NetBSD/lib/libisns/isns_pdu.c
2018-02-08 09:05:16 +00:00

1336 lines
33 KiB
C

/* $NetBSD: isns_pdu.c,v 1.4 2018/02/08 09:05:17 dholland Exp $ */
/*-
* Copyright (c) 2004,2009 The NetBSD Foundation, Inc.
* All rights reserved.
*
* This code is derived from software contributed to The NetBSD Foundation
* by Wasabi Systems, Inc.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. 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.
*
* THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS
* ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
* TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
* PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS
* BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
* POSSIBILITY OF SUCH DAMAGE.
*/
/*
* isns_pdu.c
*/
#include <sys/cdefs.h>
__RCSID("$NetBSD: isns_pdu.c,v 1.4 2018/02/08 09:05:17 dholland Exp $");
#include <sys/types.h>
#include <sys/param.h>
#include <assert.h>
#include <errno.h>
#include <string.h>
#include "isns.h"
#include "isns_config.h"
/*
* Local function prototypes.
*/
static struct isns_buffer_list_s *isns_lookup_buffer_list(int);
static struct isns_pdu_s *isns_init_pdu(struct isns_buffer_s *,
struct isns_config_s *, uint16_t, uint16_t, uint16_t);
static int isns_add_pdu_payload_data(struct isns_trans_s *, const void *, int);
static void isns_get_tlv_info_advance(struct isns_get_tlv_info_s *);
static int isns_get_tlv_uint32(struct isns_get_tlv_info_s *, uint32_t *);
static int isns_get_tlv_data(struct isns_get_tlv_info_s *, int, void **);
static void isns_add_pdu_list(struct isns_pdu_s **, struct isns_pdu_s *);
static struct isns_buffer_s *isns_get_pdu_head_buffer(struct isns_pdu_s *);
#if 0
static struct isns_buffer_s *isns_get_pdu_tail_buffer(struct isns_pdu_s *);
#endif
static struct isns_buffer_s *isns_get_pdu_active_buffer(struct isns_pdu_s *);
static uint32_t isns_get_next_trans_id(void);
/*
* Buffer pool structures and global (static) var.
*/
struct isns_buffer_list_s {
int buf_size;
int alloc_count;
struct isns_buffer_s *head;
struct isns_buffer_list_s *next;
};
struct isns_buffer_pool_s {
int active;
struct isns_buffer_list_s *list_p;
pthread_mutex_t mutex;
};
static struct isns_buffer_pool_s G_buffer_pool;
/*
* isns_init_buffer_pool - initialize buffer pool for use
*/
void
isns_init_buffer_pool(void)
{
pthread_mutexattr_t mutexattr;
DBG("isns_init_buffer_pool: entered\n");
assert(!G_buffer_pool.active);
pthread_mutexattr_init(&mutexattr);
pthread_mutexattr_settype(&mutexattr, ISNS_MUTEX_TYPE_NORMAL);
pthread_mutex_init(&G_buffer_pool.mutex, &mutexattr);
G_buffer_pool.active = 1;
}
/*
* isns_lookup_buffer_list - locates the pool buffer list for the buf_size
* specified.
*
* Returns: pointer to list in pool containing buf_size buffers
* NULL if no list for size indicated exists
*/
static struct isns_buffer_list_s *
isns_lookup_buffer_list(int buf_size)
{
struct isns_buffer_list_s *list_p;
/*
* WARNING: G_buffer_pool.mutex MUST already be locked.
*/
list_p = G_buffer_pool.list_p;
while (list_p != NULL) {
if (list_p->buf_size == buf_size)
break;
list_p = list_p->next;
}
return list_p;
}
/*
* isns_add_buffer_pool - allocates buffers of in pool
*
* If a list containing buf_size buffers already exists in pool, additional
* buffers are added (allocated) to the list.
*/
int
isns_add_buffer_pool(int buf_size, int count)
{
struct isns_buffer_list_s *list_p, *p, *p_next;
struct isns_buffer_s *buf_p;
int n;
DBG("isns_add_buffer_pool: buf_size=%d, count=%d\n", buf_size, count);
assert(G_buffer_pool.active);
/* Make our buffer lengths always a multiple of 4. */
buf_size = (buf_size + 0x03) & ~0x03;
/*
* Lookup existing list for size specified. If no exists, allocate
* a new list and initialize.
*/
pthread_mutex_lock(&G_buffer_pool.mutex);
list_p = isns_lookup_buffer_list(buf_size);
if (list_p == NULL) {
pthread_mutex_unlock(&G_buffer_pool.mutex);
list_p = (struct isns_buffer_list_s *)
isns_malloc(sizeof(struct isns_buffer_list_s));
if (list_p == NULL) {
DBG("isns_add_buffer_pool: error on isns_malloc()\n");
return ENOMEM;
}
list_p->buf_size = buf_size;
list_p->alloc_count = 0;
list_p->head = NULL;
}
/* If this is a new list, insert into pool in buf_size order. */
if (list_p->alloc_count == 0) {
pthread_mutex_lock(&G_buffer_pool.mutex);
if (G_buffer_pool.list_p == NULL) {
G_buffer_pool.list_p = list_p;
list_p->next = NULL;
} else if (G_buffer_pool.list_p->buf_size > buf_size) {
list_p->next = G_buffer_pool.list_p;
G_buffer_pool.list_p = list_p;
} else {
p = G_buffer_pool.list_p;
while (p->next != NULL) {
p_next = p->next;
if (p_next->buf_size > buf_size) {
p->next = list_p;
list_p->next = p_next;
break;
}
p = p->next;
}
if (p->next == NULL) {
p->next = list_p;
list_p->next = NULL;
}
}
}
/* Allocate (possibly additional) buffers for list. */
for (n = 0; n < count; n++) {
buf_p = (struct isns_buffer_s *)
isns_malloc(buf_size + sizeof(struct isns_buffer_s));
if (buf_p == NULL)
break;
buf_p->next = list_p->head;
list_p->head = buf_p;
}
list_p->alloc_count += n;
pthread_mutex_unlock(&G_buffer_pool.mutex);
DBG("isns_init_buffer_pool: %d %d-byte buffers allocated\n",
n, buf_size);
return (n > 0 ? 0 : ENOMEM);
}
/*
* isns_destroy_buffer_pool - destroys previously allocated buffer pool
*/
void
isns_destroy_buffer_pool(void)
{
struct isns_buffer_list_s *list_p;
struct isns_buffer_s *buf_p;
#ifdef ISNS_DEBUG
char dbg_buffer[1024] = { 0 };
#endif
DBG("isns_destroy_buffer_pool: entered\n");
assert(G_buffer_pool.active);
pthread_mutex_lock(&G_buffer_pool.mutex);
while (G_buffer_pool.list_p != NULL) {
list_p = G_buffer_pool.list_p;
while (list_p->head != NULL) {
buf_p = list_p->head;
list_p->head = buf_p->next;
list_p->alloc_count--;
isns_free(buf_p);
}
#ifdef ISNS_DEBUG
if (list_p->alloc_count > 0) {
snprintf(&dbg_buffer[(int) strlen(dbg_buffer)],
(sizeof(dbg_buffer) - strlen(dbg_buffer)),
"isns_destroy_buffer_pool: "
"%d %d-byte buffer(s) not freed\n",
list_p->alloc_count, list_p->buf_size);
}
#endif
G_buffer_pool.list_p = list_p->next;
isns_free(list_p);
}
G_buffer_pool.active = 0;
pthread_mutex_unlock(&G_buffer_pool.mutex);
pthread_mutex_destroy(&G_buffer_pool.mutex);
DBG(dbg_buffer);
}
/*
* isns_new_buffer - allocates a new ISNS buffer
*
* Typically, the buffer is returned from the pool, but if no free buffers
* are available in the pool, or a buf size larger than the largest pool buffer
* size is requested, a normal malloc is used to allocate the buffer. The
* buffer type is recorded so that a subsequent isns_free_buffer will correctly
* free the buffer or return it to the pool.
*/
struct isns_buffer_s *
isns_new_buffer(int buf_size)
{
struct isns_buffer_list_s *list_p;
struct isns_buffer_s *buf_p;
int buf_type;
if (buf_size == 0)
buf_size = ISNS_BUF_SIZE;
buf_p = NULL;
pthread_mutex_lock(&G_buffer_pool.mutex);
list_p = G_buffer_pool.list_p;
while (list_p != NULL) {
if ((list_p->head != NULL)
&& (list_p->buf_size >= buf_size)) {
buf_p = list_p->head;
list_p->head = buf_p->next;
buf_size = list_p->buf_size;
buf_type = ISNS_BUF_POOL;
break;
}
list_p = list_p->next;
}
pthread_mutex_unlock(&G_buffer_pool.mutex);
if (buf_p == NULL) {
buf_p = (struct isns_buffer_s *)isns_malloc(
buf_size + sizeof(struct isns_buffer_s));
buf_type = ISNS_BUF_MALLOC;
}
if (buf_p != NULL)
ISNS_INIT_BUFFER(buf_p, buf_size, buf_type);
DBG("isns_new_buffer: %p (buf_size=%d, type=%d)\n", buf_p, buf_size,
buf_type);
return buf_p;
}
/*
* isns_free_buffer - free a ISNS buffer
*/
void
isns_free_buffer(struct isns_buffer_s *buf_p)
{
struct isns_buffer_list_s *list_p;
DBG("isns_free_buffer: %p (type=%d, alloc_len=%d)\n",
buf_p, (buf_p == NULL ? 0 : buf_p->buf_type),
(buf_p == NULL ? 0 : buf_p->alloc_len));
if (buf_p != NULL) {
switch (buf_p->buf_type) {
case ISNS_BUF_POOL:
/* Return buffer to proper pool list. */
pthread_mutex_lock(&G_buffer_pool.mutex);
list_p = isns_lookup_buffer_list((int)buf_p->alloc_len);
if (list_p != NULL) {
buf_p->next = list_p->head;
list_p->head = buf_p;
}
pthread_mutex_unlock(&G_buffer_pool.mutex);
break;
case ISNS_BUF_MALLOC:
/* Malloc allocated buf, so free normally. */
isns_free(buf_p);
break;
case ISNS_BUF_STATIC:
/* Static buf with no allocation, so do nothing here. */
break;
}
}
}
/*
* isns_new_trans - create a new ISNS transaction
*/
ISNS_TRANS
isns_new_trans(ISNS_HANDLE isns_handle, uint16_t func_id, uint16_t pdu_flags)
{
struct isns_trans_s *trans_p;
struct isns_pdu_s *pdu_p;
struct isns_buffer_s *buf_p;
if (isns_handle == ISNS_INVALID_HANDLE) {
DBG("isns_new_trans: error - handle=%p\n", isns_handle);
return ISNS_INVALID_TRANS;
}
buf_p = isns_new_buffer((int)sizeof(struct isns_trans_s));
if (buf_p == NULL) {
DBG("isns_new_trans: error on isns_new_buffer()\n");
return ISNS_INVALID_TRANS;
}
trans_p = (struct isns_trans_s *)isns_buffer_data(buf_p, 0);
trans_p->id = isns_get_next_trans_id();
trans_p->func_id = func_id;
trans_p->flags = 0;
trans_p->cfg_p = (struct isns_config_s *)isns_handle;
trans_p->pdu_req_list = NULL;
trans_p->pdu_rsp_list = NULL;
trans_p->disconnect_cnt = 0;
trans_p->get_tlv_info.pdu_p = NULL;
trans_p->get_tlv_info.buf_p = NULL;
trans_p->get_tlv_info.extra_buf_list = NULL;
trans_p->get_tlv_info.buf_ofs = 0;
buf_p->cur_len = sizeof(struct isns_trans_s);
/*
* Mask off all but the AUTH and possibly REPLACE_REG pdu flags. Then,
* set the appropriate server/client sender flag. The first/last PDU
* flags will be set when the PDU is sent.
*/
if (func_id == isnsp_DevAttrReg)
pdu_flags &= (ISNS_FLAG_AUTH | ISNS_FLAG_REPLACE_REG);
else
pdu_flags &= ISNS_FLAG_AUTH;
if (trans_p->cfg_p->is_server)
pdu_flags |= ISNS_FLAG_SND_SERVER;
else
pdu_flags |= ISNS_FLAG_SND_CLIENT;
pdu_p = isns_new_pdu(trans_p->cfg_p, trans_p->id, func_id, pdu_flags);
if (pdu_p == NULL) {
DBG("isns_new_trans: error on isns_new_pdu()\n");
isns_free_buffer(buf_p);
return ISNS_INVALID_TRANS;
}
isns_add_pdu_request((ISNS_TRANS)trans_p, pdu_p);
DBG("isns_new_trans: %p\n", trans_p);
return (ISNS_TRANS)trans_p;
}
/*
* isns_free_trans - free ISNS transaction created with isns_new_trans
*/
void
isns_free_trans(ISNS_TRANS trans)
{
struct isns_trans_s *trans_p;
struct isns_pdu_s *pdu_p;
struct isns_buffer_s *buf_p, *free_buf_p;
uint32_t trans_flags;
DBG("isns_free_trans: %p\n", trans);
if (trans != ISNS_INVALID_TRANS) {
trans_p = (struct isns_trans_s *)trans;
trans_flags = isns_set_trans_flags(trans_p,
ISNS_TRANSF_FREE_WHEN_COMPLETE);
if ((trans_flags & ISNS_TRANSF_COMPLETE) == 0) {
DBG("isns_free_trans: deferred - trans not complete\n");
return;
}
DBG("isns_free_trans: pdu_req_list=%p\n",
trans_p->pdu_req_list);
while ((pdu_p = trans_p->pdu_req_list) != NULL) {
trans_p->pdu_req_list = pdu_p->next;
isns_free_pdu(pdu_p);
}
DBG("isns_free_trans: pdu_rsp_list=%p\n",
trans_p->pdu_rsp_list);
while ((pdu_p = trans_p->pdu_rsp_list) != NULL) {
trans_p->pdu_rsp_list = pdu_p->next;
isns_free_pdu(pdu_p);
}
DBG("isns_free_trans: extra_buf_list=%p\n",
trans_p->get_tlv_info.extra_buf_list);
buf_p = trans_p->get_tlv_info.extra_buf_list;
while (buf_p != NULL) {
free_buf_p = buf_p;
buf_p = buf_p->next;
isns_free_buffer(free_buf_p);
}
DBG("isns_free_trans: freeing base trans buffer\n");
buf_p = ((struct isns_buffer_s *)(void *)(trans_p))-1;
isns_free_buffer(buf_p);
}
}
/*
* isns_send_trans - send ISNS transaction PDU(s) and optionally wait
*
* If a successful wait occurs (i.e., the transaction completes without
* a timeout), then the response PDU status is place in *status_p. For
* all other cases, the data returned in *status_p is undefined.
*
*/
int
isns_send_trans(ISNS_TRANS trans, const struct timespec *timeout_p,
uint32_t *status_p)
{
struct isns_trans_s *trans_p;
struct isns_pdu_s *pdu_p;
int rval;
trans_p = (struct isns_trans_s *)trans;
DBG("isns_send_trans: trans_p=%p, timeout_p=%p\n", trans_p, timeout_p);
if (status_p != NULL)
*status_p = 0;
if (!isns_is_socket_init_done(trans_p->cfg_p)) {
DBG("isns_send_trans: socket not initialized\n");
isns_complete_trans(trans_p);
return EINVAL;
}
if ((pdu_p = isns_get_pdu_request(trans)) == NULL) {
DBG("isns_send_trans: no request PDU\n");
return EINVAL;
}
/* Set the FIRST_PDU flag in the first PDU. */
pdu_p->hdr.flags |= ISNS_FLAG_FIRST_PDU;
/* Set our PDU sequence numbers for the PDU chain. */
while (pdu_p->next != NULL) {
pdu_p->next->hdr.seq_id = pdu_p->hdr.seq_id + 1;
pdu_p = pdu_p->next;
}
/* Set the LAST_PDU flag in the last PDU. */
pdu_p->hdr.flags |= ISNS_FLAG_LAST_PDU;
rval = isns_send_pdu(trans, isns_get_pdu_request(trans), timeout_p);
if ((rval == 0) && (status_p != NULL))
isns_get_pdu_response_status(trans, status_p);
return rval;
}
void
isns_complete_trans(struct isns_trans_s *trans_p)
{
uint32_t flags;
DBG("isns_complete_trans: trans_p=%p\n", trans_p);
flags = isns_set_trans_flags(trans_p, ISNS_TRANSF_COMPLETE);
if ((flags & ISNS_TRANSF_FREE_WHEN_COMPLETE) != 0)
isns_free_trans(trans_p);
}
int
isns_abort_trans(struct isns_config_s *cfg_p, uint16_t trans_id)
{
struct isns_task_s *task_p;
/* First, look at current task. */
if (((task_p = cfg_p->curtask_p) != NULL)
&& (task_p->task_type == ISNS_TASK_SEND_PDU)
&& (task_p->var.send_pdu.trans_p->id == trans_id)) {
isns_complete_trans(task_p->var.send_pdu.trans_p);
isns_end_task(task_p);
return 0;
}
/* If not current task, look in task queue. */
task_p = isns_taskq_remove_trans(cfg_p, trans_id);
if (task_p) {
isns_complete_trans(task_p->var.send_pdu.trans_p);
isns_end_task(task_p);
return 0;
}
return EINVAL;
}
/*
* isns_add_string - add a TLV which is a C string
*
* Wrapper around isns_add_tlv()
*/
int
isns_add_string(ISNS_TRANS trans, uint32_t tag, const char *s)
{
/* Add string, including required NULL. */
return isns_add_tlv(trans, tag, (uint32_t)strlen(s) + 1, s);
}
/*
* isns_add_tlv - adds a TLV to an existing transaction
*/
int
isns_add_tlv(ISNS_TRANS trans, uint32_t tag, uint32_t data_len,
const void *data_p)
{
struct isns_trans_s *trans_p;
uint8_t tlv_buf[ISNS_TLV_HDR_SIZE];
int rval;
DBG("isns_add_tlv: trans=%p, tag=%d, data_len=%d, data_p=%p\n",
trans, tag, data_len, data_p);
if (trans == ISNS_INVALID_TRANS) {
DBG("isns_add_tlv: error - trans=%p\n", trans);
return EINVAL;
}
if ((data_len > 0) && (data_p == NULL)) {
DBG("isns_add_tlv: error data_len=%d, data_p=%p\n",
data_len, data_p);
return EINVAL;
}
/* Set tag, length in header buffer and add to PDU payload data. */
trans_p = (struct isns_trans_s *)trans;
ISNS_TLV_SET_TAG(tlv_buf, tag);
ISNS_TLV_SET_LEN(tlv_buf, ISNS_PAD4_LEN(data_len));
rval = isns_add_pdu_payload_data(trans_p, tlv_buf, ISNS_TLV_HDR_SIZE);
/* If header added okay, add value portion to PDU payload data. */
if ((rval == 0) && (data_len > 0))
rval = isns_add_pdu_payload_data(trans_p, data_p, data_len);
return rval;
}
/*
* isns_get_tlv - get TLV value from response PDU for transaction
*
* returns:
* 0 - success
* ENOENT - no (more) TLVs in this transaction
* EINVAL - invalid arg
* EPERM - operation not permitted - transaction not complete
* ENOMEM - could not allocate storage for spanning TLV data
*/
int
isns_get_tlv(ISNS_TRANS trans, int which_tlv, uint32_t *tag_p,
uint32_t *data_len_p, void **data_pp)
{
struct isns_trans_s *trans_p;
struct isns_get_tlv_info_s *info_p;
struct isns_pdu_s *pdu_p;
int rval;
if (trans == ISNS_INVALID_TRANS) {
DBG("isns_get_tlv: error - trans=%p\n", trans);
return EINVAL;
}
trans_p = (struct isns_trans_s *)trans;
if ((isns_get_trans_flags(trans_p) & ISNS_TRANSF_COMPLETE) == 0) {
DBG("isns_get_tlv: error - trans not complete\n");
return EPERM;
}
/* Get response PDU for this transaction. */
pdu_p = isns_get_pdu_response(trans_p);
if (pdu_p == NULL) {
DBG("isns_get_tlv: error - no response PDU in transaction\n");
return EINVAL;
}
if (pdu_p->payload_p->cur_len == 0) {
DBG("isns_get_tlv: error - zero length PDU payload\n");
return EINVAL;
}
/* If get_tlv_info unset, treat ISNS_TLV_NEXT as ISNS_TLV_FIRST. */
info_p = &trans_p->get_tlv_info;
if ((which_tlv == ISNS_TLV_NEXT) && (info_p->pdu_p == NULL))
which_tlv = ISNS_TLV_FIRST;
/*!!! make sure PDU uses TLVs here */
switch (which_tlv) {
case ISNS_TLV_NEXT:
/* For next TLV, nothing to do here - use get_tlv_info as-is. */
break;
case ISNS_TLV_FIRST:
/* For first TLV, reset get_tlv_info. */
info_p->pdu_p = pdu_p;
info_p->buf_p = isns_get_pdu_head_buffer(pdu_p);
info_p->buf_ofs = 4;
break;
default:
DBG("isns_get_tlv: invalid arg (which_tlv=%d)\n", which_tlv);
return EINVAL;
}
/*
* Get the type, length, and data (value) for the TLV. The get calls
* below will advance the pointers in get_tlv_info_s *info_p. Note that
* if the get of the TAG type fails, ENOENT is returned indicating that
* no more TLVs exist for this request PDU.
*/
if ((rval = isns_get_tlv_uint32(info_p, tag_p)) != 0) {
DBG("isns_get_tlv: error on isns_get_tlv_uint32() tag\n");
return ENOENT;
}
if ((rval = isns_get_tlv_uint32(info_p, (uint32_t *)data_len_p)) != 0) {
DBG("isns_get_tlv: error on isns_get_tlv_uint32() data len\n");
return rval;
}
rval = isns_get_tlv_data(info_p, *data_len_p, data_pp);
if (rval != 0) {
DBG("isns_get_tlv: error on isns_get_tlv_data()\n");
return rval;
}
return 0;
}
/*
* isns_set_trans_flags - sets flag bit(s) in transaction flags member
*/
uint32_t
isns_set_trans_flags(struct isns_trans_s *trans_p, uint32_t flags)
{
pthread_mutex_lock(&trans_p->cfg_p->trans_mutex);
trans_p->flags |= flags;
flags = trans_p->flags;
pthread_mutex_unlock(&trans_p->cfg_p->trans_mutex);
return flags;
}
/*
* isns_add_pdu_request - adds PDU to transaction request PDU list
*/
void
isns_add_pdu_request(struct isns_trans_s *trans_p, struct isns_pdu_s *pdu_p)
{
DBG("isns_add_pdu_request: trans_p=%p, pdu_p=%p\n", trans_p, pdu_p);
isns_add_pdu_list(&trans_p->pdu_req_list, pdu_p);
}
/*
* isns_add_pdu_response - adds PDU to transaction response PDU list
*/
void
isns_add_pdu_response(struct isns_trans_s *trans_p, struct isns_pdu_s *pdu_p)
{
DBG("isns_add_pdu_response: trans_p=%p, pdu_p=%p\n", trans_p, pdu_p);
isns_add_pdu_list(&trans_p->pdu_rsp_list, pdu_p);
}
/*
* isns_get_pdu_request_tail - returns last PDU in request PDU chain
*/
struct isns_pdu_s *
isns_get_pdu_request_tail(struct isns_trans_s *trans_p)
{
struct isns_pdu_s *pdu_p;
if ((pdu_p = isns_get_pdu_request(trans_p)) != NULL) {
while (pdu_p->next != NULL)
pdu_p = pdu_p->next;
}
return pdu_p;
}
/*
* isns_new_pdu - allocates a new PDU and assigns funtion ID and flags
*/
struct isns_pdu_s *
isns_new_pdu(struct isns_config_s *cfg_p, uint16_t trans_id, uint16_t func_id,
uint16_t flags)
{
struct isns_buffer_s *buf_p;
/*
* Allocate a buffer at least large enough for our isns_pdu_s struct
* and the embedded isns_buffer_s struct for the PDU payload data and 4
* bytes of actual payload data.
*/
buf_p = isns_new_buffer(/* CONSTCOND */(int)MAX(ISNS_BUF_SIZE,
sizeof(struct isns_pdu_s) + sizeof(struct isns_buffer_s) + 4));
if (buf_p == NULL) {
DBG("isns_new_pdu: error on isns_new_buffer()\n");
return NULL;
}
return isns_init_pdu(buf_p, cfg_p, trans_id, func_id, flags);
}
/*
* isns_free_pdu - frees a PDU and all associated buffers
*/
void
isns_free_pdu(struct isns_pdu_s *pdu_p)
{
struct isns_buffer_s *buf_p, *free_buf_p;
DBG("isns_free_pdu: %p\n", pdu_p);
if (pdu_p != NULL) {
/* Free all payload buffers. */
buf_p = pdu_p->payload_p;
while (buf_p != NULL) {
free_buf_p = buf_p;
buf_p = buf_p->next;
isns_free_buffer(free_buf_p);
}
/*
* Get a pointer to the ISNS buffer in which this PDU is
* contained, and then free it.
*/
buf_p = ((struct isns_buffer_s *)(void *)(pdu_p))-1 ;
isns_free_buffer(buf_p);
}
}
/*
* isns_send_pdu - initiates the send PDU task
*/
int
isns_send_pdu(ISNS_TRANS trans, struct isns_pdu_s *pdu_p,
const struct timespec *timeout_p)
{
struct isns_trans_s *trans_p;
struct isns_task_s* task_p;
int rval;
if (trans == ISNS_INVALID_TRANS) {
DBG("isns_send_pdu: error - trans=%p\n", trans);
return EINVAL;
}
if (pdu_p == NULL) {
DBG("isns_send_pdu: error - pdu_p=%p\n", pdu_p);
return EINVAL;
}
trans_p = (struct isns_trans_s *)trans;
/* Build SEND_PDU task, insert on queue and issue command. */
task_p = isns_new_task(pdu_p->cfg_p, ISNS_TASK_SEND_PDU,
(timeout_p != NULL));
task_p->var.send_pdu.trans_p = trans_p;
task_p->var.send_pdu.pdu_p = pdu_p;
isns_taskq_insert_tail(pdu_p->cfg_p, task_p);
isns_issue_cmd(pdu_p->cfg_p, ISNS_CMD_PROCESS_TASKQ);
if (timeout_p == NULL)
rval = 0;
else {
rval = isns_wait_task(task_p, timeout_p);
if (rval == ETIMEDOUT) {
DBG("isns_send_pdu: "
"timeout on isns_wait_task() trans_id=%d\n",
trans_p->id);
isns_issue_cmd_with_data(task_p->cfg_p,
ISNS_CMD_ABORT_TRANS, (void *)&trans_p->id,
(int)sizeof(trans_p->id));
}
}
return rval;
}
/*
* isns_init_pdu - initialize ISNS buffer to be a PDU
*/
static struct isns_pdu_s *
isns_init_pdu(struct isns_buffer_s *buf_p, struct isns_config_s *cfg_p,
uint16_t trans_id, uint16_t func_id, uint16_t flags)
{
struct isns_pdu_s *pdu_p;
/* The config and buffer pointers must be valid here. */
assert(cfg_p != NULL);
assert(buf_p != NULL);
/* The PDU starts at offset 0 for the ISNS buffer data. */
pdu_p = isns_buffer_data(buf_p, 0);
buf_p->cur_len = sizeof(struct isns_pdu_s);
/* Assign PDU members. */
pdu_p->cfg_p = cfg_p;
pdu_p->hdr.isnsp_version = ISNSP_VERSION;
pdu_p->hdr.func_id = func_id;
pdu_p->hdr.payload_len = 0;
pdu_p->hdr.flags = flags;
pdu_p->hdr.trans_id = trans_id;
pdu_p->hdr.seq_id = 0;
pdu_p->byteorder_host = 1;
pdu_p->next = NULL;
/*
* The PDU payload buffer starts after the PDU struct portion in the
* ISNS buffer passed in to this function. So, assign the payload_p
* pointer accordingly, and then init the buffer with the proper length
* and ISNS_BUF_STATIC type.
*/
pdu_p->payload_p = (struct isns_buffer_s *)
isns_buffer_data(buf_p, buf_p->cur_len);
ISNS_INIT_BUFFER(pdu_p->payload_p, (unsigned)(buf_p->alloc_len -
sizeof(struct isns_pdu_s) - sizeof(struct isns_buffer_s)),
ISNS_BUF_STATIC);
DBG("isns_init_pdu: %p\n", pdu_p);
return pdu_p;
}
/*
* isns_add_pdu_payload_data - add data to PDU payload
*/
static int
isns_add_pdu_payload_data(struct isns_trans_s *trans_p, const void *data_p,
int len)
{
struct isns_pdu_s *pdu_p, *new_pdu_p;
struct isns_buffer_s *buf_p, *new_buf_p;
const uint8_t *src_p;
uint8_t *dst_p;
int pad_bytes;
/* Get the request PDU for this transaction. */
if ((pdu_p = isns_get_pdu_request_tail(trans_p)) == NULL) {
DBG("isns_add_pdu_payload_data: no request PDU\n");
return EINVAL;
}
/* Get the active buffer for this PDU (where data should be copied). */
buf_p = isns_get_pdu_active_buffer(pdu_p);
/* Set up source and destination pointers. Calculate pad bytes. */
src_p = data_p;
dst_p = isns_buffer_data(buf_p, buf_p->cur_len);
pad_bytes = ISNS_PAD4_BYTES(len);
/*
* Move data from source to PDU buffer(s), allocated new pdus and
* buffers as necessary to accommodate the data.
*/
while (len--) {
/* If at max for one PDU payload, add a new PDU. */
if (pdu_p->hdr.payload_len == ISNS_MAX_PDU_PAYLOAD) {
new_pdu_p = isns_new_pdu(trans_p->cfg_p,
trans_p->id, trans_p->func_id, pdu_p->hdr.flags);
if (new_pdu_p == NULL)
return ENOMEM;
isns_add_pdu_request(trans_p, new_pdu_p);
pdu_p = new_pdu_p;
buf_p = pdu_p->payload_p;
dst_p = isns_buffer_data(buf_p, 0);
}
/* If at end of current buffer, add a new buffer. */
if (buf_p->cur_len == buf_p->alloc_len) {
if (buf_p->next != NULL)
buf_p = buf_p->next;
else {
new_buf_p = isns_new_buffer(0);
if (new_buf_p == NULL)
return ENOMEM;
buf_p->next = new_buf_p;
buf_p = new_buf_p;
}
dst_p = isns_buffer_data(buf_p, 0);
}
pdu_p->hdr.payload_len++;
buf_p->cur_len++;
*dst_p++ = *src_p++;
}
/*
* Since the buffer alloc length is always a multiple of 4, we are
* guaranteed to have enough room for the pad bytes.
*/
if (pad_bytes > 0) {
pdu_p->hdr.payload_len += pad_bytes;
buf_p->cur_len += pad_bytes;
while (pad_bytes--)
*dst_p++ = 0;
}
return 0;
}
/*
* isns_get_tlv_info_advance - advances pdu/buffer pointers if at end of
* current buffer.
*/
static void
isns_get_tlv_info_advance(struct isns_get_tlv_info_s *info_p)
{
if ((info_p->buf_p != NULL) &&
(info_p->buf_ofs == (int)info_p->buf_p->cur_len)) {
info_p->buf_p = info_p->buf_p->next;
info_p->buf_ofs = 0;
}
if ((info_p->buf_p == NULL) && (info_p->pdu_p->next != NULL)) {
info_p->pdu_p = info_p->pdu_p->next;
info_p->buf_p = isns_get_pdu_head_buffer(info_p->pdu_p);
info_p->buf_ofs = 0;
}
}
/*
* isns_get_tlv_uint32 - retrieve host-ordered uint32_t from PDU buffer at
* starting offset and adjusts isns_get_tlv_info
* pointers accordingly.
*/
static int
isns_get_tlv_uint32(struct isns_get_tlv_info_s *info_p, uint32_t *uint32_p)
{
/* Advance to next buffer/pdu (if necessary). */
isns_get_tlv_info_advance(info_p);
if ((info_p->buf_p == NULL) ||
((info_p->buf_ofs + 4) > (int)info_p->buf_p->cur_len)) {
DBG("isns_get_tlv_uint32: end of buffer reached\n");
return EFAULT;
}
*uint32_p = ntohl(*(uint32_t *)isns_buffer_data(info_p->buf_p,
info_p->buf_ofs));
info_p->buf_ofs += 4;
return 0;
}
/*
* isns_get_tlv_data - retrieves data from PDU buffer at starting offset
* for TLV data contained in specified isns_get_tlv_info.
*/
static int
isns_get_tlv_data(struct isns_get_tlv_info_s *info_p, int data_len,
void **data_pp)
{
struct isns_buffer_s *extra_buf_p;
struct isns_get_tlv_info_s gti;
uint8_t *data_p, *extra_data_p;
int bytes_remaining, cbytes;
/* First, NULL return data pointer. */
*data_pp = NULL;
/* Advance to next buffer/pdu (if necessary). */
isns_get_tlv_info_advance(info_p);
/* Make sure we have a current get tlv info buffer. */
if (info_p->buf_p == NULL) {
DBG("isns_get_tlv_data: no next buffer\n");
return EFAULT;
}
/* Get pointer into buffer where desired TLV resides. */
data_p = isns_buffer_data(info_p->buf_p, info_p->buf_ofs);
/* TLV data completely resides in current buffer. */
if ((info_p->buf_ofs + data_len) <= (int)info_p->buf_p->cur_len) {
info_p->buf_ofs += data_len;
*data_pp = data_p;
return 0;
}
/*
* TLV data extends into next buffer so an "extra" buffer is allocated
* that is large enough to hold the entire data value. The extra buffer
* is added to the transaction's extra buffer list so we can free it
* when the transaction is freed.
*/
if ((extra_buf_p = isns_new_buffer(data_len)) == NULL) {
DBG("isns_get_tlv_data: error on isns_new_buffer()\n");
return ENOMEM;
}
if (info_p->extra_buf_list == NULL)
info_p->extra_buf_list = extra_buf_p;
else {
extra_buf_p->next = info_p->extra_buf_list;
info_p->extra_buf_list = extra_buf_p;
}
/* Setup to copy data bytes out to extra buffer. */
gti = *info_p;
extra_data_p = isns_buffer_data(extra_buf_p, 0);
bytes_remaining = data_len;
while (bytes_remaining > 0) {
/*
* Advance to next buffer/pdu (if necessary), using local copy
* of the get_tlv_info structure.
*/
isns_get_tlv_info_advance(&gti);
if (gti.buf_p == NULL) {
DBG("isns_get_tlv_data: no next buffer\n");
return EFAULT;
}
data_p = isns_buffer_data(gti.buf_p, gti.buf_ofs);
cbytes = MIN(bytes_remaining, ((int)gti.buf_p->cur_len - gti.buf_ofs));
bytes_remaining -= cbytes;
gti.buf_ofs += cbytes;
while (cbytes--)
*extra_data_p++ = *data_p++;
}
/* Update isns_get_tlv_info with our local copy. */
*info_p = gti;
/* Assign return data pointer. */
*data_pp = isns_buffer_data(extra_buf_p, 0);
return 0;
}
/*
* isns_get_pdu_response_status - returns status in PDU response
*
* Returns: 0 - success
* EPERM - operation not permitted, trans not complete
* EINVAL - invalid trans PDU response/payload
*/
int
isns_get_pdu_response_status(struct isns_trans_s *trans_p, uint32_t *status_p)
{
struct isns_pdu_s *pdu_p;
if ((isns_get_trans_flags(trans_p) & ISNS_TRANSF_COMPLETE) == 0)
return EPERM;
pdu_p = isns_get_pdu_response(trans_p);
if ((pdu_p == NULL)
|| (pdu_p->payload_p == NULL)
|| (pdu_p->payload_p->cur_len < 4))
return EINVAL;
*status_p = htonl(*(uint32_t *)isns_buffer_data(pdu_p->payload_p, 0));
return 0;
}
/*
* isns_add_pdu_list - adds pdu to specified pdu list
*/
static void
isns_add_pdu_list(struct isns_pdu_s **list_pp, struct isns_pdu_s *pdu_p)
{
struct isns_pdu_s *p, *p_prev;
if (*list_pp == NULL) {
*list_pp = pdu_p;
pdu_p->next = NULL;
return;
}
p = *list_pp;
while (p != NULL) {
if (pdu_p->hdr.seq_id < p->hdr.seq_id) {
if (p == *list_pp) {
*list_pp = pdu_p;
pdu_p->next = p;
} else {
p_prev = *list_pp;
while (p_prev->next != p)
p_prev = p_prev->next;
p_prev->next = pdu_p;
pdu_p->next = p;
}
return;
}
p = p->next;
}
/* pdu_p->hdr.seq_id > hdr.seq_id of all list elements */
p = *list_pp;
while (p->next != NULL)
p = p->next;
p->next = pdu_p;
pdu_p->next = NULL;
}
/*
* isns_get_pdu_head_buffer - returns PDU payload head buffer
*/
static struct isns_buffer_s *
isns_get_pdu_head_buffer(struct isns_pdu_s *pdu_p)
{
return pdu_p->payload_p;
}
#if 0
/*
* isns_get_pdu_tail_buffer - returns PDU payload tail buffer
*/
static struct isns_buffer_s *
isns_get_pdu_tail_buffer(struct isns_pdu_s *pdu_p)
{
struct isns_buffer_s *buf_p;
buf_p = pdu_p->payload_p;
if (buf_p != NULL)
while (buf_p->next != NULL) buf_p = buf_p->next;
return buf_p;
}
#endif
/*
* isns_get_pdu_active_buffer - returns PDU payload "active buffer where the
* next TLV/data should be written
*/
static struct isns_buffer_s *
isns_get_pdu_active_buffer(struct isns_pdu_s *pdu_p)
{
struct isns_buffer_s *buf_p;
buf_p = pdu_p->payload_p;
while ((buf_p->next != NULL) && (buf_p->cur_len == buf_p->alloc_len)) {
buf_p = buf_p->next;
}
return buf_p;
}
/*
* isns_get_next_trans_id - returns next ISNS transaction ID to use
*/
static uint32_t
isns_get_next_trans_id(void)
{
static int trans_id = 1;
return trans_id++;
}
#ifdef ISNS_DEBUG
/*
* isns_dump_pdu - dumps PDU contents
*/
void
isns_dump_pdu(struct isns_pdu_s *pdu_p)
{
int n, pos;
struct isns_buffer_s *buf_p;
uint8_t *p;
char text[17];
if (pdu_p == NULL) {
DBG("isns_dump_pdu: pdu_p is NULL\n");
return;
}
DBG("pdu header:\n");
if (pdu_p->byteorder_host) {
DBG("ver=0x%04X, func=%d(%s), len=%d, flags=0x%04X, trans=%d, "
"seq=%d\n",
pdu_p->hdr.isnsp_version,
pdu_p->hdr.func_id & ~0x8000,
(pdu_p->hdr.func_id & 0x8000 ? "rsp" : "req"),
pdu_p->hdr.payload_len,
pdu_p->hdr.flags,
pdu_p->hdr.trans_id,
pdu_p->hdr.seq_id);
} else {
DBG("ver=0x%04X, func=%d(%s), len=%d, flags=0x%04X, trans=%d, "
"seq=%d\n",
isns_ntohs(pdu_p->hdr.isnsp_version),
isns_ntohs(pdu_p->hdr.func_id) & ~0x8000,
(pdu_p->hdr.func_id & 0x0080 ? "rsp" : "req"),
isns_ntohs(pdu_p->hdr.payload_len),
isns_ntohs(pdu_p->hdr.flags),
isns_ntohs(pdu_p->hdr.trans_id),
isns_ntohs(pdu_p->hdr.seq_id));
}
DBG("pdu buffers:\n");
buf_p = pdu_p->payload_p;
while (buf_p != NULL) {
DBG("[%p]: alloc_len=%d, cur_len=%d\n",
buf_p, buf_p->alloc_len, buf_p->cur_len);
buf_p = buf_p->next;
}
DBG("pdu payload:\n");
buf_p = pdu_p->payload_p;
if (buf_p == NULL) {
DBG("<none>\n");
return;
}
pos = 0;
memset(text, 0, 17);
while (buf_p != NULL) {
p = isns_buffer_data(buf_p, 0);
for (n = 0; n < buf_p->cur_len; n++) {
DBG("%02X ", *p);
text[pos] = (isprint(*p) ? *p : '.');
pos++;
p++;
if ((pos % 16) == 0) {
DBG(" %s\n", text);
memset(text, 0, 17);
pos = 0;
}
}
buf_p = buf_p->next;
}
if ((pos % 16) != 0)
DBG("%*c %s\n", (16 - (pos % 16)) * 3, ' ', text);
}
#endif /* ISNS_DEBUG */