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author | Mauro Carvalho Chehab <mchehab+huawei@kernel.org> | 2020-03-02 09:15:52 +0100 |
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committer | Martin K. Petersen <martin.petersen@oracle.com> | 2020-03-12 04:08:00 +0100 |
commit | a88dc3ec2ca48d23c7761af02e1ceea731f609e9 (patch) | |
tree | 64db97d10109df75302c7a3f8042fb5b095382f4 /Documentation/scsi | |
parent | scsi: docs: convert hptiop.txt to ReST (diff) | |
download | linux-a88dc3ec2ca48d23c7761af02e1ceea731f609e9.tar.xz linux-a88dc3ec2ca48d23c7761af02e1ceea731f609e9.zip |
scsi: docs: convert libsas.txt to ReST
Link: https://lore.kernel.org/r/9022cb5551487f774cab16a828fe06b0b6b3add3.1583136624.git.mchehab+huawei@kernel.org
Signed-off-by: Mauro Carvalho Chehab <mchehab+huawei@kernel.org>
Signed-off-by: Martin K. Petersen <martin.petersen@oracle.com>
Diffstat (limited to 'Documentation/scsi')
-rw-r--r-- | Documentation/scsi/index.rst | 1 | ||||
-rw-r--r-- | Documentation/scsi/libsas.rst (renamed from Documentation/scsi/libsas.txt) | 352 |
2 files changed, 212 insertions, 141 deletions
diff --git a/Documentation/scsi/index.rst b/Documentation/scsi/index.rst index b13df9c1810a..e6850c0a1378 100644 --- a/Documentation/scsi/index.rst +++ b/Documentation/scsi/index.rst @@ -23,5 +23,6 @@ Linux SCSI Subsystem g_NCR5380 hpsa hptiop + libsas scsi_transport_srp/figures diff --git a/Documentation/scsi/libsas.txt b/Documentation/scsi/libsas.rst index 8cac6492aade..7216b5d25800 100644 --- a/Documentation/scsi/libsas.txt +++ b/Documentation/scsi/libsas.rst @@ -1,5 +1,8 @@ +.. SPDX-License-Identifier: GPL-2.0 + +========= SAS Layer ---------- +========= The SAS Layer is a management infrastructure which manages SAS LLDDs. It sits between SCSI Core and SAS LLDDs. The @@ -37,16 +40,21 @@ It will then return. Then you enable your phys to actually start OOB (at which point your driver will start calling the notify_* event callbacks). -Structure descriptions: +Structure descriptions +====================== + +``struct sas_phy`` +------------------ -struct sas_phy -------------------- Normally this is statically embedded to your driver's -phy structure: - struct my_phy { - blah; - struct sas_phy sas_phy; - bleh; - }; +phy structure:: + + struct my_phy { + blah; + struct sas_phy sas_phy; + bleh; + }; + And then all the phys are an array of my_phy in your HA struct (shown below). @@ -63,94 +71,122 @@ There is a scheme where the LLDD can RW certain fields, and the SAS layer can only read such ones, and vice versa. The idea is to avoid unnecessary locking. -enabled -- must be set (0/1) -id -- must be set [0,MAX_PHYS) -class, proto, type, role, oob_mode, linkrate -- must be set -oob_mode -- you set this when OOB has finished and then notify -the SAS Layer. - -sas_addr -- this normally points to an array holding the sas -address of the phy, possibly somewhere in your my_phy -struct. - -attached_sas_addr -- set this when you (LLDD) receive an -IDENTIFY frame or a FIS frame, _before_ notifying the SAS -layer. The idea is that sometimes the LLDD may want to fake -or provide a different SAS address on that phy/port and this -allows it to do this. At best you should copy the sas -address from the IDENTIFY frame or maybe generate a SAS -address for SATA directly attached devices. The Discover -process may later change this. - -frame_rcvd -- this is where you copy the IDENTIFY/FIS frame -when you get it; you lock, copy, set frame_rcvd_size and -unlock the lock, and then call the event. It is a pointer -since there's no way to know your hw frame size _exactly_, -so you define the actual array in your phy struct and let -this pointer point to it. You copy the frame from your -DMAable memory to that area holding the lock. - -sas_prim -- this is where primitives go when they're -received. See sas.h. Grab the lock, set the primitive, -release the lock, notify. - -port -- this points to the sas_port if the phy belongs -to a port -- the LLDD only reads this. It points to the -sas_port this phy is part of. Set by the SAS Layer. - -ha -- may be set; the SAS layer sets it anyway. - -lldd_phy -- you should set this to point to your phy so you -can find your way around faster when the SAS layer calls one -of your callbacks and passes you a phy. If the sas_phy is -embedded you can also use container_of -- whatever you -prefer. - - -struct sas_port -------------------- +enabled + - must be set (0/1) + +id + - must be set [0,MAX_PHYS)] + +class, proto, type, role, oob_mode, linkrate + - must be set + +oob_mode + - you set this when OOB has finished and then notify + the SAS Layer. + +sas_addr + - this normally points to an array holding the sas + address of the phy, possibly somewhere in your my_phy + struct. + +attached_sas_addr + - set this when you (LLDD) receive an + IDENTIFY frame or a FIS frame, _before_ notifying the SAS + layer. The idea is that sometimes the LLDD may want to fake + or provide a different SAS address on that phy/port and this + allows it to do this. At best you should copy the sas + address from the IDENTIFY frame or maybe generate a SAS + address for SATA directly attached devices. The Discover + process may later change this. + +frame_rcvd + - this is where you copy the IDENTIFY/FIS frame + when you get it; you lock, copy, set frame_rcvd_size and + unlock the lock, and then call the event. It is a pointer + since there's no way to know your hw frame size _exactly_, + so you define the actual array in your phy struct and let + this pointer point to it. You copy the frame from your + DMAable memory to that area holding the lock. + +sas_prim + - this is where primitives go when they're + received. See sas.h. Grab the lock, set the primitive, + release the lock, notify. + +port + - this points to the sas_port if the phy belongs + to a port -- the LLDD only reads this. It points to the + sas_port this phy is part of. Set by the SAS Layer. + +ha + - may be set; the SAS layer sets it anyway. + +lldd_phy + - you should set this to point to your phy so you + can find your way around faster when the SAS layer calls one + of your callbacks and passes you a phy. If the sas_phy is + embedded you can also use container_of -- whatever you + prefer. + + +``struct sas_port`` +------------------- + The LLDD doesn't set any fields of this struct -- it only reads them. They should be self explanatory. phy_mask is 32 bit, this should be enough for now, as I haven't heard of a HA having more than 8 phys. -lldd_port -- I haven't found use for that -- maybe other -LLDD who wish to have internal port representation can make -use of this. +lldd_port + - I haven't found use for that -- maybe other + LLDD who wish to have internal port representation can make + use of this. +``struct sas_ha_struct`` +------------------------ -struct sas_ha_struct -------------------- It normally is statically declared in your own LLDD -structure describing your adapter: -struct my_sas_ha { - blah; - struct sas_ha_struct sas_ha; - struct my_phy phys[MAX_PHYS]; - struct sas_port sas_ports[MAX_PHYS]; /* (1) */ - bleh; -}; +structure describing your adapter:: + + struct my_sas_ha { + blah; + struct sas_ha_struct sas_ha; + struct my_phy phys[MAX_PHYS]; + struct sas_port sas_ports[MAX_PHYS]; /* (1) */ + bleh; + }; -(1) If your LLDD doesn't have its own port representation. + (1) If your LLDD doesn't have its own port representation. What needs to be initialized (sample function given below). pcidev -sas_addr -- since the SAS layer doesn't want to mess with +^^^^^^ + +sas_addr + - since the SAS layer doesn't want to mess with memory allocation, etc, this points to statically allocated array somewhere (say in your host adapter structure) and holds the SAS address of the host adapter as given by you or the manufacturer, etc. + sas_port -sas_phy -- an array of pointers to structures. (see +^^^^^^^^ + +sas_phy + - an array of pointers to structures. (see note above on sas_addr). These must be set. See more notes below. -num_phys -- the number of phys present in the sas_phy array, + +num_phys + - the number of phys present in the sas_phy array, and the number of ports present in the sas_port array. There can be a maximum num_phys ports (one per port) so we drop the num_ports, and only use num_phys. -The event interface: +The event interface:: /* LLDD calls these to notify the class of an event. */ void (*notify_ha_event)(struct sas_ha_struct *, enum ha_event); @@ -161,7 +197,7 @@ When sas_register_ha() returns, those are set and can be called by the LLDD to notify the SAS layer of such events the SAS layer. -The port notification: +The port notification:: /* The class calls these to notify the LLDD of an event. */ void (*lldd_port_formed)(struct sas_phy *); @@ -171,7 +207,7 @@ If the LLDD wants notification when a port has been formed or deformed it sets those to a function satisfying the type. A SAS LLDD should also implement at least one of the Task -Management Functions (TMFs) described in SAM: +Management Functions (TMFs) described in SAM:: /* Task Management Functions. Must be called from process context. */ int (*lldd_abort_task)(struct sas_task *); @@ -184,7 +220,7 @@ Management Functions (TMFs) described in SAM: For more information please read SAM from T10.org. -Port and Adapter management: +Port and Adapter management:: /* Port and Adapter management */ int (*lldd_clear_nexus_port)(struct sas_port *); @@ -192,75 +228,78 @@ Port and Adapter management: A SAS LLDD should implement at least one of those. -Phy management: +Phy management:: /* Phy management */ int (*lldd_control_phy)(struct sas_phy *, enum phy_func); -lldd_ha -- set this to point to your HA struct. You can also -use container_of if you embedded it as shown above. +lldd_ha + - set this to point to your HA struct. You can also + use container_of if you embedded it as shown above. A sample initialization and registration function can look like this (called last thing from probe()) -*but* before you enable the phys to do OOB: +*but* before you enable the phys to do OOB:: -static int register_sas_ha(struct my_sas_ha *my_ha) -{ - int i; - static struct sas_phy *sas_phys[MAX_PHYS]; - static struct sas_port *sas_ports[MAX_PHYS]; + static int register_sas_ha(struct my_sas_ha *my_ha) + { + int i; + static struct sas_phy *sas_phys[MAX_PHYS]; + static struct sas_port *sas_ports[MAX_PHYS]; - my_ha->sas_ha.sas_addr = &my_ha->sas_addr[0]; + my_ha->sas_ha.sas_addr = &my_ha->sas_addr[0]; - for (i = 0; i < MAX_PHYS; i++) { - sas_phys[i] = &my_ha->phys[i].sas_phy; - sas_ports[i] = &my_ha->sas_ports[i]; - } + for (i = 0; i < MAX_PHYS; i++) { + sas_phys[i] = &my_ha->phys[i].sas_phy; + sas_ports[i] = &my_ha->sas_ports[i]; + } - my_ha->sas_ha.sas_phy = sas_phys; - my_ha->sas_ha.sas_port = sas_ports; - my_ha->sas_ha.num_phys = MAX_PHYS; + my_ha->sas_ha.sas_phy = sas_phys; + my_ha->sas_ha.sas_port = sas_ports; + my_ha->sas_ha.num_phys = MAX_PHYS; - my_ha->sas_ha.lldd_port_formed = my_port_formed; + my_ha->sas_ha.lldd_port_formed = my_port_formed; - my_ha->sas_ha.lldd_dev_found = my_dev_found; - my_ha->sas_ha.lldd_dev_gone = my_dev_gone; + my_ha->sas_ha.lldd_dev_found = my_dev_found; + my_ha->sas_ha.lldd_dev_gone = my_dev_gone; - my_ha->sas_ha.lldd_execute_task = my_execute_task; + my_ha->sas_ha.lldd_execute_task = my_execute_task; - my_ha->sas_ha.lldd_abort_task = my_abort_task; - my_ha->sas_ha.lldd_abort_task_set = my_abort_task_set; - my_ha->sas_ha.lldd_clear_aca = my_clear_aca; - my_ha->sas_ha.lldd_clear_task_set = my_clear_task_set; - my_ha->sas_ha.lldd_I_T_nexus_reset= NULL; (2) - my_ha->sas_ha.lldd_lu_reset = my_lu_reset; - my_ha->sas_ha.lldd_query_task = my_query_task; + my_ha->sas_ha.lldd_abort_task = my_abort_task; + my_ha->sas_ha.lldd_abort_task_set = my_abort_task_set; + my_ha->sas_ha.lldd_clear_aca = my_clear_aca; + my_ha->sas_ha.lldd_clear_task_set = my_clear_task_set; + my_ha->sas_ha.lldd_I_T_nexus_reset= NULL; (2) + my_ha->sas_ha.lldd_lu_reset = my_lu_reset; + my_ha->sas_ha.lldd_query_task = my_query_task; - my_ha->sas_ha.lldd_clear_nexus_port = my_clear_nexus_port; - my_ha->sas_ha.lldd_clear_nexus_ha = my_clear_nexus_ha; + my_ha->sas_ha.lldd_clear_nexus_port = my_clear_nexus_port; + my_ha->sas_ha.lldd_clear_nexus_ha = my_clear_nexus_ha; - my_ha->sas_ha.lldd_control_phy = my_control_phy; + my_ha->sas_ha.lldd_control_phy = my_control_phy; - return sas_register_ha(&my_ha->sas_ha); -} + return sas_register_ha(&my_ha->sas_ha); + } (2) SAS 1.1 does not define I_T Nexus Reset TMF. Events ------- +====== -Events are _the only way_ a SAS LLDD notifies the SAS layer +Events are **the only way** a SAS LLDD notifies the SAS layer of anything. There is no other method or way a LLDD to tell the SAS layer of anything happening internally or in the SAS domain. -Phy events: +Phy events:: + PHYE_LOSS_OF_SIGNAL, (C) PHYE_OOB_DONE, PHYE_OOB_ERROR, (C) PHYE_SPINUP_HOLD. -Port events, passed on a _phy_: +Port events, passed on a _phy_:: + PORTE_BYTES_DMAED, (M) PORTE_BROADCAST_RCVD, (E) PORTE_LINK_RESET_ERR, (C) @@ -271,6 +310,7 @@ Host Adapter event: HAE_RESET A SAS LLDD should be able to generate + - at least one event from group C (choice), - events marked M (mandatory) are mandatory (only one), - events marked E (expander) if it wants the SAS layer @@ -279,26 +319,42 @@ A SAS LLDD should be able to generate Meaning: -HAE_RESET -- when your HA got internal error and was reset. +HAE_RESET + - when your HA got internal error and was reset. + +PORTE_BYTES_DMAED + - on receiving an IDENTIFY/FIS frame + +PORTE_BROADCAST_RCVD + - on receiving a primitive + +PORTE_LINK_RESET_ERR + - timer expired, loss of signal, loss of DWS, etc. [1]_ -PORTE_BYTES_DMAED -- on receiving an IDENTIFY/FIS frame -PORTE_BROADCAST_RCVD -- on receiving a primitive -PORTE_LINK_RESET_ERR -- timer expired, loss of signal, loss -of DWS, etc. (*) -PORTE_TIMER_EVENT -- DWS reset timeout timer expired (*) -PORTE_HARD_RESET -- Hard Reset primitive received. +PORTE_TIMER_EVENT + - DWS reset timeout timer expired [1]_ -PHYE_LOSS_OF_SIGNAL -- the device is gone (*) -PHYE_OOB_DONE -- OOB went fine and oob_mode is valid -PHYE_OOB_ERROR -- Error while doing OOB, the device probably -got disconnected. (*) -PHYE_SPINUP_HOLD -- SATA is present, COMWAKE not sent. +PORTE_HARD_RESET + - Hard Reset primitive received. -(*) should set/clear the appropriate fields in the phy, - or alternatively call the inlined sas_phy_disconnected() - which is just a helper, from their tasklet. +PHYE_LOSS_OF_SIGNAL + - the device is gone [1]_ -The Execute Command SCSI RPC: +PHYE_OOB_DONE + - OOB went fine and oob_mode is valid + +PHYE_OOB_ERROR + - Error while doing OOB, the device probably + got disconnected. [1]_ + +PHYE_SPINUP_HOLD + - SATA is present, COMWAKE not sent. + +.. [1] should set/clear the appropriate fields in the phy, + or alternatively call the inlined sas_phy_disconnected() + which is just a helper, from their tasklet. + +The Execute Command SCSI RPC:: int (*lldd_execute_task)(struct sas_task *, gfp_t gfp_flags); @@ -311,23 +367,28 @@ That is, when lldd_execute_task() is called, the command go out on the transport *immediately*. There is *no* queuing of any sort and at any level in a SAS LLDD. -Returns: -SAS_QUEUE_FULL, -ENOMEM, nothing was queued; - 0, the task(s) were queued. +Returns: -struct sas_task { - dev -- the device this task is destined to - task_proto -- _one_ of enum sas_proto - scatter -- pointer to scatter gather list array - num_scatter -- number of elements in scatter - total_xfer_len -- total number of bytes expected to be transferred - data_dir -- PCI_DMA_... - task_done -- callback when the task has finished execution -}; + * -SAS_QUEUE_FULL, -ENOMEM, nothing was queued; + * 0, the task(s) were queued. -DISCOVERY ---------- +:: + + struct sas_task { + dev -- the device this task is destined to + task_proto -- _one_ of enum sas_proto + scatter -- pointer to scatter gather list array + num_scatter -- number of elements in scatter + total_xfer_len -- total number of bytes expected to be transferred + data_dir -- PCI_DMA_... + task_done -- callback when the task has finished execution + }; + +Discovery +========= The sysfs tree has the following purposes: + a) It shows you the physical layout of the SAS domain at the current time, i.e. how the domain looks in the physical world right now. @@ -336,6 +397,7 @@ The sysfs tree has the following purposes: This is a link to the tree(1) program, very useful in viewing the SAS domain: ftp://mama.indstate.edu/linux/tree/ + I expect user space applications to actually create a graphical interface of this. @@ -359,7 +421,7 @@ contents of the domain_device structure, but it never creates or destroys one. Expander management from User Space ------------------------------------ +=================================== In each expander directory in sysfs, there is a file called "smp_portal". It is a binary sysfs attribute file, which @@ -371,15 +433,23 @@ Functionality is deceptively simple: 1. Build the SMP frame you want to send. The format and layout is described in the SAS spec. Leave the CRC field equal 0. + open(2) + 2. Open the expander's SMP portal sysfs file in RW mode. + write(2) + 3. Write the frame you built in 1. + read(2) + 4. Read the amount of data you expect to receive for the frame you built. If you receive different amount of data you expected to receive, then there was some kind of error. + close(2) + All this process is shown in detail in the function do_smp_func() and its callers, in the file "expander_conf.c". |