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* strm.c
*
* DSP-BIOS Bridge driver support functions for TI OMAP processors.
*
* DSP/BIOS Bridge Stream Manager.
*
* Copyright (C) 2005-2006 Texas Instruments, Inc.
*
* This package is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License version 2 as
* published by the Free Software Foundation.
*
* THIS PACKAGE IS PROVIDED ``AS IS'' AND WITHOUT ANY EXPRESS OR
* IMPLIED WARRANTIES, INCLUDING, WITHOUT LIMITATION, THE IMPLIED
* WARRANTIES OF MERCHANTIBILITY AND FITNESS FOR A PARTICULAR PURPOSE.
*/
#include <linux/types.h>
/* ----------------------------------- Host OS */
#include <dspbridge/host_os.h>
/* ----------------------------------- DSP/BIOS Bridge */
#include <dspbridge/dbdefs.h>
/* ----------------------------------- Trace & Debug */
#include <dspbridge/dbc.h>
/* ----------------------------------- OS Adaptation Layer */
#include <dspbridge/sync.h>
/* ----------------------------------- Bridge Driver */
#include <dspbridge/dspdefs.h>
/* ----------------------------------- Resource Manager */
#include <dspbridge/nodepriv.h>
/* ----------------------------------- Others */
#include <dspbridge/cmm.h>
/* ----------------------------------- This */
#include <dspbridge/strm.h>
#include <dspbridge/resourcecleanup.h>
/* ----------------------------------- Defines, Data Structures, Typedefs */
#define DEFAULTTIMEOUT 10000
#define DEFAULTNUMBUFS 2
/*
* ======== strm_mgr ========
* The strm_mgr contains device information needed to open the underlying
* channels of a stream.
*/
struct strm_mgr {
struct dev_object *dev_obj; /* Device for this processor */
struct chnl_mgr *chnl_mgr; /* Channel manager */
/* Function interface to Bridge driver */
struct bridge_drv_interface *intf_fxns;
};
/*
* ======== strm_object ========
* This object is allocated in strm_open().
*/
struct strm_object {
struct strm_mgr *strm_mgr_obj;
struct chnl_object *chnl_obj;
u32 dir; /* DSP_TONODE or DSP_FROMNODE */
u32 timeout;
u32 num_bufs; /* Max # of bufs allowed in stream */
u32 bufs_in_strm; /* Current # of bufs in stream */
u32 bytes; /* bytes transferred since idled */
/* STREAM_IDLE, STREAM_READY, ... */
enum dsp_streamstate strm_state;
void *user_event; /* Saved for strm_get_info() */
enum dsp_strmmode strm_mode; /* STRMMODE_[PROCCOPY][ZEROCOPY]... */
u32 dma_chnl_id; /* DMA chnl id */
u32 dma_priority; /* DMA priority:DMAPRI_[LOW][HIGH] */
u32 segment_id; /* >0 is SM segment.=0 is local heap */
u32 buf_alignment; /* Alignment for stream bufs */
/* Stream's SM address translator */
struct cmm_xlatorobject *xlator;
};
/* ----------------------------------- Globals */
static u32 refs; /* module reference count */
/* ----------------------------------- Function Prototypes */
static int delete_strm(struct strm_object *stream_obj);
/*
* ======== strm_allocate_buffer ========
* Purpose:
* Allocates buffers for a stream.
*/
int strm_allocate_buffer(struct strm_res_object *strmres, u32 usize,
u8 **ap_buffer, u32 num_bufs,
struct process_context *pr_ctxt)
{
int status = 0;
u32 alloc_cnt = 0;
u32 i;
struct strm_object *stream_obj = strmres->stream;
DBC_REQUIRE(refs > 0);
DBC_REQUIRE(ap_buffer != NULL);
if (stream_obj) {
/*
* Allocate from segment specified at time of stream open.
*/
if (usize == 0)
status = -EINVAL;
} else {
status = -EFAULT;
}
if (status)
goto func_end;
for (i = 0; i < num_bufs; i++) {
DBC_ASSERT(stream_obj->xlator != NULL);
(void)cmm_xlator_alloc_buf(stream_obj->xlator, &ap_buffer[i],
usize);
if (ap_buffer[i] == NULL) {
status = -ENOMEM;
alloc_cnt = i;
break;
}
}
if (status)
strm_free_buffer(strmres, ap_buffer, alloc_cnt, pr_ctxt);
if (status)
goto func_end;
drv_proc_update_strm_res(num_bufs, strmres);
func_end:
return status;
}
/*
* ======== strm_close ========
* Purpose:
* Close a stream opened with strm_open().
*/
int strm_close(struct strm_res_object *strmres,
struct process_context *pr_ctxt)
{
struct bridge_drv_interface *intf_fxns;
struct chnl_info chnl_info_obj;
int status = 0;
struct strm_object *stream_obj = strmres->stream;
DBC_REQUIRE(refs > 0);
if (!stream_obj) {
status = -EFAULT;
} else {
/* Have all buffers been reclaimed? If not, return
* -EPIPE */
intf_fxns = stream_obj->strm_mgr_obj->intf_fxns;
status =
(*intf_fxns->chnl_get_info) (stream_obj->chnl_obj,
&chnl_info_obj);
DBC_ASSERT(!status);
if (chnl_info_obj.cio_cs > 0 || chnl_info_obj.cio_reqs > 0)
status = -EPIPE;
else
status = delete_strm(stream_obj);
}
if (status)
goto func_end;
idr_remove(pr_ctxt->stream_id, strmres->id);
func_end:
DBC_ENSURE(status == 0 || status == -EFAULT ||
status == -EPIPE || status == -EPERM);
dev_dbg(bridge, "%s: stream_obj: %p, status 0x%x\n", __func__,
stream_obj, status);
return status;
}
/*
* ======== strm_create ========
* Purpose:
* Create a STRM manager object.
*/
int strm_create(struct strm_mgr **strm_man,
struct dev_object *dev_obj)
{
struct strm_mgr *strm_mgr_obj;
int status = 0;
DBC_REQUIRE(refs > 0);
DBC_REQUIRE(strm_man != NULL);
DBC_REQUIRE(dev_obj != NULL);
*strm_man = NULL;
/* Allocate STRM manager object */
strm_mgr_obj = kzalloc(sizeof(struct strm_mgr), GFP_KERNEL);
if (strm_mgr_obj == NULL)
status = -ENOMEM;
else
strm_mgr_obj->dev_obj = dev_obj;
/* Get Channel manager and Bridge function interface */
if (!status) {
status = dev_get_chnl_mgr(dev_obj, &(strm_mgr_obj->chnl_mgr));
if (!status) {
(void)dev_get_intf_fxns(dev_obj,
&(strm_mgr_obj->intf_fxns));
DBC_ASSERT(strm_mgr_obj->intf_fxns != NULL);
}
}
if (!status)
*strm_man = strm_mgr_obj;
else
kfree(strm_mgr_obj);
DBC_ENSURE((!status && *strm_man) || (status && *strm_man == NULL));
return status;
}
/*
* ======== strm_delete ========
* Purpose:
* Delete the STRM Manager Object.
*/
void strm_delete(struct strm_mgr *strm_mgr_obj)
{
DBC_REQUIRE(refs > 0);
DBC_REQUIRE(strm_mgr_obj);
kfree(strm_mgr_obj);
}
/*
* ======== strm_exit ========
* Purpose:
* Discontinue usage of STRM module.
*/
void strm_exit(void)
{
DBC_REQUIRE(refs > 0);
refs--;
DBC_ENSURE(refs >= 0);
}
/*
* ======== strm_free_buffer ========
* Purpose:
* Frees the buffers allocated for a stream.
*/
int strm_free_buffer(struct strm_res_object *strmres, u8 ** ap_buffer,
u32 num_bufs, struct process_context *pr_ctxt)
{
int status = 0;
u32 i = 0;
struct strm_object *stream_obj = strmres->stream;
DBC_REQUIRE(refs > 0);
DBC_REQUIRE(ap_buffer != NULL);
if (!stream_obj)
status = -EFAULT;
if (!status) {
for (i = 0; i < num_bufs; i++) {
DBC_ASSERT(stream_obj->xlator != NULL);
status =
cmm_xlator_free_buf(stream_obj->xlator,
ap_buffer[i]);
if (status)
break;
ap_buffer[i] = NULL;
}
}
drv_proc_update_strm_res(num_bufs - i, strmres);
return status;
}
/*
* ======== strm_get_info ========
* Purpose:
* Retrieves information about a stream.
*/
int strm_get_info(struct strm_object *stream_obj,
struct stream_info *stream_info,
u32 stream_info_size)
{
struct bridge_drv_interface *intf_fxns;
struct chnl_info chnl_info_obj;
int status = 0;
void *virt_base = NULL; /* NULL if no SM used */
DBC_REQUIRE(refs > 0);
DBC_REQUIRE(stream_info != NULL);
DBC_REQUIRE(stream_info_size >= sizeof(struct stream_info));
if (!stream_obj) {
status = -EFAULT;
} else {
if (stream_info_size < sizeof(struct stream_info)) {
/* size of users info */
status = -EINVAL;
}
}
if (status)
goto func_end;
intf_fxns = stream_obj->strm_mgr_obj->intf_fxns;
status =
(*intf_fxns->chnl_get_info) (stream_obj->chnl_obj,
&chnl_info_obj);
if (status)
goto func_end;
if (stream_obj->xlator) {
/* We have a translator */
DBC_ASSERT(stream_obj->segment_id > 0);
cmm_xlator_info(stream_obj->xlator, (u8 **) &virt_base, 0,
stream_obj->segment_id, false);
}
stream_info->segment_id = stream_obj->segment_id;
stream_info->strm_mode = stream_obj->strm_mode;
stream_info->virt_base = virt_base;
stream_info->user_strm->number_bufs_allowed = stream_obj->num_bufs;
stream_info->user_strm->number_bufs_in_stream = chnl_info_obj.cio_cs +
chnl_info_obj.cio_reqs;
/* # of bytes transferred since last call to DSPStream_Idle() */
stream_info->user_strm->number_bytes = chnl_info_obj.bytes_tx;
stream_info->user_strm->sync_object_handle = chnl_info_obj.event_obj;
/* Determine stream state based on channel state and info */
if (chnl_info_obj.state & CHNL_STATEEOS) {
stream_info->user_strm->ss_stream_state = STREAM_DONE;
} else {
if (chnl_info_obj.cio_cs > 0)
stream_info->user_strm->ss_stream_state = STREAM_READY;
else if (chnl_info_obj.cio_reqs > 0)
stream_info->user_strm->ss_stream_state =
STREAM_PENDING;
else
stream_info->user_strm->ss_stream_state = STREAM_IDLE;
}
func_end:
return status;
}
/*
* ======== strm_idle ========
* Purpose:
* Idles a particular stream.
*/
int strm_idle(struct strm_object *stream_obj, bool flush_data)
{
struct bridge_drv_interface *intf_fxns;
int status = 0;
DBC_REQUIRE(refs > 0);
if (!stream_obj) {
status = -EFAULT;
} else {
intf_fxns = stream_obj->strm_mgr_obj->intf_fxns;
status = (*intf_fxns->chnl_idle) (stream_obj->chnl_obj,
stream_obj->timeout,
flush_data);
}
dev_dbg(bridge, "%s: stream_obj: %p flush_data: 0x%x status: 0x%x\n",
__func__, stream_obj, flush_data, status);
return status;
}
/*
* ======== strm_init ========
* Purpose:
* Initialize the STRM module.
*/
bool strm_init(void)
{
bool ret = true;
DBC_REQUIRE(refs >= 0);
if (ret)
refs++;
DBC_ENSURE((ret && (refs > 0)) || (!ret && (refs >= 0)));
return ret;
}
/*
* ======== strm_issue ========
* Purpose:
* Issues a buffer on a stream
*/
int strm_issue(struct strm_object *stream_obj, u8 *pbuf, u32 ul_bytes,
u32 ul_buf_size, u32 dw_arg)
{
struct bridge_drv_interface *intf_fxns;
int status = 0;
void *tmp_buf = NULL;
DBC_REQUIRE(refs > 0);
DBC_REQUIRE(pbuf != NULL);
if (!stream_obj) {
status = -EFAULT;
} else {
intf_fxns = stream_obj->strm_mgr_obj->intf_fxns;
if (stream_obj->segment_id != 0) {
tmp_buf = cmm_xlator_translate(stream_obj->xlator,
(void *)pbuf,
CMM_VA2DSPPA);
if (tmp_buf == NULL)
status = -ESRCH;
}
if (!status) {
status = (*intf_fxns->chnl_add_io_req)
(stream_obj->chnl_obj, pbuf, ul_bytes, ul_buf_size,
(u32) tmp_buf, dw_arg);
}
if (status == -EIO)
status = -ENOSR;
}
dev_dbg(bridge, "%s: stream_obj: %p pbuf: %p ul_bytes: 0x%x dw_arg:"
" 0x%x status: 0x%x\n", __func__, stream_obj, pbuf,
ul_bytes, dw_arg, status);
return status;
}
/*
* ======== strm_open ========
* Purpose:
* Open a stream for sending/receiving data buffers to/from a task or
* XDAIS socket node on the DSP.
*/
int strm_open(struct node_object *hnode, u32 dir, u32 index,
struct strm_attr *pattr,
struct strm_res_object **strmres,
struct process_context *pr_ctxt)
{
struct strm_mgr *strm_mgr_obj;
struct bridge_drv_interface *intf_fxns;
u32 ul_chnl_id;
struct strm_object *strm_obj = NULL;
s8 chnl_mode;
struct chnl_attr chnl_attr_obj;
int status = 0;
struct cmm_object *hcmm_mgr = NULL; /* Shared memory manager hndl */
void *stream_res;
DBC_REQUIRE(refs > 0);
DBC_REQUIRE(strmres != NULL);
DBC_REQUIRE(pattr != NULL);
*strmres = NULL;
if (dir != DSP_TONODE && dir != DSP_FROMNODE) {
status = -EPERM;
} else {
/* Get the channel id from the node (set in node_connect()) */
status = node_get_channel_id(hnode, dir, index, &ul_chnl_id);
}
if (!status)
status = node_get_strm_mgr(hnode, &strm_mgr_obj);
if (!status) {
strm_obj = kzalloc(sizeof(struct strm_object), GFP_KERNEL);
if (strm_obj == NULL) {
status = -ENOMEM;
} else {
strm_obj->strm_mgr_obj = strm_mgr_obj;
strm_obj->dir = dir;
strm_obj->strm_state = STREAM_IDLE;
strm_obj->user_event = pattr->user_event;
if (pattr->stream_attr_in != NULL) {
strm_obj->timeout =
pattr->stream_attr_in->timeout;
strm_obj->num_bufs =
pattr->stream_attr_in->num_bufs;
strm_obj->strm_mode =
pattr->stream_attr_in->strm_mode;
strm_obj->segment_id =
pattr->stream_attr_in->segment_id;
strm_obj->buf_alignment =
pattr->stream_attr_in->buf_alignment;
strm_obj->dma_chnl_id =
pattr->stream_attr_in->dma_chnl_id;
strm_obj->dma_priority =
pattr->stream_attr_in->dma_priority;
chnl_attr_obj.uio_reqs =
pattr->stream_attr_in->num_bufs;
} else {
strm_obj->timeout = DEFAULTTIMEOUT;
strm_obj->num_bufs = DEFAULTNUMBUFS;
strm_obj->strm_mode = STRMMODE_PROCCOPY;
strm_obj->segment_id = 0; /* local mem */
strm_obj->buf_alignment = 0;
strm_obj->dma_chnl_id = 0;
strm_obj->dma_priority = 0;
chnl_attr_obj.uio_reqs = DEFAULTNUMBUFS;
}
chnl_attr_obj.reserved1 = NULL;
/* DMA chnl flush timeout */
chnl_attr_obj.reserved2 = strm_obj->timeout;
chnl_attr_obj.event_obj = NULL;
if (pattr->user_event != NULL)
chnl_attr_obj.event_obj = pattr->user_event;
}
}
if (status)
goto func_cont;
if ((pattr->virt_base == NULL) || !(pattr->virt_size > 0))
goto func_cont;
/* No System DMA */
DBC_ASSERT(strm_obj->strm_mode != STRMMODE_LDMA);
/* Get the shared mem mgr for this streams dev object */
status = dev_get_cmm_mgr(strm_mgr_obj->dev_obj, &hcmm_mgr);
if (!status) {
/*Allocate a SM addr translator for this strm. */
status = cmm_xlator_create(&strm_obj->xlator, hcmm_mgr, NULL);
if (!status) {
DBC_ASSERT(strm_obj->segment_id > 0);
/* Set translators Virt Addr attributes */
status = cmm_xlator_info(strm_obj->xlator,
(u8 **) &pattr->virt_base,
pattr->virt_size,
strm_obj->segment_id, true);
}
}
func_cont:
if (!status) {
/* Open channel */
chnl_mode = (dir == DSP_TONODE) ?
CHNL_MODETODSP : CHNL_MODEFROMDSP;
intf_fxns = strm_mgr_obj->intf_fxns;
status = (*intf_fxns->chnl_open) (&(strm_obj->chnl_obj),
strm_mgr_obj->chnl_mgr,
chnl_mode, ul_chnl_id,
&chnl_attr_obj);
if (status) {
/*
* over-ride non-returnable status codes so we return
* something documented
*/
if (status != -ENOMEM && status !=
-EINVAL && status != -EPERM) {
/*
* We got a status that's not return-able.
* Assert that we got something we were
* expecting (-EFAULT isn't acceptable,
* strm_mgr_obj->chnl_mgr better be valid or we
* assert here), and then return -EPERM.
*/
DBC_ASSERT(status == -ENOSR ||
status == -ECHRNG ||
status == -EALREADY ||
status == -EIO);
status = -EPERM;
}
}
}
if (!status) {
status = drv_proc_insert_strm_res_element(strm_obj,
&stream_res, pr_ctxt);
if (status)
delete_strm(strm_obj);
else
*strmres = (struct strm_res_object *)stream_res;
} else {
(void)delete_strm(strm_obj);
}
/* ensure we return a documented error code */
DBC_ENSURE((!status && strm_obj) ||
(*strmres == NULL && (status == -EFAULT ||
status == -EPERM
|| status == -EINVAL)));
dev_dbg(bridge, "%s: hnode: %p dir: 0x%x index: 0x%x pattr: %p "
"strmres: %p status: 0x%x\n", __func__,
hnode, dir, index, pattr, strmres, status);
return status;
}
/*
* ======== strm_reclaim ========
* Purpose:
* Relcaims a buffer from a stream.
*/
int strm_reclaim(struct strm_object *stream_obj, u8 ** buf_ptr,
u32 *nbytes, u32 *buff_size, u32 *pdw_arg)
{
struct bridge_drv_interface *intf_fxns;
struct chnl_ioc chnl_ioc_obj;
int status = 0;
void *tmp_buf = NULL;
DBC_REQUIRE(refs > 0);
DBC_REQUIRE(buf_ptr != NULL);
DBC_REQUIRE(nbytes != NULL);
DBC_REQUIRE(pdw_arg != NULL);
if (!stream_obj) {
status = -EFAULT;
goto func_end;
}
intf_fxns = stream_obj->strm_mgr_obj->intf_fxns;
status =
(*intf_fxns->chnl_get_ioc) (stream_obj->chnl_obj,
stream_obj->timeout,
&chnl_ioc_obj);
if (!status) {
*nbytes = chnl_ioc_obj.byte_size;
if (buff_size)
*buff_size = chnl_ioc_obj.buf_size;
*pdw_arg = chnl_ioc_obj.arg;
if (!CHNL_IS_IO_COMPLETE(chnl_ioc_obj)) {
if (CHNL_IS_TIMED_OUT(chnl_ioc_obj)) {
status = -ETIME;
} else {
/* Allow reclaims after idle to succeed */
if (!CHNL_IS_IO_CANCELLED(chnl_ioc_obj))
status = -EPERM;
}
}
/* Translate zerocopy buffer if channel not canceled. */
if (!status
&& (!CHNL_IS_IO_CANCELLED(chnl_ioc_obj))
&& (stream_obj->strm_mode == STRMMODE_ZEROCOPY)) {
/*
* This is a zero-copy channel so chnl_ioc_obj.buf
* contains the DSP address of SM. We need to
* translate it to a virtual address for the user
* thread to access.
* Note: Could add CMM_DSPPA2VA to CMM in the future.
*/
tmp_buf = cmm_xlator_translate(stream_obj->xlator,
chnl_ioc_obj.buf,
CMM_DSPPA2PA);
if (tmp_buf != NULL) {
/* now convert this GPP Pa to Va */
tmp_buf = cmm_xlator_translate(stream_obj->
xlator,
tmp_buf,
CMM_PA2VA);
}
if (tmp_buf == NULL)
status = -ESRCH;
chnl_ioc_obj.buf = tmp_buf;
}
*buf_ptr = chnl_ioc_obj.buf;
}
func_end:
/* ensure we return a documented return code */
DBC_ENSURE(!status || status == -EFAULT ||
status == -ETIME || status == -ESRCH ||
status == -EPERM);
dev_dbg(bridge, "%s: stream_obj: %p buf_ptr: %p nbytes: %p "
"pdw_arg: %p status 0x%x\n", __func__, stream_obj,
buf_ptr, nbytes, pdw_arg, status);
return status;
}
/*
* ======== strm_register_notify ========
* Purpose:
* Register to be notified on specific events for this stream.
*/
int strm_register_notify(struct strm_object *stream_obj, u32 event_mask,
u32 notify_type, struct dsp_notification
* hnotification)
{
struct bridge_drv_interface *intf_fxns;
int status = 0;
DBC_REQUIRE(refs > 0);
DBC_REQUIRE(hnotification != NULL);
if (!stream_obj) {
status = -EFAULT;
} else if ((event_mask & ~((DSP_STREAMIOCOMPLETION) |
DSP_STREAMDONE)) != 0) {
status = -EINVAL;
} else {
if (notify_type != DSP_SIGNALEVENT)
status = -ENOSYS;
}
if (!status) {
intf_fxns = stream_obj->strm_mgr_obj->intf_fxns;
status =
(*intf_fxns->chnl_register_notify) (stream_obj->
chnl_obj,
event_mask,
notify_type,
hnotification);
}
/* ensure we return a documented return code */
DBC_ENSURE(!status || status == -EFAULT ||
status == -ETIME || status == -ESRCH ||
status == -ENOSYS || status == -EPERM);
return status;
}
/*
* ======== strm_select ========
* Purpose:
* Selects a ready stream.
*/
int strm_select(struct strm_object **strm_tab, u32 strms,
u32 *pmask, u32 utimeout)
{
u32 index;
struct chnl_info chnl_info_obj;
struct bridge_drv_interface *intf_fxns;
struct sync_object **sync_events = NULL;
u32 i;
int status = 0;
DBC_REQUIRE(refs > 0);
DBC_REQUIRE(strm_tab != NULL);
DBC_REQUIRE(pmask != NULL);
DBC_REQUIRE(strms > 0);
*pmask = 0;
for (i = 0; i < strms; i++) {
if (!strm_tab[i]) {
status = -EFAULT;
break;
}
}
if (status)
goto func_end;
/* Determine which channels have IO ready */
for (i = 0; i < strms; i++) {
intf_fxns = strm_tab[i]->strm_mgr_obj->intf_fxns;
status = (*intf_fxns->chnl_get_info) (strm_tab[i]->chnl_obj,
&chnl_info_obj);
if (status) {
break;
} else {
if (chnl_info_obj.cio_cs > 0)
*pmask |= (1 << i);
}
}
if (!status && utimeout > 0 && *pmask == 0) {
/* Non-zero timeout */
sync_events = kmalloc(strms * sizeof(struct sync_object *),
GFP_KERNEL);
if (sync_events == NULL) {
status = -ENOMEM;
} else {
for (i = 0; i < strms; i++) {
intf_fxns =
strm_tab[i]->strm_mgr_obj->intf_fxns;
status = (*intf_fxns->chnl_get_info)
(strm_tab[i]->chnl_obj, &chnl_info_obj);
if (status)
break;
else
sync_events[i] =
chnl_info_obj.sync_event;
}
}
if (!status) {
status =
sync_wait_on_multiple_events(sync_events, strms,
utimeout, &index);
if (!status) {
/* Since we waited on the event, we have to
* reset it */
sync_set_event(sync_events[index]);
*pmask = 1 << index;
}
}
}
func_end:
kfree(sync_events);
DBC_ENSURE((!status && (*pmask != 0 || utimeout == 0)) ||
(status && *pmask == 0));
return status;
}
/*
* ======== delete_strm ========
* Purpose:
* Frees the resources allocated for a stream.
*/
static int delete_strm(struct strm_object *stream_obj)
{
struct bridge_drv_interface *intf_fxns;
int status = 0;
if (stream_obj) {
if (stream_obj->chnl_obj) {
intf_fxns = stream_obj->strm_mgr_obj->intf_fxns;
/* Channel close can fail only if the channel handle
* is invalid. */
status = (*intf_fxns->chnl_close)
(stream_obj->chnl_obj);
}
/* Free all SM address translator resources */
kfree(stream_obj->xlator);
kfree(stream_obj);
} else {
status = -EFAULT;
}
return status;
}
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