Commit 0d776fa4 authored by Ken Cox's avatar Ken Cox Committed by Greg Kroah-Hartman

staging: unisys: remove unreferenced utility functions.

A number of functions were used for debug at one time but that code has been
removed.
Signed-off-by: default avatarKen Cox <jkc@redhat.com>
Signed-off-by: default avatarGreg Kroah-Hartman <gregkh@linuxfoundation.org>
parent 1fa21a79
...@@ -21,15 +21,8 @@ ...@@ -21,15 +21,8 @@
#include "timskmod.h" #include "timskmod.h"
void *kmalloc_kernel(size_t siz); void *kmalloc_kernel(size_t siz);
void *kmalloc_kernel_dma(size_t siz);
void kfree_kernel(const void *p, size_t siz);
void *vmalloc_kernel(size_t siz);
void vfree_kernel(const void *p, size_t siz);
void *pgalloc_kernel(size_t siz);
void pgfree_kernel(const void *p, size_t siz);
void myprintk(const char *myDrvName, const char *devname, void myprintk(const char *myDrvName, const char *devname,
const char *template, ...); const char *template, ...);
void myprintkx(const char *myDrvName, int devno, const char *template, ...);
/** Print the hexadecimal contents of a data buffer to a supplied print buffer. /** Print the hexadecimal contents of a data buffer to a supplied print buffer.
* @param dest the print buffer where text characters will be * @param dest the print buffer where text characters will be
...@@ -53,71 +46,6 @@ int hexDumpToBuffer(char *dest, ...@@ -53,71 +46,6 @@ int hexDumpToBuffer(char *dest,
int srcLen, int srcLen,
int bytesToDumpPerLine); int bytesToDumpPerLine);
/** Print the hexadecimal contents of a data buffer to a supplied print buffer.
* Assume the data buffer contains 32-bit words in little-endian format,
* and dump the words with MSB first and LSB last.
* @param dest the print buffer where text characters will be
* written
* @param destSize the maximum number of bytes that can be written
* to #dest
* @param src the buffer that contains the data that is to be
* hex-dumped
* @param srcWords the number of 32-bit words at #src to be
& hex-dumped
* @param wordsToDumpPerLine output will be formatted such that at most this
* many of the input data words will be represented
* on each line of output
* @return the number of text characters written to #dest
* (not including the trailing '\0' byte)
* @ingroup internal
*/
int hexDumpWordsToBuffer(char *dest,
int destSize,
char *prefix,
uint32_t *src,
int srcWords,
int wordsToDumpPerLine);
/** Use printk to print the hexadecimal contents of a data buffer.
* See #INFOHEXDRV and #INFOHEXDEV for info.
* @ingroup internal
*/
int myPrintkHexDump(char *myDrvName,
char *devname,
char *prefix,
char *src,
int srcLen,
int bytesToDumpPerLine);
/** Given as input a number of seconds in #seconds, creates text describing
* the time within #s. Also breaks down the number of seconds into component
* days, hours, minutes, and seconds, and stores to *#days, *#hours,
* *#minutes, and *#secondsx.
* @param seconds input number of seconds
* @param days points to a long value where the days component for the
* days+hours+minutes+seconds representation of #seconds will
* be stored
* @param hours points to a long value where the hours component for the
* days+hours+minutes+seconds representation of #seconds will
* be stored
* @param minutes points to a long value where the minutes component for the
* days+hours+minutes+seconds representation of #seconds will
* be stored
* @param secondsx points to a long value where the seconds component for the
* days+hours+minutes+seconds representation of #seconds will
* be stored
* @param s points to a character buffer where a text representation of
* the #seconds value will be stored. This buffer MUST be
* large enough to hold the resulting string; to be safe it
* should be at least 100 bytes long.
*/
void expandSeconds(time_t seconds,
long *days, long *hours,
long *minutes,
long *secondsx,
char *s);
/*--------------------------------* /*--------------------------------*
*--- GENERAL MESSAGEQ STUFF ---* *--- GENERAL MESSAGEQ STUFF ---*
*--------------------------------*/ *--------------------------------*/
...@@ -126,19 +54,10 @@ struct MessageQEntry; ...@@ -126,19 +54,10 @@ struct MessageQEntry;
/** the data structure used to hold an arbitrary data item that you want /** the data structure used to hold an arbitrary data item that you want
* to place on a #MESSAGEQ. Declare and initialize as follows: * to place on a #MESSAGEQ. Declare and initialize as follows:
* @code *
* MESSAGEQENTRY myEntry;
* initMessageQEntry (&myEntry, pointerToMyDataItem);
* @endcode
* This structure should be considered opaque; the client using it should * This structure should be considered opaque; the client using it should
* never access the fields directly. * never access the fields directly.
* Refer to these functions for more info: * Refer to these functions for more info:
* - initMessageQ()
* - initMessageQEntry()
* - enqueueMessage()
* - dequeueMessage()
* - dequeueMessageNoBlock()
* - getQueueCount()
* *
* @ingroup messageq * @ingroup messageq
*/ */
...@@ -152,17 +71,10 @@ typedef struct MessageQEntry { ...@@ -152,17 +71,10 @@ typedef struct MessageQEntry {
* Declare and initialize as follows: * Declare and initialize as follows:
* @code * @code
* MESSAGEQ myQueue; * MESSAGEQ myQueue;
* initMessageQ (&myQueue);
* @endcode * @endcode
* This structure should be considered opaque; the client using it should * This structure should be considered opaque; the client using it should
* never access the fields directly. * never access the fields directly.
* Refer to these functions for more info: * Refer to these functions for more info:
* - initMessageQ()
* - initMessageQEntry()
* - enqueueMessage()
* - dequeueMessage()
* - dequeueMessageNoBlock()
* - getQueueCount()
* *
* @ingroup messageq * @ingroup messageq
*/ */
...@@ -179,16 +91,7 @@ char *cyclesToIterationSeconds(u64 cycles, u64 cyclesPerSecond, ...@@ -179,16 +91,7 @@ char *cyclesToIterationSeconds(u64 cycles, u64 cyclesPerSecond,
u64 iterations, char *buf, size_t bufsize); u64 iterations, char *buf, size_t bufsize);
char *cyclesToSomethingsPerSecond(u64 cycles, u64 cyclesPerSecond, char *cyclesToSomethingsPerSecond(u64 cycles, u64 cyclesPerSecond,
u64 somethings, char *buf, size_t bufsize); u64 somethings, char *buf, size_t bufsize);
void initMessageQ(MESSAGEQ *q);
void initMessageQEntry(MESSAGEQENTRY *p, void *data);
MESSAGEQENTRY *dequeueMessage(MESSAGEQ *q);
MESSAGEQENTRY *dequeueMessageNoBlock(MESSAGEQ *q);
void enqueueMessage(MESSAGEQ *q, MESSAGEQENTRY *pEntry);
size_t getQueueCount(MESSAGEQ *q);
int waitQueueLen(wait_queue_head_t *q);
void debugWaitQ(wait_queue_head_t *q);
struct seq_file *seq_file_new_buffer(void *buf, size_t buf_size); struct seq_file *seq_file_new_buffer(void *buf, size_t buf_size);
void seq_file_done_buffer(struct seq_file *m); void seq_file_done_buffer(struct seq_file *m);
void seq_hexdump(struct seq_file *seq, u8 *pfx, void *buf, ulong nbytes);
#endif #endif
...@@ -22,518 +22,6 @@ ...@@ -22,518 +22,6 @@
BOOL Debug_Malloc_Enabled = FALSE; BOOL Debug_Malloc_Enabled = FALSE;
void myprintk(const char *myDrvName, const char *devname,
const char *template, ...)
{
va_list ap;
char temp[999];
char *ptemp = temp;
char pfx[20];
char msg[sizeof(pfx) + strlen(myDrvName) + 50];
if (myDrvName == NULL)
return;
temp[sizeof(temp)-1] = '\0';
pfx[0] = '\0';
msg[0] = '\0';
va_start(ap, template);
vsprintf(temp, template, ap);
va_end(ap);
if (temp[0] == '<') {
size_t i = 0;
for (i = 0; i < sizeof(pfx) - 1; i++) {
pfx[i] = temp[i];
if (pfx[i] == '>' || pfx[i] == '\0') {
if (pfx[i] == '>')
ptemp = temp+i+1;
i++;
break;
}
}
pfx[i] = '\0';
}
if (devname == NULL)
sprintf(msg, "%s%s: ", pfx, myDrvName);
else
sprintf(msg, "%s%s[%s]: ", pfx, myDrvName, devname);
printk(KERN_INFO "%s", msg);
/* The <prefix> applies up until the \n, so we should not include
* it in these printks. That's why we use <ptemp> to point to the
* first char after the ">" in the prefix.
*/
printk(KERN_INFO "%s", ptemp);
printk("\n");
}
void myprintkx(const char *myDrvName, int devno, const char *template, ...)
{
va_list ap;
char temp[999];
char *ptemp = temp;
char pfx[20];
char msg[sizeof(pfx) + strlen(myDrvName) + 50];
if (myDrvName == NULL)
return;
temp[sizeof(temp)-1] = '\0';
pfx[0] = '\0';
msg[0] = '\0';
va_start(ap, template);
vsprintf(temp, template, ap);
va_end(ap);
if (temp[0] == '<') {
size_t i = 0;
for (i = 0; i < sizeof(pfx) - 1; i++) {
pfx[i] = temp[i];
if (pfx[i] == '>' || pfx[i] == '\0') {
if (pfx[i] == '>')
ptemp = temp+i+1;
i++;
break;
}
}
pfx[i] = '\0';
}
if (devno < 0)
sprintf(msg, "%s%s: ", pfx, myDrvName);
else
sprintf(msg, "%s%s[%d]: ", pfx, myDrvName, devno);
printk(KERN_INFO "%s", msg);
/* The <prefix> applies up until the \n, so we should not include
* it in these printks. That's why we use <ptemp> to point to the
* first char after the ">" in the prefix.
*/
printk(KERN_INFO "%s", ptemp);
printk("\n");
}
int hexDumpWordsToBuffer(char *dest,
int destSize,
char *prefix,
uint32_t *src,
int srcWords,
int wordsToDumpPerLine)
{
int i = 0;
int pos = 0;
char hex[(wordsToDumpPerLine * 9) + 1];
char *line = NULL;
int linesize = 1000;
int linelen = 0;
int currentlen = 0;
char emptystring[] = "";
char *pfx = prefix;
int baseaddr = 0;
int rc = 0;
uint8_t b1, b2, b3, b4;
line = vmalloc(linesize);
if (line == NULL)
RETINT(currentlen);
if (pfx == NULL || (strlen(pfx) > 50))
pfx = emptystring;
memset(hex, ' ', wordsToDumpPerLine * 9);
hex[wordsToDumpPerLine * 9] = '\0';
if (destSize > 0)
dest[0] = '\0';
for (i = 0; i < srcWords; i++) {
pos = i % wordsToDumpPerLine;
if ((pos == 0) && (i > 0)) {
hex[wordsToDumpPerLine * 9] = '\0';
linelen = sprintf(line, "%s%-6.6x %s\n", pfx,
baseaddr, hex);
if ((currentlen) + (linelen) >= destSize)
RETINT(currentlen);
strcat(dest, line);
currentlen += linelen;
memset(hex, ' ', wordsToDumpPerLine * 9);
baseaddr = i * 4;
}
b1 = (uint8_t)((src[i] >> 24) & 0xff);
b2 = (uint8_t)((src[i] >> 16) & 0xff);
b3 = (uint8_t)((src[i] >> 8) & 0xff);
b4 = (uint8_t)((src[i]) & 0xff);
sprintf(hex + (pos * 9), "%-2.2x%-2.2x%-2.2x%-2.2x ",
b1, b2, b3, b4);
*(hex + (pos * 9) + 9) = ' '; /* get rid of null */
}
pos = i%wordsToDumpPerLine;
if (i > 0) {
hex[wordsToDumpPerLine * 9] = '\0';
linelen = sprintf(line, "%s%-6.6x %s\n", pfx, baseaddr, hex);
if ((currentlen) + (linelen) >= destSize)
RETINT(currentlen);
strcat(dest, line);
currentlen += linelen;
}
RETINT(currentlen);
Away:
if (line)
vfree(line);
return rc;
}
EXPORT_SYMBOL_GPL(hexDumpWordsToBuffer);
int myPrintkHexDump(char *myDrvName,
char *devname,
char *prefix,
char *src,
int srcLen,
int bytesToDumpPerLine)
{
int i = 0;
int pos = 0;
char printable[bytesToDumpPerLine + 1];
char hex[(bytesToDumpPerLine*3) + 1];
char *line = NULL;
int linesize = 1000;
int linelen = 0;
int currentlen = 0;
char emptystring[] = "";
char *pfx = prefix;
int baseaddr = 0;
int rc = 0;
int linecount = 0;
line = vmalloc(linesize);
if (line == NULL)
RETINT(currentlen);
if (pfx == NULL || (strlen(pfx) > 50))
pfx = emptystring;
memset(hex, ' ', bytesToDumpPerLine * 3);
hex[bytesToDumpPerLine * 3] = '\0';
memset(printable, ' ', bytesToDumpPerLine);
printable[bytesToDumpPerLine] = '\0';
for (i = 0; i < srcLen; i++) {
pos = i % bytesToDumpPerLine;
if ((pos == 0) && (i > 0)) {
hex[bytesToDumpPerLine*3] = '\0';
linelen = sprintf(line, "%s%-6.6x %s %s",
pfx, baseaddr, hex, printable);
myprintk(myDrvName, devname, KERN_INFO "%s", line);
currentlen += linelen;
linecount++;
if ((linecount % 50) == 0)
SLEEPJIFFIES(10);
memset(hex, ' ', bytesToDumpPerLine*3);
memset(printable, ' ', bytesToDumpPerLine);
baseaddr = i;
}
sprintf(hex + (pos * 3), "%-2.2x ", (uint8_t)(src[i]));
*(hex + (pos * 3) + 3) = ' '; /* get rid of null */
if (((uint8_t)(src[i]) >= ' ') && (uint8_t)(src[i]) < 127)
printable[pos] = src[i];
else
printable[pos] = '.';
}
pos = i%bytesToDumpPerLine;
if (i > 0) {
hex[bytesToDumpPerLine*3] = '\0';
linelen = sprintf(line, "%s%-6.6x %s %s",
pfx, baseaddr, hex, printable);
myprintk(myDrvName, devname, KERN_INFO "%s", line);
currentlen += linelen;
}
RETINT(currentlen);
Away:
if (line)
vfree(line);
return rc;
}
/** Given as input a number of seconds in #seconds, creates text describing
the time within #s. Also breaks down the number of seconds into component
days, hours, minutes, and seconds, and stores to *#days, *#hours,
*#minutes, and *#secondsx.
* @param seconds input number of seconds
* @param days points to a long value where the days component for the
* days+hours+minutes+seconds representation of #seconds will
* be stored
* @param hours points to a long value where the hours component for the
* days+hours+minutes+seconds representation of #seconds will
* be stored
* @param minutes points to a long value where the minutes component for the
* days+hours+minutes+seconds representation of #seconds will
* be stored
* @param secondsx points to a long value where the seconds component for the
* days+hours+minutes+seconds representation of #seconds will
* be stored
* @param s points to a character buffer where a text representation of
* the #seconds value will be stored. This buffer MUST be
* large enough to hold the resulting string; to be safe it
* should be at least 100 bytes long.
*/
void expandSeconds(time_t seconds, long *days, long *hours, long *minutes,
long *secondsx, char *s)
{
BOOL started = FALSE;
char buf[99];
*days = seconds / (60*60*24);
seconds -= ((*days)*(60*60*24));
*hours = seconds / (60*60);
seconds -= ((*hours)*(60*60));
*minutes = seconds/60;
seconds -= ((*minutes)*60);
*secondsx = (long)seconds;
if (s == NULL)
RETVOID;
s[0] = '\0';
if (*days > 0) {
sprintf(buf, "%lu day", *days);
strcat(s, buf);
if (*days != 1)
strcat(s, "s");
started = TRUE;
}
if ((*hours > 0) || started) {
if (started)
strcat(s, ", ");
sprintf(buf, "%lu hour", *hours);
strcat(s, buf);
if (*hours != 1)
strcat(s, "s");
started = TRUE;
}
if ((*minutes > 0) || started) {
if (started)
strcat(s, ", ");
sprintf(buf, "%lu minute", *minutes);
strcat(s, buf);
if (*minutes != 1)
strcat(s, "s");
started = TRUE;
}
if (started)
strcat(s, ", ");
sprintf(buf, "%lu second", *secondsx);
strcat(s, buf);
if (*secondsx != 1)
strcat(s, "s");
Away:
return;
}
/** Initialize a #MESSAGEQ for use (initially it will be empty, of course).
* @param q the #MESSAGEQ to initialize
* @ingroup messageq
*/
void initMessageQ(MESSAGEQ *q)
{
q->qHead = NULL;
q->qTail = NULL;
sema_init(&q->nQEntries, 0); /* will block initially */
spin_lock_init(&q->queueLock);
}
/** Initialize #p with your data structure in #data,
* so you can later place #p onto a #MESSAGEQ.
* @param p the queue entry that will house your data structure
* @param data a pointer to your data structure that you want
* to queue
* @ingroup messageq
*/
void initMessageQEntry(MESSAGEQENTRY *p, void *data)
{
p->data = data;
p->qNext = NULL;
p->qPrev = NULL;
}
MESSAGEQENTRY *dequeueMessageGuts(MESSAGEQ *q, BOOL canBlock)
{
MESSAGEQENTRY *pEntry = NULL;
MESSAGEQENTRY *rc = NULL;
BOOL locked = FALSE;
ulong flags = 0;
int res = 0;
if (canBlock) {
/* wait for non-empty q */
res = down_interruptible(&q->nQEntries);
if (signal_pending(current)) {
DEBUGDRV("got signal in dequeueMessage");
RETPTR(NULL);
}
} else if (down_trylock(&q->nQEntries))
RETPTR(NULL);
spin_lock_irqsave(&q->queueLock, flags);
locked = TRUE;
#ifdef PARANOID
if (q->qHead == NULL) {
HUHDRV("unexpected empty queue in getQueue");
RETPTR(NULL);
}
#endif
pEntry = q->qHead;
if (pEntry == q->qTail) {
/* only 1 item in the queue */
q->qHead = NULL;
q->qTail = NULL;
} else {
q->qHead = pEntry->qNext;
q->qHead->qPrev = NULL;
}
RETPTR(pEntry);
Away:
if (locked) {
spin_unlock_irqrestore(&q->queueLock, flags);
locked = FALSE;
}
return rc;
}
/** Remove the next message at the head of the FIFO queue, and return it.
* Wait for the queue to become non-empty if it is empty when this
* function is called.
* @param q the queue where the message is to be obtained from
* @return the queue entry obtained from the head of the
* FIFO queue, or NULL iff a signal was received
* while waiting for the queue to become non-empty
* @ingroup messageq
*/
MESSAGEQENTRY *dequeueMessage(MESSAGEQ *q)
{
return dequeueMessageGuts(q, TRUE);
}
/** Remove the next message at the head of the FIFO queue, and return it.
* This function will never block (it returns NULL instead).
* @param q the queue where the message is to be obtained from
* @return the queue entry obtained from the head of the
* FIFO queue, or NULL iff the queue is empty.
* @ingroup messageq
*/
MESSAGEQENTRY *dequeueMessageNoBlock(MESSAGEQ *q)
{
return dequeueMessageGuts(q, FALSE);
}
/** Add an entry to a FIFO queue.
* @param q the queue where the entry is to be added
* @param pEntry the entry you want to add to the queue
* @ingroup messageq
*/
void enqueueMessage(MESSAGEQ *q, MESSAGEQENTRY *pEntry)
{
BOOL locked = FALSE;
ulong flags = 0;
spin_lock_irqsave(&q->queueLock, flags);
locked = TRUE;
if (q->qHead == NULL) {
#ifdef PARANOID
if (q->qTail != NULL) {
HUHDRV("qHead/qTail not consistent");
RETVOID;
}
#endif
q->qHead = pEntry;
q->qTail = pEntry;
pEntry->qNext = NULL;
pEntry->qPrev = NULL;
} else {
#ifdef PARANOID
if (q->qTail == NULL) {
HUHDRV("qTail should not be NULL here");
RETVOID;
}
#endif
q->qTail->qNext = pEntry;
pEntry->qPrev = q->qTail;
pEntry->qNext = NULL;
q->qTail = pEntry;
}
spin_unlock_irqrestore(&q->queueLock, flags);
locked = FALSE;
up(&q->nQEntries);
RETVOID;
Away:
if (locked) {
spin_unlock_irqrestore(&q->queueLock, flags);
locked = FALSE;
}
return;
}
/** Return the number of entries in the queue.
* @param q the queue to be examined
* @return the number of entries on #q
* @ingroup messageq
*/
size_t getQueueCount(MESSAGEQ *q)
{
return (size_t)__sync_fetch_and_add(&(q->nQEntries.count), 0);
}
/** Return the number of processes waiting in a standard wait queue.
* @param q the pointer to the wait queue to be
* examined
* @return the number of waiters
* @ingroup internal
*/
int waitQueueLen(wait_queue_head_t *q)
{
struct list_head *x;
int count = 0;
list_for_each(x, &(q->task_list))
count++;
return count;
}
/** Display information about the processes on a standard wait queue.
* @param q the pointer to the wait queue to be
* examined
* @ingroup internal
*/
void debugWaitQ(wait_queue_head_t *q)
{
DEBUGDRV("task_list.next= %-8.8x",
((struct __wait_queue_head *)(q))->task_list.next);
DEBUGDRV("task_list.prev= %-8.8x",
((struct __wait_queue_head *)(q))->task_list.prev);
}
/** Print the hexadecimal contents of a data buffer to a supplied print buffer. /** Print the hexadecimal contents of a data buffer to a supplied print buffer.
* @param dest the print buffer where text characters will * @param dest the print buffer where text characters will
* be written * be written
...@@ -629,39 +117,6 @@ void *kmalloc_kernel(size_t siz) ...@@ -629,39 +117,6 @@ void *kmalloc_kernel(size_t siz)
return kmalloc(siz, GFP_KERNEL | __GFP_NORETRY); return kmalloc(siz, GFP_KERNEL | __GFP_NORETRY);
} }
void *kmalloc_kernel_dma(size_t siz)
{
return kmalloc(siz, GFP_KERNEL | __GFP_NORETRY|GFP_DMA);
}
void kfree_kernel(const void *p, size_t siz)
{
kfree(p);
}
void *vmalloc_kernel(size_t siz)
{
return vmalloc((unsigned long)(siz));
}
void vfree_kernel(const void *p, size_t siz)
{
vfree((void *)(p));
}
void *pgalloc_kernel(size_t siz)
{
return (void *)__get_free_pages(GFP_KERNEL|__GFP_NORETRY,
get_order(siz));
}
void pgfree_kernel(const void *p, size_t siz)
{
free_pages((ulong)(p), get_order(siz));
}
/* Use these handy-dandy seq_file_xxx functions if you want to call some /* Use these handy-dandy seq_file_xxx functions if you want to call some
* functions that write stuff into a seq_file, but you actually just want * functions that write stuff into a seq_file, but you actually just want
* to dump that output into a buffer. Use them as follows: * to dump that output into a buffer. Use them as follows:
...@@ -699,23 +154,3 @@ void seq_file_done_buffer(struct seq_file *m) ...@@ -699,23 +154,3 @@ void seq_file_done_buffer(struct seq_file *m)
kfree(m); kfree(m);
} }
EXPORT_SYMBOL_GPL(seq_file_done_buffer); EXPORT_SYMBOL_GPL(seq_file_done_buffer);
void seq_hexdump(struct seq_file *seq, u8 *pfx, void *buf, ulong nbytes)
{
int fmtbufsize = 100 * COVQ(nbytes, 16);
char *fmtbuf = NULL;
int i = 0;
if (buf == NULL) {
seq_printf(seq, "%s<NULL>\n", pfx);
return;
}
fmtbuf = kmalloc_kernel(fmtbufsize);
if (fmtbuf == NULL)
return;
hexDumpToBuffer(fmtbuf, fmtbufsize, pfx, (char *)(buf), nbytes, 16);
for (i = 0; fmtbuf[i] != '\0'; i++)
seq_printf(seq, "%c", fmtbuf[i]);
kfree(fmtbuf);
}
Markdown is supported
0%
or
You are about to add 0 people to the discussion. Proceed with caution.
Finish editing this message first!
Please register or to comment