1.. SPDX-License-Identifier: GPL-2.0 2 3========= 4SAS Layer 5========= 6 7The SAS Layer is a management infrastructure which manages 8SAS LLDDs. It sits between SCSI Core and SAS LLDDs. The 9layout is as follows: while SCSI Core is concerned with 10SAM/SPC issues, and a SAS LLDD+sequencer is concerned with 11phy/OOB/link management, the SAS layer is concerned with: 12 13 * SAS Phy/Port/HA event management (LLDD generates, 14 SAS Layer processes), 15 * SAS Port management (creation/destruction), 16 * SAS Domain discovery and revalidation, 17 * SAS Domain device management, 18 * SCSI Host registration/unregistration, 19 * Device registration with SCSI Core (SAS) or libata 20 (SATA), and 21 * Expander management and exporting expander control 22 to user space. 23 24A SAS LLDD is a PCI device driver. It is concerned with 25phy/OOB management, and vendor specific tasks and generates 26events to the SAS layer. 27 28The SAS Layer does most SAS tasks as outlined in the SAS 1.1 29spec. 30 31The sas_ha_struct describes the SAS LLDD to the SAS layer. 32Most of it is used by the SAS Layer but a few fields need to 33be initialized by the LLDDs. 34 35After initializing your hardware, from the probe() function 36you call sas_register_ha(). It will register your LLDD with 37the SCSI subsystem, creating a SCSI host and it will 38register your SAS driver with the sysfs SAS tree it creates. 39It will then return. Then you enable your phys to actually 40start OOB (at which point your driver will start calling the 41notify_* event callbacks). 42 43Structure descriptions 44====================== 45 46``struct sas_phy`` 47------------------ 48 49Normally this is statically embedded to your driver's 50phy structure:: 51 52 struct my_phy { 53 blah; 54 struct sas_phy sas_phy; 55 bleh; 56 }; 57 58And then all the phys are an array of my_phy in your HA 59struct (shown below). 60 61Then as you go along and initialize your phys you also 62initialize the sas_phy struct, along with your own 63phy structure. 64 65In general, the phys are managed by the LLDD and the ports 66are managed by the SAS layer. So the phys are initialized 67and updated by the LLDD and the ports are initialized and 68updated by the SAS layer. 69 70There is a scheme where the LLDD can RW certain fields, 71and the SAS layer can only read such ones, and vice versa. 72The idea is to avoid unnecessary locking. 73 74enabled 75 - must be set (0/1) 76 77id 78 - must be set [0,MAX_PHYS)] 79 80class, proto, type, role, oob_mode, linkrate 81 - must be set 82 83oob_mode 84 - you set this when OOB has finished and then notify 85 the SAS Layer. 86 87sas_addr 88 - this normally points to an array holding the sas 89 address of the phy, possibly somewhere in your my_phy 90 struct. 91 92attached_sas_addr 93 - set this when you (LLDD) receive an 94 IDENTIFY frame or a FIS frame, _before_ notifying the SAS 95 layer. The idea is that sometimes the LLDD may want to fake 96 or provide a different SAS address on that phy/port and this 97 allows it to do this. At best you should copy the sas 98 address from the IDENTIFY frame or maybe generate a SAS 99 address for SATA directly attached devices. The Discover 100 process may later change this. 101 102frame_rcvd 103 - this is where you copy the IDENTIFY/FIS frame 104 when you get it; you lock, copy, set frame_rcvd_size and 105 unlock the lock, and then call the event. It is a pointer 106 since there's no way to know your hw frame size _exactly_, 107 so you define the actual array in your phy struct and let 108 this pointer point to it. You copy the frame from your 109 DMAable memory to that area holding the lock. 110 111sas_prim 112 - this is where primitives go when they're 113 received. See sas.h. Grab the lock, set the primitive, 114 release the lock, notify. 115 116port 117 - this points to the sas_port if the phy belongs 118 to a port -- the LLDD only reads this. It points to the 119 sas_port this phy is part of. Set by the SAS Layer. 120 121ha 122 - may be set; the SAS layer sets it anyway. 123 124lldd_phy 125 - you should set this to point to your phy so you 126 can find your way around faster when the SAS layer calls one 127 of your callbacks and passes you a phy. If the sas_phy is 128 embedded you can also use container_of -- whatever you 129 prefer. 130 131 132``struct sas_port`` 133------------------- 134 135The LLDD doesn't set any fields of this struct -- it only 136reads them. They should be self explanatory. 137 138phy_mask is 32 bit, this should be enough for now, as I 139haven't heard of a HA having more than 8 phys. 140 141lldd_port 142 - I haven't found use for that -- maybe other 143 LLDD who wish to have internal port representation can make 144 use of this. 145 146``struct sas_ha_struct`` 147------------------------ 148 149It normally is statically declared in your own LLDD 150structure describing your adapter:: 151 152 struct my_sas_ha { 153 blah; 154 struct sas_ha_struct sas_ha; 155 struct my_phy phys[MAX_PHYS]; 156 struct sas_port sas_ports[MAX_PHYS]; /* (1) */ 157 bleh; 158 }; 159 160 (1) If your LLDD doesn't have its own port representation. 161 162What needs to be initialized (sample function given below). 163 164pcidev 165^^^^^^ 166 167sas_addr 168 - since the SAS layer doesn't want to mess with 169 memory allocation, etc, this points to statically 170 allocated array somewhere (say in your host adapter 171 structure) and holds the SAS address of the host 172 adapter as given by you or the manufacturer, etc. 173 174sas_port 175^^^^^^^^ 176 177sas_phy 178 - an array of pointers to structures. (see 179 note above on sas_addr). 180 These must be set. See more notes below. 181 182num_phys 183 - the number of phys present in the sas_phy array, 184 and the number of ports present in the sas_port 185 array. There can be a maximum num_phys ports (one per 186 port) so we drop the num_ports, and only use 187 num_phys. 188 189The event interface:: 190 191 /* LLDD calls these to notify the class of an event. */ 192 void sas_notify_port_event(struct sas_phy *, enum port_event, gfp_t); 193 void sas_notify_phy_event(struct sas_phy *, enum phy_event, gfp_t); 194 195The port notification:: 196 197 /* The class calls these to notify the LLDD of an event. */ 198 void (*lldd_port_formed)(struct sas_phy *); 199 void (*lldd_port_deformed)(struct sas_phy *); 200 201If the LLDD wants notification when a port has been formed 202or deformed it sets those to a function satisfying the type. 203 204A SAS LLDD should also implement at least one of the Task 205Management Functions (TMFs) described in SAM:: 206 207 /* Task Management Functions. Must be called from process context. */ 208 int (*lldd_abort_task)(struct sas_task *); 209 int (*lldd_abort_task_set)(struct domain_device *, u8 *lun); 210 int (*lldd_clear_aca)(struct domain_device *, u8 *lun); 211 int (*lldd_clear_task_set)(struct domain_device *, u8 *lun); 212 int (*lldd_I_T_nexus_reset)(struct domain_device *); 213 int (*lldd_lu_reset)(struct domain_device *, u8 *lun); 214 int (*lldd_query_task)(struct sas_task *); 215 216For more information please read SAM from T10.org. 217 218Port and Adapter management:: 219 220 /* Port and Adapter management */ 221 int (*lldd_clear_nexus_port)(struct sas_port *); 222 int (*lldd_clear_nexus_ha)(struct sas_ha_struct *); 223 224A SAS LLDD should implement at least one of those. 225 226Phy management:: 227 228 /* Phy management */ 229 int (*lldd_control_phy)(struct sas_phy *, enum phy_func); 230 231lldd_ha 232 - set this to point to your HA struct. You can also 233 use container_of if you embedded it as shown above. 234 235A sample initialization and registration function 236can look like this (called last thing from probe()) 237*but* before you enable the phys to do OOB:: 238 239 static int register_sas_ha(struct my_sas_ha *my_ha) 240 { 241 int i; 242 static struct sas_phy *sas_phys[MAX_PHYS]; 243 static struct sas_port *sas_ports[MAX_PHYS]; 244 245 my_ha->sas_ha.sas_addr = &my_ha->sas_addr[0]; 246 247 for (i = 0; i < MAX_PHYS; i++) { 248 sas_phys[i] = &my_ha->phys[i].sas_phy; 249 sas_ports[i] = &my_ha->sas_ports[i]; 250 } 251 252 my_ha->sas_ha.sas_phy = sas_phys; 253 my_ha->sas_ha.sas_port = sas_ports; 254 my_ha->sas_ha.num_phys = MAX_PHYS; 255 256 my_ha->sas_ha.lldd_port_formed = my_port_formed; 257 258 my_ha->sas_ha.lldd_dev_found = my_dev_found; 259 my_ha->sas_ha.lldd_dev_gone = my_dev_gone; 260 261 my_ha->sas_ha.lldd_execute_task = my_execute_task; 262 263 my_ha->sas_ha.lldd_abort_task = my_abort_task; 264 my_ha->sas_ha.lldd_abort_task_set = my_abort_task_set; 265 my_ha->sas_ha.lldd_clear_aca = my_clear_aca; 266 my_ha->sas_ha.lldd_clear_task_set = my_clear_task_set; 267 my_ha->sas_ha.lldd_I_T_nexus_reset= NULL; (2) 268 my_ha->sas_ha.lldd_lu_reset = my_lu_reset; 269 my_ha->sas_ha.lldd_query_task = my_query_task; 270 271 my_ha->sas_ha.lldd_clear_nexus_port = my_clear_nexus_port; 272 my_ha->sas_ha.lldd_clear_nexus_ha = my_clear_nexus_ha; 273 274 my_ha->sas_ha.lldd_control_phy = my_control_phy; 275 276 return sas_register_ha(&my_ha->sas_ha); 277 } 278 279(2) SAS 1.1 does not define I_T Nexus Reset TMF. 280 281Events 282====== 283 284Events are **the only way** a SAS LLDD notifies the SAS layer 285of anything. There is no other method or way a LLDD to tell 286the SAS layer of anything happening internally or in the SAS 287domain. 288 289Phy events:: 290 291 PHYE_LOSS_OF_SIGNAL, (C) 292 PHYE_OOB_DONE, 293 PHYE_OOB_ERROR, (C) 294 PHYE_SPINUP_HOLD. 295 296Port events, passed on a _phy_:: 297 298 PORTE_BYTES_DMAED, (M) 299 PORTE_BROADCAST_RCVD, (E) 300 PORTE_LINK_RESET_ERR, (C) 301 PORTE_TIMER_EVENT, (C) 302 PORTE_HARD_RESET. 303 304Host Adapter event: 305 HAE_RESET 306 307A SAS LLDD should be able to generate 308 309 - at least one event from group C (choice), 310 - events marked M (mandatory) are mandatory (only one), 311 - events marked E (expander) if it wants the SAS layer 312 to handle domain revalidation (only one such). 313 - Unmarked events are optional. 314 315Meaning: 316 317HAE_RESET 318 - when your HA got internal error and was reset. 319 320PORTE_BYTES_DMAED 321 - on receiving an IDENTIFY/FIS frame 322 323PORTE_BROADCAST_RCVD 324 - on receiving a primitive 325 326PORTE_LINK_RESET_ERR 327 - timer expired, loss of signal, loss of DWS, etc. [1]_ 328 329PORTE_TIMER_EVENT 330 - DWS reset timeout timer expired [1]_ 331 332PORTE_HARD_RESET 333 - Hard Reset primitive received. 334 335PHYE_LOSS_OF_SIGNAL 336 - the device is gone [1]_ 337 338PHYE_OOB_DONE 339 - OOB went fine and oob_mode is valid 340 341PHYE_OOB_ERROR 342 - Error while doing OOB, the device probably 343 got disconnected. [1]_ 344 345PHYE_SPINUP_HOLD 346 - SATA is present, COMWAKE not sent. 347 348.. [1] should set/clear the appropriate fields in the phy, 349 or alternatively call the inlined sas_phy_disconnected() 350 which is just a helper, from their tasklet. 351 352The Execute Command SCSI RPC:: 353 354 int (*lldd_execute_task)(struct sas_task *, gfp_t gfp_flags); 355 356Used to queue a task to the SAS LLDD. @task is the task to be executed. 357@gfp_mask is the gfp_mask defining the context of the caller. 358 359This function should implement the Execute Command SCSI RPC, 360 361That is, when lldd_execute_task() is called, the command 362go out on the transport *immediately*. There is *no* 363queuing of any sort and at any level in a SAS LLDD. 364 365Returns: 366 367 * -SAS_QUEUE_FULL, -ENOMEM, nothing was queued; 368 * 0, the task(s) were queued. 369 370:: 371 372 struct sas_task { 373 dev -- the device this task is destined to 374 task_proto -- _one_ of enum sas_proto 375 scatter -- pointer to scatter gather list array 376 num_scatter -- number of elements in scatter 377 total_xfer_len -- total number of bytes expected to be transferred 378 data_dir -- PCI_DMA_... 379 task_done -- callback when the task has finished execution 380 }; 381 382Discovery 383========= 384 385The sysfs tree has the following purposes: 386 387 a) It shows you the physical layout of the SAS domain at 388 the current time, i.e. how the domain looks in the 389 physical world right now. 390 b) Shows some device parameters _at_discovery_time_. 391 392This is a link to the tree(1) program, very useful in 393viewing the SAS domain: 394ftp://mama.indstate.edu/linux/tree/ 395 396I expect user space applications to actually create a 397graphical interface of this. 398 399That is, the sysfs domain tree doesn't show or keep state if 400you e.g., change the meaning of the READY LED MEANING 401setting, but it does show you the current connection status 402of the domain device. 403 404Keeping internal device state changes is responsibility of 405upper layers (Command set drivers) and user space. 406 407When a device or devices are unplugged from the domain, this 408is reflected in the sysfs tree immediately, and the device(s) 409removed from the system. 410 411The structure domain_device describes any device in the SAS 412domain. It is completely managed by the SAS layer. A task 413points to a domain device, this is how the SAS LLDD knows 414where to send the task(s) to. A SAS LLDD only reads the 415contents of the domain_device structure, but it never creates 416or destroys one. 417 418Expander management from User Space 419=================================== 420 421In each expander directory in sysfs, there is a file called 422"smp_portal". It is a binary sysfs attribute file, which 423implements an SMP portal (Note: this is *NOT* an SMP port), 424to which user space applications can send SMP requests and 425receive SMP responses. 426 427Functionality is deceptively simple: 428 4291. Build the SMP frame you want to send. The format and layout 430 is described in the SAS spec. Leave the CRC field equal 0. 431 432open(2) 433 4342. Open the expander's SMP portal sysfs file in RW mode. 435 436write(2) 437 4383. Write the frame you built in 1. 439 440read(2) 441 4424. Read the amount of data you expect to receive for the frame you built. 443 If you receive different amount of data you expected to receive, 444 then there was some kind of error. 445 446close(2) 447 448All this process is shown in detail in the function do_smp_func() 449and its callers, in the file "expander_conf.c". 450 451The kernel functionality is implemented in the file 452"sas_expander.c". 453 454The program "expander_conf.c" implements this. It takes one 455argument, the sysfs file name of the SMP portal to the 456expander, and gives expander information, including routing 457tables. 458 459The SMP portal gives you complete control of the expander, 460so please be careful. 461