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Diffstat (limited to 'main/dahdi-linux-grsec/dahdi-linux-2.2.0-hfc-4s.patch')
-rw-r--r--main/dahdi-linux-grsec/dahdi-linux-2.2.0-hfc-4s.patch553
1 files changed, 553 insertions, 0 deletions
diff --git a/main/dahdi-linux-grsec/dahdi-linux-2.2.0-hfc-4s.patch b/main/dahdi-linux-grsec/dahdi-linux-2.2.0-hfc-4s.patch
new file mode 100644
index 000000000..67857e2f7
--- /dev/null
+++ b/main/dahdi-linux-grsec/dahdi-linux-2.2.0-hfc-4s.patch
@@ -0,0 +1,553 @@
+--- a/drivers/dahdi/wcb4xxp/base.c 2009-06-24 13:17:03.000000000 +0000
++++ b/drivers/dahdi/wcb4xxp/base.c 2009-06-24 13:40:15.000000000 +0000
+@@ -75,7 +75,7 @@
+ #define DBG_SPANFILTER ((1 << bspan->port) & spanfilter)
+
+ static int debug = 0;
+-static int spanfilter = 15;
++static int spanfilter = 255; /* Bitmap .. 1, 2, 4, 8, 16, 32, 64, 128 for ports 1-8 */
+ #ifdef LOOPBACK_SUPPORTED
+ static int loopback = 0;
+ #endif
+@@ -114,9 +114,21 @@
+ struct devtype {
+ char *desc;
+ unsigned int flags;
++ int ports; /* Number of ports the card has */
++ int has_ec; /* Does the card have an Echo Canceller */
++ enum cards_ids card_type; /* Card type - Digium B410P, ... */
+ };
+
+-static struct devtype wcb4xxp = { "Wildcard B410P", 0 };
++static struct devtype wcb4xxp = { "Wildcard B410P", .ports = 4, .has_ec = 1, .card_type = B410P };
++static struct devtype hfc2s = { "HFC-2S Junghanns.NET duoBRI PCI", .ports = 2, .has_ec = 0, .card_type = DUOBRI };
++static struct devtype hfc4s = { "HFC-4S Junghanns.NET quadBRI PCI", .ports = 4, .has_ec = 0, .card_type = QUADBRI };
++static struct devtype hfc8s = { "HFC-4S Junghanns.NET octoBRI PCI", .ports = 8, .has_ec = 0, .card_type = OCTOBRI };
++static struct devtype hfc2s_OV ={ "OpenVox B200P", .ports = 2, .has_ec = 0, .card_type = B200P_OV };
++static struct devtype hfc4s_OV ={ "OpenVox B400P", .ports = 4, .has_ec = 0, .card_type = B400P_OV };
++static struct devtype hfc8s_OV ={ "OpenVox B800P", .ports = 8, .has_ec = 0, .card_type = B800P_OV };
++static struct devtype hfc2s_BN ={ "BeroNet BN2S0", .ports = 2, .has_ec = 0, .card_type = BN2S0 };
++static struct devtype hfc4s_BN ={ "BeroNet BN4S0", .ports = 4, .has_ec = 0, .card_type = BN4S0 };
++static struct devtype hfc8s_BN ={ "BeroNet BN8S0", .ports = 8, .has_ec = 0, .card_type = BN8S0 };
+
+ static int echocan_create(struct dahdi_chan *chan, struct dahdi_echocanparams *ecp,
+ struct dahdi_echocanparam *p, struct dahdi_echocan_state **ec);
+@@ -403,7 +415,14 @@
+
+ mb();
+
+- b4xxp_setreg8(b4, R_GPIO_SEL, 0xf0); /* GPIO0..7 S/T, 8..15 GPIO */
++ if ((b4->card_type == OCTOBRI) || (b4->card_type == B800P_OV) || (b4->card_type == BN8S0))
++ {
++ b4xxp_setreg8(b4, R_GPIO_SEL, 0x00); /* GPIO0..15 S/T - HFC-8S uses GPIO8-15 for S/T ports 5-8 */
++ }
++ else
++ {
++ b4xxp_setreg8(b4, R_GPIO_SEL, 0xf0); /* GPIO0..7 S/T, 8..15 GPIO */
++ }
+
+ mb();
+
+@@ -618,13 +637,16 @@
+ unsigned char b;
+ unsigned int i, j, mask;
+
++ if (! b4->has_ec) /* Avoid Echo Cancelling for non hardware echo canceller cards */
++ return;
++
+ /* Setup GPIO */
+ for (i=0; i < NUM_EC; i++) {
+ b = ec_read(b4, i, 0x1a0);
+
+ dev_info(b4->dev, "VPM %d/%d init: chip ver %02x\n", i, NUM_EC - 1, b);
+
+- for (j=0; j < 4; j++) {
++ for (j=0; j < b4->numspans; j++) {
+ ec_write(b4, i, 0x1a8 + j, 0x00); /* GPIO out */
+ ec_write(b4, i, 0x1ac + j, 0x00); /* GPIO dir */
+ ec_write(b4, i, 0x1b0 + j, 0x00); /* GPIO sel */
+@@ -1008,7 +1030,15 @@
+ int fifo, hfc_chan;
+ unsigned long irq_flags;
+
+- fifo = port + 8;
++ if ((b4->card_type == B800P_OV) || (b4->card_type == OCTOBRI) || (b4->card_type == BN8S0))
++ {
++ fifo = port + 16; /* In HFC-8S cards we can't use ports 8-11 for dchan FIFOs */
++ }
++ else
++ {
++ fifo = port + 8;
++ }
++
+ hfc_chan = (port * 4) + 2;
+
+ /* record the host's FIFO # in the span fifo array */
+@@ -1210,7 +1240,7 @@
+ int i, j;
+ struct b4xxp_span *s;
+
+- for (i=0; i < 4; i++) {
++ for (i=0; i < b4->numspans; i++) {
+ s = &b4->spans[i];
+
+ for (j=HFC_T1; j <= HFC_T3; j++) {
+@@ -1413,12 +1443,21 @@
+
+ gpio = b4xxp_getreg8(b4, R_GPI_IN3);
+
+- for (i=0; i < 4; i++) {
++ for (i=0; i < b4->numspans; i++) {
+ s = &b4->spans[i];
+ s->parent = b4;
+ s->port = i;
+
+- nt = ((gpio & (1 << (i + 4))) == 0); /* GPIO=0 = NT mode */
++ /* The way the Digium B410P card reads the NT/TE mode
++ * jumper is the oposite of how other HFC-4S cards do:
++ * - In B410P: GPIO=0: NT
++ * - In Junghanns: GPIO=0: TE
++ */
++ if (b4->card_type == B410P)
++ nt = ((gpio & (1 << (i + 4))) == 0);
++ else
++ nt = ((gpio & (1 << (i + 4))) != 0);
++
+ s->te_mode = !nt;
+
+ dev_info(b4->dev, "Port %d: %s mode\n", i + 1, (nt ? "NT" : "TE"));
+@@ -1774,9 +1813,15 @@
+
+ /*
+ * set up the clock controller
+- * we have a 24.576MHz crystal, so the PCM clock is 2x the incoming clock.
++ * B410P has a 24.576MHz crystal, so the PCM clock is 2x the incoming clock.
++ * Other cards have a 49.152Mhz crystal, so the PCM clock equals incoming clock.
+ */
+- b4xxp_setreg8(b4, R_BRG_PCM_CFG, 0x02);
++
++ if (b4->card_type == B410P)
++ b4xxp_setreg8(b4, R_BRG_PCM_CFG,0x02);
++ else
++ b4xxp_setreg8(b4, R_BRG_PCM_CFG, V_PCM_CLK);
++
+ flush_pci();
+
+ udelay(100); /* wait a bit for clock to settle */
+@@ -1807,7 +1852,7 @@
+
+ /*
+ * set up the flow controller.
+- * B channel map:
++ * B channel map: (4 ports cards with Hardware Echo Cancel present & active)
+ * FIFO 0 connects Port 1 B0 using HFC channel 16 and PCM timeslots 0/1.
+ * FIFO 1 connects Port 1 B1 using HFC channel 17 and PCM timeslots 4/5.
+ * FIFO 2 connects Port 2 B0 using HFC channel 20 and PCM timeslots 8/9.
+@@ -1822,14 +1867,35 @@
+ *
+ * D channels are handled by FIFOs 8-11.
+ * FIFO 8 connects Port 1 D using HFC channel 3
+- * FIFO 9 connects Port 1 D using HFC channel 7
+- * FIFO 10 connects Port 1 D using HFC channel 11
+- * FIFO 11 connects Port 1 D using HFC channel 15
++ * FIFO 9 connects Port 2 D using HFC channel 7
++ * FIFO 10 connects Port 3 D using HFC channel 11
++ * FIFO 11 connects Port 4 D using HFC channel 15
++ *
++ * D channel FIFOs are operated in HDLC mode and interrupt on end of frame.
++ *
++ * B channel map: (8 ports cards without Hardware Echo Cancel)
++ * FIFO 0 connects Port 1 B0 using HFC channel 0
++ * FIFO 1 connects Port 1 B1 using HFC channel 1
++ * FIFO 2 connects Port 2 B0 using HFC channel 4
++ * FIFO 3 connects Port 2 B1 using HFC channel 5
++ * .........................
++ * FIFO 14 connects Port 8 B0 using HFC channel 28
++ * FIFO 15 connects Port 8 B1 using HFC channel 29
++ *
++ * All B channel FIFOs have their HDLC controller in transparent mode,
++ * and only the FIFO for B0 on each port has its interrupt operational.
+ *
++ * D channels are handled by FIFOs 16-23.
++ * FIFO 16 connects Port 1 D using HFC channel 3
++ * FIFO 17 connects Port 2 D using HFC channel 7
++ * FIFO 18 connects Port 3 D using HFC channel 11
++ * FIFO 19 connects Port 4 D using HFC channel 15
++ * ................
++ * FIFO 23 connects Port 8 D using HFC channel 31
+ * D channel FIFOs are operated in HDLC mode and interrupt on end of frame.
+ */
+ for (span=0; span < b4->numspans; span++) {
+- if (vpmsupport) {
++ if ((vpmsupport) && (b4->has_ec)) {
+ hfc_assign_bchan_fifo_ec(b4, span, 0);
+ hfc_assign_bchan_fifo_ec(b4, span, 1);
+ } else {
+@@ -1854,6 +1920,145 @@
+ ec_write(b4, 0, 0x1a8 + 3, val);
+ }
+
++static void b4xxp_update_leds_hfc_8s(struct b4xxp *b4)
++{
++ unsigned long lled;
++ unsigned long leddw;
++ int i,j;
++ struct b4xxp_span *bspan;
++ lled = 0;
++ j=8;
++
++ b4->blinktimer++;
++ for (i=0; i < 8; i++) {
++ bspan = &b4->spans[i];
++ j = j -1 ; /* Leds are in reverse order - Led 7 => Port 0 */
++ if (bspan->span.flags & DAHDI_FLAG_RUNNING) {
++ if (bspan->span.alarms) {
++ lled |= 1 << j; /* Led OFF in alarm state */
++ } else if (bspan->span.mainttimer || bspan->span.maintstat) {
++ if (b4->blinktimer >= 0x7f) /* Led Blinking in maint state */
++ {
++ lled |= 1 << j;
++ }
++ else
++ {
++ lled |= 0 << j;
++ }
++ } else {
++
++ lled |= 0 << j; /* Led ON - No alarms */
++ }
++ }
++ else
++ lled |= 1 << j; /* Led OFF - Not running */
++ }
++ /* Write Leds...*/
++ leddw = lled << 24 | lled << 16 | lled << 8 | lled;
++ b4xxp_setreg8(b4, R_BRG_PCM_CFG, 0x21);
++ iowrite16(0x4000, b4->ioaddr + 4);
++ iowrite32(leddw, b4->ioaddr);
++ b4xxp_setreg8(b4, R_BRG_PCM_CFG, 0x20);
++
++ if (b4->blinktimer == 0xff) {
++ b4->blinktimer = -1;
++ }
++}
++
++static void b4xxp_update_leds_hfc(struct b4xxp *b4)
++{
++ int i, leds;
++ int led[4];
++ struct b4xxp_span *bspan;
++
++ b4->blinktimer++;
++ for (i=0; i < b4->numspans; i++) {
++ bspan = &b4->spans[i];
++
++ if (bspan->span.flags & DAHDI_FLAG_RUNNING) {
++ if (bspan->span.alarms) {
++ if (b4->blinktimer >= 0x7f) /* Red blinking -> Alarm */
++ {
++ led[i] = 2;
++ }
++ else
++ {
++ led[i] = 0;
++ }
++ } else if (bspan->span.mainttimer || bspan->span.maintstat) {
++ if (b4->blinktimer >= 0x7f) /* Green blinking -> Maint status */
++ {
++ led[i] = 1;
++ }
++ else
++ {
++ led[i] = 0;
++ }
++ } else {
++ /* No Alarm - Green */
++ led[i] = 1;
++ }
++ }
++ else
++ led[i] = 0; /* OFF - Not running */
++ }
++
++ /* Each card manage leds in a different way. So one section per card type */
++
++ if (b4->card_type == B400P_OV) {
++ leds = ((led[0] > 0) << 0) | ((led[1] > 0) << 1) |
++ ((led[2] > 0) << 2) | ((led[3] > 0) << 3) |
++ ((led[0] & 1) << 4) | ((led[1] & 1) << 5) |
++ ((led[2] & 1) << 6) | ((led[3] & 1) << 7); /* Tested OK */
++ b4xxp_setreg8(b4, R_GPIO_EN1, leds & 0x0f);
++ b4xxp_setreg8(b4, R_GPIO_OUT1, leds >> 4);
++ }
++
++ else if (b4->card_type == QUADBRI) {
++ leds = ((led[0] > 0) << 0) | ((led[1] > 0) << 1) |
++ ((led[2] > 0) << 2) | ((led[3] > 0) << 3) |
++ ((led[0] & 1) << 4) | ((led[1] & 1) << 5) |
++ ((led[2] & 1) << 6) | ((led[3] & 1) << 7); /* UNTESTED */
++ b4xxp_setreg8(b4, R_GPIO_EN1, leds & 0x0f);
++ b4xxp_setreg8(b4, R_GPIO_OUT1, leds >> 4);
++ }
++
++ else if (b4->card_type == BN4S0) {
++ leds = ((led[0] > 0) << 0) | ((led[1] > 0) << 1) |
++ ((led[2] > 0) << 2) | ((led[3] > 0) << 3) |
++ ((led[0] & 1) << 4) | ((led[1] & 1) << 5) |
++ ((led[2] & 1) << 6) | ((led[3] & 1) << 7); /* UNTESTED */
++ b4xxp_setreg8(b4, R_GPIO_EN1, leds & 0x0f);
++ b4xxp_setreg8(b4, R_GPIO_OUT1, leds >> 4);
++ }
++
++ else if (b4->card_type == B200P_OV) {
++ leds = ((led[0] > 0) << 0) | ((led[1] > 0) << 1) |
++ ((led[0] & 1) << 4) | ((led[1] & 1) << 5);
++ b4xxp_setreg8(b4, R_GPIO_EN1, leds & 0x0f);
++ b4xxp_setreg8(b4, R_GPIO_OUT1, leds >> 4); /* Tested OK */
++ }
++
++ else if (b4->card_type == DUOBRI) {
++ leds = ((led[0] > 0) << 0) | ((led[1] > 0) << 1) |
++ ((led[0] & 1) << 4) | ((led[1] & 1) << 5);
++ b4xxp_setreg8(b4, R_GPIO_EN1, leds & 0x0f);
++ b4xxp_setreg8(b4, R_GPIO_OUT1, leds >> 4); /* UNTESTED */
++ }
++
++ else if (b4->card_type == BN2S0) {
++ leds = ((led[0] > 0) << 0) | ((led[1] > 0) << 1) |
++ ((led[0] & 1) << 4) | ((led[1] & 1) << 5);
++ b4xxp_setreg8(b4, R_GPIO_EN1, leds & 0x0f);
++ b4xxp_setreg8(b4, R_GPIO_OUT1, leds >> 4); /* UNTESTED */
++ }
++
++ if (b4->blinktimer == 0xff) {
++ b4->blinktimer = -1;
++ }
++
++}
++
+ static void b4xxp_set_span_led(struct b4xxp *b4, int span, unsigned char val)
+ {
+ int shift, spanmask;
+@@ -1871,6 +2076,18 @@
+ int i;
+ struct b4xxp_span *bspan;
+
++ if (b4->numspans == 8) {
++ /* Use the alternative function for non-Digium HFC-8S cards */
++ b4xxp_update_leds_hfc_8s(b4);
++ return;
++ }
++
++ if (b4->card_type != B410P) {
++ /* Use the alternative function for non-Digium HFC-4S cards */
++ b4xxp_update_leds_hfc(b4);
++ return;
++ }
++
+ b4->blinktimer++;
+ for (i=0; i < b4->numspans; i++) {
+ bspan = &b4->spans[i];
+@@ -2174,7 +2391,7 @@
+ bspan->span.close = b4xxp_close;
+ bspan->span.ioctl = b4xxp_ioctl;
+ bspan->span.hdlc_hard_xmit = b4xxp_hdlc_hard_xmit;
+- if (vpmsupport)
++ if (vpmsupport && b4->has_ec)
+ bspan->span.echocan_create = echocan_create;
+
+ /* HDLC stuff */
+@@ -2281,13 +2498,24 @@
+ static void b4xxp_bottom_half(unsigned long data)
+ {
+ struct b4xxp *b4 = (struct b4xxp *)data;
+- int i, j, k, gotrxfifo, fifo;
++ int i, j, k, gotrxfifo, fifo, fifo_low, fifo_high;
+ unsigned char b, b2;
+
+ if (b4->shutdown)
+ return;
+
+ gotrxfifo = 0;
++ if ( b4->numspans == 8 ) /* HFC-4S d-chan fifos 8-11 *** HFC-8S d-chan fifos 16-23 */
++ {
++ fifo_low = 16;
++ fifo_high = 23;
++ }
++ else
++ {
++ fifo_low = 8;
++ fifo_high = 11;
++ }
++
+
+ for (i=0; i < 8; i++) {
+ b = b2 = b4->fifo_irqstatus[i];
+@@ -2296,7 +2524,7 @@
+ fifo = i*4 + j;
+
+ if (b & V_IRQ_FIFOx_TX) {
+- if (fifo >=8 && fifo <= 11) { /* d-chan fifo */
++ if (fifo >= fifo_low && fifo <= fifo_high) { /* d-chan fifos */
+ /*
+ * WOW I don't like this.
+ * It's bad enough that I have to send a fake frame to get an HDLC TX FIFO interrupt,
+@@ -2305,7 +2533,7 @@
+ * Yuck. It works well, but yuck.
+ */
+ do {
+- k = hdlc_tx_frame(&b4->spans[fifo - 8]);
++ k = hdlc_tx_frame(&b4->spans[fifo - fifo_low]);
+ } while (k);
+ } else {
+ if (printk_ratelimit())
+@@ -2314,7 +2542,7 @@
+ }
+
+ if (b & V_IRQ_FIFOx_RX) {
+- if (fifo >=8 && fifo <= 11) {
++ if (fifo >= fifo_low && fifo <= fifo_high) { /* dchan fifos */
+ /*
+ * I have to loop here until hdlc_rx_frame says there are no more frames waiting.
+ * for whatever reason, the HFC will not generate another interrupt if there are
+@@ -2322,7 +2550,7 @@
+ * i.e. I get an int when F1 changes, not when F1 != F2.
+ */
+ do {
+- k = hdlc_rx_frame(&b4->spans[fifo - 8]);
++ k = hdlc_rx_frame(&b4->spans[fifo - fifo_low]);
+ } while (k);
+ } else {
+ if (printk_ratelimit())
+@@ -2404,8 +2632,8 @@
+ sprintf(sBuf, "Card %d, PCI identifier %s, IRQ %d\n", b4->cardno + 1, b4->dev->bus_id, b4->irq);
+
+ strcat(sBuf,"Tx:\n");
+- for (j=0; j<8; j++) {
+- for (i=0; i<12; i++) {
++ for (j=0; j<(b4->numspans * 2) ; j++) { /* B Channels */
++ for (i=0; i<(b4->numspans * 3) ; i++) { /* All Channels */
+ chan = b4->spans[i/3].chans[i%3];
+ sprintf(str, "%02x ", chan->writechunk[j]);
+ strcat(sBuf, str);
+@@ -2415,8 +2643,8 @@
+ }
+
+ strcat(sBuf, "\nRx:\n");
+- for (j=0; j < 8; j++) {
+- for (i=0; i < 12; i++) {
++ for (j=0; j < (b4->numspans * 2); j++) { /* B Channels */
++ for (i=0; i < (b4->numspans * 3); i++) { /* All Channels */
+ chan = b4->spans[i / 3].chans[i % 3];
+ sprintf(str, "%02x%c", chan->readchunk[j], (i == 11) ? '\n' : ' ');
+ strcat(sBuf, str);
+@@ -2424,7 +2652,7 @@
+ }
+
+ strcat(sBuf, "\nPort states:\n");
+- for (i=0; i < 4; i++) {
++ for (i=0; i < b4->numspans; i++) {
+ int state;
+ char *x;
+ struct b4xxp_span *s = &b4->spans[i];
+@@ -2519,7 +2747,8 @@
+ /* card found, enabled and main struct allocated. Fill it out. */
+ b4->magic = WCB4XXP_MAGIC;
+ b4->variety = dt->desc;
+-
++ b4->has_ec = dt->has_ec;
++ b4->card_type = dt->card_type;
+ b4->pdev = pdev;
+ b4->dev = &pdev->dev;
+ pci_set_drvdata(pdev, b4);
+@@ -2533,7 +2762,7 @@
+ spin_lock_init(&b4->fifolock);
+
+ x = b4xxp_getreg8(b4, R_CHIP_ID);
+- if (x != 0xc0) { /* wrong chip? */
++ if ((x != 0xc0) && ( x != 0x80)) { /* wrong chip? */
+ dev_err(&pdev->dev, "Unknown/unsupported controller detected (R_CHIP_ID = 0x%02x)\n", x);
+ goto err_out_free_mem;
+ }
+@@ -2548,7 +2777,7 @@
+ */
+
+ /* TODO: determine whether this is a 2, 4 or 8 port card */
+- b4->numspans = 4;
++ b4->numspans = dt->ports;
+ b4->syncspan = -1; /* sync span is unknown */
+ if (b4->numspans > MAX_SPANS_PER_CARD) {
+ dev_err(b4->dev, "Driver does not know how to handle a %d span card!\n", b4->numspans);
+@@ -2696,7 +2925,17 @@
+ static struct pci_device_id b4xx_ids[] __devinitdata =
+ {
+ { 0xd161, 0xb410, PCI_ANY_ID, PCI_ANY_ID, 0, 0, (unsigned long)&wcb4xxp },
+- { 0, }
++ { 0x1397, 0x16b8, 0x1397, 0xe552, 0, 0, (unsigned long)&hfc8s },
++ { 0x1397, 0x08b4, 0x1397, 0xb520, 0, 0, (unsigned long)&hfc4s },
++ { 0x1397, 0x08b4, 0x1397, 0xb556, 0, 0, (unsigned long)&hfc2s },
++ { 0x1397, 0x08b4, 0x1397, 0xe884, 0, 0, (unsigned long)&hfc2s_OV },
++ { 0x1397, 0x08b4, 0x1397, 0xe888, 0, 0, (unsigned long)&hfc4s_OV },
++ { 0x1397, 0x16b8, 0x1397, 0xe998, 0, 0, (unsigned long)&hfc8s_OV },
++ { 0x1397, 0x08b4, 0x1397, 0xb566, 0, 0, (unsigned long)&hfc2s_BN },
++ { 0x1397, 0x08b4, 0x1397, 0xb560, 0, 0, (unsigned long)&hfc4s_BN },
++ { 0x1397, 0x16b8, 0x1397, 0xb562, 0, 0, (unsigned long)&hfc8s_BN },
++ {0, }
++
+ };
+
+ static struct pci_driver b4xx_driver = {
+@@ -2756,7 +2995,7 @@
+ MODULE_PARM_DESC(timer_3_ms, "TE: msec to wait for link activation, NT: unused.");
+
+ MODULE_AUTHOR("Digium Incorporated <support@digium.com>");
+-MODULE_DESCRIPTION("B410P quad-port BRI module driver.");
++MODULE_DESCRIPTION("B410P & Similars multi-port BRI module driver.");
+ MODULE_LICENSE("GPL");
+
+ MODULE_DEVICE_TABLE(pci, b4xx_ids);
+--- a/drivers/dahdi/wcb4xxp/wcb4xxp.h 2009-06-24 13:17:03.000000000 +0000
++++ b/drivers/dahdi/wcb4xxp/wcb4xxp.h 2009-06-24 13:18:07.000000000 +0000
+@@ -378,7 +378,7 @@
+ #define HFC_T3 2
+
+ #define WCB4XXP_MAGIC 0xb410c0de
+-#define MAX_SPANS_PER_CARD 4
++#define MAX_SPANS_PER_CARD 8
+
+ #define WCB4XXP_CHANNELS_PER_SPAN 3 /* 2 B-channels and 1 D-Channel for each BRI span */
+ #define WCB4XXP_HDLC_BUF_LEN 32 /* arbitrary, just the max # of byts we will send to DAHDI per call */
+@@ -415,6 +415,19 @@
+ struct dahdi_chan _chans[WCB4XXP_CHANNELS_PER_SPAN]; /* Backing memory */
+ };
+
++enum cards_ids { /* Cards ==> Brand & Model */
++ B410P = 0, /* Digium B410P */
++ B200P_OV, /* OpenVox B200P */
++ B400P_OV, /* OpenVox B400P */
++ B800P_OV, /* OpenVox B800P */
++ DUOBRI, /* HFC-2S Junghanns.NET duoBRI PCI */
++ QUADBRI, /* HFC-4S Junghanns.NET quadBRI PCI */
++ OCTOBRI, /* HFC-8S Junghanns.NET octoBRI PCI */
++ BN2S0, /* BeroNet BN2S0 */
++ BN4S0, /* Beronet BN4S0 */
++ BN8S0 /* BeroNet BN8S0 */
++ };
++
+ /* This structure exists one per card */
+ struct b4xxp {
+ unsigned magic; /* magic value to make sure we're looking at our struct */
+@@ -449,10 +462,12 @@
+ int globalconfig; /* Whether global setup has been done */
+ int syncspan; /* span that HFC uses for sync on this card */
+ int running; /* interrupts are enabled */
+-
++
+ struct b4xxp_span spans[MAX_SPANS_PER_CARD]; /* Individual spans */
+ int order; /* Order */
+ int flags; /* Device flags */
++ int has_ec; /* Has ECHO Cancel */
++ enum cards_ids card_type; /* Card Identifier (using ids_cards enum)*/
+ int master; /* Are we master */
+ int ledreg; /* copy of the LED Register */
+ unsigned int gpio;