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|
/*
* CDDL HEADER START
*
* The contents of this file are subject to the terms of the
* Common Development and Distribution License (the "License").
* You may not use this file except in compliance with the License.
*
* You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
* or http://www.opensolaris.org/os/licensing.
* See the License for the specific language governing permissions
* and limitations under the License.
*
* When distributing Covered Code, include this CDDL HEADER in each
* file and include the License file at usr/src/OPENSOLARIS.LICENSE.
* If applicable, add the following below this CDDL HEADER, with the
* fields enclosed by brackets "[]" replaced with your own identifying
* information: Portions Copyright [yyyy] [name of copyright owner]
*
* CDDL HEADER END
*/
/*
* Copyright (c) 2008, 2010, Oracle and/or its affiliates. All rights reserved.
*/
#include <scsi/libses.h>
#include "ses_impl.h"
ses_snap_page_t *
ses_snap_find_page(ses_snap_t *sp, ses2_diag_page_t page, boolean_t ctl)
{
ses_snap_page_t *pp;
for (pp = sp->ss_pages; pp != NULL; pp = pp->ssp_next)
if (pp->ssp_num == page && pp->ssp_control == ctl &&
(pp->ssp_len > 0 || pp->ssp_control))
return (pp);
return (NULL);
}
static int
grow_snap_page(ses_snap_page_t *pp, size_t min)
{
uint8_t *newbuf;
if (min == 0 || min < pp->ssp_alloc)
min = pp->ssp_alloc * 2;
if ((newbuf = ses_realloc(pp->ssp_page, min)) == NULL)
return (-1);
pp->ssp_page = newbuf;
pp->ssp_alloc = min;
bzero(newbuf + pp->ssp_len, pp->ssp_alloc - pp->ssp_len);
return (0);
}
static ses_snap_page_t *
alloc_snap_page(void)
{
ses_snap_page_t *pp;
if ((pp = ses_zalloc(sizeof (ses_snap_page_t))) == NULL)
return (NULL);
if ((pp->ssp_page = ses_zalloc(SES2_MIN_DIAGPAGE_ALLOC)) == NULL) {
ses_free(pp);
return (NULL);
}
pp->ssp_num = -1;
pp->ssp_alloc = SES2_MIN_DIAGPAGE_ALLOC;
return (pp);
}
static void
free_snap_page(ses_snap_page_t *pp)
{
if (pp == NULL)
return;
if (pp->ssp_mmap_base)
(void) munmap(pp->ssp_mmap_base, pp->ssp_mmap_len);
else
ses_free(pp->ssp_page);
ses_free(pp);
}
static void
free_all_snap_pages(ses_snap_t *sp)
{
ses_snap_page_t *pp, *np;
for (pp = sp->ss_pages; pp != NULL; pp = np) {
np = pp->ssp_next;
free_snap_page(pp);
}
sp->ss_pages = NULL;
}
/*
* Grow (if needed) the control page buffer, fill in the page code, page
* length, and generation count, and return a pointer to the page. The
* caller is responsible for filling in the rest of the page data. If 'unique'
* is specified, then a new page instance is created instead of sharing the
* current one.
*/
ses_snap_page_t *
ses_snap_ctl_page(ses_snap_t *sp, ses2_diag_page_t page, size_t dlen,
boolean_t unique)
{
ses_target_t *tp = sp->ss_target;
spc3_diag_page_impl_t *pip;
ses_snap_page_t *pp, *up, **loc;
ses_pagedesc_t *dp;
size_t len;
pp = ses_snap_find_page(sp, page, B_TRUE);
if (pp == NULL) {
(void) ses_set_errno(ESES_NOTSUP);
return (NULL);
}
if (pp->ssp_initialized && !unique)
return (pp);
if (unique) {
/*
* The user has requested a unique instance of the page. Create
* a new ses_snap_page_t instance and chain it off the
* 'ssp_instances' list of the master page. These must be
* appended to the end of the chain, as the order of operations
* may be important (i.e. microcode download).
*/
if ((up = alloc_snap_page()) == NULL)
return (NULL);
up->ssp_num = pp->ssp_num;
up->ssp_control = B_TRUE;
for (loc = &pp->ssp_unique; *loc != NULL;
loc = &(*loc)->ssp_next)
;
*loc = up;
pp = up;
}
dp = ses_get_pagedesc(tp, page, SES_PAGE_CTL);
ASSERT(dp != NULL);
len = dp->spd_ctl_len(sp->ss_n_elem, page, dlen);
if (pp->ssp_alloc < len && grow_snap_page(pp, len) != 0)
return (NULL);
pp->ssp_len = len;
bzero(pp->ssp_page, len);
pp->ssp_initialized = B_TRUE;
pip = (spc3_diag_page_impl_t *)pp->ssp_page;
pip->sdpi_page_code = (uint8_t)page;
SCSI_WRITE16(&pip->sdpi_page_length,
len - offsetof(spc3_diag_page_impl_t, sdpi_data[0]));
if (dp->spd_gcoff != -1)
SCSI_WRITE32((uint8_t *)pip + dp->spd_gcoff, sp->ss_generation);
return (pp);
}
static int
read_status_page(ses_snap_t *sp, ses2_diag_page_t page)
{
libscsi_action_t *ap;
ses_snap_page_t *pp;
ses_target_t *tp;
spc3_diag_page_impl_t *pip;
spc3_receive_diagnostic_results_cdb_t *cp;
uint_t flags;
uint8_t *buf;
size_t alloc;
uint_t retries = 0;
ses2_diag_page_t retpage;
for (pp = sp->ss_pages; pp != NULL; pp = pp->ssp_next)
if (pp->ssp_num == page && !pp->ssp_control)
break;
/*
* No matching page. Since the page number is not under consumer or
* device control, this must be a bug.
*/
ASSERT(pp != NULL);
tp = sp->ss_target;
flags = LIBSCSI_AF_READ | LIBSCSI_AF_SILENT | LIBSCSI_AF_DIAGNOSE |
LIBSCSI_AF_RQSENSE;
again:
ap = libscsi_action_alloc(tp->st_scsi_hdl,
SPC3_CMD_RECEIVE_DIAGNOSTIC_RESULTS, flags, pp->ssp_page,
pp->ssp_alloc);
if (ap == NULL)
return (ses_libscsi_error(tp->st_scsi_hdl, "failed to "
"allocate SCSI action"));
cp = (spc3_receive_diagnostic_results_cdb_t *)
libscsi_action_get_cdb(ap);
cp->rdrc_page_code = pp->ssp_num;
cp->rdrc_pcv = 1;
SCSI_WRITE16(&cp->rdrc_allocation_length,
MIN(pp->ssp_alloc, UINT16_MAX));
if (libscsi_exec(ap, tp->st_target) != 0) {
libscsi_action_free(ap);
return (ses_libscsi_error(tp->st_scsi_hdl,
"receive diagnostic results failed"));
}
if (libscsi_action_get_status(ap) != 0) {
(void) ses_scsi_error(ap,
"receive diagnostic results failed");
libscsi_action_free(ap);
return (-1);
}
(void) libscsi_action_get_buffer(ap, &buf, &alloc, &pp->ssp_len);
libscsi_action_free(ap);
ASSERT(buf == pp->ssp_page);
ASSERT(alloc == pp->ssp_alloc);
if (pp->ssp_alloc - pp->ssp_len < 0x80 && pp->ssp_alloc < UINT16_MAX) {
bzero(pp->ssp_page, pp->ssp_len);
pp->ssp_len = 0;
if (grow_snap_page(pp, 0) != 0)
return (-1);
goto again;
}
if (pp->ssp_len < offsetof(spc3_diag_page_impl_t, sdpi_data)) {
bzero(pp->ssp_page, pp->ssp_len);
pp->ssp_len = 0;
return (ses_error(ESES_BAD_RESPONSE, "target returned "
"truncated page 0x%x (length %d)", page, pp->ssp_len));
}
pip = (spc3_diag_page_impl_t *)buf;
if (pip->sdpi_page_code == page)
return (0);
retpage = pip->sdpi_page_code;
bzero(pp->ssp_page, pp->ssp_len);
pp->ssp_len = 0;
if (retpage == SES2_DIAGPAGE_ENCLOSURE_BUSY) {
if (++retries > LIBSES_MAX_BUSY_RETRIES)
return (ses_error(ESES_BUSY, "too many "
"enclosure busy responses for page 0x%x", page));
goto again;
}
return (ses_error(ESES_BAD_RESPONSE, "target returned page 0x%x "
"instead of the requested page 0x%x", retpage, page));
}
static int
send_control_page(ses_snap_t *sp, ses_snap_page_t *pp)
{
ses_target_t *tp;
libscsi_action_t *ap;
spc3_send_diagnostic_cdb_t *cp;
uint_t flags;
tp = sp->ss_target;
flags = LIBSCSI_AF_WRITE | LIBSCSI_AF_SILENT | LIBSCSI_AF_DIAGNOSE |
LIBSCSI_AF_RQSENSE;
ap = libscsi_action_alloc(tp->st_scsi_hdl, SPC3_CMD_SEND_DIAGNOSTIC,
flags, pp->ssp_page, pp->ssp_len);
if (ap == NULL)
return (ses_libscsi_error(tp->st_scsi_hdl, "failed to "
"allocate SCSI action"));
cp = (spc3_send_diagnostic_cdb_t *)libscsi_action_get_cdb(ap);
cp->sdc_pf = 1;
SCSI_WRITE16(&cp->sdc_parameter_list_length, pp->ssp_len);
if (libscsi_exec(ap, tp->st_target) != 0) {
libscsi_action_free(ap);
return (ses_libscsi_error(tp->st_scsi_hdl,
"SEND DIAGNOSTIC command failed for page 0x%x",
pp->ssp_num));
}
if (libscsi_action_get_status(ap) != 0) {
(void) ses_scsi_error(ap, "SEND DIAGNOSTIC command "
"failed for page 0x%x", pp->ssp_num);
libscsi_action_free(ap);
return (-1);
}
libscsi_action_free(ap);
return (0);
}
static int
pages_skel_create(ses_snap_t *sp)
{
ses_snap_page_t *pp, *np;
ses_target_t *tp = sp->ss_target;
ses2_supported_ses_diag_page_impl_t *pip;
ses2_diag_page_t page;
size_t npages;
size_t pagelen;
off_t i;
ASSERT(sp->ss_pages == NULL);
if ((pp = alloc_snap_page()) == NULL)
return (-1);
pp->ssp_num = SES2_DIAGPAGE_SUPPORTED_PAGES;
pp->ssp_control = B_FALSE;
sp->ss_pages = pp;
if (read_status_page(sp, SES2_DIAGPAGE_SUPPORTED_PAGES) != 0) {
free_snap_page(pp);
sp->ss_pages = NULL;
return (-1);
}
pip = pp->ssp_page;
pagelen = pp->ssp_len;
npages = SCSI_READ16(&pip->sssdpi_page_length);
for (i = 0; i < npages; i++) {
if (!SES_WITHIN_PAGE(pip->sssdpi_pages + i, 1, pip,
pagelen))
break;
page = (ses2_diag_page_t)pip->sssdpi_pages[i];
/*
* Skip the page we already added during the bootstrap.
*/
if (page == SES2_DIAGPAGE_SUPPORTED_PAGES)
continue;
/*
* The end of the page list may be padded with zeros; ignore
* them all.
*/
if (page == 0 && i > 0)
break;
if ((np = alloc_snap_page()) == NULL) {
free_all_snap_pages(sp);
return (-1);
}
np->ssp_num = page;
pp->ssp_next = np;
pp = np;
/*
* Allocate a control page as well, if we can use it.
*/
if (ses_get_pagedesc(tp, page, SES_PAGE_CTL) != NULL) {
if ((np = alloc_snap_page()) == NULL) {
free_all_snap_pages(sp);
return (-1);
}
np->ssp_num = page;
np->ssp_control = B_TRUE;
pp->ssp_next = np;
pp = np;
}
}
return (0);
}
static void
ses_snap_free(ses_snap_t *sp)
{
free_all_snap_pages(sp);
ses_node_teardown(sp->ss_root);
ses_free(sp->ss_nodes);
ses_free(sp);
}
static void
ses_snap_rele_unlocked(ses_snap_t *sp)
{
ses_target_t *tp = sp->ss_target;
if (--sp->ss_refcnt != 0)
return;
if (sp->ss_next != NULL)
sp->ss_next->ss_prev = sp->ss_prev;
if (sp->ss_prev != NULL)
sp->ss_prev->ss_next = sp->ss_next;
else
tp->st_snapshots = sp->ss_next;
ses_snap_free(sp);
}
ses_snap_t *
ses_snap_hold(ses_target_t *tp)
{
ses_snap_t *sp;
(void) pthread_mutex_lock(&tp->st_lock);
sp = tp->st_snapshots;
sp->ss_refcnt++;
(void) pthread_mutex_unlock(&tp->st_lock);
return (sp);
}
void
ses_snap_rele(ses_snap_t *sp)
{
ses_target_t *tp = sp->ss_target;
(void) pthread_mutex_lock(&tp->st_lock);
ses_snap_rele_unlocked(sp);
(void) pthread_mutex_unlock(&tp->st_lock);
}
ses_snap_t *
ses_snap_new(ses_target_t *tp)
{
ses_snap_t *sp;
ses_snap_page_t *pp;
uint32_t gc;
uint_t retries = 0;
ses_pagedesc_t *dp;
size_t pages, pagesize, pagelen;
char *scratch;
boolean_t simple;
if ((sp = ses_zalloc(sizeof (ses_snap_t))) == NULL)
return (NULL);
sp->ss_target = tp;
again:
free_all_snap_pages(sp);
if (pages_skel_create(sp) != 0) {
free(sp);
return (NULL);
}
sp->ss_generation = (uint32_t)-1;
sp->ss_time = gethrtime();
/*
* First check for the short enclosure status diagnostic page and
* determine if this is a simple subenclosure or not.
*/
simple = B_FALSE;
for (pp = sp->ss_pages; pp != NULL; pp = pp->ssp_next) {
if (pp->ssp_num == SES2_DIAGPAGE_SHORT_STATUS)
simple = B_TRUE;
}
for (pp = sp->ss_pages; pp != NULL; pp = pp->ssp_next) {
/*
* We skip all of:
*
* - Control pages
* - Pages we've already filled in
* - Pages we don't understand (those with no descriptor)
*/
if (pp->ssp_len > 0 || pp->ssp_control)
continue;
if ((dp = ses_get_pagedesc(tp, pp->ssp_num,
SES_PAGE_DIAG)) == NULL)
continue;
if (read_status_page(sp, pp->ssp_num) != 0) {
/*
* If this page is required, and this is not a simple
* subenclosure, then fail the entire snapshot.
*/
if (dp->spd_req == SES_REQ_MANDATORY_ALL ||
(dp->spd_req == SES_REQ_MANDATORY_STANDARD &&
!simple)) {
ses_snap_free(sp);
return (NULL);
}
continue;
}
/*
* If the generation code has changed, we don't have a valid
* snapshot. Start over.
*/
if (dp->spd_gcoff != -1 &&
dp->spd_gcoff + 4 <= pp->ssp_len) {
gc = SCSI_READ32((uint8_t *)pp->ssp_page +
dp->spd_gcoff);
if (sp->ss_generation == (uint32_t)-1) {
sp->ss_generation = gc;
} else if (sp->ss_generation != gc) {
if (++retries > LIBSES_MAX_GC_RETRIES) {
(void) ses_error(ESES_TOOMUCHCHANGE,
"too many generation count "
"mismatches: page 0x%x gc %u "
"previous page %u", dp->spd_gcoff,
gc, sp->ss_generation);
ses_snap_free((ses_snap_t *)sp);
return (NULL);
}
goto again;
}
}
}
/*
* The LIBSES_TRUNCATE environment variable is a debugging tool which,
* if set, randomly truncates all pages (except
* SES2_DIAGPAGE_SUPPORTED_PAGES). In order to be truly evil, we
* mmap() each page with enough space after it so we can move the data
* up to the end of a page and unmap the following page so that any
* attempt to read past the end of the page results in a segfault.
*/
if (sp->ss_target->st_truncate) {
pagesize = PAGESIZE;
/*
* Count the maximum number of pages we will need and allocate
* the necessary space.
*/
pages = 0;
for (pp = sp->ss_pages; pp != NULL; pp = pp->ssp_next) {
if (pp->ssp_control || pp->ssp_len == 0)
continue;
pages += (P2ROUNDUP(pp->ssp_len, pagesize) /
pagesize) + 1;
}
if ((scratch = mmap(NULL, pages * pagesize,
PROT_READ | PROT_WRITE, MAP_ANON | MAP_PRIVATE,
-1, 0)) == MAP_FAILED) {
(void) ses_error(ESES_NOMEM,
"failed to mmap() pages for truncation");
ses_snap_free(sp);
return (NULL);
}
for (pp = sp->ss_pages; pp != NULL; pp = pp->ssp_next) {
if (pp->ssp_control || pp->ssp_len == 0)
continue;
pages = P2ROUNDUP(pp->ssp_len, pagesize) / pagesize;
pp->ssp_mmap_base = scratch;
pp->ssp_mmap_len = pages * pagesize;
pagelen = lrand48() % pp->ssp_len;
(void) memcpy(pp->ssp_mmap_base + pp->ssp_mmap_len -
pagelen, pp->ssp_page, pagelen);
ses_free(pp->ssp_page);
pp->ssp_page = pp->ssp_mmap_base + pp->ssp_mmap_len -
pagelen;
pp->ssp_len = pagelen;
(void) munmap(pp->ssp_mmap_base + pages * pagesize,
pagesize);
scratch += (pages + 1) * pagesize;
}
}
if (ses_fill_snap(sp) != 0) {
ses_snap_free(sp);
return (NULL);
}
(void) pthread_mutex_lock(&tp->st_lock);
if (tp->st_snapshots != NULL)
ses_snap_rele_unlocked(tp->st_snapshots);
sp->ss_next = tp->st_snapshots;
if (tp->st_snapshots != NULL)
tp->st_snapshots->ss_prev = sp;
tp->st_snapshots = sp;
sp->ss_refcnt = 2;
(void) pthread_mutex_unlock(&tp->st_lock);
return (sp);
}
int
ses_snap_do_ctl(ses_snap_t *sp)
{
ses_snap_page_t *pp, *up;
int ret = -1;
for (pp = sp->ss_pages; pp != NULL; pp = pp->ssp_next) {
if (!pp->ssp_control)
continue;
if (pp->ssp_initialized && send_control_page(sp, pp) != 0)
goto error;
for (up = pp->ssp_unique; up != NULL; up = up->ssp_next) {
if (send_control_page(sp, up) != 0)
goto error;
}
}
ret = 0;
error:
for (pp = sp->ss_pages; pp != NULL; pp = pp->ssp_next) {
if (!pp->ssp_control)
continue;
pp->ssp_initialized = B_FALSE;
while ((up = pp->ssp_unique) != NULL) {
pp->ssp_unique = up->ssp_next;
free_snap_page(up);
}
}
return (ret);
}
uint32_t
ses_snap_generation(ses_snap_t *sp)
{
return (sp->ss_generation);
}
static ses_walk_action_t
ses_walk_node(ses_node_t *np, ses_walk_f func, void *arg)
{
ses_walk_action_t action;
for (; np != NULL; np = ses_node_sibling(np)) {
action = func(np, arg);
if (action == SES_WALK_ACTION_TERMINATE)
return (SES_WALK_ACTION_TERMINATE);
if (action == SES_WALK_ACTION_PRUNE ||
ses_node_child(np) == NULL)
continue;
if (ses_walk_node(ses_node_child(np), func, arg) ==
SES_WALK_ACTION_TERMINATE)
return (SES_WALK_ACTION_TERMINATE);
}
return (SES_WALK_ACTION_CONTINUE);
}
int
ses_walk(ses_snap_t *sp, ses_walk_f func, void *arg)
{
(void) ses_walk_node(ses_root_node(sp), func, arg);
return (0);
}
/*ARGSUSED*/
static ses_walk_action_t
ses_fill_nodes(ses_node_t *np, void *unused)
{
np->sn_snapshot->ss_nodes[np->sn_id] = np;
return (SES_WALK_ACTION_CONTINUE);
}
/*
* Given an ID returned by ses_node_id(), lookup and return the corresponding
* node in the snapshot. If the snapshot generation count has changed, then
* return failure.
*/
ses_node_t *
ses_node_lookup(ses_snap_t *sp, uint64_t id)
{
uint32_t gen = (id >> 32);
uint32_t idx = (id & 0xFFFFFFFF);
if (sp->ss_generation != gen) {
(void) ses_set_errno(ESES_CHANGED);
return (NULL);
}
if (idx >= sp->ss_n_nodes) {
(void) ses_error(ESES_BAD_NODE,
"no such node in snapshot");
return (NULL);
}
/*
* If this is our first lookup attempt, construct the array for fast
* lookups.
*/
if (sp->ss_nodes == NULL) {
if ((sp->ss_nodes = ses_zalloc(
sp->ss_n_nodes * sizeof (void *))) == NULL)
return (NULL);
(void) ses_walk(sp, ses_fill_nodes, NULL);
}
if (sp->ss_nodes[idx] == NULL)
(void) ses_error(ESES_BAD_NODE,
"no such node in snapshot");
return (sp->ss_nodes[idx]);
}
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