提交 87c5fa1b 编写于 作者: A Andreas Eversberg 提交者: Karsten Keil

mISDN: Add different different timer settings for hfc-pci

     - Poll-timer can now be set from 8 to 256 samples, depending on your kernel.
     - If default or 128 is used, the normal controller's clock is used as before.
       Usage: modprobe hfcpci poll=XXX
     - Added some debug code for dsp buffer size. (CMX_DELAY_DEBUG)
Signed-off-by: NAndreas Eversberg <andreas@eversberg.eu>
Signed-off-by: NKarsten Keil <kkeil@suse.de>
上级 1b36c78f
......@@ -26,7 +26,6 @@
* change mask and threshold simultaneously
*/
#define HFCPCI_BTRANS_THRESHOLD 128
#define HFCPCI_BTRANS_MAX 256
#define HFCPCI_FILLEMPTY 64
#define HFCPCI_BTRANS_THRESMASK 0x00
......
......@@ -23,6 +23,25 @@
* along with this program; if not, write to the Free Software
* Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
*
* Module options:
*
* debug:
* NOTE: only one poll value must be given for all cards
* See hfc_pci.h for debug flags.
*
* poll:
* NOTE: only one poll value must be given for all cards
* Give the number of samples for each fifo process.
* By default 128 is used. Decrease to reduce delay, increase to
* reduce cpu load. If unsure, don't mess with it!
* A value of 128 will use controller's interrupt. Other values will
* use kernel timer, because the controller will not allow lower values
* than 128.
* Also note that the value depends on the kernel timer frequency.
* If kernel uses a frequency of 1000 Hz, steps of 8 samples are possible.
* If the kernel uses 100 Hz, steps of 80 samples are possible.
* If the kernel uses 300 Hz, steps of about 26 samples are possible.
*
*/
#include <linux/module.h>
......@@ -36,10 +55,14 @@ static const char *hfcpci_revision = "2.0";
static int HFC_cnt;
static uint debug;
static uint poll, tics;
struct timer_list hfc_tl;
u32 hfc_jiffies;
MODULE_AUTHOR("Karsten Keil");
MODULE_LICENSE("GPL");
module_param(debug, uint, 0);
module_param(poll, uint, S_IRUGO | S_IWUSR);
static LIST_HEAD(HFClist);
static DEFINE_RWLOCK(HFClock);
......@@ -519,9 +542,9 @@ receive_dmsg(struct hfc_pci *hc)
}
/*
* check for transparent receive data and read max one threshold size if avail
* check for transparent receive data and read max one 'poll' size if avail
*/
static int
static void
hfcpci_empty_fifo_trans(struct bchannel *bch, struct bzfifo *bz, u_char *bdata)
{
__le16 *z1r, *z2r;
......@@ -533,17 +556,19 @@ hfcpci_empty_fifo_trans(struct bchannel *bch, struct bzfifo *bz, u_char *bdata)
fcnt = le16_to_cpu(*z1r) - le16_to_cpu(*z2r);
if (!fcnt)
return 0; /* no data avail */
return; /* no data avail */
if (fcnt <= 0)
fcnt += B_FIFO_SIZE; /* bytes actually buffered */
if (fcnt > HFCPCI_BTRANS_THRESHOLD)
fcnt = HFCPCI_BTRANS_THRESHOLD; /* limit size */
new_z2 = le16_to_cpu(*z2r) + fcnt; /* new position in fifo */
if (new_z2 >= (B_FIFO_SIZE + B_SUB_VAL))
new_z2 -= B_FIFO_SIZE; /* buffer wrap */
if (fcnt > MAX_DATA_SIZE) { /* flush, if oversized */
*z2r = cpu_to_le16(new_z2); /* new position */
return;
}
bch->rx_skb = mI_alloc_skb(fcnt, GFP_ATOMIC);
if (bch->rx_skb) {
ptr = skb_put(bch->rx_skb, fcnt);
......@@ -568,7 +593,6 @@ hfcpci_empty_fifo_trans(struct bchannel *bch, struct bzfifo *bz, u_char *bdata)
printk(KERN_WARNING "HFCPCI: receive out of memory\n");
*z2r = cpu_to_le16(new_z2); /* new position */
return 1;
}
/*
......@@ -579,12 +603,11 @@ main_rec_hfcpci(struct bchannel *bch)
{
struct hfc_pci *hc = bch->hw;
int rcnt, real_fifo;
int receive, count = 5;
int receive = 0, count = 5;
struct bzfifo *bz;
u_char *bdata;
struct zt *zp;
if ((bch->nr & 2) && (!hc->hw.bswapped)) {
bz = &((union fifo_area *)(hc->hw.fifos))->b_chans.rxbz_b2;
bdata = ((union fifo_area *)(hc->hw.fifos))->b_chans.rxdat_b2;
......@@ -624,9 +647,10 @@ main_rec_hfcpci(struct bchannel *bch)
receive = 1;
else
receive = 0;
} else if (test_bit(FLG_TRANSPARENT, &bch->Flags))
receive = hfcpci_empty_fifo_trans(bch, bz, bdata);
else
} else if (test_bit(FLG_TRANSPARENT, &bch->Flags)) {
hfcpci_empty_fifo_trans(bch, bz, bdata);
return;
} else
receive = 0;
if (count && receive)
goto Begin;
......@@ -782,9 +806,9 @@ hfcpci_fill_fifo(struct bchannel *bch)
next_t_frame:
count = bch->tx_skb->len - bch->tx_idx;
/* maximum fill shall be HFCPCI_BTRANS_MAX */
if (count > HFCPCI_BTRANS_MAX - fcnt)
count = HFCPCI_BTRANS_MAX - fcnt;
/* maximum fill shall be poll*2 */
if (count > (poll << 1) - fcnt)
count = (poll << 1) - fcnt;
if (count <= 0)
return;
/* data is suitable for fifo */
......@@ -1164,37 +1188,37 @@ hfcpci_int(int intno, void *dev_id)
val &= ~0x80;
Write_hfc(hc, HFCPCI_CTMT, hc->hw.ctmt | HFCPCI_CLTIMER);
}
if (val & 0x08) {
if (val & 0x08) { /* B1 rx */
bch = Sel_BCS(hc, hc->hw.bswapped ? 2 : 1);
if (bch)
main_rec_hfcpci(bch);
else if (hc->dch.debug)
printk(KERN_DEBUG "hfcpci spurious 0x08 IRQ\n");
}
if (val & 0x10) {
if (val & 0x10) { /* B2 rx */
bch = Sel_BCS(hc, 2);
if (bch)
main_rec_hfcpci(bch);
else if (hc->dch.debug)
printk(KERN_DEBUG "hfcpci spurious 0x10 IRQ\n");
}
if (val & 0x01) {
if (val & 0x01) { /* B1 tx */
bch = Sel_BCS(hc, hc->hw.bswapped ? 2 : 1);
if (bch)
tx_birq(bch);
else if (hc->dch.debug)
printk(KERN_DEBUG "hfcpci spurious 0x01 IRQ\n");
}
if (val & 0x02) {
if (val & 0x02) { /* B2 tx */
bch = Sel_BCS(hc, 2);
if (bch)
tx_birq(bch);
else if (hc->dch.debug)
printk(KERN_DEBUG "hfcpci spurious 0x02 IRQ\n");
}
if (val & 0x20)
if (val & 0x20) /* D rx */
receive_dmsg(hc);
if (val & 0x04) { /* dframe transmitted */
if (val & 0x04) { /* D tx */
if (test_and_clear_bit(FLG_BUSY_TIMER, &hc->dch.Flags))
del_timer(&hc->dch.timer);
tx_dirq(&hc->dch);
......@@ -1203,6 +1227,41 @@ hfcpci_int(int intno, void *dev_id)
return IRQ_HANDLED;
}
static void
hfcpci_softirq(void *arg)
{
u_long flags;
struct bchannel *bch;
struct hfc_pci *hc;
write_lock_irqsave(&HFClock, flags);
list_for_each_entry(hc, &HFClist, list) {
if (hc->hw.int_m2 & HFCPCI_IRQ_ENABLE) {
spin_lock(&hc->lock);
bch = Sel_BCS(hc, hc->hw.bswapped ? 2 : 1);
if (bch && bch->state == ISDN_P_B_RAW) { /* B1 rx&tx */
main_rec_hfcpci(bch);
tx_birq(bch);
}
bch = Sel_BCS(hc, hc->hw.bswapped ? 1 : 2);
if (bch && bch->state == ISDN_P_B_RAW) { /* B2 rx&tx */
main_rec_hfcpci(bch);
tx_birq(bch);
}
spin_unlock(&hc->lock);
}
}
write_unlock_irqrestore(&HFClock, flags);
/* if next event would be in the past ... */
if ((s32)(hfc_jiffies + tics - jiffies) <= 0)
hfc_jiffies = jiffies + 1;
else
hfc_jiffies += tics;
hfc_tl.expires = hfc_jiffies;
add_timer(&hfc_tl);
}
/*
* timer callback for D-chan busy resolution. Currently no function
*/
......@@ -1312,12 +1371,14 @@ mode_hfcpci(struct bchannel *bch, int bc, int protocol)
}
if (fifo2 & 2) {
hc->hw.fifo_en |= HFCPCI_FIFOEN_B2;
if (!tics)
hc->hw.int_m1 |= (HFCPCI_INTS_B2TRANS +
HFCPCI_INTS_B2REC);
hc->hw.ctmt |= 2;
hc->hw.conn &= ~0x18;
} else {
hc->hw.fifo_en |= HFCPCI_FIFOEN_B1;
if (!tics)
hc->hw.int_m1 |= (HFCPCI_INTS_B1TRANS +
HFCPCI_INTS_B1REC);
hc->hw.ctmt |= 1;
......@@ -1427,6 +1488,7 @@ set_hfcpci_rxtest(struct bchannel *bch, int protocol, int chan)
if (chan & 2) {
hc->hw.sctrl_r |= SCTRL_B2_ENA;
hc->hw.fifo_en |= HFCPCI_FIFOEN_B2RX;
if (!tics)
hc->hw.int_m1 |= HFCPCI_INTS_B2REC;
hc->hw.ctmt |= 2;
hc->hw.conn &= ~0x18;
......@@ -1436,6 +1498,7 @@ set_hfcpci_rxtest(struct bchannel *bch, int protocol, int chan)
} else {
hc->hw.sctrl_r |= SCTRL_B1_ENA;
hc->hw.fifo_en |= HFCPCI_FIFOEN_B1RX;
if (!tics)
hc->hw.int_m1 |= HFCPCI_INTS_B1REC;
hc->hw.ctmt |= 1;
hc->hw.conn &= ~0x03;
......@@ -2273,7 +2336,39 @@ HFC_init(void)
{
int err;
if (!poll)
poll = HFCPCI_BTRANS_THRESHOLD;
if (poll != HFCPCI_BTRANS_THRESHOLD) {
tics = poll * HZ / 8000;
if (tics < 1)
tics = 1;
poll = tics * 8000 / HZ;
if (poll > 256 || poll < 8) {
printk(KERN_ERR "%s: Wrong poll value %d not in range "
"of 8..256.\n", __func__, poll);
err = -EINVAL;
return err;
}
}
if (poll != HFCPCI_BTRANS_THRESHOLD) {
printk(KERN_INFO "%s: Using alternative poll value of %d\n",
__func__, poll);
hfc_tl.function = (void *)hfcpci_softirq;
hfc_tl.data = 0;
init_timer(&hfc_tl);
hfc_tl.expires = jiffies + tics;
hfc_jiffies = hfc_tl.expires;
add_timer(&hfc_tl);
} else
tics = 0; /* indicate the use of controller's timer */
err = pci_register_driver(&hfc_driver);
if (err) {
if (timer_pending(&hfc_tl))
del_timer(&hfc_tl);
}
return err;
}
......@@ -2282,6 +2377,9 @@ HFC_cleanup(void)
{
struct hfc_pci *card, *next;
if (timer_pending(&hfc_tl))
del_timer(&hfc_tl);
list_for_each_entry_safe(card, next, &HFClist, list) {
release_card(card);
}
......
......@@ -137,6 +137,7 @@
/* #define CMX_CONF_DEBUG */
/*#define CMX_DEBUG * massive read/write pointer output */
/*#define CMX_DELAY_DEBUG * gives rx-buffer delay overview */
/*#define CMX_TX_DEBUG * massive read/write on tx-buffer with content */
static inline int
......@@ -1135,6 +1136,25 @@ dsp_cmx_conf(struct dsp *dsp, u32 conf_id)
return 0;
}
#ifdef CMX_DELAY_DEBUG
int delaycount;
static void
showdelay(struct dsp *dsp, int samples, int delay)
{
char bar[] = "--------------------------------------------------|";
int sdelay;
delaycount += samples;
if (delaycount < 8000)
return;
delaycount = 0;
sdelay = delay * 50 / (dsp_poll << 2);
printk(KERN_DEBUG "DELAY (%s) %3d >%s\n", dsp->name, delay,
sdelay > 50 ? "..." : bar + 50 - sdelay);
}
#endif
/*
* audio data is received from card
......@@ -1256,6 +1276,9 @@ dsp_cmx_receive(struct dsp *dsp, struct sk_buff *skb)
/* increase write-pointer */
dsp->rx_W = ((dsp->rx_W+len) & CMX_BUFF_MASK);
#ifdef CMX_DELAY_DEBUG
showdelay(dsp, len, (dsp->rx_W-dsp->rx_R) & CMX_BUFF_MASK);
#endif
}
......
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