staging: dt3155: fix coding style issues in dt3155_isr.c

From: H Hartley Sweeten
Date: Mon Mar 01 2010 - 16:08:18 EST


This fixes up the coding style issues found in the dt3155_isr.c file.

No code is changed, only formatting.

Signed-off-by: H Hartley Sweeten <hsweeten@xxxxxxxxxxxxxxxxxxx>
Cc: Greg Kroah-Hartman <gregkh@xxxxxxxxx>
Cc: Scott Smedley <ss@xxxxxxxxxx>

---

diff --git a/drivers/staging/dt3155/dt3155_isr.c b/drivers/staging/dt3155/dt3155_isr.c
index fd7f93d..23a3696 100644
--- a/drivers/staging/dt3155/dt3155_isr.c
+++ b/drivers/staging/dt3155/dt3155_isr.c
@@ -1,48 +1,20 @@
/*
-
-Copyright 1996,2002,2005 Gregory D. Hager, Alfred A. Rizzi, Noah J. Cowan,
- Jason Lapenta, Scott Smedley, Greg Sharp
-
-This file is part of the DT3155 Device Driver.
-
-The DT3155 Device Driver is free software; you can redistribute it
-and/or modify it under the terms of the GNU General Public License as
-published by the Free Software Foundation; either version 2 of the
-License, or (at your option) any later version.
-
-The DT3155 Device Driver is distributed in the hope that it will be
-useful, but WITHOUT ANY WARRANTY; without even the implied warranty
-of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-GNU General Public License for more details.
-
-You should have received a copy of the GNU General Public License
-along with the DT3155 Device Driver; if not, write to the Free
-Software Foundation, Inc., 59 Temple Place, Suite 330, Boston,
-MA 02111-1307 USA
-
- File: dt3155_isr.c
-Purpose: Buffer management routines, and other routines for the ISR
- (the actual isr is in dt3155_drv.c)
-
--- Changes --
-
- Date Programmer Description of changes made
- -------------------------------------------------------------------
- 03-Jul-2000 JML n/a
- 02-Apr-2002 SS Mods to make work with separate allocator
- module; Merged John Roll's mods to make work with
- multiple boards.
- 10-Jul-2002 GCS Complete rewrite of setup_buffers to disallow
- buffers which span a 4MB boundary.
- 24-Jul-2002 SS GPL licence.
- 30-Jul-2002 NJC Added support for buffer loop.
- 31-Jul-2002 NJC Complete rewrite of buffer management
- 02-Aug-2002 NJC Including slab.h instead of malloc.h (no warning).
- Also, allocator_init() now returns allocator_max
- so cleaned up allocate_buffers() accordingly.
- 08-Aug-2005 SS port to 2.6 kernel.
-
-*/
+ *
+ * Copyright 1996,2002,2005 Gregory D. Hager, Alfred A. Rizzi, Noah J. Cowan,
+ * Jason Lapenta, Scott Smedley, Greg Sharp
+ *
+ * This file is part of the DT3155 Device Driver.
+ *
+ * The DT3155 Device Driver is free software; you can redistribute it
+ * and/or modify it under the terms of the GNU General Public License as
+ * published by the Free Software Foundation; either version 2 of the
+ * License, or (at your option) any later version.
+ *
+ * The DT3155 Device Driver is distributed in the hope that it will be
+ * useful, but WITHOUT ANY WARRANTY; without even the implied warranty
+ * of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+ * GNU General Public License for more details.
+ */

#include <asm/system.h>
#include <linux/slab.h>
@@ -55,34 +27,34 @@ Purpose: Buffer management routines, and other routines for the ISR
#include "dt3155_isr.h"
#include "allocator.h"

-#define FOUR_MB (0x0400000) /* Can't DMA accross a 4MB boundary!*/
-#define UPPER_10_BITS (0x3FF<<22) /* Can't DMA accross a 4MB boundary!*/
-
+/* Can't DMA accross a 4MB boundary! */
+#define FOUR_MB (0x0400000)
+#define UPPER_10_BITS (0x3ff << 22)

/* Pointer into global structure for handling buffers */
-struct dt3155_fbuffer_s *dt3155_fbuffer[MAXBOARDS] = {NULL
+struct dt3155_fbuffer_s *dt3155_fbuffer[MAXBOARDS] = {
+ NULL
#if MAXBOARDS == 2
- , NULL
+ , NULL
#endif
};

-/******************************************************************************
- * Simple array based que struct
+/*
+ * Simple array based queue struct
*
* Some handy functions using the buffering structure.
- *****************************************************************************/
+ */

-
-/***************************
- * are_empty_buffers
+/*
+ * are_empty_buffers()
* m is minor # of device
- ***************************/
-inline bool are_empty_buffers( int m )
+ */
+inline bool are_empty_buffers(int m)
{
- return ( dt3155_fbuffer[ m ]->empty_len );
+ return dt3155_fbuffer[m]->empty_len;
}

-/**************************
+/*
* push_empty
* m is minor # of device
*
@@ -91,204 +63,195 @@ inline bool are_empty_buffers( int m )
* empty buffer stack. So, if empty_len == 1, there is one empty buffer,
* given by dt3155_fbuffer[m]->empty_buffers[0].
* empty_buffers should never fill up, though this is not checked.
- **************************/
-inline void push_empty( int index, int m )
+ */
+inline void push_empty(int index, int m)
{
- dt3155_fbuffer[m]->empty_buffers[ dt3155_fbuffer[m]->empty_len ] = index;
- dt3155_fbuffer[m]->empty_len++;
+ dt3155_fbuffer[m]->empty_buffers[dt3155_fbuffer[m]->empty_len] = index;
+ dt3155_fbuffer[m]->empty_len++;
}

-/**************************
- * pop_empty( m )
+/*
+ * pop_empty
* m is minor # of device
- **************************/
-inline int pop_empty( int m )
+ */
+inline int pop_empty(int m)
{
- dt3155_fbuffer[m]->empty_len--;
- return dt3155_fbuffer[m]->empty_buffers[ dt3155_fbuffer[m]->empty_len ];
+ dt3155_fbuffer[m]->empty_len--;
+ return dt3155_fbuffer[m]->empty_buffers[dt3155_fbuffer[m]->empty_len];
}

-/*************************
- * is_ready_buf_empty( m )
+/*
+ * is_ready_buf_empty
* m is minor # of device
- *************************/
-inline bool is_ready_buf_empty( int m )
+ */
+inline bool is_ready_buf_empty(int m)
{
- return ((dt3155_fbuffer[ m ]->ready_len) == 0);
+ return dt3155_fbuffer[m]->ready_len == 0;
}

-/*************************
- * is_ready_buf_full( m )
+/*
+ * is_ready_buf_full
* m is minor # of device
+ *
* this should *never* be true if there are any active, locked or empty
* buffers, since it corresponds to nbuffers ready buffers!!
* 7/31/02: total rewrite. --NJC
- *************************/
-inline bool is_ready_buf_full( int m )
+ */
+inline bool is_ready_buf_full(int m)
{
- return ( dt3155_fbuffer[ m ]->ready_len == dt3155_fbuffer[ m ]->nbuffers );
+ return dt3155_fbuffer[m]->ready_len == dt3155_fbuffer[m]->nbuffers;
}

-/*****************************************************
- * push_ready( m, buffer )
+/*
+ * push_ready
* m is minor # of device
- *
- *****************************************************/
-inline void push_ready( int m, int index )
+ */
+inline void push_ready(int m, int index)
{
- int head = dt3155_fbuffer[m]->ready_head;
-
- dt3155_fbuffer[ m ]->ready_que[ head ] = index;
- dt3155_fbuffer[ m ]->ready_head = ( (head + 1) %
- (dt3155_fbuffer[ m ]->nbuffers) );
- dt3155_fbuffer[ m ]->ready_len++;
+ int head = dt3155_fbuffer[m]->ready_head;

+ dt3155_fbuffer[m]->ready_que[head] = index;
+ dt3155_fbuffer[m]->ready_head = (head + 1) %
+ dt3155_fbuffer[m]->nbuffers;
+ dt3155_fbuffer[m]->ready_len++;
}

-/*****************************************************
- * get_tail()
+/*
+ * get_tail
* m is minor # of device
*
* Simply comptutes the tail given the head and the length.
- *****************************************************/
-static inline int get_tail( int m )
+ */
+static inline int get_tail(int m)
{
- return ((dt3155_fbuffer[ m ]->ready_head -
- dt3155_fbuffer[ m ]->ready_len +
- dt3155_fbuffer[ m ]->nbuffers)%
- (dt3155_fbuffer[ m ]->nbuffers));
+ return (dt3155_fbuffer[m]->ready_head -
+ dt3155_fbuffer[m]->ready_len +
+ dt3155_fbuffer[m]->nbuffers) % dt3155_fbuffer[m]->nbuffers;
}

-
-
-/*****************************************************
- * pop_ready()
+/*
+ * pop_ready
* m is minor # of device
*
* This assumes that there is a ready buffer ready... should
* be checked (e.g. with is_ready_buf_empty() prior to call.
- *****************************************************/
-inline int pop_ready( int m )
+ */
+inline int pop_ready(int m)
{
- int tail;
- tail = get_tail(m);
- dt3155_fbuffer[ m ]->ready_len--;
- return dt3155_fbuffer[ m ]->ready_que[ tail ];
+ int tail = get_tail(m);
+
+ dt3155_fbuffer[m]->ready_len--;
+ return dt3155_fbuffer[m]->ready_que[tail];
}


-/*****************************************************
+/*
* printques
* m is minor # of device
- *****************************************************/
-inline void printques( int m )
+ */
+inline void printques(int m)
{
- int head = dt3155_fbuffer[ m ]->ready_head;
- int tail;
- int num = dt3155_fbuffer[ m ]->nbuffers;
- int frame_index;
- int index;
-
- tail = get_tail(m);
-
- printk("\n R:");
- for ( index = tail; index != head; index++, index = index % (num) )
- {
- frame_index = dt3155_fbuffer[ m ]->ready_que[ index ];
- printk(" %d ", frame_index );
- }
-
- printk("\n E:");
- for ( index = 0; index < dt3155_fbuffer[ m ]->empty_len; index++ )
- {
- frame_index = dt3155_fbuffer[ m ]->empty_buffers[ index ];
- printk(" %d ", frame_index );
- }
-
- frame_index = dt3155_fbuffer[ m ]->active_buf;
- printk("\n A: %d", frame_index);
-
- frame_index = dt3155_fbuffer[ m ]->locked_buf;
- printk("\n L: %d \n", frame_index );
+ int head = dt3155_fbuffer[m]->ready_head;
+ int tail = get_tail(m);
+ int num = dt3155_fbuffer[m]->nbuffers;
+ int frame_index;
+ int index;
+
+ printk("\n R:");
+ for (index = tail; index != head; index++, index = index % num) {
+ frame_index = dt3155_fbuffer[m]->ready_que[index];
+ printk(" %d ", frame_index);
+ }
+
+ printk("\n E:");
+ for (index = 0; index < dt3155_fbuffer[m]->empty_len; index++) {
+ frame_index = dt3155_fbuffer[m]->empty_buffers[index];
+ printk(" %d ", frame_index);
+ }
+
+ frame_index = dt3155_fbuffer[m]->active_buf;
+ printk("\n A: %d", frame_index);

+ frame_index = dt3155_fbuffer[m]->locked_buf;
+ printk("\n L: %d \n", frame_index);
}

-/*****************************************************
+/*
* adjust_4MB
*
* If a buffer intersects the 4MB boundary, push
* the start address up to the beginning of the
* next 4MB chunk (assuming bufsize < 4MB).
- *****************************************************/
-u32 adjust_4MB (u32 buf_addr, u32 bufsize) {
- if (((buf_addr+bufsize) & UPPER_10_BITS) != (buf_addr & UPPER_10_BITS))
- return (buf_addr+bufsize) & UPPER_10_BITS;
- else
- return buf_addr;
+ */
+u32 adjust_4MB(u32 buf_addr, u32 bufsize)
+{
+ if (((buf_addr+bufsize) & UPPER_10_BITS) != (buf_addr & UPPER_10_BITS))
+ return (buf_addr+bufsize) & UPPER_10_BITS;
+ else
+ return buf_addr;
}

-
-/*****************************************************
+/*
* allocate_buffers
*
* Try to allocate enough memory for all requested
* buffers. If there is not enough free space
* try for less memory.
- *****************************************************/
-void allocate_buffers (u32 *buf_addr, u32* total_size_kbs,
- u32 bufsize)
+ */
+void allocate_buffers(u32 *buf_addr, u32 *total_size_kbs, u32 bufsize)
{
- /* Compute the minimum amount of memory guaranteed to hold all
- MAXBUFFERS such that no buffer crosses the 4MB boundary.
- Store this value in the variable "full_size" */
-
- u32 allocator_max;
- u32 bufs_per_chunk = (FOUR_MB / bufsize);
- u32 filled_chunks = (MAXBUFFERS-1) / bufs_per_chunk;
- u32 leftover_bufs = MAXBUFFERS - filled_chunks * bufs_per_chunk;
-
- u32 full_size = bufsize /* possibly unusable part of 1st chunk */
- + filled_chunks * FOUR_MB /* max # of completely filled 4mb chunks */
- + leftover_bufs * bufsize; /* these buffs will be in a partly filled
- chunk at beginning or end */
-
- u32 full_size_kbs = 1 + (full_size-1) / 1024;
- u32 min_size_kbs = 2*ndevices*bufsize / 1024;
- u32 size_kbs;
-
- /* Now, try to allocate full_size. If this fails, keep trying for
- less & less memory until it succeeds. */
+ /*
+ * Compute the minimum amount of memory guaranteed to hold all
+ * MAXBUFFERS such that no buffer crosses the 4MB boundary.
+ * Store this value in the variable "full_size"
+ */
+
+ u32 allocator_max;
+ u32 bufs_per_chunk = FOUR_MB / bufsize;
+ u32 filled_chunks = (MAXBUFFERS - 1) / bufs_per_chunk;
+ u32 leftover_bufs = MAXBUFFERS - filled_chunks * bufs_per_chunk;
+
+ u32 full_size = bufsize + filled_chunks * FOUR_MB +
+ leftover_bufs * bufsize;
+
+ u32 full_size_kbs = 1 + (full_size - 1) / 1024;
+ u32 min_size_kbs = 2 * ndevices * bufsize / 1024;
+ u32 size_kbs;
+
+ /*
+ * Now, try to allocate full_size. If this fails, keep
+ * trying for less & less memory until it succeeds.
+ */
#ifndef STANDALONE_ALLOCATOR
- /* initialize the allocator */
- allocator_init(&allocator_max);
+ /* initialize the allocator */
+ allocator_init(&allocator_max);
#endif
- size_kbs = full_size_kbs;
- *buf_addr = 0;
- printk("DT3155: We would like to get: %d KB\n", full_size_kbs);
- printk("DT3155: ...but need at least: %d KB\n", min_size_kbs);
- printk("DT3155: ...the allocator has: %d KB\n", allocator_max);
- size_kbs = (full_size_kbs <= allocator_max ? full_size_kbs : allocator_max);
- if (size_kbs > min_size_kbs) {
- if ((*buf_addr = allocator_allocate_dma (size_kbs, GFP_KERNEL)) != 0) {
- printk("DT3155: Managed to allocate: %d KB\n", size_kbs);
- *total_size_kbs = size_kbs;
- return;
- }
- }
- /* If we got here, the allocation failed */
- printk ("DT3155: Allocator failed!\n");
- *buf_addr = 0;
- *total_size_kbs = 0;
- return;
-
+ size_kbs = full_size_kbs;
+ *buf_addr = 0;
+ printk("DT3155: We would like to get: %d KB\n", full_size_kbs);
+ printk("DT3155: ...but need at least: %d KB\n", min_size_kbs);
+ printk("DT3155: ...the allocator has: %d KB\n", allocator_max);
+ size_kbs = full_size_kbs <= allocator_max ? full_size_kbs : allocator_max;
+ if (size_kbs > min_size_kbs) {
+ *buf_addr = allocator_allocate_dma(size_kbs, GFP_KERNEL);
+ if (*buf_addr != 0) {
+ printk("DT3155: Managed to allocate: %d KB\n", size_kbs);
+ *total_size_kbs = size_kbs;
+ return;
+ }
+ }
+ /* If we got here, the allocation failed */
+ printk("DT3155: Allocator failed!\n");
+ *buf_addr = 0;
+ *total_size_kbs = 0;
+ return;
}

-
-/*****************************************************
+/*
* dt3155_setup_buffers
*
- * setup_buffers just puts the buffering system into
- * a consistent state before the start of interrupts
+ * setup_buffers just puts the buffering system into
+ * a consistent state before the start of interrupts
*
* JML : it looks like all the buffers need to be
* continuous. So I'm going to try and allocate one
@@ -297,220 +260,223 @@ void allocate_buffers (u32 *buf_addr, u32* total_size_kbs,
* GCS : Fix DMA problems when buffer spans
* 4MB boundary. Also, add error checking. This
* function will return -ENOMEM when not enough memory.
- *****************************************************/
+ */
u32 dt3155_setup_buffers(u32 *allocatorAddr)

{
- u32 index;
- u32 rambuff_addr; /* start of allocation */
- u32 rambuff_size; /* total size allocated to driver */
- u32 rambuff_acm; /* accumlator, keep track of how much
- is left after being split up*/
- u32 rambuff_end; /* end of rambuff */
- u32 numbufs; /* number of useful buffers allocated (per device) */
- u32 bufsize = DT3155_MAX_ROWS * DT3155_MAX_COLS;
- int m; /* minor # of device, looped for all devs */
-
- /* zero the fbuffer status and address structure */
- for ( m = 0; m < ndevices; m++)
- {
- dt3155_fbuffer[ m ] = &(dt3155_status[ m ].fbuffer);
-
- /* Make sure the buffering variables are consistent */
- {
- u8 *ptr = (u8 *) dt3155_fbuffer[ m ];
- for( index = 0; index < sizeof(struct dt3155_fbuffer_s); index++)
- *(ptr++)=0;
- }
- }
-
- /* allocate a large contiguous chunk of RAM */
- allocate_buffers (&rambuff_addr, &rambuff_size, bufsize);
- printk("DT3155: mem info\n");
- printk(" - rambuf_addr = 0x%x \n", rambuff_addr);
- printk(" - length (kb) = %u \n", rambuff_size);
- if( rambuff_addr == 0 )
- {
- printk( KERN_INFO
- "DT3155: Error setup_buffers() allocator dma failed \n" );
- return -ENOMEM;
- }
- *allocatorAddr = rambuff_addr;
- rambuff_end = rambuff_addr + 1024 * rambuff_size;
-
- /* after allocation, we need to count how many useful buffers there
- are so we can give an equal number to each device */
- rambuff_acm = rambuff_addr;
- for ( index = 0; index < MAXBUFFERS; index++) {
- rambuff_acm = adjust_4MB (rambuff_acm, bufsize);/*avoid spanning 4MB bdry*/
- if (rambuff_acm + bufsize > rambuff_end)
- break;
- rambuff_acm += bufsize;
- }
- /* Following line is OK, will waste buffers if index
- * not evenly divisible by ndevices -NJC*/
- numbufs = index / ndevices;
- printk(" - numbufs = %u\n", numbufs);
- if (numbufs < 2) {
- printk( KERN_INFO
- "DT3155: Error setup_buffers() couldn't allocate 2 bufs/board\n" );
- return -ENOMEM;
- }
-
- /* now that we have board memory we spit it up */
- /* between the boards and the buffers */
- rambuff_acm = rambuff_addr;
- for ( m = 0; m < ndevices; m ++)
- {
- rambuff_acm = adjust_4MB (rambuff_acm, bufsize);
-
- /* Save the start of this boards buffer space (for mmap). */
- dt3155_status[ m ].mem_addr = rambuff_acm;
-
- for (index = 0; index < numbufs; index++)
- {
- rambuff_acm = adjust_4MB (rambuff_acm, bufsize);
- if (rambuff_acm + bufsize > rambuff_end) {
- /* Should never happen */
- printk ("DT3155 PROGRAM ERROR (GCS)\n"
- "Error distributing allocated buffers\n");
- return -ENOMEM;
- }
-
- dt3155_fbuffer[ m ]->frame_info[ index ].addr = rambuff_acm;
- push_empty( index, m );
- /* printk(" - Buffer : %lx\n",
- * dt3155_fbuffer[ m ]->frame_info[ index ].addr );
- */
- dt3155_fbuffer[ m ]->nbuffers += 1;
- rambuff_acm += bufsize;
+ u32 index;
+ u32 rambuff_addr; /* start of allocation */
+ u32 rambuff_size; /* total size allocated to driver */
+ u32 rambuff_acm; /* accumlator, keep track of how much
+ * is left after being split up
+ */
+ u32 rambuff_end; /* end of rambuff */
+ u32 numbufs; /* number of useful buffers allocated
+ * (per device)
+ */
+ u32 bufsize = DT3155_MAX_ROWS * DT3155_MAX_COLS;
+ int m; /* minor # of device, looped for all devs */
+
+ /* zero the fbuffer status and address structure */
+ for (m = 0; m < ndevices; m++) {
+ u8 *ptr;
+
+ dt3155_fbuffer[m] = &dt3155_status[m].fbuffer;
+ *ptr = (u8 *)dt3155_fbuffer[m];
+
+ /* Make sure the buffering variables are consistent */
+ for (index = 0; index < sizeof(struct dt3155_fbuffer_s); index++)
+ *(ptr++) = 0;
}

- /* Make sure there is an active buffer there. */
- dt3155_fbuffer[ m ]->active_buf = pop_empty( m );
- dt3155_fbuffer[ m ]->even_happened = 0;
- dt3155_fbuffer[ m ]->even_stopped = 0;
-
- /* make sure there is no locked_buf JML 2/28/00 */
- dt3155_fbuffer[ m ]->locked_buf = -1;
-
- dt3155_status[ m ].mem_size =
- rambuff_acm - dt3155_status[ m ].mem_addr;
+ /* allocate a large contiguous chunk of RAM */
+ allocate_buffers(&rambuff_addr, &rambuff_size, bufsize);
+ printk("DT3155: mem info\n");
+ printk(" - rambuf_addr = 0x%x \n", rambuff_addr);
+ printk(" - length (kb) = %u \n", rambuff_size);
+ if (rambuff_addr == 0) {
+ printk(KERN_INFO
+ "DT3155: Error setup_buffers() allocator dma failed \n");
+ return -ENOMEM;
+ }
+ *allocatorAddr = rambuff_addr;
+ rambuff_end = rambuff_addr + 1024 * rambuff_size;
+
+ /*
+ * After allocation, we need to count how many useful buffers there
+ * are so we can give an equal number to each device
+ */
+ rambuff_acm = rambuff_addr;
+ for (index = 0; index < MAXBUFFERS; index++) {
+ /* avoid spanning 4MB bdry */
+ rambuff_acm = adjust_4MB(rambuff_acm, bufsize);
+ if (rambuff_acm + bufsize > rambuff_end)
+ break;
+ rambuff_acm += bufsize;
+ }
+ /* Following line is OK, will waste buffers if index
+ * not evenly divisible by ndevices -NJC
+ */
+ numbufs = index / ndevices;
+ printk(" - numbufs = %u\n", numbufs);
+ if (numbufs < 2) {
+ printk(KERN_INFO
+ "DT3155: Error setup_buffers() couldn't allocate 2 bufs/board\n");
+ return -ENOMEM;
+ }

- /* setup the ready queue */
- dt3155_fbuffer[ m ]->ready_head = 0;
- dt3155_fbuffer[ m ]->ready_len = 0;
- printk("Available buffers for device %d: %d\n",
- m, dt3155_fbuffer[ m ]->nbuffers);
- }
+ /*
+ * Now that we have board memory we spit it up
+ * between the boards and the buffers
+ */
+ rambuff_acm = rambuff_addr;
+ for (m = 0; m < ndevices; m ++) {
+ rambuff_acm = adjust_4MB(rambuff_acm, bufsize);
+
+ /* Save the start of this boards buffer space (for mmap) */
+ dt3155_status[m].mem_addr = rambuff_acm;
+
+ for (index = 0; index < numbufs; index++) {
+ rambuff_acm = adjust_4MB(rambuff_acm, bufsize);
+ if (rambuff_acm + bufsize > rambuff_end) {
+ /* Should never happen */
+ printk("DT3155 PROGRAM ERROR (GCS)\n");
+ printk("Error distributing allocated buffers\n");
+ return -ENOMEM;
+ }
+
+ dt3155_fbuffer[m]->frame_info[index].addr = rambuff_acm;
+ push_empty(index, m);
+#if 0
+ printk(" - Buffer : %lx\n",
+ dt3155_fbuffer[m]->frame_info[index].addr);
+#endif
+ dt3155_fbuffer[m]->nbuffers += 1;
+ rambuff_acm += bufsize;
+ }
+
+ /* Make sure there is an active buffer there. */
+ dt3155_fbuffer[m]->active_buf = pop_empty(m);
+ dt3155_fbuffer[m]->even_happened = 0;
+ dt3155_fbuffer[m]->even_stopped = 0;
+
+ /* make sure there is no locked_buf JML 2/28/00 */
+ dt3155_fbuffer[m]->locked_buf = -1;
+
+ dt3155_status[m].mem_size = rambuff_acm -
+ dt3155_status[m].mem_addr;
+
+ /* setup the ready queue */
+ dt3155_fbuffer[m]->ready_head = 0;
+ dt3155_fbuffer[m]->ready_len = 0;
+ printk("Available buffers for device %d: %d\n",
+ m, dt3155_fbuffer[m]->nbuffers);
+ }

- return 1;
+ return 1;
}

-/*****************************************************
+/*
* internal_release_locked_buffer
+ * m is minor # of device
*
* The internal function for releasing a locked buffer.
* It assumes interrupts are turned off.
- *
- * m is minor number of device
- *****************************************************/
-static inline void internal_release_locked_buffer( int m )
+ */
+static inline void internal_release_locked_buffer(int m)
{
- /* Pointer into global structure for handling buffers */
- if ( dt3155_fbuffer[ m ]->locked_buf >= 0 )
- {
- push_empty( dt3155_fbuffer[ m ]->locked_buf, m );
- dt3155_fbuffer[ m ]->locked_buf = -1;
- }
+ /* Pointer into global structure for handling buffers */
+ if (dt3155_fbuffer[m]->locked_buf >= 0 ) {
+ push_empty(dt3155_fbuffer[m]->locked_buf, m);
+ dt3155_fbuffer[m]->locked_buf = -1;
+ }
}


-/*****************************************************
- * dt3155_release_locked_buffer()
+/*
+ * dt3155_release_locked_buffer
* m is minor # of device
*
* The user function of the above.
- *
- *****************************************************/
-inline void dt3155_release_locked_buffer( int m )
+ */
+inline void dt3155_release_locked_buffer(int m)
{
unsigned long int flags;
+
local_save_flags(flags);
local_irq_disable();
internal_release_locked_buffer(m);
local_irq_restore(flags);
}

-
-/*****************************************************
- * dt3155_flush()
+/*
+ * dt3155_flush
* m is minor # of device
- *
- *****************************************************/
-inline int dt3155_flush( int m )
+ */
+inline int dt3155_flush(int m)
{
- int index;
- unsigned long int flags;
- local_save_flags(flags);
- local_irq_disable();
+ int index;
+ unsigned long int flags;
+
+ local_save_flags(flags);
+ local_irq_disable();

- internal_release_locked_buffer( m );
- dt3155_fbuffer[ m ]->empty_len = 0;
+ internal_release_locked_buffer(m);
+ dt3155_fbuffer[m]->empty_len = 0;

- for ( index = 0; index < dt3155_fbuffer[ m ]->nbuffers; index++ )
- push_empty( index, m );
+ for (index = 0; index < dt3155_fbuffer[m]->nbuffers; index++)
+ push_empty(index, m);

- /* Make sure there is an active buffer there. */
- dt3155_fbuffer[ m ]->active_buf = pop_empty( m );
+ /* Make sure there is an active buffer there. */
+ dt3155_fbuffer[m]->active_buf = pop_empty(m);

- dt3155_fbuffer[ m ]->even_happened = 0;
- dt3155_fbuffer[ m ]->even_stopped = 0;
+ dt3155_fbuffer[m]->even_happened = 0;
+ dt3155_fbuffer[m]->even_stopped = 0;

- /* setup the ready queue */
- dt3155_fbuffer[ m ]->ready_head = 0;
- dt3155_fbuffer[ m ]->ready_len = 0;
+ /* setup the ready queue */
+ dt3155_fbuffer[m]->ready_head = 0;
+ dt3155_fbuffer[m]->ready_len = 0;

- local_irq_restore(flags);
+ local_irq_restore(flags);

- return 0;
+ return 0;
}

-/*****************************************************
- * dt3155_get_ready_buffer()
+/*
+ * dt3155_get_ready_buffer
* m is minor # of device
*
* get_ready_buffer will grab the next chunk of data
* if it is already there, otherwise it returns 0.
* If the user has a buffer locked it will unlock
* that buffer before returning the new one.
- *****************************************************/
-inline int dt3155_get_ready_buffer( int m )
+ */
+inline int dt3155_get_ready_buffer(int m)
{
- int frame_index;
- unsigned long int flags;
- local_save_flags(flags);
- local_irq_disable();
+ int frame_index;
+ unsigned long int flags;
+
+ local_save_flags(flags);
+ local_irq_disable();

#ifdef DEBUG_QUES_A
- printques( m );
+ printques(m);
#endif

- internal_release_locked_buffer( m );
+ internal_release_locked_buffer(m);

- if (is_ready_buf_empty( m ))
- frame_index = -1;
- else
- {
- frame_index = pop_ready( m );
- dt3155_fbuffer[ m ]->locked_buf = frame_index;
- }
+ if (is_ready_buf_empty(m)) {
+ frame_index = -1;
+ } else {
+ frame_index = pop_ready(m);
+ dt3155_fbuffer[m]->locked_buf = frame_index;
+ }

#ifdef DEBUG_QUES_B
- printques( m );
+ printques(m);
#endif

- local_irq_restore(flags);
+ local_irq_restore(flags);

- return frame_index;
+ return frame_index;
}
--
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