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[/] [or1k_old/] [trunk/] [uclinux/] [uClinux-2.0.x/] [drivers/] [isdn/] [avmb1/] [b1lli.c] - Rev 1782
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/* * $Id: b1lli.c,v 1.1.1.1 2001-09-10 07:44:18 simons Exp $ * * ISDN lowlevel-module for AVM B1-card. * * (c) Copyright 1997 by Carsten Paeth (calle@calle.in-berlin.de) * * $Log: not supported by cvs2svn $ * Revision 1.1.1.1 2001/07/02 17:58:32 simons * Initial revision * * Revision 1.1.2.11 1998/10/25 14:36:18 fritz * Backported from MIPS (Cobalt). * * Revision 1.1.2.10 1998/03/20 20:34:41 calle * port valid check now only for T1, because of the PCI and PCMCIA cards. * * Revision 1.1.2.9 1998/03/20 14:38:20 calle * capidrv: prepared state machines for suspend/resume/hold * capidrv: fix bug in state machine if B1/T1 is out of nccis * b1capi: changed some errno returns. * b1capi: detect if you try to add same T1 to different io address. * b1capi: change number of nccis depending on number of channels. * b1lli: cosmetics * * Revision 1.1.2.8 1998/03/18 17:43:29 calle * T1 with fastlink, bugfix for multicontroller support in capidrv.c * * Revision 1.1.2.7 1998/03/04 17:33:50 calle * Changes for T1. * * Revision 1.1.2.6 1998/02/27 15:40:44 calle * T1 running with slow link. bugfix in capi_release. * * Revision 1.1.2.5 1998/02/13 16:28:28 calle * first step for T1 * * Revision 1.1.2.4 1998/01/27 16:12:51 calle * Support for PCMCIA B1/M1/M2 ready. * * Revision 1.1.2.3 1998/01/15 15:33:37 calle * print cardtype, d2 protocol and linetype after load. * * Revision 1.1.2.2 1997/11/26 10:46:55 calle * prepared for M1 (Mobile) and T1 (PMX) cards. * prepared to set configuration after load to support other D-channel * protocols, point-to-point and leased lines. * * Revision 1.1.2.1 1997/07/13 12:16:46 calle * bug fix for more than one controller in connect_req. * * Revision 1.1 1997/03/04 21:50:28 calle * Frirst version in isdn4linux * * Revision 2.2 1997/02/12 09:31:39 calle * new version * * Revision 1.1 1997/01/31 10:32:20 calle * Initial revision * * */ /* #define FASTLINK_DEBUG */ #include <linux/kernel.h> #include <linux/skbuff.h> #include <linux/delay.h> #include <linux/mm.h> #include <asm/segment.h> #include <asm/io.h> #include <linux/capi.h> #include <linux/b1lli.h> #include "compat.h" #include "capicmd.h" #include "capiutil.h" extern int showcapimsgs; /* * LLI Messages to the ISDN-ControllerISDN Controller */ #define SEND_POLL 0x72 /* * after load <- RECEIVE_POLL */ #define SEND_INIT 0x11 /* * first message <- RECEIVE_INIT * int32 NumApplications int32 * NumNCCIs int32 BoardNumber */ #define SEND_REGISTER 0x12 /* * register an application int32 * ApplIDId int32 NumMessages * int32 NumB3Connections int32 * NumB3Blocks int32 B3Size * * AnzB3Connection != 0 && * AnzB3Blocks >= 1 && B3Size >= 1 */ #define SEND_RELEASE 0x14 /* * deregister an application int32 * ApplID */ #define SEND_MESSAGE 0x15 /* * send capi-message int32 length * capi-data ... */ #define SEND_DATA_B3_REQ 0x13 /* * send capi-data-message int32 * MsgLength capi-data ... int32 * B3Length data .... */ #define SEND_CONFIG 0x21 /* */ #define SEND_POLLACK 0x73 /* T1 Watchdog */ /* * LLI Messages from the ISDN-ControllerISDN Controller */ #define RECEIVE_POLL 0x32 /* * <- after SEND_POLL */ #define RECEIVE_INIT 0x27 /* * <- after SEND_INIT int32 length * byte total length b1struct board * driver revision b1struct card * type b1struct reserved b1struct * serial number b1struct driver * capability b1struct d-channel * protocol b1struct CAPI-2.0 * profile b1struct capi version */ #define RECEIVE_MESSAGE 0x21 /* * <- after SEND_MESSAGE int32 * AppllID int32 Length capi-data * .... */ #define RECEIVE_DATA_B3_IND 0x22 /* * received data int32 AppllID * int32 Length capi-data ... * int32 B3Length data ... */ #define RECEIVE_START 0x23 /* * Handshake */ #define RECEIVE_STOP 0x24 /* * Handshake */ #define RECEIVE_NEW_NCCI 0x25 /* * int32 AppllID int32 NCCI int32 * WindowSize */ #define RECEIVE_FREE_NCCI 0x26 /* * int32 AppllID int32 NCCI */ #define RECEIVE_RELEASE 0x26 /* * int32 AppllID int32 0xffffffff */ #define RECEIVE_TASK_READY 0x31 /* * int32 tasknr * int32 Length Taskname ... */ #define WRITE_REGISTER 0x00 #define READ_REGISTER 0x01 /* * port offsets */ #define B1_READ 0x00 #define B1_WRITE 0x01 #define B1_INSTAT 0x02 #define B1_OUTSTAT 0x03 #define B1_RESET 0x10 #define B1_ANALYSE 0x04 /* Hema card T1 */ #define T1_FASTLINK 0x00 #define T1_SLOWLINK 0x08 #define T1_READ B1_READ #define T1_WRITE B1_WRITE #define T1_INSTAT B1_INSTAT #define T1_OUTSTAT B1_OUTSTAT #define T1_IRQENABLE 0x05 #define T1_FIFOSTAT 0x06 #define T1_RESETLINK 0x10 #define T1_ANALYSE 0x11 #define T1_IRQMASTER 0x12 #define T1_IDENT 0x17 #define T1_RESETBOARD 0x1f #define T1F_IREADY 0x01 #define T1F_IHALF 0x02 #define T1F_IFULL 0x04 #define T1F_IEMPTY 0x08 #define T1F_IFLAGS 0xF0 #define T1F_OREADY 0x10 #define T1F_OHALF 0x20 #define T1F_OEMPTY 0x40 #define T1F_OFULL 0x80 #define T1F_OFLAGS 0xF0 /* there are HEMA cards with 1k and 4k FIFO out */ #define FIFO_OUTBSIZE 256 #define FIFO_INPBSIZE 512 #define HEMA_VERSION_ID 0 #define HEMA_PAL_ID 0 #define B1_STAT0(cardtype) ((cardtype) == AVM_CARDTYPE_M1 ? 0x81200000l : 0x80A00000l) #define B1_STAT1(cardtype) (0x80E00000l) static inline unsigned char b1outp(unsigned int base, unsigned short offset, unsigned char value) { outb(value, base + offset); return inb(base + B1_ANALYSE); } static inline void t1outp(unsigned int base, unsigned short offset, unsigned char value) { outb(value, base + offset); } static inline unsigned char t1inp(unsigned int base, unsigned short offset) { return inb(base + offset); } static inline int B1_isfastlink(unsigned int base) { return (inb(base + T1_IDENT) & ~0x82) == 1; } static inline unsigned char B1_fifostatus(unsigned int base) { return inb(base + T1_FIFOSTAT); } static inline int B1_rx_full(unsigned int base) { return inb(base + B1_INSTAT) & 0x1; } static inline unsigned char B1_get_byte(unsigned int base) { unsigned long i = jiffies + 1 * HZ; /* maximum wait time 1 sec */ while (!B1_rx_full(base) && i > jiffies); if (B1_rx_full(base)) return inb(base + B1_READ); printk(KERN_CRIT "b1lli(0x%x): rx not full after 1 second\n", base); return 0; } static inline unsigned int B1_get_word(unsigned int base) { unsigned int val = 0; val |= B1_get_byte(base); val |= (B1_get_byte(base) << 8); val |= (B1_get_byte(base) << 16); val |= (B1_get_byte(base) << 24); return val; } static inline int B1_tx_empty(unsigned int base) { return inb(base + B1_OUTSTAT) & 0x1; } static inline void B1_put_byte(unsigned int base, unsigned char val) { while (!B1_tx_empty(base)); b1outp(base, B1_WRITE, val); } static inline void B1_put_word(unsigned int base, unsigned int val) { B1_put_byte(base, val & 0xff); B1_put_byte(base, (val >> 8) & 0xff); B1_put_byte(base, (val >> 16) & 0xff); B1_put_byte(base, (val >> 24) & 0xff); } static inline unsigned int B1_get_slice(unsigned int base, unsigned char *dp) { unsigned int len, i; #ifdef FASTLINK_DEBUG unsigned wcnt = 0, bcnt = 0; #endif len = i = B1_get_word(base); if (B1_isfastlink(base)) { int status; while (i > 0) { status = B1_fifostatus(base) & (T1F_IREADY|T1F_IHALF); if (i >= FIFO_INPBSIZE) status |= T1F_IFULL; switch (status) { case T1F_IREADY|T1F_IHALF|T1F_IFULL: insb(base+B1_READ, dp, FIFO_INPBSIZE); dp += FIFO_INPBSIZE; i -= FIFO_INPBSIZE; #ifdef FASTLINK_DEBUG wcnt += FIFO_INPBSIZE; #endif break; case T1F_IREADY|T1F_IHALF: insb(base+B1_READ,dp, i); #ifdef FASTLINK_DEBUG wcnt += i; #endif dp += i; i = 0; if (i == 0) break; /* fall through */ default: *dp++ = B1_get_byte(base); i--; #ifdef FASTLINK_DEBUG bcnt++; #endif break; } } #ifdef FASTLINK_DEBUG if (wcnt) printk(KERN_DEBUG "b1lli(0x%x): get_slice l=%d w=%d b=%d\n", base, len, wcnt, bcnt); #endif } else { while (i-- > 0) *dp++ = B1_get_byte(base); } return len; } static inline void B1_put_slice(unsigned int base, unsigned char *dp, unsigned int len) { unsigned i = len; B1_put_word(base, i); if (B1_isfastlink(base)) { int status; while (i > 0) { status = B1_fifostatus(base) & (T1F_OREADY|T1F_OHALF); if (i >= FIFO_OUTBSIZE) status |= T1F_OEMPTY; switch (status) { case T1F_OREADY|T1F_OHALF|T1F_OEMPTY: outsb(base+B1_WRITE, dp, FIFO_OUTBSIZE); dp += FIFO_OUTBSIZE; i -= FIFO_OUTBSIZE; break; case T1F_OREADY|T1F_OHALF: outsb(base+B1_WRITE, dp, i); dp += i; i = 0; break; default: B1_put_byte(base, *dp++); i--; break; } } } else { while (i-- > 0) B1_put_byte(base, *dp++); } } static void b1_wr_reg(unsigned int base, unsigned int reg, unsigned int value) { B1_put_byte(base, WRITE_REGISTER); B1_put_word(base, reg); B1_put_word(base, value); } static inline unsigned int b1_rd_reg(unsigned int base, unsigned int reg) { B1_put_byte(base, READ_REGISTER); B1_put_word(base, reg); return B1_get_word(base); } static inline void b1_set_test_bit(unsigned int base, int cardtype, int onoff) { b1_wr_reg(base, B1_STAT0(cardtype), onoff ? 0x21 : 0x20); } static inline int b1_get_test_bit(unsigned int base, int cardtype) { return (b1_rd_reg(base, B1_STAT0(cardtype)) & 0x01) != 0; } static int irq_table[16] = {0, 0, 0, 192, /* irq 3 */ 32, /* irq 4 */ 160, /* irq 5 */ 96, /* irq 6 */ 224, /* irq 7 */ 0, 64, /* irq 9 */ 80, /* irq 10 */ 208, /* irq 11 */ 48, /* irq 12 */ 0, 0, 112, /* irq 15 */ }; static int hema_irq_table[16] = {0, 0, 0, 0x80, /* irq 3 */ 0, 0x90, /* irq 5 */ 0, 0xA0, /* irq 7 */ 0, 0xB0, /* irq 9 */ 0xC0, /* irq 10 */ 0xD0, /* irq 11 */ 0xE0, /* irq 12 */ 0, 0, 0xF0, /* irq 15 */ }; int B1_valid_irq(unsigned irq, int cardtype) { switch (cardtype) { default: case AVM_CARDTYPE_M1: case AVM_CARDTYPE_M2: case AVM_CARDTYPE_B1: return irq_table[irq & 0xf] != 0; case AVM_CARDTYPE_T1: return hema_irq_table[irq & 0xf] != 0; } } int B1_valid_port(unsigned port, int cardtype) { switch (cardtype) { default: case AVM_CARDTYPE_M1: case AVM_CARDTYPE_M2: case AVM_CARDTYPE_B1: #if 0 /* problem with PCMCIA and PCI cards */ switch (port) { case 0x150: case 0x250: case 0x300: case 0x340: return 1; } return 0; #else return 1; #endif case AVM_CARDTYPE_T1: return ((port & 0x7) == 0) && ((port & 0x30) != 0x30); } } void B1_setinterrupt(unsigned int base, unsigned irq, int cardtype) { switch (cardtype) { case AVM_CARDTYPE_T1: t1outp(base, B1_INSTAT, 0x00); t1outp(base, B1_INSTAT, 0x02); t1outp(base, T1_IRQMASTER, 0x08); default: case AVM_CARDTYPE_M1: case AVM_CARDTYPE_M2: case AVM_CARDTYPE_B1: b1outp(base, B1_INSTAT, 0x00); b1outp(base, B1_RESET, irq_table[irq]); b1outp(base, B1_INSTAT, 0x02); } } unsigned char B1_disable_irq(unsigned int base) { return b1outp(base, B1_INSTAT, 0x00); } void T1_disable_irq(unsigned int base) { t1outp(base, T1_IRQMASTER, 0x00); } void B1_reset(unsigned int base) { b1outp(base, B1_RESET, 0); udelay(55 * 2 * 1000); /* 2 TIC's */ b1outp(base, B1_RESET, 1); udelay(55 * 2 * 1000); /* 2 TIC's */ b1outp(base, B1_RESET, 0); udelay(55 * 2 * 1000); /* 2 TIC's */ } void T1_reset(unsigned int base) { /* reset T1 Controller */ B1_reset(base); /* disable irq on HEMA */ t1outp(base, B1_INSTAT, 0x00); t1outp(base, B1_OUTSTAT, 0x00); t1outp(base, T1_IRQMASTER, 0x00); /* reset HEMA board configuration */ t1outp(base, T1_RESETBOARD, 0xf); } int B1_detect(unsigned int base, int cardtype) { int onoff, i; if (cardtype == AVM_CARDTYPE_T1) return 0; /* * Statusregister 0000 00xx */ if ((inb(base + B1_INSTAT) & 0xfc) || (inb(base + B1_OUTSTAT) & 0xfc)) return 1; /* * Statusregister 0000 001x */ b1outp(base, B1_INSTAT, 0x2); /* enable irq */ /* b1outp(base, B1_OUTSTAT, 0x2); */ if ((inb(base + B1_INSTAT) & 0xfe) != 0x2 /* || (inb(base + B1_OUTSTAT) & 0xfe) != 0x2 */) return 2; /* * Statusregister 0000 000x */ b1outp(base, B1_INSTAT, 0x0); /* disable irq */ b1outp(base, B1_OUTSTAT, 0x0); if ((inb(base + B1_INSTAT) & 0xfe) || (inb(base + B1_OUTSTAT) & 0xfe)) return 3; for (onoff = !0, i= 0; i < 10 ; i++) { b1_set_test_bit(base, cardtype, onoff); if (b1_get_test_bit(base, cardtype) != onoff) return 4; onoff = !onoff; } if (cardtype == AVM_CARDTYPE_M1) return 0; if ((b1_rd_reg(base, B1_STAT1(cardtype)) & 0x0f) != 0x01) return 5; return 0; } int T1_detectandinit(unsigned int base, unsigned irq, int cardnr) { unsigned char cregs[8]; unsigned char reverse_cardnr; unsigned long flags; unsigned char dummy; int i; reverse_cardnr = ((cardnr & 0x01) << 3) | ((cardnr & 0x02) << 1) | ((cardnr & 0x04) >> 1) | ((cardnr & 0x08) >> 3); cregs[0] = (HEMA_VERSION_ID << 4) | (reverse_cardnr & 0xf); cregs[1] = 0x00; /* fast & slow link connected to CON1 */ cregs[2] = 0x05; /* fast link 20MBit, slow link 20 MBit */ cregs[3] = 0; cregs[4] = 0x11; /* zero wait state */ cregs[5] = hema_irq_table[irq & 0xf]; cregs[6] = 0; cregs[7] = 0; save_flags(flags); cli(); /* board reset */ t1outp(base, T1_RESETBOARD, 0xf); udelay(100 * 1000); dummy = t1inp(base, T1_FASTLINK+T1_OUTSTAT); /* first read */ /* write config */ dummy = (base >> 4) & 0xff; for (i=1;i<=0xf;i++) t1outp(base, i, dummy); t1outp(base, HEMA_PAL_ID & 0xf, dummy); t1outp(base, HEMA_PAL_ID >> 4, cregs[0]); for(i=1;i<7;i++) t1outp(base, 0, cregs[i]); t1outp(base, ((base >> 4)) & 0x3, cregs[7]); restore_flags(flags); udelay(100 * 1000); t1outp(base, T1_FASTLINK+T1_RESETLINK, 0); t1outp(base, T1_SLOWLINK+T1_RESETLINK, 0); udelay(10 * 1000); t1outp(base, T1_FASTLINK+T1_RESETLINK, 1); t1outp(base, T1_SLOWLINK+T1_RESETLINK, 1); udelay(100 * 1000); t1outp(base, T1_FASTLINK+T1_RESETLINK, 0); t1outp(base, T1_SLOWLINK+T1_RESETLINK, 0); udelay(10 * 1000); t1outp(base, T1_FASTLINK+T1_ANALYSE, 0); udelay(5 * 1000); t1outp(base, T1_SLOWLINK+T1_ANALYSE, 0); if (t1inp(base, T1_FASTLINK+T1_OUTSTAT) != 0x1) /* tx empty */ return 1; if (t1inp(base, T1_FASTLINK+T1_INSTAT) != 0x0) /* rx empty */ return 2; if (t1inp(base, T1_FASTLINK+T1_IRQENABLE) != 0x0) return 3; if ((t1inp(base, T1_FASTLINK+T1_FIFOSTAT) & 0xf0) != 0x70) return 4; if ((t1inp(base, T1_FASTLINK+T1_IRQMASTER) & 0x0e) != 0) return 5; if ((t1inp(base, T1_FASTLINK+T1_IDENT) & 0x7d) != 1) return 6; if (t1inp(base, T1_SLOWLINK+T1_OUTSTAT) != 0x1) /* tx empty */ return 7; if ((t1inp(base, T1_SLOWLINK+T1_IRQMASTER) & 0x0e) != 0) return 8; if ((t1inp(base, T1_SLOWLINK+T1_IDENT) & 0x7d) != 0) return 9; return 0; } extern int loaddebug; int B1_load_t4file(unsigned int base, avmb1_t4file * t4file) { /* * Data is in user space !!! */ unsigned char buf[256]; unsigned char *dp; int i, left, retval; dp = t4file->data; left = t4file->len; while (left > sizeof(buf)) { retval = copy_from_user(buf, dp, sizeof(buf)); if (retval) return -EFAULT; if (loaddebug) printk(KERN_DEBUG "b1capi: loading: %d bytes ..", sizeof(buf)); for (i = 0; i < sizeof(buf); i++) B1_put_byte(base, buf[i]); if (loaddebug) printk("ok\n"); left -= sizeof(buf); dp += sizeof(buf); } if (left) { retval = copy_from_user(buf, dp, left); if (retval) return -EFAULT; if (loaddebug) printk(KERN_DEBUG "b1capi: loading: %d bytes ..", left); for (i = 0; i < left; i++) B1_put_byte(base, buf[i]); if (loaddebug) printk("ok\n"); } return 0; } int B1_load_config(unsigned int base, avmb1_t4file * config) { /* * Data is in user space !!! */ unsigned char buf[256]; unsigned char *dp; int i, j, left, retval; dp = config->data; left = config->len; if (left) { B1_put_byte(base, SEND_CONFIG); B1_put_word(base, 1); B1_put_byte(base, SEND_CONFIG); B1_put_word(base, left); } while (left > sizeof(buf)) { retval = copy_from_user(buf, dp, sizeof(buf)); if (retval) return -EFAULT; if (loaddebug) printk(KERN_DEBUG "b1capi: conf load: %d bytes ..", sizeof(buf)); for (i = 0; i < sizeof(buf); ) { B1_put_byte(base, SEND_CONFIG); for (j=0; j < 4; j++) { B1_put_byte(base, buf[i++]); } } if (loaddebug) printk("ok\n"); left -= sizeof(buf); dp += sizeof(buf); } if (left) { retval = copy_from_user(buf, dp, left); if (retval) return -EFAULT; if (loaddebug) printk(KERN_DEBUG "b1capi: conf load: %d bytes ..", left); for (i = 0; i < left; ) { B1_put_byte(base, SEND_CONFIG); for (j=0; j < 4; j++) { if (i < left) B1_put_byte(base, buf[i++]); else B1_put_byte(base, 0); } } if (loaddebug) printk("ok\n"); } return 0; } int B1_loaded(unsigned int base) { int i; unsigned char ans; if (loaddebug) printk(KERN_DEBUG "b1capi: loaded: wait 1 ..\n"); for (i = jiffies + 10 * HZ; i > jiffies;) { if (B1_tx_empty(base)) break; } if (!B1_tx_empty(base)) { printk(KERN_ERR "b1lli(0x%x): B1_loaded: timeout tx\n", base); return 0; } B1_put_byte(base, SEND_POLL); printk(KERN_DEBUG "b1capi: loaded: wait 2 ..\n"); for (i = jiffies + 10 * HZ; i > jiffies;) { if (B1_rx_full(base)) { if ((ans = B1_get_byte(base)) == RECEIVE_POLL) { if (loaddebug) printk(KERN_DEBUG "b1capi: loaded: ok\n"); return 1; } printk(KERN_ERR "b1lli(0x%x): B1_loaded: got 0x%x ???\n", base, ans); return 0; } } printk(KERN_ERR "b1lli(0x%x): B1_loaded: timeout rx\n", base); return 0; } /* * ------------------------------------------------------------------- */ static inline void parse_version(avmb1_card * card) { int i, j; for (j = 0; j < AVM_MAXVERSION; j++) card->version[j] = "\0\0" + 1; for (i = 0, j = 0; j < AVM_MAXVERSION && i < card->versionlen; j++, i += card->versionbuf[i] + 1) card->version[j] = &card->versionbuf[i + 1]; } /* * ------------------------------------------------------------------- */ void B1_send_init(unsigned int port, unsigned int napps, unsigned int nncci, unsigned int cardnr) { unsigned long flags; save_flags(flags); cli(); B1_put_byte(port, SEND_INIT); B1_put_word(port, napps); B1_put_word(port, nncci); B1_put_word(port, cardnr); restore_flags(flags); } void B1_send_register(unsigned int port, __u16 appid, __u32 nmsg, __u32 nb3conn, __u32 nb3blocks, __u32 b3bsize) { unsigned long flags; save_flags(flags); cli(); B1_put_byte(port, SEND_REGISTER); B1_put_word(port, appid); B1_put_word(port, nmsg); B1_put_word(port, nb3conn); B1_put_word(port, nb3blocks); B1_put_word(port, b3bsize); restore_flags(flags); } void B1_send_release(unsigned int port, __u16 appid) { unsigned long flags; save_flags(flags); cli(); B1_put_byte(port, SEND_RELEASE); B1_put_word(port, appid); restore_flags(flags); } void B1_send_message(unsigned int port, struct sk_buff *skb) { unsigned long flags; __u16 len = CAPIMSG_LEN(skb->data); __u8 cmd = CAPIMSG_COMMAND(skb->data); __u8 subcmd = CAPIMSG_SUBCOMMAND(skb->data); __u32 contr = CAPIMSG_CONTROL(skb->data); if (CAPICMD(cmd, subcmd) == CAPI_DATA_B3_REQ) { __u16 dlen = CAPIMSG_DATALEN(skb->data); if (showcapimsgs > 2) { if (showcapimsgs & 1) { printk(KERN_DEBUG "b1lli: Put [0x%lx] id#%d %s len=%u\n", (unsigned long) contr, CAPIMSG_APPID(skb->data), capi_cmd2str(cmd, subcmd), len); } else { printk(KERN_DEBUG "b1lli: Put [0x%lx] %s\n", (unsigned long) contr, capi_message2str(skb->data)); } } save_flags(flags); cli(); B1_put_byte(port, SEND_DATA_B3_REQ); B1_put_slice(port, skb->data, len); B1_put_slice(port, skb->data + len, dlen); restore_flags(flags); } else { if (showcapimsgs) { if (showcapimsgs & 1) { printk(KERN_DEBUG "b1lli: Put [0x%lx] id#%d %s len=%u\n", (unsigned long) contr, CAPIMSG_APPID(skb->data), capi_cmd2str(cmd, subcmd), len); } else { printk(KERN_DEBUG "b1lli: Put [0x%lx] %s\n", (unsigned long)contr, capi_message2str(skb->data)); } } save_flags(flags); cli(); B1_put_byte(port, SEND_MESSAGE); B1_put_slice(port, skb->data, len); restore_flags(flags); } dev_kfree_skb(skb, FREE_WRITE); } /* * ------------------------------------------------------------------- */ void B1_handle_interrupt(avmb1_card * card) { unsigned char b1cmd; struct sk_buff *skb; unsigned ApplId; unsigned MsgLen; unsigned DataB3Len; unsigned NCCI; unsigned WindowSize; t1retry: if (!B1_rx_full(card->port)) return; b1cmd = B1_get_byte(card->port); switch (b1cmd) { case RECEIVE_DATA_B3_IND: ApplId = (unsigned) B1_get_word(card->port); MsgLen = B1_get_slice(card->port, card->msgbuf); DataB3Len = B1_get_slice(card->port, card->databuf); if (showcapimsgs > 2) { __u8 cmd = CAPIMSG_COMMAND(card->msgbuf); __u8 subcmd = CAPIMSG_SUBCOMMAND(card->msgbuf); __u32 contr = CAPIMSG_CONTROL(card->msgbuf); CAPIMSG_SETDATA(card->msgbuf, card->databuf); if (showcapimsgs & 1) { printk(KERN_DEBUG "b1lli: Got [0x%lx] id#%d %s len=%u/%u\n", (unsigned long) contr, CAPIMSG_APPID(card->msgbuf), capi_cmd2str(cmd, subcmd), MsgLen, DataB3Len); } else { printk(KERN_DEBUG "b1lli: Got [0x%lx] %s\n", (unsigned long)contr, capi_message2str(card->msgbuf)); } } if (!(skb = dev_alloc_skb(DataB3Len + MsgLen))) { printk(KERN_ERR "b1lli: incoming packet dropped\n"); } else { SET_SKB_FREE(skb); memcpy(skb_put(skb, MsgLen), card->msgbuf, MsgLen); memcpy(skb_put(skb, DataB3Len), card->databuf, DataB3Len); CAPIMSG_SETDATA(skb->data, skb->data + MsgLen); avmb1_handle_capimsg(card, ApplId, skb); } break; case RECEIVE_MESSAGE: ApplId = (unsigned) B1_get_word(card->port); MsgLen = B1_get_slice(card->port, card->msgbuf); if (showcapimsgs) { __u8 cmd = CAPIMSG_COMMAND(card->msgbuf); __u8 subcmd = CAPIMSG_SUBCOMMAND(card->msgbuf); __u32 contr = CAPIMSG_CONTROL(card->msgbuf); if (showcapimsgs & 1) { printk(KERN_DEBUG "b1lli: Got [0x%lx] id#%d %s len=%u\n", (unsigned long) contr, CAPIMSG_APPID(card->msgbuf), capi_cmd2str(cmd, subcmd), MsgLen); } else { printk(KERN_DEBUG "b1lli: Got [0x%lx] %s\n", (unsigned long) contr, capi_message2str(card->msgbuf)); } } if (!(skb = dev_alloc_skb(MsgLen))) { printk(KERN_ERR "b1lli: incoming packet dropped\n"); } else { SET_SKB_FREE(skb); memcpy(skb_put(skb, MsgLen), card->msgbuf, MsgLen); avmb1_handle_capimsg(card, ApplId, skb); } break; case RECEIVE_NEW_NCCI: ApplId = B1_get_word(card->port); NCCI = B1_get_word(card->port); WindowSize = B1_get_word(card->port); if (showcapimsgs) printk(KERN_DEBUG "b1lli(0x%x): NEW_NCCI app %u ncci 0x%x\n", card->port, ApplId, NCCI); avmb1_handle_new_ncci(card, ApplId, NCCI, WindowSize); break; case RECEIVE_FREE_NCCI: ApplId = B1_get_word(card->port); NCCI = B1_get_word(card->port); if (showcapimsgs) printk(KERN_DEBUG "b1lli(0x%x): FREE_NCCI app %u ncci 0x%x\n", card->port, ApplId, NCCI); avmb1_handle_free_ncci(card, ApplId, NCCI); break; case RECEIVE_START: if (card->cardtype == AVM_CARDTYPE_T1) { B1_put_byte(card->port, SEND_POLLACK); /* printk(KERN_DEBUG "b1lli: T1 watchdog\n"); */ } if (card->blocked) printk(KERN_DEBUG "b1lli(0x%x): RESTART\n", card->port); card->blocked = 0; break; case RECEIVE_STOP: printk(KERN_DEBUG "b1lli(0x%x): STOP\n", card->port); card->blocked = 1; break; case RECEIVE_INIT: card->versionlen = B1_get_slice(card->port, card->versionbuf); card->cardstate = CARD_ACTIVE; parse_version(card); printk(KERN_INFO "b1lli(0x%x): %s-card (%s) now active\n", card->port, card->version[VER_CARDTYPE], card->version[VER_DRIVER]); avmb1_card_ready(card); break; case RECEIVE_TASK_READY: ApplId = (unsigned) B1_get_word(card->port); MsgLen = B1_get_slice(card->port, card->msgbuf); card->msgbuf[MsgLen] = 0; printk(KERN_INFO "b1lli(0x%x): Task %d \"%s\" ready.\n", card->port, ApplId, card->msgbuf); break; default: printk(KERN_ERR "b1lli(0x%x): B1_handle_interrupt: 0x%x ???\n", card->port, b1cmd); break; } if (card->cardtype == AVM_CARDTYPE_T1) goto t1retry; }