xref: /freebsd/sys/dev/isci/scil/scif_sas_smp_phy.c (revision 0b3105a37d7adcadcb720112fed4dc4e8040be99)
1 /*-
2  * This file is provided under a dual BSD/GPLv2 license.  When using or
3  * redistributing this file, you may do so under either license.
4  *
5  * GPL LICENSE SUMMARY
6  *
7  * Copyright(c) 2008 - 2011 Intel Corporation. All rights reserved.
8  *
9  * This program is free software; you can redistribute it and/or modify
10  * it under the terms of version 2 of the GNU General Public License as
11  * published by the Free Software Foundation.
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13  * This program is distributed in the hope that it will be useful, but
14  * WITHOUT ANY WARRANTY; without even the implied warranty of
15  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
16  * General Public License for more details.
17  *
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20  * Foundation, Inc., 51 Franklin St - Fifth Floor, Boston, MA 02110-1301 USA.
21  * The full GNU General Public License is included in this distribution
22  * in the file called LICENSE.GPL.
23  *
24  * BSD LICENSE
25  *
26  * Copyright(c) 2008 - 2011 Intel Corporation. All rights reserved.
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34  *     notice, this list of conditions and the following disclaimer.
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40  * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
41  * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
42  * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
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44  * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
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46  * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
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50  * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
51  */
52 
53 #include <sys/cdefs.h>
54 __FBSDID("$FreeBSD$");
55 
56 /**
57  * @file
58  *
59  * @brief This file contains the implementation of the SCIF_SAS_SMP_PHY
60  *        object.
61  */
62 
63 #include <dev/isci/scil/scif_sas_controller.h>
64 #include <dev/isci/scil/scif_sas_smp_phy.h>
65 #include <dev/isci/scil/scif_sas_smp_remote_device.h>
66 
67 //******************************************************************************
68 //*
69 //*     P U B L I C   M E T H O D S
70 //*
71 //******************************************************************************
72 
73 /**
74  * @brief This routine constructs a smp phy object for an expander phy and insert
75  *           to owning expander device's smp_phy_list.
76  * @param[in] this_smp_phy The memory space to store a phy
77  * @param[in] owning_device The smp remote device that owns this smp phy.
78  * @param[in] expander_phy_id The expander phy id for this_smp_phy.
79  * @return None
80  */
81 void scif_sas_smp_phy_construct(
82    SCIF_SAS_SMP_PHY_T       * this_smp_phy,
83    SCIF_SAS_REMOTE_DEVICE_T * owning_device,
84    U8                         expander_phy_id
85 )
86 {
87    memset(this_smp_phy, 0, sizeof(SCIF_SAS_SMP_PHY_T));
88 
89    this_smp_phy->phy_identifier = expander_phy_id;
90    this_smp_phy->owning_device = owning_device;
91 
92    sci_fast_list_element_init((this_smp_phy), (&this_smp_phy->list_element));
93 
94    //insert to owning device's smp phy list.
95    sci_fast_list_insert_tail(
96       (&owning_device->protocol_device.smp_device.smp_phy_list),
97       (&this_smp_phy->list_element)
98    );
99 }
100 
101 /**
102  * @brief This routine destructs a smp phy object for an expander phy and free the smp
103  *           phy to controller's smp phy memory.
104  * @param[in] this_smp_phy The smp phy to be destructed.
105  *
106  * @return None
107  */
108 void scif_sas_smp_phy_destruct(
109    SCIF_SAS_SMP_PHY_T       * this_smp_phy
110 )
111 {
112    SCIF_SAS_REMOTE_DEVICE_T * owning_device = this_smp_phy->owning_device;
113    SCIF_SAS_CONTROLLER_T * fw_controller = owning_device->domain->controller;
114 
115    if ( ( this_smp_phy->attached_device_type == SMP_EDGE_EXPANDER_DEVICE
116          || this_smp_phy->attached_device_type == SMP_FANOUT_EXPANDER_DEVICE)
117        && this_smp_phy->u.attached_phy != NULL )
118    {
119       //update the counterpart phy from the other smp phy list.
120       this_smp_phy->u.attached_phy->attached_device_type = SMP_NO_DEVICE_ATTACHED;
121       this_smp_phy->u.attached_phy->u.attached_phy = NULL;
122    }
123 
124    //remove curr_smp_phy
125    sci_fast_list_remove_element(&this_smp_phy->list_element);
126    scif_sas_controller_free_smp_phy(fw_controller, this_smp_phy);
127 }
128 
129 
130 /**
131  * @brief This routine save a smp phy information based on discover response.
132  *
133  * @param[in] this_smp_phy The memory space to store a phy
134  * @param[in] attached_device A possible direct attached device to this phy.
135  *
136  * @param[in] discover_response The smp DISCOVER response for this_smp_phy.
137  * @return None
138  */
139 void scif_sas_smp_phy_save_information(
140    SCIF_SAS_SMP_PHY_T       * this_smp_phy,
141    SCIF_SAS_REMOTE_DEVICE_T * attached_device,
142    SMP_RESPONSE_DISCOVER_T  * discover_response
143 )
144 {
145    ASSERT (this_smp_phy->owning_device != NULL);
146    ASSERT (this_smp_phy->phy_identifier == discover_response->phy_identifier);
147 
148    this_smp_phy->attached_device_type = (U8)discover_response->u2.sas1_1.attached_device_type;
149    this_smp_phy->routing_attribute = (U8)discover_response->routing_attribute;
150    this_smp_phy->attached_sas_address = discover_response->attached_sas_address;
151    this_smp_phy->config_route_table_index_anchor = 0;
152 
153    if (this_smp_phy->attached_device_type != SMP_EDGE_EXPANDER_DEVICE
154        && this_smp_phy->attached_device_type != SMP_FANOUT_EXPANDER_DEVICE)
155    {
156       //note, end_device field could be an end device, or a NULL value, but can't be expander device.
157       this_smp_phy->u.end_device = attached_device;
158    }
159    else
160    {
161       //if attached device type is expander, we will set u.attached_phy later when the
162       //the attached expander finish its discover on attached_phy.
163       ;
164    }
165 }
166 
167 /**
168  * @brief This routine constructs a smp phy object for an expander phy.
169  * @param[in] this_smp_phy The memory space to store a phy
170  * @param[in] owning_device The smp remote device that owns this smp phy.
171  * @param[in] discover_response The smp DISCOVER response for this_smp_phy.
172  *
173  * @return Whether a smp phy has an attached phy and the pair of phy are set
174  *            set to each other as attached phy successfully.
175  */
176 SCI_STATUS scif_sas_smp_phy_set_attached_phy(
177    SCIF_SAS_SMP_PHY_T       * this_smp_phy,
178    U8                         attached_phy_identifier,
179    SCIF_SAS_REMOTE_DEVICE_T * attached_remote_device
180 )
181 {
182    //find the attached phy from its owning device by attached_phy_id.
183    SCIF_SAS_SMP_PHY_T * attached_smp_phy =
184       (SCIF_SAS_SMP_PHY_T *)scif_sas_smp_remote_device_find_smp_phy_by_id(
185           attached_phy_identifier,
186           &attached_remote_device->protocol_device.smp_device);
187 
188    if (attached_smp_phy != NULL)
189    {
190       this_smp_phy->u.attached_phy = attached_smp_phy;
191       attached_smp_phy->u.attached_phy = this_smp_phy;
192 
193       return SCI_SUCCESS;
194    }
195 
196    return SCI_FAILURE;
197 }
198 
199 
200 /**
201  * @brief This method verify the routing attributes of a phy connection per
202  *        specification.
203  *
204  * @param[in] this_smp_phy One smp phy belongs to a smp phy connection.
205  * @param[in] attached_smp_phy One smp phy belongs to a smp phy connection.
206  *
207  * @return Whether routing attributes of a phy connection is legal.
208  * @retval SCI_SUCCESS indicates a good phy connection.
209  *         SCI_FAILURE indicates a illegal phy connection.
210  */
211 SCI_STATUS scif_sas_smp_phy_verify_routing_attribute(
212    SCIF_SAS_SMP_PHY_T * this_smp_phy,
213    SCIF_SAS_SMP_PHY_T * attached_smp_phy
214 )
215 {
216    SCI_STATUS status = SCI_SUCCESS;
217 
218    //expander phy with direct routing attribute can only connect to
219    //phy with direct routing attribute.
220    if ( this_smp_phy->routing_attribute == DIRECT_ROUTING_ATTRIBUTE
221          || attached_smp_phy->routing_attribute == DIRECT_ROUTING_ATTRIBUTE )
222    {
223       if ( (this_smp_phy->routing_attribute | attached_smp_phy->routing_attribute)
224            != DIRECT_ROUTING_ATTRIBUTE )
225          status = SCI_FAILURE;
226    }
227 
228    if (this_smp_phy->routing_attribute == TABLE_ROUTING_ATTRIBUTE
229        && attached_smp_phy->routing_attribute == TABLE_ROUTING_ATTRIBUTE)
230    {
231       if ( ! this_smp_phy->owning_device->protocol_device.smp_device.is_table_to_table_supported
232          || !attached_smp_phy->owning_device->protocol_device.smp_device.is_table_to_table_supported )
233       status = SCI_FAILURE;
234    }
235 
236    return status;
237 }
238 
239 
240 /**
241  * @brief This method find The next smp phy that is in the smp phy list and
242  *           resides in the same wide port as this_smp_phy.
243  *
244  * @param[in] this_smp_phy The smp phy whose neighbor phy that is in the same
245  *               same wide port is to be find.
246  *
247  * @return The next smp phy that is in the smp phy list and resides in the same
248  *            wide port as this_smp_phy.
249  */
250 SCIF_SAS_SMP_PHY_T * scif_sas_smp_phy_find_next_phy_in_wide_port(
251    SCIF_SAS_SMP_PHY_T * this_smp_phy
252 )
253 {
254    SCI_FAST_LIST_ELEMENT_T * next_phy_element = sci_fast_list_get_next(
255       &(this_smp_phy->list_element) );
256 
257    SCIF_SAS_SMP_PHY_T * next_phy;
258 
259    while (next_phy_element != NULL)
260    {
261       next_phy = (SCIF_SAS_SMP_PHY_T *)sci_fast_list_get_object(next_phy_element);
262 
263       next_phy_element = sci_fast_list_get_next( &(next_phy->list_element));
264 
265       if (next_phy->attached_sas_address.high == this_smp_phy->attached_sas_address.high
266           &&next_phy->attached_sas_address.low == this_smp_phy->attached_sas_address.low)
267          return next_phy;
268    }
269 
270    return NULL;
271 }
272 
273 
274 /**
275  * @brief This method find the smp phy that resides in the middle of the same
276  *        wide port as this_smp_phy.
277  *
278  * @param[in] this_smp_phy The smp phy who is the lowest order phy in a wide
279  *       port .
280  *
281  * @return The next smp phy that is in the smp phy list and resides in the same
282  *            wide port as this_smp_phy.
283  */
284 SCIF_SAS_SMP_PHY_T * scif_sas_smp_phy_find_middle_phy_in_wide_port(
285    SCIF_SAS_SMP_PHY_T * this_smp_phy
286 )
287 {
288    SCIF_SAS_SMP_PHY_T * next_phy =
289       scif_sas_smp_phy_find_next_phy_in_wide_port(this_smp_phy);
290    SCIF_SAS_SMP_PHY_T * middle_phy = this_smp_phy;
291 
292    //currently we assume a wide port could not be wider than X4. so the
293    //second phy is always the correct answer for x2, x3 or x4 wide port.
294    //For a narrow port, phy0 is the middle phy.
295    if (next_phy != NULL)
296    {
297       middle_phy = next_phy;
298       next_phy =
299          scif_sas_smp_phy_find_next_phy_in_wide_port(next_phy);
300    }
301 
302    if (next_phy != NULL)
303       middle_phy = next_phy;
304 
305    return middle_phy;
306 }
307 
308 
309 /**
310  * @brief This method find the smp phy that is the hishest order phy
311  *           in the same wide port as this_smp_phy.
312  *
313  * @param[in] this_smp_phy The smp phy who is the lowest order phy in a wide
314  *       port.
315  *
316  * @return The next smp phy that is in the smp phy list and resides in the same
317  *            wide port as this_smp_phy.
318  */
319 SCIF_SAS_SMP_PHY_T * scif_sas_smp_phy_find_highest_phy_in_wide_port(
320    SCIF_SAS_SMP_PHY_T * this_smp_phy
321 )
322 {
323    SCIF_SAS_SMP_PHY_T * next_phy =
324       scif_sas_smp_phy_find_next_phy_in_wide_port(this_smp_phy);
325    SCIF_SAS_SMP_PHY_T * highest_phy = this_smp_phy;
326 
327    while(next_phy != NULL )
328    {
329       highest_phy = next_phy;
330       next_phy =
331          scif_sas_smp_phy_find_next_phy_in_wide_port(next_phy);
332    }
333 
334    return highest_phy;
335 }
336