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|
Index: dahdi-linux-2.1.0/drivers/dahdi/zaphfc.c
===================================================================
--- /dev/null 1970-01-01 00:00:00.000000000 +0000
+++ dahdi-linux-2.1.0/drivers/dahdi/zaphfc.c 2008-12-10 12:46:14.000000000 +0200
@@ -0,0 +1,1129 @@
+/*
+ * zaphfc.c - Zaptel driver for HFC-S PCI A based ISDN BRI cards
+ *
+ * kernel module inspired by HFC PCI ISDN4Linux and Zaptel drivers
+ *
+ * Copyright (C) 2002, 2003, 2004, 2005 Junghanns.NET GmbH
+ *
+ * Klaus-Peter Junghanns <kpj@junghanns.net>
+ *
+ * This program is free software and may be modified and
+ * distributed under the terms of the GNU Public License.
+ *
+ */
+
+#include <linux/kernel.h>
+#include <linux/module.h>
+#ifdef RTAITIMING
+#include <asm/io.h>
+#include <rtai.h>
+#include <rtai_sched.h>
+#include <rtai_fifos.h>
+#endif
+#include <linux/pci.h>
+#include <linux/init.h>
+#include <linux/interrupt.h>
+#include <linux/delay.h>
+#include <dahdi/kernel.h>
+#include "zaphfc.h"
+
+#include <linux/moduleparam.h>
+
+#if CONFIG_PCI
+
+#define CLKDEL_TE 0x0f /* CLKDEL in TE mode */
+#define CLKDEL_NT 0x6c /* CLKDEL in NT mode */
+
+typedef struct {
+ int vendor_id;
+ int device_id;
+ char *vendor_name;
+ char *card_name;
+} PCI_ENTRY;
+
+static const PCI_ENTRY id_list[] =
+{
+ {PCI_VENDOR_ID_CCD, PCI_DEVICE_ID_CCD_2BD0, "CCD/Billion/Asuscom", "2BD0"},
+ {PCI_VENDOR_ID_CCD, PCI_DEVICE_ID_CCD_B000, "Billion", "B000"},
+ {PCI_VENDOR_ID_CCD, PCI_DEVICE_ID_CCD_B006, "Billion", "B006"},
+ {PCI_VENDOR_ID_CCD, PCI_DEVICE_ID_CCD_B007, "Billion", "B007"},
+ {PCI_VENDOR_ID_CCD, PCI_DEVICE_ID_CCD_B008, "Billion", "B008"},
+ {PCI_VENDOR_ID_CCD, PCI_DEVICE_ID_CCD_B009, "Billion", "B009"},
+ {PCI_VENDOR_ID_CCD, PCI_DEVICE_ID_CCD_B00A, "Billion", "B00A"},
+ {PCI_VENDOR_ID_CCD, PCI_DEVICE_ID_CCD_B00B, "Billion", "B00B"},
+ {PCI_VENDOR_ID_CCD, PCI_DEVICE_ID_CCD_B00C, "Billion", "B00C"},
+ {PCI_VENDOR_ID_CCD, PCI_DEVICE_ID_CCD_B100, "Seyeon", "B100"},
+ {PCI_VENDOR_ID_ABOCOM, PCI_DEVICE_ID_ABOCOM_2BD1, "Abocom/Magitek", "2BD1"},
+ {PCI_VENDOR_ID_ASUSTEK, PCI_DEVICE_ID_ASUSTEK_0675, "Asuscom/Askey", "675"},
+ {PCI_VENDOR_ID_BERKOM, PCI_DEVICE_ID_BERKOM_T_CONCEPT, "German telekom", "T-Concept"},
+ {PCI_VENDOR_ID_BERKOM, PCI_DEVICE_ID_BERKOM_A1T, "German telekom", "A1T"},
+ {PCI_VENDOR_ID_ANIGMA, PCI_DEVICE_ID_ANIGMA_MC145575, "Motorola MC145575", "MC145575"},
+ {PCI_VENDOR_ID_ZOLTRIX, PCI_DEVICE_ID_ZOLTRIX_2BD0, "Zoltrix", "2BD0"},
+ {PCI_VENDOR_ID_DIGI, PCI_DEVICE_ID_DIGI_DF_M_IOM2_E,"Digi International", "Digi DataFire Micro V IOM2 (Europe)"},
+ {PCI_VENDOR_ID_DIGI, PCI_DEVICE_ID_DIGI_DF_M_E,"Digi International", "Digi DataFire Micro V (Europe)"},
+ {PCI_VENDOR_ID_DIGI, PCI_DEVICE_ID_DIGI_DF_M_IOM2_A,"Digi International", "Digi DataFire Micro V IOM2 (North America)"},
+ {PCI_VENDOR_ID_DIGI, PCI_DEVICE_ID_DIGI_DF_M_A,"Digi International", "Digi DataFire Micro V (North America)"},
+ {0x182d, 0x3069,"Sitecom","Isdn 128 PCI"},
+ {0, 0, NULL, NULL},
+};
+
+static struct hfc_card *hfc_dev_list = NULL;
+static int hfc_dev_count = 0;
+static int modes = 0; // all TE
+static int debug = 0;
+static struct pci_dev *multi_hfc = NULL;
+static DEFINE_SPINLOCK(registerlock);
+
+void hfc_shutdownCard(struct hfc_card *hfctmp) {
+ unsigned long flags;
+
+ if (hfctmp == NULL) {
+ return;
+ }
+
+ if (hfctmp->pci_io == NULL) {
+ return;
+ }
+
+ spin_lock_irqsave(&hfctmp->lock,flags);
+
+ printk(KERN_INFO "zaphfc: shutting down card at %p.\n",hfctmp->pci_io);
+
+ /* Clear interrupt mask */
+ hfctmp->regs.int_m2 = 0;
+ hfc_outb(hfctmp, hfc_INT_M2, hfctmp->regs.int_m2);
+
+ /* Reset pending interrupts */
+ hfc_inb(hfctmp, hfc_INT_S1);
+
+ /* Wait for interrupts that might still be pending */
+ spin_unlock_irqrestore(&hfctmp->lock, flags);
+ set_current_state(TASK_UNINTERRUPTIBLE);
+ schedule_timeout((30 * HZ) / 1000); // wait 30 ms
+ spin_lock_irqsave(&hfctmp->lock,flags);
+
+ /* Remove interrupt handler */
+ if (hfctmp->irq) {
+ free_irq(hfctmp->irq, hfctmp);
+ }
+
+ /* Soft-reset the card */
+ hfc_outb(hfctmp, hfc_CIRM, hfc_CIRM_RESET); // softreset on
+
+ spin_unlock_irqrestore(&hfctmp->lock, flags);
+ set_current_state(TASK_UNINTERRUPTIBLE);
+ schedule_timeout((30 * HZ) / 1000); // wait 30 ms
+ spin_lock_irqsave(&hfctmp->lock,flags);
+
+ hfc_outb(hfctmp,hfc_CIRM,0); // softreset off
+
+ pci_write_config_word(hfctmp->pcidev, PCI_COMMAND, 0); // disable memio and bustmaster
+
+ if (hfctmp->fifomem != NULL) {
+ kfree(hfctmp->fifomem);
+ }
+ iounmap((void *) hfctmp->pci_io);
+ hfctmp->pci_io = NULL;
+ if (hfctmp->pcidev != NULL) {
+ pci_disable_device(hfctmp->pcidev);
+ }
+ spin_unlock_irqrestore(&hfctmp->lock,flags);
+ if (hfctmp->ztdev != NULL) {
+ dahdi_unregister(&hfctmp->ztdev->span);
+ kfree(hfctmp->ztdev);
+ printk(KERN_INFO "unregistered from DAHDI.\n");
+ }
+}
+
+void hfc_resetCard(struct hfc_card *hfctmp) {
+ unsigned long flags;
+
+ spin_lock_irqsave(&hfctmp->lock,flags);
+ pci_write_config_word(hfctmp->pcidev, PCI_COMMAND, PCI_COMMAND_MEMORY); // enable memio
+ hfctmp->regs.int_m2 = 0;
+ hfc_outb(hfctmp, hfc_INT_M2, hfctmp->regs.int_m2);
+
+// printk(KERN_INFO "zaphfc: resetting card.\n");
+ pci_set_master(hfctmp->pcidev);
+ hfc_outb(hfctmp, hfc_CIRM, hfc_CIRM_RESET); // softreset on
+ spin_unlock_irqrestore(&hfctmp->lock, flags);
+
+ set_current_state(TASK_UNINTERRUPTIBLE);
+ schedule_timeout((30 * HZ) / 1000); // wait 30 ms
+ hfc_outb(hfctmp, hfc_CIRM, 0); // softreset off
+
+ set_current_state(TASK_UNINTERRUPTIBLE);
+ schedule_timeout((20 * HZ) / 1000); // wait 20 ms
+ if (hfc_inb(hfctmp,hfc_STATUS) & hfc_STATUS_PCI_PROC) {
+ printk(KERN_WARNING "zaphfc: hfc busy.\n");
+ }
+
+// hfctmp->regs.fifo_en = hfc_FIFOEN_D | hfc_FIFOEN_B1 | hfc_FIFOEN_B2;
+// hfctmp->regs.fifo_en = hfc_FIFOEN_D; /* only D fifos enabled */
+ hfctmp->regs.fifo_en = 0; /* no fifos enabled */
+ hfc_outb(hfctmp, hfc_FIFO_EN, hfctmp->regs.fifo_en);
+
+ hfctmp->regs.trm = 2;
+ hfc_outb(hfctmp, hfc_TRM, hfctmp->regs.trm);
+
+ if (hfctmp->regs.nt_mode == 1) {
+ hfc_outb(hfctmp, hfc_CLKDEL, CLKDEL_NT); /* ST-Bit delay for NT-Mode */
+ } else {
+ hfc_outb(hfctmp, hfc_CLKDEL, CLKDEL_TE); /* ST-Bit delay for TE-Mode */
+ }
+ hfctmp->regs.sctrl_e = hfc_SCTRL_E_AUTO_AWAKE;
+ hfc_outb(hfctmp, hfc_SCTRL_E, hfctmp->regs.sctrl_e); /* S/T Auto awake */
+ hfctmp->regs.bswapped = 0; /* no exchange */
+
+ hfctmp->regs.ctmt = hfc_CTMT_TRANSB1 | hfc_CTMT_TRANSB2; // all bchans are transparent , no freaking hdlc
+ hfc_outb(hfctmp, hfc_CTMT, hfctmp->regs.ctmt);
+
+ hfctmp->regs.int_m1 = 0;
+ hfc_outb(hfctmp, hfc_INT_M1, hfctmp->regs.int_m1);
+
+#ifdef RTAITIMING
+ hfctmp->regs.int_m2 = 0;
+#else
+ hfctmp->regs.int_m2 = hfc_M2_PROC_TRANS;
+#endif
+ hfc_outb(hfctmp, hfc_INT_M2, hfctmp->regs.int_m2);
+
+ /* Clear already pending ints */
+ hfc_inb(hfctmp, hfc_INT_S1);
+
+ if (hfctmp->regs.nt_mode == 1) {
+ hfctmp->regs.sctrl = 3 | hfc_SCTRL_NONE_CAP | hfc_SCTRL_MODE_NT; /* set tx_lo mode, error in datasheet ! */
+ } else {
+ hfctmp->regs.sctrl = 3 | hfc_SCTRL_NONE_CAP | hfc_SCTRL_MODE_TE; /* set tx_lo mode, error in datasheet ! */
+ }
+
+ hfctmp->regs.mst_mode = hfc_MST_MODE_MASTER; /* HFC Master Mode */
+ hfc_outb(hfctmp, hfc_MST_MODE, hfctmp->regs.mst_mode);
+
+ hfc_outb(hfctmp, hfc_SCTRL, hfctmp->regs.sctrl);
+ hfctmp->regs.sctrl_r = 3;
+ hfc_outb(hfctmp, hfc_SCTRL_R, hfctmp->regs.sctrl_r);
+
+ hfctmp->regs.connect = 0;
+ hfc_outb(hfctmp, hfc_CONNECT, hfctmp->regs.connect);
+
+ hfc_outb(hfctmp, hfc_CIRM, 0x80 | 0x40); // bit order
+
+ /* Finally enable IRQ output */
+#ifndef RTAITIMING
+ hfctmp->regs.int_m2 |= hfc_M2_IRQ_ENABLE;
+ hfc_outb(hfctmp, hfc_INT_M2, hfctmp->regs.int_m2);
+#endif
+
+ /* clear pending ints */
+ hfc_inb(hfctmp, hfc_INT_S1);
+ hfc_inb(hfctmp, hfc_INT_S2);
+}
+
+void hfc_registerCard(struct hfc_card *hfccard) {
+ spin_lock(®isterlock);
+ if (hfccard != NULL) {
+ hfccard->cardno = hfc_dev_count++;
+ hfccard->next = hfc_dev_list;
+ hfc_dev_list = hfccard;
+ }
+ spin_unlock(®isterlock);
+}
+
+static void hfc_btrans(struct hfc_card *hfctmp, char whichB) {
+ // we are called with irqs disabled from the irq handler
+ int count, maxlen, total;
+ unsigned char *f1, *f2;
+ unsigned short *z1, *z2, newz1;
+ int freebytes;
+
+ if (whichB == 1) {
+ f1 = (char *)(hfctmp->fifos + hfc_FIFO_B1TX_F1);
+ f2 = (char *)(hfctmp->fifos + hfc_FIFO_B1TX_F2);
+ z1 = (unsigned short *)(hfctmp->fifos + hfc_FIFO_B1TX_Z1 + (*f1 * 4));
+ z2 = (unsigned short *)(hfctmp->fifos + hfc_FIFO_B1TX_Z2 + (*f1 * 4));
+ } else {
+ f1 = (char *)(hfctmp->fifos + hfc_FIFO_B2TX_F1);
+ f2 = (char *)(hfctmp->fifos + hfc_FIFO_B2TX_F2);
+ z1 = (unsigned short *)(hfctmp->fifos + hfc_FIFO_B2TX_Z1 + (*f1 * 4));
+ z2 = (unsigned short *)(hfctmp->fifos + hfc_FIFO_B2TX_Z2 + (*f1 * 4));
+ }
+
+ freebytes = *z2 - *z1;
+ if (freebytes <= 0) {
+ freebytes += hfc_B_FIFO_SIZE;
+ }
+ count = DAHDI_CHUNKSIZE;
+
+ total = count;
+ if (freebytes < count) {
+ hfctmp->clicks++;
+ /* only spit out this warning once per second to not make things worse! */
+ if (hfctmp->clicks > 100) {
+ printk(KERN_CRIT "zaphfc: bchan tx fifo full, dropping audio! (z1=%d, z2=%d)\n",*z1,*z2);
+ hfctmp->clicks = 0;
+ }
+ return;
+ }
+
+ maxlen = (hfc_B_FIFO_SIZE + hfc_B_SUB_VAL) - *z1;
+ if (maxlen > count) {
+ maxlen = count;
+ }
+ newz1 = *z1 + total;
+ if (newz1 >= (hfc_B_FIFO_SIZE + hfc_B_SUB_VAL)) { newz1 -= hfc_B_FIFO_SIZE; }
+
+ if (whichB == 1) {
+ memcpy((char *)(hfctmp->fifos + hfc_FIFO_B1TX_ZOFF + *z1),hfctmp->ztdev->chans[0].writechunk, maxlen);
+ } else {
+ memcpy((char *)(hfctmp->fifos + hfc_FIFO_B2TX_ZOFF + *z1),hfctmp->ztdev->chans[1].writechunk, maxlen);
+ }
+
+ count -= maxlen;
+ if (count > 0) {
+ // Buffer wrap
+ if (whichB == 1) {
+ memcpy((char *)(hfctmp->fifos + hfc_FIFO_B1TX_ZOFF + hfc_B_SUB_VAL),hfctmp->ztdev->chans[0].writechunk+maxlen, count);
+ } else {
+ memcpy((char *)(hfctmp->fifos + hfc_FIFO_B2TX_ZOFF + hfc_B_SUB_VAL),hfctmp->ztdev->chans[1].writechunk+maxlen, count);
+ }
+ }
+
+ *z1 = newz1; /* send it now */
+
+// if (count > 0) printk(KERN_CRIT "zaphfc: bchan tx fifo (f1=%d, f2=%d, z1=%d, z2=%d)\n",(*f1) & hfc_FMASK,(*f2) & hfc_FMASK, *z1, *z2);
+ return;
+}
+
+static void hfc_brec(struct hfc_card *hfctmp, char whichB) {
+ // we are called with irqs disabled from the irq handler
+ int count, maxlen, drop;
+ volatile unsigned char *f1, *f2;
+ volatile unsigned short *z1, *z2, newz2;
+ int bytes = 0;
+
+ if (whichB == 1) {
+ f1 = (char *)(hfctmp->fifos + hfc_FIFO_B1RX_F1);
+ f2 = (char *)(hfctmp->fifos + hfc_FIFO_B1RX_F2);
+ z1 = (unsigned short *)(hfctmp->fifos + hfc_FIFO_B1RX_Z1 + (*f1 * 4));
+ z2 = (unsigned short *)(hfctmp->fifos + hfc_FIFO_B1RX_Z2 + (*f1 * 4));
+ } else {
+ f1 = (char *)(hfctmp->fifos + hfc_FIFO_B2RX_F1);
+ f2 = (char *)(hfctmp->fifos + hfc_FIFO_B2RX_F2);
+ z1 = (unsigned short *)(hfctmp->fifos + hfc_FIFO_B2RX_Z1 + (*f1 * 4));
+ z2 = (unsigned short *)(hfctmp->fifos + hfc_FIFO_B2RX_Z2 + (*f1 * 4));
+ }
+
+ bytes = *z1 - *z2;
+ if (bytes < 0) {
+ bytes += hfc_B_FIFO_SIZE;
+ }
+ count = DAHDI_CHUNKSIZE;
+
+ if (bytes < DAHDI_CHUNKSIZE) {
+#ifndef RTAITIMING
+ printk(KERN_CRIT "zaphfc: bchan rx fifo not enough bytes to receive! (z1=%d, z2=%d, wanted %d got %d), probably a buffer overrun.\n",*z1,*z2,DAHDI_CHUNKSIZE,bytes);
+#endif
+ return;
+ }
+
+ /* allowing the buffering of hfc_BCHAN_BUFFER bytes of audio data works around irq jitter */
+ if (bytes > hfc_BCHAN_BUFFER + DAHDI_CHUNKSIZE) {
+ /* if the system is too slow to handle it, we will have to drop it all (except 1 DAHDI chunk) */
+ drop = bytes - DAHDI_CHUNKSIZE;
+ hfctmp->clicks++;
+ /* only spit out this warning once per second to not make things worse! */
+ if (hfctmp->clicks > 100) {
+ printk(KERN_CRIT "zaphfc: dropped audio (z1=%d, z2=%d, wanted %d got %d, dropped %d).\n",*z1,*z2,count,bytes,drop);
+ hfctmp->clicks = 0;
+ }
+ /* hm, we are processing the b chan data tooooo slowly... let's drop the lost audio */
+ newz2 = *z2 + drop;
+ if (newz2 >= (hfc_B_FIFO_SIZE + hfc_B_SUB_VAL)) {
+ newz2 -= hfc_B_FIFO_SIZE;
+ }
+ *z2 = newz2;
+ }
+
+
+ maxlen = (hfc_B_FIFO_SIZE + hfc_B_SUB_VAL) - *z2;
+ if (maxlen > count) {
+ maxlen = count;
+ }
+ if (whichB == 1) {
+ memcpy(hfctmp->ztdev->chans[0].readchunk,(char *)(hfctmp->fifos + hfc_FIFO_B1RX_ZOFF + *z2), maxlen);
+ } else {
+ memcpy(hfctmp->ztdev->chans[1].readchunk,(char *)(hfctmp->fifos + hfc_FIFO_B2RX_ZOFF + *z2), maxlen);
+ }
+ newz2 = *z2 + count;
+ if (newz2 >= (hfc_B_FIFO_SIZE + hfc_B_SUB_VAL)) {
+ newz2 -= hfc_B_FIFO_SIZE;
+ }
+ *z2 = newz2;
+
+ count -= maxlen;
+ if (count > 0) {
+ // Buffer wrap
+ if (whichB == 1) {
+ z2 = (unsigned short *)(hfctmp->fifos + hfc_FIFO_B1RX_Z2 + (*f1 * 4));
+ memcpy(hfctmp->ztdev->chans[0].readchunk + maxlen,(char *)(hfctmp->fifos + hfc_FIFO_B1RX_ZOFF + hfc_B_SUB_VAL), count);
+ } else {
+ z2 = (unsigned short *)(hfctmp->fifos + hfc_FIFO_B2RX_Z2 + (*f1 * 4));
+ memcpy(hfctmp->ztdev->chans[1].readchunk + maxlen,(char *)(hfctmp->fifos + hfc_FIFO_B2RX_ZOFF + hfc_B_SUB_VAL), count);
+ }
+ newz2 = *z2 + count;
+ if (newz2 >= (hfc_B_FIFO_SIZE + hfc_B_SUB_VAL)) {
+ newz2 -= hfc_B_FIFO_SIZE;
+ }
+ }
+
+
+ if (whichB == 1) {
+ dahdi_ec_chunk(&hfctmp->ztdev->chans[0], hfctmp->ztdev->chans[0].readchunk, hfctmp->ztdev->chans[0].writechunk);
+ } else {
+ dahdi_ec_chunk(&hfctmp->ztdev->chans[1], hfctmp->ztdev->chans[1].readchunk, hfctmp->ztdev->chans[1].writechunk);
+ }
+ return;
+}
+
+
+static void hfc_dtrans(struct hfc_card *hfctmp) {
+ // we are called with irqs disabled from the irq handler
+ int x;
+ int count, maxlen, total;
+ unsigned char *f1, *f2, newf1;
+ unsigned short *z1, *z2, newz1;
+ int frames, freebytes;
+
+ if (hfctmp->ztdev->chans[2].bytes2transmit == 0) {
+ return;
+ }
+
+ f1 = (char *)(hfctmp->fifos + hfc_FIFO_DTX_F1);
+ f2 = (char *)(hfctmp->fifos + hfc_FIFO_DTX_F2);
+ z1 = (unsigned short *)(hfctmp->fifos + hfc_FIFO_DTX_Z1 + (*f1 * 4));
+ z2 = (unsigned short *)(hfctmp->fifos + hfc_FIFO_DTX_Z2 + (*f1 * 4));
+
+ frames = (*f1 - *f2) & hfc_FMASK;
+ if (frames < 0) {
+ frames += hfc_MAX_DFRAMES + 1;
+ }
+
+ if (frames >= hfc_MAX_DFRAMES) {
+ printk(KERN_CRIT "zaphfc: dchan tx fifo total number of frames exceeded!\n");
+ return;
+ }
+
+ freebytes = *z2 - *z1;
+ if (freebytes <= 0) {
+ freebytes += hfc_D_FIFO_SIZE;
+ }
+ count = hfctmp->ztdev->chans[2].bytes2transmit;
+
+ total = count;
+ if (freebytes < count) {
+ printk(KERN_CRIT "zaphfc: dchan tx fifo not enough free bytes! (z1=%d, z2=%d)\n",*z1,*z2);
+ return;
+ }
+
+ newz1 = (*z1 + count) & hfc_ZMASK;
+ newf1 = ((*f1 + 1) & hfc_MAX_DFRAMES) | (hfc_MAX_DFRAMES + 1); // next frame
+
+ if (count > 0) {
+ if (debug) {
+ printk(KERN_CRIT "zaphfc: card %d TX [ ", hfctmp->cardno);
+ for (x=0; x<count; x++) {
+ printk("%#2x ",hfctmp->dtransbuf[x]);
+ }
+ if (hfctmp->ztdev->chans[2].eoftx == 1) {
+ printk("] %d bytes\n", count);
+ } else {
+ printk("..] %d bytes\n", count);
+ }
+ }
+ maxlen = hfc_D_FIFO_SIZE - *z1;
+ if (maxlen > count) {
+ maxlen = count;
+ }
+ memcpy((char *)(hfctmp->fifos + hfc_FIFO_DTX_ZOFF + *z1),hfctmp->ztdev->chans[2].writechunk, maxlen);
+ count -= maxlen;
+ if (count > 0) {
+ memcpy((char *)(hfctmp->fifos + hfc_FIFO_DTX_ZOFF),(char *)(hfctmp->ztdev->chans[2].writechunk + maxlen), count);
+ }
+ }
+
+ *z1 = newz1;
+
+ if (hfctmp->ztdev->chans[2].eoftx == 1) {
+ *f1 = newf1;
+ z1 = (unsigned short *)(hfctmp->fifos + hfc_FIFO_DTX_Z1 + (*f1 * 4));
+ *z1 = newz1;
+ hfctmp->ztdev->chans[2].eoftx = 0;
+ }
+// printk(KERN_CRIT "zaphfc: dchan tx fifo (f1=%d, f2=%d, z1=%d, z2=%d)\n",(*f1) & hfc_FMASK,(*f2) & hfc_FMASK, *z1, *z2);
+ return;
+}
+
+/* receive a complete hdlc frame, skip broken or short frames */
+static void hfc_drec(struct hfc_card *hfctmp) {
+ int count=0, maxlen=0, framelen=0;
+ unsigned char *f1, *f2, *crcstat;
+ unsigned short *z1, *z2, oldz2, newz2;
+
+ hfctmp->ztdev->chans[2].bytes2receive=0;
+ hfctmp->ztdev->chans[2].eofrx = 0;
+
+ /* put the received data into the DAHDI buffer
+ we'll call dahdi_receive() later when the timer fires. */
+ f1 = (char *)(hfctmp->fifos + hfc_FIFO_DRX_F1);
+ f2 = (char *)(hfctmp->fifos + hfc_FIFO_DRX_F2);
+
+ if (*f1 == *f2) return; /* nothing received, strange eh? */
+
+ z1 = (unsigned short *)(hfctmp->fifos + hfc_FIFO_DRX_Z1 + (*f2 * 4));
+ z2 = (unsigned short *)(hfctmp->fifos + hfc_FIFO_DRX_Z2 + (*f2 * 4));
+
+ /* calculate length of frame, including 2 bytes CRC and 1 byte STAT */
+ count = *z1 - *z2;
+
+ if (count < 0) {
+ count += hfc_D_FIFO_SIZE; /* ring buffer wrapped */
+ }
+ count++;
+ framelen = count;
+
+ crcstat = (char *)(hfctmp->fifos + hfc_FIFO_DRX_ZOFF + *z1);
+
+ if ((framelen < 4) || (*crcstat != 0x0)) {
+ /* the frame is too short for a valid HDLC frame or the CRC is borked */
+ printk(KERN_CRIT "zaphfc: empty HDLC frame or bad CRC received (framelen = %d, stat = %#x, card = %d).\n", framelen, *crcstat, hfctmp->cardno);
+ oldz2 = *z2;
+ *f2 = ((*f2 + 1) & hfc_MAX_DFRAMES) | (hfc_MAX_DFRAMES + 1); /* NEXT!!! */
+ // recalculate z2, because Z2 is a function of F2 Z2(F2) and we INCed F2!!!
+ z2 = (unsigned short *)(hfctmp->fifos + hfc_FIFO_DRX_Z2 + (*f2 * 4));
+ *z2 = (oldz2 + framelen) & hfc_ZMASK;
+ hfctmp->drecinframe = 0;
+ hfctmp->regs.int_drec--;
+ /* skip short or broken frames */
+ hfctmp->ztdev->chans[2].bytes2receive = 0;
+ return;
+ }
+
+ count -= 1; /* strip STAT */
+ hfctmp->ztdev->chans[2].eofrx = 1;
+
+ if (count + *z2 <= hfc_D_FIFO_SIZE) {
+ maxlen = count;
+ } else {
+ maxlen = hfc_D_FIFO_SIZE - *z2;
+ }
+
+ /* copy first part */
+ memcpy(hfctmp->drecbuf, (char *)(hfctmp->fifos + hfc_FIFO_DRX_ZOFF + *z2), maxlen);
+ hfctmp->ztdev->chans[2].bytes2receive += maxlen;
+
+ count -= maxlen;
+ if (count > 0) {
+ /* ring buffer wrapped, copy rest from start of d fifo */
+ memcpy(hfctmp->drecbuf + maxlen, (char *)(hfctmp->fifos + hfc_FIFO_DRX_ZOFF), count);
+ hfctmp->ztdev->chans[2].bytes2receive += count;
+ }
+
+ /* frame read */
+ oldz2 = *z2;
+ newz2 = (oldz2 + framelen) & hfc_ZMASK;
+ *f2 = ((*f2 + 1) & hfc_MAX_DFRAMES) | (hfc_MAX_DFRAMES + 1); /* NEXT!!! */
+ /* recalculate z2, because Z2 is a function of F2 Z2(F2) and we INCed F2!!! */
+ z2 = (unsigned short *)(hfctmp->fifos + hfc_FIFO_DRX_Z2 + (*f2 * 4));
+ *z2 = newz2;
+ hfctmp->drecinframe = 0;
+ hfctmp->regs.int_drec--;
+}
+
+#ifndef RTAITIMING
+DAHDI_IRQ_HANDLER(hfc_interrupt) {
+ struct hfc_card *hfctmp = dev_id;
+ unsigned long flags = 0;
+ unsigned char stat;
+#else
+static void hfc_service(struct hfc_card *hfctmp) {
+#endif
+ struct dahdi_hfc *zthfc;
+ unsigned char s1, s2, l1state;
+ int x;
+
+ if (!hfctmp) {
+#ifndef RTAITIMING
+ return IRQ_NONE;
+#else
+ /* rtai */
+ return;
+#endif
+ }
+
+ if (!hfctmp->pci_io) {
+ printk(KERN_WARNING "%s: IO-mem disabled, cannot handle interrupt\n",
+ __FUNCTION__);
+#ifndef RTAITIMING
+ return IRQ_NONE;
+#else
+ /* rtai */
+ return;
+#endif
+ }
+
+ /* we assume a few things in this irq handler:
+ - the hfc-pci will only generate "timer" irqs (proc/non-proc)
+ - we need to use every 8th IRQ (to generate 1khz timing)
+ OR
+ - if we use rtai for timing the hfc-pci will not generate ANY irq,
+ instead rtai will call this "fake" irq with a 1khz realtime timer. :)
+ - rtai will directly service the card, not like it used to by triggering
+ the linux irq
+ */
+
+#ifndef RTAITIMING
+ spin_lock_irqsave(&hfctmp->lock, flags);
+ stat = hfc_inb(hfctmp, hfc_STATUS);
+
+ if ((stat & hfc_STATUS_ANYINT) == 0) {
+ // maybe we are sharing the irq
+ spin_unlock_irqrestore(&hfctmp->lock,flags);
+ return IRQ_NONE;
+ }
+#endif
+
+ s1 = hfc_inb(hfctmp, hfc_INT_S1);
+ s2 = hfc_inb(hfctmp, hfc_INT_S2);
+ if (s1 != 0) {
+ if (s1 & hfc_INTS_TIMER) {
+ // timer (bit 7)
+ // printk(KERN_CRIT "timer %d %d %d.\n", stat, s1, s2);
+ }
+ if (s1 & hfc_INTS_L1STATE) {
+ // state machine (bit 6)
+ // printk(KERN_CRIT "zaphfc: layer 1 state machine interrupt\n");
+ zthfc = hfctmp->ztdev;
+ l1state = hfc_inb(hfctmp,hfc_STATES) & hfc_STATES_STATE_MASK;
+ if (hfctmp->regs.nt_mode == 1) {
+ if (debug) {
+ printk(KERN_CRIT "zaphfc: card %d layer 1 state = G%d\n", hfctmp->cardno, l1state);
+ }
+ switch (l1state) {
+ case 3:
+#ifdef RTAITIMING
+ sprintf(zthfc->span.desc, "HFC-S PCI A ISDN card %d [NT] layer 1 ACTIVATED (G%d) [realtime]", hfctmp->cardno, l1state);
+#else
+ sprintf(zthfc->span.desc, "HFC-S PCI A ISDN card %d [NT] layer 1 ACTIVATED (G%d)", hfctmp->cardno, l1state);
+#endif
+ break;
+ default:
+#ifdef RTAITIMING
+ sprintf(zthfc->span.desc, "HFC-S PCI A ISDN card %d [NT] layer 1 DEACTIVATED (G%d) [realtime]", hfctmp->cardno, l1state);
+#else
+ sprintf(zthfc->span.desc, "HFC-S PCI A ISDN card %d [NT] layer 1 DEACTIVATED (G%d)", hfctmp->cardno, l1state);
+#endif
+ }
+ if (l1state == 2) {
+ hfc_outb(hfctmp, hfc_STATES, hfc_STATES_ACTIVATE | hfc_STATES_DO_ACTION | hfc_STATES_NT_G2_G3);
+ } else if (l1state == 3) {
+ // fix to G3 state (see specs)
+ hfc_outb(hfctmp, hfc_STATES, hfc_STATES_LOAD_STATE | 3);
+ }
+ } else {
+ if (debug) {
+ printk(KERN_CRIT "zaphfc: card %d layer 1 state = F%d\n", hfctmp->cardno, l1state);
+ }
+ switch (l1state) {
+ case 7:
+#ifdef RTAITIMING
+ sprintf(zthfc->span.desc, "HFC-S PCI A ISDN card %d [TE] layer 1 ACTIVATED (F%d) [realtime]", hfctmp->cardno, l1state);
+#else
+ sprintf(zthfc->span.desc, "HFC-S PCI A ISDN card %d [TE] layer 1 ACTIVATED (F%d)", hfctmp->cardno, l1state);
+#endif
+ break;
+ default:
+#ifdef RTAITIMING
+ sprintf(zthfc->span.desc, "HFC-S PCI A ISDN card %d [TE] layer 1 DEACTIVATED (F%d) [realtime]", hfctmp->cardno, l1state);
+#else
+ sprintf(zthfc->span.desc, "HFC-S PCI A ISDN card %d [TE] layer 1 DEACTIVATED (F%d)", hfctmp->cardno, l1state);
+#endif
+ }
+ if (l1state == 3) {
+ hfc_outb(hfctmp, hfc_STATES, hfc_STATES_DO_ACTION | hfc_STATES_ACTIVATE);
+ }
+ }
+
+ }
+ if (s1 & hfc_INTS_DREC) {
+ // D chan RX (bit 5)
+ hfctmp->regs.int_drec++;
+ // mr. zapata there is something for you!
+ // printk(KERN_CRIT "d chan rx\n");
+ }
+ if (s1 & hfc_INTS_B2REC) {
+ // B2 chan RX (bit 4)
+ }
+ if (s1 & hfc_INTS_B1REC) {
+ // B1 chan RX (bit 3)
+ }
+ if (s1 & hfc_INTS_DTRANS) {
+ // D chan TX (bit 2)
+// printk(KERN_CRIT "zaphfc: dchan frame transmitted.\n");
+ }
+ if (s1 & hfc_INTS_B2TRANS) {
+ // B2 chan TX (bit 1)
+ }
+ if (s1 & hfc_INTS_B1TRANS) {
+ // B1 chan TX (bit 0)
+ }
+ }
+#ifdef RTAITIMING
+ /* fake an irq */
+ s2 |= hfc_M2_PROC_TRANS;
+#endif
+ if (s2 != 0) {
+ if (s2 & hfc_M2_PMESEL) {
+ // kaboom irq (bit 7)
+ printk(KERN_CRIT "zaphfc: sync lost, pci performance too low. you might have some cpu throtteling enabled.\n");
+ }
+ if (s2 & hfc_M2_GCI_MON_REC) {
+ // RxR monitor channel (bit 2)
+ }
+ if (s2 & hfc_M2_GCI_I_CHG) {
+ // GCI I-change (bit 1)
+ }
+ if (s2 & hfc_M2_PROC_TRANS) {
+ // processing/non-processing transition (bit 0)
+ hfctmp->ticks++;
+#ifndef RTAITIMING
+ if (hfctmp->ticks > 7) {
+ // welcome to DAHDI timing :)
+#endif
+ hfctmp->ticks = 0;
+
+ if (hfctmp->ztdev->span.flags & DAHDI_FLAG_RUNNING) {
+ // clear dchan buffer
+ hfctmp->ztdev->chans[2].bytes2transmit = 0;
+ hfctmp->ztdev->chans[2].maxbytes2transmit = hfc_D_FIFO_SIZE;
+
+ dahdi_transmit(&(hfctmp->ztdev->span));
+
+ hfc_btrans(hfctmp,1);
+ hfc_btrans(hfctmp,2);
+ hfc_dtrans(hfctmp);
+ }
+
+ hfc_brec(hfctmp,1);
+ hfc_brec(hfctmp,2);
+ if (hfctmp->regs.int_drec > 0) {
+ // dchan data to read
+ hfc_drec(hfctmp);
+ if (hfctmp->ztdev->chans[2].bytes2receive > 0) {
+ if (debug) {
+ printk(KERN_CRIT "zaphfc: card %d RX [ ", hfctmp->cardno);
+ if (hfctmp->ztdev->chans[2].eofrx) {
+ /* dont output CRC == less user confusion */
+ for (x=0; x < hfctmp->ztdev->chans[2].bytes2receive - 2; x++) {
+ printk("%#2x ", hfctmp->drecbuf[x]);
+ }
+ printk("] %d bytes\n", hfctmp->ztdev->chans[2].bytes2receive - 2);
+ } else {
+ for (x=0; x < hfctmp->ztdev->chans[2].bytes2receive; x++) {
+ printk("%#2x ", hfctmp->drecbuf[x]);
+ }
+ printk("..] %d bytes\n", hfctmp->ztdev->chans[2].bytes2receive);
+ }
+ }
+ }
+ } else {
+ // hmm....ok, let DAHDI receive nothing
+ hfctmp->ztdev->chans[2].bytes2receive = 0;
+ }
+ if (hfctmp->ztdev->span.flags & DAHDI_FLAG_RUNNING) {
+ dahdi_receive(&(hfctmp->ztdev->span));
+ }
+
+#ifndef RTAITIMING
+ }
+#endif
+ }
+
+ }
+#ifndef RTAITIMING
+ spin_unlock_irqrestore(&hfctmp->lock,flags);
+ return IRQ_RETVAL(1);
+#endif
+}
+
+
+static int zthfc_open(struct dahdi_chan *chan) {
+ struct dahdi_hfc *zthfc = chan->pvt;
+ struct hfc_card *hfctmp = zthfc->card;
+
+ if (!hfctmp) {
+ return 0;
+ }
+ try_module_get(THIS_MODULE);
+ return 0;
+}
+
+static int zthfc_close(struct dahdi_chan *chan) {
+ struct dahdi_hfc *zthfc = chan->pvt;
+ struct hfc_card *hfctmp = zthfc->card;
+
+ if (!hfctmp) {
+ return 0;
+ }
+
+ module_put(THIS_MODULE);
+ return 0;
+}
+
+static int zthfc_rbsbits(struct dahdi_chan *chan, int bits) {
+ return 0;
+}
+
+static int zthfc_ioctl(struct dahdi_chan *chan, unsigned int cmd, unsigned long data) {
+ switch(cmd) {
+ default:
+ return -ENOTTY;
+ }
+ return 0;
+}
+
+static int zthfc_startup(struct dahdi_span *span) {
+ struct dahdi_hfc *zthfc = span->pvt;
+ struct hfc_card *hfctmp = zthfc->card;
+ int alreadyrunning;
+
+ if (hfctmp == NULL) {
+ printk(KERN_INFO "zaphfc: no card for span at startup!\n");
+ }
+ alreadyrunning = span->flags & DAHDI_FLAG_RUNNING;
+
+ if (!alreadyrunning) {
+ span->chans[2]->flags &= ~DAHDI_FLAG_HDLC;
+ span->chans[2]->flags |= DAHDI_FLAG_BRIDCHAN;
+
+ span->flags |= DAHDI_FLAG_RUNNING;
+
+ hfctmp->ticks = -2;
+ hfctmp->clicks = 0;
+ hfctmp->regs.fifo_en = hfc_FIFOEN_D | hfc_FIFOEN_B1 | hfc_FIFOEN_B2;
+ hfc_outb(hfctmp, hfc_FIFO_EN, hfctmp->regs.fifo_en);
+ } else {
+ return 0;
+ }
+
+ // drivers, start engines!
+ hfc_outb(hfctmp, hfc_STATES, hfc_STATES_DO_ACTION | hfc_STATES_ACTIVATE);
+ return 0;
+}
+
+static int zthfc_shutdown(struct dahdi_span *span) {
+ return 0;
+}
+
+static int zthfc_maint(struct dahdi_span *span, int cmd) {
+ return 0;
+}
+
+static int zthfc_chanconfig(struct dahdi_chan *chan, int sigtype) {
+// printk(KERN_CRIT "chan_config sigtype=%d\n", sigtype);
+ return 0;
+}
+
+static int zthfc_spanconfig(struct dahdi_span *span, struct dahdi_lineconfig *lc) {
+ span->lineconfig = lc->lineconfig;
+ return 0;
+}
+
+static int zthfc_initialize(struct dahdi_hfc *zthfc) {
+ struct hfc_card *hfctmp = zthfc->card;
+ int i;
+
+ memset(&zthfc->span, 0x0, sizeof(struct dahdi_span)); // you never can tell...
+
+ sprintf(zthfc->span.name, "ZTHFC%d", hfc_dev_count + 1);
+ if (hfctmp->regs.nt_mode == 1) {
+#ifdef RTAITIMING
+ sprintf(zthfc->span.desc, "HFC-S PCI A ISDN card %d [NT] [realtime]", hfc_dev_count + 1);
+#else
+ sprintf(zthfc->span.desc, "HFC-S PCI A ISDN card %d [NT]", hfc_dev_count + 1);
+#endif
+ } else {
+#ifdef RTAITIMING
+ sprintf(zthfc->span.desc, "HFC-S PCI A ISDN card %d [TE] [realtime]", hfc_dev_count + 1);
+#else
+ sprintf(zthfc->span.desc, "HFC-S PCI A ISDN card %d [TE]", hfc_dev_count + 1);
+#endif
+ }
+
+ zthfc->span.spanconfig = zthfc_spanconfig;
+ zthfc->span.chanconfig = zthfc_chanconfig;
+ zthfc->span.startup = zthfc_startup;
+ zthfc->span.shutdown = zthfc_shutdown;
+ zthfc->span.maint = zthfc_maint;
+ zthfc->span.rbsbits = zthfc_rbsbits;
+ zthfc->span.open = zthfc_open;
+ zthfc->span.close = zthfc_close;
+ zthfc->span.ioctl = zthfc_ioctl;
+
+ zthfc->span.channels = 3;
+ zthfc->span.chans = zthfc->_chans;
+ for (i = 0; i < zthfc->span.channels; i++)
+ zthfc->_chans[i] = &zthfc->chans[i];
+
+ zthfc->span.deflaw = DAHDI_LAW_ALAW;
+ zthfc->span.linecompat = DAHDI_CONFIG_AMI | DAHDI_CONFIG_CCS; // <--- this is really BS
+ zthfc->span.offset = 0;
+ init_waitqueue_head(&zthfc->span.maintq);
+ zthfc->span.pvt = zthfc;
+
+ for (i = 0; i < zthfc->span.channels; i++) {
+ memset(&(zthfc->chans[i]), 0x0, sizeof(struct dahdi_chan));
+ sprintf(zthfc->chans[i].name, "ZTHFC%d/%d/%d", hfc_dev_count + 1,0,i + 1);
+ zthfc->chans[i].pvt = zthfc;
+ zthfc->chans[i].sigcap = DAHDI_SIG_EM | DAHDI_SIG_CLEAR | DAHDI_SIG_FXSLS | DAHDI_SIG_FXSGS | DAHDI_SIG_FXSKS | DAHDI_SIG_FXOLS | DAHDI_SIG_FXOGS | DAHDI_SIG_FXOKS | DAHDI_SIG_CAS | DAHDI_SIG_SF;
+ zthfc->chans[i].chanpos = i + 1;
+ }
+
+ if (dahdi_register(&zthfc->span,0)) {
+ printk(KERN_CRIT "unable to register DAHDI device!\n");
+ return -1;
+ }
+// printk(KERN_CRIT "zaphfc: registered DAHDI device!\n");
+ return 0;
+}
+
+#ifdef RTAITIMING
+#define TICK_PERIOD 1000000
+#define TICK_PERIOD2 1000000000
+#define TASK_PRIORITY 1
+#define STACK_SIZE 10000
+
+static RT_TASK rt_task;
+static struct hfc_card *rtai_hfc_list[hfc_MAX_CARDS];
+static unsigned char rtai_hfc_counter = 0;
+
+static void rtai_register_hfc(struct hfc_card *hfctmp) {
+ rtai_hfc_list[rtai_hfc_counter++] = hfctmp;
+}
+
+static void rtai_loop(int t) {
+ int i=0;
+ for (;;) {
+ for (i=0; i < rtai_hfc_counter; i++) {
+ if (rtai_hfc_list[i] != NULL)
+ hfc_service(rtai_hfc_list[i]);
+ }
+ rt_task_wait_period();
+ }
+}
+#endif
+
+int hfc_findCards(int pcivendor, int pcidevice, char *vendor_name, char *card_name) {
+ struct pci_dev *tmp;
+ struct hfc_card *hfctmp = NULL;
+ struct dahdi_hfc *zthfc = NULL;
+
+ tmp = pci_get_device(pcivendor, pcidevice, multi_hfc);
+ while (tmp != NULL) {
+ multi_hfc = tmp; // skip this next time.
+
+ if (pci_enable_device(tmp)) {
+ multi_hfc = NULL;
+ return -1;
+ }
+ pci_set_master(tmp);
+
+ hfctmp = kmalloc(sizeof(struct hfc_card), GFP_KERNEL);
+ if (!hfctmp) {
+ printk(KERN_WARNING "zaphfc: unable to kmalloc!\n");
+ pci_disable_device(tmp);
+ multi_hfc = NULL;
+ return -ENOMEM;
+ }
+ memset(hfctmp, 0x0, sizeof(struct hfc_card));
+ spin_lock_init(&hfctmp->lock);
+
+ hfctmp->pcidev = tmp;
+ hfctmp->pcibus = tmp->bus->number;
+ hfctmp->pcidevfn = tmp->devfn;
+
+ if (!tmp->irq) {
+ printk(KERN_WARNING "zaphfc: no irq!\n");
+ } else {
+ hfctmp->irq = tmp->irq;
+ }
+
+ hfctmp->pci_io = (char *) tmp->resource[1].start;
+ if (!hfctmp->pci_io) {
+ printk(KERN_WARNING "zaphfc: no iomem!\n");
+ kfree(hfctmp);
+ pci_disable_device(tmp);
+ multi_hfc = NULL;
+ return -1;
+ }
+
+ hfctmp->fifomem = kmalloc(65536, GFP_KERNEL);
+ if (!hfctmp->fifomem) {
+ printk(KERN_WARNING "zaphfc: unable to kmalloc fifomem!\n");
+ kfree(hfctmp);
+ pci_disable_device(tmp);
+ multi_hfc = NULL;
+ return -ENOMEM;
+ } else {
+ memset(hfctmp->fifomem, 0x0, 65536);
+ hfctmp->fifos = (void *)(((ulong) hfctmp->fifomem) & ~0x7FFF) + 0x8000;
+ pci_write_config_dword(hfctmp->pcidev, 0x80, (u_int) virt_to_bus(hfctmp->fifos));
+ hfctmp->pci_io = ioremap((ulong) hfctmp->pci_io, 256);
+ }
+
+#ifdef RTAITIMING
+ /* we need no stinking irq */
+ hfctmp->irq = 0;
+#else
+ if (request_irq(hfctmp->irq, &hfc_interrupt, IRQF_SHARED, "zaphfc", hfctmp)) {
+ printk(KERN_WARNING "zaphfc: unable to register irq\n");
+ kfree(hfctmp->fifomem);
+ kfree(hfctmp);
+ iounmap((void *) hfctmp->pci_io);
+ pci_disable_device(tmp);
+ multi_hfc = NULL;
+ return -EIO;
+ }
+#endif
+
+#ifdef RTAITIMING
+ rtai_register_hfc(hfctmp);
+#endif
+ printk(KERN_INFO
+ "zaphfc: %s %s configured at mem %lx fifo %lx(%#x) IRQ %d HZ %d\n",
+ vendor_name, card_name,
+ (unsigned long) hfctmp->pci_io,
+ (unsigned long) hfctmp->fifos,
+ (u_int) virt_to_bus(hfctmp->fifos),
+ hfctmp->irq, HZ);
+ pci_write_config_word(hfctmp->pcidev, PCI_COMMAND, PCI_COMMAND_MEMORY); // enable memio
+ hfctmp->regs.int_m1 = 0; // no ints
+ hfctmp->regs.int_m2 = 0; // not at all
+ hfc_outb(hfctmp,hfc_INT_M1,hfctmp->regs.int_m1);
+ hfc_outb(hfctmp,hfc_INT_M2,hfctmp->regs.int_m2);
+
+ if ((modes & (1 << hfc_dev_count)) != 0) {
+ printk(KERN_INFO "zaphfc: Card %d configured for NT mode\n",hfc_dev_count);
+ hfctmp->regs.nt_mode = 1;
+ } else {
+ printk(KERN_INFO "zaphfc: Card %d configured for TE mode\n",hfc_dev_count);
+ hfctmp->regs.nt_mode = 0;
+ }
+
+ zthfc = kmalloc(sizeof(struct dahdi_hfc),GFP_KERNEL);
+ if (!zthfc) {
+ printk(KERN_CRIT "zaphfc: unable to kmalloc!\n");
+ hfc_shutdownCard(hfctmp);
+ kfree(hfctmp);
+ multi_hfc = NULL;
+ return -ENOMEM;
+ }
+ memset(zthfc, 0x0, sizeof(struct dahdi_hfc));
+
+ zthfc->card = hfctmp;
+ zthfc_initialize(zthfc);
+ hfctmp->ztdev = zthfc;
+
+ memset(hfctmp->drecbuf, 0x0, sizeof(hfctmp->drecbuf));
+ hfctmp->ztdev->chans[2].readchunk = hfctmp->drecbuf;
+
+ memset(hfctmp->dtransbuf, 0x0, sizeof(hfctmp->dtransbuf));
+ hfctmp->ztdev->chans[2].writechunk = hfctmp->dtransbuf;
+
+ memset(hfctmp->brecbuf[0], 0x0, sizeof(hfctmp->brecbuf[0]));
+ hfctmp->ztdev->chans[0].readchunk = hfctmp->brecbuf[0];
+ memset(hfctmp->btransbuf[0], 0x0, sizeof(hfctmp->btransbuf[0]));
+ hfctmp->ztdev->chans[0].writechunk = hfctmp->btransbuf[0];
+
+ memset(hfctmp->brecbuf[1], 0x0, sizeof(hfctmp->brecbuf[1]));
+ hfctmp->ztdev->chans[1].readchunk = hfctmp->brecbuf[1];
+ memset(hfctmp->btransbuf[1], 0x0, sizeof(hfctmp->btransbuf[1]));
+ hfctmp->ztdev->chans[1].writechunk = hfctmp->btransbuf[1];
+
+
+ hfc_registerCard(hfctmp);
+ hfc_resetCard(hfctmp);
+ tmp = pci_get_device(pcivendor, pcidevice, multi_hfc);
+ }
+ return 0;
+}
+
+
+
+int init_module(void) {
+ int i = 0;
+#ifdef RTAITIMING
+ RTIME tick_period;
+ for (i=0; i < hfc_MAX_CARDS; i++) {
+ rtai_hfc_list[i] = NULL;
+ }
+ rt_set_periodic_mode();
+#endif
+ i = 0;
+ while (id_list[i].vendor_id) {
+ multi_hfc = NULL;
+ hfc_findCards(id_list[i].vendor_id, id_list[i].device_id, id_list[i].vendor_name, id_list[i].card_name);
+ i++;
+ }
+#ifdef RTAITIMING
+ for (i=0; i < hfc_MAX_CARDS; i++) {
+ if (rtai_hfc_list[i]) {
+ printk(KERN_INFO
+ "zaphfc: configured %d at mem %#x fifo %#x(%#x) for realtime servicing\n",
+ rtai_hfc_list[i]->cardno,
+ (u_int) rtai_hfc_list[i]->pci_io,
+ (u_int) rtai_hfc_list[i]->fifos,
+ (u_int) virt_to_bus(rtai_hfc_list[i]->fifos));
+
+ }
+ }
+ rt_task_init(&rt_task, rtai_loop, 1, STACK_SIZE, TASK_PRIORITY, 0, 0);
+ tick_period = start_rt_timer(nano2count(TICK_PERIOD));
+ rt_task_make_periodic(&rt_task, rt_get_time() + tick_period, tick_period);
+#endif
+ printk(KERN_INFO "zaphfc: %d hfc-pci card(s) in this box.\n", hfc_dev_count);
+ return 0;
+}
+
+void cleanup_module(void) {
+ struct hfc_card *tmpcard;
+#ifdef RTAITIMING
+ stop_rt_timer();
+ rt_task_delete(&rt_task);
+#endif
+ printk(KERN_INFO "zaphfc: stop\n");
+// spin_lock(®isterlock);
+ while (hfc_dev_list != NULL) {
+ if (hfc_dev_list == NULL) break;
+ hfc_shutdownCard(hfc_dev_list);
+ tmpcard = hfc_dev_list;
+ hfc_dev_list = hfc_dev_list->next;
+ if (tmpcard != NULL) {
+ kfree(tmpcard);
+ tmpcard = NULL;
+ printk(KERN_INFO "zaphfc: freed one card.\n");
+ }
+ }
+// spin_unlock(®isterlock);
+}
+#endif
+
+
+module_param(modes, int, 0600);
+module_param(debug, int, 0600);
+
+MODULE_DESCRIPTION("HFC-S PCI A Zaptel Driver");
+MODULE_AUTHOR("Klaus-Peter Junghanns <kpj@junghanns.net>");
+#ifdef MODULE_LICENSE
+MODULE_LICENSE("GPL");
+#endif
Index: dahdi-linux-2.1.0/drivers/dahdi/zaphfc.h
===================================================================
--- /dev/null 1970-01-01 00:00:00.000000000 +0000
+++ dahdi-linux-2.1.0/drivers/dahdi/zaphfc.h 2008-12-10 12:46:14.000000000 +0200
@@ -0,0 +1,290 @@
+/*
+ * zaphfc.h - Zaptel driver for HFC-S PCI A based ISDN BRI cards
+ *
+ * kernel module based on HFC PCI ISDN4Linux and Zaptel drivers
+ *
+ * Copyright (C) 2002, 2003, 2004, 2005 Junghanns.NET GmbH
+ *
+ * Klaus-Peter Junghanns <kpj@junghanns.net>
+ *
+ * This program is free software and may be modified and
+ * distributed under the terms of the GNU Public License.
+ *
+ */
+
+/* HFC register addresses - accessed using memory mapped I/O */
+/* For a list, see datasheet section 3.2.1 at page 21 */
+
+#define hfc_outb(a,b,c) (writeb((c),(a)->pci_io+(b)))
+#define hfc_inb(a,b) (readb((a)->pci_io+(b)))
+
+/* GCI/IOM bus monitor registers */
+
+#define hfc_C_I 0x08
+#define hfc_TRxR 0x0C
+#define hfc_MON1_D 0x28
+#define hfc_MON2_D 0x2C
+
+
+/* GCI/IOM bus timeslot registers */
+
+#define hfc_B1_SSL 0x80
+#define hfc_B2_SSL 0x84
+#define hfc_AUX1_SSL 0x88
+#define hfc_AUX2_SSL 0x8C
+#define hfc_B1_RSL 0x90
+#define hfc_B2_RSL 0x94
+#define hfc_AUX1_RSL 0x98
+#define hfc_AUX2_RSL 0x9C
+
+/* GCI/IOM bus data registers */
+
+#define hfc_B1_D 0xA0
+#define hfc_B2_D 0xA4
+#define hfc_AUX1_D 0xA8
+#define hfc_AUX2_D 0xAC
+
+/* GCI/IOM bus configuration registers */
+
+#define hfc_MST_EMOD 0xB4
+#define hfc_MST_MODE 0xB8
+#define hfc_CONNECT 0xBC
+
+
+/* Interrupt and status registers */
+
+#define hfc_FIFO_EN 0x44
+#define hfc_TRM 0x48
+#define hfc_B_MODE 0x4C
+#define hfc_CHIP_ID 0x58
+#define hfc_CIRM 0x60
+#define hfc_CTMT 0x64
+#define hfc_INT_M1 0x68
+#define hfc_INT_M2 0x6C
+#define hfc_INT_S1 0x78
+#define hfc_INT_S2 0x7C
+#define hfc_STATUS 0x70
+
+/* S/T section registers */
+
+#define hfc_STATES 0xC0
+#define hfc_SCTRL 0xC4
+#define hfc_SCTRL_E 0xC8
+#define hfc_SCTRL_R 0xCC
+#define hfc_SQ 0xD0
+#define hfc_CLKDEL 0xDC
+#define hfc_B1_REC 0xF0
+#define hfc_B1_SEND 0xF0
+#define hfc_B2_REC 0xF4
+#define hfc_B2_SEND 0xF4
+#define hfc_D_REC 0xF8
+#define hfc_D_SEND 0xF8
+#define hfc_E_REC 0xFC
+
+/* Bits and values in various HFC PCI registers */
+
+/* bits in status register (READ) */
+#define hfc_STATUS_PCI_PROC 0x02
+#define hfc_STATUS_NBUSY 0x04
+#define hfc_STATUS_TIMER_ELAP 0x10
+#define hfc_STATUS_STATINT 0x20
+#define hfc_STATUS_FRAMEINT 0x40
+#define hfc_STATUS_ANYINT 0x80
+
+/* bits in CTMT (Write) */
+#define hfc_CTMT_CLTIMER 0x80
+#define hfc_CTMT_TIM3_125 0x04
+#define hfc_CTMT_TIM25 0x10
+#define hfc_CTMT_TIM50 0x14
+#define hfc_CTMT_TIM400 0x18
+#define hfc_CTMT_TIM800 0x1C
+#define hfc_CTMT_AUTO_TIMER 0x20
+#define hfc_CTMT_TRANSB2 0x02
+#define hfc_CTMT_TRANSB1 0x01
+
+/* bits in CIRM (Write) */
+#define hfc_CIRM_AUX_MSK 0x07
+#define hfc_CIRM_RESET 0x08
+#define hfc_CIRM_B1_REV 0x40
+#define hfc_CIRM_B2_REV 0x80
+
+/* bits in INT_M1 and INT_S1 */
+#define hfc_INTS_B1TRANS 0x01
+#define hfc_INTS_B2TRANS 0x02
+#define hfc_INTS_DTRANS 0x04
+#define hfc_INTS_B1REC 0x08
+#define hfc_INTS_B2REC 0x10
+#define hfc_INTS_DREC 0x20
+#define hfc_INTS_L1STATE 0x40
+#define hfc_INTS_TIMER 0x80
+
+/* bits in INT_M2 */
+#define hfc_M2_PROC_TRANS 0x01
+#define hfc_M2_GCI_I_CHG 0x02
+#define hfc_M2_GCI_MON_REC 0x04
+#define hfc_M2_IRQ_ENABLE 0x08
+#define hfc_M2_PMESEL 0x80
+
+/* bits in STATES */
+#define hfc_STATES_STATE_MASK 0x0F
+#define hfc_STATES_LOAD_STATE 0x10
+#define hfc_STATES_ACTIVATE 0x20
+#define hfc_STATES_DO_ACTION 0x40
+#define hfc_STATES_NT_G2_G3 0x80
+
+/* bits in HFCD_MST_MODE */
+#define hfc_MST_MODE_MASTER 0x01
+#define hfc_MST_MODE_SLAVE 0x00
+/* remaining bits are for codecs control */
+
+/* bits in HFCD_SCTRL */
+#define hfc_SCTRL_B1_ENA 0x01
+#define hfc_SCTRL_B2_ENA 0x02
+#define hfc_SCTRL_MODE_TE 0x00
+#define hfc_SCTRL_MODE_NT 0x04
+#define hfc_SCTRL_LOW_PRIO 0x08
+#define hfc_SCTRL_SQ_ENA 0x10
+#define hfc_SCTRL_TEST 0x20
+#define hfc_SCTRL_NONE_CAP 0x40
+#define hfc_SCTRL_PWR_DOWN 0x80
+
+/* bits in SCTRL_E */
+#define hfc_SCTRL_E_AUTO_AWAKE 0x01
+#define hfc_SCTRL_E_DBIT_1 0x04
+#define hfc_SCTRL_E_IGNORE_COL 0x08
+#define hfc_SCTRL_E_CHG_B1_B2 0x80
+
+/* bits in FIFO_EN register */
+#define hfc_FIFOEN_B1TX 0x01
+#define hfc_FIFOEN_B1RX 0x02
+#define hfc_FIFOEN_B2TX 0x04
+#define hfc_FIFOEN_B2RX 0x08
+#define hfc_FIFOEN_DTX 0x10
+#define hfc_FIFOEN_DRX 0x20
+
+#define hfc_FIFOEN_B1 (hfc_FIFOEN_B1TX|hfc_FIFOEN_B1RX)
+#define hfc_FIFOEN_B2 (hfc_FIFOEN_B2TX|hfc_FIFOEN_B2RX)
+#define hfc_FIFOEN_D (hfc_FIFOEN_DTX|hfc_FIFOEN_DRX)
+
+/* bits in the CONNECT register */
+#define hfc_CONNECT_B1_shift 0
+#define hfc_CONNECT_B2_shift 3
+
+#define hfc_CONNECT_HFC_from_ST 0x0
+#define hfc_CONNECT_HFC_from_GCI 0x1
+#define hfc_CONNECT_ST_from_HFC 0x0
+#define hfc_CONNECT_ST_from_GCI 0x2
+#define hfc_CONNECT_GCI_from_HFC 0x0
+#define hfc_CONNECT_GCI_from_ST 0x4
+
+/* bits in the __SSL and __RSL registers */
+#define hfc_SRSL_STIO 0x40
+#define hfc_SRSL_ENABLE 0x80
+#define hfc_SRCL_SLOT_MASK 0x1f
+
+/* FIFO memory definitions */
+
+#define hfc_FMASK 0x000f
+#define hfc_ZMASK 0x01ff
+#define hfc_ZMASKB 0x1fff
+
+#define hfc_D_FIFO_SIZE 0x0200
+#define hfc_B_SUB_VAL 0x0200
+#define hfc_B_FIFO_SIZE 0x1E00
+#define hfc_MAX_DFRAMES 0x000f
+
+#define hfc_FIFO_DTX_Z1 0x2080
+#define hfc_FIFO_DTX_Z2 0x2082
+#define hfc_FIFO_DTX_F1 0x20a0
+#define hfc_FIFO_DTX_F2 0x20a1
+#define hfc_FIFO_DTX 0x0000
+#define hfc_FIFO_DTX_ZOFF 0x000
+
+#define hfc_FIFO_DRX_Z1 0x6080
+#define hfc_FIFO_DRX_Z2 0x6082
+#define hfc_FIFO_DRX_F1 0x60a0
+#define hfc_FIFO_DRX_F2 0x60a1
+#define hfc_FIFO_DRX 0x4000
+#define hfc_FIFO_DRX_ZOFF 0x4000
+
+#define hfc_FIFO_B1TX_Z1 0x2000
+#define hfc_FIFO_B1TX_Z2 0x2002
+#define hfc_FIFO_B1RX_Z1 0x6000
+#define hfc_FIFO_B1RX_Z2 0x6002
+
+#define hfc_FIFO_B1TX_F1 0x2080
+#define hfc_FIFO_B1TX_F2 0x2081
+#define hfc_FIFO_B1RX_F1 0x6080
+#define hfc_FIFO_B1RX_F2 0x6081
+
+#define hfc_FIFO_B1RX_ZOFF 0x4000
+#define hfc_FIFO_B1TX_ZOFF 0x0000
+
+#define hfc_FIFO_B2TX_Z1 0x2100
+#define hfc_FIFO_B2TX_Z2 0x2102
+#define hfc_FIFO_B2RX_Z1 0x6100
+#define hfc_FIFO_B2RX_Z2 0x6102
+
+#define hfc_FIFO_B2TX_F1 0x2180
+#define hfc_FIFO_B2TX_F2 0x2181
+#define hfc_FIFO_B2RX_F1 0x6180
+#define hfc_FIFO_B2RX_F2 0x6181
+
+#define hfc_FIFO_B2RX_ZOFF 0x6000
+#define hfc_FIFO_B2TX_ZOFF 0x2000
+
+#define hfc_BTRANS_THRESHOLD 128
+#define hfc_BTRANS_THRESMASK 0x00
+
+/* Structures */
+
+typedef struct hfc_regs {
+ unsigned char fifo_en;
+ unsigned char ctmt;
+ unsigned char int_m1;
+ unsigned char int_m2;
+ unsigned char sctrl;
+ unsigned char sctrl_e;
+ unsigned char sctrl_r;
+ unsigned char connect;
+ unsigned char trm;
+ unsigned char mst_mode;
+ unsigned char bswapped;
+ unsigned char nt_mode;
+ unsigned char int_drec;
+} hfc_regs;
+
+typedef struct hfc_card {
+ spinlock_t lock;
+ unsigned int irq;
+ unsigned int iomem;
+ int ticks;
+ int clicks;
+ unsigned char *pci_io;
+ void *fifomem; // start of the shared mem
+ volatile void *fifos; // 32k aligned mem for the fifos
+ struct hfc_regs regs;
+ unsigned int pcibus;
+ unsigned int pcidevfn;
+ struct pci_dev *pcidev;
+ struct dahdi_hfc *ztdev;
+ int drecinframe;
+ unsigned char drecbuf[hfc_D_FIFO_SIZE];
+ unsigned char dtransbuf[hfc_D_FIFO_SIZE];
+ unsigned char brecbuf[2][DAHDI_CHUNKSIZE];
+ unsigned char btransbuf[2][DAHDI_CHUNKSIZE];
+ unsigned char cardno;
+ struct hfc_card *next;
+} hfc_card;
+
+typedef struct dahdi_hfc {
+ unsigned int usecount;
+ struct dahdi_span span;
+ struct dahdi_chan chans[3];
+ struct dahdi_chan *_chans[3];
+ struct hfc_card *card;
+} dahdi_hfc;
+
+/* tune this */
+#define hfc_BCHAN_BUFFER 8
+#define hfc_MAX_CARDS 8
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