1ef270ab1SKenneth D. Merry /*-
2ef270ab1SKenneth D. Merry * Copyright (c) 2017 Broadcom. All rights reserved.
3ef270ab1SKenneth D. Merry * The term "Broadcom" refers to Broadcom Limited and/or its subsidiaries.
4ef270ab1SKenneth D. Merry *
5ef270ab1SKenneth D. Merry * Redistribution and use in source and binary forms, with or without
6ef270ab1SKenneth D. Merry * modification, are permitted provided that the following conditions are met:
7ef270ab1SKenneth D. Merry *
8ef270ab1SKenneth D. Merry * 1. Redistributions of source code must retain the above copyright notice,
9ef270ab1SKenneth D. Merry * this list of conditions and the following disclaimer.
10ef270ab1SKenneth D. Merry *
11ef270ab1SKenneth D. Merry * 2. Redistributions in binary form must reproduce the above copyright notice,
12ef270ab1SKenneth D. Merry * this list of conditions and the following disclaimer in the documentation
13ef270ab1SKenneth D. Merry * and/or other materials provided with the distribution.
14ef270ab1SKenneth D. Merry *
15ef270ab1SKenneth D. Merry * 3. Neither the name of the copyright holder nor the names of its contributors
16ef270ab1SKenneth D. Merry * may be used to endorse or promote products derived from this software
17ef270ab1SKenneth D. Merry * without specific prior written permission.
18ef270ab1SKenneth D. Merry *
19ef270ab1SKenneth D. Merry * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
20ef270ab1SKenneth D. Merry * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
21ef270ab1SKenneth D. Merry * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
22ef270ab1SKenneth D. Merry * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE
23ef270ab1SKenneth D. Merry * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
24ef270ab1SKenneth D. Merry * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
25ef270ab1SKenneth D. Merry * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
26ef270ab1SKenneth D. Merry * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
27ef270ab1SKenneth D. Merry * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
28ef270ab1SKenneth D. Merry * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
29ef270ab1SKenneth D. Merry * POSSIBILITY OF SUCH DAMAGE.
30ef270ab1SKenneth D. Merry */
31ef270ab1SKenneth D. Merry
32ef270ab1SKenneth D. Merry /**
33ef270ab1SKenneth D. Merry * @file
34ef270ab1SKenneth D. Merry * OCS Linux SCSI API base driver implementation.
35ef270ab1SKenneth D. Merry */
36ef270ab1SKenneth D. Merry
37ef270ab1SKenneth D. Merry /**
38ef270ab1SKenneth D. Merry * @defgroup scsi_api_base SCSI Base Target/Initiator
39ef270ab1SKenneth D. Merry */
40ef270ab1SKenneth D. Merry
41ef270ab1SKenneth D. Merry #include "ocs.h"
42ef270ab1SKenneth D. Merry #include "ocs_els.h"
43ef270ab1SKenneth D. Merry #include "ocs_scsi.h"
44ef270ab1SKenneth D. Merry #include "ocs_vpd.h"
45ef270ab1SKenneth D. Merry #include "ocs_utils.h"
46ef270ab1SKenneth D. Merry #include "ocs_device.h"
47ef270ab1SKenneth D. Merry
48ef270ab1SKenneth D. Merry #define SCSI_IOFMT "[%04x][i:%0*x t:%0*x h:%04x]"
49ef270ab1SKenneth D. Merry #define SCSI_ITT_SIZE(ocs) ((ocs->ocs_xport == OCS_XPORT_FC) ? 4 : 8)
50ef270ab1SKenneth D. Merry
51ef270ab1SKenneth D. Merry #define SCSI_IOFMT_ARGS(io) io->instance_index, SCSI_ITT_SIZE(io->ocs), io->init_task_tag, SCSI_ITT_SIZE(io->ocs), io->tgt_task_tag, io->hw_tag
52ef270ab1SKenneth D. Merry
53ef270ab1SKenneth D. Merry #define enable_tsend_auto_resp(ocs) ((ocs->ctrlmask & OCS_CTRLMASK_XPORT_DISABLE_AUTORSP_TSEND) == 0)
54ef270ab1SKenneth D. Merry #define enable_treceive_auto_resp(ocs) ((ocs->ctrlmask & OCS_CTRLMASK_XPORT_DISABLE_AUTORSP_TRECEIVE) == 0)
55ef270ab1SKenneth D. Merry
56ef270ab1SKenneth D. Merry #define scsi_io_printf(io, fmt, ...) ocs_log_info(io->ocs, "[%s]" SCSI_IOFMT fmt, \
57ef270ab1SKenneth D. Merry io->node->display_name, SCSI_IOFMT_ARGS(io), ##__VA_ARGS__)
58ef270ab1SKenneth D. Merry
59ef270ab1SKenneth D. Merry #define scsi_io_trace(io, fmt, ...) \
60ef270ab1SKenneth D. Merry do { \
61ef270ab1SKenneth D. Merry if (OCS_LOG_ENABLE_SCSI_TRACE(io->ocs)) \
62ef270ab1SKenneth D. Merry scsi_io_printf(io, fmt, ##__VA_ARGS__); \
63ef270ab1SKenneth D. Merry } while (0)
64ef270ab1SKenneth D. Merry
65ef270ab1SKenneth D. Merry #define scsi_log(ocs, fmt, ...) \
66ef270ab1SKenneth D. Merry do { \
67ef270ab1SKenneth D. Merry if (OCS_LOG_ENABLE_SCSI_TRACE(ocs)) \
68ef270ab1SKenneth D. Merry ocs_log_info(ocs, fmt, ##__VA_ARGS__); \
69ef270ab1SKenneth D. Merry } while (0)
70ef270ab1SKenneth D. Merry
71ef270ab1SKenneth D. Merry static int32_t ocs_target_send_bls_resp(ocs_io_t *io, ocs_scsi_io_cb_t cb, void *arg);
72ef270ab1SKenneth D. Merry static int32_t ocs_scsi_abort_io_cb(struct ocs_hw_io_s *hio, ocs_remote_node_t *rnode, uint32_t len, int32_t status,
73ef270ab1SKenneth D. Merry uint32_t ext, void *arg);
74ef270ab1SKenneth D. Merry
75ef270ab1SKenneth D. Merry static void ocs_scsi_io_free_ovfl(ocs_io_t *io);
76ef270ab1SKenneth D. Merry static uint32_t ocs_scsi_count_sgls(ocs_hw_dif_info_t *hw_dif, ocs_scsi_sgl_t *sgl, uint32_t sgl_count);
77ef270ab1SKenneth D. Merry static int ocs_scsi_dif_guard_is_crc(uint8_t direction, ocs_hw_dif_info_t *dif_info);
78ef270ab1SKenneth D. Merry static ocs_scsi_io_status_e ocs_scsi_dif_check_unknown(ocs_io_t *io, uint32_t length, uint32_t check_length, int is_crc);
79ef270ab1SKenneth D. Merry static uint32_t ocs_scsi_dif_check_guard(ocs_hw_dif_info_t *dif_info, ocs_scsi_vaddr_len_t addrlen[],
80ef270ab1SKenneth D. Merry uint32_t addrlen_count, ocs_dif_t *dif, int is_crc);
81ef270ab1SKenneth D. Merry static uint32_t ocs_scsi_dif_check_app_tag(ocs_t *ocs, ocs_hw_dif_info_t *dif_info, uint16_t exp_app_tag, ocs_dif_t *dif);
82ef270ab1SKenneth D. Merry static uint32_t ocs_scsi_dif_check_ref_tag(ocs_t *ocs, ocs_hw_dif_info_t *dif_info, uint32_t exp_ref_tag, ocs_dif_t *dif);
83ef270ab1SKenneth D. Merry static int32_t ocs_scsi_convert_dif_info(ocs_t *ocs, ocs_scsi_dif_info_t *scsi_dif_info,
84ef270ab1SKenneth D. Merry ocs_hw_dif_info_t *hw_dif_info);
85ef270ab1SKenneth D. Merry static int32_t ocs_scsi_io_dispatch_hw_io(ocs_io_t *io, ocs_hw_io_t *hio);
86ef270ab1SKenneth D. Merry static int32_t ocs_scsi_io_dispatch_no_hw_io(ocs_io_t *io);
87ef270ab1SKenneth D. Merry static void _ocs_scsi_io_free(void *arg);
88ef270ab1SKenneth D. Merry
89ef270ab1SKenneth D. Merry /**
90ef270ab1SKenneth D. Merry * @ingroup scsi_api_base
91ef270ab1SKenneth D. Merry * @brief Returns a big-endian 32-bit value given a pointer.
92ef270ab1SKenneth D. Merry *
93ef270ab1SKenneth D. Merry * @param p Pointer to the 32-bit big-endian location.
94ef270ab1SKenneth D. Merry *
95ef270ab1SKenneth D. Merry * @return Returns the byte-swapped 32-bit value.
96ef270ab1SKenneth D. Merry */
97ef270ab1SKenneth D. Merry
98ef270ab1SKenneth D. Merry static inline uint32_t
ocs_fc_getbe32(void * p)99ef270ab1SKenneth D. Merry ocs_fc_getbe32(void *p)
100ef270ab1SKenneth D. Merry {
101ef270ab1SKenneth D. Merry return ocs_be32toh(*((uint32_t*)p));
102ef270ab1SKenneth D. Merry }
103ef270ab1SKenneth D. Merry
104ef270ab1SKenneth D. Merry /**
105ef270ab1SKenneth D. Merry * @ingroup scsi_api_base
106ef270ab1SKenneth D. Merry * @brief Enable IO allocation.
107ef270ab1SKenneth D. Merry *
108ef270ab1SKenneth D. Merry * @par Description
109ef270ab1SKenneth D. Merry * The SCSI and Transport IO allocation functions are enabled. If the allocation functions
110ef270ab1SKenneth D. Merry * are not enabled, then calls to ocs_scsi_io_alloc() (and ocs_els_io_alloc() for FC) will
111ef270ab1SKenneth D. Merry * fail.
112ef270ab1SKenneth D. Merry *
113ef270ab1SKenneth D. Merry * @param node Pointer to node object.
114ef270ab1SKenneth D. Merry *
115ef270ab1SKenneth D. Merry * @return None.
116ef270ab1SKenneth D. Merry */
117ef270ab1SKenneth D. Merry void
ocs_scsi_io_alloc_enable(ocs_node_t * node)118ef270ab1SKenneth D. Merry ocs_scsi_io_alloc_enable(ocs_node_t *node)
119ef270ab1SKenneth D. Merry {
120ef270ab1SKenneth D. Merry ocs_assert(node != NULL);
121ef270ab1SKenneth D. Merry ocs_lock(&node->active_ios_lock);
122ef270ab1SKenneth D. Merry node->io_alloc_enabled = TRUE;
123ef270ab1SKenneth D. Merry ocs_unlock(&node->active_ios_lock);
124ef270ab1SKenneth D. Merry }
125ef270ab1SKenneth D. Merry
126ef270ab1SKenneth D. Merry /**
127ef270ab1SKenneth D. Merry * @ingroup scsi_api_base
128ef270ab1SKenneth D. Merry * @brief Disable IO allocation
129ef270ab1SKenneth D. Merry *
130ef270ab1SKenneth D. Merry * @par Description
131ef270ab1SKenneth D. Merry * The SCSI and Transport IO allocation functions are disabled. If the allocation functions
132ef270ab1SKenneth D. Merry * are not enabled, then calls to ocs_scsi_io_alloc() (and ocs_els_io_alloc() for FC) will
133ef270ab1SKenneth D. Merry * fail.
134ef270ab1SKenneth D. Merry *
135ef270ab1SKenneth D. Merry * @param node Pointer to node object
136ef270ab1SKenneth D. Merry *
137ef270ab1SKenneth D. Merry * @return None.
138ef270ab1SKenneth D. Merry */
139ef270ab1SKenneth D. Merry void
ocs_scsi_io_alloc_disable(ocs_node_t * node)140ef270ab1SKenneth D. Merry ocs_scsi_io_alloc_disable(ocs_node_t *node)
141ef270ab1SKenneth D. Merry {
142ef270ab1SKenneth D. Merry ocs_assert(node != NULL);
143ef270ab1SKenneth D. Merry ocs_lock(&node->active_ios_lock);
144ef270ab1SKenneth D. Merry node->io_alloc_enabled = FALSE;
145ef270ab1SKenneth D. Merry ocs_unlock(&node->active_ios_lock);
146ef270ab1SKenneth D. Merry }
147ef270ab1SKenneth D. Merry
148ef270ab1SKenneth D. Merry /**
149ef270ab1SKenneth D. Merry * @ingroup scsi_api_base
150ef270ab1SKenneth D. Merry * @brief Allocate a SCSI IO context.
151ef270ab1SKenneth D. Merry *
152ef270ab1SKenneth D. Merry * @par Description
153ef270ab1SKenneth D. Merry * A SCSI IO context is allocated and associated with a @c node. This function
154ef270ab1SKenneth D. Merry * is called by an initiator-client when issuing SCSI commands to remote
155ef270ab1SKenneth D. Merry * target devices. On completion, ocs_scsi_io_free() is called.
156ef270ab1SKenneth D. Merry * @n @n
157ef270ab1SKenneth D. Merry * The returned ocs_io_t structure has an element of type ocs_scsi_ini_io_t named
158ef270ab1SKenneth D. Merry * "ini_io" that is declared and used by an initiator-client for private information.
159ef270ab1SKenneth D. Merry *
160ef270ab1SKenneth D. Merry * @param node Pointer to the associated node structure.
161ef270ab1SKenneth D. Merry * @param role Role for IO (originator/responder).
162ef270ab1SKenneth D. Merry *
163ef270ab1SKenneth D. Merry * @return Returns the pointer to the IO context, or NULL.
164ef270ab1SKenneth D. Merry *
165ef270ab1SKenneth D. Merry */
166ef270ab1SKenneth D. Merry
167ef270ab1SKenneth D. Merry ocs_io_t *
ocs_scsi_io_alloc(ocs_node_t * node,ocs_scsi_io_role_e role)168ef270ab1SKenneth D. Merry ocs_scsi_io_alloc(ocs_node_t *node, ocs_scsi_io_role_e role)
169ef270ab1SKenneth D. Merry {
170ef270ab1SKenneth D. Merry ocs_t *ocs;
171ef270ab1SKenneth D. Merry ocs_xport_t *xport;
172ef270ab1SKenneth D. Merry ocs_io_t *io;
173ef270ab1SKenneth D. Merry
174ef270ab1SKenneth D. Merry ocs_assert(node, NULL);
175ef270ab1SKenneth D. Merry ocs_assert(node->ocs, NULL);
176ef270ab1SKenneth D. Merry
177ef270ab1SKenneth D. Merry ocs = node->ocs;
178ef270ab1SKenneth D. Merry ocs_assert(ocs->xport, NULL);
179ef270ab1SKenneth D. Merry xport = ocs->xport;
180ef270ab1SKenneth D. Merry
181ef270ab1SKenneth D. Merry ocs_lock(&node->active_ios_lock);
182ef270ab1SKenneth D. Merry
183ef270ab1SKenneth D. Merry if (!node->io_alloc_enabled) {
184ef270ab1SKenneth D. Merry ocs_unlock(&node->active_ios_lock);
185ef270ab1SKenneth D. Merry return NULL;
186ef270ab1SKenneth D. Merry }
187ef270ab1SKenneth D. Merry
188ef270ab1SKenneth D. Merry io = ocs_io_alloc(ocs);
189ef270ab1SKenneth D. Merry if (io == NULL) {
190ef270ab1SKenneth D. Merry ocs_atomic_add_return(&xport->io_alloc_failed_count, 1);
191ef270ab1SKenneth D. Merry ocs_unlock(&node->active_ios_lock);
192ef270ab1SKenneth D. Merry return NULL;
193ef270ab1SKenneth D. Merry }
194ef270ab1SKenneth D. Merry
195ef270ab1SKenneth D. Merry /* initialize refcount */
196ef270ab1SKenneth D. Merry ocs_ref_init(&io->ref, _ocs_scsi_io_free, io);
197ef270ab1SKenneth D. Merry
198ef270ab1SKenneth D. Merry if (io->hio != NULL) {
199ef270ab1SKenneth D. Merry ocs_log_err(node->ocs, "assertion failed: io->hio is not NULL\n");
200fc620f97SRam Kishore Vegesna ocs_io_free(ocs, io);
201ef270ab1SKenneth D. Merry ocs_unlock(&node->active_ios_lock);
202ef270ab1SKenneth D. Merry return NULL;
203ef270ab1SKenneth D. Merry }
204ef270ab1SKenneth D. Merry
205ef270ab1SKenneth D. Merry /* set generic fields */
206ef270ab1SKenneth D. Merry io->ocs = ocs;
207ef270ab1SKenneth D. Merry io->node = node;
208ef270ab1SKenneth D. Merry
209ef270ab1SKenneth D. Merry /* set type and name */
210ef270ab1SKenneth D. Merry io->io_type = OCS_IO_TYPE_IO;
211ef270ab1SKenneth D. Merry io->display_name = "scsi_io";
212ef270ab1SKenneth D. Merry
213ef270ab1SKenneth D. Merry switch (role) {
214ef270ab1SKenneth D. Merry case OCS_SCSI_IO_ROLE_ORIGINATOR:
215ef270ab1SKenneth D. Merry io->cmd_ini = TRUE;
216ef270ab1SKenneth D. Merry io->cmd_tgt = FALSE;
217ef270ab1SKenneth D. Merry break;
218ef270ab1SKenneth D. Merry case OCS_SCSI_IO_ROLE_RESPONDER:
219ef270ab1SKenneth D. Merry io->cmd_ini = FALSE;
220ef270ab1SKenneth D. Merry io->cmd_tgt = TRUE;
221ef270ab1SKenneth D. Merry break;
222ef270ab1SKenneth D. Merry }
223ef270ab1SKenneth D. Merry
224ef270ab1SKenneth D. Merry /* Add to node's active_ios list */
225ef270ab1SKenneth D. Merry ocs_list_add_tail(&node->active_ios, io);
226ef270ab1SKenneth D. Merry
227ef270ab1SKenneth D. Merry ocs_unlock(&node->active_ios_lock);
228ef270ab1SKenneth D. Merry
229ef270ab1SKenneth D. Merry return io;
230ef270ab1SKenneth D. Merry }
231ef270ab1SKenneth D. Merry
232ef270ab1SKenneth D. Merry /**
233ef270ab1SKenneth D. Merry * @ingroup scsi_api_base
234ef270ab1SKenneth D. Merry * @brief Free a SCSI IO context (internal).
235ef270ab1SKenneth D. Merry *
236ef270ab1SKenneth D. Merry * @par Description
237ef270ab1SKenneth D. Merry * The IO context previously allocated using ocs_scsi_io_alloc()
238ef270ab1SKenneth D. Merry * is freed. This is called from within the transport layer,
239ef270ab1SKenneth D. Merry * when the reference count goes to zero.
240ef270ab1SKenneth D. Merry *
241ef270ab1SKenneth D. Merry * @param arg Pointer to the IO context.
242ef270ab1SKenneth D. Merry *
243ef270ab1SKenneth D. Merry * @return None.
244ef270ab1SKenneth D. Merry */
245ef270ab1SKenneth D. Merry static void
_ocs_scsi_io_free(void * arg)246ef270ab1SKenneth D. Merry _ocs_scsi_io_free(void *arg)
247ef270ab1SKenneth D. Merry {
248ef270ab1SKenneth D. Merry ocs_io_t *io = (ocs_io_t *)arg;
249ef270ab1SKenneth D. Merry ocs_t *ocs = io->ocs;
250ef270ab1SKenneth D. Merry ocs_node_t *node = io->node;
251ef270ab1SKenneth D. Merry int send_empty_event;
252ef270ab1SKenneth D. Merry
253ef270ab1SKenneth D. Merry ocs_assert(io != NULL);
254ef270ab1SKenneth D. Merry
255ef270ab1SKenneth D. Merry scsi_io_trace(io, "freeing io 0x%p %s\n", io, io->display_name);
256ef270ab1SKenneth D. Merry
257ef270ab1SKenneth D. Merry ocs_assert(ocs_io_busy(io));
258ef270ab1SKenneth D. Merry
259ef270ab1SKenneth D. Merry ocs_lock(&node->active_ios_lock);
260ef270ab1SKenneth D. Merry ocs_list_remove(&node->active_ios, io);
261ef270ab1SKenneth D. Merry send_empty_event = (!node->io_alloc_enabled) && ocs_list_empty(&node->active_ios);
262ef270ab1SKenneth D. Merry ocs_unlock(&node->active_ios_lock);
263ef270ab1SKenneth D. Merry
264ef270ab1SKenneth D. Merry if (send_empty_event) {
265ef270ab1SKenneth D. Merry ocs_node_post_event(node, OCS_EVT_NODE_ACTIVE_IO_LIST_EMPTY, NULL);
266ef270ab1SKenneth D. Merry }
267ef270ab1SKenneth D. Merry
268ef270ab1SKenneth D. Merry io->node = NULL;
269ef270ab1SKenneth D. Merry ocs_io_free(ocs, io);
270ef270ab1SKenneth D. Merry
271ef270ab1SKenneth D. Merry }
272ef270ab1SKenneth D. Merry
273ef270ab1SKenneth D. Merry /**
274ef270ab1SKenneth D. Merry * @ingroup scsi_api_base
275ef270ab1SKenneth D. Merry * @brief Free a SCSI IO context.
276ef270ab1SKenneth D. Merry *
277ef270ab1SKenneth D. Merry * @par Description
278ef270ab1SKenneth D. Merry * The IO context previously allocated using ocs_scsi_io_alloc() is freed.
279ef270ab1SKenneth D. Merry *
280ef270ab1SKenneth D. Merry * @param io Pointer to the IO context.
281ef270ab1SKenneth D. Merry *
282ef270ab1SKenneth D. Merry * @return None.
283ef270ab1SKenneth D. Merry */
284ef270ab1SKenneth D. Merry void
ocs_scsi_io_free(ocs_io_t * io)285ef270ab1SKenneth D. Merry ocs_scsi_io_free(ocs_io_t *io)
286ef270ab1SKenneth D. Merry {
287ef270ab1SKenneth D. Merry scsi_io_trace(io, "freeing io 0x%p %s\n", io, io->display_name);
288ef270ab1SKenneth D. Merry ocs_assert(ocs_ref_read_count(&io->ref) > 0);
289ef270ab1SKenneth D. Merry ocs_ref_put(&io->ref); /* ocs_ref_get(): ocs_scsi_io_alloc() */
290ef270ab1SKenneth D. Merry }
291ef270ab1SKenneth D. Merry
292ef270ab1SKenneth D. Merry static int32_t
293ef270ab1SKenneth D. Merry ocs_scsi_send_io(ocs_hw_io_type_e type, ocs_node_t *node, ocs_io_t *io, uint64_t lun,
294ef270ab1SKenneth D. Merry ocs_scsi_tmf_cmd_e tmf, uint8_t *cdb, uint32_t cdb_len,
295ef270ab1SKenneth D. Merry ocs_scsi_dif_info_t *dif_info,
296ef270ab1SKenneth D. Merry ocs_scsi_sgl_t *sgl, uint32_t sgl_count, uint32_t wire_len, uint32_t first_burst,
29788364968SAlexander Motin ocs_scsi_rsp_io_cb_t cb, void *arg, uint32_t flags);
298ef270ab1SKenneth D. Merry
299ef270ab1SKenneth D. Merry /**
300ef270ab1SKenneth D. Merry * @brief Target response completion callback.
301ef270ab1SKenneth D. Merry *
302ef270ab1SKenneth D. Merry * @par Description
303ef270ab1SKenneth D. Merry * Function is called upon the completion of a target IO request.
304ef270ab1SKenneth D. Merry *
305ef270ab1SKenneth D. Merry * @param hio Pointer to the HW IO structure.
306ef270ab1SKenneth D. Merry * @param rnode Remote node associated with the IO that is completing.
307ef270ab1SKenneth D. Merry * @param length Length of the response payload.
308ef270ab1SKenneth D. Merry * @param status Completion status.
309ef270ab1SKenneth D. Merry * @param ext_status Extended completion status.
310ef270ab1SKenneth D. Merry * @param app Application-specific data (generally a pointer to the IO context).
311ef270ab1SKenneth D. Merry *
312ef270ab1SKenneth D. Merry * @return None.
313ef270ab1SKenneth D. Merry */
314ef270ab1SKenneth D. Merry
315ef270ab1SKenneth D. Merry static void
ocs_target_io_cb(ocs_hw_io_t * hio,ocs_remote_node_t * rnode,uint32_t length,int32_t status,uint32_t ext_status,void * app)316ef270ab1SKenneth D. Merry ocs_target_io_cb(ocs_hw_io_t *hio, ocs_remote_node_t *rnode, uint32_t length,
317ef270ab1SKenneth D. Merry int32_t status, uint32_t ext_status, void *app)
318ef270ab1SKenneth D. Merry {
319ef270ab1SKenneth D. Merry ocs_io_t *io = app;
320ef270ab1SKenneth D. Merry ocs_t *ocs;
321ef270ab1SKenneth D. Merry ocs_scsi_io_status_e scsi_status = OCS_SCSI_STATUS_GOOD;
322ef270ab1SKenneth D. Merry uint16_t additional_length;
323ef270ab1SKenneth D. Merry uint8_t edir;
324ef270ab1SKenneth D. Merry uint8_t tdpv;
325ef270ab1SKenneth D. Merry ocs_hw_dif_info_t *dif_info = &io->hw_dif;
326ef270ab1SKenneth D. Merry int is_crc;
327ef270ab1SKenneth D. Merry
328ef270ab1SKenneth D. Merry ocs_assert(io);
329ef270ab1SKenneth D. Merry
330ef270ab1SKenneth D. Merry scsi_io_trace(io, "status x%x ext_status x%x\n", status, ext_status);
331ef270ab1SKenneth D. Merry
332ef270ab1SKenneth D. Merry ocs = io->ocs;
333ef270ab1SKenneth D. Merry ocs_assert(ocs);
334ef270ab1SKenneth D. Merry
335ef270ab1SKenneth D. Merry ocs_scsi_io_free_ovfl(io);
336ef270ab1SKenneth D. Merry
337ef270ab1SKenneth D. Merry io->transferred += length;
338ef270ab1SKenneth D. Merry
339ef270ab1SKenneth D. Merry /* Call target server completion */
340ef270ab1SKenneth D. Merry if (io->scsi_tgt_cb) {
341ef270ab1SKenneth D. Merry ocs_scsi_io_cb_t cb = io->scsi_tgt_cb;
342ef270ab1SKenneth D. Merry uint32_t flags = 0;
343ef270ab1SKenneth D. Merry
344ef270ab1SKenneth D. Merry /* Clear the callback before invoking the callback */
345ef270ab1SKenneth D. Merry io->scsi_tgt_cb = NULL;
346ef270ab1SKenneth D. Merry
347ef270ab1SKenneth D. Merry /* if status was good, and auto-good-response was set, then callback
348ef270ab1SKenneth D. Merry * target-server with IO_CMPL_RSP_SENT, otherwise send IO_CMPL
349ef270ab1SKenneth D. Merry */
350ef270ab1SKenneth D. Merry if ((status == 0) && (io->auto_resp))
351ef270ab1SKenneth D. Merry flags |= OCS_SCSI_IO_CMPL_RSP_SENT;
352ef270ab1SKenneth D. Merry else
353ef270ab1SKenneth D. Merry flags |= OCS_SCSI_IO_CMPL;
354ef270ab1SKenneth D. Merry
355ef270ab1SKenneth D. Merry switch (status) {
356ef270ab1SKenneth D. Merry case SLI4_FC_WCQE_STATUS_SUCCESS:
357ef270ab1SKenneth D. Merry scsi_status = OCS_SCSI_STATUS_GOOD;
358ef270ab1SKenneth D. Merry break;
359ef270ab1SKenneth D. Merry case SLI4_FC_WCQE_STATUS_DI_ERROR:
360ef270ab1SKenneth D. Merry if (ext_status & SLI4_FC_DI_ERROR_GE) {
361ef270ab1SKenneth D. Merry scsi_status = OCS_SCSI_STATUS_DIF_GUARD_ERROR;
362ef270ab1SKenneth D. Merry } else if (ext_status & SLI4_FC_DI_ERROR_AE) {
363ef270ab1SKenneth D. Merry scsi_status = OCS_SCSI_STATUS_DIF_APP_TAG_ERROR;
364ef270ab1SKenneth D. Merry } else if (ext_status & SLI4_FC_DI_ERROR_RE) {
365ef270ab1SKenneth D. Merry scsi_status = OCS_SCSI_STATUS_DIF_REF_TAG_ERROR;
366ef270ab1SKenneth D. Merry } else {
367ef270ab1SKenneth D. Merry additional_length = ((ext_status >> 16) & 0xFFFF);
368ef270ab1SKenneth D. Merry
369ef270ab1SKenneth D. Merry /* Capture the EDIR and TDPV bits as 0 or 1 for easier printing. */
370ef270ab1SKenneth D. Merry edir = !!(ext_status & SLI4_FC_DI_ERROR_EDIR);
371ef270ab1SKenneth D. Merry tdpv = !!(ext_status & SLI4_FC_DI_ERROR_TDPV);
372ef270ab1SKenneth D. Merry
373ef270ab1SKenneth D. Merry is_crc = ocs_scsi_dif_guard_is_crc(edir, dif_info);
374ef270ab1SKenneth D. Merry
375ef270ab1SKenneth D. Merry if (edir == 0) {
376ef270ab1SKenneth D. Merry /* For reads, we have everything in memory. Start checking from beginning. */
377ef270ab1SKenneth D. Merry scsi_status = ocs_scsi_dif_check_unknown(io, 0, io->wire_len, is_crc);
378ef270ab1SKenneth D. Merry } else {
379ef270ab1SKenneth D. Merry /* For writes, use the additional length to determine where to look for the error.
380ef270ab1SKenneth D. Merry * The additional_length field is set to 0 if it is not supported.
381ef270ab1SKenneth D. Merry * The additional length field is valid if:
382ef270ab1SKenneth D. Merry * . additional_length is not zero
383ef270ab1SKenneth D. Merry * . Total Data Placed is valid
384ef270ab1SKenneth D. Merry * . Error Direction is RX (1)
385ef270ab1SKenneth D. Merry * . Operation is a pass thru (CRC or CKSUM on IN, and CRC or CHKSUM on OUT) (all pass-thru cases except raw)
386ef270ab1SKenneth D. Merry */
387ef270ab1SKenneth D. Merry if ((additional_length != 0) && (tdpv != 0) &&
388ef270ab1SKenneth D. Merry (dif_info->dif == SLI4_DIF_PASS_THROUGH) && (dif_info->dif_oper != OCS_HW_SGE_DIF_OP_IN_RAW_OUT_RAW) ) {
389ef270ab1SKenneth D. Merry scsi_status = ocs_scsi_dif_check_unknown(io, length, additional_length, is_crc);
390ef270ab1SKenneth D. Merry } else {
391ef270ab1SKenneth D. Merry /* If we can't do additional checking, then fall-back to guard error */
392ef270ab1SKenneth D. Merry scsi_status = OCS_SCSI_STATUS_DIF_GUARD_ERROR;
393ef270ab1SKenneth D. Merry }
394ef270ab1SKenneth D. Merry }
395ef270ab1SKenneth D. Merry }
396ef270ab1SKenneth D. Merry break;
397ef270ab1SKenneth D. Merry case SLI4_FC_WCQE_STATUS_LOCAL_REJECT:
398ef270ab1SKenneth D. Merry switch (ext_status) {
399ef270ab1SKenneth D. Merry case SLI4_FC_LOCAL_REJECT_INVALID_RELOFFSET:
400ef270ab1SKenneth D. Merry case SLI4_FC_LOCAL_REJECT_ABORT_REQUESTED:
401ef270ab1SKenneth D. Merry scsi_status = OCS_SCSI_STATUS_ABORTED;
402ef270ab1SKenneth D. Merry break;
403ef270ab1SKenneth D. Merry case SLI4_FC_LOCAL_REJECT_INVALID_RPI:
404ef270ab1SKenneth D. Merry scsi_status = OCS_SCSI_STATUS_NEXUS_LOST;
405ef270ab1SKenneth D. Merry break;
406ef270ab1SKenneth D. Merry case SLI4_FC_LOCAL_REJECT_NO_XRI:
407ef270ab1SKenneth D. Merry scsi_status = OCS_SCSI_STATUS_NO_IO;
408ef270ab1SKenneth D. Merry break;
409ef270ab1SKenneth D. Merry default:
410ef270ab1SKenneth D. Merry /* TODO: we have seen 0x0d (TX_DMA_FAILED error) */
411ef270ab1SKenneth D. Merry scsi_status = OCS_SCSI_STATUS_ERROR;
412ef270ab1SKenneth D. Merry break;
413ef270ab1SKenneth D. Merry }
414ef270ab1SKenneth D. Merry break;
415ef270ab1SKenneth D. Merry
416*70547544SRam Kishore Vegesna case SLI4_FC_WCQE_STATUS_WQE_TIMEOUT:
417ef270ab1SKenneth D. Merry /* target IO timed out */
418ef270ab1SKenneth D. Merry scsi_status = OCS_SCSI_STATUS_TIMEDOUT_AND_ABORTED;
419ef270ab1SKenneth D. Merry break;
420ef270ab1SKenneth D. Merry
421ef270ab1SKenneth D. Merry case SLI4_FC_WCQE_STATUS_SHUTDOWN:
422ef270ab1SKenneth D. Merry /* Target IO cancelled by HW */
423ef270ab1SKenneth D. Merry scsi_status = OCS_SCSI_STATUS_SHUTDOWN;
424ef270ab1SKenneth D. Merry break;
425ef270ab1SKenneth D. Merry
426ef270ab1SKenneth D. Merry default:
427ef270ab1SKenneth D. Merry scsi_status = OCS_SCSI_STATUS_ERROR;
428ef270ab1SKenneth D. Merry break;
429ef270ab1SKenneth D. Merry }
430ef270ab1SKenneth D. Merry
431ef270ab1SKenneth D. Merry cb(io, scsi_status, flags, io->scsi_tgt_cb_arg);
432ef270ab1SKenneth D. Merry }
433ef270ab1SKenneth D. Merry ocs_scsi_check_pending(ocs);
434ef270ab1SKenneth D. Merry }
435ef270ab1SKenneth D. Merry
436ef270ab1SKenneth D. Merry /**
437ef270ab1SKenneth D. Merry * @brief Determine if an IO is using CRC for DIF guard format.
438ef270ab1SKenneth D. Merry *
439ef270ab1SKenneth D. Merry * @param direction IO direction: 1 for write, 0 for read.
440ef270ab1SKenneth D. Merry * @param dif_info Pointer to HW DIF info data.
441ef270ab1SKenneth D. Merry *
442ef270ab1SKenneth D. Merry * @return Returns TRUE if using CRC, FALSE if not.
443ef270ab1SKenneth D. Merry */
444ef270ab1SKenneth D. Merry static int
ocs_scsi_dif_guard_is_crc(uint8_t direction,ocs_hw_dif_info_t * dif_info)445ef270ab1SKenneth D. Merry ocs_scsi_dif_guard_is_crc(uint8_t direction, ocs_hw_dif_info_t *dif_info)
446ef270ab1SKenneth D. Merry {
447ef270ab1SKenneth D. Merry int is_crc;
448ef270ab1SKenneth D. Merry
449ef270ab1SKenneth D. Merry if (direction) {
450ef270ab1SKenneth D. Merry /* For writes, check if operation is "OUT_CRC" or not */
451ef270ab1SKenneth D. Merry switch(dif_info->dif_oper) {
452ef270ab1SKenneth D. Merry case OCS_HW_SGE_DIF_OP_IN_NODIF_OUT_CRC:
453ef270ab1SKenneth D. Merry case OCS_HW_SGE_DIF_OP_IN_CRC_OUT_CRC:
454ef270ab1SKenneth D. Merry case OCS_HW_SGE_DIF_OP_IN_CHKSUM_OUT_CRC:
455ef270ab1SKenneth D. Merry is_crc = TRUE;
456ef270ab1SKenneth D. Merry break;
457ef270ab1SKenneth D. Merry default:
458ef270ab1SKenneth D. Merry is_crc = FALSE;
459ef270ab1SKenneth D. Merry break;
460ef270ab1SKenneth D. Merry }
461ef270ab1SKenneth D. Merry } else {
462ef270ab1SKenneth D. Merry /* For reads, check if operation is "IN_CRC" or not */
463ef270ab1SKenneth D. Merry switch(dif_info->dif_oper) {
464ef270ab1SKenneth D. Merry case OCS_HW_SGE_DIF_OP_IN_CRC_OUT_NODIF:
465ef270ab1SKenneth D. Merry case OCS_HW_SGE_DIF_OP_IN_CRC_OUT_CRC:
466ef270ab1SKenneth D. Merry case OCS_HW_SGE_DIF_OP_IN_CRC_OUT_CHKSUM:
467ef270ab1SKenneth D. Merry is_crc = TRUE;
468ef270ab1SKenneth D. Merry break;
469ef270ab1SKenneth D. Merry default:
470ef270ab1SKenneth D. Merry is_crc = FALSE;
471ef270ab1SKenneth D. Merry break;
472ef270ab1SKenneth D. Merry }
473ef270ab1SKenneth D. Merry }
474ef270ab1SKenneth D. Merry
475ef270ab1SKenneth D. Merry return is_crc;
476ef270ab1SKenneth D. Merry }
477ef270ab1SKenneth D. Merry
478ef270ab1SKenneth D. Merry /**
479ef270ab1SKenneth D. Merry * @brief Check a block and DIF data, computing the appropriate SCSI status
480ef270ab1SKenneth D. Merry *
481ef270ab1SKenneth D. Merry * @par Description
482ef270ab1SKenneth D. Merry * This function is used to check blocks and DIF when given an unknown DIF
483ef270ab1SKenneth D. Merry * status using the following logic:
484ef270ab1SKenneth D. Merry *
485ef270ab1SKenneth D. Merry * Given the address of the last good block, and a length of bytes that includes
486ef270ab1SKenneth D. Merry * the block with the DIF error, find the bad block. If a block is found with an
487ef270ab1SKenneth D. Merry * app_tag or ref_tag error, then return the appropriate error. No block is expected
488ef270ab1SKenneth D. Merry * to have a block guard error since hardware "fixes" the crc. So if no block in the
489ef270ab1SKenneth D. Merry * range of blocks has an error, then it is presumed to be a BLOCK GUARD error.
490ef270ab1SKenneth D. Merry *
491ef270ab1SKenneth D. Merry * @param io Pointer to the IO object.
492ef270ab1SKenneth D. Merry * @param length Length of bytes covering the good blocks.
493ef270ab1SKenneth D. Merry * @param check_length Length of bytes that covers the bad block.
494ef270ab1SKenneth D. Merry * @param is_crc True if guard is using CRC format.
495ef270ab1SKenneth D. Merry *
496ef270ab1SKenneth D. Merry * @return Returns SCSI status.
497ef270ab1SKenneth D. Merry */
498ef270ab1SKenneth D. Merry
499ef270ab1SKenneth D. Merry static ocs_scsi_io_status_e
ocs_scsi_dif_check_unknown(ocs_io_t * io,uint32_t length,uint32_t check_length,int is_crc)500ef270ab1SKenneth D. Merry ocs_scsi_dif_check_unknown(ocs_io_t *io, uint32_t length, uint32_t check_length, int is_crc)
501ef270ab1SKenneth D. Merry {
502ef270ab1SKenneth D. Merry uint32_t i;
503ef270ab1SKenneth D. Merry ocs_t *ocs = io->ocs;
504ef270ab1SKenneth D. Merry ocs_hw_dif_info_t *dif_info = &io->hw_dif;
505ef270ab1SKenneth D. Merry ocs_scsi_io_status_e scsi_status = OCS_SCSI_STATUS_DIF_GUARD_ERROR;
506ef270ab1SKenneth D. Merry uint32_t blocksize; /* data block size */
507ef270ab1SKenneth D. Merry uint64_t first_check_block; /* first block following total data placed */
508ef270ab1SKenneth D. Merry uint64_t last_check_block; /* last block to check */
509ef270ab1SKenneth D. Merry uint32_t check_count; /* count of blocks to check */
510ef270ab1SKenneth D. Merry ocs_scsi_vaddr_len_t addrlen[4]; /* address-length pairs returned from target */
511ef270ab1SKenneth D. Merry int32_t addrlen_count; /* count of address-length pairs */
512ef270ab1SKenneth D. Merry ocs_dif_t *dif; /* pointer to DIF block returned from target */
513ef270ab1SKenneth D. Merry ocs_scsi_dif_info_t scsi_dif_info = io->scsi_dif_info;
514ef270ab1SKenneth D. Merry
515ef270ab1SKenneth D. Merry blocksize = ocs_hw_dif_mem_blocksize(&io->hw_dif, TRUE);
516ef270ab1SKenneth D. Merry first_check_block = length / blocksize;
517ef270ab1SKenneth D. Merry last_check_block = ((length + check_length) / blocksize);
518ef270ab1SKenneth D. Merry check_count = last_check_block - first_check_block;
519ef270ab1SKenneth D. Merry
520ef270ab1SKenneth D. Merry ocs_log_debug(ocs, "blocksize %d first check_block %" PRId64 " last_check_block %" PRId64 " check_count %d\n",
521ef270ab1SKenneth D. Merry blocksize, first_check_block, last_check_block, check_count);
522ef270ab1SKenneth D. Merry
523ef270ab1SKenneth D. Merry for (i = first_check_block; i < last_check_block; i++) {
524ef270ab1SKenneth D. Merry addrlen_count = ocs_scsi_get_block_vaddr(io, (scsi_dif_info.lba + i), addrlen, ARRAY_SIZE(addrlen), (void**) &dif);
525ef270ab1SKenneth D. Merry if (addrlen_count < 0) {
526ef270ab1SKenneth D. Merry ocs_log_test(ocs, "ocs_scsi_get_block_vaddr() failed: %d\n", addrlen_count);
527ef270ab1SKenneth D. Merry scsi_status = OCS_SCSI_STATUS_DIF_UNKNOWN_ERROR;
528ef270ab1SKenneth D. Merry break;
529ef270ab1SKenneth D. Merry }
530ef270ab1SKenneth D. Merry
531ef270ab1SKenneth D. Merry if (! ocs_scsi_dif_check_guard(dif_info, addrlen, addrlen_count, dif, is_crc)) {
532ef270ab1SKenneth D. Merry ocs_log_debug(ocs, "block guard check error, lba %" PRId64 "\n", scsi_dif_info.lba + i);
533ef270ab1SKenneth D. Merry scsi_status = OCS_SCSI_STATUS_DIF_GUARD_ERROR;
534ef270ab1SKenneth D. Merry break;
535ef270ab1SKenneth D. Merry }
536ef270ab1SKenneth D. Merry if (! ocs_scsi_dif_check_app_tag(ocs, dif_info, scsi_dif_info.app_tag, dif)) {
537ef270ab1SKenneth D. Merry ocs_log_debug(ocs, "app tag check error, lba %" PRId64 "\n", scsi_dif_info.lba + i);
538ef270ab1SKenneth D. Merry scsi_status = OCS_SCSI_STATUS_DIF_APP_TAG_ERROR;
539ef270ab1SKenneth D. Merry break;
540ef270ab1SKenneth D. Merry }
541ef270ab1SKenneth D. Merry if (! ocs_scsi_dif_check_ref_tag(ocs, dif_info, (scsi_dif_info.ref_tag + i), dif)) {
542ef270ab1SKenneth D. Merry ocs_log_debug(ocs, "ref tag check error, lba %" PRId64 "\n", scsi_dif_info.lba + i);
543ef270ab1SKenneth D. Merry scsi_status = OCS_SCSI_STATUS_DIF_REF_TAG_ERROR;
544ef270ab1SKenneth D. Merry break;
545ef270ab1SKenneth D. Merry }
546ef270ab1SKenneth D. Merry }
547ef270ab1SKenneth D. Merry return scsi_status;
548ef270ab1SKenneth D. Merry }
549ef270ab1SKenneth D. Merry
550ef270ab1SKenneth D. Merry /**
551ef270ab1SKenneth D. Merry * @brief Check the block guard of block data
552ef270ab1SKenneth D. Merry *
553ef270ab1SKenneth D. Merry * @par Description
554ef270ab1SKenneth D. Merry * Using the dif_info for the transfer, check the block guard value.
555ef270ab1SKenneth D. Merry *
556ef270ab1SKenneth D. Merry * @param dif_info Pointer to HW DIF info data.
557ef270ab1SKenneth D. Merry * @param addrlen Array of address length pairs.
558ef270ab1SKenneth D. Merry * @param addrlen_count Number of entries in the addrlen[] array.
559ef270ab1SKenneth D. Merry * @param dif Pointer to the DIF data block being checked.
560ef270ab1SKenneth D. Merry * @param is_crc True if guard is using CRC format.
561ef270ab1SKenneth D. Merry *
562ef270ab1SKenneth D. Merry * @return Returns TRUE if block guard check is ok.
563ef270ab1SKenneth D. Merry */
564ef270ab1SKenneth D. Merry static uint32_t
ocs_scsi_dif_check_guard(ocs_hw_dif_info_t * dif_info,ocs_scsi_vaddr_len_t addrlen[],uint32_t addrlen_count,ocs_dif_t * dif,int is_crc)565ef270ab1SKenneth D. Merry ocs_scsi_dif_check_guard(ocs_hw_dif_info_t *dif_info, ocs_scsi_vaddr_len_t addrlen[], uint32_t addrlen_count,
566ef270ab1SKenneth D. Merry ocs_dif_t *dif, int is_crc)
567ef270ab1SKenneth D. Merry {
568ef270ab1SKenneth D. Merry uint16_t crc = dif_info->dif_seed;
569ef270ab1SKenneth D. Merry uint32_t i;
570ef270ab1SKenneth D. Merry uint16_t checksum;
571ef270ab1SKenneth D. Merry
572ef270ab1SKenneth D. Merry if ((dif == NULL) || !dif_info->check_guard) {
573ef270ab1SKenneth D. Merry return TRUE;
574ef270ab1SKenneth D. Merry }
575ef270ab1SKenneth D. Merry
576ef270ab1SKenneth D. Merry if (is_crc) {
577ef270ab1SKenneth D. Merry for (i = 0; i < addrlen_count; i++) {
578ef270ab1SKenneth D. Merry crc = ocs_scsi_dif_calc_crc(addrlen[i].vaddr, addrlen[i].length, crc);
579ef270ab1SKenneth D. Merry }
580ef270ab1SKenneth D. Merry return (crc == ocs_be16toh(dif->crc));
581ef270ab1SKenneth D. Merry } else {
582ef270ab1SKenneth D. Merry checksum = ocs_scsi_dif_calc_checksum(addrlen, addrlen_count);
583ef270ab1SKenneth D. Merry
584ef270ab1SKenneth D. Merry return (checksum == dif->crc);
585ef270ab1SKenneth D. Merry }
586ef270ab1SKenneth D. Merry }
587ef270ab1SKenneth D. Merry
588ef270ab1SKenneth D. Merry /**
589ef270ab1SKenneth D. Merry * @brief Check the app tag of dif data
590ef270ab1SKenneth D. Merry *
591ef270ab1SKenneth D. Merry * @par Description
592ef270ab1SKenneth D. Merry * Using the dif_info for the transfer, check the app tag.
593ef270ab1SKenneth D. Merry *
594ef270ab1SKenneth D. Merry * @param ocs Pointer to the ocs structure for logging.
595ef270ab1SKenneth D. Merry * @param dif_info Pointer to HW DIF info data.
596ef270ab1SKenneth D. Merry * @param exp_app_tag The value the app tag is expected to be.
597ef270ab1SKenneth D. Merry * @param dif Pointer to the DIF data block being checked.
598ef270ab1SKenneth D. Merry *
599ef270ab1SKenneth D. Merry * @return Returns TRUE if app tag check is ok.
600ef270ab1SKenneth D. Merry */
601ef270ab1SKenneth D. Merry static uint32_t
ocs_scsi_dif_check_app_tag(ocs_t * ocs,ocs_hw_dif_info_t * dif_info,uint16_t exp_app_tag,ocs_dif_t * dif)602ef270ab1SKenneth D. Merry ocs_scsi_dif_check_app_tag(ocs_t *ocs, ocs_hw_dif_info_t *dif_info, uint16_t exp_app_tag, ocs_dif_t *dif)
603ef270ab1SKenneth D. Merry {
604ef270ab1SKenneth D. Merry if ((dif == NULL) || !dif_info->check_app_tag) {
605ef270ab1SKenneth D. Merry return TRUE;
606ef270ab1SKenneth D. Merry }
607ef270ab1SKenneth D. Merry
608ef270ab1SKenneth D. Merry ocs_log_debug(ocs, "expected app tag 0x%x, actual 0x%x\n",
609ef270ab1SKenneth D. Merry exp_app_tag, ocs_be16toh(dif->app_tag));
610ef270ab1SKenneth D. Merry
611ef270ab1SKenneth D. Merry return (exp_app_tag == ocs_be16toh(dif->app_tag));
612ef270ab1SKenneth D. Merry }
613ef270ab1SKenneth D. Merry
614ef270ab1SKenneth D. Merry /**
615ef270ab1SKenneth D. Merry * @brief Check the ref tag of dif data
616ef270ab1SKenneth D. Merry *
617ef270ab1SKenneth D. Merry * @par Description
618ef270ab1SKenneth D. Merry * Using the dif_info for the transfer, check the app tag.
619ef270ab1SKenneth D. Merry *
620ef270ab1SKenneth D. Merry * @param ocs Pointer to the ocs structure for logging.
621ef270ab1SKenneth D. Merry * @param dif_info Pointer to HW DIF info data.
622ef270ab1SKenneth D. Merry * @param exp_ref_tag The value the ref tag is expected to be.
623ef270ab1SKenneth D. Merry * @param dif Pointer to the DIF data block being checked.
624ef270ab1SKenneth D. Merry *
625ef270ab1SKenneth D. Merry * @return Returns TRUE if ref tag check is ok.
626ef270ab1SKenneth D. Merry */
627ef270ab1SKenneth D. Merry static uint32_t
ocs_scsi_dif_check_ref_tag(ocs_t * ocs,ocs_hw_dif_info_t * dif_info,uint32_t exp_ref_tag,ocs_dif_t * dif)628ef270ab1SKenneth D. Merry ocs_scsi_dif_check_ref_tag(ocs_t *ocs, ocs_hw_dif_info_t *dif_info, uint32_t exp_ref_tag, ocs_dif_t *dif)
629ef270ab1SKenneth D. Merry {
630ef270ab1SKenneth D. Merry if ((dif == NULL) || !dif_info->check_ref_tag) {
631ef270ab1SKenneth D. Merry return TRUE;
632ef270ab1SKenneth D. Merry }
633ef270ab1SKenneth D. Merry
634ef270ab1SKenneth D. Merry if (exp_ref_tag != ocs_be32toh(dif->ref_tag)) {
635ef270ab1SKenneth D. Merry ocs_log_debug(ocs, "expected ref tag 0x%x, actual 0x%x\n",
636ef270ab1SKenneth D. Merry exp_ref_tag, ocs_be32toh(dif->ref_tag));
637ef270ab1SKenneth D. Merry return FALSE;
638ef270ab1SKenneth D. Merry } else {
639ef270ab1SKenneth D. Merry return TRUE;
640ef270ab1SKenneth D. Merry }
641ef270ab1SKenneth D. Merry }
642ef270ab1SKenneth D. Merry
643ef270ab1SKenneth D. Merry /**
644ef270ab1SKenneth D. Merry * @brief Return count of SGE's required for request
645ef270ab1SKenneth D. Merry *
646ef270ab1SKenneth D. Merry * @par Description
647ef270ab1SKenneth D. Merry * An accurate count of SGEs is computed and returned.
648ef270ab1SKenneth D. Merry *
649ef270ab1SKenneth D. Merry * @param hw_dif Pointer to HW dif information.
650ef270ab1SKenneth D. Merry * @param sgl Pointer to SGL from back end.
651ef270ab1SKenneth D. Merry * @param sgl_count Count of SGEs in SGL.
652ef270ab1SKenneth D. Merry *
653ef270ab1SKenneth D. Merry * @return Count of SGEs.
654ef270ab1SKenneth D. Merry */
655ef270ab1SKenneth D. Merry static uint32_t
ocs_scsi_count_sgls(ocs_hw_dif_info_t * hw_dif,ocs_scsi_sgl_t * sgl,uint32_t sgl_count)656ef270ab1SKenneth D. Merry ocs_scsi_count_sgls(ocs_hw_dif_info_t *hw_dif, ocs_scsi_sgl_t *sgl, uint32_t sgl_count)
657ef270ab1SKenneth D. Merry {
658ef270ab1SKenneth D. Merry uint32_t count = 0;
659ef270ab1SKenneth D. Merry uint32_t i;
660ef270ab1SKenneth D. Merry
661ef270ab1SKenneth D. Merry /* Convert DIF Information */
662ef270ab1SKenneth D. Merry if (hw_dif->dif_oper != OCS_HW_DIF_OPER_DISABLED) {
663ef270ab1SKenneth D. Merry /* If we're not DIF separate, then emit a seed SGE */
664ef270ab1SKenneth D. Merry if (!hw_dif->dif_separate) {
665ef270ab1SKenneth D. Merry count++;
666ef270ab1SKenneth D. Merry }
667ef270ab1SKenneth D. Merry
668ef270ab1SKenneth D. Merry for (i = 0; i < sgl_count; i++) {
669ef270ab1SKenneth D. Merry /* If DIF is enabled, and DIF is separate, then append a SEED then DIF SGE */
670ef270ab1SKenneth D. Merry if (hw_dif->dif_separate) {
671ef270ab1SKenneth D. Merry count += 2;
672ef270ab1SKenneth D. Merry }
673ef270ab1SKenneth D. Merry
674ef270ab1SKenneth D. Merry count++;
675ef270ab1SKenneth D. Merry }
676ef270ab1SKenneth D. Merry } else {
677ef270ab1SKenneth D. Merry count = sgl_count;
678ef270ab1SKenneth D. Merry }
679ef270ab1SKenneth D. Merry return count;
680ef270ab1SKenneth D. Merry }
681ef270ab1SKenneth D. Merry
682ef270ab1SKenneth D. Merry static int32_t
ocs_scsi_build_sgls(ocs_hw_t * hw,ocs_hw_io_t * hio,ocs_hw_dif_info_t * hw_dif,ocs_scsi_sgl_t * sgl,uint32_t sgl_count,ocs_hw_io_type_e type)683ef270ab1SKenneth D. Merry ocs_scsi_build_sgls(ocs_hw_t *hw, ocs_hw_io_t *hio, ocs_hw_dif_info_t *hw_dif, ocs_scsi_sgl_t *sgl, uint32_t sgl_count, ocs_hw_io_type_e type)
684ef270ab1SKenneth D. Merry {
685ef270ab1SKenneth D. Merry int32_t rc;
686ef270ab1SKenneth D. Merry uint32_t i;
687ef270ab1SKenneth D. Merry ocs_t *ocs = hw->os;
688ef270ab1SKenneth D. Merry uint32_t blocksize = 0;
689ef270ab1SKenneth D. Merry uint32_t blockcount;
690ef270ab1SKenneth D. Merry
691ef270ab1SKenneth D. Merry ocs_assert(hio, -1);
692ef270ab1SKenneth D. Merry
693ef270ab1SKenneth D. Merry /* Initialize HW SGL */
694ef270ab1SKenneth D. Merry rc = ocs_hw_io_init_sges(hw, hio, type);
695ef270ab1SKenneth D. Merry if (rc) {
696ef270ab1SKenneth D. Merry ocs_log_err(ocs, "ocs_hw_io_init_sges failed: %d\n", rc);
697ef270ab1SKenneth D. Merry return -1;
698ef270ab1SKenneth D. Merry }
699ef270ab1SKenneth D. Merry
700ef270ab1SKenneth D. Merry /* Convert DIF Information */
701ef270ab1SKenneth D. Merry if (hw_dif->dif_oper != OCS_HW_DIF_OPER_DISABLED) {
702ef270ab1SKenneth D. Merry /* If we're not DIF separate, then emit a seed SGE */
703ef270ab1SKenneth D. Merry if (!hw_dif->dif_separate) {
704ef270ab1SKenneth D. Merry rc = ocs_hw_io_add_seed_sge(hw, hio, hw_dif);
705ef270ab1SKenneth D. Merry if (rc) {
706ef270ab1SKenneth D. Merry return rc;
707ef270ab1SKenneth D. Merry }
708ef270ab1SKenneth D. Merry }
709ef270ab1SKenneth D. Merry
710ef270ab1SKenneth D. Merry /* if we are doing DIF separate, then figure out the block size so that we
711ef270ab1SKenneth D. Merry * can update the ref tag in the DIF seed SGE. Also verify that the
712ef270ab1SKenneth D. Merry * the sgl lengths are all multiples of the blocksize
713ef270ab1SKenneth D. Merry */
714ef270ab1SKenneth D. Merry if (hw_dif->dif_separate) {
715ef270ab1SKenneth D. Merry switch(hw_dif->blk_size) {
716ef270ab1SKenneth D. Merry case OCS_HW_DIF_BK_SIZE_512: blocksize = 512; break;
717ef270ab1SKenneth D. Merry case OCS_HW_DIF_BK_SIZE_1024: blocksize = 1024; break;
718ef270ab1SKenneth D. Merry case OCS_HW_DIF_BK_SIZE_2048: blocksize = 2048; break;
719ef270ab1SKenneth D. Merry case OCS_HW_DIF_BK_SIZE_4096: blocksize = 4096; break;
720ef270ab1SKenneth D. Merry case OCS_HW_DIF_BK_SIZE_520: blocksize = 520; break;
721ef270ab1SKenneth D. Merry case OCS_HW_DIF_BK_SIZE_4104: blocksize = 4104; break;
722ef270ab1SKenneth D. Merry default:
723ef270ab1SKenneth D. Merry ocs_log_test(hw->os, "Inavlid hw_dif blocksize %d\n", hw_dif->blk_size);
724ef270ab1SKenneth D. Merry return -1;
725ef270ab1SKenneth D. Merry }
726ef270ab1SKenneth D. Merry for (i = 0; i < sgl_count; i++) {
727ef270ab1SKenneth D. Merry if ((sgl[i].len % blocksize) != 0) {
728ef270ab1SKenneth D. Merry ocs_log_test(hw->os, "sgl[%d] len of %ld is not multiple of blocksize\n",
729ef270ab1SKenneth D. Merry i, sgl[i].len);
730ef270ab1SKenneth D. Merry return -1;
731ef270ab1SKenneth D. Merry }
732ef270ab1SKenneth D. Merry }
733ef270ab1SKenneth D. Merry }
734ef270ab1SKenneth D. Merry
735ef270ab1SKenneth D. Merry for (i = 0; i < sgl_count; i++) {
736ef270ab1SKenneth D. Merry ocs_assert(sgl[i].addr, -1);
737ef270ab1SKenneth D. Merry ocs_assert(sgl[i].len, -1);
738ef270ab1SKenneth D. Merry
739ef270ab1SKenneth D. Merry /* If DIF is enabled, and DIF is separate, then append a SEED then DIF SGE */
740ef270ab1SKenneth D. Merry if (hw_dif->dif_separate) {
741ef270ab1SKenneth D. Merry rc = ocs_hw_io_add_seed_sge(hw, hio, hw_dif);
742ef270ab1SKenneth D. Merry if (rc) {
743ef270ab1SKenneth D. Merry return rc;
744ef270ab1SKenneth D. Merry }
745ef270ab1SKenneth D. Merry rc = ocs_hw_io_add_dif_sge(hw, hio, sgl[i].dif_addr);
746ef270ab1SKenneth D. Merry if (rc) {
747ef270ab1SKenneth D. Merry return rc;
748ef270ab1SKenneth D. Merry }
749ef270ab1SKenneth D. Merry /* Update the ref_tag for the next DIF seed SGE */
750ef270ab1SKenneth D. Merry blockcount = sgl[i].len / blocksize;
751ef270ab1SKenneth D. Merry if (hw_dif->dif_oper == OCS_HW_DIF_OPER_INSERT) {
752ef270ab1SKenneth D. Merry hw_dif->ref_tag_repl += blockcount;
753ef270ab1SKenneth D. Merry } else {
754ef270ab1SKenneth D. Merry hw_dif->ref_tag_cmp += blockcount;
755ef270ab1SKenneth D. Merry }
756ef270ab1SKenneth D. Merry }
757ef270ab1SKenneth D. Merry
758ef270ab1SKenneth D. Merry /* Add data SGE */
759ef270ab1SKenneth D. Merry rc = ocs_hw_io_add_sge(hw, hio, sgl[i].addr, sgl[i].len);
760ef270ab1SKenneth D. Merry if (rc) {
761ef270ab1SKenneth D. Merry ocs_log_err(ocs, "ocs_hw_io_add_sge failed: count=%d rc=%d\n",
762ef270ab1SKenneth D. Merry sgl_count, rc);
763ef270ab1SKenneth D. Merry return rc;
764ef270ab1SKenneth D. Merry }
765ef270ab1SKenneth D. Merry }
766ef270ab1SKenneth D. Merry } else {
767ef270ab1SKenneth D. Merry for (i = 0; i < sgl_count; i++) {
768ef270ab1SKenneth D. Merry ocs_assert(sgl[i].addr, -1);
769ef270ab1SKenneth D. Merry ocs_assert(sgl[i].len, -1);
770ef270ab1SKenneth D. Merry
771ef270ab1SKenneth D. Merry /* Add data SGE */
772ef270ab1SKenneth D. Merry rc = ocs_hw_io_add_sge(hw, hio, sgl[i].addr, sgl[i].len);
773ef270ab1SKenneth D. Merry if (rc) {
774ef270ab1SKenneth D. Merry ocs_log_err(ocs, "ocs_hw_io_add_sge failed: count=%d rc=%d\n",
775ef270ab1SKenneth D. Merry sgl_count, rc);
776ef270ab1SKenneth D. Merry return rc;
777ef270ab1SKenneth D. Merry }
778ef270ab1SKenneth D. Merry }
779ef270ab1SKenneth D. Merry }
780ef270ab1SKenneth D. Merry return 0;
781ef270ab1SKenneth D. Merry }
782ef270ab1SKenneth D. Merry
783ef270ab1SKenneth D. Merry /**
784ef270ab1SKenneth D. Merry * @ingroup scsi_api_base
785ef270ab1SKenneth D. Merry * @brief Convert SCSI API T10 DIF information into the FC HW format.
786ef270ab1SKenneth D. Merry *
787ef270ab1SKenneth D. Merry * @param ocs Pointer to the ocs structure for logging.
788ef270ab1SKenneth D. Merry * @param scsi_dif_info Pointer to the SCSI API T10 DIF fields.
789ef270ab1SKenneth D. Merry * @param hw_dif_info Pointer to the FC HW API T10 DIF fields.
790ef270ab1SKenneth D. Merry *
791ef270ab1SKenneth D. Merry * @return Returns 0 on success, or a negative error code value on failure.
792ef270ab1SKenneth D. Merry */
793ef270ab1SKenneth D. Merry
794ef270ab1SKenneth D. Merry static int32_t
ocs_scsi_convert_dif_info(ocs_t * ocs,ocs_scsi_dif_info_t * scsi_dif_info,ocs_hw_dif_info_t * hw_dif_info)795ef270ab1SKenneth D. Merry ocs_scsi_convert_dif_info(ocs_t *ocs, ocs_scsi_dif_info_t *scsi_dif_info, ocs_hw_dif_info_t *hw_dif_info)
796ef270ab1SKenneth D. Merry {
797ef270ab1SKenneth D. Merry uint32_t dif_seed;
798ef270ab1SKenneth D. Merry ocs_memset(hw_dif_info, 0, sizeof(ocs_hw_dif_info_t));
799ef270ab1SKenneth D. Merry
800ef270ab1SKenneth D. Merry if (scsi_dif_info == NULL) {
801ef270ab1SKenneth D. Merry hw_dif_info->dif_oper = OCS_HW_DIF_OPER_DISABLED;
802ef270ab1SKenneth D. Merry hw_dif_info->blk_size = OCS_HW_DIF_BK_SIZE_NA;
803ef270ab1SKenneth D. Merry return 0;
804ef270ab1SKenneth D. Merry }
805ef270ab1SKenneth D. Merry
806ef270ab1SKenneth D. Merry /* Convert the DIF operation */
807ef270ab1SKenneth D. Merry switch(scsi_dif_info->dif_oper) {
808ef270ab1SKenneth D. Merry case OCS_SCSI_DIF_OPER_IN_NODIF_OUT_CRC:
809ef270ab1SKenneth D. Merry hw_dif_info->dif_oper = OCS_HW_SGE_DIF_OP_IN_NODIF_OUT_CRC;
810ef270ab1SKenneth D. Merry hw_dif_info->dif = SLI4_DIF_INSERT;
811ef270ab1SKenneth D. Merry break;
812ef270ab1SKenneth D. Merry case OCS_SCSI_DIF_OPER_IN_CRC_OUT_NODIF:
813ef270ab1SKenneth D. Merry hw_dif_info->dif_oper = OCS_HW_SGE_DIF_OP_IN_CRC_OUT_NODIF;
814ef270ab1SKenneth D. Merry hw_dif_info->dif = SLI4_DIF_STRIP;
815ef270ab1SKenneth D. Merry break;
816ef270ab1SKenneth D. Merry case OCS_SCSI_DIF_OPER_IN_NODIF_OUT_CHKSUM:
817ef270ab1SKenneth D. Merry hw_dif_info->dif_oper = OCS_HW_SGE_DIF_OP_IN_NODIF_OUT_CHKSUM;
818ef270ab1SKenneth D. Merry hw_dif_info->dif = SLI4_DIF_INSERT;
819ef270ab1SKenneth D. Merry break;
820ef270ab1SKenneth D. Merry case OCS_SCSI_DIF_OPER_IN_CHKSUM_OUT_NODIF:
821ef270ab1SKenneth D. Merry hw_dif_info->dif_oper = OCS_HW_SGE_DIF_OP_IN_CHKSUM_OUT_NODIF;
822ef270ab1SKenneth D. Merry hw_dif_info->dif = SLI4_DIF_STRIP;
823ef270ab1SKenneth D. Merry break;
824ef270ab1SKenneth D. Merry case OCS_SCSI_DIF_OPER_IN_CRC_OUT_CRC:
825ef270ab1SKenneth D. Merry hw_dif_info->dif_oper = OCS_HW_SGE_DIF_OP_IN_CRC_OUT_CRC;
826ef270ab1SKenneth D. Merry hw_dif_info->dif = SLI4_DIF_PASS_THROUGH;
827ef270ab1SKenneth D. Merry break;
828ef270ab1SKenneth D. Merry case OCS_SCSI_DIF_OPER_IN_CHKSUM_OUT_CHKSUM:
829ef270ab1SKenneth D. Merry hw_dif_info->dif_oper = OCS_HW_SGE_DIF_OP_IN_CHKSUM_OUT_CHKSUM;
830ef270ab1SKenneth D. Merry hw_dif_info->dif = SLI4_DIF_PASS_THROUGH;
831ef270ab1SKenneth D. Merry break;
832ef270ab1SKenneth D. Merry case OCS_SCSI_DIF_OPER_IN_CRC_OUT_CHKSUM:
833ef270ab1SKenneth D. Merry hw_dif_info->dif_oper = OCS_HW_SGE_DIF_OP_IN_CRC_OUT_CHKSUM;
834ef270ab1SKenneth D. Merry hw_dif_info->dif = SLI4_DIF_PASS_THROUGH;
835ef270ab1SKenneth D. Merry break;
836ef270ab1SKenneth D. Merry case OCS_SCSI_DIF_OPER_IN_CHKSUM_OUT_CRC:
837ef270ab1SKenneth D. Merry hw_dif_info->dif_oper = OCS_HW_SGE_DIF_OP_IN_CHKSUM_OUT_CRC;
838ef270ab1SKenneth D. Merry hw_dif_info->dif = SLI4_DIF_PASS_THROUGH;
839ef270ab1SKenneth D. Merry break;
840ef270ab1SKenneth D. Merry case OCS_SCSI_DIF_OPER_IN_RAW_OUT_RAW:
841ef270ab1SKenneth D. Merry hw_dif_info->dif_oper = OCS_HW_SGE_DIF_OP_IN_RAW_OUT_RAW;
842ef270ab1SKenneth D. Merry hw_dif_info->dif = SLI4_DIF_PASS_THROUGH;
843ef270ab1SKenneth D. Merry break;
844ef270ab1SKenneth D. Merry default:
845ef270ab1SKenneth D. Merry ocs_log_test(ocs, "unhandled SCSI DIF operation %d\n",
846ef270ab1SKenneth D. Merry scsi_dif_info->dif_oper);
847ef270ab1SKenneth D. Merry return -1;
848ef270ab1SKenneth D. Merry }
849ef270ab1SKenneth D. Merry
850ef270ab1SKenneth D. Merry switch(scsi_dif_info->blk_size) {
851ef270ab1SKenneth D. Merry case OCS_SCSI_DIF_BK_SIZE_512:
852ef270ab1SKenneth D. Merry hw_dif_info->blk_size = OCS_HW_DIF_BK_SIZE_512;
853ef270ab1SKenneth D. Merry break;
854ef270ab1SKenneth D. Merry case OCS_SCSI_DIF_BK_SIZE_1024:
855ef270ab1SKenneth D. Merry hw_dif_info->blk_size = OCS_HW_DIF_BK_SIZE_1024;
856ef270ab1SKenneth D. Merry break;
857ef270ab1SKenneth D. Merry case OCS_SCSI_DIF_BK_SIZE_2048:
858ef270ab1SKenneth D. Merry hw_dif_info->blk_size = OCS_HW_DIF_BK_SIZE_2048;
859ef270ab1SKenneth D. Merry break;
860ef270ab1SKenneth D. Merry case OCS_SCSI_DIF_BK_SIZE_4096:
861ef270ab1SKenneth D. Merry hw_dif_info->blk_size = OCS_HW_DIF_BK_SIZE_4096;
862ef270ab1SKenneth D. Merry break;
863ef270ab1SKenneth D. Merry case OCS_SCSI_DIF_BK_SIZE_520:
864ef270ab1SKenneth D. Merry hw_dif_info->blk_size = OCS_HW_DIF_BK_SIZE_520;
865ef270ab1SKenneth D. Merry break;
866ef270ab1SKenneth D. Merry case OCS_SCSI_DIF_BK_SIZE_4104:
867ef270ab1SKenneth D. Merry hw_dif_info->blk_size = OCS_HW_DIF_BK_SIZE_4104;
868ef270ab1SKenneth D. Merry break;
869ef270ab1SKenneth D. Merry default:
870ef270ab1SKenneth D. Merry ocs_log_test(ocs, "unhandled SCSI DIF block size %d\n",
871ef270ab1SKenneth D. Merry scsi_dif_info->blk_size);
872ef270ab1SKenneth D. Merry return -1;
873ef270ab1SKenneth D. Merry }
874ef270ab1SKenneth D. Merry
875ef270ab1SKenneth D. Merry /* If the operation is an INSERT the tags provided are the ones that should be
876ef270ab1SKenneth D. Merry * inserted, otherwise they're the ones to be checked against. */
877ef270ab1SKenneth D. Merry if (hw_dif_info->dif == SLI4_DIF_INSERT ) {
878ef270ab1SKenneth D. Merry hw_dif_info->ref_tag_repl = scsi_dif_info->ref_tag;
879ef270ab1SKenneth D. Merry hw_dif_info->app_tag_repl = scsi_dif_info->app_tag;
880ef270ab1SKenneth D. Merry } else {
881ef270ab1SKenneth D. Merry hw_dif_info->ref_tag_cmp = scsi_dif_info->ref_tag;
882ef270ab1SKenneth D. Merry hw_dif_info->app_tag_cmp = scsi_dif_info->app_tag;
883ef270ab1SKenneth D. Merry }
884ef270ab1SKenneth D. Merry
885ef270ab1SKenneth D. Merry hw_dif_info->check_ref_tag = scsi_dif_info->check_ref_tag;
886ef270ab1SKenneth D. Merry hw_dif_info->check_app_tag = scsi_dif_info->check_app_tag;
887ef270ab1SKenneth D. Merry hw_dif_info->check_guard = scsi_dif_info->check_guard;
888ef270ab1SKenneth D. Merry hw_dif_info->auto_incr_ref_tag = 1;
889ef270ab1SKenneth D. Merry hw_dif_info->dif_separate = scsi_dif_info->dif_separate;
890ef270ab1SKenneth D. Merry hw_dif_info->disable_app_ffff = scsi_dif_info->disable_app_ffff;
891ef270ab1SKenneth D. Merry hw_dif_info->disable_app_ref_ffff = scsi_dif_info->disable_app_ref_ffff;
892ef270ab1SKenneth D. Merry
893ef270ab1SKenneth D. Merry ocs_hw_get(&ocs->hw, OCS_HW_DIF_SEED, &dif_seed);
894ef270ab1SKenneth D. Merry hw_dif_info->dif_seed = dif_seed;
895ef270ab1SKenneth D. Merry
896ef270ab1SKenneth D. Merry return 0;
897ef270ab1SKenneth D. Merry }
898ef270ab1SKenneth D. Merry
899ef270ab1SKenneth D. Merry /**
900ef270ab1SKenneth D. Merry * @ingroup scsi_api_base
901ef270ab1SKenneth D. Merry * @brief This function logs the SGLs for an IO.
902ef270ab1SKenneth D. Merry *
903ef270ab1SKenneth D. Merry * @param io Pointer to the IO context.
904ef270ab1SKenneth D. Merry */
ocs_log_sgl(ocs_io_t * io)905ef270ab1SKenneth D. Merry static void ocs_log_sgl(ocs_io_t *io)
906ef270ab1SKenneth D. Merry {
907ef270ab1SKenneth D. Merry ocs_hw_io_t *hio = io->hio;
908ef270ab1SKenneth D. Merry sli4_sge_t *data = NULL;
909ef270ab1SKenneth D. Merry uint32_t *dword = NULL;
910ef270ab1SKenneth D. Merry uint32_t i;
911ef270ab1SKenneth D. Merry uint32_t n_sge;
912ef270ab1SKenneth D. Merry
913ef270ab1SKenneth D. Merry scsi_io_trace(io, "def_sgl at 0x%x 0x%08x\n",
914ef270ab1SKenneth D. Merry ocs_addr32_hi(hio->def_sgl.phys),
915ef270ab1SKenneth D. Merry ocs_addr32_lo(hio->def_sgl.phys));
916ef270ab1SKenneth D. Merry n_sge = (hio->sgl == &hio->def_sgl ? hio->n_sge : hio->def_sgl_count);
917ef270ab1SKenneth D. Merry for (i = 0, data = hio->def_sgl.virt; i < n_sge; i++, data++) {
918ef270ab1SKenneth D. Merry dword = (uint32_t*)data;
919ef270ab1SKenneth D. Merry
920ef270ab1SKenneth D. Merry scsi_io_trace(io, "SGL %2d 0x%08x 0x%08x 0x%08x 0x%08x\n",
921ef270ab1SKenneth D. Merry i, dword[0], dword[1], dword[2], dword[3]);
922ef270ab1SKenneth D. Merry
923ef270ab1SKenneth D. Merry if (dword[2] & (1U << 31)) {
924ef270ab1SKenneth D. Merry break;
925ef270ab1SKenneth D. Merry }
926ef270ab1SKenneth D. Merry }
927ef270ab1SKenneth D. Merry
928ef270ab1SKenneth D. Merry if (hio->ovfl_sgl != NULL &&
929ef270ab1SKenneth D. Merry hio->sgl == hio->ovfl_sgl) {
930ef270ab1SKenneth D. Merry scsi_io_trace(io, "Overflow at 0x%x 0x%08x\n",
931ef270ab1SKenneth D. Merry ocs_addr32_hi(hio->ovfl_sgl->phys),
932ef270ab1SKenneth D. Merry ocs_addr32_lo(hio->ovfl_sgl->phys));
933ef270ab1SKenneth D. Merry for (i = 0, data = hio->ovfl_sgl->virt; i < hio->n_sge; i++, data++) {
934ef270ab1SKenneth D. Merry dword = (uint32_t*)data;
935ef270ab1SKenneth D. Merry
936ef270ab1SKenneth D. Merry scsi_io_trace(io, "SGL %2d 0x%08x 0x%08x 0x%08x 0x%08x\n",
937ef270ab1SKenneth D. Merry i, dword[0], dword[1], dword[2], dword[3]);
938ef270ab1SKenneth D. Merry if (dword[2] & (1U << 31)) {
939ef270ab1SKenneth D. Merry break;
940ef270ab1SKenneth D. Merry }
941ef270ab1SKenneth D. Merry }
942ef270ab1SKenneth D. Merry }
943ef270ab1SKenneth D. Merry
944ef270ab1SKenneth D. Merry }
945ef270ab1SKenneth D. Merry
946ef270ab1SKenneth D. Merry /**
947ef270ab1SKenneth D. Merry * @brief Check pending error asynchronous callback function.
948ef270ab1SKenneth D. Merry *
949ef270ab1SKenneth D. Merry * @par Description
950ef270ab1SKenneth D. Merry * Invoke the HW callback function for a given IO. This function is called
951ef270ab1SKenneth D. Merry * from the NOP mailbox completion context.
952ef270ab1SKenneth D. Merry *
953ef270ab1SKenneth D. Merry * @param hw Pointer to HW object.
954ef270ab1SKenneth D. Merry * @param status Completion status.
955ef270ab1SKenneth D. Merry * @param mqe Mailbox completion queue entry.
956ef270ab1SKenneth D. Merry * @param arg General purpose argument.
957ef270ab1SKenneth D. Merry *
958ef270ab1SKenneth D. Merry * @return Returns 0.
959ef270ab1SKenneth D. Merry */
960ef270ab1SKenneth D. Merry static int32_t
ocs_scsi_check_pending_async_cb(ocs_hw_t * hw,int32_t status,uint8_t * mqe,void * arg)961ef270ab1SKenneth D. Merry ocs_scsi_check_pending_async_cb(ocs_hw_t *hw, int32_t status, uint8_t *mqe, void *arg)
962ef270ab1SKenneth D. Merry {
963ef270ab1SKenneth D. Merry ocs_io_t *io = arg;
964ef270ab1SKenneth D. Merry
965ef270ab1SKenneth D. Merry if (io != NULL) {
966ef270ab1SKenneth D. Merry if (io->hw_cb != NULL) {
967ef270ab1SKenneth D. Merry ocs_hw_done_t cb = io->hw_cb;
968ef270ab1SKenneth D. Merry
969ef270ab1SKenneth D. Merry io->hw_cb = NULL;
970ef270ab1SKenneth D. Merry cb(io->hio, NULL, 0, SLI4_FC_WCQE_STATUS_DISPATCH_ERROR, 0, io);
971ef270ab1SKenneth D. Merry }
972ef270ab1SKenneth D. Merry }
973ef270ab1SKenneth D. Merry return 0;
974ef270ab1SKenneth D. Merry }
975ef270ab1SKenneth D. Merry
976ef270ab1SKenneth D. Merry /**
977ef270ab1SKenneth D. Merry * @brief Check for pending IOs to dispatch.
978ef270ab1SKenneth D. Merry *
979ef270ab1SKenneth D. Merry * @par Description
980ef270ab1SKenneth D. Merry * If there are IOs on the pending list, and a HW IO is available, then
981ef270ab1SKenneth D. Merry * dispatch the IOs.
982ef270ab1SKenneth D. Merry *
983ef270ab1SKenneth D. Merry * @param ocs Pointer to the OCS structure.
984ef270ab1SKenneth D. Merry *
985ef270ab1SKenneth D. Merry * @return None.
986ef270ab1SKenneth D. Merry */
987ef270ab1SKenneth D. Merry
988ef270ab1SKenneth D. Merry void
ocs_scsi_check_pending(ocs_t * ocs)989ef270ab1SKenneth D. Merry ocs_scsi_check_pending(ocs_t *ocs)
990ef270ab1SKenneth D. Merry {
991ef270ab1SKenneth D. Merry ocs_xport_t *xport = ocs->xport;
992ef270ab1SKenneth D. Merry ocs_io_t *io;
993ef270ab1SKenneth D. Merry ocs_hw_io_t *hio;
994ef270ab1SKenneth D. Merry int32_t status;
995ef270ab1SKenneth D. Merry int count = 0;
996ef270ab1SKenneth D. Merry int dispatch;
997ef270ab1SKenneth D. Merry
998ef270ab1SKenneth D. Merry /* Guard against recursion */
999ef270ab1SKenneth D. Merry if (ocs_atomic_add_return(&xport->io_pending_recursing, 1)) {
1000ef270ab1SKenneth D. Merry /* This function is already running. Decrement and return. */
1001ef270ab1SKenneth D. Merry ocs_atomic_sub_return(&xport->io_pending_recursing, 1);
1002ef270ab1SKenneth D. Merry return;
1003ef270ab1SKenneth D. Merry }
1004ef270ab1SKenneth D. Merry
1005ef270ab1SKenneth D. Merry do {
1006ef270ab1SKenneth D. Merry ocs_lock(&xport->io_pending_lock);
1007ef270ab1SKenneth D. Merry status = 0;
1008ef270ab1SKenneth D. Merry hio = NULL;
1009ef270ab1SKenneth D. Merry io = ocs_list_remove_head(&xport->io_pending_list);
1010ef270ab1SKenneth D. Merry if (io != NULL) {
1011ef270ab1SKenneth D. Merry if (io->io_type == OCS_IO_TYPE_ABORT) {
1012ef270ab1SKenneth D. Merry hio = NULL;
1013ef270ab1SKenneth D. Merry } else {
1014ef270ab1SKenneth D. Merry hio = ocs_hw_io_alloc(&ocs->hw);
1015ef270ab1SKenneth D. Merry if (hio == NULL) {
1016ef270ab1SKenneth D. Merry /*
1017ef270ab1SKenneth D. Merry * No HW IO available.
1018ef270ab1SKenneth D. Merry * Put IO back on the front of pending list
1019ef270ab1SKenneth D. Merry */
1020ef270ab1SKenneth D. Merry ocs_list_add_head(&xport->io_pending_list, io);
1021ef270ab1SKenneth D. Merry io = NULL;
1022ef270ab1SKenneth D. Merry } else {
1023ef270ab1SKenneth D. Merry hio->eq = io->hw_priv;
1024ef270ab1SKenneth D. Merry }
1025ef270ab1SKenneth D. Merry }
1026ef270ab1SKenneth D. Merry }
1027ef270ab1SKenneth D. Merry /* Must drop the lock before dispatching the IO */
1028ef270ab1SKenneth D. Merry ocs_unlock(&xport->io_pending_lock);
1029ef270ab1SKenneth D. Merry
1030ef270ab1SKenneth D. Merry if (io != NULL) {
1031ef270ab1SKenneth D. Merry count++;
1032ef270ab1SKenneth D. Merry
1033ef270ab1SKenneth D. Merry /*
1034ef270ab1SKenneth D. Merry * We pulled an IO off the pending list,
1035ef270ab1SKenneth D. Merry * and either got an HW IO or don't need one
1036ef270ab1SKenneth D. Merry */
1037ef270ab1SKenneth D. Merry ocs_atomic_sub_return(&xport->io_pending_count, 1);
1038ef270ab1SKenneth D. Merry if (hio == NULL) {
1039ef270ab1SKenneth D. Merry status = ocs_scsi_io_dispatch_no_hw_io(io);
1040ef270ab1SKenneth D. Merry } else {
1041ef270ab1SKenneth D. Merry status = ocs_scsi_io_dispatch_hw_io(io, hio);
1042ef270ab1SKenneth D. Merry }
1043ef270ab1SKenneth D. Merry if (status) {
1044ef270ab1SKenneth D. Merry /*
1045ef270ab1SKenneth D. Merry * Invoke the HW callback, but do so in the separate execution context,
1046ef270ab1SKenneth D. Merry * provided by the NOP mailbox completion processing context by using
1047ef270ab1SKenneth D. Merry * ocs_hw_async_call()
1048ef270ab1SKenneth D. Merry */
1049ef270ab1SKenneth D. Merry if (ocs_hw_async_call(&ocs->hw, ocs_scsi_check_pending_async_cb, io)) {
1050ef270ab1SKenneth D. Merry ocs_log_test(ocs, "call to ocs_hw_async_call() failed\n");
1051ef270ab1SKenneth D. Merry }
1052ef270ab1SKenneth D. Merry }
1053ef270ab1SKenneth D. Merry }
1054ef270ab1SKenneth D. Merry } while (io != NULL);
1055ef270ab1SKenneth D. Merry
1056ef270ab1SKenneth D. Merry /*
1057ef270ab1SKenneth D. Merry * If nothing was removed from the list,
1058ef270ab1SKenneth D. Merry * we might be in a case where we need to abort an
1059ef270ab1SKenneth D. Merry * active IO and the abort is on the pending list.
1060ef270ab1SKenneth D. Merry * Look for an abort we can dispatch.
1061ef270ab1SKenneth D. Merry */
1062ef270ab1SKenneth D. Merry if (count == 0 ) {
1063ef270ab1SKenneth D. Merry dispatch = 0;
1064ef270ab1SKenneth D. Merry
1065ef270ab1SKenneth D. Merry ocs_lock(&xport->io_pending_lock);
1066ef270ab1SKenneth D. Merry ocs_list_foreach(&xport->io_pending_list, io) {
1067ef270ab1SKenneth D. Merry if (io->io_type == OCS_IO_TYPE_ABORT) {
1068ef270ab1SKenneth D. Merry if (io->io_to_abort->hio != NULL) {
1069ef270ab1SKenneth D. Merry /* This IO has a HW IO, so it is active. Dispatch the abort. */
1070ef270ab1SKenneth D. Merry dispatch = 1;
1071ef270ab1SKenneth D. Merry } else {
1072ef270ab1SKenneth D. Merry /* Leave this abort on the pending list and keep looking */
1073ef270ab1SKenneth D. Merry dispatch = 0;
1074ef270ab1SKenneth D. Merry }
1075ef270ab1SKenneth D. Merry }
1076ef270ab1SKenneth D. Merry if (dispatch) {
1077ef270ab1SKenneth D. Merry ocs_list_remove(&xport->io_pending_list, io);
1078ef270ab1SKenneth D. Merry ocs_atomic_sub_return(&xport->io_pending_count, 1);
1079ef270ab1SKenneth D. Merry break;
1080ef270ab1SKenneth D. Merry }
1081ef270ab1SKenneth D. Merry }
1082ef270ab1SKenneth D. Merry ocs_unlock(&xport->io_pending_lock);
1083ef270ab1SKenneth D. Merry
1084ef270ab1SKenneth D. Merry if (dispatch) {
1085ef270ab1SKenneth D. Merry status = ocs_scsi_io_dispatch_no_hw_io(io);
1086ef270ab1SKenneth D. Merry if (status) {
1087ef270ab1SKenneth D. Merry if (ocs_hw_async_call(&ocs->hw, ocs_scsi_check_pending_async_cb, io)) {
1088ef270ab1SKenneth D. Merry ocs_log_test(ocs, "call to ocs_hw_async_call() failed\n");
1089ef270ab1SKenneth D. Merry }
1090ef270ab1SKenneth D. Merry }
1091ef270ab1SKenneth D. Merry }
1092ef270ab1SKenneth D. Merry }
1093ef270ab1SKenneth D. Merry
1094ef270ab1SKenneth D. Merry ocs_atomic_sub_return(&xport->io_pending_recursing, 1);
1095ef270ab1SKenneth D. Merry return;
1096ef270ab1SKenneth D. Merry }
1097ef270ab1SKenneth D. Merry
1098ef270ab1SKenneth D. Merry /**
1099ef270ab1SKenneth D. Merry * @brief Attempt to dispatch a non-abort IO
1100ef270ab1SKenneth D. Merry *
1101ef270ab1SKenneth D. Merry * @par Description
1102ef270ab1SKenneth D. Merry * An IO is dispatched:
1103ef270ab1SKenneth D. Merry * - if the pending list is not empty, add IO to pending list
1104ef270ab1SKenneth D. Merry * and call a function to process the pending list.
1105ef270ab1SKenneth D. Merry * - if pending list is empty, try to allocate a HW IO. If none
1106ef270ab1SKenneth D. Merry * is available, place this IO at the tail of the pending IO
1107ef270ab1SKenneth D. Merry * list.
1108ef270ab1SKenneth D. Merry * - if HW IO is available, attach this IO to the HW IO and
1109ef270ab1SKenneth D. Merry * submit it.
1110ef270ab1SKenneth D. Merry *
1111ef270ab1SKenneth D. Merry * @param io Pointer to IO structure.
1112ef270ab1SKenneth D. Merry * @param cb Callback function.
1113ef270ab1SKenneth D. Merry *
1114ef270ab1SKenneth D. Merry * @return Returns 0 on success, a negative error code value on failure.
1115ef270ab1SKenneth D. Merry */
1116ef270ab1SKenneth D. Merry
1117ef270ab1SKenneth D. Merry int32_t
ocs_scsi_io_dispatch(ocs_io_t * io,void * cb)1118ef270ab1SKenneth D. Merry ocs_scsi_io_dispatch(ocs_io_t *io, void *cb)
1119ef270ab1SKenneth D. Merry {
1120ef270ab1SKenneth D. Merry ocs_hw_io_t *hio;
1121ef270ab1SKenneth D. Merry ocs_t *ocs = io->ocs;
1122ef270ab1SKenneth D. Merry ocs_xport_t *xport = ocs->xport;
1123ef270ab1SKenneth D. Merry
1124ef270ab1SKenneth D. Merry ocs_assert(io->cmd_tgt || io->cmd_ini, -1);
1125ef270ab1SKenneth D. Merry ocs_assert((io->io_type != OCS_IO_TYPE_ABORT), -1);
1126ef270ab1SKenneth D. Merry io->hw_cb = cb;
1127ef270ab1SKenneth D. Merry
1128ef270ab1SKenneth D. Merry /*
1129ef270ab1SKenneth D. Merry * if this IO already has a HW IO, then this is either not the first phase of
1130ef270ab1SKenneth D. Merry * the IO. Send it to the HW.
1131ef270ab1SKenneth D. Merry */
1132ef270ab1SKenneth D. Merry if (io->hio != NULL) {
1133ef270ab1SKenneth D. Merry return ocs_scsi_io_dispatch_hw_io(io, io->hio);
1134ef270ab1SKenneth D. Merry }
1135ef270ab1SKenneth D. Merry
1136ef270ab1SKenneth D. Merry /*
1137ef270ab1SKenneth D. Merry * We don't already have a HW IO associated with the IO. First check
1138ef270ab1SKenneth D. Merry * the pending list. If not empty, add IO to the tail and process the
1139ef270ab1SKenneth D. Merry * pending list.
1140ef270ab1SKenneth D. Merry */
1141ef270ab1SKenneth D. Merry ocs_lock(&xport->io_pending_lock);
1142ef270ab1SKenneth D. Merry if (!ocs_list_empty(&xport->io_pending_list)) {
1143ef270ab1SKenneth D. Merry /*
1144ef270ab1SKenneth D. Merry * If this is a low latency request, the put at the front of the IO pending
1145ef270ab1SKenneth D. Merry * queue, otherwise put it at the end of the queue.
1146ef270ab1SKenneth D. Merry */
1147ef270ab1SKenneth D. Merry if (io->low_latency) {
1148ef270ab1SKenneth D. Merry ocs_list_add_head(&xport->io_pending_list, io);
1149ef270ab1SKenneth D. Merry } else {
1150ef270ab1SKenneth D. Merry ocs_list_add_tail(&xport->io_pending_list, io);
1151ef270ab1SKenneth D. Merry }
1152ef270ab1SKenneth D. Merry ocs_unlock(&xport->io_pending_lock);
1153ef270ab1SKenneth D. Merry ocs_atomic_add_return(&xport->io_pending_count, 1);
1154ef270ab1SKenneth D. Merry ocs_atomic_add_return(&xport->io_total_pending, 1);
1155ef270ab1SKenneth D. Merry
1156ef270ab1SKenneth D. Merry /* process pending list */
1157ef270ab1SKenneth D. Merry ocs_scsi_check_pending(ocs);
1158ef270ab1SKenneth D. Merry return 0;
1159ef270ab1SKenneth D. Merry }
1160ef270ab1SKenneth D. Merry ocs_unlock(&xport->io_pending_lock);
1161ef270ab1SKenneth D. Merry
1162ef270ab1SKenneth D. Merry /*
1163ef270ab1SKenneth D. Merry * We don't have a HW IO associated with the IO and there's nothing
1164ef270ab1SKenneth D. Merry * on the pending list. Attempt to allocate a HW IO and dispatch it.
1165ef270ab1SKenneth D. Merry */
1166ef270ab1SKenneth D. Merry hio = ocs_hw_io_alloc(&io->ocs->hw);
1167ef270ab1SKenneth D. Merry if (hio == NULL) {
1168ef270ab1SKenneth D. Merry /* Couldn't get a HW IO. Save this IO on the pending list */
1169ef270ab1SKenneth D. Merry ocs_lock(&xport->io_pending_lock);
1170ef270ab1SKenneth D. Merry ocs_list_add_tail(&xport->io_pending_list, io);
1171ef270ab1SKenneth D. Merry ocs_unlock(&xport->io_pending_lock);
1172ef270ab1SKenneth D. Merry
1173ef270ab1SKenneth D. Merry ocs_atomic_add_return(&xport->io_total_pending, 1);
1174ef270ab1SKenneth D. Merry ocs_atomic_add_return(&xport->io_pending_count, 1);
1175ef270ab1SKenneth D. Merry return 0;
1176ef270ab1SKenneth D. Merry }
1177ef270ab1SKenneth D. Merry
1178ef270ab1SKenneth D. Merry /* We successfully allocated a HW IO; dispatch to HW */
1179ef270ab1SKenneth D. Merry return ocs_scsi_io_dispatch_hw_io(io, hio);
1180ef270ab1SKenneth D. Merry }
1181ef270ab1SKenneth D. Merry
1182ef270ab1SKenneth D. Merry /**
1183ef270ab1SKenneth D. Merry * @brief Attempt to dispatch an Abort IO.
1184ef270ab1SKenneth D. Merry *
1185ef270ab1SKenneth D. Merry * @par Description
1186ef270ab1SKenneth D. Merry * An Abort IO is dispatched:
1187ef270ab1SKenneth D. Merry * - if the pending list is not empty, add IO to pending list
1188ef270ab1SKenneth D. Merry * and call a function to process the pending list.
1189ef270ab1SKenneth D. Merry * - if pending list is empty, send abort to the HW.
1190ef270ab1SKenneth D. Merry *
1191ef270ab1SKenneth D. Merry * @param io Pointer to IO structure.
1192ef270ab1SKenneth D. Merry * @param cb Callback function.
1193ef270ab1SKenneth D. Merry *
1194ef270ab1SKenneth D. Merry * @return Returns 0 on success, a negative error code value on failure.
1195ef270ab1SKenneth D. Merry */
1196ef270ab1SKenneth D. Merry
1197ef270ab1SKenneth D. Merry int32_t
ocs_scsi_io_dispatch_abort(ocs_io_t * io,void * cb)1198ef270ab1SKenneth D. Merry ocs_scsi_io_dispatch_abort(ocs_io_t *io, void *cb)
1199ef270ab1SKenneth D. Merry {
1200ef270ab1SKenneth D. Merry ocs_t *ocs = io->ocs;
1201ef270ab1SKenneth D. Merry ocs_xport_t *xport = ocs->xport;
1202ef270ab1SKenneth D. Merry
1203ef270ab1SKenneth D. Merry ocs_assert((io->io_type == OCS_IO_TYPE_ABORT), -1);
1204ef270ab1SKenneth D. Merry io->hw_cb = cb;
1205ef270ab1SKenneth D. Merry
1206ef270ab1SKenneth D. Merry /*
1207ef270ab1SKenneth D. Merry * For aborts, we don't need a HW IO, but we still want to pass through
1208ef270ab1SKenneth D. Merry * the pending list to preserve ordering. Thus, if the pending list is
1209ef270ab1SKenneth D. Merry * not empty, add this abort to the pending list and process the pending list.
1210ef270ab1SKenneth D. Merry */
1211ef270ab1SKenneth D. Merry ocs_lock(&xport->io_pending_lock);
1212ef270ab1SKenneth D. Merry if (!ocs_list_empty(&xport->io_pending_list)) {
1213ef270ab1SKenneth D. Merry ocs_list_add_tail(&xport->io_pending_list, io);
1214ef270ab1SKenneth D. Merry ocs_unlock(&xport->io_pending_lock);
1215ef270ab1SKenneth D. Merry ocs_atomic_add_return(&xport->io_pending_count, 1);
1216ef270ab1SKenneth D. Merry ocs_atomic_add_return(&xport->io_total_pending, 1);
1217ef270ab1SKenneth D. Merry
1218ef270ab1SKenneth D. Merry /* process pending list */
1219ef270ab1SKenneth D. Merry ocs_scsi_check_pending(ocs);
1220ef270ab1SKenneth D. Merry return 0;
1221ef270ab1SKenneth D. Merry }
1222ef270ab1SKenneth D. Merry ocs_unlock(&xport->io_pending_lock);
1223ef270ab1SKenneth D. Merry
1224ef270ab1SKenneth D. Merry /* nothing on pending list, dispatch abort */
1225ef270ab1SKenneth D. Merry return ocs_scsi_io_dispatch_no_hw_io(io);
1226ef270ab1SKenneth D. Merry
1227ef270ab1SKenneth D. Merry }
1228ef270ab1SKenneth D. Merry
1229ef270ab1SKenneth D. Merry /**
1230ef270ab1SKenneth D. Merry * @brief Dispatch IO
1231ef270ab1SKenneth D. Merry *
1232ef270ab1SKenneth D. Merry * @par Description
1233ef270ab1SKenneth D. Merry * An IO and its associated HW IO is dispatched to the HW.
1234ef270ab1SKenneth D. Merry *
1235ef270ab1SKenneth D. Merry * @param io Pointer to IO structure.
1236ef270ab1SKenneth D. Merry * @param hio Pointer to HW IO structure from which IO will be
1237ef270ab1SKenneth D. Merry * dispatched.
1238ef270ab1SKenneth D. Merry *
1239ef270ab1SKenneth D. Merry * @return Returns 0 on success, a negative error code value on failure.
1240ef270ab1SKenneth D. Merry */
1241ef270ab1SKenneth D. Merry
1242ef270ab1SKenneth D. Merry static int32_t
ocs_scsi_io_dispatch_hw_io(ocs_io_t * io,ocs_hw_io_t * hio)1243ef270ab1SKenneth D. Merry ocs_scsi_io_dispatch_hw_io(ocs_io_t *io, ocs_hw_io_t *hio)
1244ef270ab1SKenneth D. Merry {
1245ef270ab1SKenneth D. Merry int32_t rc;
1246ef270ab1SKenneth D. Merry ocs_t *ocs = io->ocs;
1247ef270ab1SKenneth D. Merry
1248ef270ab1SKenneth D. Merry /* Got a HW IO; update ini/tgt_task_tag with HW IO info and dispatch */
1249ef270ab1SKenneth D. Merry io->hio = hio;
1250ef270ab1SKenneth D. Merry if (io->cmd_tgt) {
1251ef270ab1SKenneth D. Merry io->tgt_task_tag = hio->indicator;
1252ef270ab1SKenneth D. Merry } else if (io->cmd_ini) {
1253ef270ab1SKenneth D. Merry io->init_task_tag = hio->indicator;
1254ef270ab1SKenneth D. Merry }
1255ef270ab1SKenneth D. Merry io->hw_tag = hio->reqtag;
1256ef270ab1SKenneth D. Merry
1257ef270ab1SKenneth D. Merry hio->eq = io->hw_priv;
1258ef270ab1SKenneth D. Merry
1259ef270ab1SKenneth D. Merry /* Copy WQ steering */
1260ef270ab1SKenneth D. Merry switch(io->wq_steering) {
1261ef270ab1SKenneth D. Merry case OCS_SCSI_WQ_STEERING_CLASS >> OCS_SCSI_WQ_STEERING_SHIFT:
1262ef270ab1SKenneth D. Merry hio->wq_steering = OCS_HW_WQ_STEERING_CLASS;
1263ef270ab1SKenneth D. Merry break;
1264ef270ab1SKenneth D. Merry case OCS_SCSI_WQ_STEERING_REQUEST >> OCS_SCSI_WQ_STEERING_SHIFT:
1265ef270ab1SKenneth D. Merry hio->wq_steering = OCS_HW_WQ_STEERING_REQUEST;
1266ef270ab1SKenneth D. Merry break;
1267ef270ab1SKenneth D. Merry case OCS_SCSI_WQ_STEERING_CPU >> OCS_SCSI_WQ_STEERING_SHIFT:
1268ef270ab1SKenneth D. Merry hio->wq_steering = OCS_HW_WQ_STEERING_CPU;
1269ef270ab1SKenneth D. Merry break;
1270ef270ab1SKenneth D. Merry }
1271ef270ab1SKenneth D. Merry
1272ef270ab1SKenneth D. Merry switch (io->io_type) {
1273ef270ab1SKenneth D. Merry case OCS_IO_TYPE_IO: {
1274ef270ab1SKenneth D. Merry uint32_t max_sgl;
1275ef270ab1SKenneth D. Merry uint32_t total_count;
1276ef270ab1SKenneth D. Merry uint32_t host_allocated;
1277ef270ab1SKenneth D. Merry
1278ef270ab1SKenneth D. Merry ocs_hw_get(&ocs->hw, OCS_HW_N_SGL, &max_sgl);
1279ef270ab1SKenneth D. Merry ocs_hw_get(&ocs->hw, OCS_HW_SGL_CHAINING_HOST_ALLOCATED, &host_allocated);
1280ef270ab1SKenneth D. Merry
1281ef270ab1SKenneth D. Merry /*
1282ef270ab1SKenneth D. Merry * If the requested SGL is larger than the default size, then we can allocate
1283ef270ab1SKenneth D. Merry * an overflow SGL.
1284ef270ab1SKenneth D. Merry */
1285ef270ab1SKenneth D. Merry total_count = ocs_scsi_count_sgls(&io->hw_dif, io->sgl, io->sgl_count);
1286ef270ab1SKenneth D. Merry
1287ef270ab1SKenneth D. Merry /*
1288ef270ab1SKenneth D. Merry * Lancer requires us to allocate the chained memory area, but
1289ef270ab1SKenneth D. Merry * Skyhawk must use the SGL list associated with another XRI.
1290ef270ab1SKenneth D. Merry */
1291ef270ab1SKenneth D. Merry if (host_allocated && total_count > max_sgl) {
1292ef270ab1SKenneth D. Merry /* Compute count needed, the number extra plus 1 for the link sge */
1293ef270ab1SKenneth D. Merry uint32_t count = total_count - max_sgl + 1;
1294ef270ab1SKenneth D. Merry rc = ocs_dma_alloc(ocs, &io->ovfl_sgl, count*sizeof(sli4_sge_t), 64);
1295ef270ab1SKenneth D. Merry if (rc) {
1296ef270ab1SKenneth D. Merry ocs_log_err(ocs, "ocs_dma_alloc overflow sgl failed\n");
1297ef270ab1SKenneth D. Merry break;
1298ef270ab1SKenneth D. Merry }
1299ef270ab1SKenneth D. Merry rc = ocs_hw_io_register_sgl(&ocs->hw, io->hio, &io->ovfl_sgl, count);
1300ef270ab1SKenneth D. Merry if (rc) {
1301ef270ab1SKenneth D. Merry ocs_scsi_io_free_ovfl(io);
1302ef270ab1SKenneth D. Merry ocs_log_err(ocs, "ocs_hw_io_register_sgl() failed\n");
1303ef270ab1SKenneth D. Merry break;
1304ef270ab1SKenneth D. Merry }
1305ef270ab1SKenneth D. Merry /* EVT: update chained_io_count */
1306ef270ab1SKenneth D. Merry io->node->chained_io_count++;
1307ef270ab1SKenneth D. Merry }
1308ef270ab1SKenneth D. Merry
1309ef270ab1SKenneth D. Merry rc = ocs_scsi_build_sgls(&ocs->hw, io->hio, &io->hw_dif, io->sgl, io->sgl_count, io->hio_type);
1310ef270ab1SKenneth D. Merry if (rc) {
1311ef270ab1SKenneth D. Merry ocs_scsi_io_free_ovfl(io);
1312ef270ab1SKenneth D. Merry break;
1313ef270ab1SKenneth D. Merry }
1314ef270ab1SKenneth D. Merry
1315ef270ab1SKenneth D. Merry if (OCS_LOG_ENABLE_SCSI_TRACE(ocs)) {
1316ef270ab1SKenneth D. Merry ocs_log_sgl(io);
1317ef270ab1SKenneth D. Merry }
1318ef270ab1SKenneth D. Merry
1319ef270ab1SKenneth D. Merry if (io->app_id) {
1320ef270ab1SKenneth D. Merry io->iparam.fcp_tgt.app_id = io->app_id;
1321ef270ab1SKenneth D. Merry }
1322ef270ab1SKenneth D. Merry
1323ef270ab1SKenneth D. Merry rc = ocs_hw_io_send(&io->ocs->hw, io->hio_type, io->hio, io->wire_len, &io->iparam, &io->node->rnode,
1324ef270ab1SKenneth D. Merry io->hw_cb, io);
1325ef270ab1SKenneth D. Merry break;
1326ef270ab1SKenneth D. Merry }
1327ef270ab1SKenneth D. Merry case OCS_IO_TYPE_ELS:
1328ef270ab1SKenneth D. Merry case OCS_IO_TYPE_CT: {
1329ef270ab1SKenneth D. Merry rc = ocs_hw_srrs_send(&ocs->hw, io->hio_type, io->hio,
1330ef270ab1SKenneth D. Merry &io->els_req, io->wire_len,
1331ef270ab1SKenneth D. Merry &io->els_rsp, &io->node->rnode, &io->iparam,
1332ef270ab1SKenneth D. Merry io->hw_cb, io);
1333ef270ab1SKenneth D. Merry break;
1334ef270ab1SKenneth D. Merry }
1335ef270ab1SKenneth D. Merry case OCS_IO_TYPE_CT_RESP: {
1336ef270ab1SKenneth D. Merry rc = ocs_hw_srrs_send(&ocs->hw, io->hio_type, io->hio,
1337ef270ab1SKenneth D. Merry &io->els_rsp, io->wire_len,
1338ef270ab1SKenneth D. Merry NULL, &io->node->rnode, &io->iparam,
1339ef270ab1SKenneth D. Merry io->hw_cb, io);
1340ef270ab1SKenneth D. Merry break;
1341ef270ab1SKenneth D. Merry }
1342ef270ab1SKenneth D. Merry case OCS_IO_TYPE_BLS_RESP: {
1343ef270ab1SKenneth D. Merry /* no need to update tgt_task_tag for BLS response since the RX_ID
1344ef270ab1SKenneth D. Merry * will be specified by the payload, not the XRI */
1345ef270ab1SKenneth D. Merry rc = ocs_hw_srrs_send(&ocs->hw, io->hio_type, io->hio,
1346ef270ab1SKenneth D. Merry NULL, 0, NULL, &io->node->rnode, &io->iparam, io->hw_cb, io);
1347ef270ab1SKenneth D. Merry break;
1348ef270ab1SKenneth D. Merry }
1349ef270ab1SKenneth D. Merry default:
1350ef270ab1SKenneth D. Merry scsi_io_printf(io, "Unknown IO type=%d\n", io->io_type);
1351ef270ab1SKenneth D. Merry rc = -1;
1352ef270ab1SKenneth D. Merry break;
1353ef270ab1SKenneth D. Merry }
1354ef270ab1SKenneth D. Merry return rc;
1355ef270ab1SKenneth D. Merry }
1356ef270ab1SKenneth D. Merry
1357ef270ab1SKenneth D. Merry /**
1358ef270ab1SKenneth D. Merry * @brief Dispatch IO
1359ef270ab1SKenneth D. Merry *
1360ef270ab1SKenneth D. Merry * @par Description
1361ef270ab1SKenneth D. Merry * An IO that does require a HW IO is dispatched to the HW.
1362ef270ab1SKenneth D. Merry *
1363ef270ab1SKenneth D. Merry * @param io Pointer to IO structure.
1364ef270ab1SKenneth D. Merry *
1365ef270ab1SKenneth D. Merry * @return Returns 0 on success, or a negative error code value on failure.
1366ef270ab1SKenneth D. Merry */
1367ef270ab1SKenneth D. Merry
1368ef270ab1SKenneth D. Merry static int32_t
ocs_scsi_io_dispatch_no_hw_io(ocs_io_t * io)1369ef270ab1SKenneth D. Merry ocs_scsi_io_dispatch_no_hw_io(ocs_io_t *io)
1370ef270ab1SKenneth D. Merry {
1371ef270ab1SKenneth D. Merry int32_t rc;
1372ef270ab1SKenneth D. Merry
1373ef270ab1SKenneth D. Merry switch (io->io_type) {
1374ef270ab1SKenneth D. Merry case OCS_IO_TYPE_ABORT: {
1375ef270ab1SKenneth D. Merry ocs_hw_io_t *hio_to_abort = NULL;
1376ef270ab1SKenneth D. Merry ocs_assert(io->io_to_abort, -1);
1377ef270ab1SKenneth D. Merry hio_to_abort = io->io_to_abort->hio;
1378ef270ab1SKenneth D. Merry
1379ef270ab1SKenneth D. Merry if (hio_to_abort == NULL) {
1380ef270ab1SKenneth D. Merry /*
1381ef270ab1SKenneth D. Merry * If "IO to abort" does not have an associated HW IO, immediately
1382ef270ab1SKenneth D. Merry * make callback with success. The command must have been sent to
1383ef270ab1SKenneth D. Merry * the backend, but the data phase has not yet started, so we don't
1384ef270ab1SKenneth D. Merry * have a HW IO.
1385ef270ab1SKenneth D. Merry *
1386ef270ab1SKenneth D. Merry * Note: since the backend shims should be taking a reference
1387ef270ab1SKenneth D. Merry * on io_to_abort, it should not be possible to have been completed
1388ef270ab1SKenneth D. Merry * and freed by the backend before the abort got here.
1389ef270ab1SKenneth D. Merry */
1390ef270ab1SKenneth D. Merry scsi_io_printf(io, "IO: " SCSI_IOFMT " not active\n",
1391ef270ab1SKenneth D. Merry SCSI_IOFMT_ARGS(io->io_to_abort));
1392ef270ab1SKenneth D. Merry ((ocs_hw_done_t)io->hw_cb)(io->hio, NULL, 0, SLI4_FC_WCQE_STATUS_SUCCESS, 0, io);
1393ef270ab1SKenneth D. Merry rc = 0;
1394ef270ab1SKenneth D. Merry } else {
1395ef270ab1SKenneth D. Merry /* HW IO is valid, abort it */
1396ef270ab1SKenneth D. Merry scsi_io_printf(io, "aborting " SCSI_IOFMT "\n", SCSI_IOFMT_ARGS(io->io_to_abort));
1397ef270ab1SKenneth D. Merry rc = ocs_hw_io_abort(&io->ocs->hw, hio_to_abort, io->send_abts,
1398ef270ab1SKenneth D. Merry io->hw_cb, io);
1399ef270ab1SKenneth D. Merry if (rc) {
1400ef270ab1SKenneth D. Merry int status = SLI4_FC_WCQE_STATUS_SUCCESS;
1401ef270ab1SKenneth D. Merry if ((rc != OCS_HW_RTN_IO_NOT_ACTIVE) &&
1402ef270ab1SKenneth D. Merry (rc != OCS_HW_RTN_IO_ABORT_IN_PROGRESS)) {
1403ef270ab1SKenneth D. Merry status = -1;
1404ef270ab1SKenneth D. Merry scsi_io_printf(io, "Failed to abort IO: " SCSI_IOFMT " status=%d\n",
1405ef270ab1SKenneth D. Merry SCSI_IOFMT_ARGS(io->io_to_abort), rc);
1406ef270ab1SKenneth D. Merry }
1407ef270ab1SKenneth D. Merry ((ocs_hw_done_t)io->hw_cb)(io->hio, NULL, 0, status, 0, io);
1408ef270ab1SKenneth D. Merry rc = 0;
1409ef270ab1SKenneth D. Merry }
1410ef270ab1SKenneth D. Merry }
1411ef270ab1SKenneth D. Merry
1412ef270ab1SKenneth D. Merry break;
1413ef270ab1SKenneth D. Merry }
1414ef270ab1SKenneth D. Merry default:
1415ef270ab1SKenneth D. Merry scsi_io_printf(io, "Unknown IO type=%d\n", io->io_type);
1416ef270ab1SKenneth D. Merry rc = -1;
1417ef270ab1SKenneth D. Merry break;
1418ef270ab1SKenneth D. Merry }
1419ef270ab1SKenneth D. Merry return rc;
1420ef270ab1SKenneth D. Merry }
1421ef270ab1SKenneth D. Merry
1422ef270ab1SKenneth D. Merry /**
1423ef270ab1SKenneth D. Merry * @ingroup scsi_api_base
1424ef270ab1SKenneth D. Merry * @brief Send read/write data.
1425ef270ab1SKenneth D. Merry *
1426ef270ab1SKenneth D. Merry * @par Description
1427ef270ab1SKenneth D. Merry * This call is made by a target-server to initiate a SCSI read or write data phase, transferring
1428ef270ab1SKenneth D. Merry * data between the target to the remote initiator. The payload is specified by the
1429ef270ab1SKenneth D. Merry * scatter-gather list @c sgl of length @c sgl_count. The @c wire_len argument
1430ef270ab1SKenneth D. Merry * specifies the payload length (independent of the scatter-gather list cumulative length).
1431ef270ab1SKenneth D. Merry * @n @n
1432ef270ab1SKenneth D. Merry * The @c flags argument has one bit, OCS_SCSI_LAST_DATAPHASE, which is a hint to the base
1433ef270ab1SKenneth D. Merry * driver that it may use auto SCSI response features if the hardware supports it.
1434ef270ab1SKenneth D. Merry * @n @n
1435ef270ab1SKenneth D. Merry * Upon completion, the callback function @b cb is called with flags indicating that the
1436ef270ab1SKenneth D. Merry * IO has completed (OCS_SCSI_IO_COMPL) and another data phase or response may be sent;
1437ef270ab1SKenneth D. Merry * that the IO has completed and no response needs to be sent (OCS_SCSI_IO_COMPL_NO_RSP);
1438ef270ab1SKenneth D. Merry * or that the IO was aborted (OCS_SCSI_IO_ABORTED).
1439ef270ab1SKenneth D. Merry *
1440ef270ab1SKenneth D. Merry * @param io Pointer to the IO context.
1441ef270ab1SKenneth D. Merry * @param flags Flags controlling the sending of data.
1442ef270ab1SKenneth D. Merry * @param dif_info Pointer to T10 DIF fields, or NULL if no DIF.
1443ef270ab1SKenneth D. Merry * @param sgl Pointer to the payload scatter-gather list.
1444ef270ab1SKenneth D. Merry * @param sgl_count Count of the scatter-gather list elements.
1445ef270ab1SKenneth D. Merry * @param xwire_len Length of the payload on wire, in bytes.
1446ef270ab1SKenneth D. Merry * @param type HW IO type.
1447ef270ab1SKenneth D. Merry * @param enable_ar Enable auto-response if true.
1448ef270ab1SKenneth D. Merry * @param cb Completion callback.
1449ef270ab1SKenneth D. Merry * @param arg Application-supplied callback data.
1450ef270ab1SKenneth D. Merry *
1451ef270ab1SKenneth D. Merry * @return Returns 0 on success, or a negative error code value on failure.
1452ef270ab1SKenneth D. Merry */
1453ef270ab1SKenneth D. Merry
1454ef270ab1SKenneth D. Merry static inline int32_t
ocs_scsi_xfer_data(ocs_io_t * io,uint32_t flags,ocs_scsi_dif_info_t * dif_info,ocs_scsi_sgl_t * sgl,uint32_t sgl_count,uint32_t xwire_len,ocs_hw_io_type_e type,int enable_ar,ocs_scsi_io_cb_t cb,void * arg)1455ef270ab1SKenneth D. Merry ocs_scsi_xfer_data(ocs_io_t *io, uint32_t flags,
1456ef270ab1SKenneth D. Merry ocs_scsi_dif_info_t *dif_info,
1457ef270ab1SKenneth D. Merry ocs_scsi_sgl_t *sgl, uint32_t sgl_count, uint32_t xwire_len,
1458ef270ab1SKenneth D. Merry ocs_hw_io_type_e type, int enable_ar,
1459ef270ab1SKenneth D. Merry ocs_scsi_io_cb_t cb, void *arg)
1460ef270ab1SKenneth D. Merry {
1461ef270ab1SKenneth D. Merry int32_t rc;
1462ef270ab1SKenneth D. Merry ocs_t *ocs;
1463ef270ab1SKenneth D. Merry uint32_t disable_ar_tgt_dif = FALSE;
1464ef270ab1SKenneth D. Merry size_t residual = 0;
1465ef270ab1SKenneth D. Merry
1466ef270ab1SKenneth D. Merry if ((dif_info != NULL) && (dif_info->dif_oper == OCS_SCSI_DIF_OPER_DISABLED)) {
1467ef270ab1SKenneth D. Merry dif_info = NULL;
1468ef270ab1SKenneth D. Merry }
1469ef270ab1SKenneth D. Merry
1470ef270ab1SKenneth D. Merry ocs_assert(io, -1);
1471ef270ab1SKenneth D. Merry
1472ef270ab1SKenneth D. Merry if (dif_info != NULL) {
1473ef270ab1SKenneth D. Merry ocs_hw_get(&io->ocs->hw, OCS_HW_DISABLE_AR_TGT_DIF, &disable_ar_tgt_dif);
1474ef270ab1SKenneth D. Merry if (disable_ar_tgt_dif) {
1475ef270ab1SKenneth D. Merry enable_ar = FALSE;
1476ef270ab1SKenneth D. Merry }
1477ef270ab1SKenneth D. Merry }
1478ef270ab1SKenneth D. Merry
1479ef270ab1SKenneth D. Merry io->sgl_count = sgl_count;
1480ef270ab1SKenneth D. Merry
1481ef270ab1SKenneth D. Merry /* If needed, copy SGL */
1482ef270ab1SKenneth D. Merry if (sgl && (sgl != io->sgl)) {
1483ef270ab1SKenneth D. Merry ocs_assert(sgl_count <= io->sgl_allocated, -1);
1484ef270ab1SKenneth D. Merry ocs_memcpy(io->sgl, sgl, sgl_count*sizeof(*io->sgl));
1485ef270ab1SKenneth D. Merry }
1486ef270ab1SKenneth D. Merry
1487ef270ab1SKenneth D. Merry ocs = io->ocs;
1488ef270ab1SKenneth D. Merry ocs_assert(ocs, -1);
1489ef270ab1SKenneth D. Merry ocs_assert(io->node, -1);
1490ef270ab1SKenneth D. Merry
1491ef270ab1SKenneth D. Merry scsi_io_trace(io, "%s wire_len %d\n", (type == OCS_HW_IO_TARGET_READ) ? "send" : "recv", xwire_len);
1492ef270ab1SKenneth D. Merry
1493ef270ab1SKenneth D. Merry ocs_assert(sgl, -1);
1494ef270ab1SKenneth D. Merry ocs_assert(sgl_count > 0, -1);
1495ef270ab1SKenneth D. Merry ocs_assert(io->exp_xfer_len > io->transferred, -1);
1496ef270ab1SKenneth D. Merry
1497ef270ab1SKenneth D. Merry io->hio_type = type;
1498ef270ab1SKenneth D. Merry
1499ef270ab1SKenneth D. Merry io->scsi_tgt_cb = cb;
1500ef270ab1SKenneth D. Merry io->scsi_tgt_cb_arg = arg;
1501ef270ab1SKenneth D. Merry
1502ef270ab1SKenneth D. Merry rc = ocs_scsi_convert_dif_info(ocs, dif_info, &io->hw_dif);
1503ef270ab1SKenneth D. Merry if (rc) {
1504ef270ab1SKenneth D. Merry return rc;
1505ef270ab1SKenneth D. Merry }
1506ef270ab1SKenneth D. Merry
1507ef270ab1SKenneth D. Merry /* If DIF is used, then save lba for error recovery */
1508ef270ab1SKenneth D. Merry if (dif_info) {
1509ef270ab1SKenneth D. Merry io->scsi_dif_info = *dif_info;
1510ef270ab1SKenneth D. Merry }
1511ef270ab1SKenneth D. Merry
1512ef270ab1SKenneth D. Merry io->wire_len = MIN(xwire_len, io->exp_xfer_len - io->transferred);
1513ef270ab1SKenneth D. Merry residual = (xwire_len - io->wire_len);
1514ef270ab1SKenneth D. Merry
1515ef270ab1SKenneth D. Merry ocs_memset(&io->iparam, 0, sizeof(io->iparam));
1516ef270ab1SKenneth D. Merry io->iparam.fcp_tgt.ox_id = io->init_task_tag;
1517ef270ab1SKenneth D. Merry io->iparam.fcp_tgt.offset = io->transferred;
1518ef270ab1SKenneth D. Merry io->iparam.fcp_tgt.dif_oper = io->hw_dif.dif;
1519ef270ab1SKenneth D. Merry io->iparam.fcp_tgt.blk_size = io->hw_dif.blk_size;
1520ef270ab1SKenneth D. Merry io->iparam.fcp_tgt.cs_ctl = io->cs_ctl;
1521ef270ab1SKenneth D. Merry io->iparam.fcp_tgt.timeout = io->timeout;
1522ef270ab1SKenneth D. Merry
1523ef270ab1SKenneth D. Merry /* if this is the last data phase and there is no residual, enable
1524ef270ab1SKenneth D. Merry * auto-good-response
1525ef270ab1SKenneth D. Merry */
1526ef270ab1SKenneth D. Merry if (enable_ar && (flags & OCS_SCSI_LAST_DATAPHASE) &&
1527ef270ab1SKenneth D. Merry (residual == 0) && ((io->transferred + io->wire_len) == io->exp_xfer_len) && (!(flags & OCS_SCSI_NO_AUTO_RESPONSE))) {
1528ef270ab1SKenneth D. Merry io->iparam.fcp_tgt.flags |= SLI4_IO_AUTO_GOOD_RESPONSE;
1529ef270ab1SKenneth D. Merry io->auto_resp = TRUE;
1530ef270ab1SKenneth D. Merry } else {
1531ef270ab1SKenneth D. Merry io->auto_resp = FALSE;
1532ef270ab1SKenneth D. Merry }
1533ef270ab1SKenneth D. Merry
1534ef270ab1SKenneth D. Merry /* save this transfer length */
1535ef270ab1SKenneth D. Merry io->xfer_req = io->wire_len;
1536ef270ab1SKenneth D. Merry
1537ef270ab1SKenneth D. Merry /* Adjust the transferred count to account for overrun
1538ef270ab1SKenneth D. Merry * when the residual is calculated in ocs_scsi_send_resp
1539ef270ab1SKenneth D. Merry */
1540ef270ab1SKenneth D. Merry io->transferred += residual;
1541ef270ab1SKenneth D. Merry
1542ef270ab1SKenneth D. Merry /* Adjust the SGL size if there is overrun */
1543ef270ab1SKenneth D. Merry
1544ef270ab1SKenneth D. Merry if (residual) {
1545ef270ab1SKenneth D. Merry ocs_scsi_sgl_t *sgl_ptr = &io->sgl[sgl_count-1];
1546ef270ab1SKenneth D. Merry
1547ef270ab1SKenneth D. Merry while (residual) {
1548ef270ab1SKenneth D. Merry size_t len = sgl_ptr->len;
1549ef270ab1SKenneth D. Merry if ( len > residual) {
1550ef270ab1SKenneth D. Merry sgl_ptr->len = len - residual;
1551ef270ab1SKenneth D. Merry residual = 0;
1552ef270ab1SKenneth D. Merry } else {
1553ef270ab1SKenneth D. Merry sgl_ptr->len = 0;
1554ef270ab1SKenneth D. Merry residual -= len;
1555ef270ab1SKenneth D. Merry io->sgl_count--;
1556ef270ab1SKenneth D. Merry }
1557ef270ab1SKenneth D. Merry sgl_ptr--;
1558ef270ab1SKenneth D. Merry }
1559ef270ab1SKenneth D. Merry }
1560ef270ab1SKenneth D. Merry
1561ef270ab1SKenneth D. Merry /* Set latency and WQ steering */
1562ef270ab1SKenneth D. Merry io->low_latency = (flags & OCS_SCSI_LOW_LATENCY) != 0;
1563ef270ab1SKenneth D. Merry io->wq_steering = (flags & OCS_SCSI_WQ_STEERING_MASK) >> OCS_SCSI_WQ_STEERING_SHIFT;
1564ef270ab1SKenneth D. Merry io->wq_class = (flags & OCS_SCSI_WQ_CLASS_MASK) >> OCS_SCSI_WQ_CLASS_SHIFT;
1565ef270ab1SKenneth D. Merry
1566ef270ab1SKenneth D. Merry return ocs_scsi_io_dispatch(io, ocs_target_io_cb);
1567ef270ab1SKenneth D. Merry }
1568ef270ab1SKenneth D. Merry
1569ef270ab1SKenneth D. Merry int32_t
ocs_scsi_send_rd_data(ocs_io_t * io,uint32_t flags,ocs_scsi_dif_info_t * dif_info,ocs_scsi_sgl_t * sgl,uint32_t sgl_count,uint32_t len,ocs_scsi_io_cb_t cb,void * arg)1570ef270ab1SKenneth D. Merry ocs_scsi_send_rd_data(ocs_io_t *io, uint32_t flags,
1571ef270ab1SKenneth D. Merry ocs_scsi_dif_info_t *dif_info,
1572ef270ab1SKenneth D. Merry ocs_scsi_sgl_t *sgl, uint32_t sgl_count, uint32_t len,
1573ef270ab1SKenneth D. Merry ocs_scsi_io_cb_t cb, void *arg)
1574ef270ab1SKenneth D. Merry {
1575ef270ab1SKenneth D. Merry return ocs_scsi_xfer_data(io, flags, dif_info, sgl, sgl_count, len, OCS_HW_IO_TARGET_READ,
1576ef270ab1SKenneth D. Merry enable_tsend_auto_resp(io->ocs), cb, arg);
1577ef270ab1SKenneth D. Merry }
1578ef270ab1SKenneth D. Merry
1579ef270ab1SKenneth D. Merry int32_t
ocs_scsi_recv_wr_data(ocs_io_t * io,uint32_t flags,ocs_scsi_dif_info_t * dif_info,ocs_scsi_sgl_t * sgl,uint32_t sgl_count,uint32_t len,ocs_scsi_io_cb_t cb,void * arg)1580ef270ab1SKenneth D. Merry ocs_scsi_recv_wr_data(ocs_io_t *io, uint32_t flags,
1581ef270ab1SKenneth D. Merry ocs_scsi_dif_info_t *dif_info,
1582ef270ab1SKenneth D. Merry ocs_scsi_sgl_t *sgl, uint32_t sgl_count, uint32_t len,
1583ef270ab1SKenneth D. Merry ocs_scsi_io_cb_t cb, void *arg)
1584ef270ab1SKenneth D. Merry {
1585ef270ab1SKenneth D. Merry return ocs_scsi_xfer_data(io, flags, dif_info, sgl, sgl_count, len, OCS_HW_IO_TARGET_WRITE,
1586ef270ab1SKenneth D. Merry enable_treceive_auto_resp(io->ocs), cb, arg);
1587ef270ab1SKenneth D. Merry }
1588ef270ab1SKenneth D. Merry
1589ef270ab1SKenneth D. Merry /**
1590ef270ab1SKenneth D. Merry * @ingroup scsi_api_base
1591ef270ab1SKenneth D. Merry * @brief Free overflow SGL.
1592ef270ab1SKenneth D. Merry *
1593ef270ab1SKenneth D. Merry * @par Description
1594ef270ab1SKenneth D. Merry * Free the overflow SGL if it is present.
1595ef270ab1SKenneth D. Merry *
1596ef270ab1SKenneth D. Merry * @param io Pointer to IO object.
1597ef270ab1SKenneth D. Merry *
1598ef270ab1SKenneth D. Merry * @return None.
1599ef270ab1SKenneth D. Merry */
1600ef270ab1SKenneth D. Merry static void
ocs_scsi_io_free_ovfl(ocs_io_t * io)1601ef270ab1SKenneth D. Merry ocs_scsi_io_free_ovfl(ocs_io_t *io) {
1602ef270ab1SKenneth D. Merry if (io->ovfl_sgl.size) {
1603ef270ab1SKenneth D. Merry ocs_dma_free(io->ocs, &io->ovfl_sgl);
1604ef270ab1SKenneth D. Merry }
1605ef270ab1SKenneth D. Merry }
1606ef270ab1SKenneth D. Merry
1607ef270ab1SKenneth D. Merry /**
1608ef270ab1SKenneth D. Merry * @ingroup scsi_api_base
1609ef270ab1SKenneth D. Merry * @brief Send response data.
1610ef270ab1SKenneth D. Merry *
1611ef270ab1SKenneth D. Merry * @par Description
1612ef270ab1SKenneth D. Merry * This function is used by a target-server to send the SCSI response data to a remote
1613ef270ab1SKenneth D. Merry * initiator node. The target-server populates the @c ocs_scsi_cmd_resp_t
1614ef270ab1SKenneth D. Merry * argument with scsi status, status qualifier, sense data, and response data, as
1615ef270ab1SKenneth D. Merry * needed.
1616ef270ab1SKenneth D. Merry * @n @n
1617ef270ab1SKenneth D. Merry * Upon completion, the callback function @c cb is invoked. The target-server will generally
1618ef270ab1SKenneth D. Merry * clean up its IO context resources and call ocs_scsi_io_complete().
1619ef270ab1SKenneth D. Merry *
1620ef270ab1SKenneth D. Merry * @param io Pointer to the IO context.
1621ef270ab1SKenneth D. Merry * @param flags Flags to control sending of the SCSI response.
1622ef270ab1SKenneth D. Merry * @param rsp Pointer to the response data populated by the caller.
1623ef270ab1SKenneth D. Merry * @param cb Completion callback.
1624ef270ab1SKenneth D. Merry * @param arg Application-specified completion callback argument.
1625ef270ab1SKenneth D. Merry
1626ef270ab1SKenneth D. Merry * @return Returns 0 on success, or a negative error code value on failure.
1627ef270ab1SKenneth D. Merry */
1628ef270ab1SKenneth D. Merry int32_t
ocs_scsi_send_resp(ocs_io_t * io,uint32_t flags,ocs_scsi_cmd_resp_t * rsp,ocs_scsi_io_cb_t cb,void * arg)1629ef270ab1SKenneth D. Merry ocs_scsi_send_resp(ocs_io_t *io, uint32_t flags, ocs_scsi_cmd_resp_t *rsp, ocs_scsi_io_cb_t cb, void *arg)
1630ef270ab1SKenneth D. Merry {
1631ef270ab1SKenneth D. Merry ocs_t *ocs;
1632ef270ab1SKenneth D. Merry int32_t residual;
1633ef270ab1SKenneth D. Merry int auto_resp = TRUE; /* Always try auto resp */
1634ef270ab1SKenneth D. Merry uint8_t scsi_status = 0;
1635ef270ab1SKenneth D. Merry uint16_t scsi_status_qualifier = 0;
1636ef270ab1SKenneth D. Merry uint8_t *sense_data = NULL;
1637ef270ab1SKenneth D. Merry uint32_t sense_data_length = 0;
1638ef270ab1SKenneth D. Merry
1639ef270ab1SKenneth D. Merry ocs_assert(io, -1);
1640ef270ab1SKenneth D. Merry
1641ef270ab1SKenneth D. Merry ocs = io->ocs;
1642ef270ab1SKenneth D. Merry ocs_assert(ocs, -1);
1643ef270ab1SKenneth D. Merry
1644ef270ab1SKenneth D. Merry ocs_assert(io->node, -1);
1645ef270ab1SKenneth D. Merry
1646ef270ab1SKenneth D. Merry ocs_scsi_convert_dif_info(ocs, NULL, &io->hw_dif);
1647ef270ab1SKenneth D. Merry
1648ef270ab1SKenneth D. Merry if (rsp) {
1649ef270ab1SKenneth D. Merry scsi_status = rsp->scsi_status;
1650ef270ab1SKenneth D. Merry scsi_status_qualifier = rsp->scsi_status_qualifier;
1651ef270ab1SKenneth D. Merry sense_data = rsp->sense_data;
1652ef270ab1SKenneth D. Merry sense_data_length = rsp->sense_data_length;
1653ef270ab1SKenneth D. Merry residual = rsp->residual;
1654ef270ab1SKenneth D. Merry } else {
1655ef270ab1SKenneth D. Merry residual = io->exp_xfer_len - io->transferred;
1656ef270ab1SKenneth D. Merry }
1657ef270ab1SKenneth D. Merry
1658ef270ab1SKenneth D. Merry io->wire_len = 0;
1659ef270ab1SKenneth D. Merry io->hio_type = OCS_HW_IO_TARGET_RSP;
1660ef270ab1SKenneth D. Merry
1661ef270ab1SKenneth D. Merry io->scsi_tgt_cb = cb;
1662ef270ab1SKenneth D. Merry io->scsi_tgt_cb_arg = arg;
1663ef270ab1SKenneth D. Merry
1664ef270ab1SKenneth D. Merry ocs_memset(&io->iparam, 0, sizeof(io->iparam));
1665ef270ab1SKenneth D. Merry io->iparam.fcp_tgt.ox_id = io->init_task_tag;
1666ef270ab1SKenneth D. Merry io->iparam.fcp_tgt.offset = 0;
1667ef270ab1SKenneth D. Merry io->iparam.fcp_tgt.cs_ctl = io->cs_ctl;
1668ef270ab1SKenneth D. Merry io->iparam.fcp_tgt.timeout = io->timeout;
1669ef270ab1SKenneth D. Merry
1670ef270ab1SKenneth D. Merry /* Set low latency queueing request */
1671ef270ab1SKenneth D. Merry io->low_latency = (flags & OCS_SCSI_LOW_LATENCY) != 0;
1672ef270ab1SKenneth D. Merry io->wq_steering = (flags & OCS_SCSI_WQ_STEERING_MASK) >> OCS_SCSI_WQ_STEERING_SHIFT;
1673ef270ab1SKenneth D. Merry io->wq_class = (flags & OCS_SCSI_WQ_CLASS_MASK) >> OCS_SCSI_WQ_CLASS_SHIFT;
1674ef270ab1SKenneth D. Merry
1675ef270ab1SKenneth D. Merry if ((scsi_status != 0) || residual || sense_data_length) {
1676ef270ab1SKenneth D. Merry fcp_rsp_iu_t *fcprsp = io->rspbuf.virt;
1677ef270ab1SKenneth D. Merry
1678ef270ab1SKenneth D. Merry if (!fcprsp) {
1679ef270ab1SKenneth D. Merry ocs_log_err(ocs, "NULL response buffer\n");
1680ef270ab1SKenneth D. Merry return -1;
1681ef270ab1SKenneth D. Merry }
1682ef270ab1SKenneth D. Merry
1683ef270ab1SKenneth D. Merry auto_resp = FALSE;
1684ef270ab1SKenneth D. Merry
1685ef270ab1SKenneth D. Merry ocs_memset(fcprsp, 0, sizeof(*fcprsp));
1686ef270ab1SKenneth D. Merry
1687ef270ab1SKenneth D. Merry io->wire_len += (sizeof(*fcprsp) - sizeof(fcprsp->data));
1688ef270ab1SKenneth D. Merry
1689ef270ab1SKenneth D. Merry fcprsp->scsi_status = scsi_status;
1690ef270ab1SKenneth D. Merry *((uint16_t*)fcprsp->status_qualifier) = ocs_htobe16(scsi_status_qualifier);
1691ef270ab1SKenneth D. Merry
1692ef270ab1SKenneth D. Merry /* set residual status if necessary */
1693ef270ab1SKenneth D. Merry if (residual != 0) {
1694ef270ab1SKenneth D. Merry /* FCP: if data transferred is less than the amount expected, then this is an
1695ef270ab1SKenneth D. Merry * underflow. If data transferred would have been greater than the amount expected
1696ef270ab1SKenneth D. Merry * then this is an overflow
1697ef270ab1SKenneth D. Merry */
1698ef270ab1SKenneth D. Merry if (residual > 0) {
1699ef270ab1SKenneth D. Merry fcprsp->flags |= FCP_RESID_UNDER;
1700ef270ab1SKenneth D. Merry *((uint32_t *)fcprsp->fcp_resid) = ocs_htobe32(residual);
1701ef270ab1SKenneth D. Merry } else {
1702ef270ab1SKenneth D. Merry fcprsp->flags |= FCP_RESID_OVER;
1703ef270ab1SKenneth D. Merry *((uint32_t *)fcprsp->fcp_resid) = ocs_htobe32(-residual);
1704ef270ab1SKenneth D. Merry }
1705ef270ab1SKenneth D. Merry }
1706ef270ab1SKenneth D. Merry
1707ef270ab1SKenneth D. Merry if (sense_data && sense_data_length) {
1708ef270ab1SKenneth D. Merry ocs_assert(sense_data_length <= sizeof(fcprsp->data), -1);
1709ef270ab1SKenneth D. Merry fcprsp->flags |= FCP_SNS_LEN_VALID;
1710ef270ab1SKenneth D. Merry ocs_memcpy(fcprsp->data, sense_data, sense_data_length);
1711ef270ab1SKenneth D. Merry *((uint32_t*)fcprsp->fcp_sns_len) = ocs_htobe32(sense_data_length);
1712ef270ab1SKenneth D. Merry io->wire_len += sense_data_length;
1713ef270ab1SKenneth D. Merry }
1714ef270ab1SKenneth D. Merry
1715ef270ab1SKenneth D. Merry io->sgl[0].addr = io->rspbuf.phys;
1716ef270ab1SKenneth D. Merry io->sgl[0].dif_addr = 0;
1717ef270ab1SKenneth D. Merry io->sgl[0].len = io->wire_len;
1718ef270ab1SKenneth D. Merry io->sgl_count = 1;
1719ef270ab1SKenneth D. Merry }
1720ef270ab1SKenneth D. Merry
1721ef270ab1SKenneth D. Merry if (auto_resp) {
1722ef270ab1SKenneth D. Merry io->iparam.fcp_tgt.flags |= SLI4_IO_AUTO_GOOD_RESPONSE;
1723ef270ab1SKenneth D. Merry }
1724ef270ab1SKenneth D. Merry
1725ef270ab1SKenneth D. Merry return ocs_scsi_io_dispatch(io, ocs_target_io_cb);
1726ef270ab1SKenneth D. Merry }
1727ef270ab1SKenneth D. Merry
1728ef270ab1SKenneth D. Merry /**
1729ef270ab1SKenneth D. Merry * @ingroup scsi_api_base
1730ef270ab1SKenneth D. Merry * @brief Send TMF response data.
1731ef270ab1SKenneth D. Merry *
1732ef270ab1SKenneth D. Merry * @par Description
1733ef270ab1SKenneth D. Merry * This function is used by a target-server to send SCSI TMF response data to a remote
1734ef270ab1SKenneth D. Merry * initiator node.
1735ef270ab1SKenneth D. Merry * Upon completion, the callback function @c cb is invoked. The target-server will generally
1736ef270ab1SKenneth D. Merry * clean up its IO context resources and call ocs_scsi_io_complete().
1737ef270ab1SKenneth D. Merry *
1738ef270ab1SKenneth D. Merry * @param io Pointer to the IO context.
1739ef270ab1SKenneth D. Merry * @param rspcode TMF response code.
1740ef270ab1SKenneth D. Merry * @param addl_rsp_info Additional TMF response information (may be NULL for zero data).
1741ef270ab1SKenneth D. Merry * @param cb Completion callback.
1742ef270ab1SKenneth D. Merry * @param arg Application-specified completion callback argument.
1743ef270ab1SKenneth D. Merry *
1744ef270ab1SKenneth D. Merry * @return Returns 0 on success, or a negative error code value on failure.
1745ef270ab1SKenneth D. Merry */
1746ef270ab1SKenneth D. Merry int32_t
ocs_scsi_send_tmf_resp(ocs_io_t * io,ocs_scsi_tmf_resp_e rspcode,uint8_t addl_rsp_info[3],ocs_scsi_io_cb_t cb,void * arg)1747ef270ab1SKenneth D. Merry ocs_scsi_send_tmf_resp(ocs_io_t *io, ocs_scsi_tmf_resp_e rspcode, uint8_t addl_rsp_info[3],
1748ef270ab1SKenneth D. Merry ocs_scsi_io_cb_t cb, void *arg)
1749ef270ab1SKenneth D. Merry {
1750ef270ab1SKenneth D. Merry int32_t rc = -1;
1751ef270ab1SKenneth D. Merry ocs_t *ocs = NULL;
1752ef270ab1SKenneth D. Merry fcp_rsp_iu_t *fcprsp = NULL;
1753ef270ab1SKenneth D. Merry fcp_rsp_info_t *rspinfo = NULL;
1754ef270ab1SKenneth D. Merry uint8_t fcp_rspcode;
1755ef270ab1SKenneth D. Merry
1756ef270ab1SKenneth D. Merry ocs_assert(io, -1);
1757ef270ab1SKenneth D. Merry ocs_assert(io->ocs, -1);
1758ef270ab1SKenneth D. Merry ocs_assert(io->node, -1);
1759ef270ab1SKenneth D. Merry
1760ef270ab1SKenneth D. Merry ocs = io->ocs;
1761ef270ab1SKenneth D. Merry
1762ef270ab1SKenneth D. Merry io->wire_len = 0;
1763ef270ab1SKenneth D. Merry ocs_scsi_convert_dif_info(ocs, NULL, &io->hw_dif);
1764ef270ab1SKenneth D. Merry
1765ef270ab1SKenneth D. Merry switch(rspcode) {
1766ef270ab1SKenneth D. Merry case OCS_SCSI_TMF_FUNCTION_COMPLETE:
1767ef270ab1SKenneth D. Merry fcp_rspcode = FCP_TMF_COMPLETE;
1768ef270ab1SKenneth D. Merry break;
1769ef270ab1SKenneth D. Merry case OCS_SCSI_TMF_FUNCTION_SUCCEEDED:
1770ef270ab1SKenneth D. Merry case OCS_SCSI_TMF_FUNCTION_IO_NOT_FOUND:
1771ef270ab1SKenneth D. Merry fcp_rspcode = FCP_TMF_SUCCEEDED;
1772ef270ab1SKenneth D. Merry break;
1773ef270ab1SKenneth D. Merry case OCS_SCSI_TMF_FUNCTION_REJECTED:
1774ef270ab1SKenneth D. Merry fcp_rspcode = FCP_TMF_REJECTED;
1775ef270ab1SKenneth D. Merry break;
1776ef270ab1SKenneth D. Merry case OCS_SCSI_TMF_INCORRECT_LOGICAL_UNIT_NUMBER:
1777ef270ab1SKenneth D. Merry fcp_rspcode = FCP_TMF_INCORRECT_LUN;
1778ef270ab1SKenneth D. Merry break;
1779ef270ab1SKenneth D. Merry case OCS_SCSI_TMF_SERVICE_DELIVERY:
1780ef270ab1SKenneth D. Merry fcp_rspcode = FCP_TMF_FAILED;
1781ef270ab1SKenneth D. Merry break;
1782ef270ab1SKenneth D. Merry default:
1783ef270ab1SKenneth D. Merry fcp_rspcode = FCP_TMF_REJECTED;
1784ef270ab1SKenneth D. Merry break;
1785ef270ab1SKenneth D. Merry }
1786ef270ab1SKenneth D. Merry
1787ef270ab1SKenneth D. Merry io->hio_type = OCS_HW_IO_TARGET_RSP;
1788ef270ab1SKenneth D. Merry
1789ef270ab1SKenneth D. Merry io->scsi_tgt_cb = cb;
1790ef270ab1SKenneth D. Merry io->scsi_tgt_cb_arg = arg;
1791ef270ab1SKenneth D. Merry
1792ef270ab1SKenneth D. Merry if (io->tmf_cmd == OCS_SCSI_TMF_ABORT_TASK) {
1793ef270ab1SKenneth D. Merry rc = ocs_target_send_bls_resp(io, cb, arg);
1794ef270ab1SKenneth D. Merry return rc;
1795ef270ab1SKenneth D. Merry }
1796ef270ab1SKenneth D. Merry
1797ef270ab1SKenneth D. Merry /* populate the FCP TMF response */
1798ef270ab1SKenneth D. Merry fcprsp = io->rspbuf.virt;
1799ef270ab1SKenneth D. Merry ocs_memset(fcprsp, 0, sizeof(*fcprsp));
1800ef270ab1SKenneth D. Merry
1801ef270ab1SKenneth D. Merry fcprsp->flags |= FCP_RSP_LEN_VALID;
1802ef270ab1SKenneth D. Merry
1803ef270ab1SKenneth D. Merry rspinfo = (fcp_rsp_info_t*) fcprsp->data;
1804ef270ab1SKenneth D. Merry if (addl_rsp_info != NULL) {
1805ef270ab1SKenneth D. Merry ocs_memcpy(rspinfo->addl_rsp_info, addl_rsp_info, sizeof(rspinfo->addl_rsp_info));
1806ef270ab1SKenneth D. Merry }
1807ef270ab1SKenneth D. Merry rspinfo->rsp_code = fcp_rspcode;
1808ef270ab1SKenneth D. Merry
1809ef270ab1SKenneth D. Merry io->wire_len = sizeof(*fcprsp) - sizeof(fcprsp->data) + sizeof(*rspinfo);
1810ef270ab1SKenneth D. Merry
1811ef270ab1SKenneth D. Merry *((uint32_t*)fcprsp->fcp_rsp_len) = ocs_htobe32(sizeof(*rspinfo));
1812ef270ab1SKenneth D. Merry
1813ef270ab1SKenneth D. Merry io->sgl[0].addr = io->rspbuf.phys;
1814ef270ab1SKenneth D. Merry io->sgl[0].dif_addr = 0;
1815ef270ab1SKenneth D. Merry io->sgl[0].len = io->wire_len;
1816ef270ab1SKenneth D. Merry io->sgl_count = 1;
1817ef270ab1SKenneth D. Merry
1818ef270ab1SKenneth D. Merry ocs_memset(&io->iparam, 0, sizeof(io->iparam));
1819ef270ab1SKenneth D. Merry io->iparam.fcp_tgt.ox_id = io->init_task_tag;
1820ef270ab1SKenneth D. Merry io->iparam.fcp_tgt.offset = 0;
1821ef270ab1SKenneth D. Merry io->iparam.fcp_tgt.cs_ctl = io->cs_ctl;
1822ef270ab1SKenneth D. Merry io->iparam.fcp_tgt.timeout = io->timeout;
1823ef270ab1SKenneth D. Merry
1824ef270ab1SKenneth D. Merry rc = ocs_scsi_io_dispatch(io, ocs_target_io_cb);
1825ef270ab1SKenneth D. Merry
1826ef270ab1SKenneth D. Merry return rc;
1827ef270ab1SKenneth D. Merry }
1828ef270ab1SKenneth D. Merry
1829ef270ab1SKenneth D. Merry /**
1830ef270ab1SKenneth D. Merry * @brief Process target abort callback.
1831ef270ab1SKenneth D. Merry *
1832ef270ab1SKenneth D. Merry * @par Description
1833ef270ab1SKenneth D. Merry * Accepts HW abort requests.
1834ef270ab1SKenneth D. Merry *
1835ef270ab1SKenneth D. Merry * @param hio HW IO context.
1836ef270ab1SKenneth D. Merry * @param rnode Remote node.
1837ef270ab1SKenneth D. Merry * @param length Length of response data.
1838ef270ab1SKenneth D. Merry * @param status Completion status.
1839ef270ab1SKenneth D. Merry * @param ext_status Extended completion status.
1840ef270ab1SKenneth D. Merry * @param app Application-specified callback data.
1841ef270ab1SKenneth D. Merry *
1842ef270ab1SKenneth D. Merry * @return Returns 0 on success, or a negative error code value on failure.
1843ef270ab1SKenneth D. Merry */
1844ef270ab1SKenneth D. Merry
1845ef270ab1SKenneth D. Merry static int32_t
ocs_target_abort_cb(ocs_hw_io_t * hio,ocs_remote_node_t * rnode,uint32_t length,int32_t status,uint32_t ext_status,void * app)1846ef270ab1SKenneth D. Merry ocs_target_abort_cb(ocs_hw_io_t *hio, ocs_remote_node_t *rnode, uint32_t length, int32_t status, uint32_t ext_status, void *app)
1847ef270ab1SKenneth D. Merry {
1848ef270ab1SKenneth D. Merry ocs_io_t *io = app;
1849ef270ab1SKenneth D. Merry ocs_t *ocs;
1850ef270ab1SKenneth D. Merry ocs_scsi_io_status_e scsi_status;
1851ef270ab1SKenneth D. Merry
1852ef270ab1SKenneth D. Merry ocs_assert(io, -1);
1853ef270ab1SKenneth D. Merry ocs_assert(io->ocs, -1);
1854ef270ab1SKenneth D. Merry
1855ef270ab1SKenneth D. Merry ocs = io->ocs;
1856ef270ab1SKenneth D. Merry
1857ef270ab1SKenneth D. Merry if (io->abort_cb) {
1858ef270ab1SKenneth D. Merry ocs_scsi_io_cb_t abort_cb = io->abort_cb;
1859ef270ab1SKenneth D. Merry void *abort_cb_arg = io->abort_cb_arg;
1860ef270ab1SKenneth D. Merry
1861ef270ab1SKenneth D. Merry io->abort_cb = NULL;
1862ef270ab1SKenneth D. Merry io->abort_cb_arg = NULL;
1863ef270ab1SKenneth D. Merry
1864ef270ab1SKenneth D. Merry switch (status) {
1865ef270ab1SKenneth D. Merry case SLI4_FC_WCQE_STATUS_SUCCESS:
1866ef270ab1SKenneth D. Merry scsi_status = OCS_SCSI_STATUS_GOOD;
1867ef270ab1SKenneth D. Merry break;
1868ef270ab1SKenneth D. Merry case SLI4_FC_WCQE_STATUS_LOCAL_REJECT:
1869ef270ab1SKenneth D. Merry switch (ext_status) {
1870ef270ab1SKenneth D. Merry case SLI4_FC_LOCAL_REJECT_NO_XRI:
1871ef270ab1SKenneth D. Merry scsi_status = OCS_SCSI_STATUS_NO_IO;
1872ef270ab1SKenneth D. Merry break;
1873ef270ab1SKenneth D. Merry case SLI4_FC_LOCAL_REJECT_ABORT_IN_PROGRESS:
1874ef270ab1SKenneth D. Merry scsi_status = OCS_SCSI_STATUS_ABORT_IN_PROGRESS;
1875ef270ab1SKenneth D. Merry break;
1876ef270ab1SKenneth D. Merry default:
1877ef270ab1SKenneth D. Merry /* TODO: we have seen 0x15 (abort in progress) */
1878ef270ab1SKenneth D. Merry scsi_status = OCS_SCSI_STATUS_ERROR;
1879ef270ab1SKenneth D. Merry break;
1880ef270ab1SKenneth D. Merry }
1881ef270ab1SKenneth D. Merry break;
1882ef270ab1SKenneth D. Merry case SLI4_FC_WCQE_STATUS_FCP_RSP_FAILURE:
1883ef270ab1SKenneth D. Merry scsi_status = OCS_SCSI_STATUS_CHECK_RESPONSE;
1884ef270ab1SKenneth D. Merry break;
1885ef270ab1SKenneth D. Merry default:
1886ef270ab1SKenneth D. Merry scsi_status = OCS_SCSI_STATUS_ERROR;
1887ef270ab1SKenneth D. Merry break;
1888ef270ab1SKenneth D. Merry }
1889ef270ab1SKenneth D. Merry /* invoke callback */
1890ef270ab1SKenneth D. Merry abort_cb(io->io_to_abort, scsi_status, 0, abort_cb_arg);
1891ef270ab1SKenneth D. Merry }
1892ef270ab1SKenneth D. Merry
1893ef270ab1SKenneth D. Merry ocs_assert(io != io->io_to_abort, -1);
1894ef270ab1SKenneth D. Merry
1895ef270ab1SKenneth D. Merry /* done with IO to abort */
1896ef270ab1SKenneth D. Merry ocs_ref_put(&io->io_to_abort->ref); /* ocs_ref_get(): ocs_scsi_tgt_abort_io() */
1897ef270ab1SKenneth D. Merry
1898ef270ab1SKenneth D. Merry ocs_io_free(ocs, io);
1899ef270ab1SKenneth D. Merry
1900ef270ab1SKenneth D. Merry ocs_scsi_check_pending(ocs);
1901ef270ab1SKenneth D. Merry return 0;
1902ef270ab1SKenneth D. Merry }
1903ef270ab1SKenneth D. Merry
1904ef270ab1SKenneth D. Merry /**
1905ef270ab1SKenneth D. Merry * @ingroup scsi_api_base
1906ef270ab1SKenneth D. Merry * @brief Abort a target IO.
1907ef270ab1SKenneth D. Merry *
1908ef270ab1SKenneth D. Merry * @par Description
1909ef270ab1SKenneth D. Merry * This routine is called from a SCSI target-server. It initiates an abort of a
1910ef270ab1SKenneth D. Merry * previously-issued target data phase or response request.
1911ef270ab1SKenneth D. Merry *
1912ef270ab1SKenneth D. Merry * @param io IO context.
1913ef270ab1SKenneth D. Merry * @param cb SCSI target server callback.
1914ef270ab1SKenneth D. Merry * @param arg SCSI target server supplied callback argument.
1915ef270ab1SKenneth D. Merry *
1916ef270ab1SKenneth D. Merry * @return Returns 0 on success, or a non-zero value on failure.
1917ef270ab1SKenneth D. Merry */
1918ef270ab1SKenneth D. Merry int32_t
ocs_scsi_tgt_abort_io(ocs_io_t * io,ocs_scsi_io_cb_t cb,void * arg)1919ef270ab1SKenneth D. Merry ocs_scsi_tgt_abort_io(ocs_io_t *io, ocs_scsi_io_cb_t cb, void *arg)
1920ef270ab1SKenneth D. Merry {
1921ef270ab1SKenneth D. Merry ocs_t *ocs;
1922ef270ab1SKenneth D. Merry ocs_xport_t *xport;
1923ef270ab1SKenneth D. Merry int32_t rc;
1924ef270ab1SKenneth D. Merry
1925ef270ab1SKenneth D. Merry ocs_io_t *abort_io = NULL;
1926ef270ab1SKenneth D. Merry ocs_assert(io, -1);
1927ef270ab1SKenneth D. Merry ocs_assert(io->node, -1);
1928ef270ab1SKenneth D. Merry ocs_assert(io->ocs, -1);
1929ef270ab1SKenneth D. Merry
1930ef270ab1SKenneth D. Merry ocs = io->ocs;
1931ef270ab1SKenneth D. Merry xport = ocs->xport;
1932ef270ab1SKenneth D. Merry
1933ef270ab1SKenneth D. Merry /* take a reference on IO being aborted */
1934ef270ab1SKenneth D. Merry if ((ocs_ref_get_unless_zero(&io->ref) == 0)) {
1935ef270ab1SKenneth D. Merry /* command no longer active */
1936ef270ab1SKenneth D. Merry scsi_io_printf(io, "command no longer active\n");
1937ef270ab1SKenneth D. Merry return -1;
1938ef270ab1SKenneth D. Merry }
1939ef270ab1SKenneth D. Merry
1940ef270ab1SKenneth D. Merry /*
1941ef270ab1SKenneth D. Merry * allocate a new IO to send the abort request. Use ocs_io_alloc() directly, as
1942ef270ab1SKenneth D. Merry * we need an IO object that will not fail allocation due to allocations being
1943ef270ab1SKenneth D. Merry * disabled (in ocs_scsi_io_alloc())
1944ef270ab1SKenneth D. Merry */
1945ef270ab1SKenneth D. Merry abort_io = ocs_io_alloc(ocs);
1946ef270ab1SKenneth D. Merry if (abort_io == NULL) {
1947ef270ab1SKenneth D. Merry ocs_atomic_add_return(&xport->io_alloc_failed_count, 1);
1948ef270ab1SKenneth D. Merry ocs_ref_put(&io->ref); /* ocs_ref_get(): same function */
1949ef270ab1SKenneth D. Merry return -1;
1950ef270ab1SKenneth D. Merry }
1951ef270ab1SKenneth D. Merry
1952ef270ab1SKenneth D. Merry /* Save the target server callback and argument */
1953ef270ab1SKenneth D. Merry ocs_assert(abort_io->hio == NULL, -1);
1954ef270ab1SKenneth D. Merry
1955ef270ab1SKenneth D. Merry /* set generic fields */
1956ef270ab1SKenneth D. Merry abort_io->cmd_tgt = TRUE;
1957ef270ab1SKenneth D. Merry abort_io->node = io->node;
1958ef270ab1SKenneth D. Merry
1959ef270ab1SKenneth D. Merry /* set type and abort-specific fields */
1960ef270ab1SKenneth D. Merry abort_io->io_type = OCS_IO_TYPE_ABORT;
1961ef270ab1SKenneth D. Merry abort_io->display_name = "tgt_abort";
1962ef270ab1SKenneth D. Merry abort_io->io_to_abort = io;
1963ef270ab1SKenneth D. Merry abort_io->send_abts = FALSE;
1964ef270ab1SKenneth D. Merry abort_io->abort_cb = cb;
1965ef270ab1SKenneth D. Merry abort_io->abort_cb_arg = arg;
1966ef270ab1SKenneth D. Merry
1967ef270ab1SKenneth D. Merry /* now dispatch IO */
1968ef270ab1SKenneth D. Merry rc = ocs_scsi_io_dispatch_abort(abort_io, ocs_target_abort_cb);
1969ef270ab1SKenneth D. Merry if (rc) {
1970ef270ab1SKenneth D. Merry ocs_ref_put(&io->ref); /* ocs_ref_get(): same function */
1971ef270ab1SKenneth D. Merry }
1972ef270ab1SKenneth D. Merry return rc;
1973ef270ab1SKenneth D. Merry }
1974ef270ab1SKenneth D. Merry
1975ef270ab1SKenneth D. Merry /**
1976ef270ab1SKenneth D. Merry * @brief Process target BLS response callback.
1977ef270ab1SKenneth D. Merry *
1978ef270ab1SKenneth D. Merry * @par Description
1979ef270ab1SKenneth D. Merry * Accepts HW abort requests.
1980ef270ab1SKenneth D. Merry *
1981ef270ab1SKenneth D. Merry * @param hio HW IO context.
1982ef270ab1SKenneth D. Merry * @param rnode Remote node.
1983ef270ab1SKenneth D. Merry * @param length Length of response data.
1984ef270ab1SKenneth D. Merry * @param status Completion status.
1985ef270ab1SKenneth D. Merry * @param ext_status Extended completion status.
1986ef270ab1SKenneth D. Merry * @param app Application-specified callback data.
1987ef270ab1SKenneth D. Merry *
1988ef270ab1SKenneth D. Merry * @return Returns 0 on success, or a negative error code value on failure.
1989ef270ab1SKenneth D. Merry */
1990ef270ab1SKenneth D. Merry
1991ef270ab1SKenneth D. Merry static int32_t
ocs_target_bls_resp_cb(ocs_hw_io_t * hio,ocs_remote_node_t * rnode,uint32_t length,int32_t status,uint32_t ext_status,void * app)1992ef270ab1SKenneth D. Merry ocs_target_bls_resp_cb(ocs_hw_io_t *hio, ocs_remote_node_t *rnode, uint32_t length, int32_t status, uint32_t ext_status, void *app)
1993ef270ab1SKenneth D. Merry {
1994ef270ab1SKenneth D. Merry ocs_io_t *io = app;
1995ef270ab1SKenneth D. Merry ocs_t *ocs;
1996ef270ab1SKenneth D. Merry ocs_scsi_io_status_e bls_status;
1997ef270ab1SKenneth D. Merry
1998ef270ab1SKenneth D. Merry ocs_assert(io, -1);
1999ef270ab1SKenneth D. Merry ocs_assert(io->ocs, -1);
2000ef270ab1SKenneth D. Merry
2001ef270ab1SKenneth D. Merry ocs = io->ocs;
2002ef270ab1SKenneth D. Merry
2003ef270ab1SKenneth D. Merry /* BLS isn't really a "SCSI" concept, but use SCSI status */
2004ef270ab1SKenneth D. Merry if (status) {
2005ef270ab1SKenneth D. Merry io_error_log(io, "s=%#x x=%#x\n", status, ext_status);
2006ef270ab1SKenneth D. Merry bls_status = OCS_SCSI_STATUS_ERROR;
2007ef270ab1SKenneth D. Merry } else {
2008ef270ab1SKenneth D. Merry bls_status = OCS_SCSI_STATUS_GOOD;
2009ef270ab1SKenneth D. Merry }
2010ef270ab1SKenneth D. Merry
2011ef270ab1SKenneth D. Merry if (io->bls_cb) {
2012ef270ab1SKenneth D. Merry ocs_scsi_io_cb_t bls_cb = io->bls_cb;
2013ef270ab1SKenneth D. Merry void *bls_cb_arg = io->bls_cb_arg;
2014ef270ab1SKenneth D. Merry
2015ef270ab1SKenneth D. Merry io->bls_cb = NULL;
2016ef270ab1SKenneth D. Merry io->bls_cb_arg = NULL;
2017ef270ab1SKenneth D. Merry
2018ef270ab1SKenneth D. Merry /* invoke callback */
2019ef270ab1SKenneth D. Merry bls_cb(io, bls_status, 0, bls_cb_arg);
2020ef270ab1SKenneth D. Merry }
2021ef270ab1SKenneth D. Merry
2022ef270ab1SKenneth D. Merry ocs_scsi_check_pending(ocs);
2023ef270ab1SKenneth D. Merry return 0;
2024ef270ab1SKenneth D. Merry }
2025ef270ab1SKenneth D. Merry
2026ef270ab1SKenneth D. Merry /**
2027ef270ab1SKenneth D. Merry * @brief Complete abort request.
2028ef270ab1SKenneth D. Merry *
2029ef270ab1SKenneth D. Merry * @par Description
2030ef270ab1SKenneth D. Merry * An abort request is completed by posting a BA_ACC for the IO that requested the abort.
2031ef270ab1SKenneth D. Merry *
2032ef270ab1SKenneth D. Merry * @param io Pointer to the IO context.
2033ef270ab1SKenneth D. Merry * @param cb Callback function to invoke upon completion.
2034ef270ab1SKenneth D. Merry * @param arg Application-specified completion callback argument.
2035ef270ab1SKenneth D. Merry *
2036ef270ab1SKenneth D. Merry * @return Returns 0 on success, or a negative error code value on failure.
2037ef270ab1SKenneth D. Merry */
2038ef270ab1SKenneth D. Merry
2039ef270ab1SKenneth D. Merry static int32_t
ocs_target_send_bls_resp(ocs_io_t * io,ocs_scsi_io_cb_t cb,void * arg)2040ef270ab1SKenneth D. Merry ocs_target_send_bls_resp(ocs_io_t *io, ocs_scsi_io_cb_t cb, void *arg)
2041ef270ab1SKenneth D. Merry {
2042ef270ab1SKenneth D. Merry int32_t rc;
2043ef270ab1SKenneth D. Merry fc_ba_acc_payload_t *acc;
2044ef270ab1SKenneth D. Merry
2045ef270ab1SKenneth D. Merry ocs_assert(io, -1);
2046ef270ab1SKenneth D. Merry
2047ef270ab1SKenneth D. Merry /* fill out IO structure with everything needed to send BA_ACC */
2048ef270ab1SKenneth D. Merry ocs_memset(&io->iparam, 0, sizeof(io->iparam));
2049ef270ab1SKenneth D. Merry io->iparam.bls.ox_id = io->init_task_tag;
2050ef270ab1SKenneth D. Merry io->iparam.bls.rx_id = io->abort_rx_id;
2051ef270ab1SKenneth D. Merry
2052ef270ab1SKenneth D. Merry acc = (void *)io->iparam.bls.payload;
2053ef270ab1SKenneth D. Merry
2054ef270ab1SKenneth D. Merry ocs_memset(io->iparam.bls.payload, 0, sizeof(io->iparam.bls.payload));
2055ef270ab1SKenneth D. Merry acc->ox_id = io->iparam.bls.ox_id;
2056ef270ab1SKenneth D. Merry acc->rx_id = io->iparam.bls.rx_id;
2057ef270ab1SKenneth D. Merry acc->high_seq_cnt = UINT16_MAX;
2058ef270ab1SKenneth D. Merry
2059ef270ab1SKenneth D. Merry /* generic io fields have already been populated */
2060ef270ab1SKenneth D. Merry
2061ef270ab1SKenneth D. Merry /* set type and BLS-specific fields */
2062ef270ab1SKenneth D. Merry io->io_type = OCS_IO_TYPE_BLS_RESP;
2063ef270ab1SKenneth D. Merry io->display_name = "bls_rsp";
2064ef270ab1SKenneth D. Merry io->hio_type = OCS_HW_BLS_ACC;
2065ef270ab1SKenneth D. Merry io->bls_cb = cb;
2066ef270ab1SKenneth D. Merry io->bls_cb_arg = arg;
2067ef270ab1SKenneth D. Merry
2068ef270ab1SKenneth D. Merry /* dispatch IO */
2069ef270ab1SKenneth D. Merry rc = ocs_scsi_io_dispatch(io, ocs_target_bls_resp_cb);
2070ef270ab1SKenneth D. Merry return rc;
2071ef270ab1SKenneth D. Merry }
2072ef270ab1SKenneth D. Merry
2073ef270ab1SKenneth D. Merry /**
2074ef270ab1SKenneth D. Merry * @ingroup scsi_api_base
2075ef270ab1SKenneth D. Merry * @brief Notify the base driver that the IO is complete.
2076ef270ab1SKenneth D. Merry *
2077ef270ab1SKenneth D. Merry * @par Description
2078ef270ab1SKenneth D. Merry * This function is called by a target-server to notify the base driver that an IO
2079ef270ab1SKenneth D. Merry * has completed, allowing for the base driver to free resources.
2080ef270ab1SKenneth D. Merry * @n
2081ef270ab1SKenneth D. Merry * @n @b Note: This function is not called by initiator-clients.
2082ef270ab1SKenneth D. Merry *
2083ef270ab1SKenneth D. Merry * @param io Pointer to IO context.
2084ef270ab1SKenneth D. Merry *
2085ef270ab1SKenneth D. Merry * @return None.
2086ef270ab1SKenneth D. Merry */
2087ef270ab1SKenneth D. Merry void
ocs_scsi_io_complete(ocs_io_t * io)2088ef270ab1SKenneth D. Merry ocs_scsi_io_complete(ocs_io_t *io)
2089ef270ab1SKenneth D. Merry {
2090ef270ab1SKenneth D. Merry ocs_assert(io);
2091ef270ab1SKenneth D. Merry
2092ef270ab1SKenneth D. Merry if (!ocs_io_busy(io)) {
2093ef270ab1SKenneth D. Merry ocs_log_test(io->ocs, "Got completion for non-busy io with tag 0x%x\n", io->tag);
2094ef270ab1SKenneth D. Merry return;
2095ef270ab1SKenneth D. Merry }
2096ef270ab1SKenneth D. Merry
2097ef270ab1SKenneth D. Merry scsi_io_trace(io, "freeing io 0x%p %s\n", io, io->display_name);
2098ef270ab1SKenneth D. Merry ocs_assert(ocs_ref_read_count(&io->ref) > 0);
2099ef270ab1SKenneth D. Merry ocs_ref_put(&io->ref); /* ocs_ref_get(): ocs_scsi_io_alloc() */
2100ef270ab1SKenneth D. Merry }
2101ef270ab1SKenneth D. Merry
2102ef270ab1SKenneth D. Merry /**
2103ef270ab1SKenneth D. Merry * @brief Handle initiator IO completion.
2104ef270ab1SKenneth D. Merry *
2105ef270ab1SKenneth D. Merry * @par Description
2106ef270ab1SKenneth D. Merry * This callback is made upon completion of an initiator operation (initiator read/write command).
2107ef270ab1SKenneth D. Merry *
2108ef270ab1SKenneth D. Merry * @param hio HW IO context.
2109ef270ab1SKenneth D. Merry * @param rnode Remote node.
2110ef270ab1SKenneth D. Merry * @param length Length of completion data.
2111ef270ab1SKenneth D. Merry * @param status Completion status.
2112ef270ab1SKenneth D. Merry * @param ext_status Extended completion status.
2113ef270ab1SKenneth D. Merry * @param app Application-specified callback data.
2114ef270ab1SKenneth D. Merry *
2115ef270ab1SKenneth D. Merry * @return None.
2116ef270ab1SKenneth D. Merry */
2117ef270ab1SKenneth D. Merry
2118ef270ab1SKenneth D. Merry static void
ocs_initiator_io_cb(ocs_hw_io_t * hio,ocs_remote_node_t * rnode,uint32_t length,int32_t status,uint32_t ext_status,void * app)2119ef270ab1SKenneth D. Merry ocs_initiator_io_cb(ocs_hw_io_t *hio, ocs_remote_node_t *rnode, uint32_t length,
2120ef270ab1SKenneth D. Merry int32_t status, uint32_t ext_status, void *app)
2121ef270ab1SKenneth D. Merry {
2122ef270ab1SKenneth D. Merry ocs_io_t *io = app;
2123ef270ab1SKenneth D. Merry ocs_t *ocs;
2124ef270ab1SKenneth D. Merry ocs_scsi_io_status_e scsi_status;
2125ef270ab1SKenneth D. Merry
2126ef270ab1SKenneth D. Merry ocs_assert(io);
2127ef270ab1SKenneth D. Merry ocs_assert(io->scsi_ini_cb);
2128ef270ab1SKenneth D. Merry
2129ef270ab1SKenneth D. Merry scsi_io_trace(io, "status x%x ext_status x%x\n", status, ext_status);
2130ef270ab1SKenneth D. Merry
2131ef270ab1SKenneth D. Merry ocs = io->ocs;
2132ef270ab1SKenneth D. Merry ocs_assert(ocs);
2133ef270ab1SKenneth D. Merry
2134ef270ab1SKenneth D. Merry ocs_scsi_io_free_ovfl(io);
2135ef270ab1SKenneth D. Merry
2136ef270ab1SKenneth D. Merry /* Call target server completion */
2137ef270ab1SKenneth D. Merry if (io->scsi_ini_cb) {
2138ef270ab1SKenneth D. Merry fcp_rsp_iu_t *fcprsp = io->rspbuf.virt;
2139ef270ab1SKenneth D. Merry ocs_scsi_cmd_resp_t rsp;
2140ef270ab1SKenneth D. Merry ocs_scsi_rsp_io_cb_t cb = io->scsi_ini_cb;
2141ef270ab1SKenneth D. Merry uint32_t flags = 0;
2142ef270ab1SKenneth D. Merry uint8_t *pd = fcprsp->data;
2143ef270ab1SKenneth D. Merry
2144ef270ab1SKenneth D. Merry /* Clear the callback before invoking the callback */
2145ef270ab1SKenneth D. Merry io->scsi_ini_cb = NULL;
2146ef270ab1SKenneth D. Merry
2147ef270ab1SKenneth D. Merry ocs_memset(&rsp, 0, sizeof(rsp));
2148ef270ab1SKenneth D. Merry
2149ef270ab1SKenneth D. Merry /* Unless status is FCP_RSP_FAILURE, fcprsp is not filled in */
2150ef270ab1SKenneth D. Merry switch (status) {
2151ef270ab1SKenneth D. Merry case SLI4_FC_WCQE_STATUS_SUCCESS:
2152ef270ab1SKenneth D. Merry scsi_status = OCS_SCSI_STATUS_GOOD;
2153ef270ab1SKenneth D. Merry break;
2154ef270ab1SKenneth D. Merry case SLI4_FC_WCQE_STATUS_FCP_RSP_FAILURE:
2155ef270ab1SKenneth D. Merry scsi_status = OCS_SCSI_STATUS_CHECK_RESPONSE;
2156ef270ab1SKenneth D. Merry rsp.scsi_status = fcprsp->scsi_status;
2157ef270ab1SKenneth D. Merry rsp.scsi_status_qualifier = ocs_be16toh(*((uint16_t*)fcprsp->status_qualifier));
2158ef270ab1SKenneth D. Merry
2159ef270ab1SKenneth D. Merry if (fcprsp->flags & FCP_RSP_LEN_VALID) {
2160ef270ab1SKenneth D. Merry rsp.response_data = pd;
2161ef270ab1SKenneth D. Merry rsp.response_data_length = ocs_fc_getbe32(fcprsp->fcp_rsp_len);
2162ef270ab1SKenneth D. Merry pd += rsp.response_data_length;
2163ef270ab1SKenneth D. Merry }
2164ef270ab1SKenneth D. Merry if (fcprsp->flags & FCP_SNS_LEN_VALID) {
2165ef270ab1SKenneth D. Merry uint32_t sns_len = ocs_fc_getbe32(fcprsp->fcp_sns_len);
2166ef270ab1SKenneth D. Merry rsp.sense_data = pd;
2167ef270ab1SKenneth D. Merry rsp.sense_data_length = sns_len;
2168ef270ab1SKenneth D. Merry pd += sns_len;
2169ef270ab1SKenneth D. Merry }
2170ef270ab1SKenneth D. Merry /* Set residual */
2171ef270ab1SKenneth D. Merry if (fcprsp->flags & FCP_RESID_OVER) {
2172ef270ab1SKenneth D. Merry rsp.residual = -ocs_fc_getbe32(fcprsp->fcp_resid);
2173ef270ab1SKenneth D. Merry rsp.response_wire_length = length;
2174ef270ab1SKenneth D. Merry } else if (fcprsp->flags & FCP_RESID_UNDER) {
2175ef270ab1SKenneth D. Merry rsp.residual = ocs_fc_getbe32(fcprsp->fcp_resid);
2176ef270ab1SKenneth D. Merry rsp.response_wire_length = length;
2177ef270ab1SKenneth D. Merry }
2178ef270ab1SKenneth D. Merry
2179ef270ab1SKenneth D. Merry /*
2180ef270ab1SKenneth D. Merry * Note: The FCP_RSP_FAILURE can be returned for initiator IOs when the total data
2181ef270ab1SKenneth D. Merry * placed does not match the requested length even if the status is good. If
2182ef270ab1SKenneth D. Merry * the status is all zeroes, then we have to assume that a frame(s) were
2183ef270ab1SKenneth D. Merry * dropped and change the status to LOCAL_REJECT/OUT_OF_ORDER_DATA
2184ef270ab1SKenneth D. Merry */
2185ef270ab1SKenneth D. Merry if (length != io->wire_len) {
2186ef270ab1SKenneth D. Merry uint32_t rsp_len = ext_status;
2187ef270ab1SKenneth D. Merry uint8_t *rsp_bytes = io->rspbuf.virt;
2188ef270ab1SKenneth D. Merry uint32_t i;
2189ef270ab1SKenneth D. Merry uint8_t all_zeroes = (rsp_len > 0);
2190ef270ab1SKenneth D. Merry /* Check if the rsp is zero */
2191ef270ab1SKenneth D. Merry for (i = 0; i < rsp_len; i++) {
2192ef270ab1SKenneth D. Merry if (rsp_bytes[i] != 0) {
2193ef270ab1SKenneth D. Merry all_zeroes = FALSE;
2194ef270ab1SKenneth D. Merry break;
2195ef270ab1SKenneth D. Merry }
2196ef270ab1SKenneth D. Merry }
2197ef270ab1SKenneth D. Merry if (all_zeroes) {
2198ef270ab1SKenneth D. Merry scsi_status = OCS_SCSI_STATUS_ERROR;
2199ef270ab1SKenneth D. Merry ocs_log_test(io->ocs, "[%s]" SCSI_IOFMT "local reject=0x%02x\n",
2200ef270ab1SKenneth D. Merry io->node->display_name, SCSI_IOFMT_ARGS(io),
2201ef270ab1SKenneth D. Merry SLI4_FC_LOCAL_REJECT_OUT_OF_ORDER_DATA);
2202ef270ab1SKenneth D. Merry }
2203ef270ab1SKenneth D. Merry }
2204ef270ab1SKenneth D. Merry break;
2205ef270ab1SKenneth D. Merry case SLI4_FC_WCQE_STATUS_LOCAL_REJECT:
2206ef270ab1SKenneth D. Merry if (ext_status == SLI4_FC_LOCAL_REJECT_SEQUENCE_TIMEOUT) {
2207ef270ab1SKenneth D. Merry scsi_status = OCS_SCSI_STATUS_COMMAND_TIMEOUT;
2208ef270ab1SKenneth D. Merry } else {
2209ef270ab1SKenneth D. Merry scsi_status = OCS_SCSI_STATUS_ERROR;
2210ef270ab1SKenneth D. Merry }
2211ef270ab1SKenneth D. Merry break;
2212*70547544SRam Kishore Vegesna case SLI4_FC_WCQE_STATUS_WQE_TIMEOUT:
2213*70547544SRam Kishore Vegesna /* IO timed out */
2214*70547544SRam Kishore Vegesna scsi_status = OCS_SCSI_STATUS_TIMEDOUT_AND_ABORTED;
2215*70547544SRam Kishore Vegesna break;
2216ef270ab1SKenneth D. Merry case SLI4_FC_WCQE_STATUS_DI_ERROR:
2217ef270ab1SKenneth D. Merry if (ext_status & 0x01) {
2218ef270ab1SKenneth D. Merry scsi_status = OCS_SCSI_STATUS_DIF_GUARD_ERROR;
2219ef270ab1SKenneth D. Merry } else if (ext_status & 0x02) {
2220ef270ab1SKenneth D. Merry scsi_status = OCS_SCSI_STATUS_DIF_APP_TAG_ERROR;
2221ef270ab1SKenneth D. Merry } else if (ext_status & 0x04) {
2222ef270ab1SKenneth D. Merry scsi_status = OCS_SCSI_STATUS_DIF_REF_TAG_ERROR;
2223ef270ab1SKenneth D. Merry } else {
2224ef270ab1SKenneth D. Merry scsi_status = OCS_SCSI_STATUS_DIF_UNKNOWN_ERROR;
2225ef270ab1SKenneth D. Merry }
2226ef270ab1SKenneth D. Merry break;
2227ef270ab1SKenneth D. Merry default:
2228ef270ab1SKenneth D. Merry scsi_status = OCS_SCSI_STATUS_ERROR;
2229ef270ab1SKenneth D. Merry break;
2230ef270ab1SKenneth D. Merry }
2231ef270ab1SKenneth D. Merry
2232ef270ab1SKenneth D. Merry cb(io, scsi_status, &rsp, flags, io->scsi_ini_cb_arg);
2233ef270ab1SKenneth D. Merry }
2234ef270ab1SKenneth D. Merry ocs_scsi_check_pending(ocs);
2235ef270ab1SKenneth D. Merry }
2236ef270ab1SKenneth D. Merry
2237ef270ab1SKenneth D. Merry /**
2238ef270ab1SKenneth D. Merry * @ingroup scsi_api_base
2239ef270ab1SKenneth D. Merry * @brief Initiate initiator read IO.
2240ef270ab1SKenneth D. Merry *
2241ef270ab1SKenneth D. Merry * @par Description
2242ef270ab1SKenneth D. Merry * This call is made by an initiator-client to send a SCSI read command. The payload
2243ef270ab1SKenneth D. Merry * for the command is given by a scatter-gather list @c sgl for @c sgl_count
2244ef270ab1SKenneth D. Merry * entries.
2245ef270ab1SKenneth D. Merry * @n @n
2246ef270ab1SKenneth D. Merry * Upon completion, the callback @b cb is invoked and passed request status.
2247ef270ab1SKenneth D. Merry * If the command completed successfully, the callback is given SCSI response data.
2248ef270ab1SKenneth D. Merry *
2249ef270ab1SKenneth D. Merry * @param node Pointer to the node.
2250ef270ab1SKenneth D. Merry * @param io Pointer to the IO context.
2251ef270ab1SKenneth D. Merry * @param lun LUN value.
2252ef270ab1SKenneth D. Merry * @param cdb Pointer to the CDB.
2253ef270ab1SKenneth D. Merry * @param cdb_len Length of the CDB.
2254ef270ab1SKenneth D. Merry * @param dif_info Pointer to the T10 DIF fields, or NULL if no DIF.
2255ef270ab1SKenneth D. Merry * @param sgl Pointer to the scatter-gather list.
2256ef270ab1SKenneth D. Merry * @param sgl_count Count of the scatter-gather list elements.
2257ef270ab1SKenneth D. Merry * @param wire_len Length of the payload.
2258ef270ab1SKenneth D. Merry * @param cb Completion callback.
2259ef270ab1SKenneth D. Merry * @param arg Application-specified completion callback argument.
2260ef270ab1SKenneth D. Merry *
2261ef270ab1SKenneth D. Merry * @return Returns 0 on success, or a negative error code value on failure.
2262ef270ab1SKenneth D. Merry */
2263ef270ab1SKenneth D. Merry int32_t
ocs_scsi_send_rd_io(ocs_node_t * node,ocs_io_t * io,uint64_t lun,void * cdb,uint32_t cdb_len,ocs_scsi_dif_info_t * dif_info,ocs_scsi_sgl_t * sgl,uint32_t sgl_count,uint32_t wire_len,ocs_scsi_rsp_io_cb_t cb,void * arg,uint32_t flags)2264ef270ab1SKenneth D. Merry ocs_scsi_send_rd_io(ocs_node_t *node, ocs_io_t *io, uint64_t lun, void *cdb, uint32_t cdb_len,
2265ef270ab1SKenneth D. Merry ocs_scsi_dif_info_t *dif_info,
2266ef270ab1SKenneth D. Merry ocs_scsi_sgl_t *sgl, uint32_t sgl_count, uint32_t wire_len,
226788364968SAlexander Motin ocs_scsi_rsp_io_cb_t cb, void *arg, uint32_t flags)
2268ef270ab1SKenneth D. Merry {
2269ef270ab1SKenneth D. Merry int32_t rc;
2270ef270ab1SKenneth D. Merry
2271ef270ab1SKenneth D. Merry rc = ocs_scsi_send_io(OCS_HW_IO_INITIATOR_READ, node, io, lun, 0, cdb, cdb_len, dif_info, sgl, sgl_count,
227288364968SAlexander Motin wire_len, 0, cb, arg, flags);
2273ef270ab1SKenneth D. Merry
2274ef270ab1SKenneth D. Merry return rc;
2275ef270ab1SKenneth D. Merry }
2276ef270ab1SKenneth D. Merry
2277ef270ab1SKenneth D. Merry /**
2278ef270ab1SKenneth D. Merry * @ingroup scsi_api_base
2279ef270ab1SKenneth D. Merry * @brief Initiate initiator write IO.
2280ef270ab1SKenneth D. Merry *
2281ef270ab1SKenneth D. Merry * @par Description
2282ef270ab1SKenneth D. Merry * This call is made by an initiator-client to send a SCSI write command. The payload
2283ef270ab1SKenneth D. Merry * for the command is given by a scatter-gather list @c sgl for @c sgl_count
2284ef270ab1SKenneth D. Merry * entries.
2285ef270ab1SKenneth D. Merry * @n @n
2286ef270ab1SKenneth D. Merry * Upon completion, the callback @c cb is invoked and passed request status. If the command
2287ef270ab1SKenneth D. Merry * completed successfully, the callback is given SCSI response data.
2288ef270ab1SKenneth D. Merry *
2289ef270ab1SKenneth D. Merry * @param node Pointer to the node.
2290ef270ab1SKenneth D. Merry * @param io Pointer to IO context.
2291ef270ab1SKenneth D. Merry * @param lun LUN value.
2292ef270ab1SKenneth D. Merry * @param cdb Pointer to the CDB.
2293ef270ab1SKenneth D. Merry * @param cdb_len Length of the CDB.
2294ef270ab1SKenneth D. Merry * @param dif_info Pointer to the T10 DIF fields, or NULL if no DIF.
2295ef270ab1SKenneth D. Merry * @param sgl Pointer to the scatter-gather list.
2296ef270ab1SKenneth D. Merry * @param sgl_count Count of the scatter-gather list elements.
2297ef270ab1SKenneth D. Merry * @param wire_len Length of the payload.
2298ef270ab1SKenneth D. Merry * @param cb Completion callback.
2299ef270ab1SKenneth D. Merry * @param arg Application-specified completion callback argument.
2300ef270ab1SKenneth D. Merry *
2301ef270ab1SKenneth D. Merry * @return Returns 0 on success, or a negative error code value on failure.
2302ef270ab1SKenneth D. Merry */
ocs_scsi_send_wr_io(ocs_node_t * node,ocs_io_t * io,uint64_t lun,void * cdb,uint32_t cdb_len,ocs_scsi_dif_info_t * dif_info,ocs_scsi_sgl_t * sgl,uint32_t sgl_count,uint32_t wire_len,ocs_scsi_rsp_io_cb_t cb,void * arg,uint32_t flags)2303ef270ab1SKenneth D. Merry int32_t ocs_scsi_send_wr_io(ocs_node_t *node, ocs_io_t *io, uint64_t lun, void *cdb, uint32_t cdb_len,
2304ef270ab1SKenneth D. Merry ocs_scsi_dif_info_t *dif_info,
2305ef270ab1SKenneth D. Merry ocs_scsi_sgl_t *sgl, uint32_t sgl_count, uint32_t wire_len,
230688364968SAlexander Motin ocs_scsi_rsp_io_cb_t cb, void *arg, uint32_t flags)
2307ef270ab1SKenneth D. Merry {
2308ef270ab1SKenneth D. Merry int32_t rc;
2309ef270ab1SKenneth D. Merry
2310ef270ab1SKenneth D. Merry rc = ocs_scsi_send_io(OCS_HW_IO_INITIATOR_WRITE, node, io, lun, 0, cdb, cdb_len, dif_info, sgl, sgl_count,
231188364968SAlexander Motin wire_len, 0, cb, arg, flags);
2312ef270ab1SKenneth D. Merry
2313ef270ab1SKenneth D. Merry return rc;
2314ef270ab1SKenneth D. Merry }
2315ef270ab1SKenneth D. Merry
2316ef270ab1SKenneth D. Merry /**
2317ef270ab1SKenneth D. Merry * @ingroup scsi_api_base
2318ef270ab1SKenneth D. Merry * @brief Initiate initiator write IO.
2319ef270ab1SKenneth D. Merry *
2320ef270ab1SKenneth D. Merry * @par Description
2321ef270ab1SKenneth D. Merry * This call is made by an initiator-client to send a SCSI write command. The payload
2322ef270ab1SKenneth D. Merry * for the command is given by a scatter-gather list @c sgl for @c sgl_count
2323ef270ab1SKenneth D. Merry * entries.
2324ef270ab1SKenneth D. Merry * @n @n
2325ef270ab1SKenneth D. Merry * Upon completion, the callback @c cb is invoked and passed request status. If the command
2326ef270ab1SKenneth D. Merry * completed successfully, the callback is given SCSI response data.
2327ef270ab1SKenneth D. Merry *
2328ef270ab1SKenneth D. Merry * @param node Pointer to the node.
2329ef270ab1SKenneth D. Merry * @param io Pointer to IO context.
2330ef270ab1SKenneth D. Merry * @param lun LUN value.
2331ef270ab1SKenneth D. Merry * @param cdb Pointer to the CDB.
2332ef270ab1SKenneth D. Merry * @param cdb_len Length of the CDB.
2333ef270ab1SKenneth D. Merry * @param dif_info Pointer to the T10 DIF fields, or NULL if no DIF.
2334ef270ab1SKenneth D. Merry * @param sgl Pointer to the scatter-gather list.
2335ef270ab1SKenneth D. Merry * @param sgl_count Count of the scatter-gather list elements.
2336ef270ab1SKenneth D. Merry * @param wire_len Length of the payload.
2337ef270ab1SKenneth D. Merry * @param first_burst Number of first burst bytes to send.
2338ef270ab1SKenneth D. Merry * @param cb Completion callback.
2339ef270ab1SKenneth D. Merry * @param arg Application-specified completion callback argument.
2340ef270ab1SKenneth D. Merry *
2341ef270ab1SKenneth D. Merry * @return Returns 0 on success, or a negative error code value on failure.
2342ef270ab1SKenneth D. Merry */
2343ef270ab1SKenneth D. Merry int32_t
ocs_scsi_send_wr_io_first_burst(ocs_node_t * node,ocs_io_t * io,uint64_t lun,void * cdb,uint32_t cdb_len,ocs_scsi_dif_info_t * dif_info,ocs_scsi_sgl_t * sgl,uint32_t sgl_count,uint32_t wire_len,uint32_t first_burst,ocs_scsi_rsp_io_cb_t cb,void * arg,uint32_t flags)2344ef270ab1SKenneth D. Merry ocs_scsi_send_wr_io_first_burst(ocs_node_t *node, ocs_io_t *io, uint64_t lun, void *cdb, uint32_t cdb_len,
2345ef270ab1SKenneth D. Merry ocs_scsi_dif_info_t *dif_info,
2346ef270ab1SKenneth D. Merry ocs_scsi_sgl_t *sgl, uint32_t sgl_count, uint32_t wire_len, uint32_t first_burst,
234788364968SAlexander Motin ocs_scsi_rsp_io_cb_t cb, void *arg, uint32_t flags)
2348ef270ab1SKenneth D. Merry {
2349ef270ab1SKenneth D. Merry int32_t rc;
2350ef270ab1SKenneth D. Merry
2351ef270ab1SKenneth D. Merry rc = ocs_scsi_send_io(OCS_HW_IO_INITIATOR_WRITE, node, io, lun, 0, cdb, cdb_len, dif_info, sgl, sgl_count,
235288364968SAlexander Motin wire_len, 0, cb, arg, flags);
2353ef270ab1SKenneth D. Merry
2354ef270ab1SKenneth D. Merry return rc;
2355ef270ab1SKenneth D. Merry }
2356ef270ab1SKenneth D. Merry
2357ef270ab1SKenneth D. Merry /**
2358ef270ab1SKenneth D. Merry * @ingroup scsi_api_base
2359ef270ab1SKenneth D. Merry * @brief Initiate initiator SCSI command with no data.
2360ef270ab1SKenneth D. Merry *
2361ef270ab1SKenneth D. Merry * @par Description
2362ef270ab1SKenneth D. Merry * This call is made by an initiator-client to send a SCSI command with no data.
2363ef270ab1SKenneth D. Merry * @n @n
2364ef270ab1SKenneth D. Merry * Upon completion, the callback @c cb is invoked and passed request status. If the command
2365ef270ab1SKenneth D. Merry * completed successfully, the callback is given SCSI response data.
2366ef270ab1SKenneth D. Merry *
2367ef270ab1SKenneth D. Merry * @param node Pointer to the node.
2368ef270ab1SKenneth D. Merry * @param io Pointer to the IO context.
2369ef270ab1SKenneth D. Merry * @param lun LUN value.
2370ef270ab1SKenneth D. Merry * @param cdb Pointer to the CDB.
2371ef270ab1SKenneth D. Merry * @param cdb_len Length of the CDB.
2372ef270ab1SKenneth D. Merry * @param cb Completion callback.
2373ef270ab1SKenneth D. Merry * @param arg Application-specified completion callback argument.
2374ef270ab1SKenneth D. Merry *
2375ef270ab1SKenneth D. Merry * @return Returns 0 on success, or a negative error code value on failure.
2376ef270ab1SKenneth D. Merry */
ocs_scsi_send_nodata_io(ocs_node_t * node,ocs_io_t * io,uint64_t lun,void * cdb,uint32_t cdb_len,ocs_scsi_rsp_io_cb_t cb,void * arg,uint32_t flags)2377ef270ab1SKenneth D. Merry int32_t ocs_scsi_send_nodata_io(ocs_node_t *node, ocs_io_t *io, uint64_t lun, void *cdb, uint32_t cdb_len,
237888364968SAlexander Motin ocs_scsi_rsp_io_cb_t cb, void *arg, uint32_t flags)
2379ef270ab1SKenneth D. Merry {
2380ef270ab1SKenneth D. Merry int32_t rc;
2381ef270ab1SKenneth D. Merry
238288364968SAlexander Motin rc = ocs_scsi_send_io(OCS_HW_IO_INITIATOR_NODATA, node, io, lun, 0, cdb, cdb_len, NULL, NULL, 0, 0, 0, cb, arg, flags);
2383ef270ab1SKenneth D. Merry
2384ef270ab1SKenneth D. Merry return rc;
2385ef270ab1SKenneth D. Merry }
2386ef270ab1SKenneth D. Merry /**
2387ef270ab1SKenneth D. Merry * @ingroup scsi_api_base
2388ef270ab1SKenneth D. Merry * @brief Initiate initiator task management operation.
2389ef270ab1SKenneth D. Merry *
2390ef270ab1SKenneth D. Merry * @par Description
2391ef270ab1SKenneth D. Merry * This command is used to send a SCSI task management function command. If the command
2392ef270ab1SKenneth D. Merry * requires it (QUERY_TASK_SET for example), a payload may be associated with the command.
2393ef270ab1SKenneth D. Merry * If no payload is required, then @c sgl_count may be zero and @c sgl is ignored.
2394ef270ab1SKenneth D. Merry * @n @n
2395ef270ab1SKenneth D. Merry * Upon completion @c cb is invoked with status and SCSI response data.
2396ef270ab1SKenneth D. Merry *
2397ef270ab1SKenneth D. Merry * @param node Pointer to the node.
2398ef270ab1SKenneth D. Merry * @param io Pointer to the IO context.
2399ef270ab1SKenneth D. Merry * @param io_to_abort Pointer to the IO context to abort in the
2400ef270ab1SKenneth D. Merry * case of OCS_SCSI_TMF_ABORT_TASK. Note: this can point to the
2401ef270ab1SKenneth D. Merry * same the same ocs_io_t as @c io, provided that @c io does not
2402ef270ab1SKenneth D. Merry * have any outstanding work requests.
2403ef270ab1SKenneth D. Merry * @param lun LUN value.
2404ef270ab1SKenneth D. Merry * @param tmf Task management command.
2405ef270ab1SKenneth D. Merry * @param sgl Pointer to the scatter-gather list.
2406ef270ab1SKenneth D. Merry * @param sgl_count Count of the scatter-gather list elements.
2407ef270ab1SKenneth D. Merry * @param len Length of the payload.
2408ef270ab1SKenneth D. Merry * @param cb Completion callback.
2409ef270ab1SKenneth D. Merry * @param arg Application-specified completion callback argument.
2410ef270ab1SKenneth D. Merry *
2411ef270ab1SKenneth D. Merry * @return Returns 0 on success, or a negative error code value on failure.
2412ef270ab1SKenneth D. Merry */
2413ef270ab1SKenneth D. Merry int32_t
ocs_scsi_send_tmf(ocs_node_t * node,ocs_io_t * io,ocs_io_t * io_to_abort,uint64_t lun,ocs_scsi_tmf_cmd_e tmf,ocs_scsi_sgl_t * sgl,uint32_t sgl_count,uint32_t len,ocs_scsi_rsp_io_cb_t cb,void * arg)2414ef270ab1SKenneth D. Merry ocs_scsi_send_tmf(ocs_node_t *node, ocs_io_t *io, ocs_io_t *io_to_abort, uint64_t lun, ocs_scsi_tmf_cmd_e tmf,
2415ef270ab1SKenneth D. Merry ocs_scsi_sgl_t *sgl, uint32_t sgl_count, uint32_t len, ocs_scsi_rsp_io_cb_t cb, void *arg)
2416ef270ab1SKenneth D. Merry {
2417ef270ab1SKenneth D. Merry int32_t rc;
2418ef270ab1SKenneth D. Merry ocs_assert(io, -1);
2419ef270ab1SKenneth D. Merry
2420ef270ab1SKenneth D. Merry if (tmf == OCS_SCSI_TMF_ABORT_TASK) {
2421ef270ab1SKenneth D. Merry ocs_assert(io_to_abort, -1);
2422ef270ab1SKenneth D. Merry
2423ef270ab1SKenneth D. Merry /* take a reference on IO being aborted */
2424ef270ab1SKenneth D. Merry if ((ocs_ref_get_unless_zero(&io_to_abort->ref) == 0)) {
2425ef270ab1SKenneth D. Merry /* command no longer active */
2426ef270ab1SKenneth D. Merry scsi_io_printf(io, "command no longer active\n");
2427ef270ab1SKenneth D. Merry return -1;
2428ef270ab1SKenneth D. Merry }
2429ef270ab1SKenneth D. Merry /* generic io fields have already been populated */
2430ef270ab1SKenneth D. Merry
2431ef270ab1SKenneth D. Merry /* abort-specific fields */
2432ef270ab1SKenneth D. Merry io->io_type = OCS_IO_TYPE_ABORT;
2433ef270ab1SKenneth D. Merry io->display_name = "abort_task";
2434ef270ab1SKenneth D. Merry io->io_to_abort = io_to_abort;
2435ef270ab1SKenneth D. Merry io->send_abts = TRUE;
2436ef270ab1SKenneth D. Merry io->scsi_ini_cb = cb;
2437ef270ab1SKenneth D. Merry io->scsi_ini_cb_arg = arg;
2438ef270ab1SKenneth D. Merry
2439ef270ab1SKenneth D. Merry /* now dispatch IO */
2440ef270ab1SKenneth D. Merry rc = ocs_scsi_io_dispatch_abort(io, ocs_scsi_abort_io_cb);
2441ef270ab1SKenneth D. Merry if (rc) {
2442ef270ab1SKenneth D. Merry scsi_io_printf(io, "Failed to dispatch abort\n");
2443ef270ab1SKenneth D. Merry ocs_ref_put(&io->ref); /* ocs_ref_get(): same function */
2444ef270ab1SKenneth D. Merry }
2445ef270ab1SKenneth D. Merry } else {
2446ef270ab1SKenneth D. Merry io->display_name = "tmf";
2447ef270ab1SKenneth D. Merry rc = ocs_scsi_send_io(OCS_HW_IO_INITIATOR_READ, node, io, lun, tmf, NULL, 0, NULL,
244888364968SAlexander Motin sgl, sgl_count, len, 0, cb, arg, 0);
2449ef270ab1SKenneth D. Merry }
2450ef270ab1SKenneth D. Merry
2451ef270ab1SKenneth D. Merry return rc;
2452ef270ab1SKenneth D. Merry }
2453ef270ab1SKenneth D. Merry
2454ef270ab1SKenneth D. Merry /**
2455ef270ab1SKenneth D. Merry * @ingroup scsi_api_base
2456ef270ab1SKenneth D. Merry * @brief Send an FCP IO.
2457ef270ab1SKenneth D. Merry *
2458ef270ab1SKenneth D. Merry * @par Description
2459ef270ab1SKenneth D. Merry * An FCP read/write IO command, with optional task management flags, is sent to @c node.
2460ef270ab1SKenneth D. Merry *
2461ef270ab1SKenneth D. Merry * @param type HW IO type to send.
2462ef270ab1SKenneth D. Merry * @param node Pointer to the node destination of the IO.
2463ef270ab1SKenneth D. Merry * @param io Pointer to the IO context.
2464ef270ab1SKenneth D. Merry * @param lun LUN value.
2465ef270ab1SKenneth D. Merry * @param tmf Task management command.
2466ef270ab1SKenneth D. Merry * @param cdb Pointer to the SCSI CDB.
2467ef270ab1SKenneth D. Merry * @param cdb_len Length of the CDB, in bytes.
2468ef270ab1SKenneth D. Merry * @param dif_info Pointer to the T10 DIF fields, or NULL if no DIF.
2469ef270ab1SKenneth D. Merry * @param sgl Pointer to the scatter-gather list.
2470ef270ab1SKenneth D. Merry * @param sgl_count Number of SGL entries in SGL.
2471ef270ab1SKenneth D. Merry * @param wire_len Payload length, in bytes, of data on wire.
2472ef270ab1SKenneth D. Merry * @param first_burst Number of first burst bytes to send.
2473ef270ab1SKenneth D. Merry * @param cb Completion callback.
2474ef270ab1SKenneth D. Merry * @param arg Application-specified completion callback argument.
2475ef270ab1SKenneth D. Merry *
2476ef270ab1SKenneth D. Merry * @return Returns 0 on success, or a negative error code value on failure.
2477ef270ab1SKenneth D. Merry */
2478ef270ab1SKenneth D. Merry
2479ef270ab1SKenneth D. Merry /* tc: could elminiate LUN, as it's part of the IO structure */
2480ef270ab1SKenneth D. Merry
ocs_scsi_send_io(ocs_hw_io_type_e type,ocs_node_t * node,ocs_io_t * io,uint64_t lun,ocs_scsi_tmf_cmd_e tmf,uint8_t * cdb,uint32_t cdb_len,ocs_scsi_dif_info_t * dif_info,ocs_scsi_sgl_t * sgl,uint32_t sgl_count,uint32_t wire_len,uint32_t first_burst,ocs_scsi_rsp_io_cb_t cb,void * arg,uint32_t flags)2481ef270ab1SKenneth D. Merry static int32_t ocs_scsi_send_io(ocs_hw_io_type_e type, ocs_node_t *node, ocs_io_t *io, uint64_t lun,
2482ef270ab1SKenneth D. Merry ocs_scsi_tmf_cmd_e tmf, uint8_t *cdb, uint32_t cdb_len,
2483ef270ab1SKenneth D. Merry ocs_scsi_dif_info_t *dif_info,
2484ef270ab1SKenneth D. Merry ocs_scsi_sgl_t *sgl, uint32_t sgl_count, uint32_t wire_len, uint32_t first_burst,
248588364968SAlexander Motin ocs_scsi_rsp_io_cb_t cb, void *arg, uint32_t flags)
2486ef270ab1SKenneth D. Merry {
2487ef270ab1SKenneth D. Merry int32_t rc;
2488ef270ab1SKenneth D. Merry ocs_t *ocs;
2489ef270ab1SKenneth D. Merry fcp_cmnd_iu_t *cmnd;
2490ef270ab1SKenneth D. Merry uint32_t cmnd_bytes = 0;
2491ef270ab1SKenneth D. Merry uint32_t *fcp_dl;
2492ef270ab1SKenneth D. Merry uint8_t tmf_flags = 0;
2493ef270ab1SKenneth D. Merry
2494ef270ab1SKenneth D. Merry ocs_assert(io->node, -1);
2495ef270ab1SKenneth D. Merry ocs_assert(io->node == node, -1);
2496ef270ab1SKenneth D. Merry ocs_assert(io, -1);
2497ef270ab1SKenneth D. Merry ocs = io->ocs;
2498ef270ab1SKenneth D. Merry ocs_assert(cb, -1);
2499ef270ab1SKenneth D. Merry
2500ef270ab1SKenneth D. Merry io->sgl_count = sgl_count;
2501ef270ab1SKenneth D. Merry
2502ef270ab1SKenneth D. Merry /* Copy SGL if needed */
2503ef270ab1SKenneth D. Merry if (sgl != io->sgl) {
2504ef270ab1SKenneth D. Merry ocs_assert(sgl_count <= io->sgl_allocated, -1);
2505ef270ab1SKenneth D. Merry ocs_memcpy(io->sgl, sgl, sizeof(*io->sgl) * sgl_count);
2506ef270ab1SKenneth D. Merry }
2507ef270ab1SKenneth D. Merry
2508ef270ab1SKenneth D. Merry /* save initiator and target task tags for debugging */
2509ef270ab1SKenneth D. Merry io->tgt_task_tag = 0xffff;
2510ef270ab1SKenneth D. Merry
2511ef270ab1SKenneth D. Merry io->wire_len = wire_len;
2512ef270ab1SKenneth D. Merry io->hio_type = type;
2513ef270ab1SKenneth D. Merry
2514ef270ab1SKenneth D. Merry if (OCS_LOG_ENABLE_SCSI_TRACE(ocs)) {
2515ef270ab1SKenneth D. Merry char buf[80];
2516ef270ab1SKenneth D. Merry ocs_textbuf_t txtbuf;
2517ef270ab1SKenneth D. Merry uint32_t i;
2518ef270ab1SKenneth D. Merry
2519ef270ab1SKenneth D. Merry ocs_textbuf_init(ocs, &txtbuf, buf, sizeof(buf));
2520ef270ab1SKenneth D. Merry
2521ef270ab1SKenneth D. Merry ocs_textbuf_printf(&txtbuf, "cdb%d: ", cdb_len);
2522ef270ab1SKenneth D. Merry for (i = 0; i < cdb_len; i ++) {
2523ef270ab1SKenneth D. Merry ocs_textbuf_printf(&txtbuf, "%02X%s", cdb[i], (i == (cdb_len-1)) ? "" : " ");
2524ef270ab1SKenneth D. Merry }
2525ef270ab1SKenneth D. Merry scsi_io_printf(io, "%s len %d, %s\n", (io->hio_type == OCS_HW_IO_INITIATOR_READ) ? "read" :
2526ef270ab1SKenneth D. Merry (io->hio_type == OCS_HW_IO_INITIATOR_WRITE) ? "write" : "", io->wire_len,
2527ef270ab1SKenneth D. Merry ocs_textbuf_get_buffer(&txtbuf));
2528ef270ab1SKenneth D. Merry }
2529ef270ab1SKenneth D. Merry
2530ef270ab1SKenneth D. Merry ocs_assert(io->cmdbuf.virt, -1);
2531ef270ab1SKenneth D. Merry
2532ef270ab1SKenneth D. Merry cmnd = io->cmdbuf.virt;
2533ef270ab1SKenneth D. Merry
2534ef270ab1SKenneth D. Merry ocs_assert(sizeof(*cmnd) <= io->cmdbuf.size, -1);
2535ef270ab1SKenneth D. Merry
2536ef270ab1SKenneth D. Merry ocs_memset(cmnd, 0, sizeof(*cmnd));
2537ef270ab1SKenneth D. Merry
2538ef270ab1SKenneth D. Merry /* Default FCP_CMND IU doesn't include additional CDB bytes but does include FCP_DL */
2539ef270ab1SKenneth D. Merry cmnd_bytes = sizeof(fcp_cmnd_iu_t) - sizeof(cmnd->fcp_cdb_and_dl) + sizeof(uint32_t);
2540ef270ab1SKenneth D. Merry
2541ef270ab1SKenneth D. Merry fcp_dl = (uint32_t*)(&(cmnd->fcp_cdb_and_dl));
2542ef270ab1SKenneth D. Merry
2543ef270ab1SKenneth D. Merry if (cdb) {
2544ef270ab1SKenneth D. Merry if (cdb_len <= 16) {
2545ef270ab1SKenneth D. Merry ocs_memcpy(cmnd->fcp_cdb, cdb, cdb_len);
2546ef270ab1SKenneth D. Merry } else {
2547ef270ab1SKenneth D. Merry uint32_t addl_cdb_bytes;
2548ef270ab1SKenneth D. Merry
2549ef270ab1SKenneth D. Merry ocs_memcpy(cmnd->fcp_cdb, cdb, 16);
2550ef270ab1SKenneth D. Merry addl_cdb_bytes = cdb_len - 16;
2551ef270ab1SKenneth D. Merry ocs_memcpy(cmnd->fcp_cdb_and_dl, &(cdb[16]), addl_cdb_bytes);
2552ef270ab1SKenneth D. Merry /* additional_fcp_cdb_length is in words, not bytes */
2553ef270ab1SKenneth D. Merry cmnd->additional_fcp_cdb_length = (addl_cdb_bytes + 3) / 4;
2554ef270ab1SKenneth D. Merry fcp_dl += cmnd->additional_fcp_cdb_length;
2555ef270ab1SKenneth D. Merry
2556ef270ab1SKenneth D. Merry /* Round up additional CDB bytes */
2557ef270ab1SKenneth D. Merry cmnd_bytes += (addl_cdb_bytes + 3) & ~0x3;
2558ef270ab1SKenneth D. Merry }
2559ef270ab1SKenneth D. Merry }
2560ef270ab1SKenneth D. Merry
2561ef270ab1SKenneth D. Merry be64enc(cmnd->fcp_lun, CAM_EXTLUN_BYTE_SWIZZLE(lun));
2562ef270ab1SKenneth D. Merry
2563ef270ab1SKenneth D. Merry if (node->fcp2device) {
2564ef270ab1SKenneth D. Merry if(ocs_get_crn(node, &cmnd->command_reference_number,
2565ef270ab1SKenneth D. Merry lun)) {
2566ef270ab1SKenneth D. Merry return -1;
2567ef270ab1SKenneth D. Merry }
2568ef270ab1SKenneth D. Merry }
256988364968SAlexander Motin if (flags & OCS_SCSI_CMD_HEAD_OF_QUEUE)
257088364968SAlexander Motin cmnd->task_attribute = FCP_TASK_ATTR_HEAD_OF_QUEUE;
257188364968SAlexander Motin else if (flags & OCS_SCSI_CMD_ORDERED)
257288364968SAlexander Motin cmnd->task_attribute = FCP_TASK_ATTR_ORDERED;
257388364968SAlexander Motin else if (flags & OCS_SCSI_CMD_UNTAGGED)
257488364968SAlexander Motin cmnd->task_attribute = FCP_TASK_ATTR_UNTAGGED;
257588364968SAlexander Motin else if (flags & OCS_SCSI_CMD_ACA)
257688364968SAlexander Motin cmnd->task_attribute = FCP_TASK_ATTR_ACA;
257788364968SAlexander Motin else
257888364968SAlexander Motin cmnd->task_attribute = FCP_TASK_ATTR_SIMPLE;
257988364968SAlexander Motin cmnd->command_priority = (flags & OCS_SCSI_PRIORITY_MASK) >>
258088364968SAlexander Motin OCS_SCSI_PRIORITY_SHIFT;
2581ef270ab1SKenneth D. Merry
2582ef270ab1SKenneth D. Merry switch (tmf) {
2583ef270ab1SKenneth D. Merry case OCS_SCSI_TMF_QUERY_TASK_SET:
2584ef270ab1SKenneth D. Merry tmf_flags = FCP_QUERY_TASK_SET;
2585ef270ab1SKenneth D. Merry break;
2586ef270ab1SKenneth D. Merry case OCS_SCSI_TMF_ABORT_TASK_SET:
2587ef270ab1SKenneth D. Merry tmf_flags = FCP_ABORT_TASK_SET;
2588ef270ab1SKenneth D. Merry break;
2589ef270ab1SKenneth D. Merry case OCS_SCSI_TMF_CLEAR_TASK_SET:
2590ef270ab1SKenneth D. Merry tmf_flags = FCP_CLEAR_TASK_SET;
2591ef270ab1SKenneth D. Merry break;
2592ef270ab1SKenneth D. Merry case OCS_SCSI_TMF_QUERY_ASYNCHRONOUS_EVENT:
2593ef270ab1SKenneth D. Merry tmf_flags = FCP_QUERY_ASYNCHRONOUS_EVENT;
2594ef270ab1SKenneth D. Merry break;
2595ef270ab1SKenneth D. Merry case OCS_SCSI_TMF_LOGICAL_UNIT_RESET:
2596ef270ab1SKenneth D. Merry tmf_flags = FCP_LOGICAL_UNIT_RESET;
2597ef270ab1SKenneth D. Merry break;
2598ef270ab1SKenneth D. Merry case OCS_SCSI_TMF_CLEAR_ACA:
2599ef270ab1SKenneth D. Merry tmf_flags = FCP_CLEAR_ACA;
2600ef270ab1SKenneth D. Merry break;
2601ef270ab1SKenneth D. Merry case OCS_SCSI_TMF_TARGET_RESET:
2602ef270ab1SKenneth D. Merry tmf_flags = FCP_TARGET_RESET;
2603ef270ab1SKenneth D. Merry break;
2604ef270ab1SKenneth D. Merry default:
2605ef270ab1SKenneth D. Merry tmf_flags = 0;
2606ef270ab1SKenneth D. Merry }
2607ef270ab1SKenneth D. Merry cmnd->task_management_flags = tmf_flags;
2608ef270ab1SKenneth D. Merry
2609ef270ab1SKenneth D. Merry *fcp_dl = ocs_htobe32(io->wire_len);
2610ef270ab1SKenneth D. Merry
2611ef270ab1SKenneth D. Merry switch (io->hio_type) {
2612ef270ab1SKenneth D. Merry case OCS_HW_IO_INITIATOR_READ:
2613ef270ab1SKenneth D. Merry cmnd->rddata = 1;
2614ef270ab1SKenneth D. Merry break;
2615ef270ab1SKenneth D. Merry case OCS_HW_IO_INITIATOR_WRITE:
2616ef270ab1SKenneth D. Merry cmnd->wrdata = 1;
2617ef270ab1SKenneth D. Merry break;
2618ef270ab1SKenneth D. Merry case OCS_HW_IO_INITIATOR_NODATA:
2619ef270ab1SKenneth D. Merry /* sets neither */
2620ef270ab1SKenneth D. Merry break;
2621ef270ab1SKenneth D. Merry default:
2622ef270ab1SKenneth D. Merry ocs_log_test(ocs, "bad IO type %d\n", io->hio_type);
2623ef270ab1SKenneth D. Merry return -1;
2624ef270ab1SKenneth D. Merry }
2625ef270ab1SKenneth D. Merry
2626ef270ab1SKenneth D. Merry rc = ocs_scsi_convert_dif_info(ocs, dif_info, &io->hw_dif);
2627ef270ab1SKenneth D. Merry if (rc) {
2628ef270ab1SKenneth D. Merry return rc;
2629ef270ab1SKenneth D. Merry }
2630ef270ab1SKenneth D. Merry
2631ef270ab1SKenneth D. Merry io->scsi_ini_cb = cb;
2632ef270ab1SKenneth D. Merry io->scsi_ini_cb_arg = arg;
2633ef270ab1SKenneth D. Merry
2634ef270ab1SKenneth D. Merry /* set command and response buffers in the iparam */
2635ef270ab1SKenneth D. Merry io->iparam.fcp_ini.cmnd = &io->cmdbuf;
2636ef270ab1SKenneth D. Merry io->iparam.fcp_ini.cmnd_size = cmnd_bytes;
2637ef270ab1SKenneth D. Merry io->iparam.fcp_ini.rsp = &io->rspbuf;
2638ef270ab1SKenneth D. Merry io->iparam.fcp_ini.flags = 0;
2639ef270ab1SKenneth D. Merry io->iparam.fcp_ini.dif_oper = io->hw_dif.dif;
2640ef270ab1SKenneth D. Merry io->iparam.fcp_ini.blk_size = io->hw_dif.blk_size;
2641ef270ab1SKenneth D. Merry io->iparam.fcp_ini.timeout = io->timeout;
2642ef270ab1SKenneth D. Merry io->iparam.fcp_ini.first_burst = first_burst;
2643ef270ab1SKenneth D. Merry
2644ef270ab1SKenneth D. Merry return ocs_scsi_io_dispatch(io, ocs_initiator_io_cb);
2645ef270ab1SKenneth D. Merry }
2646ef270ab1SKenneth D. Merry
2647ef270ab1SKenneth D. Merry /**
2648ef270ab1SKenneth D. Merry * @ingroup scsi_api_base
2649ef270ab1SKenneth D. Merry * @brief Callback for an aborted IO.
2650ef270ab1SKenneth D. Merry *
2651ef270ab1SKenneth D. Merry * @par Description
2652ef270ab1SKenneth D. Merry * Callback function invoked upon completion of an IO abort request.
2653ef270ab1SKenneth D. Merry *
2654ef270ab1SKenneth D. Merry * @param hio HW IO context.
2655ef270ab1SKenneth D. Merry * @param rnode Remote node.
2656ef270ab1SKenneth D. Merry * @param len Response length.
2657ef270ab1SKenneth D. Merry * @param status Completion status.
2658ef270ab1SKenneth D. Merry * @param ext_status Extended completion status.
2659ef270ab1SKenneth D. Merry * @param arg Application-specific callback, usually IO context.
2660ef270ab1SKenneth D. Merry
2661ef270ab1SKenneth D. Merry * @return Returns 0 on success, or a negative error code value on failure.
2662ef270ab1SKenneth D. Merry */
2663ef270ab1SKenneth D. Merry
2664ef270ab1SKenneth D. Merry static int32_t
ocs_scsi_abort_io_cb(struct ocs_hw_io_s * hio,ocs_remote_node_t * rnode,uint32_t len,int32_t status,uint32_t ext_status,void * arg)2665ef270ab1SKenneth D. Merry ocs_scsi_abort_io_cb(struct ocs_hw_io_s *hio, ocs_remote_node_t *rnode, uint32_t len, int32_t status,
2666ef270ab1SKenneth D. Merry uint32_t ext_status, void *arg)
2667ef270ab1SKenneth D. Merry {
2668ef270ab1SKenneth D. Merry ocs_io_t *io = arg;
2669ef270ab1SKenneth D. Merry ocs_t *ocs;
2670ef270ab1SKenneth D. Merry ocs_scsi_io_status_e scsi_status = OCS_SCSI_STATUS_GOOD;
2671ef270ab1SKenneth D. Merry
2672ef270ab1SKenneth D. Merry ocs_assert(io, -1);
2673ef270ab1SKenneth D. Merry ocs_assert(ocs_io_busy(io), -1);
2674ef270ab1SKenneth D. Merry ocs_assert(io->ocs, -1);
2675ef270ab1SKenneth D. Merry ocs_assert(io->io_to_abort, -1);
2676ef270ab1SKenneth D. Merry ocs = io->ocs;
2677ef270ab1SKenneth D. Merry
2678ef270ab1SKenneth D. Merry ocs_log_debug(ocs, "status %d ext %d\n", status, ext_status);
2679ef270ab1SKenneth D. Merry
2680ef270ab1SKenneth D. Merry /* done with IO to abort */
2681ef270ab1SKenneth D. Merry ocs_ref_put(&io->io_to_abort->ref); /* ocs_ref_get(): ocs_scsi_send_tmf() */
2682ef270ab1SKenneth D. Merry
2683ef270ab1SKenneth D. Merry ocs_scsi_io_free_ovfl(io);
2684ef270ab1SKenneth D. Merry
2685ef270ab1SKenneth D. Merry switch (status) {
2686ef270ab1SKenneth D. Merry case SLI4_FC_WCQE_STATUS_SUCCESS:
2687ef270ab1SKenneth D. Merry scsi_status = OCS_SCSI_STATUS_GOOD;
2688ef270ab1SKenneth D. Merry break;
2689ef270ab1SKenneth D. Merry case SLI4_FC_WCQE_STATUS_LOCAL_REJECT:
2690ef270ab1SKenneth D. Merry if (ext_status == SLI4_FC_LOCAL_REJECT_ABORT_REQUESTED) {
2691ef270ab1SKenneth D. Merry scsi_status = OCS_SCSI_STATUS_ABORTED;
2692ef270ab1SKenneth D. Merry } else if (ext_status == SLI4_FC_LOCAL_REJECT_NO_XRI) {
2693ef270ab1SKenneth D. Merry scsi_status = OCS_SCSI_STATUS_NO_IO;
2694ef270ab1SKenneth D. Merry } else if (ext_status == SLI4_FC_LOCAL_REJECT_ABORT_IN_PROGRESS) {
2695ef270ab1SKenneth D. Merry scsi_status = OCS_SCSI_STATUS_ABORT_IN_PROGRESS;
2696ef270ab1SKenneth D. Merry } else {
2697ef270ab1SKenneth D. Merry ocs_log_test(ocs, "Unhandled local reject 0x%x/0x%x\n", status, ext_status);
2698ef270ab1SKenneth D. Merry scsi_status = OCS_SCSI_STATUS_ERROR;
2699ef270ab1SKenneth D. Merry }
2700ef270ab1SKenneth D. Merry break;
2701ef270ab1SKenneth D. Merry default:
2702ef270ab1SKenneth D. Merry scsi_status = OCS_SCSI_STATUS_ERROR;
2703ef270ab1SKenneth D. Merry break;
2704ef270ab1SKenneth D. Merry }
2705ef270ab1SKenneth D. Merry
2706ef270ab1SKenneth D. Merry if (io->scsi_ini_cb) {
2707ef270ab1SKenneth D. Merry (*io->scsi_ini_cb)(io, scsi_status, NULL, 0, io->scsi_ini_cb_arg);
2708ef270ab1SKenneth D. Merry } else {
2709ef270ab1SKenneth D. Merry ocs_scsi_io_free(io);
2710ef270ab1SKenneth D. Merry }
2711ef270ab1SKenneth D. Merry
2712ef270ab1SKenneth D. Merry ocs_scsi_check_pending(ocs);
2713ef270ab1SKenneth D. Merry return 0;
2714ef270ab1SKenneth D. Merry }
2715ef270ab1SKenneth D. Merry
2716ef270ab1SKenneth D. Merry /**
2717ef270ab1SKenneth D. Merry * @ingroup scsi_api_base
2718ef270ab1SKenneth D. Merry * @brief Return SCSI API integer valued property.
2719ef270ab1SKenneth D. Merry *
2720ef270ab1SKenneth D. Merry * @par Description
2721ef270ab1SKenneth D. Merry * This function is called by a target-server or initiator-client to
2722ef270ab1SKenneth D. Merry * retrieve an integer valued property.
2723ef270ab1SKenneth D. Merry *
2724ef270ab1SKenneth D. Merry * @param ocs Pointer to the ocs.
2725ef270ab1SKenneth D. Merry * @param prop Property value to return.
2726ef270ab1SKenneth D. Merry *
2727ef270ab1SKenneth D. Merry * @return Returns a value, or 0 if invalid property was requested.
2728ef270ab1SKenneth D. Merry */
2729ef270ab1SKenneth D. Merry uint32_t
ocs_scsi_get_property(ocs_t * ocs,ocs_scsi_property_e prop)2730ef270ab1SKenneth D. Merry ocs_scsi_get_property(ocs_t *ocs, ocs_scsi_property_e prop)
2731ef270ab1SKenneth D. Merry {
2732ef270ab1SKenneth D. Merry ocs_xport_t *xport = ocs->xport;
2733ef270ab1SKenneth D. Merry uint32_t val;
2734ef270ab1SKenneth D. Merry
2735ef270ab1SKenneth D. Merry switch (prop) {
2736ef270ab1SKenneth D. Merry case OCS_SCSI_MAX_SGE:
2737ef270ab1SKenneth D. Merry if (0 == ocs_hw_get(&ocs->hw, OCS_HW_MAX_SGE, &val)) {
2738ef270ab1SKenneth D. Merry return val;
2739ef270ab1SKenneth D. Merry }
2740ef270ab1SKenneth D. Merry break;
2741ef270ab1SKenneth D. Merry case OCS_SCSI_MAX_SGL:
2742ef270ab1SKenneth D. Merry if (ocs->ctrlmask & OCS_CTRLMASK_TEST_CHAINED_SGLS) {
2743ef270ab1SKenneth D. Merry /*
2744ef270ab1SKenneth D. Merry * If chain SGL test-mode is enabled, the number of HW SGEs
2745ef270ab1SKenneth D. Merry * has been limited; report back original max.
2746ef270ab1SKenneth D. Merry */
2747ef270ab1SKenneth D. Merry return (OCS_FC_MAX_SGL);
2748ef270ab1SKenneth D. Merry }
2749ef270ab1SKenneth D. Merry if (0 == ocs_hw_get(&ocs->hw, OCS_HW_N_SGL, &val)) {
2750ef270ab1SKenneth D. Merry return val;
2751ef270ab1SKenneth D. Merry }
2752ef270ab1SKenneth D. Merry break;
2753ef270ab1SKenneth D. Merry case OCS_SCSI_MAX_IOS:
2754ef270ab1SKenneth D. Merry return ocs_io_pool_allocated(xport->io_pool);
2755ef270ab1SKenneth D. Merry case OCS_SCSI_DIF_CAPABLE:
2756ef270ab1SKenneth D. Merry if (0 == ocs_hw_get(&ocs->hw, OCS_HW_DIF_CAPABLE, &val)) {
2757ef270ab1SKenneth D. Merry return val;
2758ef270ab1SKenneth D. Merry }
2759ef270ab1SKenneth D. Merry break;
2760ef270ab1SKenneth D. Merry case OCS_SCSI_MAX_FIRST_BURST:
2761ef270ab1SKenneth D. Merry return 0;
2762ef270ab1SKenneth D. Merry case OCS_SCSI_DIF_MULTI_SEPARATE:
2763ef270ab1SKenneth D. Merry if (ocs_hw_get(&ocs->hw, OCS_HW_DIF_MULTI_SEPARATE, &val) == 0) {
2764ef270ab1SKenneth D. Merry return val;
2765ef270ab1SKenneth D. Merry }
2766ef270ab1SKenneth D. Merry break;
2767ef270ab1SKenneth D. Merry case OCS_SCSI_ENABLE_TASK_SET_FULL:
2768ef270ab1SKenneth D. Merry /* Return FALSE if we are send frame capable */
2769ef270ab1SKenneth D. Merry if (ocs_hw_get(&ocs->hw, OCS_HW_SEND_FRAME_CAPABLE, &val) == 0) {
2770ef270ab1SKenneth D. Merry return ! val;
2771ef270ab1SKenneth D. Merry }
2772ef270ab1SKenneth D. Merry break;
2773ef270ab1SKenneth D. Merry default:
2774ef270ab1SKenneth D. Merry break;
2775ef270ab1SKenneth D. Merry }
2776ef270ab1SKenneth D. Merry
2777ef270ab1SKenneth D. Merry ocs_log_debug(ocs, "invalid property request %d\n", prop);
2778ef270ab1SKenneth D. Merry return 0;
2779ef270ab1SKenneth D. Merry }
2780ef270ab1SKenneth D. Merry
2781ef270ab1SKenneth D. Merry /**
2782ef270ab1SKenneth D. Merry * @ingroup scsi_api_base
2783ef270ab1SKenneth D. Merry * @brief Return a property pointer.
2784ef270ab1SKenneth D. Merry *
2785ef270ab1SKenneth D. Merry * @par Description
2786ef270ab1SKenneth D. Merry * This function is called by a target-server or initiator-client to
2787ef270ab1SKenneth D. Merry * retrieve a pointer to the requested property.
2788ef270ab1SKenneth D. Merry *
2789ef270ab1SKenneth D. Merry * @param ocs Pointer to the ocs.
2790ef270ab1SKenneth D. Merry * @param prop Property value to return.
2791ef270ab1SKenneth D. Merry *
2792ef270ab1SKenneth D. Merry * @return Returns pointer to the requested property, or NULL otherwise.
2793ef270ab1SKenneth D. Merry */
ocs_scsi_get_property_ptr(ocs_t * ocs,ocs_scsi_property_e prop)2794ef270ab1SKenneth D. Merry void *ocs_scsi_get_property_ptr(ocs_t *ocs, ocs_scsi_property_e prop)
2795ef270ab1SKenneth D. Merry {
2796ef270ab1SKenneth D. Merry void *rc = NULL;
2797ef270ab1SKenneth D. Merry
2798ef270ab1SKenneth D. Merry switch (prop) {
2799ef270ab1SKenneth D. Merry case OCS_SCSI_WWNN:
2800ef270ab1SKenneth D. Merry rc = ocs_hw_get_ptr(&ocs->hw, OCS_HW_WWN_NODE);
2801ef270ab1SKenneth D. Merry break;
2802ef270ab1SKenneth D. Merry case OCS_SCSI_WWPN:
2803ef270ab1SKenneth D. Merry rc = ocs_hw_get_ptr(&ocs->hw, OCS_HW_WWN_PORT);
2804ef270ab1SKenneth D. Merry break;
2805ef270ab1SKenneth D. Merry case OCS_SCSI_PORTNUM:
2806ef270ab1SKenneth D. Merry rc = ocs_hw_get_ptr(&ocs->hw, OCS_HW_PORTNUM);
2807ef270ab1SKenneth D. Merry break;
2808ef270ab1SKenneth D. Merry case OCS_SCSI_BIOS_VERSION_STRING:
2809ef270ab1SKenneth D. Merry rc = ocs_hw_get_ptr(&ocs->hw, OCS_HW_BIOS_VERSION_STRING);
2810ef270ab1SKenneth D. Merry break;
2811ef270ab1SKenneth D. Merry case OCS_SCSI_SERIALNUMBER:
2812ef270ab1SKenneth D. Merry {
2813ef270ab1SKenneth D. Merry uint8_t *pvpd;
2814ef270ab1SKenneth D. Merry uint32_t vpd_len;
2815ef270ab1SKenneth D. Merry
2816ef270ab1SKenneth D. Merry if (ocs_hw_get(&ocs->hw, OCS_HW_VPD_LEN, &vpd_len)) {
2817ef270ab1SKenneth D. Merry ocs_log_test(ocs, "Can't get VPD length\n");
2818ef270ab1SKenneth D. Merry rc = "\012sn-unknown";
2819ef270ab1SKenneth D. Merry break;
2820ef270ab1SKenneth D. Merry }
2821ef270ab1SKenneth D. Merry
2822ef270ab1SKenneth D. Merry pvpd = ocs_hw_get_ptr(&ocs->hw, OCS_HW_VPD);
2823ef270ab1SKenneth D. Merry if (pvpd) {
2824ef270ab1SKenneth D. Merry rc = ocs_find_vpd(pvpd, vpd_len, "SN");
2825ef270ab1SKenneth D. Merry }
2826ef270ab1SKenneth D. Merry
2827ef270ab1SKenneth D. Merry if (rc == NULL ||
2828ef270ab1SKenneth D. Merry ocs_strlen(rc) == 0) {
2829ef270ab1SKenneth D. Merry /* Note: VPD is missing, using wwnn for serial number */
2830ef270ab1SKenneth D. Merry scsi_log(ocs, "Note: VPD is missing, using wwnn for serial number\n");
2831ef270ab1SKenneth D. Merry /* Use the last 32 bits of the WWN */
2832ef270ab1SKenneth D. Merry if ((ocs == NULL) || (ocs->domain == NULL) || (ocs->domain->sport == NULL)) {
2833ef270ab1SKenneth D. Merry rc = "\011(Unknown)";
2834ef270ab1SKenneth D. Merry } else {
2835ef270ab1SKenneth D. Merry rc = &ocs->domain->sport->wwnn_str[8];
2836ef270ab1SKenneth D. Merry }
2837ef270ab1SKenneth D. Merry }
2838ef270ab1SKenneth D. Merry break;
2839ef270ab1SKenneth D. Merry }
2840ef270ab1SKenneth D. Merry case OCS_SCSI_PARTNUMBER:
2841ef270ab1SKenneth D. Merry {
2842ef270ab1SKenneth D. Merry uint8_t *pvpd;
2843ef270ab1SKenneth D. Merry uint32_t vpd_len;
2844ef270ab1SKenneth D. Merry
2845ef270ab1SKenneth D. Merry if (ocs_hw_get(&ocs->hw, OCS_HW_VPD_LEN, &vpd_len)) {
2846ef270ab1SKenneth D. Merry ocs_log_test(ocs, "Can't get VPD length\n");
2847ef270ab1SKenneth D. Merry rc = "\012pn-unknown";
2848ef270ab1SKenneth D. Merry break;
2849ef270ab1SKenneth D. Merry }
2850ef270ab1SKenneth D. Merry pvpd = ocs_hw_get_ptr(&ocs->hw, OCS_HW_VPD);
2851ef270ab1SKenneth D. Merry if (pvpd) {
2852ef270ab1SKenneth D. Merry rc = ocs_find_vpd(pvpd, vpd_len, "PN");
2853ef270ab1SKenneth D. Merry if (rc == NULL) {
2854ef270ab1SKenneth D. Merry rc = "\012pn-unknown";
2855ef270ab1SKenneth D. Merry }
2856ef270ab1SKenneth D. Merry } else {
2857ef270ab1SKenneth D. Merry rc = "\012pn-unknown";
2858ef270ab1SKenneth D. Merry }
2859ef270ab1SKenneth D. Merry break;
2860ef270ab1SKenneth D. Merry }
2861ef270ab1SKenneth D. Merry default:
2862ef270ab1SKenneth D. Merry break;
2863ef270ab1SKenneth D. Merry }
2864ef270ab1SKenneth D. Merry
2865ef270ab1SKenneth D. Merry if (rc == NULL) {
2866ef270ab1SKenneth D. Merry ocs_log_debug(ocs, "invalid property request %d\n", prop);
2867ef270ab1SKenneth D. Merry }
2868ef270ab1SKenneth D. Merry return rc;
2869ef270ab1SKenneth D. Merry }
2870ef270ab1SKenneth D. Merry
2871ef270ab1SKenneth D. Merry /**
2872ef270ab1SKenneth D. Merry * @ingroup scsi_api_base
2873ef270ab1SKenneth D. Merry * @brief Notify that delete initiator is complete.
2874ef270ab1SKenneth D. Merry *
2875ef270ab1SKenneth D. Merry * @par Description
2876ef270ab1SKenneth D. Merry * Sent by the target-server to notify the base driver that the work started from
2877ef270ab1SKenneth D. Merry * ocs_scsi_del_initiator() is now complete and that it is safe for the node to
2878ef270ab1SKenneth D. Merry * release the rest of its resources.
2879ef270ab1SKenneth D. Merry *
2880ef270ab1SKenneth D. Merry * @param node Pointer to the node.
2881ef270ab1SKenneth D. Merry *
2882ef270ab1SKenneth D. Merry * @return None.
2883ef270ab1SKenneth D. Merry */
2884ef270ab1SKenneth D. Merry void
ocs_scsi_del_initiator_complete(ocs_node_t * node)2885ef270ab1SKenneth D. Merry ocs_scsi_del_initiator_complete(ocs_node_t *node)
2886ef270ab1SKenneth D. Merry {
2887ef270ab1SKenneth D. Merry /* Notify the node to resume */
2888ef270ab1SKenneth D. Merry ocs_node_post_event(node, OCS_EVT_NODE_DEL_INI_COMPLETE, NULL);
2889ef270ab1SKenneth D. Merry }
2890ef270ab1SKenneth D. Merry
2891ef270ab1SKenneth D. Merry /**
2892ef270ab1SKenneth D. Merry * @ingroup scsi_api_base
2893ef270ab1SKenneth D. Merry * @brief Notify that delete target is complete.
2894ef270ab1SKenneth D. Merry *
2895ef270ab1SKenneth D. Merry * @par Description
2896ef270ab1SKenneth D. Merry * Sent by the initiator-client to notify the base driver that the work started from
2897ef270ab1SKenneth D. Merry * ocs_scsi_del_target() is now complete and that it is safe for the node to
2898ef270ab1SKenneth D. Merry * release the rest of its resources.
2899ef270ab1SKenneth D. Merry *
2900ef270ab1SKenneth D. Merry * @param node Pointer to the node.
2901ef270ab1SKenneth D. Merry *
2902ef270ab1SKenneth D. Merry * @return None.
2903ef270ab1SKenneth D. Merry */
2904ef270ab1SKenneth D. Merry void
ocs_scsi_del_target_complete(ocs_node_t * node)2905ef270ab1SKenneth D. Merry ocs_scsi_del_target_complete(ocs_node_t *node)
2906ef270ab1SKenneth D. Merry {
2907ef270ab1SKenneth D. Merry /* Notify the node to resume */
2908ef270ab1SKenneth D. Merry ocs_node_post_event(node, OCS_EVT_NODE_DEL_TGT_COMPLETE, NULL);
2909ef270ab1SKenneth D. Merry }
2910ef270ab1SKenneth D. Merry
2911ef270ab1SKenneth D. Merry /**
2912ef270ab1SKenneth D. Merry * @brief Update transferred count
2913ef270ab1SKenneth D. Merry *
2914ef270ab1SKenneth D. Merry * @par Description
2915ef270ab1SKenneth D. Merry * Updates io->transferred, as required when using first burst, when the amount
2916ef270ab1SKenneth D. Merry * of first burst data processed differs from the amount of first burst
2917ef270ab1SKenneth D. Merry * data received.
2918ef270ab1SKenneth D. Merry *
2919ef270ab1SKenneth D. Merry * @param io Pointer to the io object.
2920ef270ab1SKenneth D. Merry * @param transferred Number of bytes transferred out of first burst buffers.
2921ef270ab1SKenneth D. Merry *
2922ef270ab1SKenneth D. Merry * @return None.
2923ef270ab1SKenneth D. Merry */
2924ef270ab1SKenneth D. Merry void
ocs_scsi_update_first_burst_transferred(ocs_io_t * io,uint32_t transferred)2925ef270ab1SKenneth D. Merry ocs_scsi_update_first_burst_transferred(ocs_io_t *io, uint32_t transferred)
2926ef270ab1SKenneth D. Merry {
2927ef270ab1SKenneth D. Merry io->transferred = transferred;
2928ef270ab1SKenneth D. Merry }
2929ef270ab1SKenneth D. Merry
2930ef270ab1SKenneth D. Merry /**
2931ef270ab1SKenneth D. Merry * @brief Register bounce callback for multi-threading.
2932ef270ab1SKenneth D. Merry *
2933ef270ab1SKenneth D. Merry * @par Description
2934ef270ab1SKenneth D. Merry * Register the back end bounce function.
2935ef270ab1SKenneth D. Merry *
2936ef270ab1SKenneth D. Merry * @param ocs Pointer to device object.
2937ef270ab1SKenneth D. Merry * @param fctn Function pointer of bounce function.
2938ef270ab1SKenneth D. Merry *
2939ef270ab1SKenneth D. Merry * @return None.
2940ef270ab1SKenneth D. Merry */
2941ef270ab1SKenneth D. Merry void
ocs_scsi_register_bounce(ocs_t * ocs,void (* fctn)(void (* fctn)(void * arg),void * arg,uint32_t s_id,uint32_t d_id,uint32_t ox_id))2942ef270ab1SKenneth D. Merry ocs_scsi_register_bounce(ocs_t *ocs, void(*fctn)(void(*fctn)(void *arg), void *arg, uint32_t s_id, uint32_t d_id,
2943ef270ab1SKenneth D. Merry uint32_t ox_id))
2944ef270ab1SKenneth D. Merry {
2945ef270ab1SKenneth D. Merry ocs_hw_rtn_e rc;
2946ef270ab1SKenneth D. Merry
2947ef270ab1SKenneth D. Merry rc = ocs_hw_callback(&ocs->hw, OCS_HW_CB_BOUNCE, fctn, NULL);
2948ef270ab1SKenneth D. Merry if (rc) {
2949ef270ab1SKenneth D. Merry ocs_log_test(ocs, "ocs_hw_callback(OCS_HW_CB_BOUNCE) failed: %d\n", rc);
2950ef270ab1SKenneth D. Merry }
2951ef270ab1SKenneth D. Merry }
2952