/*
* Copyright (c) 2004-2009 Voltaire, Inc. All rights reserved.
* Copyright (c) 2002-2012 Mellanox Technologies LTD. All rights reserved.
* Copyright (c) 1996-2003 Intel Corporation. All rights reserved.
*
* This software is available to you under a choice of one of two
* licenses. You may choose to be licensed under the terms of the GNU
* General Public License (GPL) Version 2, available from the file
* COPYING in the main directory of this source tree, or the
* OpenIB.org BSD license below:
*
* Redistribution and use in source and binary forms, with or
* without modification, are permitted provided that the following
* conditions are met:
*
* - Redistributions of source code must retain the above
* copyright notice, this list of conditions and the following
* disclaimer.
*
* - Redistributions in binary form must reproduce the above
* copyright notice, this list of conditions and the following
* disclaimer in the documentation and/or other materials
* provided with the distribution.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
* NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS
* BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN
* ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
* CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
* SOFTWARE.
*
*/
/*
* Abstract:
* Implementation of opensm pkey manipulation functions.
*/
#if HAVE_CONFIG_H
# include <config.h>
#endif /* HAVE_CONFIG_H */
#include <stdlib.h>
#include <stdio.h>
#include <string.h>
#include <complib/cl_debug.h>
#include <iba/ib_types.h>
#include <opensm/osm_file_ids.h>
#define FILE_ID OSM_FILE_PKEY_C
#include <opensm/osm_pkey.h>
#include <opensm/osm_log.h>
#include <opensm/osm_port.h>
#include <opensm/osm_node.h>
#include <opensm/osm_switch.h>
#include <opensm/osm_helper.h>
void osm_pkey_tbl_construct(IN osm_pkey_tbl_t * p_pkey_tbl)
{
cl_map_construct(&p_pkey_tbl->accum_pkeys);
cl_ptr_vector_construct(&p_pkey_tbl->blocks);
cl_ptr_vector_construct(&p_pkey_tbl->new_blocks);
cl_map_construct(&p_pkey_tbl->keys);
}
void osm_pkey_tbl_destroy(IN osm_pkey_tbl_t * p_pkey_tbl)
{
ib_pkey_table_t *p_block;
uint16_t num_blocks, i;
num_blocks = (uint16_t) (cl_ptr_vector_get_size(&p_pkey_tbl->blocks));
for (i = 0; i < num_blocks; i++)
if ((p_block = cl_ptr_vector_get(&p_pkey_tbl->blocks, i)))
free(p_block);
cl_ptr_vector_destroy(&p_pkey_tbl->blocks);
num_blocks =
(uint16_t) (cl_ptr_vector_get_size(&p_pkey_tbl->new_blocks));
for (i = 0; i < num_blocks; i++)
if ((p_block = cl_ptr_vector_get(&p_pkey_tbl->new_blocks, i)))
free(p_block);
cl_ptr_vector_destroy(&p_pkey_tbl->new_blocks);
cl_map_remove_all(&p_pkey_tbl->accum_pkeys);
cl_map_destroy(&p_pkey_tbl->accum_pkeys);
cl_map_remove_all(&p_pkey_tbl->keys);
cl_map_destroy(&p_pkey_tbl->keys);
}
ib_api_status_t osm_pkey_tbl_init(IN osm_pkey_tbl_t * p_pkey_tbl)
{
cl_map_init(&p_pkey_tbl->accum_pkeys, 1);
cl_ptr_vector_init(&p_pkey_tbl->blocks, 0, 1);
cl_ptr_vector_init(&p_pkey_tbl->new_blocks, 0, 1);
cl_map_init(&p_pkey_tbl->keys, 1);
cl_qlist_init(&p_pkey_tbl->pending);
p_pkey_tbl->last_pkey_idx = 0;
p_pkey_tbl->used_blocks = 0;
p_pkey_tbl->max_blocks = 0;
p_pkey_tbl->rcv_blocks_cnt = 0;
p_pkey_tbl->indx0_pkey = 0;
return IB_SUCCESS;
}
void osm_pkey_tbl_init_new_blocks(IN const osm_pkey_tbl_t * p_pkey_tbl)
{
ib_pkey_table_t *p_block;
size_t b, num_blocks = cl_ptr_vector_get_size(&p_pkey_tbl->new_blocks);
for (b = 0; b < num_blocks; b++)
if ((p_block = cl_ptr_vector_get(&p_pkey_tbl->new_blocks, b)))
memset(p_block, 0, sizeof(*p_block));
}
ib_api_status_t osm_pkey_tbl_set(IN osm_pkey_tbl_t * p_pkey_tbl,
IN uint16_t block, IN ib_pkey_table_t * p_tbl,
IN boolean_t allow_both_pkeys)
{
uint16_t b, i;
ib_pkey_table_t *p_pkey_block;
uint16_t *p_prev_pkey;
ib_net16_t pkey, pkey_base;
/* make sure the block is allocated */
if (cl_ptr_vector_get_size(&p_pkey_tbl->blocks) > block)
p_pkey_block =
(ib_pkey_table_t *) cl_ptr_vector_get(&p_pkey_tbl->blocks,
block);
else
p_pkey_block = NULL;
if (!p_pkey_block) {
p_pkey_block =
(ib_pkey_table_t *) malloc(sizeof(ib_pkey_table_t));
if (!p_pkey_block)
return IB_ERROR;
memset(p_pkey_block, 0, sizeof(ib_pkey_table_t));
cl_ptr_vector_set(&p_pkey_tbl->blocks, block, p_pkey_block);
}
/* sets the block values */
memcpy(p_pkey_block, p_tbl, sizeof(ib_pkey_table_t));
/*
NOTE: as the spec does not require uniqueness of PKeys in
tables there is no other way but to refresh the entire keys map.
Moreover, if the same key exists but with full membership it should
have precedence over the key with limited membership !
*/
cl_map_remove_all(&p_pkey_tbl->keys);
for (b = 0; b < cl_ptr_vector_get_size(&p_pkey_tbl->blocks); b++) {
p_pkey_block = cl_ptr_vector_get(&p_pkey_tbl->blocks, b);
if (!p_pkey_block)
continue;
for (i = 0; i < IB_NUM_PKEY_ELEMENTS_IN_BLOCK; i++) {
pkey = p_pkey_block->pkey_entry[i];
if (ib_pkey_is_invalid(pkey))
continue;
if (allow_both_pkeys)
pkey_base = pkey;
else
pkey_base = ib_pkey_get_base(pkey);
/*
If allow_both_pkeys is FALSE,
ignore the PKey Full Member bit in the key but store
the pointer to the table element as the map value
*/
p_prev_pkey = cl_map_get(&p_pkey_tbl->keys, pkey_base);
/* we only insert if no previous or it is not full member and allow_both_pkeys is FALSE */
if ((p_prev_pkey == NULL) ||
(allow_both_pkeys == FALSE &&
cl_ntoh16(*p_prev_pkey) < cl_ntoh16(pkey)))
cl_map_insert(&p_pkey_tbl->keys, pkey_base,
&(p_pkey_block->pkey_entry[i])
);
}
}
return IB_SUCCESS;
}
/*
Store the given pkey (along with it's overall index) in the accum_pkeys array.
*/
cl_status_t osm_pkey_tbl_set_accum_pkeys(IN osm_pkey_tbl_t * p_pkey_tbl,
IN uint16_t pkey,
IN uint16_t pkey_idx)
{
uintptr_t ptr = pkey_idx + 1; /* 0 means not found so bias by 1 */
uint16_t *p_prev_pkey_idx;
cl_status_t status = CL_SUCCESS;
if (pkey_idx >= p_pkey_tbl->last_pkey_idx)
p_pkey_tbl->last_pkey_idx = pkey_idx + 1;
p_prev_pkey_idx = (uint16_t *) cl_map_get(&p_pkey_tbl->accum_pkeys, pkey);
if (p_prev_pkey_idx != NULL)
cl_map_remove(&p_pkey_tbl->accum_pkeys, pkey);
if (cl_map_insert(&p_pkey_tbl->accum_pkeys, pkey, (void *) ptr) == NULL)
status = CL_INSUFFICIENT_MEMORY;
return status;
}
/*
+ * Find the next last pkey index
+*/
void osm_pkey_find_last_accum_pkey_index(IN osm_pkey_tbl_t * p_pkey_tbl)
{
void *ptr;
uintptr_t pkey_idx_ptr;
uint16_t pkey_idx, last_pkey_idx = 0;
cl_map_iterator_t map_iter = cl_map_head(&p_pkey_tbl->accum_pkeys);
while (map_iter != cl_map_end(&p_pkey_tbl->accum_pkeys)) {
ptr = (uint16_t *) cl_map_obj(map_iter);
CL_ASSERT(ptr);
pkey_idx_ptr = (uintptr_t) ptr;
pkey_idx = pkey_idx_ptr;
if (pkey_idx > last_pkey_idx)
last_pkey_idx = pkey_idx;
map_iter = cl_map_next(map_iter);
}
p_pkey_tbl->last_pkey_idx = last_pkey_idx;
}
/*
Store the given pkey in the "new" blocks array.
Also, make sure the regular block exists.
*/
ib_api_status_t osm_pkey_tbl_set_new_entry(IN osm_pkey_tbl_t * p_pkey_tbl,
IN uint16_t block_idx,
IN uint8_t pkey_idx,
IN uint16_t pkey)
{
ib_pkey_table_t *p_block;
if (!(p_block = osm_pkey_tbl_new_block_get(p_pkey_tbl, block_idx))) {
p_block = (ib_pkey_table_t *) malloc(sizeof(ib_pkey_table_t));
if (!p_block)
return IB_ERROR;
memset(p_block, 0, sizeof(ib_pkey_table_t));
cl_ptr_vector_set(&p_pkey_tbl->new_blocks, block_idx, p_block);
}
p_block->pkey_entry[pkey_idx] = pkey;
if (p_pkey_tbl->used_blocks <= block_idx)
p_pkey_tbl->used_blocks = block_idx + 1;
return IB_SUCCESS;
}
boolean_t osm_pkey_find_next_free_entry(IN osm_pkey_tbl_t * p_pkey_tbl,
OUT uint16_t * p_block_idx,
OUT uint8_t * p_pkey_idx)
{
ib_pkey_table_t *p_new_block;
CL_ASSERT(p_block_idx);
CL_ASSERT(p_pkey_idx);
while (*p_block_idx < p_pkey_tbl->max_blocks) {
if (*p_pkey_idx > IB_NUM_PKEY_ELEMENTS_IN_BLOCK - 1) {
*p_pkey_idx = 0;
(*p_block_idx)++;
if (*p_block_idx >= p_pkey_tbl->max_blocks)
return FALSE;
}
p_new_block =
osm_pkey_tbl_new_block_get(p_pkey_tbl, *p_block_idx);
if (!p_new_block ||
ib_pkey_is_invalid(p_new_block->pkey_entry[*p_pkey_idx]))
return TRUE;
else
(*p_pkey_idx)++;
}
return FALSE;
}
ib_api_status_t osm_pkey_tbl_get_block_and_idx(IN osm_pkey_tbl_t * p_pkey_tbl,
IN uint16_t * p_pkey,
OUT uint16_t * p_block_idx,
OUT uint8_t * p_pkey_idx)
{
uint16_t num_of_blocks;
uint16_t block_index;
ib_pkey_table_t *block;
CL_ASSERT(p_block_idx != NULL);
CL_ASSERT(p_pkey_idx != NULL);
num_of_blocks = (uint16_t) cl_ptr_vector_get_size(&p_pkey_tbl->blocks);
for (block_index = 0; block_index < num_of_blocks; block_index++) {
block = osm_pkey_tbl_block_get(p_pkey_tbl, block_index);
if ((block->pkey_entry <= p_pkey) &&
(p_pkey <
block->pkey_entry + IB_NUM_PKEY_ELEMENTS_IN_BLOCK)) {
*p_block_idx = block_index;
*p_pkey_idx = (uint8_t) (p_pkey - block->pkey_entry);
return IB_SUCCESS;
}
}
return IB_NOT_FOUND;
}
static boolean_t match_pkey(IN const ib_net16_t * pkey1,
IN const ib_net16_t * pkey2)
{
/* if neither pkey is full member - this is not a match */
if (!(ib_pkey_is_full_member(*pkey1) || ib_pkey_is_full_member(*pkey2)))
return FALSE;
/* compare if the bases are the same. if they are - then
this is a match */
if (ib_pkey_get_base(*pkey1) != ib_pkey_get_base(*pkey2))
return FALSE;
return TRUE;
}
boolean_t osm_physp_share_this_pkey(IN const osm_physp_t * p_physp1,
IN const osm_physp_t * p_physp2,
IN ib_net16_t pkey,
IN boolean_t allow_both_pkeys)
{
ib_net16_t *pkey1, *pkey2;
ib_net16_t full_pkey, limited_pkey;
if (allow_both_pkeys) {
full_pkey = pkey | IB_PKEY_TYPE_MASK;
limited_pkey = pkey & ~IB_PKEY_TYPE_MASK;
pkey1 = cl_map_get(&(osm_physp_get_pkey_tbl(p_physp1))->keys,
full_pkey);
if (!pkey1)
pkey1 = cl_map_get(&(osm_physp_get_pkey_tbl(p_physp1))->keys,
limited_pkey);
pkey2 = cl_map_get(&(osm_physp_get_pkey_tbl(p_physp2))->keys,
full_pkey);
if (!pkey2)
pkey2 = cl_map_get(&(osm_physp_get_pkey_tbl(p_physp2))->keys,
limited_pkey);
} else {
pkey1 = cl_map_get(&(osm_physp_get_pkey_tbl(p_physp1))->keys,
ib_pkey_get_base(pkey));
pkey2 = cl_map_get(&(osm_physp_get_pkey_tbl(p_physp2))->keys,
ib_pkey_get_base(pkey));
}
return (pkey1 && pkey2 && match_pkey(pkey1, pkey2));
}
ib_net16_t osm_physp_find_common_pkey(IN const osm_physp_t * p_physp1,
IN const osm_physp_t * p_physp2,
IN boolean_t allow_both_pkeys)
{
ib_net16_t *pkey1, *pkey2;
uint64_t pkey1_base, pkey2_base;
const osm_pkey_tbl_t *pkey_tbl1, *pkey_tbl2;
cl_map_iterator_t map_iter1, map_iter2;
pkey_tbl1 = osm_physp_get_pkey_tbl(p_physp1);
pkey_tbl2 = osm_physp_get_pkey_tbl(p_physp2);
map_iter1 = cl_map_head(&pkey_tbl1->keys);
map_iter2 = cl_map_head(&pkey_tbl2->keys);
/* we rely on the fact the map are sorted by pkey */
while ((map_iter1 != cl_map_end(&pkey_tbl1->keys)) &&
(map_iter2 != cl_map_end(&pkey_tbl2->keys))) {
pkey1 = (ib_net16_t *) cl_map_obj(map_iter1);
pkey2 = (ib_net16_t *) cl_map_obj(map_iter2);
if (match_pkey(pkey1, pkey2))
return *pkey1;
/* advance the lower value if they are not equal */
pkey1_base = cl_map_key(map_iter1);
pkey2_base = cl_map_key(map_iter2);
if (pkey2_base == pkey1_base) {
map_iter1 = cl_map_next(map_iter1);
map_iter2 = cl_map_next(map_iter2);
} else if (pkey2_base < pkey1_base)
map_iter2 = cl_map_next(map_iter2);
else
map_iter1 = cl_map_next(map_iter1);
}
if (!allow_both_pkeys)
return 0;
/*
When using allow_both_pkeys, the keys in pkey tables are the
pkey value including membership bit.
Therefore, in order to complete the search, we also need to
compare port\s 1 full pkeys with port 2 limited pkeys, and
port 2 full pkeys with port 1 full pkeys.
*/
map_iter1 = cl_map_head(&pkey_tbl1->keys);
map_iter2 = cl_map_head(&pkey_tbl2->keys);
/* comparing pkey_tbl1 full with pkey_tbl2 limited */
while ((map_iter1 != cl_map_end(&pkey_tbl1->keys)) &&
(map_iter2 != cl_map_end(&pkey_tbl2->keys))) {
pkey1 = (ib_net16_t *) cl_map_obj(map_iter1);
pkey2 = (ib_net16_t *) cl_map_obj(map_iter2);
if (!ib_pkey_is_full_member(*pkey1)) {
map_iter1 = cl_map_next(map_iter1);
continue;
}
if (ib_pkey_is_full_member(*pkey2)) {
map_iter2 = cl_map_next(map_iter2);
continue;
}
if (match_pkey(pkey1, pkey2))
return *pkey1;
/* advance the lower value if they are not equal */
pkey1_base = ib_pkey_get_base(cl_map_key(map_iter1));
pkey2_base = ib_pkey_get_base(cl_map_key(map_iter2));
if (pkey2_base == pkey1_base) {
map_iter1 = cl_map_next(map_iter1);
map_iter2 = cl_map_next(map_iter2);
} else if (pkey2_base < pkey1_base)
map_iter2 = cl_map_next(map_iter2);
else
map_iter1 = cl_map_next(map_iter1);
}
map_iter1 = cl_map_head(&pkey_tbl1->keys);
map_iter2 = cl_map_head(&pkey_tbl2->keys);
/* comparing pkey_tbl1 limited with pkey_tbl2 full */
while ((map_iter1 != cl_map_end(&pkey_tbl1->keys)) &&
(map_iter2 != cl_map_end(&pkey_tbl2->keys))) {
pkey1 = (ib_net16_t *) cl_map_obj(map_iter1);
pkey2 = (ib_net16_t *) cl_map_obj(map_iter2);
if (ib_pkey_is_full_member(*pkey1)) {
map_iter1 = cl_map_next(map_iter1);
continue;
}
if (!ib_pkey_is_full_member(*pkey2)) {
map_iter2 = cl_map_next(map_iter2);
continue;
}
if (match_pkey(pkey1, pkey2))
return *pkey1;
/* advance the lower value if they are not equal */
pkey1_base = ib_pkey_get_base(cl_map_key(map_iter1));
pkey2_base = ib_pkey_get_base(cl_map_key(map_iter2));
if (pkey2_base == pkey1_base) {
map_iter1 = cl_map_next(map_iter1);
map_iter2 = cl_map_next(map_iter2);
} else if (pkey2_base < pkey1_base)
map_iter2 = cl_map_next(map_iter2);
else
map_iter1 = cl_map_next(map_iter1);
}
return 0;
}
boolean_t osm_physp_share_pkey(IN osm_log_t * p_log,
IN const osm_physp_t * p_physp_1,
IN const osm_physp_t * p_physp_2,
IN boolean_t allow_both_pkeys)
{
const osm_pkey_tbl_t *pkey_tbl1, *pkey_tbl2;
if (p_physp_1 == p_physp_2)
return TRUE;
pkey_tbl1 = osm_physp_get_pkey_tbl(p_physp_1);
pkey_tbl2 = osm_physp_get_pkey_tbl(p_physp_2);
/*
The spec: 10.9.2 does not require each phys port to have PKey Table.
So actually if it does not, we need to use the default port instead.
HACK: meanwhile we will ignore the check
*/
if (cl_is_map_empty(&pkey_tbl1->keys)
|| cl_is_map_empty(&pkey_tbl2->keys))
return TRUE;
return
!ib_pkey_is_invalid(osm_physp_find_common_pkey
(p_physp_1, p_physp_2, allow_both_pkeys));
}
boolean_t osm_port_share_pkey(IN osm_log_t * p_log,
IN const osm_port_t * p_port_1,
IN const osm_port_t * p_port_2,
IN boolean_t allow_both_pkeys)
{
osm_physp_t *p_physp1, *p_physp2;
boolean_t ret;
OSM_LOG_ENTER(p_log);
if (!p_port_1 || !p_port_2) {
ret = FALSE;
goto Exit;
}
p_physp1 = p_port_1->p_physp;
p_physp2 = p_port_2->p_physp;
if (!p_physp1 || !p_physp2) {
ret = FALSE;
goto Exit;
}
ret = osm_physp_share_pkey(p_log, p_physp1, p_physp2, allow_both_pkeys);
Exit:
OSM_LOG_EXIT(p_log);
return ret;
}
boolean_t osm_physp_has_pkey(IN osm_log_t * p_log, IN ib_net16_t pkey,
IN const osm_physp_t * p_physp)
{
ib_net16_t *p_pkey, pkey_base;
const osm_pkey_tbl_t *pkey_tbl;
boolean_t res = FALSE;
OSM_LOG_ENTER(p_log);
OSM_LOG(p_log, OSM_LOG_DEBUG,
"Search for PKey: 0x%04x\n", cl_ntoh16(pkey));
/* if the pkey given is an invalid pkey - return TRUE. */
if (ib_pkey_is_invalid(pkey)) {
OSM_LOG(p_log, OSM_LOG_DEBUG,
"Given invalid PKey - we treat it loosely and allow it\n");
res = TRUE;
goto Exit;
}
pkey_base = ib_pkey_get_base(pkey);
pkey_tbl = osm_physp_get_pkey_tbl(p_physp);
p_pkey = cl_map_get(&pkey_tbl->keys, pkey_base);
if (p_pkey) {
res = TRUE;
OSM_LOG(p_log, OSM_LOG_DEBUG,
"PKey 0x%04x was found\n", cl_ntoh16(pkey));
} else
OSM_LOG(p_log, OSM_LOG_DEBUG,
"PKey 0x%04x was not found\n", cl_ntoh16(pkey));
Exit:
OSM_LOG_EXIT(p_log);
return res;
}
void osm_pkey_tbl_set_indx0_pkey(IN osm_log_t * p_log, IN ib_net16_t pkey,
IN boolean_t full,
OUT osm_pkey_tbl_t * p_pkey_tbl)
{
p_pkey_tbl->indx0_pkey = (full == TRUE) ?
pkey | cl_hton16(0x8000) : pkey;
OSM_LOG(p_log, OSM_LOG_DEBUG, "pkey 0x%04x set at indx0\n",
cl_ntoh16(p_pkey_tbl->indx0_pkey));
}