_WARNING, ha->pcidev, "Flushing Complete.\n"); 691 692 ips_sh[i] = NULL; 693 ips_ha[i] = NULL; 694 695 /* free extra memory */ 696 ips_free(ha); 697 698 /* free IRQ */ 699 free_irq(ha->pcidev->irq, ha); 700 701 scsi_host_put(sh); 702 703 ips_released_controllers++; 704 } 705 706 /****************************************************************************/ 707 /* */ 708 /* Routine Name: ips_halt */ 709 /* */ 710 /* Routine Description: */ 711 /* */ 712 /* Perform cleanup when the system reboots */ 713 /* */ 714 /****************************************************************************/ 715 static int 716 ips_halt(struct notifier_block *nb, ulong event, void *buf) 717 { 718 ips_scb_t *scb; 719 ips_ha_t *ha; 720 int i; 721 722 if ((event != SYS_RESTART) && (event != SYS_HALT) && 723 (event != SYS_POWER_OFF)) 724 return (NOTIFY_DONE); 725 726 for (i = 0; i < ips_next_controller; i++) { 727 ha = (ips_ha_t *) ips_ha[i]; 728 729 if (!ha) 730 continue; 731 732 if (!ha->active) 733 continue; 734 735 /* flush the cache on the controller */ 736 scb = &ha->scbs[ha->max_cmds - 1]; 737 738 ips_init_scb(ha, scb); 739 740 scb->timeout = ips_cmd_timeout; 741 scb->cdb[0] = IPS_CMD_FLUSH; 742 743 scb->cmd.flush_cache.op_code = IPS_CMD_FLUSH; 744 scb->cmd.flush_cache.command_id = IPS_COMMAND_ID(ha, scb); 745 scb->cmd.flush_cache.state = IPS_NORM_STATE; 746 scb->cmd.flush_cache.reserved = 0; 747 scb->cmd.flush_cache.reserved2 = 0; 748 scb->cmd.flush_cache.reserved3 = 0; 749 scb->cmd.flush_cache.reserved4 = 0; 750 751 IPS_PRINTK(KERN_WARNING, ha->pcidev, "Flushing Cache.\n"); 752 753 /* send command */ 754 if (ips_send_wait(ha, scb, ips_cmd_timeout, IPS_INTR_ON) == 755 IPS_FAILURE) 756 IPS_PRINTK(KERN_WARNING, ha->pcidev, 757 "Incomplete Flush.\n"); 758 else 759 IPS_PRINTK(KERN_WARNING, ha->pcidev, 760 "Flushing Complete.\n"); 761 } 762 763 return (NOTIFY_OK); 764 } 765 766 /****************************************************************************/ 767 /* */ 768 /* Routine Name: ips_eh_abort */ 769 /* */ 770 /* Routine Description: */ 771 /* */ 772 /* Abort a command (using the new error code stuff) */ 773 /* Note: this routine is called under the io_request_lock */ 774 /****************************************************************************/ 775 int ips_eh_abort(struct scsi_cmnd *SC) 776 { 777 ips_ha_t *ha; 778 ips_copp_wait_item_t *item; 779 int ret; 780 struct Scsi_Host *host; 781 782 METHOD_TRACE("ips_eh_abort", 1); 783 784 if (!SC) 785 return (FAILED); 786 787 host = SC->device->host; 788 ha = (ips_ha_t *) SC->device->host->hostdata; 789 790 if (!ha) 791 return (FAILED); 792 793 if (!ha->active) 794 return (FAILED); 795 796 spin_lock(host->host_lock); 797 798 /* See if the command is on the copp queue */ 799 item = ha->copp_waitlist.head; 800 while ((item) && (item->scsi_cmd != SC)) 801 item = item->next; 802 803 if (item) { 804 /* Found it */ 805 ips_removeq_copp(&ha->copp_waitlist, item); 806 ret = (SUCCESS); 807 808 /* See if the command is on the wait queue */ 809 } else if (ips_removeq_wait(&ha->scb_waitlist, SC)) { 810 /* command not sent yet */ 811 ret = (SUCCESS); 812 } else { 813 /* command must have already been sent */ 814 ret = (FAILED); 815 } 816 817 spin_unlock(host->host_lock); 818 return ret; 819 } 820 821 /****************************************************************************/ 822 /* */ 823 /* Routine Name: ips_eh_reset */ 824 /* */ 825 /* Routine Description: */ 826 /* */ 827 /* Reset the controller (with new eh error code) */ 828 /* */ 829 /* NOTE: this routine is called under the io_request_lock spinlock */ 830 /* */ 831 /****************************************************************************/ 832 static int __ips_eh_reset(struct scsi_cmnd *SC) 833 { 834 int ret; 835 int i; 836 ips_ha_t *ha; 837 ips_scb_t *scb; 838 839 METHOD_TRACE("ips_eh_reset", 1); 840 841 #ifdef NO_IPS_RESET 842 return (FAILED); 843 #else 844 845 if (!SC) { 846 DEBUG(1, "Reset called with NULL scsi command"); 847 848 return (FAILED); 849 } 850 851 ha = (ips_ha_t *) SC->device->host->hostdata; 852 853 if (!ha) { 854 DEBUG(1, "Reset called with NULL ha struct"); 855 856 return (FAILED); 857 } 858 859 if (!ha->active) 860 return (FAILED); 861 862 /* An explanation for the casual observer: */ 863 /* Part of the function of a RAID controller is automatic error */ 864 /* detection and recovery. As such, the only problem that physically */ 865 /* resetting an adapter will ever fix is when, for some reason, */ 866 /* the driver is not successfully communicating with the adapter. */ 867 /* Therefore, we will attempt to flush this adapter. If that succeeds, */ 868 /* then there's no real purpose in a physical reset. This will complete */ 869 /* much faster and avoids any problems that might be caused by a */ 870 /* physical reset ( such as having to fail all the outstanding I/O's ). */ 871 872 if (ha->ioctl_reset == 0) { /* IF Not an IOCTL Requested Reset */ 873 scb = &ha->scbs[ha->max_cmds - 1]; 874 875 ips_init_scb(ha, scb); 876 877 scb->timeout = ips_cmd_timeout; 878 scb->cdb[0] = IPS_CMD_FLUSH; 879 880 scb->cmd.flush_cache.op_code = IPS_CMD_FLUSH; 881 scb->cmd.flush_cache.command_id = IPS_COMMAND_ID(ha, scb); 882 scb->cmd.flush_cache.state = IPS_NORM_STATE; 883 scb->cmd.flush_cache.reserved = 0; 884 scb->cmd.flush_cache.reserved2 = 0; 885 scb->cmd.flush_cache.reserved3 = 0; 886 scb->cmd.flush_cache.reserved4 = 0; 887 888 /* Attempt the flush command */ 889 ret = ips_send_wait(ha, scb, ips_cmd_timeout, IPS_INTR_IORL); 890 if (ret == IPS_SUCCESS) { 891 IPS_PRINTK(KERN_NOTICE, ha->pcidev, 892 "Reset Request - Flushed Cache\n"); 893 return (SUCCESS); 894 } 895 } 896 897 /* Either we can't communicate with the adapter or it's an IOCTL request */ 898 /* from a utility. A physical reset is needed at this point. */ 899 900 ha->ioctl_reset = 0; /* Reset the IOCTL Requested Reset Flag */ 901 902 /* 903 * command must have already been sent 904 * reset the controller 905 */ 906 IPS_PRINTK(KERN_NOTICE, ha->pcidev, "Resetting controller.\n"); 907 ret = (*ha->func.reset) (ha); 908 909 if (!ret) { 910 struct scsi_cmnd *scsi_cmd; 911 912 IPS_PRINTK(KERN_NOTICE, ha->pcidev, 913 "Controller reset failed - controller now offline.\n"); 914 915 /* Now fail all of the active commands */ 916 DEBUG_VAR(1, "(%s%d) Failing active commands", 917 ips_name, ha->host_num); 918 919 while ((scb = ips_removeq_scb_head(&ha->scb_activelist))) { 920 scb->scsi_cmd->result = DID_ERROR << 16; 921 scsi_done(scb->scsi_cmd); 922 ips_freescb(ha, scb); 923 } 924 925 /* Now fail all of the pending commands */ 926 DEBUG_VAR(1, "(%s%d) Failing pending commands", 927 ips_name, ha->host_num); 928 929 while ((scsi_cmd = ips_removeq_wait_head(&ha->scb_waitlist))) { 930 scsi_cmd->result = DID_ERROR; 931 scsi_done(scsi_cmd); 932 } 933 934 ha->active = false; 935 return (FAILED); 936 } 937 938 if (!ips_clear_adapter(ha, IPS_INTR_IORL)) { 939 struct scsi_cmnd *scsi_cmd; 940 941 IPS_PRINTK(KERN_NOTICE, ha->pcidev, 942 "Controller reset failed - controller now offline.\n"); 943 944 /* Now fail all of the active commands */ 945 DEBUG_VAR(1, "(%s%d) Failing active commands", 946 ips_name, ha->host_num); 947 948 while ((scb = ips_removeq_scb_head(&ha->scb_activelist))) { 949 scb->scsi_cmd->result = DID_ERROR << 16; 950 scsi_done(scb->scsi_cmd); 951 ips_freescb(ha, scb); 952 } 953 954 /* Now fail all of the pending commands */ 955 DEBUG_VAR(1, "(%s%d) Failing pending commands", 956 ips_name, ha->host_num); 957 958 while ((scsi_cmd = ips_removeq_wait_head(&ha->scb_waitlist))) { 959 scsi_cmd->result = DID_ERROR << 16; 960 scsi_done(scsi_cmd); 961 } 962 963 ha->active = false; 964 return (FAILED); 965 } 966 967 /* FFDC */ 968 if (le32_to_cpu(ha->subsys->param[3]) & 0x300000) { 969 ha->last_ffdc = ktime_get_real_seconds(); 970 ha->reset_count++; 971 ips_ffdc_reset(ha, IPS_INTR_IORL); 972 } 973 974 /* Now fail all of the active commands */ 975 DEBUG_VAR(1, "(%s%d) Failing active commands", ips_name, ha->host_num); 976 977 while ((scb = ips_removeq_scb_head(&ha->scb_activelist))) { 978 scb->scsi_cmd->result = DID_RESET << 16; 979 scsi_done(scb->scsi_cmd); 980 ips_freescb(ha, scb); 981 } 982 983 /* Reset DCDB active command bits */ 984 for (i = 1; i < ha->nbus; i++) 985 ha->dcdb_active[i - 1] = 0; 986 987 /* Reset the number of active IOCTLs */ 988 ha->num_ioctl = 0; 989 990 ips_next(ha, IPS_INTR_IORL); 991 992 return (SUCCESS); 993 #endif /* NO_IPS_RESET */ 994 995 } 996 997 static int ips_eh_reset(struct scsi_cmnd *SC) 998 { 999 int rc; 1000 1001 spin_lock_irq(SC->device->host->host_lock); 1002 rc = __ips_eh_reset(SC); 1003 spin_unlock_irq(SC->device->host->host_lock); 1004 1005 return rc; 1006 } 1007 1008 /****************************************************************************/ 1009 /* */ 1010 /* Routine Name: ips_queue */ 1011 /* */ 1012 /* Routine Description: */ 1013 /* */ 1014 /* Send a command to the controller */ 1015 /* */ 1016 /* NOTE: */ 1017 /* Linux obtains io_request_lock before calling this function */ 1018 /* */ 1019 /****************************************************************************/ 1020 static int ips_queue_lck(struct scsi_cmnd *SC) 1021 { 1022 void (*done)(struct scsi_cmnd *) = scsi_done; 1023 ips_ha_t *ha; 1024 ips_passthru_t *pt; 1025 1026 METHOD_TRACE("ips_queue", 1); 1027 1028 ha = (ips_ha_t *) SC->device->host->hostdata; 1029 1030 if (!ha) 1031 goto out_error; 1032 1033 if (!ha->active) 1034 goto out_error; 1035 1036 if (ips_is_passthru(SC)) { 1037 if (ha->copp_waitlist.count == IPS_MAX_IOCTL_QUEUE) { 1038 SC->result = DID_BUS_BUSY << 16; 1039 done(SC); 1040 1041 return (0); 1042 } 1043 } else if (ha->scb_waitlist.count == IPS_MAX_QUEUE) { 1044 SC->result = DID_BUS_BUSY << 16; 1045 done(SC); 1046 1047 return (0); 1048 } 1049 1050 DEBUG_VAR(2, "(%s%d): ips_queue: cmd 0x%X (%d %d %d)", 1051 ips_name, 1052 ha->host_num, 1053 SC->cmnd[0], 1054 SC->device->channel, SC->device->id, SC->device->lun); 1055 1056 /* Check for command to initiator IDs */ 1057 if ((scmd_channel(SC) > 0) 1058 && (scmd_id(SC) == ha->ha_id[scmd_channel(SC)])) { 1059 SC->result = DID_NO_CONNECT << 16; 1060 done(SC); 1061 1062 return (0); 1063 } 1064 1065 if (ips_is_passthru(SC)) { 1066 1067 ips_copp_wait_item_t *scratch; 1068 1069 /* A Reset IOCTL is only sent by the boot CD in extreme cases. */ 1070 /* There can never be any system activity ( network or disk ), but check */ 1071 /* anyway just as a good practice. */ 1072 pt = (ips_passthru_t *) scsi_sglist(SC); 1073 if ((pt->CoppCP.cmd.reset.op_code == IPS_CMD_RESET_CHANNEL) && 1074 (pt->CoppCP.cmd.reset.adapter_flag == 1)) { 1075 if (ha->scb_activelist.count != 0) { 1076 SC->result = DID_BUS_BUSY << 16; 1077 done(SC); 1078 return (0); 1079 } 1080 ha->ioctl_reset = 1; /* This reset request is from an IOCTL */ 1081 __ips_eh_reset(SC); 1082 SC->result = DID_OK << 16; 1083 scsi_done(SC); 1084 return (0); 1085 } 1086 1087 /* allocate space for the scribble */ 1088 scratch = kmalloc(sizeof (ips_copp_wait_item_t), GFP_ATOMIC); 1089 1090 if (!scratch) { 1091 SC->result = DID_ERROR << 16; 1092 done(SC); 1093 1094 return (0); 1095 } 1096 1097 scratch->scsi_cmd = SC; 1098 scratch->next = NULL; 1099 1100 ips_putq_copp_tail(&ha->copp_waitlist, scratch); 1101 } else { 1102 ips_putq_wait_tail(&ha->scb_waitlist, SC); 1103 } 1104 1105 ips_next(ha, IPS_INTR_IORL); 1106 1107 return (0); 1108 out_error: 1109 SC->result = DID_ERROR << 16; 1110 done(SC); 1111 1112 return (0); 1113 } 1114 1115 static DEF_SCSI_QCMD(ips_queue) 1116 1117 /****************************************************************************/ 1118 /* */ 1119 /* Routine Name: ips_biosparam */ 1120 /* */ 1121 /* Routine Description: */ 1122 /* */ 1123 /* Set bios geometry for the controller */ 1124 /* */ 1125 /****************************************************************************/ 1126 static int ips_biosparam(struct scsi_device *sdev, struct block_device *bdev, 1127 sector_t capacity, int geom[]) 1128 { 1129 ips_ha_t *ha = (ips_ha_t *) sdev->host->hostdata; 1130 int heads; 1131 int sectors; 1132 int cylinders; 1133 1134 METHOD_TRACE("ips_biosparam", 1); 1135 1136 if (!ha) 1137 /* ?!?! host adater info invalid */ 1138 return (0); 1139 1140 if (!ha->active) 1141 return (0); 1142 1143 if (!ips_read_adapter_status(ha, IPS_INTR_ON)) 1144 /* ?!?! Enquiry command failed */ 1145 return (0); 1146 1147 if ((capacity > 0x400000) && ((ha->enq->ucMiscFlag & 0x8) == 0)) { 1148 heads = IPS_NORM_HEADS; 1149 sectors = IPS_NORM_SECTORS; 1150 } else { 1151 heads = IPS_COMP_HEADS; 1152 sectors = IPS_COMP_SECTORS; 1153 } 1154 1155 cylinders = (unsigned long) capacity / (heads * sectors); 1156 1157 DEBUG_VAR(2, "Geometry: heads: %d, sectors: %d, cylinders: %d", 1158 heads, sectors, cylinders); 1159 1160 geom[0] = heads; 1161 geom[1] = sectors; 1162 geom[2] = cylinders; 1163 1164 return (0); 1165 } 1166 1167 /****************************************************************************/ 1168 /* */ 1169 /* Routine Name: ips_slave_configure */ 1170 /* */ 1171 /* Routine Description: */ 1172 /* */ 1173 /* Set queue depths on devices once scan is complete */ 1174 /* */ 1175 /****************************************************************************/ 1176 static int 1177 ips_slave_configure(struct scsi_device * SDptr) 1178 { 1179 ips_ha_t *ha; 1180 int min; 1181 1182 ha = IPS_HA(SDptr->host); 1183 if (SDptr->tagged_supported && SDptr->type == TYPE_DISK) { 1184 min = ha->max_cmds / 2; 1185 if (ha->enq->ucLogDriveCount <= 2) 1186 min = ha->max_cmds - 1; 1187 scsi_change_queue_depth(SDptr, min); 1188 } 1189 1190 SDptr->skip_ms_page_8 = 1; 1191 SDptr->skip_ms_page_3f = 1; 1192 return 0; 1193 } 1194 1195 /****************************************************************************/ 1196 /* */ 1197 /* Routine Name: do_ipsintr */ 1198 /* */ 1199 /* Routine Description: */ 1200 /* */ 1201 /* Wrapper for the interrupt handler */ 1202 /* */ 1203 /****************************************************************************/ 1204 static irqreturn_t 1205 do_ipsintr(int irq, void *dev_id) 1206 { 1207 ips_ha_t *ha; 1208 struct Scsi_Host *host; 1209 int irqstatus; 1210 1211 METHOD_TRACE("do_ipsintr", 2); 1212 1213 ha = (ips_ha_t *) dev_id; 1214 if (!ha) 1215 return IRQ_NONE; 1216 host = ips_sh[ha->host_num]; 1217 /* interrupt during initialization */ 1218 if (!host) { 1219 (*ha->func.intr) (ha); 1220 return IRQ_HANDLED; 1221 } 1222 1223 spin_lock(host->host_lock); 1224 1225 if (!ha->active) { 1226 spin_unlock(host->host_lock); 1227 return IRQ_HANDLED; 1228 } 1229 1230 irqstatus = (*ha->func.intr) (ha); 1231 1232 spin_unlock(host->host_lock); 1233 1234 /* start the next command */ 1235 ips_next(ha, IPS_INTR_ON); 1236 return IRQ_RETVAL(irqstatus); 1237 } 1238 1239 /****************************************************************************/ 1240 /* */ 1241 /* Routine Name: ips_intr_copperhead */ 1242 /* */ 1243 /* Routine Description: */ 1244 /* */ 1245 /* Polling interrupt handler */ 1246 /* */ 1247 /* ASSUMES interrupts are disabled */ 1248 /* */ 1249 /****************************************************************************/ 1250 int 1251 ips_intr_copperhead(ips_ha_t * ha) 1252 { 1253 ips_stat_t *sp; 1254 ips_scb_t *scb; 1255 IPS_STATUS cstatus; 1256 int intrstatus; 1257 1258 METHOD_TRACE("ips_intr", 2); 1259 1260 if (!ha) 1261 return 0; 1262 1263 if (!ha->active) 1264 return 0; 1265 1266 intrstatus = (*ha->func.isintr) (ha); 1267 1268 if (!intrstatus) { 1269 /* 1270 * Unexpected/Shared interrupt 1271 */ 1272 1273 return 0; 1274 } 1275 1276 while (true) { 1277 sp = &ha->sp; 1278 1279 intrstatus = (*ha->func.isintr) (ha); 1280 1281 if (!intrstatus) 1282 break; 1283 else 1284 cstatus.value = (*ha->func.statupd) (ha); 1285 1286 if (cstatus.fields.command_id > (IPS_MAX_CMDS - 1)) { 1287 /* Spurious Interrupt ? */ 1288 continue; 1289 } 1290 1291 ips_chkstatus(ha, &cstatus); 1292 scb = (ips_scb_t *) sp->scb_addr; 1293 1294 /* 1295 * use the callback function to finish things up 1296 * NOTE: interrupts are OFF for this 1297 */ 1298 (*scb->callback) (ha, scb); 1299 } /* end while */ 1300 return 1; 1301 } 1302 1303 /****************************************************************************/ 1304 /* */ 1305 /* Routine Name: ips_intr_morpheus */ 1306 /* */ 1307 /* Routine Description: */ 1308 /* */ 1309 /* Polling interrupt handler */ 1310 /* */ 1311 /* ASSUMES interrupts are disabled */ 1312 /* */ 1313 /****************************************************************************/ 1314 int 1315 ips_intr_morpheus(ips_ha_t * ha) 1316 { 1317 ips_stat_t *sp; 1318 ips_scb_t *scb; 1319 IPS_STATUS cstatus; 1320 int intrstatus; 1321 1322 METHOD_TRACE("ips_intr_morpheus", 2); 1323 1324 if (!ha) 1325 return 0; 1326 1327 if (!ha->active) 1328 return 0; 1329 1330 intrstatus = (*ha->func.isintr) (ha); 1331 1332 if (!intrstatus) { 1333 /* 1334 * Unexpected/Shared interrupt 1335 */ 1336 1337 return 0; 1338 } 1339 1340 while (true) { 1341 sp = &ha->sp; 1342 1343 intrstatus = (*ha->func.isintr) (ha); 1344 1345 if (!intrstatus) 1346 break; 1347 else 1348 cstatus.value = (*ha->func.statupd) (ha); 1349 1350 if (cstatus.value == 0xffffffff) 1351 /* No more to process */ 1352 break; 1353 1354 if (cstatus.fields.command_id > (IPS_MAX_CMDS - 1)) { 1355 IPS_PRINTK(KERN_WARNING, ha->pcidev, 1356 "Spurious interrupt; no ccb.\n"); 1357 1358 continue; 1359 } 1360 1361 ips_chkstatus(ha, &cstatus); 1362 scb = (ips_scb_t *) sp->scb_addr; 1363 1364 /* 1365 * use the callback function to finish things up 1366 * NOTE: interrupts are OFF for this 1367 */ 1368 (*scb->callback) (ha, scb); 1369 } /* end while */ 1370 return 1; 1371 } 1372 1373 /****************************************************************************/ 1374 /* */ 1375 /* Routine Name: ips_info */ 1376 /* */ 1377 /* Routine Description: */ 1378 /* */ 1379 /* Return info about the driver */ 1380 /* */ 1381 /****************************************************************************/ 1382 static const char * 1383 ips_info(struct Scsi_Host *SH) 1384 { 1385 static char buffer[256]; 1386 char *bp; 1387 ips_ha_t *ha; 1388 1389 METHOD_TRACE("ips_info", 1); 1390 1391 ha = IPS_HA(SH); 1392 1393 if (!ha) 1394 return (NULL); 1395 1396 bp = &buffer[0]; 1397 memset(bp, 0, sizeof (buffer)); 1398 1399 sprintf(bp, "%s%s%s Build %d", "IBM PCI ServeRAID ", 1400 IPS_VERSION_HIGH, IPS_VERSION_LOW, IPS_BUILD_IDENT); 1401 1402 if (ha->ad_type > 0 && ha->ad_type <= MAX_ADAPTER_NAME) { 1403 strcat(bp, " <"); 1404 strcat(bp, ips_adapter_name[ha->ad_type - 1]); 1405 strcat(bp, ">"); 1406 } 1407 1408 return (bp); 1409 } 1410 1411 static int 1412 ips_write_info(struct Scsi_Host *host, char *buffer, int length) 1413 { 1414 int i; 1415 ips_ha_t *ha = NULL; 1416 1417 /* Find our host structure */ 1418 for (i = 0; i < ips_next_controller; i++) { 1419 if (ips_sh[i]) { 1420 if (ips_sh[i] == host) { 1421 ha = (ips_ha_t *) ips_sh[i]->hostdata; 1422 break; 1423 } 1424 } 1425 } 1426 1427 if (!ha) 1428 return (-EINVAL); 1429 1430 return 0; 1431 } 1432 1433 static int 1434 ips_show_info(struct seq_file *m, struct Scsi_Host *host) 1435 { 1436 int i; 1437 ips_ha_t *ha = NULL; 1438 1439 /* Find our host structure */ 1440 for (i = 0; i < ips_next_controller; i++) { 1441 if (ips_sh[i]) { 1442 if (ips_sh[i] == host) { 1443 ha = (ips_ha_t *) ips_sh[i]->hostdata; 1444 break; 1445 } 1446 } 1447 } 1448 1449 if (!ha) 1450 return (-EINVAL); 1451 1452 return ips_host_info(ha, m); 1453 } 1454 1455 /*--------------------------------------------------------------------------*/ 1456 /* Helper Functions */ 1457 /*--------------------------------------------------------------------------*/ 1458 1459 /****************************************************************************/ 1460 /* */ 1461 /* Routine Name: ips_is_passthru */ 1462 /* */ 1463 /* Routine Description: */ 1464 /* */ 1465 /* Determine if the specified SCSI command is really a passthru command */ 1466 /* */ 1467 /****************************************************************************/ 1468 static int ips_is_passthru(struct scsi_cmnd *SC) 1469 { 1470 unsigned long flags; 1471 1472 METHOD_TRACE("ips_is_passthru", 1); 1473 1474 if (!SC) 1475 return (0); 1476 1477 if ((SC->cmnd[0] == IPS_IOCTL_COMMAND) && 1478 (SC->device->channel == 0) && 1479 (SC->device->id == IPS_ADAPTER_ID) && 1480 (SC->device->lun == 0) && scsi_sglist(SC)) { 1481 struct scatterlist *sg = scsi_sglist(SC); 1482 char *buffer; 1483 1484 /* local_irq_save() protects the KM_IRQ0 address slot. */ 1485 local_irq_save(flags); 1486 buffer = kmap_local_page(sg_page(sg)) + sg->offset; 1487 if (buffer && buffer[0] == 'C' && buffer[1] == 'O' && 1488 buffer[2] == 'P' && buffer[3] == 'P') { 1489 kunmap_local(buffer); 1490 local_irq_restore(flags); 1491 return 1; 1492 } 1493 kunmap_local(buffer); 1494 local_irq_restore(flags); 1495 } 1496 return 0; 1497 } 1498 1499 /****************************************************************************/ 1500 /* */ 1501 /* Routine Name: ips_alloc_passthru_buffer */ 1502 /* */ 1503 /* Routine Description: */ 1504 /* allocate a buffer large enough for the ioctl data if the ioctl buffer */ 1505 /* is too small or doesn't exist */ 1506 /****************************************************************************/ 1507 static int 1508 ips_alloc_passthru_buffer(ips_ha_t * ha, int length) 1509 { 1510 void *bigger_buf; 1511 dma_addr_t dma_busaddr; 1512 1513 if (ha->ioctl_data && length <= ha->ioctl_len) 1514 return 0; 1515 /* there is no buffer or it's not big enough, allocate a new one */ 1516 bigger_buf = dma_alloc_coherent(&ha->pcidev->dev, length, &dma_busaddr, 1517 GFP_KERNEL); 1518 if (bigger_buf) { 1519 /* free the old memory */ 1520 dma_free_coherent(&ha->pcidev->dev, ha->ioctl_len, 1521 ha->ioctl_data, ha->ioctl_busaddr); 1522 /* use the new memory */ 1523 ha->ioctl_data = (char *) bigger_buf; 1524 ha->ioctl_len = length; 1525 ha->ioctl_busaddr = dma_busaddr; 1526 } else { 1527 return -1; 1528 } 1529 return 0; 1530 } 1531 1532 /****************************************************************************/ 1533 /* */ 1534 /* Routine Name: ips_make_passthru */ 1535 /* */ 1536 /* Routine Description: */ 1537 /* */ 1538 /* Make a passthru command out of the info in the Scsi block */ 1539 /* */ 1540 /****************************************************************************/ 1541 static int 1542 ips_make_passthru(ips_ha_t *ha, struct scsi_cmnd *SC, ips_scb_t *scb, int intr) 1543 { 1544 ips_passthru_t *pt; 1545 int length = 0; 1546 int i, ret; 1547 struct scatterlist *sg = scsi_sglist(SC); 1548 1549 METHOD_TRACE("ips_make_passthru", 1); 1550 1551 scsi_for_each_sg(SC, sg, scsi_sg_count(SC), i) 1552 length += sg->length; 1553 1554 if (length < sizeof (ips_passthru_t)) { 1555 /* wrong size */ 1556 DEBUG_VAR(1, "(%s%d) Passthru structure wrong size", 1557 ips_name, ha->host_num); 1558 return (IPS_FAILURE); 1559 } 1560 if (ips_alloc_passthru_buffer(ha, length)) { 1561 /* allocation failure! If ha->ioctl_data exists, use it to return 1562 some error codes. Return a failed command to the scsi layer. */ 1563 if (ha->ioctl_data) { 1564 pt = (ips_passthru_t *) ha->ioctl_data; 1565 ips_scmd_buf_read(SC, pt, sizeof (ips_passthru_t)); 1566 pt->BasicStatus = 0x0B; 1567 pt->ExtendedStatus = 0x00; 1568 ips_scmd_buf_write(SC, pt, sizeof (ips_passthru_t)); 1569 } 1570 return IPS_FAILURE; 1571 } 1572 ha->ioctl_datasize = length; 1573 1574 ips_scmd_buf_read(SC, ha->ioctl_data, ha->ioctl_datasize); 1575 pt = (ips_passthru_t *) ha->ioctl_data; 1576 1577 /* 1578 * Some notes about the passthru interface used 1579 * 1580 * IF the scsi op_code == 0x0d then we assume 1581 * that the data came along with/goes with the 1582 * packet we received from the sg driver. In this 1583 * case the CmdBSize field of the pt structure is 1584 * used for the size of the buffer. 1585 */ 1586 1587 switch (pt->CoppCmd) { 1588 case IPS_NUMCTRLS: 1589 memcpy(ha->ioctl_data + sizeof (ips_passthru_t), 1590 &ips_num_controllers, sizeof (int)); 1591 ips_scmd_buf_write(SC, ha->ioctl_data, 1592 sizeof (ips_passthru_t) + sizeof (int)); 1593 SC->result = DID_OK << 16; 1594 1595 return (IPS_SUCCESS_IMM); 1596 1597 case IPS_COPPUSRCMD: 1598 case IPS_COPPIOCCMD: 1599 if (SC->cmnd[0] == IPS_IOCTL_COMMAND) { 1600 if (length < (sizeof (ips_passthru_t) + pt->CmdBSize)) { 1601 /* wrong size */ 1602 DEBUG_VAR(1, 1603 "(%s%d) Passthru structure wrong size", 1604 ips_name, ha->host_num); 1605 1606 return (IPS_FAILURE); 1607 } 1608 1609 if (ha->pcidev->device == IPS_DEVICEID_COPPERHEAD && 1610 pt->CoppCP.cmd.flashfw.op_code == 1611 IPS_CMD_RW_BIOSFW) { 1612 ret = ips_flash_copperhead(ha, pt, scb); 1613 ips_scmd_buf_write(SC, ha->ioctl_data, 1614 sizeof (ips_passthru_t)); 1615 return ret; 1616 } 1617 if (ips_usrcmd(ha, pt, scb)) 1618 return (IPS_SUCCESS); 1619 else 1620 return (IPS_FAILURE); 1621 } 1622 1623 break; 1624 1625 } /* end switch */ 1626 1627 return (IPS_FAILURE); 1628 } 1629 1630 /****************************************************************************/ 1631 /* Routine Name: ips_flash_copperhead */ 1632 /* Routine Description: */ 1633 /* Flash the BIOS/FW on a Copperhead style controller */ 1634 /****************************************************************************/ 1635 static int 1636 ips_flash_copperhead(ips_ha_t * ha, ips_passthru_t * pt, ips_scb_t * scb) 1637 { 1638 int datasize; 1639 1640 /* Trombone is the only copperhead that can do packet flash, but only 1641 * for firmware. No one said it had to make sense. */ 1642 if (IPS_IS_TROMBONE(ha) && pt->CoppCP.cmd.flashfw.type == IPS_FW_IMAGE) { 1643 if (ips_usrcmd(ha, pt, scb)) 1644 return IPS_SUCCESS; 1645 else 1646 return IPS_FAILURE; 1647 } 1648 pt->BasicStatus = 0x0B; 1649 pt->ExtendedStatus = 0; 1650 scb->scsi_cmd->result = DID_OK << 16; 1651 /* IF it's OK to Use the "CD BOOT" Flash Buffer, then you can */ 1652 /* avoid allocating a huge buffer per adapter ( which can fail ). */ 1653 if (pt->CoppCP.cmd.flashfw.type == IPS_BIOS_IMAGE && 1654 pt->CoppCP.cmd.flashfw.direction == IPS_ERASE_BIOS) { 1655 pt->BasicStatus = 0; 1656 return ips_flash_bios(ha, pt, scb); 1657 } else if (pt->CoppCP.cmd.flashfw.packet_num == 0) { 1658 if (ips_FlashData && !test_and_set_bit(0, &ips_FlashDataInUse)){ 1659 ha->flash_data = ips_FlashData; 1660 ha->flash_busaddr = ips_flashbusaddr; 1661 ha->flash_len = PAGE_SIZE << 7; 1662 ha->flash_datasize = 0; 1663 } else if (!ha->flash_data) { 1664 datasize = pt->CoppCP.cmd.flashfw.total_packets * 1665 pt->CoppCP.cmd.flashfw.count; 1666 ha->flash_data = dma_alloc_coherent(&ha->pcidev->dev, 1667 datasize, &ha->flash_busaddr, GFP_KERNEL); 1668 if (!ha->flash_data){ 1669 printk(KERN_WARNING "Unable to allocate a flash buffer\n"); 1670 return IPS_FAILURE; 1671 } 1672 ha->flash_datasize = 0; 1673 ha->flash_len = datasize; 1674 } else 1675 return IPS_FAILURE; 1676 } else { 1677 if (pt->CoppCP.cmd.flashfw.count + ha->flash_datasize > 1678 ha->flash_len) { 1679 ips_free_flash_copperhead(ha); 1680 IPS_PRINTK(KERN_WARNING, ha->pcidev, 1681 "failed size sanity check\n"); 1682 return IPS_FAILURE; 1683 } 1684 } 1685 if (!ha->flash_data) 1686 return IPS_FAILURE; 1687 pt->BasicStatus = 0; 1688 memcpy(&ha->flash_data[ha->flash_datasize], pt + 1, 1689 pt->CoppCP.cmd.flashfw.count); 1690 ha->flash_datasize += pt->CoppCP.cmd.flashfw.count; 1691 if (pt->CoppCP.cmd.flashfw.packet_num == 1692 pt->CoppCP.cmd.flashfw.total_packets - 1) { 1693 if (pt->CoppCP.cmd.flashfw.type == IPS_BIOS_IMAGE) 1694 return ips_flash_bios(ha, pt, scb); 1695 else if (pt->CoppCP.cmd.flashfw.type == IPS_FW_IMAGE) 1696 return ips_flash_firmware(ha, pt, scb); 1697 } 1698 return IPS_SUCCESS_IMM; 1699 } 1700 1701 /****************************************************************************/ 1702 /* Routine Name: ips_flash_bios */ 1703 /* Routine Description: */ 1704 /* flashes the bios of a copperhead adapter */ 1705 /****************************************************************************/ 1706 static int 1707 ips_flash_bios(ips_ha_t * ha, ips_passthru_t * pt, ips_scb_t * scb) 1708 { 1709 1710 if (pt->CoppCP.cmd.flashfw.type == IPS_BIOS_IMAGE && 1711 pt->CoppCP.cmd.flashfw.direction == IPS_WRITE_BIOS) { 1712 if ((!ha->func.programbios) || (!ha->func.erasebios) || 1713 (!ha->func.verifybios)) 1714 goto error; 1715 if ((*ha->func.erasebios) (ha)) { 1716 DEBUG_VAR(1, 1717 "(%s%d) flash bios failed - unable to erase flash", 1718 ips_name, ha->host_num); 1719 goto error; 1720 } else 1721 if ((*ha->func.programbios) (ha, 1722 ha->flash_data + 1723 IPS_BIOS_HEADER, 1724 ha->flash_datasize - 1725 IPS_BIOS_HEADER, 0)) { 1726 DEBUG_VAR(1, 1727 "(%s%d) flash bios failed - unable to flash", 1728 ips_name, ha->host_num); 1729 goto error; 1730 } else 1731 if ((*ha->func.verifybios) (ha, 1732 ha->flash_data + 1733 IPS_BIOS_HEADER, 1734 ha->flash_datasize - 1735 IPS_BIOS_HEADER, 0)) { 1736 DEBUG_VAR(1, 1737 "(%s%d) flash bios failed - unable to verify flash", 1738 ips_name, ha->host_num); 1739 goto error; 1740 } 1741 ips_free_flash_copperhead(ha); 1742 return IPS_SUCCESS_IMM; 1743 } else if (pt->CoppCP.cmd.flashfw.type == IPS_BIOS_IMAGE && 1744 pt->CoppCP.cmd.flashfw.direction == IPS_ERASE_BIOS) { 1745 if (!ha->func.erasebios) 1746 goto error; 1747 if ((*ha->func.erasebios) (ha)) { 1748 DEBUG_VAR(1, 1749 "(%s%d) flash bios failed - unable to erase flash", 1750 ips_name, ha->host_num); 1751 goto error; 1752 } 1753 return IPS_SUCCESS_IMM; 1754 } 1755 error: 1756 pt->BasicStatus = 0x0B; 1757 pt->ExtendedStatus = 0x00; 1758 ips_free_flash_copperhead(ha); 1759 return IPS_FAILURE; 1760 } 1761 1762 /****************************************************************************/ 1763 /* */ 1764 /* Routine Name: ips_fill_scb_sg_single */ 1765 /* */ 1766 /* Routine Description: */ 1767 /* Fill in a single scb sg_list element from an address */ 1768 /* return a -1 if a breakup occurred */ 1769 /****************************************************************************/ 1770 static int 1771 ips_fill_scb_sg_single(ips_ha_t * ha, dma_addr_t busaddr, 1772 ips_scb_t * scb, int indx, unsigned int e_len) 1773 { 1774 1775 int ret_val = 0; 1776 1777 if ((scb->data_len + e_len) > ha->max_xfer) { 1778 e_len = ha->max_xfer - scb->data_len; 1779 scb->breakup = indx; 1780 ++scb->sg_break; 1781 ret_val = -1; 1782 } else { 1783 scb->breakup = 0; 1784 scb->sg_break = 0; 1785 } 1786 if (IPS_USE_ENH_SGLIST(ha)) { 1787 scb->sg_list.enh_list[indx].address_lo = 1788 cpu_to_le32(lower_32_bits(busaddr)); 1789 scb->sg_list.enh_list[indx].address_hi = 1790 cpu_to_le32(upper_32_bits(busaddr)); 1791 scb->sg_list.enh_list[indx].length = cpu_to_le32(e_len); 1792 } else { 1793 scb->sg_list.std_list[indx].address = 1794 cpu_to_le32(lower_32_bits(busaddr)); 1795 scb->sg_list.std_list[indx].length = cpu_to_le32(e_len); 1796 } 1797 1798 ++scb->sg_len; 1799 scb->data_len += e_len; 1800 return ret_val; 1801 } 1802 1803 /****************************************************************************/ 1804 /* Routine Name: ips_flash_firmware */ 1805 /* Routine Description: */ 1806 /* flashes the firmware of a copperhead adapter */ 1807 /****************************************************************************/ 1808 static int 1809 ips_flash_firmware(ips_ha_t * ha, ips_passthru_t * pt, ips_scb_t * scb) 1810 { 1811 IPS_SG_LIST sg_list; 1812 uint32_t cmd_busaddr; 1813 1814 if (pt->CoppCP.cmd.flashfw.type == IPS_FW_IMAGE && 1815 pt->CoppCP.cmd.flashfw.direction == IPS_WRITE_FW) { 1816 memset(&pt->CoppCP.cmd, 0, sizeof (IPS_HOST_COMMAND)); 1817 pt->CoppCP.cmd.flashfw.op_code = IPS_CMD_DOWNLOAD; 1818 pt->CoppCP.cmd.flashfw.count = cpu_to_le32(ha->flash_datasize); 1819 } else { 1820 pt->BasicStatus = 0x0B; 1821 pt->ExtendedStatus = 0x00; 1822 ips_free_flash_copperhead(ha); 1823 return IPS_FAILURE; 1824 } 1825 /* Save the S/G list pointer so it doesn't get clobbered */ 1826 sg_list.list = scb->sg_list.list; 1827 cmd_busaddr = scb->scb_busaddr; 1828 /* copy in the CP */ 1829 memcpy(&scb->cmd, &pt->CoppCP.cmd, sizeof (IPS_IOCTL_CMD)); 1830 /* FIX stuff that might be wrong */ 1831 scb->sg_list.list = sg_list.list; 1832 scb->scb_busaddr = cmd_busaddr; 1833 scb->bus = scb->scsi_cmd->device->channel; 1834 scb->target_id = scb->scsi_cmd->device->id; 1835 scb->lun = scb->scsi_cmd->device->lun; 1836 scb->sg_len = 0; 1837 scb->data_len = 0; 1838 scb->flags = 0; 1839 scb->op_code = 0; 1840 scb->callback = ipsintr_done; 1841 scb->timeout = ips_cmd_timeout; 1842 1843 scb->data_len = ha->flash_datasize; 1844 scb->data_busaddr = 1845 dma_map_single(&ha->pcidev->dev, ha->flash_data, scb->data_len, 1846 IPS_DMA_DIR(scb)); 1847 scb->flags |= IPS_SCB_MAP_SINGLE; 1848 scb->cmd.flashfw.command_id = IPS_COMMAND_ID(ha, scb); 1849 scb->cmd.flashfw.buffer_addr = cpu_to_le32(scb->data_busaddr); 1850 if (pt->TimeOut) 1851 scb->timeout = pt->TimeOut; 1852 scb->scsi_cmd->result = DID_OK << 16; 1853 return IPS_SUCCESS; 1854 } 1855 1856 /****************************************************************************/ 1857 /* Routine Name: ips_free_flash_copperhead */ 1858 /* Routine Description: */ 1859 /* release the memory resources used to hold the flash image */ 1860 /****************************************************************************/ 1861 static void 1862 ips_free_flash_copperhead(ips_ha_t * ha) 1863 { 1864 if (ha->flash_data == ips_FlashData) 1865 test_and_clear_bit(0, &ips_FlashDataInUse); 1866 else if (ha->flash_data) 1867 dma_free_coherent(&ha->pcidev->dev, ha->flash_len, 1868 ha->flash_data, ha->flash_busaddr); 1869 ha->flash_data = NULL; 1870 } 1871 1872 /****************************************************************************/ 1873 /* */ 1874 /* Routine Name: ips_usrcmd */ 1875 /* */ 1876 /* Routine Description: */ 1877 /* */ 1878 /* Process a user command and make it ready to send */ 1879 /* */ 1880 /****************************************************************************/ 1881 static int 1882 ips_usrcmd(ips_ha_t * ha, ips_passthru_t * pt, ips_scb_t * scb) 1883 { 1884 IPS_SG_LIST sg_list; 1885 uint32_t cmd_busaddr; 1886 1887 METHOD_TRACE("ips_usrcmd", 1); 1888 1889 if ((!scb) || (!pt) || (!ha)) 1890 return (0); 1891 1892 /* Save the S/G list pointer so it doesn't get clobbered */ 1893 sg_list.list = scb->sg_list.list; 1894 cmd_busaddr = scb->scb_busaddr; 1895 /* copy in the CP */ 1896 memcpy(&scb->cmd, &pt->CoppCP.cmd, sizeof (IPS_IOCTL_CMD)); 1897 memcpy(&scb->dcdb, &pt->CoppCP.dcdb, sizeof (IPS_DCDB_TABLE)); 1898 1899 /* FIX stuff that might be wrong */ 1900 scb->sg_list.list = sg_list.list; 1901 scb->scb_busaddr = cmd_busaddr; 1902 scb->bus = scb->scsi_cmd->device->channel; 1903 scb->target_id = scb->scsi_cmd->device->id; 1904 scb->lun = scb->scsi_cmd->device->lun; 1905 scb->sg_len = 0; 1906 scb->data_len = 0; 1907 scb->flags = 0; 1908 scb->op_code = 0; 1909 scb->callback = ipsintr_done; 1910 scb->timeout = ips_cmd_timeout; 1911 scb->cmd.basic_io.command_id = IPS_COMMAND_ID(ha, scb); 1912 1913 /* we don't support DCDB/READ/WRITE Scatter Gather */ 1914 if ((scb->cmd.basic_io.op_code == IPS_CMD_READ_SG) || 1915 (scb->cmd.basic_io.op_code == IPS_CMD_WRITE_SG) || 1916 (scb->cmd.basic_io.op_code == IPS_CMD_DCDB_SG)) 1917 return (0); 1918 1919 if (pt->CmdBSize) { 1920 scb->data_len = pt->CmdBSize; 1921 scb->data_busaddr = ha->ioctl_busaddr + sizeof (ips_passthru_t); 1922 } else { 1923 scb->data_busaddr = 0L; 1924 } 1925 1926 if (scb->cmd.dcdb.op_code == IPS_CMD_DCDB) 1927 scb->cmd.dcdb.dcdb_address = cpu_to_le32(scb->scb_busaddr + 1928 (unsigned long) &scb-> 1929 dcdb - 1930 (unsigned long) scb); 1931 1932 if (pt->CmdBSize) { 1933 if (scb->cmd.dcdb.op_code == IPS_CMD_DCDB) 1934 scb->dcdb.buffer_pointer = 1935 cpu_to_le32(scb->data_busaddr); 1936 else 1937 scb->cmd.basic_io.sg_addr = 1938 cpu_to_le32(scb->data_busaddr); 1939 } 1940 1941 /* set timeouts */ 1942 if (pt->TimeOut) { 1943 scb->timeout = pt->TimeOut; 1944 1945 if (pt->TimeOut <= 10) 1946 scb->dcdb.cmd_attribute |= IPS_TIMEOUT10; 1947 else if (pt->TimeOut <= 60) 1948 scb->dcdb.cmd_attribute |= IPS_TIMEOUT60; 1949 else 1950 scb->dcdb.cmd_attribute |= IPS_TIMEOUT20M; 1951 } 1952 1953 /* assume success */ 1954 scb->scsi_cmd->result = DID_OK << 16; 1955 1956 /* success */ 1957 return (1); 1958 } 1959 1960 /****************************************************************************/ 1961 /* */ 1962 /* Routine Name: ips_cleanup_passthru */ 1963 /* */ 1964 /* Routine Description: */ 1965 /* */ 1966 /* Cleanup after a passthru command */ 1967 /* */ 1968 /****************************************************************************/ 1969 static void 1970 ips_cleanup_passthru(ips_ha_t * ha, ips_scb_t * scb) 1971 { 1972 ips_passthru_t *pt; 1973 1974 METHOD_TRACE("ips_cleanup_passthru", 1); 1975 1976 if ((!scb) || (!scb->scsi_cmd) || (!scsi_sglist(scb->scsi_cmd))) { 1977 DEBUG_VAR(1, "(%s%d) couldn't cleanup after passthru", 1978 ips_name, ha->host_num); 1979 1980 return; 1981 } 1982 pt = (ips_passthru_t *) ha->ioctl_data; 1983 1984 /* Copy data back to the user */ 1985 if (scb->cmd.dcdb.op_code == IPS_CMD_DCDB) /* Copy DCDB Back to Caller's Area */ 1986 memcpy(&pt->CoppCP.dcdb, &scb->dcdb, sizeof (IPS_DCDB_TABLE)); 1987 1988 pt->BasicStatus = scb->basic_status; 1989 pt->ExtendedStatus = scb->extended_status; 1990 pt->AdapterType = ha->ad_type; 1991 1992 if (ha->pcidev->device == IPS_DEVICEID_COPPERHEAD && 1993 (scb->cmd.flashfw.op_code == IPS_CMD_DOWNLOAD || 1994 scb->cmd.flashfw.op_code == IPS_CMD_RW_BIOSFW)) 1995 ips_free_flash_copperhead(ha); 1996 1997 ips_scmd_buf_write(scb->scsi_cmd, ha->ioctl_data, ha->ioctl_datasize); 1998 } 1999 2000 /****************************************************************************/ 2001 /* */ 2002 /* Routine Name: ips_host_info */ 2003 /* */ 2004 /* Routine Description: */ 2005 /* */ 2006 /* The passthru interface for the driver */ 2007 /* */ 2008 /****************************************************************************/ 2009 static int 2010 ips_host_info(ips_ha_t *ha, struct seq_file *m) 2011 { 2012 METHOD_TRACE("ips_host_info", 1); 2013 2014 seq_puts(m, "\nIBM ServeRAID General Information:\n\n"); 2015 2016 if ((le32_to_cpu(ha->nvram->signature) == IPS_NVRAM_P5_SIG) && 2017 (le16_to_cpu(ha->nvram->adapter_type) != 0)) 2018 seq_printf(m, "\tController Type : %s\n", 2019 ips_adapter_name[ha->ad_type - 1]); 2020 else 2021 seq_puts(m, "\tController Type : Unknown\n"); 2022 2023 if (ha->io_addr) 2024 seq_printf(m, 2025 "\tIO region : 0x%x (%d bytes)\n", 2026 ha->io_addr, ha->io_len); 2027 2028 if (ha->mem_addr) { 2029 seq_printf(m, 2030 "\tMemory region : 0x%x (%d bytes)\n", 2031 ha->mem_addr, ha->mem_len); 2032 seq_printf(m, 2033 "\tShared memory address : 0x%lx\n", 2034 (unsigned long)ha->mem_ptr); 2035 } 2036 2037 seq_printf(m, "\tIRQ number : %d\n", ha->pcidev->irq); 2038 2039 /* For the Next 3 lines Check for Binary 0 at the end and don't include it if it's there. */ 2040 /* That keeps everything happy for "text" operations on the proc file. */ 2041 2042 if (le32_to_cpu(ha->nvram->signature) == IPS_NVRAM_P5_SIG) { 2043 if (ha->nvram->bios_low[3] == 0) { 2044 seq_printf(m, 2045 "\tBIOS Version : %c%c%c%c%c%c%c\n", 2046 ha->nvram->bios_high[0], ha->nvram->bios_high[1], 2047 ha->nvram->bios_high[2], ha->nvram->bios_high[3], 2048 ha->nvram->bios_low[0], ha->nvram->bios_low[1], 2049 ha->nvram->bios_low[2]); 2050 2051 } else { 2052 seq_printf(m, 2053 "\tBIOS Version : %c%c%c%c%c%c%c%c\n", 2054 ha->nvram->bios_high[0], ha->nvram->bios_high[1], 2055 ha->nvram->bios_high[2], ha->nvram->bios_high[3], 2056 ha->nvram->bios_low[0], ha->nvram->bios_low[1], 2057 ha->nvram->bios_low[2], ha->nvram->bios_low[3]); 2058 } 2059 2060 } 2061 2062 if (ha->enq->CodeBlkVersion[7] == 0) { 2063 seq_printf(m, 2064 "\tFirmware Version : %c%c%c%c%c%c%c\n", 2065 ha->enq->CodeBlkVersion[0], ha->enq->CodeBlkVersion[1], 2066 ha->enq->CodeBlkVersion[2], ha->enq->CodeBlkVersion[3], 2067 ha->enq->CodeBlkVersion[4], ha->enq->CodeBlkVersion[5], 2068 ha->enq->CodeBlkVersion[6]); 2069 } else { 2070 seq_printf(m, 2071 "\tFirmware Version : %c%c%c%c%c%c%c%c\n", 2072 ha->enq->CodeBlkVersion[0], ha->enq->CodeBlkVersion[1], 2073 ha->enq->CodeBlkVersion[2], ha->enq->CodeBlkVersion[3], 2074 ha->enq->CodeBlkVersion[4], ha->enq->CodeBlkVersion[5], 2075 ha->enq->CodeBlkVersion[6], ha->enq->CodeBlkVersion[7]); 2076 } 2077 2078 if (ha->enq->BootBlkVersion[7] == 0) { 2079 seq_printf(m, 2080 "\tBoot Block Version : %c%c%c%c%c%c%c\n", 2081 ha->enq->BootBlkVersion[0], ha->enq->BootBlkVersion[1], 2082 ha->enq->BootBlkVersion[2], ha->enq->BootBlkVersion[3], 2083 ha->enq->BootBlkVersion[4], ha->enq->BootBlkVersion[5], 2084 ha->enq->BootBlkVersion[6]); 2085 } else { 2086 seq_printf(m, 2087 "\tBoot Block Version : %c%c%c%c%c%c%c%c\n", 2088 ha->enq->BootBlkVersion[0], ha->enq->BootBlkVersion[1], 2089 ha->enq->BootBlkVersion[2], ha->enq->BootBlkVersion[3], 2090 ha->enq->BootBlkVersion[4], ha->enq->BootBlkVersion[5], 2091 ha->enq->BootBlkVersion[6], ha->enq->BootBlkVersion[7]); 2092 } 2093 2094 seq_printf(m, "\tDriver Version : %s%s\n", 2095 IPS_VERSION_HIGH, IPS_VERSION_LOW); 2096 2097 seq_printf(m, "\tDriver Build : %d\n", 2098 IPS_BUILD_IDENT); 2099 2100 seq_printf(m, "\tMax Physical Devices : %d\n", 2101 ha->enq->ucMaxPhysicalDevices); 2102 seq_printf(m, "\tMax Active Commands : %d\n", 2103 ha->max_cmds); 2104 seq_printf(m, "\tCurrent Queued Commands : %d\n", 2105 ha->scb_waitlist.count); 2106 seq_printf(m, "\tCurrent Active Commands : %d\n", 2107 ha->scb_activelist.count - ha->num_ioctl); 2108 seq_printf(m, "\tCurrent Queued PT Commands : %d\n", 2109 ha->copp_waitlist.count); 2110 seq_printf(m, "\tCurrent Active PT Commands : %d\n", 2111 ha->num_ioctl); 2112 2113 seq_putc(m, '\n'); 2114 2115 return 0; 2116 } 2117 2118 /****************************************************************************/ 2119 /* */ 2120 /* Routine Name: ips_identify_controller */ 2121 /* */ 2122 /* Routine Description: */ 2123 /* */ 2124 /* Identify this controller */ 2125 /* */ 2126 /****************************************************************************/ 2127 static void 2128 ips_identify_controller(ips_ha_t * ha) 2129 { 2130 METHOD_TRACE("ips_identify_controller", 1); 2131 2132 switch (ha->pcidev->device) { 2133 case IPS_DEVICEID_COPPERHEAD: 2134 if (ha->pcidev->revision <= IPS_REVID_SERVERAID) { 2135 ha->ad_type = IPS_ADTYPE_SERVERAID; 2136 } else if (ha->pcidev->revision == IPS_REVID_SERVERAID2) { 2137 ha->ad_type = IPS_ADTYPE_SERVERAID2; 2138 } else if (ha->pcidev->revision == IPS_REVID_NAVAJO) { 2139 ha->ad_type = IPS_ADTYPE_NAVAJO; 2140 } else if ((ha->pcidev->revision == IPS_REVID_SERVERAID2) 2141 && (ha->slot_num == 0)) { 2142 ha->ad_type = IPS_ADTYPE_KIOWA; 2143 } else if ((ha->pcidev->revision >= IPS_REVID_CLARINETP1) && 2144 (ha->pcidev->revision <= IPS_REVID_CLARINETP3)) { 2145 if (ha->enq->ucMaxPhysicalDevices == 15) 2146 ha->ad_type = IPS_ADTYPE_SERVERAID3L; 2147 else 2148 ha->ad_type = IPS_ADTYPE_SERVERAID3; 2149 } else if ((ha->pcidev->revision >= IPS_REVID_TROMBONE32) && 2150 (ha->pcidev->revision <= IPS_REVID_TROMBONE64)) { 2151 ha->ad_type = IPS_ADTYPE_SERVERAID4H; 2152 } 2153 break; 2154 2155 case IPS_DEVICEID_MORPHEUS: 2156 switch (ha->pcidev->subsystem_device) { 2157 case IPS_SUBDEVICEID_4L: 2158 ha->ad_type = IPS_ADTYPE_SERVERAID4L; 2159 break; 2160 2161 case IPS_SUBDEVICEID_4M: 2162 ha->ad_type = IPS_ADTYPE_SERVERAID4M; 2163 break; 2164 2165 case IPS_SUBDEVICEID_4MX: 2166 ha->ad_type = IPS_ADTYPE_SERVERAID4MX; 2167 break; 2168 2169 case IPS_SUBDEVICEID_4LX: 2170 ha->ad_type = IPS_ADTYPE_SERVERAID4LX; 2171 break; 2172 2173 case IPS_SUBDEVICEID_5I2: 2174 ha->ad_type = IPS_ADTYPE_SERVERAID5I2; 2175 break; 2176 2177 case IPS_SUBDEVICEID_5I1: 2178 ha->ad_type = IPS_ADTYPE_SERVERAID5I1; 2179 break; 2180 } 2181 2182 break; 2183 2184 case IPS_DEVICEID_MARCO: 2185 switch (ha->pcidev->subsystem_device) { 2186 case IPS_SUBDEVICEID_6M: 2187 ha->ad_type = IPS_ADTYPE_SERVERAID6M; 2188 break; 2189 case IPS_SUBDEVICEID_6I: 2190 ha->ad_type = IPS_ADTYPE_SERVERAID6I; 2191 break; 2192 case IPS_SUBDEVICEID_7k: 2193 ha->ad_type = IPS_ADTYPE_SERVERAID7k; 2194 break; 2195 case IPS_SUBDEVICEID_7M: 2196 ha->ad_type = IPS_ADTYPE_SERVERAID7M; 2197 break; 2198 } 2199 break; 2200 } 2201 } 2202 2203 /****************************************************************************/ 2204 /* */ 2205 /* Routine Name: ips_get_bios_version */ 2206 /* */ 2207 /* Routine Description: */ 2208 /* */ 2209 /* Get the BIOS revision number */ 2210 /* */ 2211 /****************************************************************************/ 2212 static void 2213 ips_get_bios_version(ips_ha_t * ha, int intr) 2214 { 2215 ips_scb_t *scb; 2216 int ret; 2217 uint8_t major; 2218 uint8_t minor; 2219 uint8_t subminor; 2220 uint8_t *buffer; 2221 2222 METHOD_TRACE("ips_get_bios_version", 1); 2223 2224 major = 0; 2225 minor = 0; 2226 2227 memcpy(ha->bios_version, " ?", 8); 2228 2229 if (ha->pcidev->device == IPS_DEVICEID_COPPERHEAD) { 2230 if (IPS_USE_MEMIO(ha)) { 2231 /* Memory Mapped I/O */ 2232 2233 /* test 1st byte */ 2234 writel(0, ha->mem_ptr + IPS_REG_FLAP); 2235 if (ha->pcidev->revision == IPS_REVID_TROMBONE64) 2236 udelay(25); /* 25 us */ 2237 2238 if (readb(ha->mem_ptr + IPS_REG_FLDP) != 0x55) 2239 return; 2240 2241 writel(1, ha->mem_ptr + IPS_REG_FLAP); 2242 if (ha->pcidev->revision == IPS_REVID_TROMBONE64) 2243 udelay(25); /* 25 us */ 2244 2245 if (readb(ha->mem_ptr + IPS_REG_FLDP) != 0xAA) 2246 return; 2247 2248 /* Get Major version */ 2249 writel(0x1FF, ha->mem_ptr + IPS_REG_FLAP); 2250 if (ha->pcidev->revision == IPS_REVID_TROMBONE64) 2251 udelay(25); /* 25 us */ 2252 2253 major = readb(ha->mem_ptr + IPS_REG_FLDP); 2254 2255 /* Get Minor version */ 2256 writel(0x1FE, ha->mem_ptr + IPS_REG_FLAP); 2257 if (ha->pcidev->revision == IPS_REVID_TROMBONE64) 2258 udelay(25); /* 25 us */ 2259 minor = readb(ha->mem_ptr + IPS_REG_FLDP); 2260 2261 /* Get SubMinor version */ 2262 writel(0x1FD, ha->mem_ptr + IPS_REG_FLAP); 2263 if (ha->pcidev->revision == IPS_REVID_TROMBONE64) 2264 udelay(25); /* 25 us */ 2265 subminor = readb(ha->mem_ptr + IPS_REG_FLDP); 2266 2267 } else { 2268 /* Programmed I/O */ 2269 2270 /* test 1st byte */ 2271 outl(0, ha->io_addr + IPS_REG_FLAP); 2272 if (ha->pcidev->revision == IPS_REVID_TROMBONE64) 2273 udelay(25); /* 25 us */ 2274 2275 if (inb(ha->io_addr + IPS_REG_FLDP) != 0x55) 2276 return; 2277 2278 outl(1, ha->io_addr + IPS_REG_FLAP); 2279 if (ha->pcidev->revision == IPS_REVID_TROMBONE64) 2280 udelay(25); /* 25 us */ 2281 2282 if (inb(ha->io_addr + IPS_REG_FLDP) != 0xAA) 2283 return; 2284 2285 /* Get Major version */ 2286 outl(0x1FF, ha->io_addr + IPS_REG_FLAP); 2287 if (ha->pcidev->revision == IPS_REVID_TROMBONE64) 2288 udelay(25); /* 25 us */ 2289 2290 major = inb(ha->io_addr + IPS_REG_FLDP); 2291 2292 /* Get Minor version */ 2293 outl(0x1FE, ha->io_addr + IPS_REG_FLAP); 2294 if (ha->pcidev->revision == IPS_REVID_TROMBONE64) 2295 udelay(25); /* 25 us */ 2296 2297 minor = inb(ha->io_addr + IPS_REG_FLDP); 2298 2299 /* Get SubMinor version */ 2300 outl(0x1FD, ha->io_addr + IPS_REG_FLAP); 2301 if (ha->pcidev->revision == IPS_REVID_TROMBONE64) 2302 udelay(25); /* 25 us */ 2303 2304 subminor = inb(ha->io_addr + IPS_REG_FLDP); 2305 2306 } 2307 } else { 2308 /* Morpheus Family - Send Command to the card */ 2309 2310 buffer = ha->ioctl_data; 2311 2312 memset(buffer, 0, 0x1000); 2313 2314 scb = &ha->scbs[ha->max_cmds - 1]; 2315 2316 ips_init_scb(ha, scb); 2317 2318 scb->timeout = ips_cmd_timeout; 2319 scb->cdb[0] = IPS_CMD_RW_BIOSFW; 2320 2321 scb->cmd.flashfw.op_code = IPS_CMD_RW_BIOSFW; 2322 scb->cmd.flashfw.command_id = IPS_COMMAND_ID(ha, scb); 2323 scb->cmd.flashfw.type = 1; 2324 scb->cmd.flashfw.direction = 0; 2325 scb->cmd.flashfw.count = cpu_to_le32(0x800); 2326 scb->cmd.flashfw.total_packets = 1; 2327 scb->cmd.flashfw.packet_num = 0; 2328 scb->data_len = 0x1000; 2329 scb->cmd.flashfw.buffer_addr = ha->ioctl_busaddr; 2330 2331 /* issue the command */ 2332 if (((ret = 2333 ips_send_wait(ha, scb, ips_cmd_timeout, 2334 intr)) == IPS_FAILURE) 2335 || (ret == IPS_SUCCESS_IMM) 2336 || ((scb->basic_status & IPS_GSC_STATUS_MASK) > 1)) { 2337 /* Error occurred */ 2338 2339 return; 2340 } 2341 2342 if ((buffer[0xC0] == 0x55) && (buffer[0xC1] == 0xAA)) { 2343 major = buffer[0x1ff + 0xC0]; /* Offset 0x1ff after the header (0xc0) */ 2344 minor = buffer[0x1fe + 0xC0]; /* Offset 0x1fe after the header (0xc0) */ 2345 subminor = buffer[0x1fd + 0xC0]; /* Offset 0x1fd after the header (0xc0) */ 2346 } else { 2347 return; 2348 } 2349 } 2350 2351 ha->bios_version[0] = hex_asc_upper_hi(major); 2352 ha->bios_version[1] = '.'; 2353 ha->bios_version[2] = hex_asc_upper_lo(major); 2354 ha->bios_version[3] = hex_asc_upper_lo(subminor); 2355 ha->bios_version[4] = '.'; 2356 ha->bios_version[5] = hex_asc_upper_hi(minor); 2357 ha->bios_version[6] = hex_asc_upper_lo(minor); 2358 ha->bios_version[7] = 0; 2359 } 2360 2361 /****************************************************************************/ 2362 /* */ 2363 /* Routine Name: ips_hainit */ 2364 /* */ 2365 /* Routine Description: */ 2366 /* */ 2367 /* Initialize the controller */ 2368 /* */ 2369 /* NOTE: Assumes to be called from with a lock */ 2370 /* */ 2371 /****************************************************************************/ 2372 static int 2373 ips_hainit(ips_ha_t * ha) 2374 { 2375 int i; 2376 2377 METHOD_TRACE("ips_hainit", 1); 2378 2379 if (!ha) 2380 return (0); 2381 2382 if (ha->func.statinit) 2383 (*ha->func.statinit) (ha); 2384 2385 if (ha->func.enableint) 2386 (*ha->func.enableint) (ha); 2387 2388 /* Send FFDC */ 2389 ha->reset_count = 1; 2390 ha->last_ffdc = ktime_get_real_seconds(); 2391 ips_ffdc_reset(ha, IPS_INTR_IORL); 2392 2393 if (!ips_read_config(ha, IPS_INTR_IORL)) { 2394 IPS_PRINTK(KERN_WARNING, ha->pcidev, 2395 "unable to read config from controller.\n"); 2396 2397 return (0); 2398 } 2399 /* end if */ 2400 if (!ips_read_adapter_status(ha, IPS_INTR_IORL)) { 2401 IPS_PRINTK(KERN_WARNING, ha->pcidev, 2402 "unable to read controller status.\n"); 2403 2404 return (0); 2405 } 2406 2407 /* Identify this controller */ 2408 ips_identify_controller(ha); 2409 2410 if (!ips_read_subsystem_parameters(ha, IPS_INTR_IORL)) { 2411 IPS_PRINTK(KERN_WARNING, ha->pcidev, 2412 "unable to read subsystem parameters.\n"); 2413 2414 return (0); 2415 } 2416 2417 /* write nvram user page 5 */ 2418 if (!ips_write_driver_status(ha, IPS_INTR_IORL)) { 2419 IPS_PRINTK(KERN_WARNING, ha->pcidev, 2420 "unable to write driver info to controller.\n"); 2421 2422 return (0); 2423 } 2424 2425 /* If there are Logical Drives and a Reset Occurred, then an EraseStripeLock is Needed */ 2426 if ((ha->conf->ucLogDriveCount > 0) && (ha->requires_esl == 1)) 2427 ips_clear_adapter(ha, IPS_INTR_IORL); 2428 2429 /* set limits on SID, LUN, BUS */ 2430 ha->ntargets = IPS_MAX_TARGETS + 1; 2431 ha->nlun = 1; 2432 ha->nbus = (ha->enq->ucMaxPhysicalDevices / IPS_MAX_TARGETS) + 1; 2433 2434 switch (ha->conf->logical_drive[0].ucStripeSize) { 2435 case 4: 2436 ha->max_xfer = 0x10000; 2437 break; 2438 2439 case 5: 2440 ha->max_xfer = 0x20000; 2441 break; 2442 2443 case 6: 2444 ha->max_xfer = 0x40000; 2445 break; 2446 2447 case 7: 2448 default: 2449 ha->max_xfer = 0x80000; 2450 break; 2451 } 2452 2453 /* setup max concurrent commands */ 2454 if (le32_to_cpu(ha->subsys->param[4]) & 0x1) { 2455 /* Use the new method */ 2456 ha->max_cmds = ha->enq->ucConcurrentCmdCount; 2457 } else { 2458 /* use the old method */ 2459 switch (ha->conf->logical_drive[0].ucStripeSize) { 2460 case 4: 2461 ha->max_cmds = 32; 2462 break; 2463 2464 case 5: 2465 ha->max_cmds = 16; 2466 break; 2467 2468 case 6: 2469 ha->max_cmds = 8; 2470 break; 2471 2472 case 7: 2473 default: 2474 ha->max_cmds = 4; 2475 break; 2476 } 2477 } 2478 2479 /* Limit the Active Commands on a Lite Adapter */ 2480 if ((ha->ad_type == IPS_ADTYPE_SERVERAID3L) || 2481 (ha->ad_type == IPS_ADTYPE_SERVERAID4L) || 2482 (ha->ad_type == IPS_ADTYPE_SERVERAID4LX)) { 2483 if ((ha->max_cmds > MaxLiteCmds) && (MaxLiteCmds)) 2484 ha->max_cmds = MaxLiteCmds; 2485 } 2486 2487 /* set controller IDs */ 2488 ha->ha_id[0] = IPS_ADAPTER_ID; 2489 for (i = 1; i < ha->nbus; i++) { 2490 ha->ha_id[i] = ha->conf->init_id[i - 1] & 0x1f; 2491 ha->dcdb_active[i - 1] = 0; 2492 } 2493 2494 return (1); 2495 } 2496 2497 /****************************************************************************/ 2498 /* */ 2499 /* Routine Name: ips_next */ 2500 /* */ 2501 /* Routine Description: */ 2502 /* */ 2503 /* Take the next command off the queue and send it to the controller */ 2504 /* */ 2505 /****************************************************************************/ 2506 static void 2507 ips_next(ips_ha_t * ha, int intr) 2508 { 2509 ips_scb_t *scb; 2510 struct scsi_cmnd *SC; 2511 struct scsi_cmnd *p; 2512 struct scsi_cmnd *q; 2513 ips_copp_wait_item_t *item; 2514 int ret; 2515 struct Scsi_Host *host; 2516 METHOD_TRACE("ips_next", 1); 2517 2518 if (!ha) 2519 return; 2520 host = ips_sh[ha->host_num]; 2521 /* 2522 * Block access to the queue function so 2523 * this command won't time out 2524 */ 2525 if (intr == IPS_INTR_ON) 2526 spin_lock(host->host_lock); 2527 2528 if ((ha->subsys->param[3] & 0x300000) 2529 && (ha->scb_activelist.count == 0)) { 2530 time64_t now = ktime_get_real_seconds(); 2531 if (now - ha->last_ffdc > IPS_SECS_8HOURS) { 2532 ha->last_ffdc = now; 2533 ips_ffdc_time(ha); 2534 } 2535 } 2536 2537 /* 2538 * Send passthru commands 2539 * These have priority over normal I/O 2540 * but shouldn't affect performance too much 2541 * since we limit the number that can be active 2542 * on the card at any one time 2543 */ 2544 while ((ha->num_ioctl < IPS_MAX_IOCTL) && 2545 (ha->copp_waitlist.head) && (scb = ips_getscb(ha))) { 2546 2547 item = ips_removeq_copp_head(&ha->copp_waitlist); 2548 ha->num_ioctl++; 2549 if (intr == IPS_INTR_ON) 2550 spin_unlock(host->host_lock); 2551 scb->scsi_cmd = item->scsi_cmd; 2552 kfree(item); 2553 2554 ret = ips_make_passthru(ha, scb->scsi_cmd, scb, intr); 2555 2556 if (intr == IPS_INTR_ON) 2557 spin_lock(host->host_lock); 2558 switch (ret) { 2559 case IPS_FAILURE: 2560 if (scb->scsi_cmd) { 2561 scb->scsi_cmd->result = DID_ERROR << 16; 2562 scsi_done(scb->scsi_cmd); 2563 } 2564 2565 ips_freescb(ha, scb); 2566 break; 2567 case IPS_SUCCESS_IMM: 2568 if (scb->scsi_cmd) { 2569 scb->scsi_cmd->result = DID_OK << 16; 2570 scsi_done(scb->scsi_cmd); 2571 } 2572 2573 ips_freescb(ha, scb); 2574 break; 2575 default: 2576 break; 2577 } /* end case */ 2578 2579 if (ret != IPS_SUCCESS) { 2580 ha->num_ioctl--; 2581 continue; 2582 } 2583 2584 ret = ips_send_cmd(ha, scb); 2585 2586 if (ret == IPS_SUCCESS) 2587 ips_putq_scb_head(&ha->scb_activelist, scb); 2588 else 2589 ha->num_ioctl--; 2590 2591 switch (ret) { 2592 case IPS_FAILURE: 2593 if (scb->scsi_cmd) { 2594 scb->scsi_cmd->result = DID_ERROR << 16; 2595 } 2596 2597 ips_freescb(ha, scb); 2598 break; 2599 case IPS_SUCCESS_IMM: 2600 ips_freescb(ha, scb); 2601 break; 2602 default: 2603 break; 2604 } /* end case */ 2605 2606 } 2607 2608 /* 2609 * Send "Normal" I/O commands 2610 */ 2611 2612 p = ha->scb_waitlist.head; 2613 while ((p) && (scb = ips_getscb(ha))) { 2614 if ((scmd_channel(p) > 0) 2615 && (ha-> 2616 dcdb_active[scmd_channel(p) - 2617 1] & (1 << scmd_id(p)))) { 2618 ips_freescb(ha, scb); 2619 p = (struct scsi_cmnd *) p->host_scribble; 2620 continue; 2621 } 2622 2623 q = p; 2624 SC = ips_removeq_wait(&ha->scb_waitlist, q); 2625 2626 if (intr == IPS_INTR_ON) 2627 spin_unlock(host->host_lock); /* Unlock HA after command is taken off queue */ 2628 2629 SC->result = DID_OK; 2630 SC->host_scribble = NULL; 2631 2632 scb->target_id = SC->device->id; 2633 scb->lun = SC->device->lun; 2634 scb->bus = SC->device->channel; 2635 scb->scsi_cmd = SC; 2636 scb->breakup = 0; 2637 scb->data_len = 0; 2638 scb->callback = ipsintr_done; 2639 scb->timeout = ips_cmd_timeout; 2640 memset(&scb->cmd, 0, 16); 2641 2642 /* copy in the CDB */ 2643 memcpy(scb->cdb, SC->cmnd, SC->cmd_len); 2644 2645 scb->sg_count = scsi_dma_map(SC); 2646 BUG_ON(scb->sg_count < 0); 2647 if (scb->sg_count) { 2648 struct scatterlist *sg; 2649 int i; 2650 2651 scb->flags |= IPS_SCB_MAP_SG; 2652 2653 scsi_for_each_sg(SC, sg, scb->sg_count, i) { 2654 if (ips_fill_scb_sg_single 2655 (ha, sg_dma_address(sg), scb, i, 2656 sg_dma_len(sg)) < 0) 2657 break; 2658 } 2659 scb->dcdb.transfer_length = scb->data_len; 2660 } else { 2661 scb->data_busaddr = 0L; 2662 scb->sg_len = 0; 2663 scb->data_len = 0; 2664 scb->dcdb.transfer_length = 0; 2665 } 2666 2667 scb->dcdb.cmd_attribute = 2668 ips_command_direction[scb->scsi_cmd->cmnd[0]]; 2669 2670 /* Allow a WRITE BUFFER Command to Have no Data */ 2671 /* This is Used by Tape Flash Utilites */ 2672 if ((scb->scsi_cmd->cmnd[0] == WRITE_BUFFER) && 2673 (scb->data_len == 0)) 2674 scb->dcdb.cmd_attribute = 0; 2675 2676 if (!(scb->dcdb.cmd_attribute & 0x3)) 2677 scb->dcdb.transfer_length = 0; 2678 2679 if (scb->data_len >= IPS_MAX_XFER) { 2680 scb->dcdb.cmd_attribute |= IPS_TRANSFER64K; 2681 scb->dcdb.transfer_length = 0; 2682 } 2683 if (intr == IPS_INTR_ON) 2684 spin_lock(host->host_lock); 2685 2686 ret = ips_send_cmd(ha, scb); 2687 2688 switch (ret) { 2689 case IPS_SUCCESS: 2690 ips_putq_scb_head(&ha->scb_activelist, scb); 2691 break; 2692 case IPS_FAILURE: 2693 if (scb->scsi_cmd) { 2694 scb->scsi_cmd->result = DID_ERROR << 16; 2695 scsi_done(scb->scsi_cmd); 2696 } 2697 2698 if (scb->bus) 2699 ha->dcdb_active[scb->bus - 1] &= 2700 ~(1 << scb->target_id); 2701 2702 ips_freescb(ha, scb); 2703 break; 2704 case IPS_SUCCESS_IMM: 2705 if (scb->scsi_cmd) 2706 scsi_done(scb->scsi_cmd); 2707 2708 if (scb->bus) 2709 ha->dcdb_active[scb->bus - 1] &= 2710 ~(1 << scb->target_id); 2711 2712 ips_freescb(ha, scb); 2713 break; 2714 default: 2715 break; 2716 } /* end case */ 2717 2718 p = (struct scsi_cmnd *) p->host_scribble; 2719 2720 } /* end while */ 2721 2722 if (intr == IPS_INTR_ON) 2723 spin_unlock(host->host_lock); 2724 } 2725 2726 /****************************************************************************/ 2727 /* */ 2728 /* Routine Name: ips_putq_scb_head */ 2729 /* */ 2730 /* Routine Description: */ 2731 /* */ 2732 /* Add an item to the head of the queue */ 2733 /* */ 2734 /* ASSUMED to be called from within the HA lock */ 2735 /* */ 2736 /****************************************************************************/ 2737 static void 2738 ips_putq_scb_head(ips_scb_queue_t * queue, ips_scb_t * item) 2739 { 2740 METHOD_TRACE("ips_putq_scb_head", 1); 2741 2742 if (!item) 2743 return; 2744 2745 item->q_next = queue->head; 2746 queue->head = item; 2747 2748 if (!queue->tail) 2749 queue->tail = item; 2750 2751 queue->count++; 2752 } 2753 2754 /****************************************************************************/ 2755 /* */ 2756 /* Routine Name: ips_removeq_scb_head */ 2757 /* */ 2758 /* Routine Description: */ 2759 /* */ 2760 /* Remove the head of the queue */ 2761 /* */ 2762 /* ASSUMED to be called from within the HA lock */ 2763 /* */ 2764 /****************************************************************************/ 2765 static ips_scb_t * 2766 ips_removeq_scb_head(ips_scb_queue_t * queue) 2767 { 2768 ips_scb_t *item; 2769 2770 METHOD_TRACE("ips_removeq_scb_head", 1); 2771 2772 item = queue->head; 2773 2774 if (!item) { 2775 return (NULL); 2776 } 2777 2778 queue->head = item->q_next; 2779 item->q_next = NULL; 2780 2781 if (queue->tail == item) 2782 queue->tail = NULL; 2783 2784 queue->count--; 2785 2786 return (item); 2787 } 2788 2789 /****************************************************************************/ 2790 /* */ 2791 /* Routine Name: ips_removeq_scb */ 2792 /* */ 2793 /* Routine Description: */ 2794 /* */ 2795 /* Remove an item from a queue */ 2796 /* */ 2797 /* ASSUMED to be called from within the HA lock */ 2798 /* */ 2799 /****************************************************************************/ 2800 static ips_scb_t * 2801 ips_removeq_scb(ips_scb_queue_t * queue, ips_scb_t * item) 2802 { 2803 ips_scb_t *p; 2804 2805 METHOD_TRACE("ips_removeq_scb", 1); 2806 2807 if (!item) 2808 return (NULL); 2809 2810 if (item == queue->head) { 2811 return (ips_removeq_scb_head(queue)); 2812 } 2813 2814 p = queue->head; 2815 2816 while ((p) && (item != p->q_next)) 2817 p = p->q_next; 2818 2819 if (p) { 2820 /* found a match */ 2821 p->q_next = item->q_next; 2822 2823 if (!item->q_next) 2824 queue->tail = p; 2825 2826 item->q_next = NULL; 2827 queue->count--; 2828 2829 return (item); 2830 } 2831 2832 return (NULL); 2833 } 2834 2835 /****************************************************************************/ 2836 /* */ 2837 /* Routine Name: ips_putq_wait_tail */ 2838 /* */ 2839 /* Routine Description: */ 2840 /* */ 2841 /* Add an item to the tail of the queue */ 2842 /* */ 2843 /* ASSUMED to be called from within the HA lock */ 2844 /* */ 2845 /****************************************************************************/ 2846 static void ips_putq_wait_tail(ips_wait_queue_entry_t *queue, struct scsi_cmnd *item) 2847 { 2848 METHOD_TRACE("ips_putq_wait_tail", 1); 2849 2850 if (!item) 2851 return; 2852 2853 item->host_scribble = NULL; 2854 2855 if (queue->tail) 2856 queue->tail->host_scribble = (char *) item; 2857 2858 queue->tail = item; 2859 2860 if (!queue->head) 2861 queue->head = item; 2862 2863 queue->count++; 2864 } 2865 2866 /****************************************************************************/ 2867 /* */ 2868 /* Routine Name: ips_removeq_wait_head */ 2869 /* */ 2870 /* Routine Description: */ 2871 /* */ 2872 /* Remove the head of the queue */ 2873 /* */ 2874 /* ASSUMED to be called from within the HA lock */ 2875 /* */ 2876 /****************************************************************************/ 2877 static struct scsi_cmnd *ips_removeq_wait_head(ips_wait_queue_entry_t *queue) 2878 { 2879 struct scsi_cmnd *item; 2880 2881 METHOD_TRACE("ips_removeq_wait_head", 1); 2882 2883 item = queue->head; 2884 2885 if (!item) { 2886 return (NULL); 2887 } 2888 2889 queue->head = (struct scsi_cmnd *) item->host_scribble; 2890 item->host_scribble = NULL; 2891 2892 if (queue->tail == item) 2893 queue->tail = NULL; 2894 2895 queue->count--; 2896 2897 return (item); 2898 } 2899 2900 /****************************************************************************/ 2901 /* */ 2902 /* Routine Name: ips_removeq_wait */ 2903 /* */ 2904 /* Routine Description: */ 2905 /* */ 2906 /* Remove an item from a queue */ 2907 /* */ 2908 /* ASSUMED to be called from within the HA lock */ 2909 /* */ 2910 /****************************************************************************/ 2911 static struct scsi_cmnd *ips_removeq_wait(ips_wait_queue_entry_t *queue, 2912 struct scsi_cmnd *item) 2913 { 2914 struct scsi_cmnd *p; 2915 2916 METHOD_TRACE("ips_removeq_wait", 1); 2917 2918 if (!item) 2919 return (NULL); 2920 2921 if (item == queue->head) { 2922 return (ips_removeq_wait_head(queue)); 2923 } 2924 2925 p = queue->head; 2926 2927 while ((p) && (item != (struct scsi_cmnd *) p->host_scribble)) 2928 p = (struct scsi_cmnd *) p->host_scribble; 2929 2930 if (p) { 2931 /* found a match */ 2932 p->host_scribble = item->host_scribble; 2933 2934 if (!item->host_scribble) 2935 queue->tail = p; 2936 2937 item->host_scribble = NULL; 2938 queue->count--; 2939 2940 return (item); 2941 } 2942 2943 return (NULL); 2944 } 2945 2946 /****************************************************************************/ 2947 /* */ 2948 /* Routine Name: ips_putq_copp_tail */ 2949 /* */ 2950 /* Routine Description: */ 2951 /* */ 2952 /* Add an item to the tail of the queue */ 2953 /* */ 2954 /* ASSUMED to be called from within the HA lock */ 2955 /* */ 2956 /****************************************************************************/ 2957 static void 2958 ips_putq_copp_tail(ips_copp_queue_t * queue, ips_copp_wait_item_t * item) 2959 { 2960 METHOD_TRACE("ips_putq_copp_tail", 1); 2961 2962 if (!item) 2963 return; 2964 2965 item->next = NULL; 2966 2967 if (queue->tail) 2968 queue->tail->next = item; 2969 2970 queue->tail = item; 2971 2972 if (!queue->head) 2973 queue->head = item; 2974 2975 queue->count++; 2976 } 2977 2978 /****************************************************************************/ 2979 /* */ 2980 /* Routine Name: ips_removeq_copp_head */ 2981 /* */ 2982 /* Routine Description: */ 2983 /* */ 2984 /* Remove the head of the queue */ 2985 /* */ 2986 /* ASSUMED to be called from within the HA lock */ 2987 /* */ 2988 /****************************************************************************/ 2989 static ips_copp_wait_item_t * 2990 ips_removeq_copp_head(ips_copp_queue_t * queue) 2991 { 2992 ips_copp_wait_item_t *item; 2993 2994 METHOD_TRACE("ips_removeq_copp_head", 1); 2995 2996 item = queue->head; 2997 2998 if (!item) { 2999 return (NULL); 3000 } 3001 3002 queue->head = item->next; 3003 item->next = NULL; 3004 3005 if (queue->tail == item) 3006 queue->tail = NULL; 3007 3008 queue->count--; 3009 3010 return (item); 3011 } 3012 3013 /****************************************************************************/ 3014 /* */ 3015 /* Routine Name: ips_removeq_copp */ 3016 /* */ 3017 /* Routine Description: */ 3018 /* */ 3019 /* Remove an item from a queue */ 3020 /* */ 3021 /* ASSUMED to be called from within the HA lock */ 3022 /* */ 3023 /****************************************************************************/ 3024 static ips_copp_wait_item_t * 3025 ips_removeq_copp(ips_copp_queue_t * queue, ips_copp_wait_item_t * item) 3026 { 3027 ips_copp_wait_item_t *p; 3028 3029 METHOD_TRACE("ips_removeq_copp", 1); 3030 3031 if (!item) 3032 return (NULL); 3033 3034 if (item == queue->head) { 3035 return (ips_removeq_copp_head(queue)); 3036 } 3037 3038 p = queue->head; 3039 3040 while ((p) && (item != p->next)) 3041 p = p->next; 3042 3043 if (p) { 3044 /* found a match */ 3045 p->next = item->next; 3046 3047 if (!item->next) 3048 queue->tail = p; 3049 3050 item->next = NULL; 3051 queue->count--; 3052 3053 return (item); 3054 } 3055 3056 return (NULL); 3057 } 3058 3059 /****************************************************************************/ 3060 /* */ 3061 /* Routine Name: ipsintr_blocking */ 3062 /* */ 3063 /* Routine Description: */ 3064 /* */ 3065 /* Finalize an interrupt for internal commands */ 3066 /* */ 3067 /****************************************************************************/ 3068 static void 3069 ipsintr_blocking(ips_ha_t * ha, ips_scb_t * scb) 3070 { 3071 METHOD_TRACE("ipsintr_blocking", 2); 3072 3073 ips_freescb(ha, scb); 3074 if (ha->waitflag && ha->cmd_in_progress == scb->cdb[0]) { 3075 ha->waitflag = false; 3076 3077 return; 3078 } 3079 } 3080 3081 /****************************************************************************/ 3082 /* */ 3083 /* Routine Name: ipsintr_done */ 3084 /* */ 3085 /* Routine Description: */ 3086 /* */ 3087 /* Finalize an interrupt for non-internal commands */ 3088 /* */ 3089 /****************************************************************************/ 3090 static void 3091 ipsintr_done(ips_ha_t * ha, ips_scb_t * scb) 3092 { 3093 METHOD_TRACE("ipsintr_done", 2); 3094 3095 if (!scb) { 3096 IPS_PRINTK(KERN_WARNING, ha->pcidev, 3097 "Spurious interrupt; scb NULL.\n"); 3098 3099 return; 3100 } 3101 3102 if (scb->scsi_cmd == NULL) { 3103 /* unexpected interrupt */ 3104 IPS_PRINTK(KERN_WARNING, ha->pcidev, 3105 "Spurious interrupt; scsi_cmd not set.\n"); 3106 3107 return; 3108 } 3109 3110 ips_done(ha, scb); 3111 } 3112 3113 /****************************************************************************/ 3114 /* */ 3115 /* Routine Name: ips_done */ 3116 /* */ 3117 /* Routine Description: */ 3118 /* */ 3119 /* Do housekeeping on completed commands */ 3120 /* ASSUMED to be called form within the request lock */ 3121 /****************************************************************************/ 3122 static void 3123 ips_done(ips_ha_t * ha, ips_scb_t * scb) 3124 { 3125 int ret; 3126 3127 METHOD_TRACE("ips_done", 1); 3128 3129 if (!scb) 3130 return; 3131 3132 if ((scb->scsi_cmd) && (ips_is_passthru(scb->scsi_cmd))) { 3133 ips_cleanup_passthru(ha, scb); 3134 ha->num_ioctl--; 3135 } else { 3136 /* 3137 * Check to see if this command had too much 3138 * data and had to be broke up. If so, queue 3139 * the rest of the data and continue. 3140 */ 3141 if ((scb->breakup) || (scb->sg_break)) { 3142 struct scatterlist *sg; 3143 int i, sg_dma_index, ips_sg_index = 0; 3144 3145 /* we had a data breakup */ 3146 scb->data_len = 0; 3147 3148 sg = scsi_sglist(scb->scsi_cmd); 3149 3150 /* Spin forward to last dma chunk */ 3151 sg_dma_index = scb->breakup; 3152 for (i = 0; i < scb->breakup; i++) 3153 sg = sg_next(sg); 3154 3155 /* Take care of possible partial on last chunk */ 3156 ips_fill_scb_sg_single(ha, 3157 sg_dma_address(sg), 3158 scb, ips_sg_index++, 3159 sg_dma_len(sg)); 3160 3161 for (; sg_dma_index < scsi_sg_count(scb->scsi_cmd); 3162 sg_dma_index++, sg = sg_next(sg)) { 3163 if (ips_fill_scb_sg_single 3164 (ha, 3165 sg_dma_address(sg), 3166 scb, ips_sg_index++, 3167 sg_dma_len(sg)) < 0) 3168 break; 3169 } 3170 3171 scb->dcdb.transfer_length = scb->data_len; 3172 scb->dcdb.cmd_attribute |= 3173 ips_command_direction[scb->scsi_cmd->cmnd[0]]; 3174 3175 if (!(scb->dcdb.cmd_attribute & 0x3)) 3176 scb->dcdb.transfer_length = 0; 3177 3178 if (scb->data_len >= IPS_MAX_XFER) { 3179 scb->dcdb.cmd_attribute |= IPS_TRANSFER64K; 3180 scb->dcdb.transfer_length = 0; 3181 } 3182 3183 ret = ips_send_cmd(ha, scb); 3184 3185 switch (ret) { 3186 case IPS_FAILURE: 3187 if (scb->scsi_cmd) { 3188 scb->scsi_cmd->result = DID_ERROR << 16; 3189 scsi_done(scb->scsi_cmd); 3190 } 3191 3192 ips_freescb(ha, scb); 3193 break; 3194 case IPS_SUCCESS_IMM: 3195 if (scb->scsi_cmd) { 3196 scb->scsi_cmd->result = DID_ERROR << 16; 3197 scsi_done(scb->scsi_cmd); 3198 } 3199 3200 ips_freescb(ha, scb); 3201 break; 3202 default: 3203 break; 3204 } /* end case */ 3205 3206 return; 3207 } 3208 } /* end if passthru */ 3209 3210 if (scb->bus) { 3211 ha->dcdb_active[scb->bus - 1] &= ~(1 << scb->target_id); 3212 } 3213 3214 scsi_done(scb->scsi_cmd); 3215 3216 ips_freescb(ha, scb); 3217 } 3218 3219 /****************************************************************************/ 3220 /* */ 3221 /* Routine Name: ips_map_status */ 3222 /* */ 3223 /* Routine Description: */ 3224 /* */ 3225 /* Map Controller Error codes to Linux Error Codes */ 3226 /* */ 3227 /****************************************************************************/ 3228 static int 3229 ips_map_status(ips_ha_t * ha, ips_scb_t * scb, ips_stat_t * sp) 3230 { 3231 int errcode; 3232 int device_error; 3233 uint32_t transfer_len; 3234 IPS_DCDB_TABLE_TAPE *tapeDCDB; 3235 IPS_SCSI_INQ_DATA inquiryData; 3236 3237 METHOD_TRACE("ips_map_status", 1); 3238 3239 if (scb->bus) { 3240 DEBUG_VAR(2, 3241 "(%s%d) Physical device error (%d %d %d): %x %x, Sense Key: %x, ASC: %x, ASCQ: %x", 3242 ips_name, ha->host_num, 3243 scb->scsi_cmd->device->channel, 3244 scb->scsi_cmd->device->id, scb->scsi_cmd->device->lun, 3245 scb->basic_status, scb->extended_status, 3246 scb->extended_status == 3247 IPS_ERR_CKCOND ? scb->dcdb.sense_info[2] & 0xf : 0, 3248 scb->extended_status == 3249 IPS_ERR_CKCOND ? scb->dcdb.sense_info[12] : 0, 3250 scb->extended_status == 3251 IPS_ERR_CKCOND ? scb->dcdb.sense_info[13] : 0); 3252 } 3253 3254 /* default driver error */ 3255 errcode = DID_ERROR; 3256 device_error = 0; 3257 3258 switch (scb->basic_status & IPS_GSC_STATUS_MASK) { 3259 case IPS_CMD_TIMEOUT: 3260 errcode = DID_TIME_OUT; 3261 break; 3262 3263 case IPS_INVAL_OPCO: 3264 case IPS_INVAL_CMD_BLK: 3265 case IPS_INVAL_PARM_BLK: 3266 case IPS_LD_ERROR: 3267 case IPS_CMD_CMPLT_WERROR: 3268 break; 3269 3270 case IPS_PHYS_DRV_ERROR: 3271 switch (scb->extended_status) { 3272 case IPS_ERR_SEL_TO: 3273 if (scb->bus) 3274 errcode = DID_NO_CONNECT; 3275 3276 break; 3277 3278 case IPS_ERR_OU_RUN: 3279 if ((scb->cmd.dcdb.op_code == IPS_CMD_EXTENDED_DCDB) || 3280 (scb->cmd.dcdb.op_code == 3281 IPS_CMD_EXTENDED_DCDB_SG)) { 3282 tapeDCDB = (IPS_DCDB_TABLE_TAPE *) & scb->dcdb; 3283 transfer_len = tapeDCDB->transfer_length; 3284 } else { 3285 transfer_len = 3286 (uint32_t) scb->dcdb.transfer_length; 3287 } 3288 3289 if ((scb->bus) && (transfer_len < scb->data_len)) { 3290 /* Underrun - set default to no error */ 3291 errcode = DID_OK; 3292 3293 /* Restrict access to physical DASD */ 3294 if (scb->scsi_cmd->cmnd[0] == INQUIRY) { 3295 ips_scmd_buf_read(scb->scsi_cmd, 3296 &inquiryData, sizeof (inquiryData)); 3297 if ((inquiryData.DeviceType & 0x1f) == TYPE_DISK) { 3298 errcode = DID_TIME_OUT; 3299 break; 3300 } 3301 } 3302 } else 3303 errcode = DID_ERROR; 3304 3305 break; 3306 3307 case IPS_ERR_RECOVERY: 3308 /* don't fail recovered errors */ 3309 if (scb->bus) 3310 errcode = DID_OK; 3311 3312 break; 3313 3314 case IPS_ERR_HOST_RESET: 3315 case IPS_ERR_DEV_RESET: 3316 errcode = DID_RESET; 3317 break; 3318 3319 case IPS_ERR_CKCOND: 3320 if (scb->bus) { 3321 if ((scb->cmd.dcdb.op_code == 3322 IPS_CMD_EXTENDED_DCDB) 3323 || (scb->cmd.dcdb.op_code == 3324 IPS_CMD_EXTENDED_DCDB_SG)) { 3325 tapeDCDB = 3326 (IPS_DCDB_TABLE_TAPE *) & scb->dcdb; 3327 memcpy_and_pad(scb->scsi_cmd->sense_buffer, 3328 SCSI_SENSE_BUFFERSIZE, 3329 tapeDCDB->sense_info, 3330 sizeof(tapeDCDB->sense_info), 0); 3331 } else { 3332 memcpy_and_pad(scb->scsi_cmd->sense_buffer, 3333 SCSI_SENSE_BUFFERSIZE, 3334 scb->dcdb.sense_info, 3335 sizeof(scb->dcdb.sense_info), 0); 3336 } 3337 device_error = 2; /* check condition */ 3338 } 3339 3340 errcode = DID_OK; 3341 3342 break; 3343 3344 default: 3345 errcode = DID_ERROR; 3346 break; 3347 3348 } /* end switch */ 3349 } /* end switch */ 3350 3351 scb->scsi_cmd->result = device_error | (errcode << 16); 3352 3353 return (1); 3354 } 3355 3356 /****************************************************************************/ 3357 /* */ 3358 /* Routine Name: ips_send_wait */ 3359 /* */ 3360 /* Routine Description: */ 3361 /* */ 3362 /* Send a command to the controller and wait for it to return */ 3363 /* */ 3364 /* The FFDC Time Stamp use this function for the callback, but doesn't */ 3365 /* actually need to wait. */ 3366 /****************************************************************************/ 3367 static int 3368 ips_send_wait(ips_ha_t * ha, ips_scb_t * scb, int timeout, int intr) 3369 { 3370 int ret; 3371 3372 METHOD_TRACE("ips_send_wait", 1); 3373 3374 if (intr != IPS_FFDC) { /* Won't be Waiting if this is a Time Stamp */ 3375 ha->waitflag = true; 3376 ha->cmd_in_progress = scb->cdb[0]; 3377 } 3378 scb->callback = ipsintr_blocking; 3379 ret = ips_send_cmd(ha, scb); 3380 3381 if ((ret == IPS_FAILURE) || (ret == IPS_SUCCESS_IMM)) 3382 return (ret); 3383 3384 if (intr != IPS_FFDC) /* Don't Wait around if this is a Time Stamp */ 3385 ret = ips_wait(ha, timeout, intr); 3386 3387 return (ret); 3388 } 3389 3390 /****************************************************************************/ 3391 /* */ 3392 /* Routine Name: ips_scmd_buf_write */ 3393 /* */ 3394 /* Routine Description: */ 3395 /* Write data to struct scsi_cmnd request_buffer at proper offsets */ 3396 /****************************************************************************/ 3397 static void 3398 ips_scmd_buf_write(struct scsi_cmnd *scmd, void *data, unsigned int count) 3399 { 3400 unsigned long flags; 3401 3402 local_irq_save(flags); 3403 scsi_sg_copy_from_buffer(scmd, data, count); 3404 local_irq_restore(flags); 3405 } 3406 3407 /****************************************************************************/ 3408 /* */ 3409 /* Routine Name: ips_scmd_buf_read */ 3410 /* */ 3411 /* Routine Description: */ 3412 /* Copy data from a struct scsi_cmnd to a new, linear buffer */ 3413 /****************************************************************************/ 3414 static void 3415 ips_scmd_buf_read(struct scsi_cmnd *scmd, void *data, unsigned int count) 3416 { 3417 unsigned long flags; 3418 3419 local_irq_save(flags); 3420 scsi_sg_copy_to_buffer(scmd, data, count); 3421 local_irq_restore(flags); 3422 } 3423 3424 /****************************************************************************/ 3425 /* */ 3426 /* Routine Name: ips_send_cmd */ 3427 /* */ 3428 /* Routine Description: */ 3429 /* */ 3430 /* Map SCSI commands to ServeRAID commands for logical drives */ 3431 /* */ 3432 /****************************************************************************/ 3433 static int 3434 ips_send_cmd(ips_ha_t * ha, ips_scb_t * scb) 3435 { 3436 int ret; 3437 char *sp; 3438 int device_error; 3439 IPS_DCDB_TABLE_TAPE *tapeDCDB; 3440 int TimeOut; 3441 3442 METHOD_TRACE("ips_send_cmd", 1); 3443 3444 ret = IPS_SUCCESS; 3445 3446 if (!scb->scsi_cmd) { 3447 /* internal command */ 3448 3449 if (scb->bus > 0) { 3450 /* Controller commands can't be issued */ 3451 /* to real devices -- fail them */ 3452 if (ha->waitflag && ha->cmd_in_progress == scb->cdb[0]) 3453 ha->waitflag = false; 3454 3455 return (1); 3456 } 3457 } else if ((scb->bus == 0) && (!ips_is_passthru(scb->scsi_cmd))) { 3458 /* command to logical bus -- interpret */ 3459 ret = IPS_SUCCESS_IMM; 3460 3461 switch (scb->scsi_cmd->cmnd[0]) { 3462 case ALLOW_MEDIUM_REMOVAL: 3463 case REZERO_UNIT: 3464 case ERASE: 3465 case WRITE_FILEMARKS: 3466 case SPACE: 3467 scb->scsi_cmd->result = DID_ERROR << 16; 3468 break; 3469 3470 case START_STOP: 3471 scb->scsi_cmd->result = DID_OK << 16; 3472 break; 3473 3474 case TEST_UNIT_READY: 3475 case INQUIRY: 3476 if (scb->target_id == IPS_ADAPTER_ID) { 3477 /* 3478 * Either we have a TUR 3479 * or we have a SCSI inquiry 3480 */ 3481 if (scb->scsi_cmd->cmnd[0] == TEST_UNIT_READY) 3482 scb->scsi_cmd->result = DID_OK << 16; 3483 3484 if (scb->scsi_cmd->cmnd[0] == INQUIRY) { 3485 IPS_SCSI_INQ_DATA inquiry; 3486 3487 memset(&inquiry, 0, 3488 sizeof (IPS_SCSI_INQ_DATA)); 3489 3490 inquiry.DeviceType = 3491 IPS_SCSI_INQ_TYPE_PROCESSOR; 3492 inquiry.DeviceTypeQualifier = 3493 IPS_SCSI_INQ_LU_CONNECTED; 3494 inquiry.Version = IPS_SCSI_INQ_REV2; 3495 inquiry.ResponseDataFormat = 3496 IPS_SCSI_INQ_RD_REV2; 3497 inquiry.AdditionalLength = 31; 3498 inquiry.Flags[0] = 3499 IPS_SCSI_INQ_Address16; 3500 inquiry.Flags[1] = 3501 IPS_SCSI_INQ_WBus16 | 3502 IPS_SCSI_INQ_Sync; 3503 memcpy(inquiry.VendorId, "IBM ", 3504 8); 3505 memcpy(inquiry.ProductId, 3506 "SERVERAID ", 16); 3507 memcpy(inquiry.ProductRevisionLevel, 3508 "1.00", 4); 3509 3510 ips_scmd_buf_write(scb->scsi_cmd, 3511 &inquiry, 3512 sizeof (inquiry)); 3513 3514 scb->scsi_cmd->result = DID_OK << 16; 3515 } 3516 } else { 3517 scb->cmd.logical_info.op_code = IPS_CMD_GET_LD_INFO; 3518 scb->cmd.logical_info.command_id = IPS_COMMAND_ID(ha, scb); 3519 scb->cmd.logical_info.reserved = 0; 3520 scb->cmd.logical_info.reserved2 = 0; 3521 scb->data_len = sizeof (IPS_LD_INFO); 3522 scb->data_busaddr = ha->logical_drive_info_dma_addr; 3523 scb->flags = 0; 3524 scb->cmd.logical_info.buffer_addr = scb->data_busaddr; 3525 ret = IPS_SUCCESS; 3526 } 3527 3528 break; 3529 3530 case REQUEST_SENSE: 3531 ips_reqsen(ha, scb); 3532 scb->scsi_cmd->result = DID_OK << 16; 3533 break; 3534 3535 case READ_6: 3536 case WRITE_6: 3537 if (!scb->sg_len) { 3538 scb->cmd.basic_io.op_code = 3539 (scb->scsi_cmd->cmnd[0] == 3540 READ_6) ? IPS_CMD_READ : IPS_CMD_WRITE; 3541 scb->cmd.basic_io.enhanced_sg = 0; 3542 scb->cmd.basic_io.sg_addr = 3543 cpu_to_le32(scb->data_busaddr); 3544 } else { 3545 scb->cmd.basic_io.op_code = 3546 (scb->scsi_cmd->cmnd[0] == 3547 READ_6) ? IPS_CMD_READ_SG : 3548 IPS_CMD_WRITE_SG; 3549 scb->cmd.basic_io.enhanced_sg = 3550 IPS_USE_ENH_SGLIST(ha) ? 0xFF : 0; 3551 scb->cmd.basic_io.sg_addr = 3552 cpu_to_le32(scb->sg_busaddr); 3553 } 3554 3555 scb->cmd.basic_io.segment_4G = 0; 3556 scb->cmd.basic_io.command_id = IPS_COMMAND_ID(ha, scb); 3557 scb->cmd.basic_io.log_drv = scb->target_id; 3558 scb->cmd.basic_io.sg_count = scb->sg_len; 3559 3560 if (scb->cmd.basic_io.lba) 3561 le32_add_cpu(&scb->cmd.basic_io.lba, 3562 le16_to_cpu(scb->cmd.basic_io. 3563 sector_count)); 3564 else 3565 scb->cmd.basic_io.lba = 3566 (((scb->scsi_cmd-> 3567 cmnd[1] & 0x1f) << 16) | (scb->scsi_cmd-> 3568 cmnd[2] << 8) | 3569 (scb->scsi_cmd->cmnd[3])); 3570 3571 scb->cmd.basic_io.sector_count = 3572 cpu_to_le16(scb->data_len / IPS_BLKSIZE); 3573 3574 if (le16_to_cpu(scb->cmd.basic_io.sector_count) == 0) 3575 scb->cmd.basic_io.sector_count = 3576 cpu_to_le16(256); 3577 3578 ret = IPS_SUCCESS; 3579 break; 3580 3581 case READ_10: 3582 case WRITE_10: 3583 if (!scb->sg_len) { 3584 scb->cmd.basic_io.op_code = 3585 (scb->scsi_cmd->cmnd[0] == 3586 READ_10) ? IPS_CMD_READ : IPS_CMD_WRITE; 3587 scb->cmd.basic_io.enhanced_sg = 0; 3588 scb->cmd.basic_io.sg_addr = 3589 cpu_to_le32(scb->data_busaddr); 3590 } else { 3591 scb->cmd.basic_io.op_code = 3592 (scb->scsi_cmd->cmnd[0] == 3593 READ_10) ? IPS_CMD_READ_SG : 3594 IPS_CMD_WRITE_SG; 3595 scb->cmd.basic_io.enhanced_sg = 3596 IPS_USE_ENH_SGLIST(ha) ? 0xFF : 0; 3597 scb->cmd.basic_io.sg_addr = 3598 cpu_to_le32(scb->sg_busaddr); 3599 } 3600 3601 scb->cmd.basic_io.segment_4G = 0; 3602 scb->cmd.basic_io.command_id = IPS_COMMAND_ID(ha, scb); 3603 scb->cmd.basic_io.log_drv = scb->target_id; 3604 scb->cmd.basic_io.sg_count = scb->sg_len; 3605 3606 if (scb->cmd.basic_io.lba) 3607 le32_add_cpu(&scb->cmd.basic_io.lba, 3608 le16_to_cpu(scb->cmd.basic_io. 3609 sector_count)); 3610 else 3611 scb->cmd.basic_io.lba = 3612 ((scb->scsi_cmd->cmnd[2] << 24) | (scb-> 3613 scsi_cmd-> 3614 cmnd[3] 3615 << 16) | 3616 (scb->scsi_cmd->cmnd[4] << 8) | scb-> 3617 scsi_cmd->cmnd[5]); 3618 3619 scb->cmd.basic_io.sector_count = 3620 cpu_to_le16(scb->data_len / IPS_BLKSIZE); 3621 3622 if (cpu_to_le16(scb->cmd.basic_io.sector_count) == 0) { 3623 /* 3624 * This is a null condition 3625 * we don't have to do anything 3626 * so just return 3627 */ 3628 scb->scsi_cmd->result = DID_OK << 16; 3629 } else 3630 ret = IPS_SUCCESS; 3631 3632 break; 3633 3634 case RESERVE: 3635 case RELEASE: 3636 scb->scsi_cmd->result = DID_OK << 16; 3637 break; 3638 3639 case MODE_SENSE: 3640 scb->cmd.basic_io.op_code = IPS_CMD_ENQUIRY; 3641 scb->cmd.basic_io.command_id = IPS_COMMAND_ID(ha, scb); 3642 scb->cmd.basic_io.segment_4G = 0; 3643 scb->cmd.basic_io.enhanced_sg = 0; 3644 scb->data_len = sizeof (*ha->enq); 3645 scb->cmd.basic_io.sg_addr = ha->enq_busaddr; 3646 ret = IPS_SUCCESS; 3647 break; 3648 3649 case READ_CAPACITY: 3650 scb->cmd.logical_info.op_code = IPS_CMD_GET_LD_INFO; 3651 scb->cmd.logical_info.command_id = IPS_COMMAND_ID(ha, scb); 3652 scb->cmd.logical_info.reserved = 0; 3653 scb->cmd.logical_info.reserved2 = 0; 3654 scb->cmd.logical_info.reserved3 = 0; 3655 scb->data_len = sizeof (IPS_LD_INFO); 3656 scb->data_busaddr = ha->logical_drive_info_dma_addr; 3657 scb->flags = 0; 3658 scb->cmd.logical_info.buffer_addr = scb->data_busaddr; 3659 ret = IPS_SUCCESS; 3660 break; 3661 3662 case SEND_DIAGNOSTIC: 3663 case REASSIGN_BLOCKS: 3664 case FORMAT_UNIT: 3665 case SEEK_10: 3666 case VERIFY: 3667 case READ_DEFECT_DATA: 3668 case READ_BUFFER: 3669 case WRITE_BUFFER: 3670 scb->scsi_cmd->result = DID_OK << 16; 3671 break; 3672 3673 default: 3674 /* Set the Return Info to appear like the Command was */ 3675 /* attempted, a Check Condition occurred, and Sense */ 3676 /* Data indicating an Invalid CDB OpCode is returned. */ 3677 sp = (char *) scb->scsi_cmd->sense_buffer; 3678 3679 sp[0] = 0x70; /* Error Code */ 3680 sp[2] = ILLEGAL_REQUEST; /* Sense Key 5 Illegal Req. */ 3681 sp[7] = 0x0A; /* Additional Sense Length */ 3682 sp[12] = 0x20; /* ASC = Invalid OpCode */ 3683 sp[13] = 0x00; /* ASCQ */ 3684 3685 device_error = 2; /* Indicate Check Condition */ 3686 scb->scsi_cmd->result = device_error | (DID_OK << 16); 3687 break; 3688 } /* end switch */ 3689 } 3690 /* end if */ 3691 if (ret == IPS_SUCCESS_IMM) 3692 return (ret); 3693 3694 /* setup DCDB */ 3695 if (scb->bus > 0) { 3696 3697 /* If we already know the Device is Not there, no need to attempt a Command */ 3698 /* This also protects an NT FailOver Controller from getting CDB's sent to it */ 3699 if (ha->conf->dev[scb->bus - 1][scb->target_id].ucState == 0) { 3700 scb->scsi_cmd->result = DID_NO_CONNECT << 16; 3701 return (IPS_SUCCESS_IMM); 3702 } 3703 3704 ha->dcdb_active[scb->bus - 1] |= (1 << scb->target_id); 3705 scb->cmd.dcdb.command_id = IPS_COMMAND_ID(ha, scb); 3706 scb->cmd.dcdb.dcdb_address = cpu_to_le32(scb->scb_busaddr + 3707 (unsigned long) &scb-> 3708 dcdb - 3709 (unsigned long) scb); 3710 scb->cmd.dcdb.reserved = 0; 3711 scb->cmd.dcdb.reserved2 = 0; 3712 scb->cmd.dcdb.reserved3 = 0; 3713 scb->cmd.dcdb.segment_4G = 0; 3714 scb->cmd.dcdb.enhanced_sg = 0; 3715 3716 TimeOut = scsi_cmd_to_rq(scb->scsi_cmd)->timeout; 3717 3718 if (ha->subsys->param[4] & 0x00100000) { /* If NEW Tape DCDB is Supported */ 3719 if (!scb->sg_len) { 3720 scb->cmd.dcdb.op_code = IPS_CMD_EXTENDED_DCDB; 3721 } else { 3722 scb->cmd.dcdb.op_code = 3723 IPS_CMD_EXTENDED_DCDB_SG; 3724 scb->cmd.dcdb.enhanced_sg = 3725 IPS_USE_ENH_SGLIST(ha) ? 0xFF : 0; 3726 } 3727 3728 tapeDCDB = (IPS_DCDB_TABLE_TAPE *) & scb->dcdb; /* Use Same Data Area as Old DCDB Struct */ 3729 tapeDCDB->device_address = 3730 ((scb->bus - 1) << 4) | scb->target_id; 3731 tapeDCDB->cmd_attribute |= IPS_DISCONNECT_ALLOWED; 3732 tapeDCDB->cmd_attribute &= ~IPS_TRANSFER64K; /* Always Turn OFF 64K Size Flag */ 3733 3734 if (TimeOut) { 3735 if (TimeOut < (10 * HZ)) 3736 tapeDCDB->cmd_attribute |= IPS_TIMEOUT10; /* TimeOut is 10 Seconds */ 3737 else if (TimeOut < (60 * HZ)) 3738 tapeDCDB->cmd_attribute |= IPS_TIMEOUT60; /* TimeOut is 60 Seconds */ 3739 else if (TimeOut < (1200 * HZ)) 3740 tapeDCDB->cmd_attribute |= IPS_TIMEOUT20M; /* TimeOut is 20 Minutes */ 3741 } 3742 3743 tapeDCDB->cdb_length = scb->scsi_cmd->cmd_len; 3744 tapeDCDB->reserved_for_LUN = 0; 3745 tapeDCDB->transfer_length = scb->data_len; 3746 if (scb->cmd.dcdb.op_code == IPS_CMD_EXTENDED_DCDB_SG) 3747 tapeDCDB->buffer_pointer = 3748 cpu_to_le32(scb->sg_busaddr); 3749 else 3750 tapeDCDB->buffer_pointer = 3751 cpu_to_le32(scb->data_busaddr); 3752 tapeDCDB->sg_count = scb->sg_len; 3753 tapeDCDB->sense_length = sizeof (tapeDCDB->sense_info); 3754 tapeDCDB->scsi_status = 0; 3755 tapeDCDB->reserved = 0; 3756 memcpy(tapeDCDB->scsi_cdb, scb->scsi_cmd->cmnd, 3757 scb->scsi_cmd->cmd_len); 3758 } else { 3759 if (!scb->sg_len) { 3760 scb->cmd.dcdb.op_code = IPS_CMD_DCDB; 3761 } else { 3762 scb->cmd.dcdb.op_code = IPS_CMD_DCDB_SG; 3763 scb->cmd.dcdb.enhanced_sg = 3764 IPS_USE_ENH_SGLIST(ha) ? 0xFF : 0; 3765 } 3766 3767 scb->dcdb.device_address = 3768 ((scb->bus - 1) << 4) | scb->target_id; 3769 scb->dcdb.cmd_attribute |= IPS_DISCONNECT_ALLOWED; 3770 3771 if (TimeOut) { 3772 if (TimeOut < (10 * HZ)) 3773 scb->dcdb.cmd_attribute |= IPS_TIMEOUT10; /* TimeOut is 10 Seconds */ 3774 else if (TimeOut < (60 * HZ)) 3775 scb->dcdb.cmd_attribute |= IPS_TIMEOUT60; /* TimeOut is 60 Seconds */ 3776 else if (TimeOut < (1200 * HZ)) 3777 scb->dcdb.cmd_attribute |= IPS_TIMEOUT20M; /* TimeOut is 20 Minutes */ 3778 } 3779 3780 scb->dcdb.transfer_length = scb->data_len; 3781 if (scb->dcdb.cmd_attribute & IPS_TRANSFER64K) 3782 scb->dcdb.transfer_length = 0; 3783 if (scb->cmd.dcdb.op_code == IPS_CMD_DCDB_SG) 3784 scb->dcdb.buffer_pointer = 3785 cpu_to_le32(scb->sg_busaddr); 3786 else 3787 scb->dcdb.buffer_pointer = 3788 cpu_to_le32(scb->data_busaddr); 3789 scb->dcdb.cdb_length = scb->scsi_cmd->cmd_len; 3790 scb->dcdb.sense_length = sizeof (scb->dcdb.sense_info); 3791 scb->dcdb.sg_count = scb->sg_len; 3792 scb->dcdb.reserved = 0; 3793 memcpy(scb->dcdb.scsi_cdb, scb->scsi_cmd->cmnd, 3794 scb->scsi_cmd->cmd_len); 3795 scb->dcdb.scsi_status = 0; 3796 scb->dcdb.reserved2[0] = 0; 3797 scb->dcdb.reserved2[1] = 0; 3798 scb->dcdb.reserved2[2] = 0; 3799 } 3800 } 3801 3802 return ((*ha->func.issue) (ha, scb)); 3803 } 3804 3805 /****************************************************************************/ 3806 /* */ 3807 /* Routine Name: ips_chk_status */ 3808 /* */ 3809 /* Routine Description: */ 3810 /* */ 3811 /* Check the status of commands to logical drives */ 3812 /* Assumed to be called with the HA lock */ 3813 /****************************************************************************/ 3814 static void 3815 ips_chkstatus(ips_ha_t * ha, IPS_STATUS * pstatus) 3816 { 3817 ips_scb_t *scb; 3818 ips_stat_t *sp; 3819 uint8_t basic_status; 3820 uint8_t ext_status; 3821 int errcode; 3822 IPS_SCSI_INQ_DATA inquiryData; 3823 3824 METHOD_TRACE("ips_chkstatus", 1); 3825 3826 scb = &ha->scbs[pstatus->fields.command_id]; 3827 scb->basic_status = basic_status = 3828 pstatus->fields.basic_status & IPS_BASIC_STATUS_MASK; 3829 scb->extended_status = ext_status = pstatus->fields.extended_status; 3830 3831 sp = &ha->sp; 3832 sp->residue_len = 0; 3833 sp->scb_addr = (void *) scb; 3834 3835 /* Remove the item from the active queue */ 3836 ips_removeq_scb(&ha->scb_activelist, scb); 3837 3838 if (!scb->scsi_cmd) 3839 /* internal commands are handled in do_ipsintr */ 3840 return; 3841 3842 DEBUG_VAR(2, "(%s%d) ips_chkstatus: cmd 0x%X id %d (%d %d %d)", 3843 ips_name, 3844 ha->host_num, 3845 scb->cdb[0], 3846 scb->cmd.basic_io.command_id, 3847 scb->bus, scb->target_id, scb->lun); 3848 3849 if ((scb->scsi_cmd) && (ips_is_passthru(scb->scsi_cmd))) 3850 /* passthru - just returns the raw result */ 3851 return; 3852 3853 errcode = DID_OK; 3854 3855 if (((basic_status & IPS_GSC_STATUS_MASK) == IPS_CMD_SUCCESS) || 3856 ((basic_status & IPS_GSC_STATUS_MASK) == IPS_CMD_RECOVERED_ERROR)) { 3857 3858 if (scb->bus == 0) { 3859 if ((basic_status & IPS_GSC_STATUS_MASK) == 3860 IPS_CMD_RECOVERED_ERROR) { 3861 DEBUG_VAR(1, 3862 "(%s%d) Recovered Logical Drive Error OpCode: %x, BSB: %x, ESB: %x", 3863 ips_name, ha->host_num, 3864 scb->cmd.basic_io.op_code, 3865 basic_status, ext_status); 3866 } 3867 3868 switch (scb->scsi_cmd->cmnd[0]) { 3869 case ALLOW_MEDIUM_REMOVAL: 3870 case REZERO_UNIT: 3871 case ERASE: 3872 case WRITE_FILEMARKS: 3873 case SPACE: 3874 errcode = DID_ERROR; 3875 break; 3876 3877 case START_STOP: 3878 break; 3879 3880 case TEST_UNIT_READY: 3881 if (!ips_online(ha, scb)) { 3882 errcode = DID_TIME_OUT; 3883 } 3884 break; 3885 3886 case INQUIRY: 3887 if (ips_online(ha, scb)) { 3888 ips_inquiry(ha, scb); 3889 } else { 3890 errcode = DID_TIME_OUT; 3891 } 3892 break; 3893 3894 case REQUEST_SENSE: 3895 ips_reqsen(ha, scb); 3896 break; 3897 3898 case READ_6: 3899 case WRITE_6: 3900 case READ_10: 3901 case WRITE_10: 3902 case RESERVE: 3903 case RELEASE: 3904 break; 3905 3906 case MODE_SENSE: 3907 if (!ips_online(ha, scb) 3908 || !ips_msense(ha, scb)) { 3909 errcode = DID_ERROR; 3910 } 3911 break; 3912 3913 case READ_CAPACITY: 3914 if (ips_online(ha, scb)) 3915 ips_rdcap(ha, scb); 3916 else { 3917 errcode = DID_TIME_OUT; 3918 } 3919 break; 3920 3921 case SEND_DIAGNOSTIC: 3922 case REASSIGN_BLOCKS: 3923 break; 3924 3925 case FORMAT_UNIT: 3926 errcode = DID_ERROR; 3927 break; 3928 3929 case SEEK_10: 3930 case VERIFY: 3931 case READ_DEFECT_DATA: 3932 case READ_BUFFER: 3933 case WRITE_BUFFER: 3934 break; 3935 3936 default: 3937 errcode = DID_ERROR; 3938 } /* end switch */ 3939 3940 scb->scsi_cmd->result = errcode << 16; 3941 } else { /* bus == 0 */ 3942 /* restrict access to physical drives */ 3943 if (scb->scsi_cmd->cmnd[0] == INQUIRY) { 3944 ips_scmd_buf_read(scb->scsi_cmd, 3945 &inquiryData, sizeof (inquiryData)); 3946 if ((inquiryData.DeviceType & 0x1f) == TYPE_DISK) 3947 scb->scsi_cmd->result = DID_TIME_OUT << 16; 3948 } 3949 } /* else */ 3950 } else { /* recovered error / success */ 3951 if (scb->bus == 0) { 3952 DEBUG_VAR(1, 3953 "(%s%d) Unrecovered Logical Drive Error OpCode: %x, BSB: %x, ESB: %x", 3954 ips_name, ha->host_num, 3955 scb->cmd.basic_io.op_code, basic_status, 3956 ext_status); 3957 } 3958 3959 ips_map_status(ha, scb, sp); 3960 } /* else */ 3961 } 3962 3963 /****************************************************************************/ 3964 /* */ 3965 /* Routine Name: ips_online */ 3966 /* */ 3967 /* Routine Description: */ 3968 /* */ 3969 /* Determine if a logical drive is online */ 3970 /* */ 3971 /****************************************************************************/ 3972 static int 3973 ips_online(ips_ha_t * ha, ips_scb_t * scb) 3974 { 3975 METHOD_TRACE("ips_online", 1); 3976 3977 if (scb->target_id >= IPS_MAX_LD) 3978 return (0); 3979 3980 if ((scb->basic_status & IPS_GSC_STATUS_MASK) > 1) { 3981 memset(ha->logical_drive_info, 0, sizeof (IPS_LD_INFO)); 3982 return (0); 3983 } 3984 3985 if (ha->logical_drive_info->drive_info[scb->target_id].state != 3986 IPS_LD_OFFLINE 3987 && ha->logical_drive_info->drive_info[scb->target_id].state != 3988 IPS_LD_FREE 3989 && ha->logical_drive_info->drive_info[scb->target_id].state != 3990 IPS_LD_CRS 3991 && ha->logical_drive_info->drive_info[scb->target_id].state != 3992 IPS_LD_SYS) 3993 return (1); 3994 else 3995 return (0); 3996 } 3997 3998 /****************************************************************************/ 3999 /* */ 4000 /* Routine Name: ips_inquiry */ 4001 /* */ 4002 /* Routine Description: */ 4003 /* */ 4004 /* Simulate an inquiry command to a logical drive */ 4005 /* */ 4006 /****************************************************************************/ 4007 static int 4008 ips_inquiry(ips_ha_t * ha, ips_scb_t * scb) 4009 { 4010 IPS_SCSI_INQ_DATA inquiry; 4011 4012 METHOD_TRACE("ips_inquiry", 1); 4013 4014 memset(&inquiry, 0, sizeof (IPS_SCSI_INQ_DATA)); 4015 4016 inquiry.DeviceType = IPS_SCSI_INQ_TYPE_DASD; 4017 inquiry.DeviceTypeQualifier = IPS_SCSI_INQ_LU_CONNECTED; 4018 inquiry.Version = IPS_SCSI_INQ_REV2; 4019 inquiry.ResponseDataFormat = IPS_SCSI_INQ_RD_REV2; 4020 inquiry.AdditionalLength = 31; 4021 inquiry.Flags[0] = IPS_SCSI_INQ_Address16; 4022 inquiry.Flags[1] = 4023 IPS_SCSI_INQ_WBus16 | IPS_SCSI_INQ_Sync | IPS_SCSI_INQ_CmdQue; 4024 memcpy(inquiry.VendorId, "IBM ", 8); 4025 memcpy(inquiry.ProductId, "SERVERAID ", 16); 4026 memcpy(inquiry.ProductRevisionLevel, "1.00", 4); 4027 4028 ips_scmd_buf_write(scb->scsi_cmd, &inquiry, sizeof (inquiry)); 4029 4030 return (1); 4031 } 4032 4033 /****************************************************************************/ 4034 /* */ 4035 /* Routine Name: ips_rdcap */ 4036 /* */ 4037 /* Routine Description: */ 4038 /* */ 4039 /* Simulate a read capacity command to a logical drive */ 4040 /* */ 4041 /****************************************************************************/ 4042 static int 4043 ips_rdcap(ips_ha_t * ha, ips_scb_t * scb) 4044 { 4045 IPS_SCSI_CAPACITY cap; 4046 4047 METHOD_TRACE("ips_rdcap", 1); 4048 4049 if (scsi_bufflen(scb->scsi_cmd) < 8) 4050 return (0); 4051 4052 cap.lba = 4053 cpu_to_be32(le32_to_cpu 4054 (ha->logical_drive_info-> 4055 drive_info[scb->target_id].sector_count) - 1); 4056 cap.len = cpu_to_be32((uint32_t) IPS_BLKSIZE); 4057 4058 ips_scmd_buf_write(scb->scsi_cmd, &cap, sizeof (cap)); 4059 4060 return (1); 4061 } 4062 4063 /****************************************************************************/ 4064 /* */ 4065 /* Routine Name: ips_msense */ 4066 /* */ 4067 /* Routine Description: */ 4068 /* */ 4069 /* Simulate a mode sense command to a logical drive */ 4070 /* */ 4071 /****************************************************************************/ 4072 static int 4073 ips_msense(ips_ha_t * ha, ips_scb_t * scb) 4074 { 4075 uint16_t heads; 4076 uint16_t sectors; 4077 uint32_t cylinders; 4078 IPS_SCSI_MODE_PAGE_DATA mdata; 4079 4080 METHOD_TRACE("ips_msense", 1); 4081 4082 if (le32_to_cpu(ha->enq->ulDriveSize[scb->target_id]) > 0x400000 && 4083 (ha->enq->ucMiscFlag & 0x8) == 0) { 4084 heads = IPS_NORM_HEADS; 4085 sectors = IPS_NORM_SECTORS; 4086 } else { 4087 heads = IPS_COMP_HEADS; 4088 sectors = IPS_COMP_SECTORS; 4089 } 4090 4091 cylinders = 4092 (le32_to_cpu(ha->enq->ulDriveSize[scb->target_id]) - 4093 1) / (heads * sectors); 4094 4095 memset(&mdata, 0, sizeof (IPS_SCSI_MODE_PAGE_DATA)); 4096 4097 mdata.hdr.BlockDescLength = 8; 4098 4099 switch (scb->scsi_cmd->cmnd[2] & 0x3f) { 4100 case 0x03: /* page 3 */ 4101 mdata.pdata.pg3.PageCode = 3; 4102 mdata.pdata.pg3.PageLength = sizeof (IPS_SCSI_MODE_PAGE3); 4103 mdata.hdr.DataLength = 4104 3 + mdata.hdr.BlockDescLength + mdata.pdata.pg3.PageLength; 4105 mdata.pdata.pg3.TracksPerZone = 0; 4106 mdata.pdata.pg3.AltSectorsPerZone = 0; 4107 mdata.pdata.pg3.AltTracksPerZone = 0; 4108 mdata.pdata.pg3.AltTracksPerVolume = 0; 4109 mdata.pdata.pg3.SectorsPerTrack = cpu_to_be16(sectors); 4110 mdata.pdata.pg3.BytesPerSector = cpu_to_be16(IPS_BLKSIZE); 4111 mdata.pdata.pg3.Interleave = cpu_to_be16(1); 4112 mdata.pdata.pg3.TrackSkew = 0; 4113 mdata.pdata.pg3.CylinderSkew = 0; 4114 mdata.pdata.pg3.flags = IPS_SCSI_MP3_SoftSector; 4115 break; 4116 4117 case 0x4: 4118 mdata.pdata.pg4.PageCode = 4; 4119 mdata.pdata.pg4.PageLength = sizeof (IPS_SCSI_MODE_PAGE4); 4120 mdata.hdr.DataLength = 4121 3 + mdata.hdr.BlockDescLength + mdata.pdata.pg4.PageLength; 4122 mdata.pdata.pg4.CylindersHigh = 4123 cpu_to_be16((cylinders >> 8) & 0xFFFF); 4124 mdata.pdata.pg4.CylindersLow = (cylinders & 0xFF); 4125 mdata.pdata.pg4.Heads = heads; 4126 mdata.pdata.pg4.WritePrecompHigh = 0; 4127 mdata.pdata.pg4.WritePrecompLow = 0; 4128 mdata.pdata.pg4.ReducedWriteCurrentHigh = 0; 4129 mdata.pdata.pg4.ReducedWriteCurrentLow = 0; 4130 mdata.pdata.pg4.StepRate = cpu_to_be16(1); 4131 mdata.pdata.pg4.LandingZoneHigh = 0; 4132 mdata.pdata.pg4.LandingZoneLow = 0; 4133 mdata.pdata.pg4.flags = 0; 4134 mdata.pdata.pg4.RotationalOffset = 0; 4135 mdata.pdata.pg4.MediumRotationRate = 0; 4136 break; 4137 case 0x8: 4138 mdata.pdata.pg8.PageCode = 8; 4139 mdata.pdata.pg8.PageLength = sizeof (IPS_SCSI_MODE_PAGE8); 4140 mdata.hdr.DataLength = 4141 3 + mdata.hdr.BlockDescLength + mdata.pdata.pg8.PageLength; 4142 /* everything else is left set to 0 */ 4143 break; 4144 4145 default: 4146 return (0); 4147 } /* end switch */ 4148 4149 ips_scmd_buf_write(scb->scsi_cmd, &mdata, sizeof (mdata)); 4150 4151 return (1); 4152 } 4153 4154 /****************************************************************************/ 4155 /* */ 4156 /* Routine Name: ips_reqsen */ 4157 /* */ 4158 /* Routine Description: */ 4159 /* */ 4160 /* Simulate a request sense command to a logical drive */ 4161 /* */ 4162 /****************************************************************************/ 4163 static int 4164 ips_reqsen(ips_ha_t * ha, ips_scb_t * scb) 4165 { 4166 IPS_SCSI_REQSEN reqsen; 4167 4168 METHOD_TRACE("ips_reqsen", 1); 4169 4170 memset(&reqsen, 0, sizeof (IPS_SCSI_REQSEN)); 4171 4172 reqsen.ResponseCode = 4173 IPS_SCSI_REQSEN_VALID | IPS_SCSI_REQSEN_CURRENT_ERR; 4174 reqsen.AdditionalLength = 10; 4175 reqsen.AdditionalSenseCode = IPS_SCSI_REQSEN_NO_SENSE; 4176 reqsen.AdditionalSenseCodeQual = IPS_SCSI_REQSEN_NO_SENSE; 4177 4178 ips_scmd_buf_write(scb->scsi_cmd, &reqsen, sizeof (reqsen)); 4179 4180 return (1); 4181 } 4182 4183 /****************************************************************************/ 4184 /* */ 4185 /* Routine Name: ips_free */ 4186 /* */ 4187 /* Routine Description: */ 4188 /* */ 4189 /* Free any allocated space for this controller */ 4190 /* */ 4191 /****************************************************************************/ 4192 static void 4193 ips_free(ips_ha_t * ha) 4194 { 4195 4196 METHOD_TRACE("ips_free", 1); 4197 4198 if (ha) { 4199 if (ha->enq) { 4200 dma_free_coherent(&ha->pcidev->dev, sizeof(IPS_ENQ), 4201 ha->enq, ha->enq_busaddr); 4202 ha->enq = NULL; 4203 } 4204 4205 kfree(ha->conf); 4206 ha->conf = NULL; 4207 4208 if (ha->adapt) { 4209 dma_free_coherent(&ha->pcidev->dev, 4210 sizeof (IPS_ADAPTER) + 4211 sizeof (IPS_IO_CMD), ha->adapt, 4212 ha->adapt->hw_status_start); 4213 ha->adapt = NULL; 4214 } 4215 4216 if (ha->logical_drive_info) { 4217 dma_free_coherent(&ha->pcidev->dev, 4218 sizeof (IPS_LD_INFO), 4219 ha->logical_drive_info, 4220 ha->logical_drive_info_dma_addr); 4221 ha->logical_drive_info = NULL; 4222 } 4223 4224 kfree(ha->nvram); 4225 ha->nvram = NULL; 4226 4227 kfree(ha->subsys); 4228 ha->subsys = NULL; 4229 4230 if (ha->ioctl_data) { 4231 dma_free_coherent(&ha->pcidev->dev, ha->ioctl_len, 4232 ha->ioctl_data, ha->ioctl_busaddr); 4233 ha->ioctl_data = NULL; 4234 ha->ioctl_datasize = 0; 4235 ha->ioctl_len = 0; 4236 } 4237 ips_deallocatescbs(ha, ha->max_cmds); 4238 4239 /* free memory mapped (if applicable) */ 4240 if (ha->mem_ptr) { 4241 iounmap(ha->ioremap_ptr); 4242 ha->ioremap_ptr = NULL; 4243 ha->mem_ptr = NULL; 4244 } 4245 4246 ha->mem_addr = 0; 4247 4248 } 4249 } 4250 4251 /****************************************************************************/ 4252 /* */ 4253 /* Routine Name: ips_deallocatescbs */ 4254 /* */ 4255 /* Routine Description: */ 4256 /* */ 4257 /* Free the command blocks */ 4258 /* */ 4259 /****************************************************************************/ 4260 static int 4261 ips_deallocatescbs(ips_ha_t * ha, int cmds) 4262 { 4263 if (ha->scbs) { 4264 dma_free_coherent(&ha->pcidev->dev, 4265 IPS_SGLIST_SIZE(ha) * IPS_MAX_SG * cmds, 4266 ha->scbs->sg_list.list, 4267 ha->scbs->sg_busaddr); 4268 dma_free_coherent(&ha->pcidev->dev, sizeof (ips_scb_t) * cmds, 4269 ha->scbs, ha->scbs->scb_busaddr); 4270 ha->scbs = NULL; 4271 } /* end if */ 4272 return 1; 4273 } 4274 4275 /****************************************************************************/ 4276 /* */ 4277 /* Routine Name: ips_allocatescbs */ 4278 /* */ 4279 /* Routine Description: */ 4280 /* */ 4281 /* Allocate the command blocks */ 4282 /* */ 4283 /****************************************************************************/ 4284 static int 4285 ips_allocatescbs(ips_ha_t * ha) 4286 { 4287 ips_scb_t *scb_p; 4288 IPS_SG_LIST ips_sg; 4289 int i; 4290 dma_addr_t command_dma, sg_dma; 4291 4292 METHOD_TRACE("ips_allocatescbs", 1); 4293 4294 /* Allocate memory for the SCBs */ 4295 ha->scbs = dma_alloc_coherent(&ha->pcidev->dev, 4296 ha->max_cmds * sizeof (ips_scb_t), 4297 &command_dma, GFP_KERNEL); 4298 if (ha->scbs == NULL) 4299 return 0; 4300 ips_sg.list = dma_alloc_coherent(&ha->pcidev->dev, 4301 IPS_SGLIST_SIZE(ha) * IPS_MAX_SG * ha->max_cmds, 4302 &sg_dma, GFP_KERNEL); 4303 if (ips_sg.list == NULL) { 4304 dma_free_coherent(&ha->pcidev->dev, 4305 ha->max_cmds * sizeof (ips_scb_t), ha->scbs, 4306 command_dma); 4307 return 0; 4308 } 4309 4310 memset(ha->scbs, 0, ha->max_cmds * sizeof (ips_scb_t)); 4311 4312 for (i = 0; i < ha->max_cmds; i++) { 4313 scb_p = &ha->scbs[i]; 4314 scb_p->scb_busaddr = command_dma + sizeof (ips_scb_t) * i; 4315 /* set up S/G list */ 4316 if (IPS_USE_ENH_SGLIST(ha)) { 4317 scb_p->sg_list.enh_list = 4318 ips_sg.enh_list + i * IPS_MAX_SG; 4319 scb_p->sg_busaddr = 4320 sg_dma + IPS_SGLIST_SIZE(ha) * IPS_MAX_SG * i; 4321 } else { 4322 scb_p->sg_list.std_list = 4323 ips_sg.std_list + i * IPS_MAX_SG; 4324 scb_p->sg_busaddr = 4325 sg_dma + IPS_SGLIST_SIZE(ha) * IPS_MAX_SG * i; 4326 } 4327 4328 /* add to the free list */ 4329 if (i < ha->max_cmds - 1) { 4330 scb_p->q_next = ha->scb_freelist; 4331 ha->scb_freelist = scb_p; 4332 } 4333 } 4334 4335 /* success */ 4336 return (1); 4337 } 4338 4339 /****************************************************************************/ 4340 /* */ 4341 /* Routine Name: ips_init_scb */ 4342 /* */ 4343 /* Routine Description: */ 4344 /* */ 4345 /* Initialize a CCB to default values */ 4346 /* */ 4347 /****************************************************************************/ 4348 static void 4349 ips_init_scb(ips_ha_t * ha, ips_scb_t * scb) 4350 { 4351 IPS_SG_LIST sg_list; 4352 uint32_t cmd_busaddr, sg_busaddr; 4353 METHOD_TRACE("ips_init_scb", 1); 4354 4355 if (scb == NULL) 4356 return; 4357 4358 sg_list.list = scb->sg_list.list; 4359 cmd_busaddr = scb->scb_busaddr; 4360 sg_busaddr = scb->sg_busaddr; 4361 /* zero fill */ 4362 memset(scb, 0, sizeof (ips_scb_t)); 4363 memset(ha->dummy, 0, sizeof (IPS_IO_CMD)); 4364 4365 /* Initialize dummy command bucket */ 4366 ha->dummy->op_code = 0xFF; 4367 ha->dummy->ccsar = cpu_to_le32(ha->adapt->hw_status_start 4368 + sizeof (IPS_ADAPTER)); 4369 ha->dummy->command_id = IPS_MAX_CMDS; 4370 4371 /* set bus address of scb */ 4372 scb->scb_busaddr = cmd_busaddr; 4373 scb->sg_busaddr = sg_busaddr; 4374 scb->sg_list.list = sg_list.list; 4375 4376 /* Neptune Fix */ 4377 scb->cmd.basic_io.cccr = cpu_to_le32((uint32_t) IPS_BIT_ILE); 4378 scb->cmd.basic_io.ccsar = cpu_to_le32(ha->adapt->hw_status_start 4379 + sizeof (IPS_ADAPTER)); 4380 } 4381 4382 /****************************************************************************/ 4383 /* */ 4384 /* Routine Name: ips_get_scb */ 4385 /* */ 4386 /* Routine Description: */ 4387 /* */ 4388 /* Initialize a CCB to default values */ 4389 /* */ 4390 /* ASSUMED to be called from within a lock */ 4391 /* */ 4392 /****************************************************************************/ 4393 static ips_scb_t * 4394 ips_getscb(ips_ha_t * ha) 4395 { 4396 ips_scb_t *scb; 4397 4398 METHOD_TRACE("ips_getscb", 1); 4399 4400 if ((scb = ha->scb_freelist) == NULL) { 4401 4402 return (NULL); 4403 } 4404 4405 ha->scb_freelist = scb->q_next; 4406 scb->flags = 0; 4407 scb->q_next = NULL; 4408 4409 ips_init_scb(ha, scb); 4410 4411 return (scb); 4412 } 4413 4414 /****************************************************************************/ 4415 /* */ 4416 /* Routine Name: ips_free_scb */ 4417 /* */ 4418 /* Routine Description: */ 4419 /* */ 4420 /* Return an unused CCB back to the free list */ 4421 /* */ 4422 /* ASSUMED to be called from within a lock */ 4423 /* */ 4424 /****************************************************************************/ 4425 static void 4426 ips_freescb(ips_ha_t * ha, ips_scb_t * scb) 4427 { 4428 4429 METHOD_TRACE("ips_freescb", 1); 4430 if (scb->flags & IPS_SCB_MAP_SG) 4431 scsi_dma_unmap(scb->scsi_cmd); 4432 else if (scb->flags & IPS_SCB_MAP_SINGLE) 4433 dma_unmap_single(&ha->pcidev->dev, scb->data_busaddr, 4434 scb->data_len, IPS_DMA_DIR(scb)); 4435 4436 /* check to make sure this is not our "special" scb */ 4437 if (IPS_COMMAND_ID(ha, scb) < (ha->max_cmds - 1)) { 4438 scb->q_next = ha->scb_freelist; 4439 ha->scb_freelist = scb; 4440 } 4441 } 4442 4443 /****************************************************************************/ 4444 /* */ 4445 /* Routine Name: ips_isinit_copperhead */ 4446 /* */ 4447 /* Routine Description: */ 4448 /* */ 4449 /* Is controller initialized ? */ 4450 /* */ 4451 /****************************************************************************/ 4452 static int 4453 ips_isinit_copperhead(ips_ha_t * ha) 4454 { 4455 uint8_t scpr; 4456 uint8_t isr; 4457 4458 METHOD_TRACE("ips_isinit_copperhead", 1); 4459 4460 isr = inb(ha->io_addr + IPS_REG_HISR); 4461 scpr = inb(ha->io_addr + IPS_REG_SCPR); 4462 4463 if (((isr & IPS_BIT_EI) == 0) && ((scpr & IPS_BIT_EBM) == 0)) 4464 return (0); 4465 else 4466 return (1); 4467 } 4468 4469 /****************************************************************************/ 4470 /* */ 4471 /* Routine Name: ips_isinit_copperhead_memio */ 4472 /* */ 4473 /* Routine Description: */ 4474 /* */ 4475 /* Is controller initialized ? */ 4476 /* */ 4477 /****************************************************************************/ 4478 static int 4479 ips_isinit_copperhead_memio(ips_ha_t * ha) 4480 { 4481 uint8_t isr = 0; 4482 uint8_t scpr; 4483 4484 METHOD_TRACE("ips_is_init_copperhead_memio", 1); 4485 4486 isr = readb(ha->mem_ptr + IPS_REG_HISR); 4487 scpr = readb(ha->mem_ptr + IPS_REG_SCPR); 4488 4489 if (((isr & IPS_BIT_EI) == 0) && ((scpr & IPS_BIT_EBM) == 0)) 4490 return (0); 4491 else 4492 return (1); 4493 } 4494 4495 /****************************************************************************/ 4496 /* */ 4497 /* Routine Name: ips_isinit_morpheus */ 4498 /* */ 4499 /* Routine Description: */ 4500 /* */ 4501 /* Is controller initialized ? */ 4502 /* */ 4503 /****************************************************************************/ 4504 static int 4505 ips_isinit_morpheus(ips_ha_t * ha) 4506 { 4507 uint32_t post; 4508 uint32_t bits; 4509 4510 METHOD_TRACE("ips_is_init_morpheus", 1); 4511 4512 if (ips_isintr_morpheus(ha)) 4513 ips_flush_and_reset(ha); 4514 4515 post = readl(ha->mem_ptr + IPS_REG_I960_MSG0); 4516 bits = readl(ha->mem_ptr + IPS_REG_I2O_HIR); 4517 4518 if (post == 0) 4519 return (0); 4520 else if (bits & 0x3) 4521 return (0); 4522 else 4523 return (1); 4524 } 4525 4526 /****************************************************************************/ 4527 /* */ 4528 /* Routine Name: ips_flush_and_reset */ 4529 /* */ 4530 /* Routine Description: */ 4531 /* */ 4532 /* Perform cleanup ( FLUSH and RESET ) when the adapter is in an unknown */ 4533 /* state ( was trying to INIT and an interrupt was already pending ) ... */ 4534 /* */ 4535 /****************************************************************************/ 4536 static void 4537 ips_flush_and_reset(ips_ha_t *ha) 4538 { 4539 ips_scb_t *scb; 4540 int ret; 4541 int time; 4542 int done; 4543 dma_addr_t command_dma; 4544 4545 /* Create a usuable SCB */ 4546 scb = dma_alloc_coherent(&ha->pcidev->dev, sizeof(ips_scb_t), 4547 &command_dma, GFP_KERNEL); 4548 if (scb) { 4549 memset(scb, 0, sizeof(ips_scb_t)); 4550 ips_init_scb(ha, scb); 4551 scb->scb_busaddr = command_dma; 4552 4553 scb->timeout = ips_cmd_timeout; 4554 scb->cdb[0] = IPS_CMD_FLUSH; 4555 4556 scb->cmd.flush_cache.op_code = IPS_CMD_FLUSH; 4557 scb->cmd.flush_cache.command_id = IPS_MAX_CMDS; /* Use an ID that would otherwise not exist */ 4558 scb->cmd.flush_cache.state = IPS_NORM_STATE; 4559 scb->cmd.flush_cache.reserved = 0; 4560 scb->cmd.flush_cache.reserved2 = 0; 4561 scb->cmd.flush_cache.reserved3 = 0; 4562 scb->cmd.flush_cache.reserved4 = 0; 4563 4564 ret = ips_send_cmd(ha, scb); /* Send the Flush Command */ 4565 4566 if (ret == IPS_SUCCESS) { 4567 time = 60 * IPS_ONE_SEC; /* Max Wait time is 60 seconds */ 4568 done = 0; 4569 4570 while ((time > 0) && (!done)) { 4571 done = ips_poll_for_flush_complete(ha); 4572 /* This may look evil, but it's only done during extremely rare start-up conditions ! */ 4573 udelay(1000); 4574 time--; 4575 } 4576 } 4577 } 4578 4579 /* Now RESET and INIT the adapter */ 4580 (*ha->func.reset) (ha); 4581 4582 dma_free_coherent(&ha->pcidev->dev, sizeof(ips_scb_t), scb, command_dma); 4583 return; 4584 } 4585 4586 /****************************************************************************/ 4587 /* */ 4588 /* Routine Name: ips_poll_for_flush_complete */ 4589 /* */ 4590 /* Routine Description: */ 4591 /* */ 4592 /* Poll for the Flush Command issued by ips_flush_and_reset() to complete */ 4593 /* All other responses are just taken off the queue and ignored */ 4594 /* */ 4595 /****************************************************************************/ 4596 static int 4597 ips_poll_for_flush_complete(ips_ha_t * ha) 4598 { 4599 IPS_STATUS cstatus; 4600 4601 while (true) { 4602 cstatus.value = (*ha->func.statupd) (ha); 4603 4604 if (cstatus.value == 0xffffffff) /* If No Interrupt to process */ 4605 break; 4606 4607 /* Success is when we see the Flush Command ID */ 4608 if (cstatus.fields.command_id == IPS_MAX_CMDS) 4609 return 1; 4610 } 4611 4612 return 0; 4613 } 4614 4615 /****************************************************************************/ 4616 /* */ 4617 /* Routine Name: ips_enable_int_copperhead */ 4618 /* */ 4619 /* Routine Description: */ 4620 /* Turn on interrupts */ 4621 /* */ 4622 /****************************************************************************/ 4623 static void 4624 ips_enable_int_copperhead(ips_ha_t * ha) 4625 { 4626 METHOD_TRACE("ips_enable_int_copperhead", 1); 4627 4628 outb(ha->io_addr + IPS_REG_HISR, IPS_BIT_EI); 4629 inb(ha->io_addr + IPS_REG_HISR); /*Ensure PCI Posting Completes*/ 4630 } 4631 4632 /****************************************************************************/ 4633 /* */ 4634 /* Routine Name: ips_enable_int_copperhead_memio */ 4635 /* */ 4636 /* Routine Description: */ 4637 /* Turn on interrupts */ 4638 /* */ 4639 /****************************************************************************/ 4640 static void 4641 ips_enable_int_copperhead_memio(ips_ha_t * ha) 4642 { 4643 METHOD_TRACE("ips_enable_int_copperhead_memio", 1); 4644 4645 writeb(IPS_BIT_EI, ha->mem_ptr + IPS_REG_HISR); 4646 readb(ha->mem_ptr + IPS_REG_HISR); /*Ensure PCI Posting Completes*/ 4647 } 4648 4649 /****************************************************************************/ 4650 /* */ 4651 /* Routine Name: ips_enable_int_morpheus */ 4652 /* */ 4653 /* Routine Description: */ 4654 /* Turn on interrupts */ 4655 /* */ 4656 /****************************************************************************/ 4657 static void 4658 ips_enable_int_morpheus(ips_ha_t * ha) 4659 { 4660 uint32_t Oimr; 4661 4662 METHOD_TRACE("ips_enable_int_morpheus", 1); 4663 4664 Oimr = readl(ha->mem_ptr + IPS_REG_I960_OIMR); 4665 Oimr &= ~0x08; 4666 writel(Oimr, ha->mem_ptr + IPS_REG_I960_OIMR); 4667 readl(ha->mem_ptr + IPS_REG_I960_OIMR); /*Ensure PCI Posting Completes*/ 4668 } 4669 4670 /****************************************************************************/ 4671 /* */ 4672 /* Routine Name: ips_init_copperhead */ 4673 /* */ 4674 /* Routine Description: */ 4675 /* */ 4676 /* Initialize a copperhead controller */ 4677 /* */ 4678 /****************************************************************************/ 4679 static int 4680 ips_init_copperhead(ips_ha_t * ha) 4681 { 4682 uint8_t Isr; 4683 uint8_t Cbsp; 4684 uint8_t PostByte[IPS_MAX_POST_BYTES]; 4685 int i, j; 4686 4687 METHOD_TRACE("ips_init_copperhead", 1); 4688 4689 for (i = 0; i < IPS_MAX_POST_BYTES; i++) { 4690 for (j = 0; j < 45; j++) { 4691 Isr = inb(ha->io_addr + IPS_REG_HISR); 4692 if (Isr & IPS_BIT_GHI) 4693 break; 4694 4695 /* Delay for 1 Second */ 4696 MDELAY(IPS_ONE_SEC); 4697 } 4698 4699 if (j >= 45) 4700 /* error occurred */ 4701 return (0); 4702 4703 PostByte[i] = inb(ha->io_addr + IPS_REG_ISPR); 4704 outb(Isr, ha->io_addr + IPS_REG_HISR); 4705 } 4706 4707 if (PostByte[0] < IPS_GOOD_POST_STATUS) { 4708 IPS_PRINTK(KERN_WARNING, ha->pcidev, 4709 "reset controller fails (post status %x %x).\n", 4710 PostByte[0], PostByte[1]); 4711 4712 return (0); 4713 } 4714 4715 for (i = 0; i < IPS_MAX_CONFIG_BYTES; i++) { 4716 for (j = 0; j < 240; j++) { 4717 Isr = inb(ha->io_addr + IPS_REG_HISR); 4718 if (Isr & IPS_BIT_GHI) 4719 break; 4720 4721 /* Delay for 1 Second */ 4722 MDELAY(IPS_ONE_SEC); 4723 } 4724 4725 if (j >= 240) 4726 /* error occurred */ 4727 return (0); 4728 4729 inb(ha->io_addr + IPS_REG_ISPR); 4730 outb(Isr, ha->io_addr + IPS_REG_HISR); 4731 } 4732 4733 for (i = 0; i < 240; i++) { 4734 Cbsp = inb(ha->io_addr + IPS_REG_CBSP); 4735 4736 if ((Cbsp & IPS_BIT_OP) == 0) 4737 break; 4738 4739 /* Delay for 1 Second */ 4740 MDELAY(IPS_ONE_SEC); 4741 } 4742 4743 if (i >= 240) 4744 /* reset failed */ 4745 return (0); 4746 4747 /* setup CCCR */ 4748 outl(0x1010, ha->io_addr + IPS_REG_CCCR); 4749 4750 /* Enable busmastering */ 4751 outb(IPS_BIT_EBM, ha->io_addr + IPS_REG_SCPR); 4752 4753 if (ha->pcidev->revision == IPS_REVID_TROMBONE64) 4754 /* fix for anaconda64 */ 4755 outl(0, ha->io_addr + IPS_REG_NDAE); 4756 4757 /* Enable interrupts */ 4758 outb(IPS_BIT_EI, ha->io_addr + IPS_REG_HISR); 4759 4760 return (1); 4761 } 4762 4763 /****************************************************************************/ 4764 /* */ 4765 /* Routine Name: ips_init_copperhead_memio */ 4766 /* */ 4767 /* Routine Description: */ 4768 /* */ 4769 /* Initialize a copperhead controller with memory mapped I/O */ 4770 /* */ 4771 /****************************************************************************/ 4772 static int 4773 ips_init_copperhead_memio(ips_ha_t * ha) 4774 { 4775 uint8_t Isr = 0; 4776 uint8_t Cbsp; 4777 uint8_t PostByte[IPS_MAX_POST_BYTES]; 4778 int i, j; 4779 4780 METHOD_TRACE("ips_init_copperhead_memio", 1); 4781 4782 for (i = 0; i < IPS_MAX_POST_BYTES; i++) { 4783 for (j = 0; j < 45; j++) { 4784 Isr = readb(ha->mem_ptr + IPS_REG_HISR); 4785 if (Isr & IPS_BIT_GHI) 4786 break; 4787 4788 /* Delay for 1 Second */ 4789 MDELAY(IPS_ONE_SEC); 4790 } 4791 4792 if (j >= 45) 4793 /* error occurred */ 4794 return (0); 4795 4796 PostByte[i] = readb(ha->mem_ptr + IPS_REG_ISPR); 4797 writeb(Isr, ha->mem_ptr + IPS_REG_HISR); 4798 } 4799 4800 if (PostByte[0] < IPS_GOOD_POST_STATUS) { 4801 IPS_PRINTK(KERN_WARNING, ha->pcidev, 4802 "reset controller fails (post status %x %x).\n", 4803 PostByte[0], PostByte[1]); 4804 4805 return (0); 4806 } 4807 4808 for (i = 0; i < IPS_MAX_CONFIG_BYTES; i++) { 4809 for (j = 0; j < 240; j++) { 4810 Isr = readb(ha->mem_ptr + IPS_REG_HISR); 4811 if (Isr & IPS_BIT_GHI) 4812 break; 4813 4814 /* Delay for 1 Second */ 4815 MDELAY(IPS_ONE_SEC); 4816 } 4817 4818 if (j >= 240) 4819 /* error occurred */ 4820 return (0); 4821 4822 readb(ha->mem_ptr + IPS_REG_ISPR); 4823 writeb(Isr, ha->mem_ptr + IPS_REG_HISR); 4824 } 4825 4826 for (i = 0; i < 240; i++) { 4827 Cbsp = readb(ha->mem_ptr + IPS_REG_CBSP); 4828 4829 if ((Cbsp & IPS_BIT_OP) == 0) 4830 break; 4831 4832 /* Delay for 1 Second */ 4833 MDELAY(IPS_ONE_SEC); 4834 } 4835 4836 if (i >= 240) 4837 /* error occurred */ 4838 return (0); 4839 4840 /* setup CCCR */ 4841 writel(0x1010, ha->mem_ptr + IPS_REG_CCCR); 4842 4843 /* Enable busmastering */ 4844 writeb(IPS_BIT_EBM, ha->mem_ptr + IPS_REG_SCPR); 4845 4846 if (ha->pcidev->revision == IPS_REVID_TROMBONE64) 4847 /* fix for anaconda64 */ 4848 writel(0, ha->mem_ptr + IPS_REG_NDAE); 4849 4850 /* Enable interrupts */ 4851 writeb(IPS_BIT_EI, ha->mem_ptr + IPS_REG_HISR); 4852 4853 /* if we get here then everything went OK */ 4854 return (1); 4855 } 4856 4857 /****************************************************************************/ 4858 /* */ 4859 /* Routine Name: ips_init_morpheus */ 4860 /* */ 4861 /* Routine Description: */ 4862 /* */ 4863 /* Initialize a morpheus controller */ 4864 /* */ 4865 /****************************************************************************/ 4866 static int 4867 ips_init_morpheus(ips_ha_t * ha) 4868 { 4869 uint32_t Post; 4870 uint32_t Config; 4871 uint32_t Isr; 4872 uint32_t Oimr; 4873 int i; 4874 4875 METHOD_TRACE("ips_init_morpheus", 1); 4876 4877 /* Wait up to 45 secs for Post */ 4878 for (i = 0; i < 45; i++) { 4879 Isr = readl(ha->mem_ptr + IPS_REG_I2O_HIR); 4880 4881 if (Isr & IPS_BIT_I960_MSG0I) 4882 break; 4883 4884 /* Delay for 1 Second */ 4885 MDELAY(IPS_ONE_SEC); 4886 } 4887 4888 if (i >= 45) { 4889 /* error occurred */ 4890 IPS_PRINTK(KERN_WARNING, ha->pcidev, 4891 "timeout waiting for post.\n"); 4892 4893 return (0); 4894 } 4895 4896 Post = readl(ha->mem_ptr + IPS_REG_I960_MSG0); 4897 4898 if (Post == 0x4F00) { /* If Flashing the Battery PIC */ 4899 IPS_PRINTK(KERN_WARNING, ha->pcidev, 4900 "Flashing Battery PIC, Please wait ...\n"); 4901 4902 /* Clear the interrupt bit */ 4903 Isr = (uint32_t) IPS_BIT_I960_MSG0I; 4904 writel(Isr, ha->mem_ptr + IPS_REG_I2O_HIR); 4905 4906 for (i = 0; i < 120; i++) { /* Wait Up to 2 Min. for Completion */ 4907 Post = readl(ha->mem_ptr + IPS_REG_I960_MSG0); 4908 if (Post != 0x4F00) 4909 break; 4910 /* Delay for 1 Second */ 4911 MDELAY(IPS_ONE_SEC); 4912 } 4913 4914 if (i >= 120) { 4915 IPS_PRINTK(KERN_WARNING, ha->pcidev, 4916 "timeout waiting for Battery PIC Flash\n"); 4917 return (0); 4918 } 4919 4920 } 4921 4922 /* Clear the interrupt bit */ 4923 Isr = (uint32_t) IPS_BIT_I960_MSG0I; 4924 writel(Isr, ha->mem_ptr + IPS_REG_I2O_HIR); 4925 4926 if (Post < (IPS_GOOD_POST_STATUS << 8)) { 4927 IPS_PRINTK(KERN_WARNING, ha->pcidev, 4928 "reset controller fails (post status %x).\n", Post); 4929 4930 return (0); 4931 } 4932 4933 /* Wait up to 240 secs for config bytes */ 4934 for (i = 0; i < 240; i++) { 4935 Isr = readl(ha->mem_ptr + IPS_REG_I2O_HIR); 4936 4937 if (Isr & IPS_BIT_I960_MSG1I) 4938 break; 4939 4940 /* Delay for 1 Second */ 4941 MDELAY(IPS_ONE_SEC); 4942 } 4943 4944 if (i >= 240) { 4945 /* error occurred */ 4946 IPS_PRINTK(KERN_WARNING, ha->pcidev, 4947 "timeout waiting for config.\n"); 4948 4949 return (0); 4950 } 4951 4952 Config = readl(ha->mem_ptr + IPS_REG_I960_MSG1); 4953 4954 /* Clear interrupt bit */ 4955 Isr = (uint32_t) IPS_BIT_I960_MSG1I; 4956 writel(Isr, ha->mem_ptr + IPS_REG_I2O_HIR); 4957 4958 /* Turn on the interrupts */ 4959 Oimr = readl(ha->mem_ptr + IPS_REG_I960_OIMR); 4960 Oimr &= ~0x8; 4961 writel(Oimr, ha->mem_ptr + IPS_REG_I960_OIMR); 4962 4963 /* if we get here then everything went OK */ 4964 4965 /* Since we did a RESET, an EraseStripeLock may be needed */ 4966 if (Post == 0xEF10) { 4967 if ((Config == 0x000F) || (Config == 0x0009)) 4968 ha->requires_esl = 1; 4969 } 4970 4971 return (1); 4972 } 4973 4974 /****************************************************************************/ 4975 /* */ 4976 /* Routine Name: ips_reset_copperhead */ 4977 /* */ 4978 /* Routine Description: */ 4979 /* */ 4980 /* Reset the controller */ 4981 /* */ 4982 /****************************************************************************/ 4983 static int 4984 ips_reset_copperhead(ips_ha_t * ha) 4985 { 4986 int reset_counter; 4987 4988 METHOD_TRACE("ips_reset_copperhead", 1); 4989 4990 DEBUG_VAR(1, "(%s%d) ips_reset_copperhead: io addr: %x, irq: %d", 4991 ips_name, ha->host_num, ha->io_addr, ha->pcidev->irq); 4992 4993 reset_counter = 0; 4994 4995 while (reset_counter < 2) { 4996 reset_counter++; 4997 4998 outb(IPS_BIT_RST, ha->io_addr + IPS_REG_SCPR); 4999 5000 /* Delay for 1 Second */ 5001 MDELAY(IPS_ONE_SEC); 5002 5003 outb(0, ha->io_addr + IPS_REG_SCPR); 5004 5005 /* Delay for 1 Second */ 5006 MDELAY(IPS_ONE_SEC); 5007 5008 if ((*ha->func.init) (ha)) 5009 break; 5010 else if (reset_counter >= 2) { 5011 5012 return (0); 5013 } 5014 } 5015 5016 return (1); 5017 } 5018 5019 /****************************************************************************/ 5020 /* */ 5021 /* Routine Name: ips_reset_copperhead_memio */ 5022 /* */ 5023 /* Routine Description: */ 5024 /* */ 5025 /* Reset the controller */ 5026 /* */ 5027 /****************************************************************************/ 5028 static int 5029 ips_reset_copperhead_memio(ips_ha_t * ha) 5030 { 5031 int reset_counter; 5032 5033 METHOD_TRACE("ips_reset_copperhead_memio", 1); 5034 5035 DEBUG_VAR(1, "(%s%d) ips_reset_copperhead_memio: mem addr: %x, irq: %d", 5036 ips_name, ha->host_num, ha->mem_addr, ha->pcidev->irq); 5037 5038 reset_counter = 0; 5039 5040 while (reset_counter < 2) { 5041 reset_counter++; 5042 5043 writeb(IPS_BIT_RST, ha->mem_ptr + IPS_REG_SCPR); 5044 5045 /* Delay for 1 Second */ 5046 MDELAY(IPS_ONE_SEC); 5047 5048 writeb(0, ha->mem_ptr + IPS_REG_SCPR); 5049 5050 /* Delay for 1 Second */ 5051 MDELAY(IPS_ONE_SEC); 5052 5053 if ((*ha->func.init) (ha)) 5054 break; 5055 else if (reset_counter >= 2) { 5056 5057 return (0); 5058 } 5059 } 5060 5061 return (1); 5062 } 5063 5064 /****************************************************************************/ 5065 /* */ 5066 /* Routine Name: ips_reset_morpheus */ 5067 /* */ 5068 /* Routine Description: */ 5069 /* */ 5070 /* Reset the controller */ 5071 /* */ 5072 /****************************************************************************/ 5073 static int 5074 ips_reset_morpheus(ips_ha_t * ha) 5075 { 5076 int reset_counter; 5077 uint8_t junk; 5078 5079 METHOD_TRACE("ips_reset_morpheus", 1); 5080 5081 DEBUG_VAR(1, "(%s%d) ips_reset_morpheus: mem addr: %x, irq: %d", 5082 ips_name, ha->host_num, ha->mem_addr, ha->pcidev->irq); 5083 5084 reset_counter = 0; 5085 5086 while (reset_counter < 2) { 5087 reset_counter++; 5088 5089 writel(0x80000000, ha->mem_ptr + IPS_REG_I960_IDR); 5090 5091 /* Delay for 5 Seconds */ 5092 MDELAY(5 * IPS_ONE_SEC); 5093 5094 /* Do a PCI config read to wait for adapter */ 5095 pci_read_config_byte(ha->pcidev, 4, &junk); 5096 5097 if ((*ha->func.init) (ha)) 5098 break; 5099 else if (reset_counter >= 2) { 5100 5101 return (0); 5102 } 5103 } 5104 5105 return (1); 5106 } 5107 5108 /****************************************************************************/ 5109 /* */ 5110 /* Routine Name: ips_statinit */ 5111 /* */ 5112 /* Routine Description: */ 5113 /* */ 5114 /* Initialize the status queues on the controller */ 5115 /* */ 5116 /****************************************************************************/ 5117 static void 5118 ips_statinit(ips_ha_t * ha) 5119 { 5120 uint32_t phys_status_start; 5121 5122 METHOD_TRACE("ips_statinit", 1); 5123 5124 ha->adapt->p_status_start = ha->adapt->status; 5125 ha->adapt->p_status_end = ha->adapt->status + IPS_MAX_CMDS; 5126 ha->adapt->p_status_tail = ha->adapt->status; 5127 5128 phys_status_start = ha->adapt->hw_status_start; 5129 outl(phys_status_start, ha->io_addr + IPS_REG_SQSR); 5130 outl(phys_status_start + IPS_STATUS_Q_SIZE, 5131 ha->io_addr + IPS_REG_SQER); 5132 outl(phys_status_start + IPS_STATUS_SIZE, 5133 ha->io_addr + IPS_REG_SQHR); 5134 outl(phys_status_start, ha->io_addr + IPS_REG_SQTR); 5135 5136 ha->adapt->hw_status_tail = phys_status_start; 5137 } 5138 5139 /****************************************************************************/ 5140 /* */ 5141 /* Routine Name: ips_statinit_memio */ 5142 /* */ 5143 /* Routine Description: */ 5144 /* */ 5145 /* Initialize the status queues on the controller */ 5146 /* */ 5147 /****************************************************************************/ 5148 static void 5149 ips_statinit_memio(ips_ha_t * ha) 5150 { 5151 uint32_t phys_status_start; 5152 5153 METHOD_TRACE("ips_statinit_memio", 1); 5154 5155 ha->adapt->p_status_start = ha->adapt->status; 5156 ha->adapt->p_status_end = ha->adapt->status + IPS_MAX_CMDS; 5157 ha->adapt->p_status_tail = ha->adapt->status; 5158 5159 phys_status_start = ha->adapt->hw_status_start; 5160 writel(phys_status_start, ha->mem_ptr + IPS_REG_SQSR); 5161 writel(phys_status_start + IPS_STATUS_Q_SIZE, 5162 ha->mem_ptr + IPS_REG_SQER); 5163 writel(phys_status_start + IPS_STATUS_SIZE, ha->mem_ptr + IPS_REG_SQHR); 5164 writel(phys_status_start, ha->mem_ptr + IPS_REG_SQTR); 5165 5166 ha->adapt->hw_status_tail = phys_status_start; 5167 } 5168 5169 /****************************************************************************/ 5170 /* */ 5171 /* Routine Name: ips_statupd_copperhead */ 5172 /* */ 5173 /* Routine Description: */ 5174 /* */ 5175 /* Remove an element from the status queue */ 5176 /* */ 5177 /****************************************************************************/ 5178 static uint32_t 5179 ips_statupd_copperhead(ips_ha_t * ha) 5180 { 5181 METHOD_TRACE("ips_statupd_copperhead", 1); 5182 5183 if (ha->adapt->p_status_tail != ha->adapt->p_status_end) { 5184 ha->adapt->p_status_tail++; 5185 ha->adapt->hw_status_tail += sizeof (IPS_STATUS); 5186 } else { 5187 ha->adapt->p_status_tail = ha->adapt->p_status_start; 5188 ha->adapt->hw_status_tail = ha->adapt->hw_status_start; 5189 } 5190 5191 outl(ha->adapt->hw_status_tail, 5192 ha->io_addr + IPS_REG_SQTR); 5193 5194 return (ha->adapt->p_status_tail->value); 5195 } 5196 5197 /****************************************************************************/ 5198 /* */ 5199 /* Routine Name: ips_statupd_copperhead_memio */ 5200 /* */ 5201 /* Routine Description: */ 5202 /* */ 5203 /* Remove an element from the status queue */ 5204 /* */ 5205 /****************************************************************************/ 5206 static uint32_t 5207 ips_statupd_copperhead_memio(ips_ha_t * ha) 5208 { 5209 METHOD_TRACE("ips_statupd_copperhead_memio", 1); 5210 5211 if (ha->adapt->p_status_tail != ha->adapt->p_status_end) { 5212 ha->adapt->p_status_tail++; 5213 ha->adapt->hw_status_tail += sizeof (IPS_STATUS); 5214 } else { 5215 ha->adapt->p_status_tail = ha->adapt->p_status_start; 5216 ha->adapt->hw_status_tail = ha->adapt->hw_status_start; 5217 } 5218 5219 writel(ha->adapt->hw_status_tail, ha->mem_ptr + IPS_REG_SQTR); 5220 5221 return (ha->adapt->p_status_tail->value); 5222 } 5223 5224 /****************************************************************************/ 5225 /* */ 5226 /* Routine Name: ips_statupd_morpheus */ 5227 /* */ 5228 /* Routine Description: */ 5229 /* */ 5230 /* Remove an element from the status queue */ 5231 /* */ 5232 /****************************************************************************/ 5233 static uint32_t 5234 ips_statupd_morpheus(ips_ha_t * ha) 5235 { 5236 uint32_t val; 5237 5238 METHOD_TRACE("ips_statupd_morpheus", 1); 5239 5240 val = readl(ha->mem_ptr + IPS_REG_I2O_OUTMSGQ); 5241 5242 return (val); 5243 } 5244 5245 /****************************************************************************/ 5246 /* */ 5247 /* Routine Name: ips_issue_copperhead */ 5248 /* */ 5249 /* Routine Description: */ 5250 /* */ 5251 /* Send a command down to the controller */ 5252 /* */ 5253 /****************************************************************************/ 5254 static int 5255 ips_issue_copperhead(ips_ha_t * ha, ips_scb_t * scb) 5256 { 5257 uint32_t TimeOut; 5258 uint32_t val; 5259 5260 METHOD_TRACE("ips_issue_copperhead", 1); 5261 5262 if (scb->scsi_cmd) { 5263 DEBUG_VAR(2, "(%s%d) ips_issue: cmd 0x%X id %d (%d %d %d)", 5264 ips_name, 5265 ha->host_num, 5266 scb->cdb[0], 5267 scb->cmd.basic_io.command_id, 5268 scb->bus, scb->target_id, scb->lun); 5269 } else { 5270 DEBUG_VAR(2, KERN_NOTICE "(%s%d) ips_issue: logical cmd id %d", 5271 ips_name, ha->host_num, scb->cmd.basic_io.command_id); 5272 } 5273 5274 TimeOut = 0; 5275 5276 while ((val = 5277 le32_to_cpu(inl(ha->io_addr + IPS_REG_CCCR))) & IPS_BIT_SEM) { 5278 udelay(1000); 5279 5280 if (++TimeOut >= IPS_SEM_TIMEOUT) { 5281 if (!(val & IPS_BIT_START_STOP)) 5282 break; 5283 5284 IPS_PRINTK(KERN_WARNING, ha->pcidev, 5285 "ips_issue val [0x%x].\n", val); 5286 IPS_PRINTK(KERN_WARNING, ha->pcidev, 5287 "ips_issue semaphore chk timeout.\n"); 5288 5289 return (IPS_FAILURE); 5290 } /* end if */ 5291 } /* end while */ 5292 5293 outl(scb->scb_busaddr, ha->io_addr + IPS_REG_CCSAR); 5294 outw(IPS_BIT_START_CMD, ha->io_addr + IPS_REG_CCCR); 5295 5296 return (IPS_SUCCESS); 5297 } 5298 5299 /****************************************************************************/ 5300 /* */ 5301 /* Routine Name: ips_issue_copperhead_memio */ 5302 /* */ 5303 /* Routine Description: */ 5304 /* */ 5305 /* Send a command down to the controller */ 5306 /* */ 5307 /****************************************************************************/ 5308 static int 5309 ips_issue_copperhead_memio(ips_ha_t * ha, ips_scb_t * scb) 5310 { 5311 uint32_t TimeOut; 5312 uint32_t val; 5313 5314 METHOD_TRACE("ips_issue_copperhead_memio", 1); 5315 5316 if (scb->scsi_cmd) { 5317 DEBUG_VAR(2, "(%s%d) ips_issue: cmd 0x%X id %d (%d %d %d)", 5318 ips_name, 5319 ha->host_num, 5320 scb->cdb[0], 5321 scb->cmd.basic_io.command_id, 5322 scb->bus, scb->target_id, scb->lun); 5323 } else { 5324 DEBUG_VAR(2, "(%s%d) ips_issue: logical cmd id %d", 5325 ips_name, ha->host_num, scb->cmd.basic_io.command_id); 5326 } 5327 5328 TimeOut = 0; 5329 5330 while ((val = readl(ha->mem_ptr + IPS_REG_CCCR)) & IPS_BIT_SEM) { 5331 udelay(1000); 5332 5333 if (++TimeOut >= IPS_SEM_TIMEOUT) { 5334 if (!(val & IPS_BIT_START_STOP)) 5335 break; 5336 5337 IPS_PRINTK(KERN_WARNING, ha->pcidev, 5338 "ips_issue val [0x%x].\n", val); 5339 IPS_PRINTK(KERN_WARNING, ha->pcidev, 5340 "ips_issue semaphore chk timeout.\n"); 5341 5342 return (IPS_FAILURE); 5343 } /* end if */ 5344 } /* end while */ 5345 5346 writel(scb->scb_busaddr, ha->mem_ptr + IPS_REG_CCSAR); 5347 writel(IPS_BIT_START_CMD, ha->mem_ptr + IPS_REG_CCCR); 5348 5349 return (IPS_SUCCESS); 5350 } 5351 5352 /****************************************************************************/ 5353 /* */ 5354 /* Routine Name: ips_issue_i2o */ 5355 /* */ 5356 /* Routine Description: */ 5357 /* */ 5358 /* Send a command down to the controller */ 5359 /* */ 5360 /****************************************************************************/ 5361 static int 5362 ips_issue_i2o(ips_ha_t * ha, ips_scb_t * scb) 5363 { 5364 5365 METHOD_TRACE("ips_issue_i2o", 1); 5366 5367 if (scb->scsi_cmd) { 5368 DEBUG_VAR(2, "(%s%d) ips_issue: cmd 0x%X id %d (%d %d %d)", 5369 ips_name, 5370 ha->host_num, 5371 scb->cdb[0], 5372 scb->cmd.basic_io.command_id, 5373 scb->bus, scb->target_id, scb->lun); 5374 } else { 5375 DEBUG_VAR(2, "(%s%d) ips_issue: logical cmd id %d", 5376 ips_name, ha->host_num, scb->cmd.basic_io.command_id); 5377 } 5378 5379 outl(scb->scb_busaddr, ha->io_addr + IPS_REG_I2O_INMSGQ); 5380 5381 return (IPS_SUCCESS); 5382 } 5383 5384 /****************************************************************************/ 5385 /* */ 5386 /* Routine Name: ips_issue_i2o_memio */ 5387 /* */ 5388 /* Routine Description: */ 5389 /* */ 5390 /* Send a command down to the controller */ 5391 /* */ 5392 /****************************************************************************/ 5393 static int 5394 ips_issue_i2o_memio(ips_ha_t * ha, ips_scb_t * scb) 5395 { 5396 5397 METHOD_TRACE("ips_issue_i2o_memio", 1); 5398 5399 if (scb->scsi_cmd) { 5400 DEBUG_VAR(2, "(%s%d) ips_issue: cmd 0x%X id %d (%d %d %d)", 5401 ips_name, 5402 ha->host_num, 5403 scb->cdb[0], 5404 scb->cmd.basic_io.command_id, 5405 scb->bus, scb->target_id, scb->lun); 5406 } else { 5407 DEBUG_VAR(2, "(%s%d) ips_issue: logical cmd id %d", 5408 ips_name, ha->host_num, scb->cmd.basic_io.command_id); 5409 } 5410 5411 writel(scb->scb_busaddr, ha->mem_ptr + IPS_REG_I2O_INMSGQ); 5412 5413 return (IPS_SUCCESS); 5414 } 5415 5416 /****************************************************************************/ 5417 /* */ 5418 /* Routine Name: ips_isintr_copperhead */ 5419 /* */ 5420 /* Routine Description: */ 5421 /* */ 5422 /* Test to see if an interrupt is for us */ 5423 /* */ 5424 /****************************************************************************/ 5425 static int 5426 ips_isintr_copperhead(ips_ha_t * ha) 5427 { 5428 uint8_t Isr; 5429 5430 METHOD_TRACE("ips_isintr_copperhead", 2); 5431 5432 Isr = inb(ha->io_addr + IPS_REG_HISR); 5433 5434 if (Isr == 0xFF) 5435 /* ?!?! Nothing really there */ 5436 return (0); 5437 5438 if (Isr & IPS_BIT_SCE) 5439 return (1); 5440 else if (Isr & (IPS_BIT_SQO | IPS_BIT_GHI)) { 5441 /* status queue overflow or GHI */ 5442 /* just clear the interrupt */ 5443 outb(Isr, ha->io_addr + IPS_REG_HISR); 5444 } 5445 5446 return (0); 5447 } 5448 5449 /****************************************************************************/ 5450 /* */ 5451 /* Routine Name: ips_isintr_copperhead_memio */ 5452 /* */ 5453 /* Routine Description: */ 5454 /* */ 5455 /* Test to see if an interrupt is for us */ 5456 /* */ 5457 /****************************************************************************/ 5458 static int 5459 ips_isintr_copperhead_memio(ips_ha_t * ha) 5460 { 5461 uint8_t Isr; 5462 5463 METHOD_TRACE("ips_isintr_memio", 2); 5464 5465 Isr = readb(ha->mem_ptr + IPS_REG_HISR); 5466 5467 if (Isr == 0xFF) 5468 /* ?!?! Nothing really there */ 5469 return (0); 5470 5471 if (Isr & IPS_BIT_SCE) 5472 return (1); 5473 else if (Isr & (IPS_BIT_SQO | IPS_BIT_GHI)) { 5474 /* status queue overflow or GHI */ 5475 /* just clear the interrupt */ 5476 writeb(Isr, ha->mem_ptr + IPS_REG_HISR); 5477 } 5478 5479 return (0); 5480 } 5481 5482 /****************************************************************************/ 5483 /* */ 5484 /* Routine Name: ips_isintr_morpheus */ 5485 /* */ 5486 /* Routine Description: */ 5487 /* */ 5488 /* Test to see if an interrupt is for us */ 5489 /* */ 5490 /****************************************************************************/ 5491 static int 5492 ips_isintr_morpheus(ips_ha_t * ha) 5493 { 5494 uint32_t Isr; 5495 5496 METHOD_TRACE("ips_isintr_morpheus", 2); 5497 5498 Isr = readl(ha->mem_ptr + IPS_REG_I2O_HIR); 5499 5500 if (Isr & IPS_BIT_I2O_OPQI) 5501 return (1); 5502 else 5503 return (0); 5504 } 5505 5506 /****************************************************************************/ 5507 /* */ 5508 /* Routine Name: ips_wait */ 5509 /* */ 5510 /* Routine Description: */ 5511 /* */ 5512 /* Wait for a command to complete */ 5513 /* */ 5514 /****************************************************************************/ 5515 static int 5516 ips_wait(ips_ha_t * ha, int time, int intr) 5517 { 5518 int ret; 5519 int done; 5520 5521 METHOD_TRACE("ips_wait", 1); 5522 5523 ret = IPS_FAILURE; 5524 done = false; 5525 5526 time *= IPS_ONE_SEC; /* convert seconds */ 5527 5528 while ((time > 0) && (!done)) { 5529 if (intr == IPS_INTR_ON) { 5530 if (!ha->waitflag) { 5531 ret = IPS_SUCCESS; 5532 done = true; 5533 break; 5534 } 5535 } else if (intr == IPS_INTR_IORL) { 5536 if (!ha->waitflag) { 5537 /* 5538 * controller generated an interrupt to 5539 * acknowledge completion of the command 5540 * and ips_intr() has serviced the interrupt. 5541 */ 5542 ret = IPS_SUCCESS; 5543 done = true; 5544 break; 5545 } 5546 5547 /* 5548 * NOTE: we already have the io_request_lock so 5549 * even if we get an interrupt it won't get serviced 5550 * until after we finish. 5551 */ 5552 5553 (*ha->func.intr) (ha); 5554 } 5555 5556 /* This looks like a very evil loop, but it only does this during start-up */ 5557 udelay(1000); 5558 time--; 5559 } 5560 5561 return (ret); 5562 } 5563 5564 /****************************************************************************/ 5565 /* */ 5566 /* Routine Name: ips_write_driver_status */ 5567 /* */ 5568 /* Routine Description: */ 5569 /* */ 5570 /* Write OS/Driver version to Page 5 of the nvram on the controller */ 5571 /* */ 5572 /****************************************************************************/ 5573 static int 5574 ips_write_driver_status(ips_ha_t * ha, int intr) 5575 { 5576 METHOD_TRACE("ips_write_driver_status", 1); 5577 5578 if (!ips_readwrite_page5(ha, false, intr)) { 5579 IPS_PRINTK(KERN_WARNING, ha->pcidev, 5580 "unable to read NVRAM page 5.\n"); 5581 5582 return (0); 5583 } 5584 5585 /* check to make sure the page has a valid */ 5586 /* signature */ 5587 if (le32_to_cpu(ha->nvram->signature) != IPS_NVRAM_P5_SIG) { 5588 DEBUG_VAR(1, 5589 "(%s%d) NVRAM page 5 has an invalid signature: %X.", 5590 ips_name, ha->host_num, ha->nvram->signature); 5591 ha->nvram->signature = IPS_NVRAM_P5_SIG; 5592 } 5593 5594 DEBUG_VAR(2, 5595 "(%s%d) Ad Type: %d, Ad Slot: %d, BIOS: %c%c%c%c %c%c%c%c.", 5596 ips_name, ha->host_num, le16_to_cpu(ha->nvram->adapter_type), 5597 ha->nvram->adapter_slot, ha->nvram->bios_high[0], 5598 ha->nvram->bios_high[1], ha->nvram->bios_high[2], 5599 ha->nvram->bios_high[3], ha->nvram->bios_low[0], 5600 ha->nvram->bios_low[1], ha->nvram->bios_low[2], 5601 ha->nvram->bios_low[3]); 5602 5603 ips_get_bios_version(ha, intr); 5604 5605 /* change values (as needed) */ 5606 ha->nvram->operating_system = IPS_OS_LINUX; 5607 ha->nvram->adapter_type = ha->ad_type; 5608 memcpy((char *) ha->nvram->driver_high, IPS_VERSION_HIGH, 4); 5609 memcpy((char *) ha->nvram->driver_low, IPS_VERSION_LOW, 4); 5610 memcpy((char *) ha->nvram->bios_high, ha->bios_version, 4); 5611 memcpy((char *) ha->nvram->bios_low, ha->bios_version + 4, 4); 5612 5613 ha->nvram->versioning = 0; /* Indicate the Driver Does Not Support Versioning */ 5614 5615 /* now update the page */ 5616 if (!ips_readwrite_page5(ha, true, intr)) { 5617 IPS_PRINTK(KERN_WARNING, ha->pcidev, 5618 "unable to write NVRAM page 5.\n"); 5619 5620 return (0); 5621 } 5622 5623 /* IF NVRAM Page 5 is OK, Use it for Slot Number Info Because Linux Doesn't Do Slots */ 5624 ha->slot_num = ha->nvram->adapter_slot; 5625 5626 return (1); 5627 } 5628 5629 /****************************************************************************/ 5630 /* */ 5631 /* Routine Name: ips_read_adapter_status */ 5632 /* */ 5633 /* Routine Description: */ 5634 /* */ 5635 /* Do an Inquiry command to the adapter */ 5636 /* */ 5637 /****************************************************************************/ 5638 static int 5639 ips_read_adapter_status(ips_ha_t * ha, int intr) 5640 { 5641 ips_scb_t *scb; 5642 int ret; 5643 5644 METHOD_TRACE("ips_read_adapter_status", 1); 5645 5646 scb = &ha->scbs[ha->max_cmds - 1]; 5647 5648 ips_init_scb(ha, scb); 5649 5650 scb->timeout = ips_cmd_timeout; 5651 scb->cdb[0] = IPS_CMD_ENQUIRY; 5652 5653 scb->cmd.basic_io.op_code = IPS_CMD_ENQUIRY; 5654 scb->cmd.basic_io.command_id = IPS_COMMAND_ID(ha, scb); 5655 scb->cmd.basic_io.sg_count = 0; 5656 scb->cmd.basic_io.lba = 0; 5657 scb->cmd.basic_io.sector_count = 0; 5658 scb->cmd.basic_io.log_drv = 0; 5659 scb->data_len = sizeof (*ha->enq); 5660 scb->cmd.basic_io.sg_addr = ha->enq_busaddr; 5661 5662 /* send command */ 5663 if (((ret = 5664 ips_send_wait(ha, scb, ips_cmd_timeout, intr)) == IPS_FAILURE) 5665 || (ret == IPS_SUCCESS_IMM) 5666 || ((scb->basic_status & IPS_GSC_STATUS_MASK) > 1)) 5667 return (0); 5668 5669 return (1); 5670 } 5671 5672 /****************************************************************************/ 5673 /* */ 5674 /* Routine Name: ips_read_subsystem_parameters */ 5675 /* */ 5676 /* Routine Description: */ 5677 /* */ 5678 /* Read subsystem parameters from the adapter */ 5679 /* */ 5680 /****************************************************************************/ 5681 static int 5682 ips_read_subsystem_parameters(ips_ha_t * ha, int intr) 5683 { 5684 ips_scb_t *scb; 5685 int ret; 5686 5687 METHOD_TRACE("ips_read_subsystem_parameters", 1); 5688 5689 scb = &ha->scbs[ha->max_cmds - 1]; 5690 5691 ips_init_scb(ha, scb); 5692 5693 scb->timeout = ips_cmd_timeout; 5694 scb->cdb[0] = IPS_CMD_GET_SUBSYS; 5695 5696 scb->cmd.basic_io.op_code = IPS_CMD_GET_SUBSYS; 5697 scb->cmd.basic_io.command_id = IPS_COMMAND_ID(ha, scb); 5698 scb->cmd.basic_io.sg_count = 0; 5699 scb->cmd.basic_io.lba = 0; 5700 scb->cmd.basic_io.sector_count = 0; 5701 scb->cmd.basic_io.log_drv = 0; 5702 scb->data_len = sizeof (*ha->subsys); 5703 scb->cmd.basic_io.sg_addr = ha->ioctl_busaddr; 5704 5705 /* send command */ 5706 if (((ret = 5707 ips_send_wait(ha, scb, ips_cmd_timeout, intr)) == IPS_FAILURE) 5708 || (ret == IPS_SUCCESS_IMM) 5709 || ((scb->basic_status & IPS_GSC_STATUS_MASK) > 1)) 5710 return (0); 5711 5712 memcpy(ha->subsys, ha->ioctl_data, sizeof(*ha->subsys)); 5713 return (1); 5714 } 5715 5716 /****************************************************************************/ 5717 /* */ 5718 /* Routine Name: ips_read_config */ 5719 /* */ 5720 /* Routine Description: */ 5721 /* */ 5722 /* Read the configuration on the adapter */ 5723 /* */ 5724 /****************************************************************************/ 5725 static int 5726 ips_read_config(ips_ha_t * ha, int intr) 5727 { 5728 ips_scb_t *scb; 5729 int i; 5730 int ret; 5731 5732 METHOD_TRACE("ips_read_config", 1); 5733 5734 /* set defaults for initiator IDs */ 5735 for (i = 0; i < 4; i++) 5736 ha->conf->init_id[i] = 7; 5737 5738 scb = &ha->scbs[ha->max_cmds - 1]; 5739 5740 ips_init_scb(ha, scb); 5741 5742 scb->timeout = ips_cmd_timeout; 5743 scb->cdb[0] = IPS_CMD_READ_CONF; 5744 5745 scb->cmd.basic_io.op_code = IPS_CMD_READ_CONF; 5746 scb->cmd.basic_io.command_id = IPS_COMMAND_ID(ha, scb); 5747 scb->data_len = sizeof (*ha->conf); 5748 scb->cmd.basic_io.sg_addr = ha->ioctl_busaddr; 5749 5750 /* send command */ 5751 if (((ret = 5752 ips_send_wait(ha, scb, ips_cmd_timeout, intr)) == IPS_FAILURE) 5753 || (ret == IPS_SUCCESS_IMM) 5754 || ((scb->basic_status & IPS_GSC_STATUS_MASK) > 1)) { 5755 5756 memset(ha->conf, 0, sizeof (IPS_CONF)); 5757 5758 /* reset initiator IDs */ 5759 for (i = 0; i < 4; i++) 5760 ha->conf->init_id[i] = 7; 5761 5762 /* Allow Completed with Errors, so JCRM can access the Adapter to fix the problems */ 5763 if ((scb->basic_status & IPS_GSC_STATUS_MASK) == 5764 IPS_CMD_CMPLT_WERROR) 5765 return (1); 5766 5767 return (0); 5768 } 5769 5770 memcpy(ha->conf, ha->ioctl_data, sizeof(*ha->conf)); 5771 return (1); 5772 } 5773 5774 /****************************************************************************/ 5775 /* */ 5776 /* Routine Name: ips_readwrite_page5 */ 5777 /* */ 5778 /* Routine Description: */ 5779 /* */ 5780 /* Read nvram page 5 from the adapter */ 5781 /* */ 5782 /****************************************************************************/ 5783 static int 5784 ips_readwrite_page5(ips_ha_t * ha, int write, int intr) 5785 { 5786 ips_scb_t *scb; 5787 int ret; 5788 5789 METHOD_TRACE("ips_readwrite_page5", 1); 5790 5791 scb = &ha->scbs[ha->max_cmds - 1]; 5792 5793 ips_init_scb(ha, scb); 5794 5795 scb->timeout = ips_cmd_timeout; 5796 scb->cdb[0] = IPS_CMD_RW_NVRAM_PAGE; 5797 5798 scb->cmd.nvram.op_code = IPS_CMD_RW_NVRAM_PAGE; 5799 scb->cmd.nvram.command_id = IPS_COMMAND_ID(ha, scb); 5800 scb->cmd.nvram.page = 5; 5801 scb->cmd.nvram.write = write; 5802 scb->cmd.nvram.reserved = 0; 5803 scb->cmd.nvram.reserved2 = 0; 5804 scb->data_len = sizeof (*ha->nvram); 5805 scb->cmd.nvram.buffer_addr = ha->ioctl_busaddr; 5806 if (write) 5807 memcpy(ha->ioctl_data, ha->nvram, sizeof(*ha->nvram)); 5808 5809 /* issue the command */ 5810 if (((ret = 5811 ips_send_wait(ha, scb, ips_cmd_timeout, intr)) == IPS_FAILURE) 5812 || (ret == IPS_SUCCESS_IMM) 5813 || ((scb->basic_status & IPS_GSC_STATUS_MASK) > 1)) { 5814 5815 memset(ha->nvram, 0, sizeof (IPS_NVRAM_P5)); 5816 5817 return (0); 5818 } 5819 if (!write) 5820 memcpy(ha->nvram, ha->ioctl_data, sizeof(*ha->nvram)); 5821 return (1); 5822 } 5823 5824 /****************************************************************************/ 5825 /* */ 5826 /* Routine Name: ips_clear_adapter */ 5827 /* */ 5828 /* Routine Description: */ 5829 /* */ 5830 /* Clear the stripe lock tables */ 5831 /* */ 5832 /****************************************************************************/ 5833 static int 5834 ips_clear_adapter(ips_ha_t * ha, int intr) 5835 { 5836 ips_scb_t *scb; 5837 int ret; 5838 5839 METHOD_TRACE("ips_clear_adapter", 1); 5840 5841 scb = &ha->scbs[ha->max_cmds - 1]; 5842 5843 ips_init_scb(ha, scb); 5844 5845 scb->timeout = ips_reset_timeout; 5846 scb->cdb[0] = IPS_CMD_CONFIG_SYNC; 5847 5848 scb->cmd.config_sync.op_code = IPS_CMD_CONFIG_SYNC; 5849 scb->cmd.config_sync.command_id = IPS_COMMAND_ID(ha, scb); 5850 scb->cmd.config_sync.channel = 0; 5851 scb->cmd.config_sync.source_target = IPS_POCL; 5852 scb->cmd.config_sync.reserved = 0; 5853 scb->cmd.config_sync.reserved2 = 0; 5854 scb->cmd.config_sync.reserved3 = 0; 5855 5856 /* issue command */ 5857 if (((ret = 5858 ips_send_wait(ha, scb, ips_reset_timeout, intr)) == IPS_FAILURE) 5859 || (ret == IPS_SUCCESS_IMM) 5860 || ((scb->basic_status & IPS_GSC_STATUS_MASK) > 1)) 5861 return (0); 5862 5863 /* send unlock stripe command */ 5864 ips_init_scb(ha, scb); 5865 5866 scb->cdb[0] = IPS_CMD_ERROR_TABLE; 5867 scb->timeout = ips_reset_timeout; 5868 5869 scb->cmd.unlock_stripe.op_code = IPS_CMD_ERROR_TABLE; 5870 scb->cmd.unlock_stripe.command_id = IPS_COMMAND_ID(ha, scb); 5871 scb->cmd.unlock_stripe.log_drv = 0; 5872 scb->cmd.unlock_stripe.control = IPS_CSL; 5873 scb->cmd.unlock_stripe.reserved = 0; 5874 scb->cmd.unlock_stripe.reserved2 = 0; 5875 scb->cmd.unlock_stripe.reserved3 = 0; 5876 5877 /* issue command */ 5878 if (((ret = 5879 ips_send_wait(ha, scb, ips_cmd_timeout, intr)) == IPS_FAILURE) 5880 || (ret == IPS_SUCCESS_IMM) 5881 || ((scb->basic_status & IPS_GSC_STATUS_MASK) > 1)) 5882 return (0); 5883 5884 return (1); 5885 } 5886 5887 /****************************************************************************/ 5888 /* */ 5889 /* Routine Name: ips_ffdc_reset */ 5890 /* */ 5891 /* Routine Description: */ 5892 /* */ 5893 /* FFDC: write reset info */ 5894 /* */ 5895 /****************************************************************************/ 5896 static void 5897 ips_ffdc_reset(ips_ha_t * ha, int intr) 5898 { 5899 ips_scb_t *scb; 5900 5901 METHOD_TRACE("ips_ffdc_reset", 1); 5902 5903 scb = &ha->scbs[ha->max_cmds - 1]; 5904 5905 ips_init_scb(ha, scb); 5906 5907 scb->timeout = ips_cmd_timeout; 5908 scb->cdb[0] = IPS_CMD_FFDC; 5909 scb->cmd.ffdc.op_code = IPS_CMD_FFDC; 5910 scb->cmd.ffdc.command_id = IPS_COMMAND_ID(ha, scb); 5911 scb->cmd.ffdc.reset_count = ha->reset_count; 5912 scb->cmd.ffdc.reset_type = 0x80; 5913 5914 /* convert time to what the card wants */ 5915 ips_fix_ffdc_time(ha, scb, ha->last_ffdc); 5916 5917 /* issue command */ 5918 ips_send_wait(ha, scb, ips_cmd_timeout, intr); 5919 } 5920 5921 /****************************************************************************/ 5922 /* */ 5923 /* Routine Name: ips_ffdc_time */ 5924 /* */ 5925 /* Routine Description: */ 5926 /* */ 5927 /* FFDC: write time info */ 5928 /* */ 5929 /****************************************************************************/ 5930 static void 5931 ips_ffdc_time(ips_ha_t * ha) 5932 { 5933 ips_scb_t *scb; 5934 5935 METHOD_TRACE("ips_ffdc_time", 1); 5936 5937 DEBUG_VAR(1, "(%s%d) Sending time update.", ips_name, ha->host_num); 5938 5939 scb = &ha->scbs[ha->max_cmds - 1]; 5940 5941 ips_init_scb(ha, scb); 5942 5943 scb->timeout = ips_cmd_timeout; 5944 scb->cdb[0] = IPS_CMD_FFDC; 5945 scb->cmd.ffdc.op_code = IPS_CMD_FFDC; 5946 scb->cmd.ffdc.command_id = IPS_COMMAND_ID(ha, scb); 5947 scb->cmd.ffdc.reset_count = 0; 5948 scb->cmd.ffdc.reset_type = 0; 5949 5950 /* convert time to what the card wants */ 5951 ips_fix_ffdc_time(ha, scb, ha->last_ffdc); 5952 5953 /* issue command */ 5954 ips_send_wait(ha, scb, ips_cmd_timeout, IPS_FFDC); 5955 } 5956 5957 /****************************************************************************/ 5958 /* */ 5959 /* Routine Name: ips_fix_ffdc_time */ 5960 /* */ 5961 /* Routine Description: */ 5962 /* Adjust time_t to what the card wants */ 5963 /* */ 5964 /****************************************************************************/ 5965 static void 5966 ips_fix_ffdc_time(ips_ha_t * ha, ips_scb_t * scb, time64_t current_time) 5967 { 5968 struct tm tm; 5969 5970 METHOD_TRACE("ips_fix_ffdc_time", 1); 5971 5972 time64_to_tm(current_time, 0, &tm); 5973 5974 scb->cmd.ffdc.hour = tm.tm_hour; 5975 scb->cmd.ffdc.minute = tm.tm_min; 5976 scb->cmd.ffdc.second = tm.tm_sec; 5977 scb->cmd.ffdc.yearH = (tm.tm_year + 1900) / 100; 5978 scb->cmd.ffdc.yearL = tm.tm_year % 100; 5979 scb->cmd.ffdc.month = tm.tm_mon + 1; 5980 scb->cmd.ffdc.day = tm.tm_mday; 5981 } 5982 5983 /**************************************************************************** 5984 * BIOS Flash Routines * 5985 ****************************************************************************/ 5986 5987 /****************************************************************************/ 5988 /* */ 5989 /* Routine Name: ips_erase_bios */ 5990 /* */ 5991 /* Routine Description: */ 5992 /* Erase the BIOS on the adapter */ 5993 /* */ 5994 /****************************************************************************/ 5995 static int 5996 ips_erase_bios(ips_ha_t * ha) 5997 { 5998 int timeout; 5999 uint8_t status = 0; 6000 6001 METHOD_TRACE("ips_erase_bios", 1); 6002 6003 status = 0; 6004 6005 /* Clear the status register */ 6006 outl(0, ha->io_addr + IPS_REG_FLAP); 6007 if (ha->pcidev->revision == IPS_REVID_TROMBONE64) 6008 udelay(25); /* 25 us */ 6009 6010 outb(0x50, ha->io_addr + IPS_REG_FLDP); 6011 if (ha->pcidev->revision == IPS_REVID_TROMBONE64) 6012 udelay(25); /* 25 us */ 6013 6014 /* Erase Setup */ 6015 outb(0x20, ha->io_addr + IPS_REG_FLDP); 6016 if (ha->pcidev->revision == IPS_REVID_TROMBONE64) 6017 udelay(25); /* 25 us */ 6018 6019 /* Erase Confirm */ 6020 outb(0xD0, ha->io_addr + IPS_REG_FLDP); 6021 if (ha->pcidev->revision == IPS_REVID_TROMBONE64) 6022 udelay(25); /* 25 us */ 6023 6024 /* Erase Status */ 6025 outb(0x70, ha->io_addr + IPS_REG_FLDP); 6026 if (ha->pcidev->revision == IPS_REVID_TROMBONE64) 6027 udelay(25); /* 25 us */ 6028 6029 timeout = 80000; /* 80 seconds */ 6030 6031 while (timeout > 0) { 6032 if (ha->pcidev->revision == IPS_REVID_TROMBONE64) { 6033 outl(0, ha->io_addr + IPS_REG_FLAP); 6034 udelay(25); /* 25 us */ 6035 } 6036 6037 status = inb(ha->io_addr + IPS_REG_FLDP); 6038 6039 if (status & 0x80) 6040 break; 6041 6042 MDELAY(1); 6043 timeout--; 6044 } 6045 6046 /* check for timeout */ 6047 if (timeout <= 0) { 6048 /* timeout */ 6049 6050 /* try to suspend the erase */ 6051 outb(0xB0, ha->io_addr + IPS_REG_FLDP); 6052 if (ha->pcidev->revision == IPS_REVID_TROMBONE64) 6053 udelay(25); /* 25 us */ 6054 6055 /* wait for 10 seconds */ 6056 timeout = 10000; 6057 while (timeout > 0) { 6058 if (ha->pcidev->revision == IPS_REVID_TROMBONE64) { 6059 outl(0, ha->io_addr + IPS_REG_FLAP); 6060 udelay(25); /* 25 us */ 6061 } 6062 6063 status = inb(ha->io_addr + IPS_REG_FLDP); 6064 6065 if (status & 0xC0) 6066 break; 6067 6068 MDELAY(1); 6069 timeout--; 6070 } 6071 6072 return (1); 6073 } 6074 6075 /* check for valid VPP */ 6076 if (status & 0x08) 6077 /* VPP failure */ 6078 return (1); 6079 6080 /* check for successful flash */ 6081 if (status & 0x30) 6082 /* sequence error */ 6083 return (1); 6084 6085 /* Otherwise, we were successful */ 6086 /* clear status */ 6087 outb(0x50, ha->io_addr + IPS_REG_FLDP); 6088 if (ha->pcidev->revision == IPS_REVID_TROMBONE64) 6089 udelay(25); /* 25 us */ 6090 6091 /* enable reads */ 6092 outb(0xFF, ha->io_addr + IPS_REG_FLDP); 6093 if (ha->pcidev->revision == IPS_REVID_TROMBONE64) 6094 udelay(25); /* 25 us */ 6095 6096 return (0); 6097 } 6098 6099 /****************************************************************************/ 6100 /* */ 6101 /* Routine Name: ips_erase_bios_memio */ 6102 /* */ 6103 /* Routine Description: */ 6104 /* Erase the BIOS on the adapter */ 6105 /* */ 6106 /****************************************************************************/ 6107 static int 6108 ips_erase_bios_memio(ips_ha_t * ha) 6109 { 6110 int timeout; 6111 uint8_t status; 6112 6113 METHOD_TRACE("ips_erase_bios_memio", 1); 6114 6115 status = 0; 6116 6117 /* Clear the status register */ 6118 writel(0, ha->mem_ptr + IPS_REG_FLAP); 6119 if (ha->pcidev->revision == IPS_REVID_TROMBONE64) 6120 udelay(25); /* 25 us */ 6121 6122 writeb(0x50, ha->mem_ptr + IPS_REG_FLDP); 6123 if (ha->pcidev->revision == IPS_REVID_TROMBONE64) 6124 udelay(25); /* 25 us */ 6125 6126 /* Erase Setup */ 6127 writeb(0x20, ha->mem_ptr + IPS_REG_FLDP); 6128 if (ha->pcidev->revision == IPS_REVID_TROMBONE64) 6129 udelay(25); /* 25 us */ 6130 6131 /* Erase Confirm */ 6132 writeb(0xD0, ha->mem_ptr + IPS_REG_FLDP); 6133 if (ha->pcidev->revision == IPS_REVID_TROMBONE64) 6134 udelay(25); /* 25 us */ 6135 6136 /* Erase Status */ 6137 writeb(0x70, ha->mem_ptr + IPS_REG_FLDP); 6138 if (ha->pcidev->revision == IPS_REVID_TROMBONE64) 6139 udelay(25); /* 25 us */ 6140 6141 timeout = 80000; /* 80 seconds */ 6142 6143 while (timeout > 0) { 6144 if (ha->pcidev->revision == IPS_REVID_TROMBONE64) { 6145 writel(0, ha->mem_ptr + IPS_REG_FLAP); 6146 udelay(25); /* 25 us */ 6147 } 6148 6149 status = readb(ha->mem_ptr + IPS_REG_FLDP); 6150 6151 if (status & 0x80) 6152 break; 6153 6154 MDELAY(1); 6155 timeout--; 6156 } 6157 6158 /* check for timeout */ 6159 if (timeout <= 0) { 6160 /* timeout */ 6161 6162 /* try to suspend the erase */ 6163 writeb(0xB0, ha->mem_ptr + IPS_REG_FLDP); 6164 if (ha->pcidev->revision == IPS_REVID_TROMBONE64) 6165 udelay(25); /* 25 us */ 6166 6167 /* wait for 10 seconds */ 6168 timeout = 10000; 6169 while (timeout > 0) { 6170 if (ha->pcidev->revision == IPS_REVID_TROMBONE64) { 6171 writel(0, ha->mem_ptr + IPS_REG_FLAP); 6172 udelay(25); /* 25 us */ 6173 } 6174 6175 status = readb(ha->mem_ptr + IPS_REG_FLDP); 6176 6177 if (status & 0xC0) 6178 break; 6179 6180 MDELAY(1); 6181 timeout--; 6182 } 6183 6184 return (1); 6185 } 6186 6187 /* check for valid VPP */ 6188 if (status & 0x08) 6189 /* VPP failure */ 6190 return (1); 6191 6192 /* check for successful flash */ 6193 if (status & 0x30) 6194 /* sequence error */ 6195 return (1); 6196 6197 /* Otherwise, we were successful */ 6198 /* clear status */ 6199 writeb(0x50, ha->mem_ptr + IPS_REG_FLDP); 6200 if (ha->pcidev->revision == IPS_REVID_TROMBONE64) 6201 udelay(25); /* 25 us */ 6202 6203 /* enable reads */ 6204 writeb(0xFF, ha->mem_ptr + IPS_REG_FLDP); 6205 if (ha->pcidev->revision == IPS_REVID_TROMBONE64) 6206 udelay(25); /* 25 us */ 6207 6208 return (0); 6209 } 6210 6211 /****************************************************************************/ 6212 /* */ 6213 /* Routine Name: ips_program_bios */ 6214 /* */ 6215 /* Routine Description: */ 6216 /* Program the BIOS on the adapter */ 6217 /* */ 6218 /****************************************************************************/ 6219 static int 6220 ips_program_bios(ips_ha_t * ha, char *buffer, uint32_t buffersize, 6221 uint32_t offset) 6222 { 6223 int i; 6224 int timeout; 6225 uint8_t status = 0; 6226 6227 METHOD_TRACE("ips_program_bios", 1); 6228 6229 status = 0; 6230 6231 for (i = 0; i < buffersize; i++) { 6232 /* write a byte */ 6233 outl(i + offset, ha->io_addr + IPS_REG_FLAP); 6234 if (ha->pcidev->revision == IPS_REVID_TROMBONE64) 6235 udelay(25); /* 25 us */ 6236 6237 outb(0x40, ha->io_addr + IPS_REG_FLDP); 6238 if (ha->pcidev->revision == IPS_REVID_TROMBONE64) 6239 udelay(25); /* 25 us */ 6240 6241 outb(buffer[i], ha->io_addr + IPS_REG_FLDP); 6242 if (ha->pcidev->revision == IPS_REVID_TROMBONE64) 6243 udelay(25); /* 25 us */ 6244 6245 /* wait up to one second */ 6246 timeout = 1000; 6247 while (timeout > 0) { 6248 if (ha->pcidev->revision == IPS_REVID_TROMBONE64) { 6249 outl(0, ha->io_addr + IPS_REG_FLAP); 6250 udelay(25); /* 25 us */ 6251 } 6252 6253 status = inb(ha->io_addr + IPS_REG_FLDP); 6254 6255 if (status & 0x80) 6256 break; 6257 6258 MDELAY(1); 6259 timeout--; 6260 } 6261 6262 if (timeout == 0) { 6263 /* timeout error */ 6264 outl(0, ha->io_addr + IPS_REG_FLAP); 6265 if (ha->pcidev->revision == IPS_REVID_TROMBONE64) 6266 udelay(25); /* 25 us */ 6267 6268 outb(0xFF, ha->io_addr + IPS_REG_FLDP); 6269 if (ha->pcidev->revision == IPS_REVID_TROMBONE64) 6270 udelay(25); /* 25 us */ 6271 6272 return (1); 6273 } 6274 6275 /* check the status */ 6276 if (status & 0x18) { 6277 /* programming error */ 6278 outl(0, ha->io_addr + IPS_REG_FLAP); 6279 if (ha->pcidev->revision == IPS_REVID_TROMBONE64) 6280 udelay(25); /* 25 us */ 6281 6282 outb(0xFF, ha->io_addr + IPS_REG_FLDP); 6283 if (ha->pcidev->revision == IPS_REVID_TROMBONE64) 6284 udelay(25); /* 25 us */ 6285 6286 return (1); 6287 } 6288 } /* end for */ 6289 6290 /* Enable reading */ 6291 outl(0, ha->io_addr + IPS_REG_FLAP); 6292 if (ha->pcidev->revision == IPS_REVID_TROMBONE64) 6293 udelay(25); /* 25 us */ 6294 6295 outb(0xFF, ha->io_addr + IPS_REG_FLDP); 6296 if (ha->pcidev->revision == IPS_REVID_TROMBONE64) 6297 udelay(25); /* 25 us */ 6298 6299 return (0); 6300 } 6301 6302 /****************************************************************************/ 6303 /* */ 6304 /* Routine Name: ips_program_bios_memio */ 6305 /* */ 6306 /* Routine Description: */ 6307 /* Program the BIOS on the adapter */ 6308 /* */ 6309 /****************************************************************************/ 6310 static int 6311 ips_program_bios_memio(ips_ha_t * ha, char *buffer, uint32_t buffersize, 6312 uint32_t offset) 6313 { 6314 int i; 6315 int timeout; 6316 uint8_t status = 0; 6317 6318 METHOD_TRACE("ips_program_bios_memio", 1); 6319 6320 status = 0; 6321 6322 for (i = 0; i < buffersize; i++) { 6323 /* write a byte */ 6324 writel(i + offset, ha->mem_ptr + IPS_REG_FLAP); 6325 if (ha->pcidev->revision == IPS_REVID_TROMBONE64) 6326 udelay(25); /* 25 us */ 6327 6328 writeb(0x40, ha->mem_ptr + IPS_REG_FLDP); 6329 if (ha->pcidev->revision == IPS_REVID_TROMBONE64) 6330 udelay(25); /* 25 us */ 6331 6332 writeb(buffer[i], ha->mem_ptr + IPS_REG_FLDP); 6333 if (ha->pcidev->revision == IPS_REVID_TROMBONE64) 6334 udelay(25); /* 25 us */ 6335 6336 /* wait up to one second */ 6337 timeout = 1000; 6338 while (timeout > 0) { 6339 if (ha->pcidev->revision == IPS_REVID_TROMBONE64) { 6340 writel(0, ha->mem_ptr + IPS_REG_FLAP); 6341 udelay(25); /* 25 us */ 6342 } 6343 6344 status = readb(ha->mem_ptr + IPS_REG_FLDP); 6345 6346 if (status & 0x80) 6347 break; 6348 6349 MDELAY(1); 6350 timeout--; 6351 } 6352 6353 if (timeout == 0) { 6354 /* timeout error */ 6355 writel(0, ha->mem_ptr + IPS_REG_FLAP); 6356 if (ha->pcidev->revision == IPS_REVID_TROMBONE64) 6357 udelay(25); /* 25 us */ 6358 6359 writeb(0xFF, ha->mem_ptr + IPS_REG_FLDP); 6360 if (ha->pcidev->revision == IPS_REVID_TROMBONE64) 6361 udelay(25); /* 25 us */ 6362 6363 return (1); 6364 } 6365 6366 /* check the status */ 6367 if (status & 0x18) { 6368 /* programming error */ 6369 writel(0, ha->mem_ptr + IPS_REG_FLAP); 6370 if (ha->pcidev->revision == IPS_REVID_TROMBONE64) 6371 udelay(25); /* 25 us */ 6372 6373 writeb(0xFF, ha->mem_ptr + IPS_REG_FLDP); 6374 if (ha->pcidev->revision == IPS_REVID_TROMBONE64) 6375 udelay(25); /* 25 us */ 6376 6377 return (1); 6378 } 6379 } /* end for */ 6380 6381 /* Enable reading */ 6382 writel(0, ha->mem_ptr + IPS_REG_FLAP); 6383 if (ha->pcidev->revision == IPS_REVID_TROMBONE64) 6384 udelay(25); /* 25 us */ 6385 6386 writeb(0xFF, ha->mem_ptr + IPS_REG_FLDP); 6387 if (ha->pcidev->revision == IPS_REVID_TROMBONE64) 6388 udelay(25); /* 25 us */ 6389 6390 return (0); 6391 } 6392 6393 /****************************************************************************/ 6394 /* */ 6395 /* Routine Name: ips_verify_bios */ 6396 /* */ 6397 /* Routine Description: */ 6398 /* Verify the BIOS on the adapter */ 6399 /* */ 6400 /****************************************************************************/ 6401 static int 6402 ips_verify_bios(ips_ha_t * ha, char *buffer, uint32_t buffersize, 6403 uint32_t offset) 6404 { 6405 uint8_t checksum; 6406 int i; 6407 6408 METHOD_TRACE("ips_verify_bios", 1); 6409 6410 /* test 1st byte */ 6411 outl(0, ha->io_addr + IPS_REG_FLAP); 6412 if (ha->pcidev->revision == IPS_REVID_TROMBONE64) 6413 udelay(25); /* 25 us */ 6414 6415 if (inb(ha->io_addr + IPS_REG_FLDP) != 0x55) 6416 return (1); 6417 6418 outl(1, ha->io_addr + IPS_REG_FLAP); 6419 if (ha->pcidev->revision == IPS_REVID_TROMBONE64) 6420 udelay(25); /* 25 us */ 6421 if (inb(ha->io_addr + IPS_REG_FLDP) != 0xAA) 6422 return (1); 6423 6424 checksum = 0xff; 6425 for (i = 2; i < buffersize; i++) { 6426 6427 outl(i + offset, ha->io_addr + IPS_REG_FLAP); 6428 if (ha->pcidev->revision == IPS_REVID_TROMBONE64) 6429 udelay(25); /* 25 us */ 6430 6431 checksum = (uint8_t) checksum + inb(ha->io_addr + IPS_REG_FLDP); 6432 } 6433 6434 if (checksum != 0) 6435 /* failure */ 6436 return (1); 6437 else 6438 /* success */ 6439 return (0); 6440 } 6441 6442 /****************************************************************************/ 6443 /* */ 6444 /* Routine Name: ips_verify_bios_memio */ 6445 /* */ 6446 /* Routine Description: */ 6447 /* Verify the BIOS on the adapter */ 6448 /* */ 6449 /****************************************************************************/ 6450 static int 6451 ips_verify_bios_memio(ips_ha_t * ha, char *buffer, uint32_t buffersize, 6452 uint32_t offset) 6453 { 6454 uint8_t checksum; 6455 int i; 6456 6457 METHOD_TRACE("ips_verify_bios_memio", 1); 6458 6459 /* test 1st byte */ 6460 writel(0, ha->mem_ptr + IPS_REG_FLAP); 6461 if (ha->pcidev->revision == IPS_REVID_TROMBONE64) 6462 udelay(25); /* 25 us */ 6463 6464 if (readb(ha->mem_ptr + IPS_REG_FLDP) != 0x55) 6465 return (1); 6466 6467 writel(1, ha->mem_ptr + IPS_REG_FLAP); 6468 if (ha->pcidev->revision == IPS_REVID_TROMBONE64) 6469 udelay(25); /* 25 us */ 6470 if (readb(ha->mem_ptr + IPS_REG_FLDP) != 0xAA) 6471 return (1); 6472 6473 checksum = 0xff; 6474 for (i = 2; i < buffersize; i++) { 6475 6476 writel(i + offset, ha->mem_ptr + IPS_REG_FLAP); 6477 if (ha->pcidev->revision == IPS_REVID_TROMBONE64) 6478 udelay(25); /* 25 us */ 6479 6480 checksum = 6481 (uint8_t) checksum + readb(ha->mem_ptr + IPS_REG_FLDP); 6482 } 6483 6484 if (checksum != 0) 6485 /* failure */ 6486 return (1); 6487 else 6488 /* success */ 6489 return (0); 6490 } 6491 6492 /****************************************************************************/ 6493 /* */ 6494 /* Routine Name: ips_abort_init */ 6495 /* */ 6496 /* Routine Description: */ 6497 /* cleanup routine for a failed adapter initialization */ 6498 /****************************************************************************/ 6499 static int 6500 ips_abort_init(ips_ha_t * ha, int index) 6501 { 6502 ha->active = 0; 6503 ips_free(ha); 6504 ips_ha[index] = NULL; 6505 ips_sh[index] = NULL; 6506 return -1; 6507 } 6508 6509 /****************************************************************************/ 6510 /* */ 6511 /* Routine Name: ips_shift_controllers */ 6512 /* */ 6513 /* Routine Description: */ 6514 /* helper function for ordering adapters */ 6515 /****************************************************************************/ 6516 static void 6517 ips_shift_controllers(int lowindex, int highindex) 6518 { 6519 ips_ha_t *ha_sav = ips_ha[highindex]; 6520 struct Scsi_Host *sh_sav = ips_sh[highindex]; 6521 int i; 6522 6523 for (i = highindex; i > lowindex; i--) { 6524 ips_ha[i] = ips_ha[i - 1]; 6525 ips_sh[i] = ips_sh[i - 1]; 6526 ips_ha[i]->host_num = i; 6527 } 6528 ha_sav->host_num = lowindex; 6529 ips_ha[lowindex] = ha_sav; 6530 ips_sh[lowindex] = sh_sav; 6531 } 6532 6533 /****************************************************************************/ 6534 /* */ 6535 /* Routine Name: ips_order_controllers */ 6536 /* */ 6537 /* Routine Description: */ 6538 /* place controllers is the "proper" boot order */ 6539 /****************************************************************************/ 6540 static void 6541 ips_order_controllers(void) 6542 { 6543 int i, j, tmp, position = 0; 6544 IPS_NVRAM_P5 *nvram; 6545 if (!ips_ha[0]) 6546 return; 6547 nvram = ips_ha[0]->nvram; 6548 6549 if (nvram->adapter_order[0]) { 6550 for (i = 1; i <= nvram->adapter_order[0]; i++) { 6551 for (j = position; j < ips_num_controllers; j++) { 6552 switch (ips_ha[j]->ad_type) { 6553 case IPS_ADTYPE_SERVERAID6M: 6554 case IPS_ADTYPE_SERVERAID7M: 6555 if (nvram->adapter_order[i] == 'M') { 6556 ips_shift_controllers(position, 6557 j); 6558 position++; 6559 } 6560 break; 6561 case IPS_ADTYPE_SERVERAID4L: 6562 case IPS_ADTYPE_SERVERAID4M: 6563 case IPS_ADTYPE_SERVERAID4MX: 6564 case IPS_ADTYPE_SERVERAID4LX: 6565 if (nvram->adapter_order[i] == 'N') { 6566 ips_shift_controllers(position, 6567 j); 6568 position++; 6569 } 6570 break; 6571 case IPS_ADTYPE_SERVERAID6I: 6572 case IPS_ADTYPE_SERVERAID5I2: 6573 case IPS_ADTYPE_SERVERAID5I1: 6574 case IPS_ADTYPE_SERVERAID7k: 6575 if (nvram->adapter_order[i] == 'S') { 6576 ips_shift_controllers(position, 6577 j); 6578 position++; 6579 } 6580 break; 6581 case IPS_ADTYPE_SERVERAID: 6582 case IPS_ADTYPE_SERVERAID2: 6583 case IPS_ADTYPE_NAVAJO: 6584 case IPS_ADTYPE_KIOWA: 6585 case IPS_ADTYPE_SERVERAID3L: 6586 case IPS_ADTYPE_SERVERAID3: 6587 case IPS_ADTYPE_SERVERAID4H: 6588 if (nvram->adapter_order[i] == 'A') { 6589 ips_shift_controllers(position, 6590 j); 6591 position++; 6592 } 6593 break; 6594 default: 6595 break; 6596 } 6597 } 6598 } 6599 /* if adapter_order[0], then ordering is complete */ 6600 return; 6601 } 6602 /* old bios, use older ordering */ 6603 tmp = 0; 6604 for (i = position; i < ips_num_controllers; i++) { 6605 if (ips_ha[i]->ad_type == IPS_ADTYPE_SERVERAID5I2 || 6606 ips_ha[i]->ad_type == IPS_ADTYPE_SERVERAID5I1) { 6607 ips_shift_controllers(position, i); 6608 position++; 6609 tmp = 1; 6610 } 6611 } 6612 /* if there were no 5I cards, then don't do any extra ordering */ 6613 if (!tmp) 6614 return; 6615 for (i = position; i < ips_num_controllers; i++) { 6616 if (ips_ha[i]->ad_type == IPS_ADTYPE_SERVERAID4L || 6617 ips_ha[i]->ad_type == IPS_ADTYPE_SERVERAID4M || 6618 ips_ha[i]->ad_type == IPS_ADTYPE_SERVERAID4LX || 6619 ips_ha[i]->ad_type == IPS_ADTYPE_SERVERAID4MX) { 6620 ips_shift_controllers(position, i); 6621 position++; 6622 } 6623 } 6624 6625 return; 6626 } 6627 6628 /****************************************************************************/ 6629 /* */ 6630 /* Routine Name: ips_register_scsi */ 6631 /* */ 6632 /* Routine Description: */ 6633 /* perform any registration and setup with the scsi layer */ 6634 /****************************************************************************/ 6635 static int 6636 ips_register_scsi(int index) 6637 { 6638 struct Scsi_Host *sh; 6639 ips_ha_t *ha, *oldha = ips_ha[index]; 6640 sh = scsi_host_alloc(&ips_driver_template, sizeof (ips_ha_t)); 6641 if (!sh) { 6642 IPS_PRINTK(KERN_WARNING, oldha->pcidev, 6643 "Unable to register controller with SCSI subsystem\n"); 6644 return -1; 6645 } 6646 ha = IPS_HA(sh); 6647 memcpy(ha, oldha, sizeof (ips_ha_t)); 6648 free_irq(oldha->pcidev->irq, oldha); 6649 /* Install the interrupt handler with the new ha */ 6650 if (request_irq(ha->pcidev->irq, do_ipsintr, IRQF_SHARED, ips_name, ha)) { 6651 IPS_PRINTK(KERN_WARNING, ha->pcidev, 6652 "Unable to install interrupt handler\n"); 6653 goto err_out_sh; 6654 } 6655 6656 kfree(oldha); 6657 6658 /* Store away needed values for later use */ 6659 sh->unique_id = (ha->io_addr) ? ha->io_addr : ha->mem_addr; 6660 sh->sg_tablesize = sh->hostt->sg_tablesize; 6661 sh->can_queue = sh->hostt->can_queue; 6662 sh->cmd_per_lun = sh->hostt->cmd_per_lun; 6663 sh->max_sectors = 128; 6664 6665 sh->max_id = ha->ntargets; 6666 sh->max_lun = ha->nlun; 6667 sh->max_channel = ha->nbus - 1; 6668 sh->can_queue = ha->max_cmds - 1; 6669 6670 if (scsi_add_host(sh, &ha->pcidev->dev)) 6671 goto err_out; 6672 6673 ips_sh[index] = sh; 6674 ips_ha[index] = ha; 6675 6676 scsi_scan_host(sh); 6677 6678 return 0; 6679 6680 err_out: 6681 free_irq(ha->pcidev->irq, ha); 6682 err_out_sh: 6683 scsi_host_put(sh); 6684 return -1; 6685 } 6686 6687 /*---------------------------------------------------------------------------*/ 6688 /* Routine Name: ips_remove_device */ 6689 /* */ 6690 /* Routine Description: */ 6691 /* Remove one Adapter ( Hot Plugging ) */ 6692 /*---------------------------------------------------------------------------*/ 6693 static void 6694 ips_remove_device(struct pci_dev *pci_dev) 6695 { 6696 struct Scsi_Host *sh = pci_get_drvdata(pci_dev); 6697 6698 pci_set_drvdata(pci_dev, NULL); 6699 6700 ips_release(sh); 6701 6702 pci_release_regions(pci_dev); 6703 pci_disable_device(pci_dev); 6704 } 6705 6706 /****************************************************************************/ 6707 /* */ 6708 /* Routine Name: ips_module_init */ 6709 /* */ 6710 /* Routine Description: */ 6711 /* function called on module load */ 6712 /****************************************************************************/ 6713 static int __init 6714 ips_module_init(void) 6715 { 6716 #if !defined(__i386__) && !defined(__ia64__) && !defined(__x86_64__) 6717 printk(KERN_ERR "ips: This driver has only been tested on the x86/ia64/x86_64 platforms\n"); 6718 add_taint(TAINT_CPU_OUT_OF_SPEC, LOCKDEP_STILL_OK); 6719 #endif 6720 6721 if (pci_register_driver(&ips_pci_driver) < 0) 6722 return -ENODEV; 6723 ips_driver_template.module = THIS_MODULE; 6724 ips_order_controllers(); 6725 if (!ips_detect(&ips_driver_template)) { 6726 pci_unregister_driver(&ips_pci_driver); 6727 return -ENODEV; 6728 } 6729 register_reboot_notifier(&ips_notifier); 6730 return 0; 6731 } 6732 6733 /****************************************************************************/ 6734 /* */ 6735 /* Routine Name: ips_module_exit */ 6736 /* */ 6737 /* Routine Description: */ 6738 /* function called on module unload */ 6739 /****************************************************************************/ 6740 static void __exit 6741 ips_module_exit(void) 6742 { 6743 pci_unregister_driver(&ips_pci_driver); 6744 unregister_reboot_notifier(&ips_notifier); 6745 } 6746 6747 module_init(ips_module_init); 6748 module_exit(ips_module_exit); 6749 6750 /*---------------------------------------------------------------------------*/ 6751 /* Routine Name: ips_insert_device */ 6752 /* */ 6753 /* Routine Description: */ 6754 /* Add One Adapter ( Hot Plug ) */ 6755 /* */ 6756 /* Return Value: */ 6757 /* 0 if Successful, else non-zero */ 6758 /*---------------------------------------------------------------------------*/ 6759 static int 6760 ips_insert_device(struct pci_dev *pci_dev, const struct pci_device_id *ent) 6761 { 6762 int index = -1; 6763 int rc; 6764 6765 METHOD_TRACE("ips_insert_device", 1); 6766 rc = pci_enable_device(pci_dev); 6767 if (rc) 6768 return rc; 6769 6770 rc = pci_request_regions(pci_dev, "ips"); 6771 if (rc) 6772 goto err_out; 6773 6774 rc = ips_init_phase1(pci_dev, &index); 6775 if (rc == SUCCESS) 6776 rc = ips_init_phase2(index); 6777 6778 if (ips_hotplug) 6779 if (ips_register_scsi(index)) { 6780 ips_free(ips_ha[index]); 6781 rc = -1; 6782 } 6783 6784 if (rc == SUCCESS) 6785 ips_num_controllers++; 6786 6787 ips_next_controller = ips_num_controllers; 6788 6789 if (rc < 0) { 6790 rc = -ENODEV; 6791 goto err_out_regions; 6792 } 6793 6794 pci_set_drvdata(pci_dev, ips_sh[index]); 6795 return 0; 6796 6797 err_out_regions: 6798 pci_release_regions(pci_dev); 6799 err_out: 6800 pci_disable_device(pci_dev); 6801 return rc; 6802 } 6803 6804 /*---------------------------------------------------------------------------*/ 6805 /* Routine Name: ips_init_phase1 */ 6806 /* */ 6807 /* Routine Description: */ 6808 /* Adapter Initialization */ 6809 /* */ 6810 /* Return Value: */ 6811 /* 0 if Successful, else non-zero */ 6812 /*---------------------------------------------------------------------------*/ 6813 static int 6814 ips_init_phase1(struct pci_dev *pci_dev, int *indexPtr) 6815 { 6816 ips_ha_t *ha; 6817 uint32_t io_addr; 6818 uint32_t mem_addr; 6819 uint32_t io_len; 6820 uint32_t mem_len; 6821 int j; 6822 int index; 6823 dma_addr_t dma_address; 6824 char __iomem *ioremap_ptr; 6825 char __iomem *mem_ptr; 6826 uint32_t IsDead; 6827 6828 METHOD_TRACE("ips_init_phase1", 1); 6829 index = IPS_MAX_ADAPTERS; 6830 for (j = 0; j < IPS_MAX_ADAPTERS; j++) { 6831 if (ips_ha[j] == NULL) { 6832 index = j; 6833 break; 6834 } 6835 } 6836 6837 if (index >= IPS_MAX_ADAPTERS) 6838 return -1; 6839 6840 /* Init MEM/IO addresses to 0 */ 6841 mem_addr = 0; 6842 io_addr = 0; 6843 mem_len = 0; 6844 io_len = 0; 6845 6846 for (j = 0; j < 2; j++) { 6847 if (!pci_resource_start(pci_dev, j)) 6848 break; 6849 6850 if (pci_resource_flags(pci_dev, j) & IORESOURCE_IO) { 6851 io_addr = pci_resource_start(pci_dev, j); 6852 io_len = pci_resource_len(pci_dev, j); 6853 } else { 6854 mem_addr = pci_resource_start(pci_dev, j); 6855 mem_len = pci_resource_len(pci_dev, j); 6856 } 6857 } 6858 6859 /* setup memory mapped area (if applicable) */ 6860 if (mem_addr) { 6861 uint32_t base; 6862 uint32_t offs; 6863 6864 base = mem_addr & PAGE_MASK; 6865 offs = mem_addr - base; 6866 ioremap_ptr = ioremap(base, PAGE_SIZE); 6867 if (!ioremap_ptr) 6868 return -1; 6869 mem_ptr = ioremap_ptr + offs; 6870 } else { 6871 ioremap_ptr = NULL; 6872 mem_ptr = NULL; 6873 } 6874 6875 /* found a controller */ 6876 ha = kzalloc(sizeof (ips_ha_t), GFP_KERNEL); 6877 if (ha == NULL) { 6878 IPS_PRINTK(KERN_WARNING, pci_dev, 6879 "Unable to allocate temporary ha struct\n"); 6880 return -1; 6881 } 6882 6883 ips_sh[index] = NULL; 6884 ips_ha[index] = ha; 6885 ha->active = 1; 6886 6887 /* Store info in HA structure */ 6888 ha->io_addr = io_addr; 6889 ha->io_len = io_len; 6890 ha->mem_addr = mem_addr; 6891 ha->mem_len = mem_len; 6892 ha->mem_ptr = mem_ptr; 6893 ha->ioremap_ptr = ioremap_ptr; 6894 ha->host_num = (uint32_t) index; 6895 ha->slot_num = PCI_SLOT(pci_dev->devfn); 6896 ha->pcidev = pci_dev; 6897 6898 /* 6899 * Set the pci_dev's dma_mask. Not all adapters support 64bit 6900 * addressing so don't enable it if the adapter can't support 6901 * it! Also, don't use 64bit addressing if dma addresses 6902 * are guaranteed to be < 4G. 6903 */ 6904 if (sizeof(dma_addr_t) > 4 && IPS_HAS_ENH_SGLIST(ha) && 6905 !dma_set_mask(&ha->pcidev->dev, DMA_BIT_MASK(64))) { 6906 (ha)->flags |= IPS_HA_ENH_SG; 6907 } else { 6908 if (dma_set_mask(&ha->pcidev->dev, DMA_BIT_MASK(32)) != 0) { 6909 printk(KERN_WARNING "Unable to set DMA Mask\n"); 6910 return ips_abort_init(ha, index); 6911 } 6912 } 6913 if(ips_cd_boot && !ips_FlashData){ 6914 ips_FlashData = dma_alloc_coherent(&pci_dev->dev, 6915 PAGE_SIZE << 7, &ips_flashbusaddr, GFP_KERNEL); 6916 } 6917 6918 ha->enq = dma_alloc_coherent(&pci_dev->dev, sizeof (IPS_ENQ), 6919 &ha->enq_busaddr, GFP_KERNEL); 6920 if (!ha->enq) { 6921 IPS_PRINTK(KERN_WARNING, pci_dev, 6922 "Unable to allocate host inquiry structure\n"); 6923 return ips_abort_init(ha, index); 6924 } 6925 6926 ha->adapt = dma_alloc_coherent(&pci_dev->dev, 6927 sizeof (IPS_ADAPTER) + sizeof (IPS_IO_CMD), 6928 &dma_address, GFP_KERNEL); 6929 if (!ha->adapt) { 6930 IPS_PRINTK(KERN_WARNING, pci_dev, 6931 "Unable to allocate host adapt & dummy structures\n"); 6932 return ips_abort_init(ha, index); 6933 } 6934 ha->adapt->hw_status_start = dma_address; 6935 ha->dummy = (void *) (ha->adapt + 1); 6936 6937 6938 6939 ha->logical_drive_info = dma_alloc_coherent(&pci_dev->dev, 6940 sizeof (IPS_LD_INFO), &dma_address, GFP_KERNEL); 6941 if (!ha->logical_drive_info) { 6942 IPS_PRINTK(KERN_WARNING, pci_dev, 6943 "Unable to allocate logical drive info structure\n"); 6944 return ips_abort_init(ha, index); 6945 } 6946 ha->logical_drive_info_dma_addr = dma_address; 6947 6948 6949 ha->conf = kmalloc(sizeof (IPS_CONF), GFP_KERNEL); 6950 6951 if (!ha->conf) { 6952 IPS_PRINTK(KERN_WARNING, pci_dev, 6953 "Unable to allocate host conf structure\n"); 6954 return ips_abort_init(ha, index); 6955 } 6956 6957 ha->nvram = kmalloc(sizeof (IPS_NVRAM_P5), GFP_KERNEL); 6958 6959 if (!ha->nvram) { 6960 IPS_PRINTK(KERN_WARNING, pci_dev, 6961 "Unable to allocate host NVRAM structure\n"); 6962 return ips_abort_init(ha, index); 6963 } 6964 6965 ha->subsys = kmalloc(sizeof (IPS_SUBSYS), GFP_KERNEL); 6966 6967 if (!ha->subsys) { 6968 IPS_PRINTK(KERN_WARNING, pci_dev, 6969 "Unable to allocate host subsystem structure\n"); 6970 return ips_abort_init(ha, index); 6971 } 6972 6973 /* the ioctl buffer is now used during adapter initialization, so its 6974 * successful allocation is now required */ 6975 if (ips_ioctlsize < PAGE_SIZE) 6976 ips_ioctlsize = PAGE_SIZE; 6977 6978 ha->ioctl_data = dma_alloc_coherent(&pci_dev->dev, ips_ioctlsize, 6979 &ha->ioctl_busaddr, GFP_KERNEL); 6980 ha->ioctl_len = ips_ioctlsize; 6981 if (!ha->ioctl_data) { 6982 IPS_PRINTK(KERN_WARNING, pci_dev, 6983 "Unable to allocate IOCTL data\n"); 6984 return ips_abort_init(ha, index); 6985 } 6986 6987 /* 6988 * Setup Functions 6989 */ 6990 ips_setup_funclist(ha); 6991 6992 if ((IPS_IS_MORPHEUS(ha)) || (IPS_IS_MARCO(ha))) { 6993 /* If Morpheus appears dead, reset it */ 6994 IsDead = readl(ha->mem_ptr + IPS_REG_I960_MSG1); 6995 if (IsDead == 0xDEADBEEF) { 6996 ips_reset_morpheus(ha); 6997 } 6998 } 6999 7000 /* 7001 * Initialize the card if it isn't already 7002 */ 7003 7004 if (!(*ha->func.isinit) (ha)) { 7005 if (!(*ha->func.init) (ha)) { 7006 /* 7007 * Initialization failed 7008 */ 7009 IPS_PRINTK(KERN_WARNING, pci_dev, 7010 "Unable to initialize controller\n"); 7011 return ips_abort_init(ha, index); 7012 } 7013 } 7014 7015 *indexPtr = index; 7016 return SUCCESS; 7017 } 7018 7019 /*---------------------------------------------------------------------------*/ 7020 /* Routine Name: ips_init_phase2 */ 7021 /* */ 7022 /* Routine Description: */ 7023 /* Adapter Initialization Phase 2 */ 7024 /* */ 7025 /* Return Value: */ 7026 /* 0 if Successful, else non-zero */ 7027 /*---------------------------------------------------------------------------*/ 7028 static int 7029 ips_init_phase2(int index) 7030 { 7031 ips_ha_t *ha; 7032 7033 ha = ips_ha[index]; 7034 7035 METHOD_TRACE("ips_init_phase2", 1); 7036 if (!ha->active) { 7037 ips_ha[index] = NULL; 7038 return -1; 7039 } 7040 7041 /* Install the interrupt handler */ 7042 if (request_irq(ha->pcidev->irq, do_ipsintr, IRQF_SHARED, ips_name, ha)) { 7043 IPS_PRINTK(KERN_WARNING, ha->pcidev, 7044 "Unable to install interrupt handler\n"); 7045 return ips_abort_init(ha, index); 7046 } 7047 7048 /* 7049 * Allocate a temporary SCB for initialization 7050 */ 7051 ha->max_cmds = 1; 7052 if (!ips_allocatescbs(ha)) { 7053 IPS_PRINTK(KERN_WARNING, ha->pcidev, 7054 "Unable to allocate a CCB\n"); 7055 free_irq(ha->pcidev->irq, ha); 7056 return ips_abort_init(ha, index); 7057 } 7058 7059 if (!ips_hainit(ha)) { 7060 IPS_PRINTK(KERN_WARNING, ha->pcidev, 7061 "Unable to initialize controller\n"); 7062 free_irq(ha->pcidev->irq, ha); 7063 return ips_abort_init(ha, index); 7064 } 7065 /* Free the temporary SCB */ 7066 ips_deallocatescbs(ha, 1); 7067 7068 /* allocate CCBs */ 7069 if (!ips_allocatescbs(ha)) { 7070 IPS_PRINTK(KERN_WARNING, ha->pcidev, 7071 "Unable to allocate CCBs\n"); 7072 free_irq(ha->pcidev->irq, ha); 7073 return ips_abort_init(ha, index); 7074 } 7075 7076 return SUCCESS; 7077 } 7078 7079 MODULE_LICENSE("GPL"); 7080 MODULE_DESCRIPTION("IBM ServeRAID Adapter Driver " IPS_VER_STRING); 7081 MODULE_VERSION(IPS_VER_STRING); 7082