diff options
author | Joe Perches <joe@perches.com> | 2012-02-20 07:52:38 +0400 |
---|---|---|
committer | Joe Perches <joe@perches.com> | 2012-02-21 21:04:01 +0400 |
commit | 475be4d85a274d0961593db41cf85689db1d583c (patch) | |
tree | b2b8931eb747794730522c3cf1898e46948527b9 /drivers/isdn/hardware/mISDN/hfcmulti.c | |
parent | 0b0a635f79f91f3755b6518627ea06dd0dbfd523 (diff) | |
download | linux-475be4d85a274d0961593db41cf85689db1d583c.tar.xz |
isdn: whitespace coding style cleanup
isdn source code uses a not-current coding style.
Update the coding style used on a per-line basis
so that git diff -w shows only elided blank lines
at EOF.
Done with emacs and some scripts and some typing.
Built x86 allyesconfig.
No detected change in objdump -d or size.
Signed-off-by: Joe Perches <joe@perches.com>
Diffstat (limited to 'drivers/isdn/hardware/mISDN/hfcmulti.c')
-rw-r--r-- | drivers/isdn/hardware/mISDN/hfcmulti.c | 1364 |
1 files changed, 682 insertions, 682 deletions
diff --git a/drivers/isdn/hardware/mISDN/hfcmulti.c b/drivers/isdn/hardware/mISDN/hfcmulti.c index a440d7fff0ad..033223180b55 100644 --- a/drivers/isdn/hardware/mISDN/hfcmulti.c +++ b/drivers/isdn/hardware/mISDN/hfcmulti.c @@ -142,7 +142,7 @@ * * hwid: * NOTE: only one hwid value must be given once - * Enable special embedded devices with XHFC controllers. + * Enable special embedded devices with XHFC controllers. */ /* @@ -161,8 +161,8 @@ #include <linux/mISDNdsp.h> /* -#define IRQCOUNT_DEBUG -#define IRQ_DEBUG + #define IRQCOUNT_DEBUG + #define IRQ_DEBUG */ #include "hfc_multi.h" @@ -237,21 +237,21 @@ module_param_array(port, uint, NULL, S_IRUGO | S_IWUSR); module_param(hwid, uint, S_IRUGO | S_IWUSR); /* The hardware ID */ #ifdef HFC_REGISTER_DEBUG -#define HFC_outb(hc, reg, val) \ +#define HFC_outb(hc, reg, val) \ (hc->HFC_outb(hc, reg, val, __func__, __LINE__)) -#define HFC_outb_nodebug(hc, reg, val) \ +#define HFC_outb_nodebug(hc, reg, val) \ (hc->HFC_outb_nodebug(hc, reg, val, __func__, __LINE__)) -#define HFC_inb(hc, reg) \ +#define HFC_inb(hc, reg) \ (hc->HFC_inb(hc, reg, __func__, __LINE__)) -#define HFC_inb_nodebug(hc, reg) \ +#define HFC_inb_nodebug(hc, reg) \ (hc->HFC_inb_nodebug(hc, reg, __func__, __LINE__)) -#define HFC_inw(hc, reg) \ +#define HFC_inw(hc, reg) \ (hc->HFC_inw(hc, reg, __func__, __LINE__)) -#define HFC_inw_nodebug(hc, reg) \ +#define HFC_inw_nodebug(hc, reg) \ (hc->HFC_inw_nodebug(hc, reg, __func__, __LINE__)) -#define HFC_wait(hc) \ +#define HFC_wait(hc) \ (hc->HFC_wait(hc, __func__, __LINE__)) -#define HFC_wait_nodebug(hc) \ +#define HFC_wait_nodebug(hc) \ (hc->HFC_wait_nodebug(hc, __func__, __LINE__)) #else #define HFC_outb(hc, reg, val) (hc->HFC_outb(hc, reg, val)) @@ -274,7 +274,7 @@ static void HFC_outb_pcimem(struct hfc_multi *hc, u_char reg, u_char val, const char *function, int line) #else -HFC_outb_pcimem(struct hfc_multi *hc, u_char reg, u_char val) + HFC_outb_pcimem(struct hfc_multi *hc, u_char reg, u_char val) #endif { writeb(val, hc->pci_membase + reg); @@ -283,7 +283,7 @@ static u_char #ifdef HFC_REGISTER_DEBUG HFC_inb_pcimem(struct hfc_multi *hc, u_char reg, const char *function, int line) #else -HFC_inb_pcimem(struct hfc_multi *hc, u_char reg) + HFC_inb_pcimem(struct hfc_multi *hc, u_char reg) #endif { return readb(hc->pci_membase + reg); @@ -292,7 +292,7 @@ static u_short #ifdef HFC_REGISTER_DEBUG HFC_inw_pcimem(struct hfc_multi *hc, u_char reg, const char *function, int line) #else -HFC_inw_pcimem(struct hfc_multi *hc, u_char reg) + HFC_inw_pcimem(struct hfc_multi *hc, u_char reg) #endif { return readw(hc->pci_membase + reg); @@ -301,7 +301,7 @@ static void #ifdef HFC_REGISTER_DEBUG HFC_wait_pcimem(struct hfc_multi *hc, const char *function, int line) #else -HFC_wait_pcimem(struct hfc_multi *hc) + HFC_wait_pcimem(struct hfc_multi *hc) #endif { while (readb(hc->pci_membase + R_STATUS) & V_BUSY) @@ -312,9 +312,9 @@ HFC_wait_pcimem(struct hfc_multi *hc) static void #ifdef HFC_REGISTER_DEBUG HFC_outb_regio(struct hfc_multi *hc, u_char reg, u_char val, - const char *function, int line) + const char *function, int line) #else -HFC_outb_regio(struct hfc_multi *hc, u_char reg, u_char val) + HFC_outb_regio(struct hfc_multi *hc, u_char reg, u_char val) #endif { outb(reg, hc->pci_iobase + 4); @@ -324,7 +324,7 @@ static u_char #ifdef HFC_REGISTER_DEBUG HFC_inb_regio(struct hfc_multi *hc, u_char reg, const char *function, int line) #else -HFC_inb_regio(struct hfc_multi *hc, u_char reg) + HFC_inb_regio(struct hfc_multi *hc, u_char reg) #endif { outb(reg, hc->pci_iobase + 4); @@ -334,7 +334,7 @@ static u_short #ifdef HFC_REGISTER_DEBUG HFC_inw_regio(struct hfc_multi *hc, u_char reg, const char *function, int line) #else -HFC_inw_regio(struct hfc_multi *hc, u_char reg) + HFC_inw_regio(struct hfc_multi *hc, u_char reg) #endif { outb(reg, hc->pci_iobase + 4); @@ -344,7 +344,7 @@ static void #ifdef HFC_REGISTER_DEBUG HFC_wait_regio(struct hfc_multi *hc, const char *function, int line) #else -HFC_wait_regio(struct hfc_multi *hc) + HFC_wait_regio(struct hfc_multi *hc) #endif { outb(R_STATUS, hc->pci_iobase + 4); @@ -355,7 +355,7 @@ HFC_wait_regio(struct hfc_multi *hc) #ifdef HFC_REGISTER_DEBUG static void HFC_outb_debug(struct hfc_multi *hc, u_char reg, u_char val, - const char *function, int line) + const char *function, int line) { char regname[256] = "", bits[9] = "xxxxxxxx"; int i; @@ -377,8 +377,8 @@ HFC_outb_debug(struct hfc_multi *hc, u_char reg, u_char val, bits[1] = '0' + (!!(val & 64)); bits[0] = '0' + (!!(val & 128)); printk(KERN_DEBUG - "HFC_outb(chip %d, %02x=%s, 0x%02x=%s); in %s() line %d\n", - hc->id, reg, regname, val, bits, function, line); + "HFC_outb(chip %d, %02x=%s, 0x%02x=%s); in %s() line %d\n", + hc->id, reg, regname, val, bits, function, line); HFC_outb_nodebug(hc, reg, val); } static u_char @@ -407,8 +407,8 @@ HFC_inb_debug(struct hfc_multi *hc, u_char reg, const char *function, int line) bits[1] = '0' + (!!(val & 64)); bits[0] = '0' + (!!(val & 128)); printk(KERN_DEBUG - "HFC_inb(chip %d, %02x=%s) = 0x%02x=%s; in %s() line %d\n", - hc->id, reg, regname, val, bits, function, line); + "HFC_inb(chip %d, %02x=%s) = 0x%02x=%s; in %s() line %d\n", + hc->id, reg, regname, val, bits, function, line); return val; } static u_short @@ -429,15 +429,15 @@ HFC_inw_debug(struct hfc_multi *hc, u_char reg, const char *function, int line) strcpy(regname, "register"); printk(KERN_DEBUG - "HFC_inw(chip %d, %02x=%s) = 0x%04x; in %s() line %d\n", - hc->id, reg, regname, val, function, line); + "HFC_inw(chip %d, %02x=%s) = 0x%04x; in %s() line %d\n", + hc->id, reg, regname, val, function, line); return val; } static void HFC_wait_debug(struct hfc_multi *hc, const char *function, int line) { printk(KERN_DEBUG "HFC_wait(chip %d); in %s() line %d\n", - hc->id, function, line); + hc->id, function, line); HFC_wait_nodebug(hc); } #endif @@ -446,13 +446,13 @@ HFC_wait_debug(struct hfc_multi *hc, const char *function, int line) static void write_fifo_regio(struct hfc_multi *hc, u_char *data, int len) { - outb(A_FIFO_DATA0, (hc->pci_iobase)+4); - while (len>>2) { + outb(A_FIFO_DATA0, (hc->pci_iobase) + 4); + while (len >> 2) { outl(cpu_to_le32(*(u32 *)data), hc->pci_iobase); data += 4; len -= 4; } - while (len>>1) { + while (len >> 1) { outw(cpu_to_le16(*(u16 *)data), hc->pci_iobase); data += 2; len -= 2; @@ -467,15 +467,15 @@ write_fifo_regio(struct hfc_multi *hc, u_char *data, int len) static void write_fifo_pcimem(struct hfc_multi *hc, u_char *data, int len) { - while (len>>2) { + while (len >> 2) { writel(cpu_to_le32(*(u32 *)data), - hc->pci_membase + A_FIFO_DATA0); + hc->pci_membase + A_FIFO_DATA0); data += 4; len -= 4; } - while (len>>1) { + while (len >> 1) { writew(cpu_to_le16(*(u16 *)data), - hc->pci_membase + A_FIFO_DATA0); + hc->pci_membase + A_FIFO_DATA0); data += 2; len -= 2; } @@ -490,13 +490,13 @@ write_fifo_pcimem(struct hfc_multi *hc, u_char *data, int len) static void read_fifo_regio(struct hfc_multi *hc, u_char *data, int len) { - outb(A_FIFO_DATA0, (hc->pci_iobase)+4); - while (len>>2) { + outb(A_FIFO_DATA0, (hc->pci_iobase) + 4); + while (len >> 2) { *(u32 *)data = le32_to_cpu(inl(hc->pci_iobase)); data += 4; len -= 4; } - while (len>>1) { + while (len >> 1) { *(u16 *)data = le16_to_cpu(inw(hc->pci_iobase)); data += 2; len -= 2; @@ -512,13 +512,13 @@ read_fifo_regio(struct hfc_multi *hc, u_char *data, int len) static void read_fifo_pcimem(struct hfc_multi *hc, u_char *data, int len) { - while (len>>2) { + while (len >> 2) { *(u32 *)data = le32_to_cpu(readl(hc->pci_membase + A_FIFO_DATA0)); data += 4; len -= 4; } - while (len>>1) { + while (len >> 1) { *(u16 *)data = le16_to_cpu(readw(hc->pci_membase + A_FIFO_DATA0)); data += 2; @@ -607,7 +607,7 @@ writepcibridge(struct hfc_multi *hc, unsigned char address, unsigned char data) outw(cipv, hc->pci_iobase + 4); /* define a 32 bit dword with 4 identical bytes for write sequence */ datav = data | ((__u32) data << 8) | ((__u32) data << 16) | - ((__u32) data << 24); + ((__u32) data << 24); /* * write this 32 bit dword to the bridge data port @@ -699,7 +699,7 @@ vpm_in(struct hfc_multi *c, int which, unsigned short addr) inline void vpm_out(struct hfc_multi *c, int which, unsigned short addr, - unsigned char data) + unsigned char data) { vpm_write_address(c, addr); @@ -717,11 +717,11 @@ vpm_out(struct hfc_multi *c, int which, unsigned short addr, disablepcibridge(c); { - unsigned char regin; - regin = vpm_in(c, which, addr); - if (regin != data) - printk(KERN_DEBUG "Wrote 0x%x to register 0x%x but got back " - "0x%x\n", data, addr, regin); + unsigned char regin; + regin = vpm_in(c, which, addr); + if (regin != data) + printk(KERN_DEBUG "Wrote 0x%x to register 0x%x but got back " + "0x%x\n", data, addr, regin); } } @@ -853,16 +853,16 @@ vpm_echocan_on(struct hfc_multi *hc, int ch, int taps) #ifdef TXADJ skb = _alloc_mISDN_skb(PH_CONTROL_IND, HFC_VOL_CHANGE_TX, - sizeof(int), &txadj, GFP_ATOMIC); + sizeof(int), &txadj, GFP_ATOMIC); if (skb) recv_Bchannel_skb(bch, skb); #endif - timeslot = ((ch/4)*8) + ((ch%4)*4) + 1; + timeslot = ((ch / 4) * 8) + ((ch % 4) * 4) + 1; unit = ch % 4; printk(KERN_NOTICE "vpm_echocan_on called taps [%d] on timeslot %d\n", - taps, timeslot); + taps, timeslot); vpm_out(hc, unit, timeslot, 0x7e); } @@ -886,16 +886,16 @@ vpm_echocan_off(struct hfc_multi *hc, int ch) #ifdef TXADJ skb = _alloc_mISDN_skb(PH_CONTROL_IND, HFC_VOL_CHANGE_TX, - sizeof(int), &txadj, GFP_ATOMIC); + sizeof(int), &txadj, GFP_ATOMIC); if (skb) recv_Bchannel_skb(bch, skb); #endif - timeslot = ((ch/4)*8) + ((ch%4)*4) + 1; + timeslot = ((ch / 4) * 8) + ((ch % 4) * 4) + 1; unit = ch % 4; printk(KERN_NOTICE "vpm_echocan_off called on timeslot %d\n", - timeslot); + timeslot); /* FILLME */ vpm_out(hc, unit, timeslot, 0x01); } @@ -920,7 +920,7 @@ hfcmulti_resync(struct hfc_multi *locked, struct hfc_multi *newmaster, int rm) if (debug & DEBUG_HFCMULTI_PLXSD) printk(KERN_DEBUG "%s: RESYNC(syncmaster=0x%p)\n", - __func__, syncmaster); + __func__, syncmaster); /* select new master */ if (newmaster) { @@ -949,7 +949,7 @@ hfcmulti_resync(struct hfc_multi *locked, struct hfc_multi *newmaster, int rm) if (hc->ctype == HFC_TYPE_E1) { if (debug & DEBUG_HFCMULTI_PLXSD) printk(KERN_DEBUG - "Schedule SYNC_I\n"); + "Schedule SYNC_I\n"); hc->e1_resync |= 1; /* get SYNC_I */ } } @@ -960,7 +960,7 @@ hfcmulti_resync(struct hfc_multi *locked, struct hfc_multi *newmaster, int rm) hc = newmaster; if (debug & DEBUG_HFCMULTI_PLXSD) printk(KERN_DEBUG "id=%d (0x%p) = syncronized with " - "interface.\n", hc->id, hc); + "interface.\n", hc->id, hc); /* Enable new sync master */ plx_acc_32 = hc->plx_membase + PLX_GPIOC; pv = readl(plx_acc_32); @@ -968,7 +968,7 @@ hfcmulti_resync(struct hfc_multi *locked, struct hfc_multi *newmaster, int rm) writel(pv, plx_acc_32); /* switch to jatt PLL, if not disabled by RX_SYNC */ if (hc->ctype == HFC_TYPE_E1 - && !test_bit(HFC_CHIP_RX_SYNC, &hc->chip)) { + && !test_bit(HFC_CHIP_RX_SYNC, &hc->chip)) { if (debug & DEBUG_HFCMULTI_PLXSD) printk(KERN_DEBUG "Schedule jatt PLL\n"); hc->e1_resync |= 2; /* switch to jatt */ @@ -978,20 +978,20 @@ hfcmulti_resync(struct hfc_multi *locked, struct hfc_multi *newmaster, int rm) hc = pcmmaster; if (debug & DEBUG_HFCMULTI_PLXSD) printk(KERN_DEBUG - "id=%d (0x%p) = PCM master syncronized " - "with QUARTZ\n", hc->id, hc); + "id=%d (0x%p) = PCM master syncronized " + "with QUARTZ\n", hc->id, hc); if (hc->ctype == HFC_TYPE_E1) { /* Use the crystal clock for the PCM master card */ if (debug & DEBUG_HFCMULTI_PLXSD) printk(KERN_DEBUG - "Schedule QUARTZ for HFC-E1\n"); + "Schedule QUARTZ for HFC-E1\n"); hc->e1_resync |= 4; /* switch quartz */ } else { if (debug & DEBUG_HFCMULTI_PLXSD) printk(KERN_DEBUG - "QUARTZ is automatically " - "enabled by HFC-%dS\n", hc->ctype); + "QUARTZ is automatically " + "enabled by HFC-%dS\n", hc->ctype); } plx_acc_32 = hc->plx_membase + PLX_GPIOC; pv = readl(plx_acc_32); @@ -1000,7 +1000,7 @@ hfcmulti_resync(struct hfc_multi *locked, struct hfc_multi *newmaster, int rm) } else if (!rm) printk(KERN_ERR "%s no pcm master, this MUST " - "not happen!\n", __func__); + "not happen!\n", __func__); } syncmaster = newmaster; @@ -1016,16 +1016,16 @@ plxsd_checksync(struct hfc_multi *hc, int rm) if (syncmaster == NULL) { if (debug & DEBUG_HFCMULTI_PLXSD) printk(KERN_DEBUG "%s: GOT sync on card %d" - " (id=%d)\n", __func__, hc->id + 1, - hc->id); + " (id=%d)\n", __func__, hc->id + 1, + hc->id); hfcmulti_resync(hc, hc, rm); } } else { if (syncmaster == hc) { if (debug & DEBUG_HFCMULTI_PLXSD) printk(KERN_DEBUG "%s: LOST sync on card %d" - " (id=%d)\n", __func__, hc->id + 1, - hc->id); + " (id=%d)\n", __func__, hc->id + 1, + hc->id); hfcmulti_resync(hc, NULL, rm); } } @@ -1057,7 +1057,7 @@ release_io_hfcmulti(struct hfc_multi *hc) if (test_bit(HFC_CHIP_PLXSD, &hc->chip) && hc->plx_membase) { if (debug & DEBUG_HFCMULTI_PLXSD) printk(KERN_DEBUG "%s: release PLXSD card %d\n", - __func__, hc->id + 1); + __func__, hc->id + 1); spin_lock_irqsave(&plx_lock, plx_flags); plx_acc_32 = hc->plx_membase + PLX_GPIOC; writel(PLX_GPIOC_INIT, plx_acc_32); @@ -1073,7 +1073,7 @@ release_io_hfcmulti(struct hfc_multi *hc) writel(pv, plx_acc_32); if (debug & DEBUG_HFCMULTI_INIT) printk(KERN_DEBUG "%s: PCM off: PLX_GPIO=%x\n", - __func__, pv); + __func__, pv); spin_unlock_irqrestore(&plx_lock, plx_flags); } @@ -1131,22 +1131,22 @@ init_chip(struct hfc_multi *hc) } rev = HFC_inb(hc, R_CHIP_RV); printk(KERN_INFO - "HFC_multi: detected HFC with chip ID=0x%lx revision=%ld%s\n", - val, rev, (rev == 0 && (hc->ctype != HFC_TYPE_XHFC)) ? - " (old FIFO handling)" : ""); + "HFC_multi: detected HFC with chip ID=0x%lx revision=%ld%s\n", + val, rev, (rev == 0 && (hc->ctype != HFC_TYPE_XHFC)) ? + " (old FIFO handling)" : ""); if (hc->ctype != HFC_TYPE_XHFC && rev == 0) { test_and_set_bit(HFC_CHIP_REVISION0, &hc->chip); printk(KERN_WARNING - "HFC_multi: NOTE: Your chip is revision 0, " - "ask Cologne Chip for update. Newer chips " - "have a better FIFO handling. Old chips " - "still work but may have slightly lower " - "HDLC transmit performance.\n"); + "HFC_multi: NOTE: Your chip is revision 0, " + "ask Cologne Chip for update. Newer chips " + "have a better FIFO handling. Old chips " + "still work but may have slightly lower " + "HDLC transmit performance.\n"); } if (rev > 1) { printk(KERN_WARNING "HFC_multi: WARNING: This driver doesn't " - "consider chip revision = %ld. The chip / " - "bridge may not work.\n", rev); + "consider chip revision = %ld. The chip / " + "bridge may not work.\n", rev); } /* set s-ram size */ @@ -1157,7 +1157,7 @@ init_chip(struct hfc_multi *hc) if (test_bit(HFC_CHIP_EXRAM_128, &hc->chip)) { if (debug & DEBUG_HFCMULTI_INIT) printk(KERN_DEBUG "%s: changing to 128K extenal RAM\n", - __func__); + __func__); hc->hw.r_ctrl |= V_EXT_RAM; hc->hw.r_ram_sz = 1; hc->Flen = 0x20; @@ -1168,7 +1168,7 @@ init_chip(struct hfc_multi *hc) if (test_bit(HFC_CHIP_EXRAM_512, &hc->chip)) { if (debug & DEBUG_HFCMULTI_INIT) printk(KERN_DEBUG "%s: changing to 512K extenal RAM\n", - __func__); + __func__); hc->hw.r_ctrl |= V_EXT_RAM; hc->hw.r_ram_sz = 2; hc->Flen = 0x20; @@ -1190,7 +1190,7 @@ init_chip(struct hfc_multi *hc) if (test_bit(HFC_CHIP_PLXSD, &hc->chip)) { if (debug & DEBUG_HFCMULTI_PLXSD) printk(KERN_DEBUG "%s: initializing PLXSD card %d\n", - __func__, hc->id + 1); + __func__, hc->id + 1); spin_lock_irqsave(&plx_lock, plx_flags); plx_acc_32 = hc->plx_membase + PLX_GPIOC; writel(PLX_GPIOC_INIT, plx_acc_32); @@ -1207,7 +1207,7 @@ init_chip(struct hfc_multi *hc) spin_unlock_irqrestore(&plx_lock, plx_flags); if (debug & DEBUG_HFCMULTI_INIT) printk(KERN_DEBUG "%s: slave/term: PLX_GPIO=%x\n", - __func__, pv); + __func__, pv); /* * If we are the 3rd PLXSD card or higher, we must turn * termination of last PLXSD card off. @@ -1225,8 +1225,8 @@ init_chip(struct hfc_multi *hc) if (plx_count >= 3) { if (debug & DEBUG_HFCMULTI_PLXSD) printk(KERN_DEBUG "%s: card %d is between, so " - "we disable termination\n", - __func__, plx_last_hc->id + 1); + "we disable termination\n", + __func__, plx_last_hc->id + 1); spin_lock_irqsave(&plx_lock, plx_flags); plx_acc_32 = plx_last_hc->plx_membase + PLX_GPIOC; pv = readl(plx_acc_32); @@ -1235,8 +1235,8 @@ init_chip(struct hfc_multi *hc) spin_unlock_irqrestore(&plx_lock, plx_flags); if (debug & DEBUG_HFCMULTI_INIT) printk(KERN_DEBUG - "%s: term off: PLX_GPIO=%x\n", - __func__, pv); + "%s: term off: PLX_GPIO=%x\n", + __func__, pv); } spin_unlock_irqrestore(&HFClock, hfc_flags); hc->hw.r_pcm_md0 = V_F0_LEN; /* shift clock for DSP */ @@ -1253,24 +1253,24 @@ init_chip(struct hfc_multi *hc) if (test_bit(HFC_CHIP_PCM_SLAVE, &hc->chip)) { if (debug & DEBUG_HFCMULTI_INIT) printk(KERN_DEBUG "%s: setting PCM into slave mode\n", - __func__); + __func__); } else - if (test_bit(HFC_CHIP_PCM_MASTER, &hc->chip) && !plxsd_master) { - if (debug & DEBUG_HFCMULTI_INIT) - printk(KERN_DEBUG "%s: setting PCM into master mode\n", - __func__); - hc->hw.r_pcm_md0 |= V_PCM_MD; - } else { - if (debug & DEBUG_HFCMULTI_INIT) - printk(KERN_DEBUG "%s: performing PCM auto detect\n", - __func__); - } + if (test_bit(HFC_CHIP_PCM_MASTER, &hc->chip) && !plxsd_master) { + if (debug & DEBUG_HFCMULTI_INIT) + printk(KERN_DEBUG "%s: setting PCM into master mode\n", + __func__); + hc->hw.r_pcm_md0 |= V_PCM_MD; + } else { + if (debug & DEBUG_HFCMULTI_INIT) + printk(KERN_DEBUG "%s: performing PCM auto detect\n", + __func__); + } /* soft reset */ HFC_outb(hc, R_CTRL, hc->hw.r_ctrl); if (hc->ctype == HFC_TYPE_XHFC) HFC_outb(hc, 0x0C /* R_FIFO_THRES */, - 0x11 /* 16 Bytes TX/RX */); + 0x11 /* 16 Bytes TX/RX */); else HFC_outb(hc, R_RAM_SZ, hc->hw.r_ram_sz); HFC_outb(hc, R_FIFO_MD, 0); @@ -1298,13 +1298,13 @@ init_chip(struct hfc_multi *hc) pv |= PLX_SYNC_O_EN; if (debug & DEBUG_HFCMULTI_INIT) printk(KERN_DEBUG "%s: master: PLX_GPIO=%x\n", - __func__, pv); + __func__, pv); } else { pv &= ~(PLX_MASTER_EN | PLX_SLAVE_EN_N); pv &= ~PLX_SYNC_O_EN; if (debug & DEBUG_HFCMULTI_INIT) printk(KERN_DEBUG "%s: slave: PLX_GPIO=%x\n", - __func__, pv); + __func__, pv); } writel(pv, plx_acc_32); spin_unlock_irqrestore(&plx_lock, plx_flags); @@ -1338,7 +1338,7 @@ init_chip(struct hfc_multi *hc) if (test_bit(HFC_CHIP_CLOCK2, &hc->chip)) { if (debug & DEBUG_HFCMULTI_INIT) printk(KERN_DEBUG - "%s: setting double clock\n", __func__); + "%s: setting double clock\n", __func__); HFC_outb(hc, R_BRG_PCM_CFG, V_PCM_CLK); } @@ -1360,48 +1360,48 @@ init_chip(struct hfc_multi *hc) val += HFC_inb(hc, R_F0_CNTH) << 8; if (debug & DEBUG_HFCMULTI_INIT) printk(KERN_DEBUG - "HFC_multi F0_CNT %ld after reset\n", val); + "HFC_multi F0_CNT %ld after reset\n", val); spin_unlock_irqrestore(&hc->lock, flags); set_current_state(TASK_UNINTERRUPTIBLE); - schedule_timeout((HZ/100)?:1); /* Timeout minimum 10ms */ + schedule_timeout((HZ / 100) ? : 1); /* Timeout minimum 10ms */ spin_lock_irqsave(&hc->lock, flags); val2 = HFC_inb(hc, R_F0_CNTL); val2 += HFC_inb(hc, R_F0_CNTH) << 8; if (debug & DEBUG_HFCMULTI_INIT) printk(KERN_DEBUG - "HFC_multi F0_CNT %ld after 10 ms (1st try)\n", - val2); - if (val2 >= val+8) { /* 1 ms */ + "HFC_multi F0_CNT %ld after 10 ms (1st try)\n", + val2); + if (val2 >= val + 8) { /* 1 ms */ /* it counts, so we keep the pcm mode */ if (test_bit(HFC_CHIP_PCM_MASTER, &hc->chip)) printk(KERN_INFO "controller is PCM bus MASTER\n"); else - if (test_bit(HFC_CHIP_PCM_SLAVE, &hc->chip)) - printk(KERN_INFO "controller is PCM bus SLAVE\n"); - else { - test_and_set_bit(HFC_CHIP_PCM_SLAVE, &hc->chip); - printk(KERN_INFO "controller is PCM bus SLAVE " - "(auto detected)\n"); - } + if (test_bit(HFC_CHIP_PCM_SLAVE, &hc->chip)) + printk(KERN_INFO "controller is PCM bus SLAVE\n"); + else { + test_and_set_bit(HFC_CHIP_PCM_SLAVE, &hc->chip); + printk(KERN_INFO "controller is PCM bus SLAVE " + "(auto detected)\n"); + } } else { /* does not count */ if (test_bit(HFC_CHIP_PCM_MASTER, &hc->chip)) { -controller_fail: + controller_fail: printk(KERN_ERR "HFC_multi ERROR, getting no 125us " - "pulse. Seems that controller fails.\n"); + "pulse. Seems that controller fails.\n"); err = -EIO; goto out; } if (test_bit(HFC_CHIP_PCM_SLAVE, &hc->chip)) { printk(KERN_INFO "controller is PCM bus SLAVE " - "(ignoring missing PCM clock)\n"); + "(ignoring missing PCM clock)\n"); } else { /* only one pcm master */ if (test_bit(HFC_CHIP_PLXSD, &hc->chip) - && plxsd_master) { + && plxsd_master) { printk(KERN_ERR "HFC_multi ERROR, no clock " - "on another Speech Design card found. " - "Please be sure to connect PCM cable.\n"); + "on another Speech Design card found. " + "Please be sure to connect PCM cable.\n"); err = -EIO; goto out; } @@ -1416,24 +1416,24 @@ controller_fail: spin_unlock_irqrestore(&plx_lock, plx_flags); if (debug & DEBUG_HFCMULTI_INIT) printk(KERN_DEBUG "%s: master: " - "PLX_GPIO=%x\n", __func__, pv); + "PLX_GPIO=%x\n", __func__, pv); } hc->hw.r_pcm_md0 |= V_PCM_MD; HFC_outb(hc, R_PCM_MD0, hc->hw.r_pcm_md0 | 0x00); spin_unlock_irqrestore(&hc->lock, flags); set_current_state(TASK_UNINTERRUPTIBLE); - schedule_timeout((HZ/100)?:1); /* Timeout min. 10ms */ + schedule_timeout((HZ / 100) ?: 1); /* Timeout min. 10ms */ spin_lock_irqsave(&hc->lock, flags); val2 = HFC_inb(hc, R_F0_CNTL); val2 += HFC_inb(hc, R_F0_CNTH) << 8; if (debug & DEBUG_HFCMULTI_INIT) printk(KERN_DEBUG "HFC_multi F0_CNT %ld after " - "10 ms (2nd try)\n", val2); - if (val2 >= val+8) { /* 1 ms */ + "10 ms (2nd try)\n", val2); + if (val2 >= val + 8) { /* 1 ms */ test_and_set_bit(HFC_CHIP_PCM_MASTER, - &hc->chip); + &hc->chip); printk(KERN_INFO "controller is PCM bus MASTER " - "(auto detected)\n"); + "(auto detected)\n"); } else goto controller_fail; } @@ -1451,21 +1451,21 @@ controller_fail: spin_unlock_irqrestore(&plx_lock, plx_flags); if (debug & DEBUG_HFCMULTI_INIT) printk(KERN_DEBUG "%s: reset off: PLX_GPIO=%x\n", - __func__, pv); + __func__, pv); } /* pcm id */ if (hc->pcm) printk(KERN_INFO "controller has given PCM BUS ID %d\n", - hc->pcm); + hc->pcm); else { if (test_bit(HFC_CHIP_PCM_MASTER, &hc->chip) - || test_bit(HFC_CHIP_PLXSD, &hc->chip)) { + || test_bit(HFC_CHIP_PLXSD, &hc->chip)) { PCM_cnt++; /* SD has proprietary bridging */ } hc->pcm = PCM_cnt; printk(KERN_INFO "controller has PCM BUS ID %d " - "(auto selected)\n", hc->pcm); + "(auto selected)\n", hc->pcm); } /* set up timer */ @@ -1480,7 +1480,7 @@ controller_fail: if (test_bit(HFC_CHIP_DTMF, &hc->chip)) { if (debug & DEBUG_HFCMULTI_INIT) printk(KERN_DEBUG "%s: enabling DTMF detection " - "for all B-channel\n", __func__); + "for all B-channel\n", __func__); hc->hw.r_dtmf = V_DTMF_EN | V_DTMF_STOP; if (test_bit(HFC_CHIP_ULAW, &hc->chip)) hc->hw.r_dtmf |= V_ULAW_SEL; @@ -1527,8 +1527,8 @@ controller_fail: if (hc->masterclk >= 0) { if (debug & DEBUG_HFCMULTI_INIT) printk(KERN_DEBUG "%s: setting ST master clock " - "to port %d (0..%d)\n", - __func__, hc->masterclk, hc->ports-1); + "to port %d (0..%d)\n", + __func__, hc->masterclk, hc->ports - 1); hc->hw.r_st_sync |= (hc->masterclk | V_AUTO_SYNC); HFC_outb(hc, R_ST_SYNC, hc->hw.r_st_sync); } @@ -1539,7 +1539,7 @@ controller_fail: HFC_outb(hc, R_IRQMSK_MISC, hc->hw.r_irqmsk_misc); if (debug & DEBUG_HFCMULTI_INIT) printk(KERN_DEBUG "r_irqmsk_misc.2: 0x%x\n", - hc->hw.r_irqmsk_misc); + hc->hw.r_irqmsk_misc); /* RAM access test */ HFC_outb(hc, R_RAM_ADDR0, 0); @@ -1547,7 +1547,7 @@ controller_fail: HFC_outb(hc, R_RAM_ADDR2, 0); for (i = 0; i < 256; i++) { HFC_outb_nodebug(hc, R_RAM_ADDR0, i); - HFC_outb_nodebug(hc, R_RAM_DATA, ((i*3)&0xff)); + HFC_outb_nodebug(hc, R_RAM_DATA, ((i * 3) & 0xff)); } for (i = 0; i < 256; i++) { HFC_outb_nodebug(hc, R_RAM_ADDR0, i); @@ -1555,8 +1555,8 @@ controller_fail: rval = HFC_inb_nodebug(hc, R_INT_DATA); if (rval != ((i * 3) & 0xff)) { printk(KERN_DEBUG - "addr:%x val:%x should:%x\n", i, rval, - (i * 3) & 0xff); + "addr:%x val:%x should:%x\n", i, rval, + (i * 3) & 0xff); err++; } } @@ -1585,9 +1585,9 @@ hfcmulti_watchdog(struct hfc_multi *hc) if (hc->wdcount > 10) { hc->wdcount = 0; hc->wdbyte = hc->wdbyte == V_GPIO_OUT2 ? - V_GPIO_OUT3 : V_GPIO_OUT2; + V_GPIO_OUT3 : V_GPIO_OUT2; - /* printk("Sending Watchdog Kill %x\n",hc->wdbyte); */ + /* printk("Sending Watchdog Kill %x\n",hc->wdbyte); */ HFC_outb(hc, R_GPIO_EN0, V_GPIO_EN2 | V_GPIO_EN3); HFC_outb(hc, R_GPIO_OUT0, hc->wdbyte); } @@ -1623,10 +1623,10 @@ hfcmulti_leds(struct hfc_multi *hc) */ if (hc->chan[hc->dslot].sync != 2) { /* no frame sync */ if (hc->chan[hc->dslot].dch->dev.D.protocol - != ISDN_P_NT_E1) { + != ISDN_P_NT_E1) { led[0] = 1; led[1] = 1; - } else if (hc->ledcount>>11) { + } else if (hc->ledcount >> 11) { led[0] = 1; led[1] = 1; } else { @@ -1643,7 +1643,7 @@ hfcmulti_leds(struct hfc_multi *hc) led[3] = 1; } leds = (led[0] | (led[1]<<2) | (led[2]<<1) | (led[3]<<3))^0xF; - /* leds are inverted */ + /* leds are inverted */ if (leds != (int)hc->ledstate) { HFC_outb_nodebug(hc, R_GPIO_OUT1, leds); hc->ledstate = leds; @@ -1674,7 +1674,7 @@ hfcmulti_leds(struct hfc_multi *hc) /* TE mode: led red */ led[i] = 2; else - if (hc->ledcount>>11) + if (hc->ledcount >> 11) /* led red */ led[i] = 2; else @@ -1700,9 +1700,9 @@ hfcmulti_leds(struct hfc_multi *hc) } } else { leds = ((led[3] > 0) << 0) | ((led[1] > 0) << 1) | - ((led[0] > 0) << 2) | ((led[2] > 0) << 3) | - ((led[3] & 1) << 4) | ((led[1] & 1) << 5) | - ((led[0] & 1) << 6) | ((led[2] & 1) << 7); + ((led[0] > 0) << 2) | ((led[2] > 0) << 3) | + ((led[3] & 1) << 4) | ((led[1] & 1) << 5) | + ((led[0] & 1) << 6) | ((led[2] & 1) << 7); if (leds != (int)hc->ledstate) { HFC_outb_nodebug(hc, R_GPIO_EN1, leds & 0x0F); HFC_outb_nodebug(hc, R_GPIO_OUT1, leds >> 4); @@ -1746,13 +1746,13 @@ hfcmulti_leds(struct hfc_multi *hc) } - leds = (led[0] > 0) | ((led[1] > 0)<<1) | ((led[0]&1)<<2) - | ((led[1]&1)<<3); + leds = (led[0] > 0) | ((led[1] > 0) << 1) | ((led[0]&1) << 2) + | ((led[1]&1) << 3); if (leds != (int)hc->ledstate) { HFC_outb_nodebug(hc, R_GPIO_EN1, - ((led[0] > 0) << 2) | ((led[1] > 0) << 3)); + ((led[0] > 0) << 2) | ((led[1] > 0) << 3)); HFC_outb_nodebug(hc, R_GPIO_OUT1, - ((led[0] & 1) << 2) | ((led[1] & 1) << 3)); + ((led[0] & 1) << 2) | ((led[1] & 1) << 3)); hc->ledstate = leds; } break; @@ -1784,7 +1784,7 @@ hfcmulti_leds(struct hfc_multi *hc) leddw = lled << 24 | lled << 16 | lled << 8 | lled; if (leddw != hc->ledstate) { /* HFC_outb(hc, R_BRG_PCM_CFG, 1); - HFC_outb(c, R_BRG_PCM_CFG, (0x0 << 6) | 0x3); */ + HFC_outb(c, R_BRG_PCM_CFG, (0x0 << 6) | 0x3); */ /* was _io before */ HFC_outb_nodebug(hc, R_BRG_PCM_CFG, 1 | V_PCM_CLK); outw(0x4000, hc->pci_iobase + 4); @@ -1826,16 +1826,16 @@ hfcmulti_dtmf(struct hfc_multi *hc) continue; if (debug & DEBUG_HFCMULTI_DTMF) printk(KERN_DEBUG "%s: dtmf channel %d:", - __func__, ch); + __func__, ch); coeff = &(hc->chan[ch].coeff[hc->chan[ch].coeff_count * 16]); dtmf = 1; for (co = 0; co < 8; co++) { /* read W(n-1) coefficient */ - addr = hc->DTMFbase + ((co<<7) | (ch<<2)); + addr = hc->DTMFbase + ((co << 7) | (ch << 2)); HFC_outb_nodebug(hc, R_RAM_ADDR0, addr); - HFC_outb_nodebug(hc, R_RAM_ADDR1, addr>>8); - HFC_outb_nodebug(hc, R_RAM_ADDR2, (addr>>16) - | V_ADDR_INC); + HFC_outb_nodebug(hc, R_RAM_ADDR1, addr >> 8); + HFC_outb_nodebug(hc, R_RAM_ADDR2, (addr >> 16) + | V_ADDR_INC); w_float = HFC_inb_nodebug(hc, R_RAM_DATA); w_float |= (HFC_inb_nodebug(hc, R_RAM_DATA) << 8); if (debug & DEBUG_HFCMULTI_DTMF) @@ -1845,14 +1845,14 @@ hfcmulti_dtmf(struct hfc_multi *hc) mantissa = w_float & 0x0fff; if (w_float & 0x8000) mantissa |= 0xfffff000; - exponent = (w_float>>12) & 0x7; + exponent = (w_float >> 12) & 0x7; if (exponent) { mantissa ^= 0x1000; - mantissa <<= (exponent-1); + mantissa <<= (exponent - 1); } /* store coefficient */ - coeff[co<<1] = mantissa; + coeff[co << 1] = mantissa; /* read W(n) coefficient */ w_float = HFC_inb_nodebug(hc, R_RAM_DATA); @@ -1864,27 +1864,27 @@ hfcmulti_dtmf(struct hfc_multi *hc) mantissa = w_float & 0x0fff; if (w_float & 0x8000) mantissa |= 0xfffff000; - exponent = (w_float>>12) & 0x7; + exponent = (w_float >> 12) & 0x7; if (exponent) { mantissa ^= 0x1000; - mantissa <<= (exponent-1); + mantissa <<= (exponent - 1); } /* store coefficient */ - coeff[(co<<1)|1] = mantissa; + coeff[(co << 1) | 1] = mantissa; } if (debug & DEBUG_HFCMULTI_DTMF) printk(" DTMF ready %08x %08x %08x %08x " - "%08x %08x %08x %08x\n", - coeff[0], coeff[1], coeff[2], coeff[3], - coeff[4], coeff[5], coeff[6], coeff[7]); + "%08x %08x %08x %08x\n", + coeff[0], coeff[1], coeff[2], coeff[3], + coeff[4], coeff[5], coeff[6], coeff[7]); hc->chan[ch].coeff_count++; if (hc->chan[ch].coeff_count == 8) { hc->chan[ch].coeff_count = 0; skb = mI_alloc_skb(512, GFP_ATOMIC); if (!skb) { printk(KERN_DEBUG "%s: No memory for skb\n", - __func__); + __func__); continue; } hh = mISDN_HEAD_P(skb); @@ -1966,8 +1966,8 @@ next_frame: while (f2 != (temp = HFC_inb_nodebug(hc, A_F2))) { if (debug & DEBUG_HFCMULTI_FIFO) printk(KERN_DEBUG - "%s(card %d): reread f2 because %d!=%d\n", - __func__, hc->id + 1, temp, f2); + "%s(card %d): reread f2 because %d!=%d\n", + __func__, hc->id + 1, temp, f2); f2 = temp; /* repeat until F2 is equal */ } Fspace = f2 - f1 - 1; @@ -1999,7 +1999,7 @@ next_frame: while (z2 != (temp = (HFC_inw_nodebug(hc, A_Z2) - hc->Zmin))) { if (debug & DEBUG_HFCMULTI_FIFO) printk(KERN_DEBUG "%s(card %d): reread z2 because " - "%d!=%d\n", __func__, hc->id + 1, temp, z2); + "%d!=%d\n", __func__, hc->id + 1, temp, z2); z2 = temp; /* repeat unti Z2 is equal */ } hc->chan[ch].Zfill = z1 - z2; @@ -2023,28 +2023,28 @@ next_frame: *txpending && slot_tx >= 0) { if (debug & DEBUG_HFCMULTI_MODE) printk(KERN_DEBUG - "%s: reconnecting PCM due to no " - "more FIFO data: channel %d " - "slot_tx %d\n", - __func__, ch, slot_tx); + "%s: reconnecting PCM due to no " + "more FIFO data: channel %d " + "slot_tx %d\n", + __func__, ch, slot_tx); /* connect slot */ if (hc->ctype == HFC_TYPE_XHFC) HFC_outb(hc, A_CON_HDLC, 0xc0 - | 0x07 << 2 | V_HDLC_TRP | V_IFF); - /* Enable FIFO, no interrupt */ + | 0x07 << 2 | V_HDLC_TRP | V_IFF); + /* Enable FIFO, no interrupt */ else HFC_outb(hc, A_CON_HDLC, 0xc0 | 0x00 | - V_HDLC_TRP | V_IFF); - HFC_outb_nodebug(hc, R_FIFO, ch<<1 | 1); + V_HDLC_TRP | V_IFF); + HFC_outb_nodebug(hc, R_FIFO, ch << 1 | 1); HFC_wait_nodebug(hc); if (hc->ctype == HFC_TYPE_XHFC) HFC_outb(hc, A_CON_HDLC, 0xc0 - | 0x07 << 2 | V_HDLC_TRP | V_IFF); - /* Enable FIFO, no interrupt */ + | 0x07 << 2 | V_HDLC_TRP | V_IFF); + /* Enable FIFO, no interrupt */ else HFC_outb(hc, A_CON_HDLC, 0xc0 | 0x00 | - V_HDLC_TRP | V_IFF); - HFC_outb_nodebug(hc, R_FIFO, ch<<1); + V_HDLC_TRP | V_IFF); + HFC_outb_nodebug(hc, R_FIFO, ch << 1); HFC_wait_nodebug(hc); } *txpending = 0; @@ -2054,10 +2054,10 @@ next_frame: /* "fill fifo if empty" feature */ if (bch && test_bit(FLG_FILLEMPTY, &bch->Flags) - && !test_bit(FLG_HDLC, &bch->Flags) && z2 == z1) { + && !test_bit(FLG_HDLC, &bch->Flags) && z2 == z1) { if (debug & DEBUG_HFCMULTI_FILL) printk(KERN_DEBUG "%s: buffer empty, so we have " - "underrun\n", __func__); + "underrun\n", __func__); /* fill buffer, to prevent future underrun */ hc->write_fifo(hc, hc->silence_data, poll >> 1); Zspace -= (poll >> 1); @@ -2065,29 +2065,29 @@ next_frame: /* if audio data and connected slot */ if (bch && (!test_bit(FLG_HDLC, &bch->Flags)) && (!*txpending) - && slot_tx >= 0) { + && slot_tx >= 0) { if (debug & DEBUG_HFCMULTI_MODE) printk(KERN_DEBUG "%s: disconnecting PCM due to " - "FIFO data: channel %d slot_tx %d\n", - __func__, ch, slot_tx); + "FIFO data: channel %d slot_tx %d\n", + __func__, ch, slot_tx); /* disconnect slot */ if (hc->ctype == HFC_TYPE_XHFC) HFC_outb(hc, A_CON_HDLC, 0x80 - | 0x07 << 2 | V_HDLC_TRP | V_IFF); - /* Enable FIFO, no interrupt */ + | 0x07 << 2 | V_HDLC_TRP | V_IFF); + /* Enable FIFO, no interrupt */ else HFC_outb(hc, A_CON_HDLC, 0x80 | 0x00 | - V_HDLC_TRP | V_IFF); - HFC_outb_nodebug(hc, R_FIFO, ch<<1 | 1); + V_HDLC_TRP | V_IFF); + HFC_outb_nodebug(hc, R_FIFO, ch << 1 | 1); HFC_wait_nodebug(hc); if (hc->ctype == HFC_TYPE_XHFC) HFC_outb(hc, A_CON_HDLC, 0x80 - | 0x07 << 2 | V_HDLC_TRP | V_IFF); - /* Enable FIFO, no interrupt */ + | 0x07 << 2 | V_HDLC_TRP | V_IFF); + /* Enable FIFO, no interrupt */ else HFC_outb(hc, A_CON_HDLC, 0x80 | 0x00 | - V_HDLC_TRP | V_IFF); - HFC_outb_nodebug(hc, R_FIFO, ch<<1); + V_HDLC_TRP | V_IFF); + HFC_outb_nodebug(hc, R_FIFO, ch << 1); HFC_wait_nodebug(hc); } *txpending = 1; @@ -2107,9 +2107,9 @@ next_frame: ii = Zspace + i; if (debug & DEBUG_HFCMULTI_FIFO) printk(KERN_DEBUG "%s(card %d): fifo(%d) has %d bytes space " - "left (z1=%04x, z2=%04x) sending %d of %d bytes %s\n", - __func__, hc->id + 1, ch, Zspace, z1, z2, ii-i, len-i, - temp ? "HDLC" : "TRANS"); + "left (z1=%04x, z2=%04x) sending %d of %d bytes %s\n", + __func__, hc->id + 1, ch, Zspace, z1, z2, ii-i, len-i, + temp ? "HDLC" : "TRANS"); /* Have to prep the audio data */ hc->write_fifo(hc, d, ii - i); @@ -2189,9 +2189,9 @@ next_frame: (hc->chan[ch].protocol == ISDN_P_B_RAW) && (hc->chan[ch].slot_rx < 0) && (hc->chan[ch].slot_tx < 0)) - HFC_outb_nodebug(hc, R_FIFO, 0x20 | (ch<<1) | 1); + HFC_outb_nodebug(hc, R_FIFO, 0x20 | (ch << 1) | 1); else - HFC_outb_nodebug(hc, R_FIFO, (ch<<1)|1); + HFC_outb_nodebug(hc, R_FIFO, (ch << 1) | 1); HFC_wait_nodebug(hc); /* ignore if rx is off BUT change fifo (above) to start pending TX */ @@ -2203,8 +2203,8 @@ next_frame: while (f1 != (temp = HFC_inb_nodebug(hc, A_F1))) { if (debug & DEBUG_HFCMULTI_FIFO) printk(KERN_DEBUG - "%s(card %d): reread f1 because %d!=%d\n", - __func__, hc->id + 1, temp, f1); + "%s(card %d): reread f1 because %d!=%d\n", + __func__, hc->id + 1, temp, f1); f1 = temp; /* repeat until F1 is equal */ } f2 = HFC_inb_nodebug(hc, A_F2); @@ -2213,7 +2213,7 @@ next_frame: while (z1 != (temp = (HFC_inw_nodebug(hc, A_Z1) - hc->Zmin))) { if (debug & DEBUG_HFCMULTI_FIFO) printk(KERN_DEBUG "%s(card %d): reread z2 because " - "%d!=%d\n", __func__, hc->id + 1, temp, z2); + "%d!=%d\n", __func__, hc->id + 1, temp, z2); z1 = temp; /* repeat until Z1 is equal */ } z2 = HFC_inw_nodebug(hc, A_Z2) - hc->Zmin; @@ -2231,7 +2231,7 @@ next_frame: *sp = mI_alloc_skb(maxlen + 3, GFP_ATOMIC); if (*sp == NULL) { printk(KERN_DEBUG "%s: No mem for rx_skb\n", - __func__); + __func__); return; } } @@ -2242,16 +2242,16 @@ next_frame: if (dch || test_bit(FLG_HDLC, &bch->Flags)) { if (debug & DEBUG_HFCMULTI_FIFO) printk(KERN_DEBUG "%s(card %d): fifo(%d) reading %d " - "bytes (z1=%04x, z2=%04x) HDLC %s (f1=%d, f2=%d) " - "got=%d (again %d)\n", __func__, hc->id + 1, ch, - Zsize, z1, z2, (f1 == f2) ? "fragment" : "COMPLETE", - f1, f2, Zsize + (*sp)->len, again); + "bytes (z1=%04x, z2=%04x) HDLC %s (f1=%d, f2=%d) " + "got=%d (again %d)\n", __func__, hc->id + 1, ch, + Zsize, z1, z2, (f1 == f2) ? "fragment" : "COMPLETE", + f1, f2, Zsize + (*sp)->len, again); /* HDLC */ if ((Zsize + (*sp)->len) > (maxlen + 3)) { if (debug & DEBUG_HFCMULTI_FIFO) printk(KERN_DEBUG - "%s(card %d): hdlc-frame too large.\n", - __func__, hc->id + 1); + "%s(card %d): hdlc-frame too large.\n", + __func__, hc->id + 1); skb_trim(*sp, 0); HFC_outb_nodebug(hc, R_INC_RES_FIFO, V_RES_F); HFC_wait_nodebug(hc); @@ -2268,8 +2268,8 @@ next_frame: if ((*sp)->len < 4) { if (debug & DEBUG_HFCMULTI_FIFO) printk(KERN_DEBUG - "%s(card %d): Frame below minimum " - "size\n", __func__, hc->id + 1); + "%s(card %d): Frame below minimum " + "size\n", __func__, hc->id + 1); skb_trim(*sp, 0); goto next_frame; } @@ -2277,7 +2277,7 @@ next_frame: if ((*sp)->data[(*sp)->len - 1]) { if (debug & DEBUG_HFCMULTI_CRC) printk(KERN_DEBUG - "%s: CRC-error\n", __func__); + "%s: CRC-error\n", __func__); skb_trim(*sp, 0); goto next_frame; } @@ -2287,11 +2287,11 @@ next_frame: *sp = mI_alloc_skb(skb->len, GFP_ATOMIC); if (*sp) { memcpy(skb_put(*sp, skb->len), - skb->data, skb->len); + skb->data, skb->len); skb_trim(skb, 0); } else { printk(KERN_DEBUG "%s: No mem\n", - __func__); + __func__); *sp = skb; skb = NULL; } @@ -2300,7 +2300,7 @@ next_frame: } if (debug & DEBUG_HFCMULTI_FIFO) { printk(KERN_DEBUG "%s(card %d):", - __func__, hc->id + 1); + __func__, hc->id + 1); temp = 0; while (temp < (*sp)->len) printk(" %02x", (*sp)->data[temp++]); @@ -2325,7 +2325,7 @@ next_frame: *sp = mI_alloc_skb(skb->len, GFP_ATOMIC); if (*sp) { memcpy(skb_put(*sp, skb->len), - skb->data, skb->len); + skb->data, skb->len); skb_trim(skb, 0); } else { printk(KERN_DEBUG "%s: No mem\n", __func__); @@ -2337,9 +2337,9 @@ next_frame: } if (debug & DEBUG_HFCMULTI_FIFO) printk(KERN_DEBUG - "%s(card %d): fifo(%d) reading %d bytes " - "(z1=%04x, z2=%04x) TRANS\n", - __func__, hc->id + 1, ch, Zsize, z1, z2); + "%s(card %d): fifo(%d) reading %d bytes " + "(z1=%04x, z2=%04x) TRANS\n", + __func__, hc->id + 1, ch, Zsize, z1, z2); /* only bch is transparent */ recv_Bchannel(bch, hc->chan[ch].Zfill); *sp = skb; @@ -2362,7 +2362,7 @@ signal_state_up(struct dchannel *dch, int info, char *msg) id = TEI_SAPI | (GROUP_TEI << 8); /* manager address */ skb = _alloc_mISDN_skb(MPH_INFORMATION_IND, id, sizeof(data), &data, - GFP_ATOMIC); + GFP_ATOMIC); if (!skb) return; recv_Dchannel_skb(dch, skb); @@ -2395,10 +2395,10 @@ handle_timer_irq(struct hfc_multi *hc) if (hc->e1_resync & 4) { if (debug & DEBUG_HFCMULTI_PLXSD) printk(KERN_DEBUG - "Enable QUARTZ for HFC-E1\n"); + "Enable QUARTZ for HFC-E1\n"); /* set jatt to quartz */ HFC_outb(hc, R_SYNC_CTRL, V_EXT_CLK_SYNC - | V_JATT_OFF); + | V_JATT_OFF); /* switch to JATT, in case it is not already */ HFC_outb(hc, R_SYNC_OUT, 0); } @@ -2417,14 +2417,14 @@ handle_timer_irq(struct hfc_multi *hc) dch = hc->chan[ch].dch; if (!(--hc->chan[ch].nt_timer)) { schedule_event(dch, - FLG_PHCHANGE); + FLG_PHCHANGE); if (debug & DEBUG_HFCMULTI_STATE) printk(KERN_DEBUG - "%s: nt_timer at " - "state %x\n", - __func__, - dch->state); + "%s: nt_timer at " + "state %x\n", + __func__, + dch->state); } } } @@ -2436,10 +2436,10 @@ handle_timer_irq(struct hfc_multi *hc) temp = HFC_inb_nodebug(hc, R_SYNC_STA) & V_SIG_LOS; if (!temp && hc->chan[hc->dslot].los) signal_state_up(dch, L1_SIGNAL_LOS_ON, - "LOS detected"); + "LOS detected"); if (temp && !hc->chan[hc->dslot].los) signal_state_up(dch, L1_SIGNAL_LOS_OFF, - "LOS gone"); + "LOS gone"); hc->chan[hc->dslot].los = temp; } if (test_bit(HFC_CFG_REPORT_AIS, &hc->chan[hc->dslot].cfg)) { @@ -2447,10 +2447,10 @@ handle_timer_irq(struct hfc_multi *hc) temp = HFC_inb_nodebug(hc, R_SYNC_STA) & V_AIS; if (!temp && hc->chan[hc->dslot].ais) signal_state_up(dch, L1_SIGNAL_AIS_ON, - "AIS detected"); + "AIS detected"); if (temp && !hc->chan[hc->dslot].ais) signal_state_up(dch, L1_SIGNAL_AIS_OFF, - "AIS gone"); + "AIS gone"); hc->chan[hc->dslot].ais = temp; } if (test_bit(HFC_CFG_REPORT_SLIP, &hc->chan[hc->dslot].cfg)) { @@ -2458,12 +2458,12 @@ handle_timer_irq(struct hfc_multi *hc) temp = HFC_inb_nodebug(hc, R_SLIP) & V_FOSLIP_RX; if (!temp && hc->chan[hc->dslot].slip_rx) signal_state_up(dch, L1_SIGNAL_SLIP_RX, - " bit SLIP detected RX"); + " bit SLIP detected RX"); hc->chan[hc->dslot].slip_rx = temp; temp = HFC_inb_nodebug(hc, R_SLIP) & V_FOSLIP_TX; if (!temp && hc->chan[hc->dslot].slip_tx) signal_state_up(dch, L1_SIGNAL_SLIP_TX, - " bit SLIP detected TX"); + " bit SLIP detected TX"); hc->chan[hc->dslot].slip_tx = temp; } if (test_bit(HFC_CFG_REPORT_RDI, &hc->chan[hc->dslot].cfg)) { @@ -2471,10 +2471,10 @@ handle_timer_irq(struct hfc_multi *hc) temp = HFC_inb_nodebug(hc, R_RX_SL0_0) & V_A; if (!temp && hc->chan[hc->dslot].rdi) signal_state_up(dch, L1_SIGNAL_RDI_ON, - "RDI detected"); + "RDI detected"); if (temp && !hc->chan[hc->dslot].rdi) signal_state_up(dch, L1_SIGNAL_RDI_OFF, - "RDI gone"); + "RDI gone"); hc->chan[hc->dslot].rdi = temp; } temp = HFC_inb_nodebug(hc, R_JATT_DIR); @@ -2483,13 +2483,13 @@ handle_timer_irq(struct hfc_multi *hc) if ((temp & 0x60) == 0x60) { if (debug & DEBUG_HFCMULTI_SYNC) printk(KERN_DEBUG - "%s: (id=%d) E1 now " - "in clock sync\n", - __func__, hc->id); + "%s: (id=%d) E1 now " + "in clock sync\n", + __func__, hc->id); HFC_outb(hc, R_RX_OFF, - hc->chan[hc->dslot].jitter | V_RX_INIT); + hc->chan[hc->dslot].jitter | V_RX_INIT); HFC_outb(hc, R_TX_OFF, - hc->chan[hc->dslot].jitter | V_RX_INIT); + hc->chan[hc->dslot].jitter | V_RX_INIT); hc->chan[hc->dslot].sync = 1; goto check_framesync; } @@ -2498,20 +2498,20 @@ handle_timer_irq(struct hfc_multi *hc) if ((temp & 0x60) != 0x60) { if (debug & DEBUG_HFCMULTI_SYNC) printk(KERN_DEBUG - "%s: (id=%d) E1 " - "lost clock sync\n", - __func__, hc->id); + "%s: (id=%d) E1 " + "lost clock sync\n", + __func__, hc->id); hc->chan[hc->dslot].sync = 0; break; } -check_framesync: + check_framesync: temp = HFC_inb_nodebug(hc, R_SYNC_STA); if (temp == 0x27) { if (debug & DEBUG_HFCMULTI_SYNC) printk(KERN_DEBUG - "%s: (id=%d) E1 " - "now in frame sync\n", - __func__, hc->id); + "%s: (id=%d) E1 " + "now in frame sync\n", + __func__, hc->id); hc->chan[hc->dslot].sync = 2; } break; @@ -2519,9 +2519,9 @@ check_framesync: if ((temp & 0x60) != 0x60) { if (debug & DEBUG_HFCMULTI_SYNC) printk(KERN_DEBUG - "%s: (id=%d) E1 lost " - "clock & frame sync\n", - __func__, hc->id); + "%s: (id=%d) E1 lost " + "clock & frame sync\n", + __func__, hc->id); hc->chan[hc->dslot].sync = 0; break; } @@ -2529,9 +2529,9 @@ check_framesync: if (temp != 0x27) { if (debug & DEBUG_HFCMULTI_SYNC) printk(KERN_DEBUG - "%s: (id=%d) E1 " - "lost frame sync\n", - __func__, hc->id); + "%s: (id=%d) E1 " + "lost frame sync\n", + __func__, hc->id); hc->chan[hc->dslot].sync = 1; } break; @@ -2559,30 +2559,30 @@ ph_state_irq(struct hfc_multi *hc, u_char r_irq_statech) dch = hc->chan[ch].dch; if (r_irq_statech & 1) { HFC_outb_nodebug(hc, R_ST_SEL, - hc->chan[ch].port); + hc->chan[ch].port); /* undocumented: delay after R_ST_SEL */ udelay(1); /* undocumented: status changes during read */ st_status = HFC_inb_nodebug(hc, A_ST_RD_STATE); while (st_status != (temp = - HFC_inb_nodebug(hc, A_ST_RD_STATE))) { + HFC_inb_nodebug(hc, A_ST_RD_STATE))) { if (debug & DEBUG_HFCMULTI_STATE) printk(KERN_DEBUG "%s: reread " - "STATE because %d!=%d\n", - __func__, temp, - st_status); + "STATE because %d!=%d\n", + __func__, temp, + st_status); st_status = temp; /* repeat */ } /* Speech Design TE-sync indication */ if (test_bit(HFC_CHIP_PLXSD, &hc->chip) && - dch->dev.D.protocol == ISDN_P_TE_S0) { + dch->dev.D.protocol == ISDN_P_TE_S0) { if (st_status & V_FR_SYNC_ST) hc->syncronized |= - (1 << hc->chan[ch].port); + (1 << hc->chan[ch].port); else hc->syncronized &= - ~(1 << hc->chan[ch].port); + ~(1 << hc->chan[ch].port); } dch->state = st_status & 0x0f; if (dch->dev.D.protocol == ISDN_P_NT_S0) @@ -2591,19 +2591,19 @@ ph_state_irq(struct hfc_multi *hc, u_char r_irq_statech) active = 7; if (dch->state == active) { HFC_outb_nodebug(hc, R_FIFO, - (ch << 1) | 1); + (ch << 1) | 1); HFC_wait_nodebug(hc); HFC_outb_nodebug(hc, - R_INC_RES_FIFO, V_RES_F); + R_INC_RES_FIFO, V_RES_F); HFC_wait_nodebug(hc); dch->tx_idx = 0; } schedule_event(dch, FLG_PHCHANGE); if (debug & DEBUG_HFCMULTI_STATE) printk(KERN_DEBUG - "%s: S/T newstate %x port %d\n", - __func__, dch->state, - hc->chan[ch].port); + "%s: S/T newstate %x port %d\n", + __func__, dch->state, + hc->chan[ch].port); } r_irq_statech >>= 1; } @@ -2665,7 +2665,7 @@ hfcmulti_interrupt(int intno, void *dev_id) { #ifdef IRQCOUNT_DEBUG static int iq1 = 0, iq2 = 0, iq3 = 0, iq4 = 0, - iq5 = 0, iq6 = 0, iqcnt = 0; + iq5 = 0, iq6 = 0, iqcnt = 0; #endif struct hfc_multi *hc = dev_id; struct dchannel *dch; @@ -2686,7 +2686,7 @@ hfcmulti_interrupt(int intno, void *dev_id) #ifdef IRQ_DEBUG if (irqsem) printk(KERN_ERR "irq for card %d during irq from " - "card %d, this is no bug.\n", hc->id + 1, irqsem); + "card %d, this is no bug.\n", hc->id + 1, irqsem); irqsem = hc->id + 1; #endif #ifdef CONFIG_MISDN_HFCMULTI_8xx @@ -2719,14 +2719,14 @@ hfcmulti_interrupt(int intno, void *dev_id) iq6++; if (iqcnt++ > 5000) { printk(KERN_ERR "iq1:%x iq2:%x iq3:%x iq4:%x iq5:%x iq6:%x\n", - iq1, iq2, iq3, iq4, iq5, iq6); + iq1, iq2, iq3, iq4, iq5, iq6); iqcnt = 0; } #endif if (!r_irq_statech && !(status & (V_DTMF_STA | V_LOST_STA | V_EXT_IRQSTA | - V_MISC_IRQSTA | V_FR_IRQSTA))) { + V_MISC_IRQSTA | V_FR_IRQSTA))) { /* irq is not for us */ goto irq_notforus; } @@ -2751,7 +2751,7 @@ hfcmulti_interrupt(int intno, void *dev_id) dch = hc->chan[hc->dslot].dch; e1_syncsta = HFC_inb_nodebug(hc, R_SYNC_STA); if (test_bit(HFC_CHIP_PLXSD, &hc->chip) - && hc->e1_getclock) { + && hc->e1_getclock) { if (e1_syncsta & V_FR_SYNC_E1) hc->syncronized = 1; else @@ -2760,12 +2760,12 @@ hfcmulti_interrupt(int intno, void *dev_id) /* undocumented: status changes during read */ dch->state = HFC_inb_nodebug(hc, R_E1_RD_STA); while (dch->state != (temp = - HFC_inb_nodebug(hc, R_E1_RD_STA))) { + HFC_inb_nodebug(hc, R_E1_RD_STA))) { if (debug & DEBUG_HFCMULTI_STATE) printk(KERN_DEBUG "%s: reread " - "STATE because %d!=%d\n", - __func__, temp, - dch->state); + "STATE because %d!=%d\n", + __func__, temp, + dch->state); dch->state = temp; /* repeat */ } dch->state = HFC_inb_nodebug(hc, R_E1_RD_STA) @@ -2773,8 +2773,8 @@ hfcmulti_interrupt(int intno, void *dev_id) schedule_event(dch, FLG_PHCHANGE); if (debug & DEBUG_HFCMULTI_STATE) printk(KERN_DEBUG - "%s: E1 (id=%d) newstate %x\n", - __func__, hc->id, dch->state); + "%s: E1 (id=%d) newstate %x\n", + __func__, hc->id, dch->state); if (test_bit(HFC_CHIP_PLXSD, &hc->chip)) plxsd_checksync(hc, 0); } @@ -2792,7 +2792,7 @@ hfcmulti_interrupt(int intno, void *dev_id) static int irq_proc_cnt; if (!irq_proc_cnt++) printk(KERN_DEBUG "%s: got V_IRQ_PROC -" - " this should not happen\n", __func__); + " this should not happen\n", __func__); } } @@ -2841,7 +2841,7 @@ hfcmulti_dbusy_timer(struct hfc_multi *hc) */ static int mode_hfcmulti(struct hfc_multi *hc, int ch, int protocol, int slot_tx, - int bank_tx, int slot_rx, int bank_rx) + int bank_tx, int slot_rx, int bank_rx) { int flow_tx = 0, flow_rx = 0, routing = 0; int oslot_tx, oslot_rx; @@ -2855,28 +2855,28 @@ mode_hfcmulti(struct hfc_multi *hc, int ch, int protocol, int slot_tx, if (debug & DEBUG_HFCMULTI_MODE) printk(KERN_DEBUG - "%s: card %d channel %d protocol %x slot old=%d new=%d " - "bank new=%d (TX) slot old=%d new=%d bank new=%d (RX)\n", - __func__, hc->id, ch, protocol, oslot_tx, slot_tx, - bank_tx, oslot_rx, slot_rx, bank_rx); + "%s: card %d channel %d protocol %x slot old=%d new=%d " + "bank new=%d (TX) slot old=%d new=%d bank new=%d (RX)\n", + __func__, hc->id, ch, protocol, oslot_tx, slot_tx, + bank_tx, oslot_rx, slot_rx, bank_rx); if (oslot_tx >= 0 && slot_tx != oslot_tx) { /* remove from slot */ if (debug & DEBUG_HFCMULTI_MODE) printk(KERN_DEBUG "%s: remove from slot %d (TX)\n", - __func__, oslot_tx); - if (hc->slot_owner[oslot_tx<<1] == ch) { + __func__, oslot_tx); + if (hc->slot_owner[oslot_tx << 1] == ch) { HFC_outb(hc, R_SLOT, oslot_tx << 1); HFC_outb(hc, A_SL_CFG, 0); if (hc->ctype != HFC_TYPE_XHFC) HFC_outb(hc, A_CONF, 0); - hc->slot_owner[oslot_tx<<1] = -1; + hc->slot_owner[oslot_tx << 1] = -1; } else { if (debug & DEBUG_HFCMULTI_MODE) printk(KERN_DEBUG - "%s: we are not owner of this tx slot " - "anymore, channel %d is.\n", - __func__, hc->slot_owner[oslot_tx<<1]); + "%s: we are not owner of this tx slot " + "anymore, channel %d is.\n", + __func__, hc->slot_owner[oslot_tx << 1]); } } @@ -2884,8 +2884,8 @@ mode_hfcmulti(struct hfc_multi *hc, int ch, int protocol, int slot_tx, /* remove from slot */ if (debug & DEBUG_HFCMULTI_MODE) printk(KERN_DEBUG - "%s: remove from slot %d (RX)\n", - __func__, oslot_rx); + "%s: remove from slot %d (RX)\n", + __func__, oslot_rx); if (hc->slot_owner[(oslot_rx << 1) | 1] == ch) { HFC_outb(hc, R_SLOT, (oslot_rx << 1) | V_SL_DIR); HFC_outb(hc, A_SL_CFG, 0); @@ -2893,10 +2893,10 @@ mode_hfcmulti(struct hfc_multi *hc, int ch, int protocol, int slot_tx, } else { if (debug & DEBUG_HFCMULTI_MODE) printk(KERN_DEBUG - "%s: we are not owner of this rx slot " - "anymore, channel %d is.\n", - __func__, - hc->slot_owner[(oslot_rx << 1) | 1]); + "%s: we are not owner of this rx slot " + "anymore, channel %d is.\n", + __func__, + hc->slot_owner[(oslot_rx << 1) | 1]); } } @@ -2917,14 +2917,14 @@ mode_hfcmulti(struct hfc_multi *hc, int ch, int protocol, int slot_tx, routing = 0x40; /* loop */ if (debug & DEBUG_HFCMULTI_MODE) printk(KERN_DEBUG "%s: put channel %d to slot %d bank" - " %d flow %02x routing %02x conf %d (TX)\n", - __func__, ch, slot_tx, bank_tx, - flow_tx, routing, conf); + " %d flow %02x routing %02x conf %d (TX)\n", + __func__, ch, slot_tx, bank_tx, + flow_tx, routing, conf); HFC_outb(hc, R_SLOT, slot_tx << 1); - HFC_outb(hc, A_SL_CFG, (ch<<1) | routing); + HFC_outb(hc, A_SL_CFG, (ch << 1) | routing); if (hc->ctype != HFC_TYPE_XHFC) HFC_outb(hc, A_CONF, - (conf < 0) ? 0 : (conf | V_CONF_SL)); + (conf < 0) ? 0 : (conf | V_CONF_SL)); hc->slot_owner[slot_tx << 1] = ch; hc->chan[ch].slot_tx = slot_tx; hc->chan[ch].bank_tx = bank_tx; @@ -2946,12 +2946,12 @@ mode_hfcmulti(struct hfc_multi *hc, int ch, int protocol, int slot_tx, routing = 0x40; /* loop */ if (debug & DEBUG_HFCMULTI_MODE) printk(KERN_DEBUG "%s: put channel %d to slot %d bank" - " %d flow %02x routing %02x conf %d (RX)\n", - __func__, ch, slot_rx, bank_rx, - flow_rx, routing, conf); - HFC_outb(hc, R_SLOT, (slot_rx<<1) | V_SL_DIR); - HFC_outb(hc, A_SL_CFG, (ch<<1) | V_CH_DIR | routing); - hc->slot_owner[(slot_rx<<1)|1] = ch; + " %d flow %02x routing %02x conf %d (RX)\n", + __func__, ch, slot_rx, bank_rx, + flow_rx, routing, conf); + HFC_outb(hc, R_SLOT, (slot_rx << 1) | V_SL_DIR); + HFC_outb(hc, A_SL_CFG, (ch << 1) | V_CH_DIR | routing); + hc->slot_owner[(slot_rx << 1) | 1] = ch; hc->chan[ch].slot_rx = slot_rx; hc->chan[ch].bank_rx = bank_rx; } @@ -2967,7 +2967,7 @@ mode_hfcmulti(struct hfc_multi *hc, int ch, int protocol, int slot_tx, HFC_outb(hc, R_INC_RES_FIFO, V_RES_F); HFC_wait(hc); /* disable RX fifo */ - HFC_outb(hc, R_FIFO, (ch<<1)|1); + HFC_outb(hc, R_FIFO, (ch << 1) | 1); HFC_wait(hc); HFC_outb(hc, A_CON_HDLC, flow_rx | 0x00); HFC_outb(hc, A_SUBCH_CFG, 0); @@ -2976,17 +2976,17 @@ mode_hfcmulti(struct hfc_multi *hc, int ch, int protocol, int slot_tx, HFC_wait(hc); if (hc->chan[ch].bch && hc->ctype != HFC_TYPE_E1) { hc->hw.a_st_ctrl0[hc->chan[ch].port] &= - ((ch & 0x3) == 0) ? ~V_B1_EN : ~V_B2_EN; + ((ch & 0x3) == 0) ? ~V_B1_EN : ~V_B2_EN; HFC_outb(hc, R_ST_SEL, hc->chan[ch].port); /* undocumented: delay after R_ST_SEL */ udelay(1); HFC_outb(hc, A_ST_CTRL0, - hc->hw.a_st_ctrl0[hc->chan[ch].port]); + hc->hw.a_st_ctrl0[hc->chan[ch].port]); } if (hc->chan[ch].bch) { test_and_clear_bit(FLG_HDLC, &hc->chan[ch].bch->Flags); test_and_clear_bit(FLG_TRANSPARENT, - &hc->chan[ch].bch->Flags); + &hc->chan[ch].bch->Flags); } break; case (ISDN_P_B_RAW): /* B-channel */ @@ -2996,20 +2996,20 @@ mode_hfcmulti(struct hfc_multi *hc, int ch, int protocol, int slot_tx, (hc->chan[ch].slot_tx < 0)) { printk(KERN_DEBUG - "Setting B-channel %d to echo cancelable " - "state on PCM slot %d\n", ch, - ((ch / 4) * 8) + ((ch % 4) * 4) + 1); + "Setting B-channel %d to echo cancelable " + "state on PCM slot %d\n", ch, + ((ch / 4) * 8) + ((ch % 4) * 4) + 1); printk(KERN_DEBUG - "Enabling pass through for channel\n"); + "Enabling pass through for channel\n"); vpm_out(hc, ch, ((ch / 4) * 8) + - ((ch % 4) * 4) + 1, 0x01); + ((ch % 4) * 4) + 1, 0x01); /* rx path */ /* S/T -> PCM */ HFC_outb(hc, R_FIFO, (ch << 1)); HFC_wait(hc); HFC_outb(hc, A_CON_HDLC, 0xc0 | V_HDLC_TRP | V_IFF); HFC_outb(hc, R_SLOT, (((ch / 4) * 8) + - ((ch % 4) * 4) + 1) << 1); + ((ch % 4) * 4) + 1) << 1); HFC_outb(hc, A_SL_CFG, 0x80 | (ch << 1)); /* PCM -> FIFO */ @@ -3021,7 +3021,7 @@ mode_hfcmulti(struct hfc_multi *hc, int ch, int protocol, int slot_tx, HFC_outb(hc, R_INC_RES_FIFO, V_RES_F); HFC_wait(hc); HFC_outb(hc, R_SLOT, ((((ch / 4) * 8) + - ((ch % 4) * 4) + 1) << 1) | 1); + ((ch % 4) * 4) + 1) << 1) | 1); HFC_outb(hc, A_SL_CFG, 0x80 | 0x20 | (ch << 1) | 1); /* tx path */ @@ -3030,7 +3030,7 @@ mode_hfcmulti(struct hfc_multi *hc, int ch, int protocol, int slot_tx, HFC_wait(hc); HFC_outb(hc, A_CON_HDLC, 0xc0 | V_HDLC_TRP | V_IFF); HFC_outb(hc, R_SLOT, ((((ch / 4) * 8) + - ((ch % 4) * 4)) << 1) | 1); + ((ch % 4) * 4)) << 1) | 1); HFC_outb(hc, A_SL_CFG, 0x80 | 0x40 | (ch << 1) | 1); /* FIFO -> PCM */ @@ -3044,7 +3044,7 @@ mode_hfcmulti(struct hfc_multi *hc, int ch, int protocol, int slot_tx, /* tx silence */ HFC_outb_nodebug(hc, A_FIFO_DATA0_NOINC, hc->silence); HFC_outb(hc, R_SLOT, (((ch / 4) * 8) + - ((ch % 4) * 4)) << 1); + ((ch % 4) * 4)) << 1); HFC_outb(hc, A_SL_CFG, 0x80 | 0x20 | (ch << 1)); } else { /* enable TX fifo */ @@ -3052,11 +3052,11 @@ mode_hfcmulti(struct hfc_multi *hc, int ch, int protocol, int slot_tx, HFC_wait(hc); if (hc->ctype == HFC_TYPE_XHFC) HFC_outb(hc, A_CON_HDLC, flow_tx | 0x07 << 2 | - V_HDLC_TRP | V_IFF); - /* Enable FIFO, no interrupt */ + V_HDLC_TRP | V_IFF); + /* Enable FIFO, no interrupt */ else HFC_outb(hc, A_CON_HDLC, flow_tx | 0x00 | - V_HDLC_TRP | V_IFF); + V_HDLC_TRP | V_IFF); HFC_outb(hc, A_SUBCH_CFG, 0); HFC_outb(hc, A_IRQ_MSK, 0); HFC_outb(hc, R_INC_RES_FIFO, V_RES_F); @@ -3064,15 +3064,15 @@ mode_hfcmulti(struct hfc_multi *hc, int ch, int protocol, int slot_tx, /* tx silence */ HFC_outb_nodebug(hc, A_FIFO_DATA0_NOINC, hc->silence); /* enable RX fifo */ - HFC_outb(hc, R_FIFO, (ch<<1)|1); + HFC_outb(hc, R_FIFO, (ch << 1) | 1); HFC_wait(hc); if (hc->ctype == HFC_TYPE_XHFC) HFC_outb(hc, A_CON_HDLC, flow_rx | 0x07 << 2 | - V_HDLC_TRP); - /* Enable FIFO, no interrupt*/ + V_HDLC_TRP); + /* Enable FIFO, no interrupt*/ else HFC_outb(hc, A_CON_HDLC, flow_rx | 0x00 | - V_HDLC_TRP); + V_HDLC_TRP); HFC_outb(hc, A_SUBCH_CFG, 0); HFC_outb(hc, A_IRQ_MSK, 0); HFC_outb(hc, R_INC_RES_FIFO, V_RES_F); @@ -3080,16 +3080,16 @@ mode_hfcmulti(struct hfc_multi *hc, int ch, int protocol, int slot_tx, } if (hc->ctype != HFC_TYPE_E1) { hc->hw.a_st_ctrl0[hc->chan[ch].port] |= - ((ch & 0x3) == 0) ? V_B1_EN : V_B2_EN; + ((ch & 0x3) == 0) ? V_B1_EN : V_B2_EN; HFC_outb(hc, R_ST_SEL, hc->chan[ch].port); /* undocumented: delay after R_ST_SEL */ udelay(1); HFC_outb(hc, A_ST_CTRL0, - hc->hw.a_st_ctrl0[hc->chan[ch].port]); + hc->hw.a_st_ctrl0[hc->chan[ch].port]); } if (hc->chan[ch].bch) test_and_set_bit(FLG_TRANSPARENT, - &hc->chan[ch].bch->Flags); + &hc->chan[ch].bch->Flags); break; case (ISDN_P_B_HDLC): /* B-channel */ case (ISDN_P_TE_S0): /* D-channel */ @@ -3097,7 +3097,7 @@ mode_hfcmulti(struct hfc_multi *hc, int ch, int protocol, int slot_tx, case (ISDN_P_TE_E1): case (ISDN_P_NT_E1): /* enable TX fifo */ - HFC_outb(hc, R_FIFO, ch<<1); + HFC_outb(hc, R_FIFO, ch << 1); HFC_wait(hc); if (hc->ctype == HFC_TYPE_E1 || hc->chan[ch].bch) { /* E1 or B-channel */ @@ -3112,7 +3112,7 @@ mode_hfcmulti(struct hfc_multi *hc, int ch, int protocol, int slot_tx, HFC_outb(hc, R_INC_RES_FIFO, V_RES_F); HFC_wait(hc); /* enable RX fifo */ - HFC_outb(hc, R_FIFO, (ch<<1)|1); + HFC_outb(hc, R_FIFO, (ch << 1) | 1); HFC_wait(hc); HFC_outb(hc, A_CON_HDLC, flow_rx | 0x04); if (hc->ctype == HFC_TYPE_E1 || hc->chan[ch].bch) @@ -3126,18 +3126,18 @@ mode_hfcmulti(struct hfc_multi *hc, int ch, int protocol, int slot_tx, test_and_set_bit(FLG_HDLC, &hc->chan[ch].bch->Flags); if (hc->ctype != HFC_TYPE_E1) { hc->hw.a_st_ctrl0[hc->chan[ch].port] |= - ((ch&0x3) == 0) ? V_B1_EN : V_B2_EN; + ((ch & 0x3) == 0) ? V_B1_EN : V_B2_EN; HFC_outb(hc, R_ST_SEL, hc->chan[ch].port); /* undocumented: delay after R_ST_SEL */ udelay(1); HFC_outb(hc, A_ST_CTRL0, - hc->hw.a_st_ctrl0[hc->chan[ch].port]); + hc->hw.a_st_ctrl0[hc->chan[ch].port]); } } break; default: printk(KERN_DEBUG "%s: protocol not known %x\n", - __func__, protocol); + __func__, protocol); hc->chan[ch].protocol = ISDN_P_NONE; return -ENOPROTOOPT; } @@ -3152,7 +3152,7 @@ mode_hfcmulti(struct hfc_multi *hc, int ch, int protocol, int slot_tx, static void hfcmulti_pcm(struct hfc_multi *hc, int ch, int slot_tx, int bank_tx, - int slot_rx, int bank_rx) + int slot_rx, int bank_rx) { if (slot_tx < 0 || slot_rx < 0 || bank_tx < 0 || bank_rx < 0) { /* disable PCM */ @@ -3162,7 +3162,7 @@ hfcmulti_pcm(struct hfc_multi *hc, int ch, int slot_tx, int bank_tx, /* enable pcm */ mode_hfcmulti(hc, ch, hc->chan[ch].protocol, slot_tx, bank_tx, - slot_rx, bank_rx); + slot_rx, bank_rx); } /* @@ -3177,8 +3177,8 @@ hfcmulti_conf(struct hfc_multi *hc, int ch, int num) else hc->chan[ch].conf = -1; mode_hfcmulti(hc, ch, hc->chan[ch].protocol, hc->chan[ch].slot_tx, - hc->chan[ch].bank_tx, hc->chan[ch].slot_rx, - hc->chan[ch].bank_rx); + hc->chan[ch].bank_tx, hc->chan[ch].slot_rx, + hc->chan[ch].bank_rx); } @@ -3207,8 +3207,8 @@ hfcm_l1callback(struct dchannel *dch, u_int cmd) if (hc->ctype == HFC_TYPE_E1) { if (debug & DEBUG_HFCMULTI_MSG) printk(KERN_DEBUG - "%s: HW_RESET_REQ no BRI\n", - __func__); + "%s: HW_RESET_REQ no BRI\n", + __func__); } else { HFC_outb(hc, R_ST_SEL, hc->chan[dch->slot].port); /* undocumented: delay after R_ST_SEL */ @@ -3216,8 +3216,8 @@ hfcm_l1callback(struct dchannel *dch, u_int cmd) HFC_outb(hc, A_ST_WR_STATE, V_ST_LD_STA | 3); /* F3 */ udelay(6); /* wait at least 5,21us */ HFC_outb(hc, A_ST_WR_STATE, 3); - HFC_outb(hc, A_ST_WR_STATE, 3 | (V_ST_ACT*3)); - /* activate */ + HFC_outb(hc, A_ST_WR_STATE, 3 | (V_ST_ACT * 3)); + /* activate */ } spin_unlock_irqrestore(&hc->lock, flags); l1_event(dch->l1, HW_POWERUP_IND); @@ -3228,17 +3228,17 @@ hfcm_l1callback(struct dchannel *dch, u_int cmd) if (hc->ctype == HFC_TYPE_E1) { if (debug & DEBUG_HFCMULTI_MSG) printk(KERN_DEBUG - "%s: HW_DEACT_REQ no BRI\n", - __func__); + "%s: HW_DEACT_REQ no BRI\n", + __func__); } else { HFC_outb(hc, R_ST_SEL, hc->chan[dch->slot].port); /* undocumented: delay after R_ST_SEL */ udelay(1); - HFC_outb(hc, A_ST_WR_STATE, V_ST_ACT*2); - /* deactivate */ + HFC_outb(hc, A_ST_WR_STATE, V_ST_ACT * 2); + /* deactivate */ if (test_bit(HFC_CHIP_PLXSD, &hc->chip)) { hc->syncronized &= - ~(1 << hc->chan[dch->slot].port); + ~(1 << hc->chan[dch->slot].port); plxsd_checksync(hc, 0); } } @@ -3262,8 +3262,8 @@ hfcm_l1callback(struct dchannel *dch, u_int cmd) if (hc->ctype == HFC_TYPE_E1) { if (debug & DEBUG_HFCMULTI_MSG) printk(KERN_DEBUG - "%s: HW_POWERUP_REQ no BRI\n", - __func__); + "%s: HW_POWERUP_REQ no BRI\n", + __func__); } else { HFC_outb(hc, R_ST_SEL, hc->chan[dch->slot].port); /* undocumented: delay after R_ST_SEL */ @@ -3277,17 +3277,17 @@ hfcm_l1callback(struct dchannel *dch, u_int cmd) case PH_ACTIVATE_IND: test_and_set_bit(FLG_ACTIVE, &dch->Flags); _queue_data(&dch->dev.D, cmd, MISDN_ID_ANY, 0, NULL, - GFP_ATOMIC); + GFP_ATOMIC); break; case PH_DEACTIVATE_IND: test_and_clear_bit(FLG_ACTIVE, &dch->Flags); _queue_data(&dch->dev.D, cmd, MISDN_ID_ANY, 0, NULL, - GFP_ATOMIC); + GFP_ATOMIC); break; default: if (dch->debug & DEBUG_HW) printk(KERN_DEBUG "%s: unknown command %x\n", - __func__, cmd); + __func__, cmd); return -1; } return 0; @@ -3332,27 +3332,27 @@ handle_dmsg(struct mISDNchannel *ch, struct sk_buff *skb) ret = 0; if (debug & DEBUG_HFCMULTI_MSG) printk(KERN_DEBUG - "%s: PH_ACTIVATE port %d (0..%d)\n", - __func__, hc->chan[dch->slot].port, - hc->ports-1); + "%s: PH_ACTIVATE port %d (0..%d)\n", + __func__, hc->chan[dch->slot].port, + hc->ports - 1); /* start activation */ if (hc->ctype == HFC_TYPE_E1) { ph_state_change(dch); if (debug & DEBUG_HFCMULTI_STATE) printk(KERN_DEBUG - "%s: E1 report state %x \n", - __func__, dch->state); + "%s: E1 report state %x \n", + __func__, dch->state); } else { HFC_outb(hc, R_ST_SEL, - hc->chan[dch->slot].port); + hc->chan[dch->slot].port); /* undocumented: delay after R_ST_SEL */ udelay(1); HFC_outb(hc, A_ST_WR_STATE, V_ST_LD_STA | 1); - /* G1 */ + /* G1 */ udelay(6); /* wait at least 5,21us */ HFC_outb(hc, A_ST_WR_STATE, 1); HFC_outb(hc, A_ST_WR_STATE, 1 | - (V_ST_ACT*3)); /* activate */ + (V_ST_ACT * 3)); /* activate */ dch->state = 1; } spin_unlock_irqrestore(&hc->lock, flags); @@ -3365,22 +3365,22 @@ handle_dmsg(struct mISDNchannel *ch, struct sk_buff *skb) spin_lock_irqsave(&hc->lock, flags); if (debug & DEBUG_HFCMULTI_MSG) printk(KERN_DEBUG - "%s: PH_DEACTIVATE port %d (0..%d)\n", - __func__, hc->chan[dch->slot].port, - hc->ports-1); + "%s: PH_DEACTIVATE port %d (0..%d)\n", + __func__, hc->chan[dch->slot].port, + hc->ports - 1); /* start deactivation */ if (hc->ctype == HFC_TYPE_E1) { if (debug & DEBUG_HFCMULTI_MSG) printk(KERN_DEBUG - "%s: PH_DEACTIVATE no BRI\n", - __func__); + "%s: PH_DEACTIVATE no BRI\n", + __func__); } else { HFC_outb(hc, R_ST_SEL, - hc->chan[dch->slot].port); + hc->chan[dch->slot].port); /* undocumented: delay after R_ST_SEL */ udelay(1); HFC_outb(hc, A_ST_WR_STATE, V_ST_ACT * 2); - /* deactivate */ + /* deactivate */ dch->state = 1; } skb_queue_purge(&dch->squeue); @@ -3460,28 +3460,28 @@ handle_bmsg(struct mISDNchannel *ch, struct sk_buff *skb) case PH_ACTIVATE_REQ: if (debug & DEBUG_HFCMULTI_MSG) printk(KERN_DEBUG "%s: PH_ACTIVATE ch %d (0..32)\n", - __func__, bch->slot); + __func__, bch->slot); spin_lock_irqsave(&hc->lock, flags); /* activate B-channel if not already activated */ if (!test_and_set_bit(FLG_ACTIVE, &bch->Flags)) { hc->chan[bch->slot].txpending = 0; ret = mode_hfcmulti(hc, bch->slot, - ch->protocol, - hc->chan[bch->slot].slot_tx, - hc->chan[bch->slot].bank_tx, - hc->chan[bch->slot].slot_rx, - hc->chan[bch->slot].bank_rx); + ch->protocol, + hc->chan[bch->slot].slot_tx, + hc->chan[bch->slot].bank_tx, + hc->chan[bch->slot].slot_rx, + hc->chan[bch->slot].bank_rx); if (!ret) { if (ch->protocol == ISDN_P_B_RAW && !hc->dtmf - && test_bit(HFC_CHIP_DTMF, &hc->chip)) { + && test_bit(HFC_CHIP_DTMF, &hc->chip)) { /* start decoder */ hc->dtmf = 1; if (debug & DEBUG_HFCMULTI_DTMF) printk(KERN_DEBUG - "%s: start dtmf decoder\n", - __func__); + "%s: start dtmf decoder\n", + __func__); HFC_outb(hc, R_DTMF, hc->hw.r_dtmf | - V_RST_DTMF); + V_RST_DTMF); } } } else @@ -3489,7 +3489,7 @@ handle_bmsg(struct mISDNchannel *ch, struct sk_buff *skb) spin_unlock_irqrestore(&hc->lock, flags); if (!ret) _queue_data(ch, PH_ACTIVATE_IND, MISDN_ID_ANY, 0, NULL, - GFP_KERNEL); + GFP_KERNEL); break; case PH_CONTROL_REQ: spin_lock_irqsave(&hc->lock, flags); @@ -3497,20 +3497,20 @@ handle_bmsg(struct mISDNchannel *ch, struct sk_buff *skb) case HFC_SPL_LOOP_ON: /* set sample loop */ if (debug & DEBUG_HFCMULTI_MSG) printk(KERN_DEBUG - "%s: HFC_SPL_LOOP_ON (len = %d)\n", - __func__, skb->len); + "%s: HFC_SPL_LOOP_ON (len = %d)\n", + __func__, skb->len); ret = 0; break; case HFC_SPL_LOOP_OFF: /* set silence */ if (debug & DEBUG_HFCMULTI_MSG) printk(KERN_DEBUG "%s: HFC_SPL_LOOP_OFF\n", - __func__); + __func__); ret = 0; break; default: printk(KERN_ERR - "%s: unknown PH_CONTROL_REQ info %x\n", - __func__, hh->id); + "%s: unknown PH_CONTROL_REQ info %x\n", + __func__, hh->id); ret = -EINVAL; } spin_unlock_irqrestore(&hc->lock, flags); @@ -3518,7 +3518,7 @@ handle_bmsg(struct mISDNchannel *ch, struct sk_buff *skb) case PH_DEACTIVATE_REQ: deactivate_bchannel(bch); /* locked there */ _queue_data(ch, PH_DEACTIVATE_IND, MISDN_ID_ANY, 0, NULL, - GFP_KERNEL); + GFP_KERNEL); ret = 0; break; } @@ -3559,18 +3559,18 @@ channel_bctrl(struct bchannel *bch, struct mISDN_ctrl_req *cq) } if (debug & DEBUG_HFCMULTI_MSG) printk(KERN_DEBUG "%s: RX_OFF request (nr=%d off=%d)\n", - __func__, bch->nr, hc->chan[bch->slot].rx_off); + __func__, bch->nr, hc->chan[bch->slot].rx_off); break; case MISDN_CTRL_FILL_EMPTY: /* fill fifo, if empty */ test_and_set_bit(FLG_FILLEMPTY, &bch->Flags); if (debug & DEBUG_HFCMULTI_MSG) printk(KERN_DEBUG "%s: FILL_EMPTY request (nr=%d " - "off=%d)\n", __func__, bch->nr, !!cq->p1); + "off=%d)\n", __func__, bch->nr, !!cq->p1); break; case MISDN_CTRL_HW_FEATURES: /* fill features structure */ if (debug & DEBUG_HFCMULTI_MSG) printk(KERN_DEBUG "%s: HW_FEATURE request\n", - __func__); + __func__); /* create confirm */ features->hfc_id = hc->id; if (test_bit(HFC_CHIP_DTMF, &hc->chip)) @@ -3593,40 +3593,40 @@ channel_bctrl(struct bchannel *bch, struct mISDN_ctrl_req *cq) bank_rx = cq->p2 >> 8; if (debug & DEBUG_HFCMULTI_MSG) printk(KERN_DEBUG - "%s: HFC_PCM_CONN slot %d bank %d (TX) " - "slot %d bank %d (RX)\n", - __func__, slot_tx, bank_tx, - slot_rx, bank_rx); + "%s: HFC_PCM_CONN slot %d bank %d (TX) " + "slot %d bank %d (RX)\n", + __func__, slot_tx, bank_tx, + slot_rx, bank_rx); if (slot_tx < hc->slots && bank_tx <= 2 && slot_rx < hc->slots && bank_rx <= 2) hfcmulti_pcm(hc, bch->slot, - slot_tx, bank_tx, slot_rx, bank_rx); + slot_tx, bank_tx, slot_rx, bank_rx); else { printk(KERN_WARNING - "%s: HFC_PCM_CONN slot %d bank %d (TX) " - "slot %d bank %d (RX) out of range\n", - __func__, slot_tx, bank_tx, - slot_rx, bank_rx); + "%s: HFC_PCM_CONN slot %d bank %d (TX) " + "slot %d bank %d (RX) out of range\n", + __func__, slot_tx, bank_tx, + slot_rx, bank_rx); ret = -EINVAL; } break; case MISDN_CTRL_HFC_PCM_DISC: /* release interface from pcm timeslot */ if (debug & DEBUG_HFCMULTI_MSG) printk(KERN_DEBUG "%s: HFC_PCM_DISC\n", - __func__); + __func__); hfcmulti_pcm(hc, bch->slot, -1, 0, -1, 0); break; case MISDN_CTRL_HFC_CONF_JOIN: /* join conference (0..7) */ num = cq->p1 & 0xff; if (debug & DEBUG_HFCMULTI_MSG) printk(KERN_DEBUG "%s: HFC_CONF_JOIN conf %d\n", - __func__, num); + __func__, num); if (num <= 7) hfcmulti_conf(hc, bch->slot, num); else { printk(KERN_WARNING - "%s: HW_CONF_JOIN conf %d out of range\n", - __func__, num); + "%s: HW_CONF_JOIN conf %d out of range\n", + __func__, num); ret = -EINVAL; } break; @@ -3647,7 +3647,7 @@ channel_bctrl(struct bchannel *bch, struct mISDN_ctrl_req *cq) case MISDN_CTRL_HFC_ECHOCAN_OFF: if (debug & DEBUG_HFCMULTI_MSG) printk(KERN_DEBUG "%s: HFC_ECHOCAN_OFF\n", - __func__); + __func__); if (test_bit(HFC_CHIP_B410P, &hc->chip)) vpm_echocan_off(hc, bch->slot); else @@ -3655,7 +3655,7 @@ channel_bctrl(struct bchannel *bch, struct mISDN_ctrl_req *cq) break; default: printk(KERN_WARNING "%s: unknown Op %x\n", - __func__, cq->op); + __func__, cq->op); ret = -EINVAL; break; } @@ -3672,7 +3672,7 @@ hfcm_bctrl(struct mISDNchannel *ch, u_int cmd, void *arg) if (bch->debug & DEBUG_HW) printk(KERN_DEBUG "%s: cmd:%x %p\n", - __func__, cmd, arg); + __func__, cmd, arg); switch (cmd) { case CLOSE_CHANNEL: test_and_clear_bit(FLG_OPEN, &bch->Flags); @@ -3690,7 +3690,7 @@ hfcm_bctrl(struct mISDNchannel *ch, u_int cmd, void *arg) break; default: printk(KERN_WARNING "%s: unknown prim(%x)\n", - __func__, cmd); + __func__, cmd); } return err; } @@ -3717,13 +3717,13 @@ ph_state_change(struct dchannel *dch) if (dch->dev.D.protocol == ISDN_P_TE_E1) { if (debug & DEBUG_HFCMULTI_STATE) printk(KERN_DEBUG - "%s: E1 TE (id=%d) newstate %x\n", - __func__, hc->id, dch->state); + "%s: E1 TE (id=%d) newstate %x\n", + __func__, hc->id, dch->state); } else { if (debug & DEBUG_HFCMULTI_STATE) printk(KERN_DEBUG - "%s: E1 NT (id=%d) newstate %x\n", - __func__, hc->id, dch->state); + "%s: E1 NT (id=%d) newstate %x\n", + __func__, hc->id, dch->state); } switch (dch->state) { case (1): @@ -3731,16 +3731,16 @@ ph_state_change(struct dchannel *dch) for (i = 1; i <= 31; i++) { /* reset fifos on e1 activation */ HFC_outb_nodebug(hc, R_FIFO, - (i << 1) | 1); + (i << 1) | 1); HFC_wait_nodebug(hc); HFC_outb_nodebug(hc, R_INC_RES_FIFO, - V_RES_F); + V_RES_F); HFC_wait_nodebug(hc); } } test_and_set_bit(FLG_ACTIVE, &dch->Flags); _queue_data(&dch->dev.D, PH_ACTIVATE_IND, - MISDN_ID_ANY, 0, NULL, GFP_ATOMIC); + MISDN_ID_ANY, 0, NULL, GFP_ATOMIC); break; default: @@ -3748,15 +3748,15 @@ ph_state_change(struct dchannel *dch) return; test_and_clear_bit(FLG_ACTIVE, &dch->Flags); _queue_data(&dch->dev.D, PH_DEACTIVATE_IND, - MISDN_ID_ANY, 0, NULL, GFP_ATOMIC); + MISDN_ID_ANY, 0, NULL, GFP_ATOMIC); } hc->e1_state = dch->state; } else { if (dch->dev.D.protocol == ISDN_P_TE_S0) { if (debug & DEBUG_HFCMULTI_STATE) printk(KERN_DEBUG - "%s: S/T TE newstate %x\n", - __func__, dch->state); + "%s: S/T TE newstate %x\n", + __func__, dch->state); switch (dch->state) { case (0): l1_event(dch->l1, HW_RESET_IND); @@ -3778,38 +3778,38 @@ ph_state_change(struct dchannel *dch) } else { if (debug & DEBUG_HFCMULTI_STATE) printk(KERN_DEBUG "%s: S/T NT newstate %x\n", - __func__, dch->state); + __func__, dch->state); switch (dch->state) { case (2): if (hc->chan[ch].nt_timer == 0) { hc->chan[ch].nt_timer = -1; HFC_outb(hc, R_ST_SEL, - hc->chan[ch].port); + hc->chan[ch].port); /* undocumented: delay after R_ST_SEL */ udelay(1); HFC_outb(hc, A_ST_WR_STATE, 4 | - V_ST_LD_STA); /* G4 */ + V_ST_LD_STA); /* G4 */ udelay(6); /* wait at least 5,21us */ HFC_outb(hc, A_ST_WR_STATE, 4); dch->state = 4; } else { /* one extra count for the next event */ hc->chan[ch].nt_timer = - nt_t1_count[poll_timer] + 1; + nt_t1_count[poll_timer] + 1; HFC_outb(hc, R_ST_SEL, - hc->chan[ch].port); + hc->chan[ch].port); /* undocumented: delay after R_ST_SEL */ udelay(1); /* allow G2 -> G3 transition */ HFC_outb(hc, A_ST_WR_STATE, 2 | - V_SET_G2_G3); + V_SET_G2_G3); } break; case (1): hc->chan[ch].nt_timer = -1; test_and_clear_bit(FLG_ACTIVE, &dch->Flags); _queue_data(&dch->dev.D, PH_DEACTIVATE_IND, - MISDN_ID_ANY, 0, NULL, GFP_ATOMIC); + MISDN_ID_ANY, 0, NULL, GFP_ATOMIC); break; case (4): hc->chan[ch].nt_timer = -1; @@ -3818,7 +3818,7 @@ ph_state_change(struct dchannel *dch) hc->chan[ch].nt_timer = -1; test_and_set_bit(FLG_ACTIVE, &dch->Flags); _queue_data(&dch->dev.D, PH_ACTIVATE_IND, - MISDN_ID_ANY, 0, NULL, GFP_ATOMIC); + MISDN_ID_ANY, 0, NULL, GFP_ATOMIC); break; } } @@ -3845,7 +3845,7 @@ hfcmulti_initmode(struct dchannel *dch) hc->chan[hc->dslot].conf = -1; if (hc->dslot) { mode_hfcmulti(hc, hc->dslot, dch->dev.D.protocol, - -1, 0, -1, 0); + -1, 0, -1, 0); dch->timer.function = (void *) hfcmulti_dbusy_timer; dch->timer.data = (long) dch; init_timer(&dch->timer); @@ -3887,13 +3887,13 @@ hfcmulti_initmode(struct dchannel *dch) if (dch->dev.D.protocol == ISDN_P_NT_E1) { if (debug & DEBUG_HFCMULTI_INIT) printk(KERN_DEBUG "%s: E1 port is NT-mode\n", - __func__); + __func__); r_e1_wr_sta = 0; /* G0 */ hc->e1_getclock = 0; } else { if (debug & DEBUG_HFCMULTI_INIT) printk(KERN_DEBUG "%s: E1 port is TE-mode\n", - __func__); + __func__); r_e1_wr_sta = 0; /* F0 */ hc->e1_getclock = 1; } @@ -3909,26 +3909,26 @@ hfcmulti_initmode(struct dchannel *dch) /* SLAVE (clock master) */ if (debug & DEBUG_HFCMULTI_INIT) printk(KERN_DEBUG - "%s: E1 port is clock master " - "(clock from PCM)\n", __func__); + "%s: E1 port is clock master " + "(clock from PCM)\n", __func__); HFC_outb(hc, R_SYNC_CTRL, V_EXT_CLK_SYNC | V_PCM_SYNC); } else { if (hc->e1_getclock) { /* MASTER (clock slave) */ if (debug & DEBUG_HFCMULTI_INIT) printk(KERN_DEBUG - "%s: E1 port is clock slave " - "(clock to PCM)\n", __func__); + "%s: E1 port is clock slave " + "(clock to PCM)\n", __func__); HFC_outb(hc, R_SYNC_CTRL, V_SYNC_OFFS); } else { /* MASTER (clock master) */ if (debug & DEBUG_HFCMULTI_INIT) printk(KERN_DEBUG "%s: E1 port is " - "clock master " - "(clock from QUARTZ)\n", - __func__); + "clock master " + "(clock from QUARTZ)\n", + __func__); HFC_outb(hc, R_SYNC_CTRL, V_EXT_CLK_SYNC | - V_PCM_SYNC | V_JATT_OFF); + V_PCM_SYNC | V_JATT_OFF); HFC_outb(hc, R_SYNC_OUT, 0); } } @@ -3970,8 +3970,8 @@ hfcmulti_initmode(struct dchannel *dch) if (dch->dev.D.protocol == ISDN_P_NT_S0) { if (debug & DEBUG_HFCMULTI_INIT) printk(KERN_DEBUG - "%s: ST port %d is NT-mode\n", - __func__, pt); + "%s: ST port %d is NT-mode\n", + __func__, pt); /* clock delay */ HFC_outb(hc, A_ST_CLK_DLY, clockdelay_nt); a_st_wr_state = 1; /* G1 */ @@ -3979,8 +3979,8 @@ hfcmulti_initmode(struct dchannel *dch) } else { if (debug & DEBUG_HFCMULTI_INIT) printk(KERN_DEBUG - "%s: ST port %d is TE-mode\n", - __func__, pt); + "%s: ST port %d is TE-mode\n", + __func__, pt); /* clock delay */ HFC_outb(hc, A_ST_CLK_DLY, clockdelay_te); a_st_wr_state = 2; /* F2 */ @@ -3991,7 +3991,7 @@ hfcmulti_initmode(struct dchannel *dch) if (hc->ctype == HFC_TYPE_XHFC) { hc->hw.a_st_ctrl0[pt] |= 0x40 /* V_ST_PU_CTRL */; HFC_outb(hc, 0x35 /* A_ST_CTRL3 */, - 0x7c << 1 /* V_ST_PULSE */); + 0x7c << 1 /* V_ST_PULSE */); } /* line setup */ HFC_outb(hc, A_ST_CTRL0, hc->hw.a_st_ctrl0[pt]); @@ -4013,7 +4013,7 @@ hfcmulti_initmode(struct dchannel *dch) /* unset sync on port */ if (test_bit(HFC_CHIP_PLXSD, &hc->chip)) { hc->syncronized &= - ~(1 << hc->chan[dch->slot].port); + ~(1 << hc->chan[dch->slot].port); plxsd_checksync(hc, 0); } } @@ -4024,21 +4024,21 @@ hfcmulti_initmode(struct dchannel *dch) static int open_dchannel(struct hfc_multi *hc, struct dchannel *dch, - struct channel_req *rq) + struct channel_req *rq) { int err = 0; u_long flags; if (debug & DEBUG_HW_OPEN) printk(KERN_DEBUG "%s: dev(%d) open from %p\n", __func__, - dch->dev.id, __builtin_return_address(0)); + dch->dev.id, __builtin_return_address(0)); if (rq->protocol == ISDN_P_NONE) return -EINVAL; if ((dch->dev.D.protocol != ISDN_P_NONE) && (dch->dev.D.protocol != rq->protocol)) { if (debug & DEBUG_HFCMULTI_MODE) printk(KERN_DEBUG "%s: change protocol %x to %x\n", - __func__, dch->dev.D.protocol, rq->protocol); + __func__, dch->dev.D.protocol, rq->protocol); } if ((dch->dev.D.protocol == ISDN_P_TE_S0) && (rq->protocol != ISDN_P_TE_S0)) @@ -4060,7 +4060,7 @@ open_dchannel(struct hfc_multi *hc, struct dchannel *dch, ((rq->protocol == ISDN_P_NT_E1) && (dch->state == 1)) || ((rq->protocol == ISDN_P_TE_E1) && (dch->state == 1))) { _queue_data(&dch->dev.D, PH_ACTIVATE_IND, MISDN_ID_ANY, - 0, NULL, GFP_KERNEL); + 0, NULL, GFP_KERNEL); } rq->ch = &dch->dev.D; if (!try_module_get(THIS_MODULE)) @@ -4070,7 +4070,7 @@ open_dchannel(struct hfc_multi *hc, struct dchannel *dch, static int open_bchannel(struct hfc_multi *hc, struct dchannel *dch, - struct channel_req *rq) + struct channel_req *rq) { struct bchannel *bch; int ch; @@ -4086,7 +4086,7 @@ open_bchannel(struct hfc_multi *hc, struct dchannel *dch, bch = hc->chan[ch].bch; if (!bch) { printk(KERN_ERR "%s:internal error ch %d has no bch\n", - __func__, ch); + __func__, ch); return -EINVAL; } if (test_and_set_bit(FLG_OPEN, &bch->Flags)) @@ -4119,8 +4119,8 @@ channel_dctrl(struct dchannel *dch, struct mISDN_ctrl_req *cq) wd_mode = !!(cq->p1 >> 4); if (debug & DEBUG_HFCMULTI_MSG) printk(KERN_DEBUG "%s: MISDN_CTRL_HFC_WD_INIT mode %s" - ", counter 0x%x\n", __func__, - wd_mode ? "AUTO" : "MANUAL", wd_cnt); + ", counter 0x%x\n", __func__, + wd_mode ? "AUTO" : "MANUAL", wd_cnt); /* set the watchdog timer */ HFC_outb(hc, R_TI_WD, poll_timer | (wd_cnt << 4)); hc->hw.r_bert_wd_md = (wd_mode ? V_AUTO_WD_RES : 0); @@ -4139,12 +4139,12 @@ channel_dctrl(struct dchannel *dch, struct mISDN_ctrl_req *cq) case MISDN_CTRL_HFC_WD_RESET: /* reset the watchdog counter */ if (debug & DEBUG_HFCMULTI_MSG) printk(KERN_DEBUG "%s: MISDN_CTRL_HFC_WD_RESET\n", - __func__); + __func__); HFC_outb(hc, R_BERT_WD_MD, hc->hw.r_bert_wd_md | V_WD_RES); break; default: printk(KERN_WARNING "%s: unknown Op %x\n", - __func__, cq->op); + __func__, cq->op); ret = -EINVAL; break; } @@ -4163,7 +4163,7 @@ hfcm_dctrl(struct mISDNchannel *ch, u_int cmd, void *arg) if (dch->debug & DEBUG_HW) printk(KERN_DEBUG "%s: cmd:%x %p\n", - __func__, cmd, arg); + __func__, cmd, arg); switch (cmd) { case OPEN_CHANNEL: rq = arg; @@ -4193,8 +4193,8 @@ hfcm_dctrl(struct mISDNchannel *ch, u_int cmd, void *arg) case CLOSE_CHANNEL: if (debug & DEBUG_HW_OPEN) printk(KERN_DEBUG "%s: dev(%d) close from %p\n", - __func__, dch->dev.id, - __builtin_return_address(0)); + __func__, dch->dev.id, + __builtin_return_address(0)); module_put(THIS_MODULE); break; case CONTROL_CHANNEL: @@ -4205,7 +4205,7 @@ hfcm_dctrl(struct mISDNchannel *ch, u_int cmd, void *arg) default: if (dch->debug & DEBUG_HW) printk(KERN_DEBUG "%s: unknown command %x\n", - __func__, cmd); + __func__, cmd); err = -EINVAL; } return err; @@ -4246,9 +4246,9 @@ init_card(struct hfc_multi *hc) spin_unlock_irqrestore(&hc->lock, flags); if (request_irq(hc->irq, hfcmulti_interrupt, IRQF_SHARED, - "HFC-multi", hc)) { + "HFC-multi", hc)) { printk(KERN_WARNING "mISDN: Could not get interrupt %d.\n", - hc->irq); + hc->irq); hc->irq = 0; return -EIO; } @@ -4257,13 +4257,13 @@ init_card(struct hfc_multi *hc) spin_lock_irqsave(&plx_lock, plx_flags); plx_acc = hc->plx_membase + PLX_INTCSR; writew((PLX_INTCSR_PCIINT_ENABLE | PLX_INTCSR_LINTI1_ENABLE), - plx_acc); /* enable PCI & LINT1 irq */ + plx_acc); /* enable PCI & LINT1 irq */ spin_unlock_irqrestore(&plx_lock, plx_flags); } if (debug & DEBUG_HFCMULTI_INIT) printk(KERN_DEBUG "%s: IRQ %d count %d\n", - __func__, hc->irq, hc->irqcnt); + __func__, hc->irq, hc->irqcnt); err = init_chip(hc); if (err) goto error; @@ -4277,14 +4277,14 @@ init_card(struct hfc_multi *hc) spin_unlock_irqrestore(&hc->lock, flags); /* printk(KERN_DEBUG "no master irq set!!!\n"); */ set_current_state(TASK_UNINTERRUPTIBLE); - schedule_timeout((100*HZ)/1000); /* Timeout 100ms */ + schedule_timeout((100 * HZ) / 1000); /* Timeout 100ms */ /* turn IRQ off until chip is completely initialized */ spin_lock_irqsave(&hc->lock, flags); disable_hwirq(hc); spin_unlock_irqrestore(&hc->lock, flags); if (debug & DEBUG_HFCMULTI_INIT) printk(KERN_DEBUG "%s: IRQ %d count %d\n", - __func__, hc->irq, hc->irqcnt); + __func__, hc->irq, hc->irqcnt); if (hc->irqcnt) { if (debug & DEBUG_HFCMULTI_INIT) printk(KERN_DEBUG "%s: done\n", __func__); @@ -4297,7 +4297,7 @@ init_card(struct hfc_multi *hc) } printk(KERN_ERR "HFC PCI: IRQ(%d) getting no interrupts during init.\n", - hc->irq); + hc->irq); err = -EIO; @@ -4327,13 +4327,13 @@ error: static int setup_pci(struct hfc_multi *hc, struct pci_dev *pdev, - const struct pci_device_id *ent) + const struct pci_device_id *ent) { struct hm_map *m = (struct hm_map *)ent->driver_data; printk(KERN_INFO - "HFC-multi: card manufacturer: '%s' card name: '%s' clock: %s\n", - m->vendor_name, m->card_name, m->clock2 ? "double" : "normal"); + "HFC-multi: card manufacturer: '%s' card name: '%s' clock: %s\n", + m->vendor_name, m->card_name, m->clock2 ? "double" : "normal"); hc->pci_dev = pdev; if (m->clock2) @@ -4380,7 +4380,7 @@ setup_pci(struct hfc_multi *hc, struct pci_dev *pdev, if (!hc->plx_origmembase) { printk(KERN_WARNING - "HFC-multi: No IO-Memory for PCI PLX bridge found\n"); + "HFC-multi: No IO-Memory for PCI PLX bridge found\n"); pci_disable_device(hc->pci_dev); return -EIO; } @@ -4388,20 +4388,20 @@ setup_pci(struct hfc_multi *hc, struct pci_dev *pdev, hc->plx_membase = ioremap(hc->plx_origmembase, 0x80); if (!hc->plx_membase) { printk(KERN_WARNING - "HFC-multi: failed to remap plx address space. " - "(internal error)\n"); + "HFC-multi: failed to remap plx address space. " + "(internal error)\n"); pci_disable_device(hc->pci_dev); return -EIO; } printk(KERN_INFO - "HFC-multi: plx_membase:%#lx plx_origmembase:%#lx\n", - (u_long)hc->plx_membase, hc->plx_origmembase); + "HFC-multi: plx_membase:%#lx plx_origmembase:%#lx\n", + (u_long)hc->plx_membase, hc->plx_origmembase); hc->pci_origmembase = hc->pci_dev->resource[2].start; - /* MEMBASE 1 is PLX PCI Bridge */ + /* MEMBASE 1 is PLX PCI Bridge */ if (!hc->pci_origmembase) { printk(KERN_WARNING - "HFC-multi: No IO-Memory for PCI card found\n"); + "HFC-multi: No IO-Memory for PCI card found\n"); pci_disable_device(hc->pci_dev); return -EIO; } @@ -4409,16 +4409,16 @@ setup_pci(struct hfc_multi *hc, struct pci_dev *pdev, hc->pci_membase = ioremap(hc->pci_origmembase, 0x400); if (!hc->pci_membase) { printk(KERN_WARNING "HFC-multi: failed to remap io " - "address space. (internal error)\n"); + "address space. (internal error)\n"); pci_disable_device(hc->pci_dev); return -EIO; } printk(KERN_INFO - "card %d: defined at MEMBASE %#lx (%#lx) IRQ %d HZ %d " - "leds-type %d\n", - hc->id, (u_long)hc->pci_membase, hc->pci_origmembase, - hc->pci_dev->irq, HZ, hc->leds); + "card %d: defined at MEMBASE %#lx (%#lx) IRQ %d HZ %d " + "leds-type %d\n", + hc->id, (u_long)hc->pci_membase, hc->pci_origmembase, + hc->pci_dev->irq, HZ, hc->leds); pci_write_config_word(hc->pci_dev, PCI_COMMAND, PCI_ENA_MEMIO); break; case HFC_IO_MODE_PCIMEM: @@ -4431,7 +4431,7 @@ setup_pci(struct hfc_multi *hc, struct pci_dev *pdev, hc->pci_origmembase = hc->pci_dev->resource[1].start; if (!hc->pci_origmembase) { printk(KERN_WARNING - "HFC-multi: No IO-Memory for PCI card found\n"); + "HFC-multi: No IO-Memory for PCI card found\n"); pci_disable_device(hc->pci_dev); return -EIO; } @@ -4439,14 +4439,14 @@ setup_pci(struct hfc_multi *hc, struct pci_dev *pdev, hc->pci_membase = ioremap(hc->pci_origmembase, 256); if (!hc->pci_membase) { printk(KERN_WARNING - "HFC-multi: failed to remap io address space. " - "(internal error)\n"); + "HFC-multi: failed to remap io address space. " + "(internal error)\n"); pci_disable_device(hc->pci_dev); return -EIO; } printk(KERN_INFO "card %d: defined at MEMBASE %#lx (%#lx) IRQ " - "%d HZ %d leds-type %d\n", hc->id, (u_long)hc->pci_membase, - hc->pci_origmembase, hc->pci_dev->irq, HZ, hc->leds); + "%d HZ %d leds-type %d\n", hc->id, (u_long)hc->pci_membase, + hc->pci_origmembase, hc->pci_dev->irq, HZ, hc->leds); pci_write_config_word(hc->pci_dev, PCI_COMMAND, PCI_ENA_MEMIO); break; case HFC_IO_MODE_REGIO: @@ -4459,23 +4459,23 @@ setup_pci(struct hfc_multi *hc, struct pci_dev *pdev, hc->pci_iobase = (u_int) hc->pci_dev->resource[0].start; if (!hc->pci_iobase) { printk(KERN_WARNING - "HFC-multi: No IO for PCI card found\n"); + "HFC-multi: No IO for PCI card found\n"); pci_disable_device(hc->pci_dev); return -EIO; } if (!request_region(hc->pci_iobase, 8, "hfcmulti")) { printk(KERN_WARNING "HFC-multi: failed to request " - "address space at 0x%08lx (internal error)\n", - hc->pci_iobase); + "address space at 0x%08lx (internal error)\n", + hc->pci_iobase); pci_disable_device(hc->pci_dev); return -EIO; } printk(KERN_INFO - "%s %s: defined at IOBASE %#x IRQ %d HZ %d leds-type %d\n", - m->vendor_name, m->card_name, (u_int) hc->pci_iobase, - hc->pci_dev->irq, HZ, hc->leds); + "%s %s: defined at IOBASE %#x IRQ %d HZ %d leds-type %d\n", + m->vendor_name, m->card_name, (u_int) hc->pci_iobase, + hc->pci_dev->irq, HZ, hc->leds); pci_write_config_word(hc->pci_dev, PCI_COMMAND, PCI_ENA_REGIO); break; default: @@ -4508,17 +4508,17 @@ release_port(struct hfc_multi *hc, struct dchannel *dch) if (debug & DEBUG_HFCMULTI_INIT) printk(KERN_DEBUG "%s: entered for port %d\n", - __func__, pt + 1); + __func__, pt + 1); if (pt >= hc->ports) { printk(KERN_WARNING "%s: ERROR port out of range (%d).\n", - __func__, pt + 1); + __func__, pt + 1); return; } if (debug & DEBUG_HFCMULTI_INIT) printk(KERN_DEBUG "%s: releasing port=%d\n", - __func__, pt + 1); + __func__, pt + 1); if (dch->dev.D.protocol == ISDN_P_TE_S0) l1_event(dch->l1, CLOSE_CHANNEL); @@ -4548,8 +4548,8 @@ release_port(struct hfc_multi *hc, struct dchannel *dch) if (hc->chan[i].bch) { if (debug & DEBUG_HFCMULTI_INIT) printk(KERN_DEBUG - "%s: free port %d channel %d\n", - __func__, hc->chan[i].port+1, i); + "%s: free port %d channel %d\n", + __func__, hc->chan[i].port + 1, i); pb = hc->chan[i].bch; hc->chan[i].bch = NULL; spin_unlock_irqrestore(&hc->lock, flags); @@ -4563,16 +4563,16 @@ release_port(struct hfc_multi *hc, struct dchannel *dch) /* remove sync */ if (test_bit(HFC_CHIP_PLXSD, &hc->chip)) { hc->syncronized &= - ~(1 << hc->chan[ci].port); + ~(1 << hc->chan[ci].port); plxsd_checksync(hc, 1); } /* free channels */ if (hc->chan[ci - 2].bch) { if (debug & DEBUG_HFCMULTI_INIT) printk(KERN_DEBUG - "%s: free port %d channel %d\n", - __func__, hc->chan[ci - 2].port+1, - ci - 2); + "%s: free port %d channel %d\n", + __func__, hc->chan[ci - 2].port + 1, + ci - 2); pb = hc->chan[ci - 2].bch; hc->chan[ci - 2].bch = NULL; spin_unlock_irqrestore(&hc->lock, flags); @@ -4584,9 +4584,9 @@ release_port(struct hfc_multi *hc, struct dchannel *dch) if (hc->chan[ci - 1].bch) { if (debug & DEBUG_HFCMULTI_INIT) printk(KERN_DEBUG - "%s: free port %d channel %d\n", - __func__, hc->chan[ci - 1].port+1, - ci - 1); + "%s: free port %d channel %d\n", + __func__, hc->chan[ci - 1].port + 1, + ci - 1); pb = hc->chan[ci - 1].bch; hc->chan[ci - 1].bch = NULL; spin_unlock_irqrestore(&hc->lock, flags); @@ -4616,7 +4616,7 @@ release_card(struct hfc_multi *hc) if (debug & DEBUG_HFCMULTI_INIT) printk(KERN_DEBUG "%s: release card (%d) entered\n", - __func__, hc->id); + __func__, hc->id); /* unregister clock source */ if (hc->iclock) @@ -4635,7 +4635,7 @@ release_card(struct hfc_multi *hc) /* disable D-channels & B-channels */ if (debug & DEBUG_HFCMULTI_INIT) printk(KERN_DEBUG "%s: disable all channels (d and b)\n", - __func__); + __func__); for (ch = 0; ch <= 31; ch++) { if (hc->chan[ch].dch) release_port(hc, hc->chan[ch].dch); @@ -4645,7 +4645,7 @@ release_card(struct hfc_multi *hc) if (hc->irq) { if (debug & DEBUG_HFCMULTI_INIT) printk(KERN_DEBUG "%s: free irq %d\n", - __func__, hc->irq); + __func__, hc->irq); free_irq(hc->irq, hc); hc->irq = 0; @@ -4654,7 +4654,7 @@ release_card(struct hfc_multi *hc) if (debug & DEBUG_HFCMULTI_INIT) printk(KERN_DEBUG "%s: remove instance from list\n", - __func__); + __func__); list_del(&hc->list); if (debug & DEBUG_HFCMULTI_INIT) @@ -4664,7 +4664,7 @@ release_card(struct hfc_multi *hc) kfree(hc); if (debug & DEBUG_HFCMULTI_INIT) printk(KERN_DEBUG "%s: card successfully removed\n", - __func__); + __func__); } static int @@ -4683,7 +4683,7 @@ init_e1_port(struct hfc_multi *hc, struct hm_map *m) dch->hw = hc; dch->dev.Dprotocols = (1 << ISDN_P_TE_E1) | (1 << ISDN_P_NT_E1); dch->dev.Bprotocols = (1 << (ISDN_P_B_RAW & ISDN_P_B_MASK)) | - (1 << (ISDN_P_B_HDLC & ISDN_P_B_MASK)); + (1 << (ISDN_P_B_HDLC & ISDN_P_B_MASK)); dch->dev.D.send = handle_dmsg; dch->dev.D.ctrl = hfcm_dctrl; dch->dev.nrbchan = (hc->dslot) ? 30 : 31; @@ -4697,14 +4697,14 @@ init_e1_port(struct hfc_multi *hc, struct hm_map *m) bch = kzalloc(sizeof(struct bchannel), GFP_KERNEL); if (!bch) { printk(KERN_ERR "%s: no memory for bchannel\n", - __func__); + __func__); ret = -ENOMEM; goto free_chan; } hc->chan[ch].coeff = kzalloc(512, GFP_KERNEL); if (!hc->chan[ch].coeff) { printk(KERN_ERR "%s: no memory for coeffs\n", - __func__); + __func__); ret = -ENOMEM; kfree(bch); goto free_chan; @@ -4726,93 +4726,93 @@ init_e1_port(struct hfc_multi *hc, struct hm_map *m) if (port[Port_cnt] & 0x001) { if (!m->opticalsupport) { printk(KERN_INFO - "This board has no optical " - "support\n"); + "This board has no optical " + "support\n"); } else { if (debug & DEBUG_HFCMULTI_INIT) printk(KERN_DEBUG - "%s: PORT set optical " - "interfacs: card(%d) " - "port(%d)\n", - __func__, - HFC_cnt + 1, 1); + "%s: PORT set optical " + "interfacs: card(%d) " + "port(%d)\n", + __func__, + HFC_cnt + 1, 1); test_and_set_bit(HFC_CFG_OPTICAL, - &hc->chan[hc->dslot].cfg); + &hc->chan[hc->dslot].cfg); } } /* set LOS report */ if (port[Port_cnt] & 0x004) { if (debug & DEBUG_HFCMULTI_INIT) printk(KERN_DEBUG "%s: PORT set " - "LOS report: card(%d) port(%d)\n", - __func__, HFC_cnt + 1, 1); + "LOS report: card(%d) port(%d)\n", + __func__, HFC_cnt + 1, 1); test_and_set_bit(HFC_CFG_REPORT_LOS, - &hc->chan[hc->dslot].cfg); + &hc->chan[hc->dslot].cfg); } /* set AIS report */ if (port[Port_cnt] & 0x008) { if (debug & DEBUG_HFCMULTI_INIT) printk(KERN_DEBUG "%s: PORT set " - "AIS report: card(%d) port(%d)\n", - __func__, HFC_cnt + 1, 1); + "AIS report: card(%d) port(%d)\n", + __func__, HFC_cnt + 1, 1); test_and_set_bit(HFC_CFG_REPORT_AIS, - &hc->chan[hc->dslot].cfg); + &hc->chan[hc->dslot].cfg); } /* set SLIP report */ if (port[Port_cnt] & 0x010) { if (debug & DEBUG_HFCMULTI_INIT) printk(KERN_DEBUG - "%s: PORT set SLIP report: " - "card(%d) port(%d)\n", - __func__, HFC_cnt + 1, 1); + "%s: PORT set SLIP report: " + "card(%d) port(%d)\n", + __func__, HFC_cnt + 1, 1); test_and_set_bit(HFC_CFG_REPORT_SLIP, - &hc->chan[hc->dslot].cfg); + &hc->chan[hc->dslot].cfg); } /* set RDI report */ if (port[Port_cnt] & 0x020) { if (debug & DEBUG_HFCMULTI_INIT) printk(KERN_DEBUG - "%s: PORT set RDI report: " - "card(%d) port(%d)\n", - __func__, HFC_cnt + 1, 1); + "%s: PORT set RDI report: " + "card(%d) port(%d)\n", + __func__, HFC_cnt + 1, 1); test_and_set_bit(HFC_CFG_REPORT_RDI, - &hc->chan[hc->dslot].cfg); + &hc->chan[hc->dslot].cfg); } /* set CRC-4 Mode */ if (!(port[Port_cnt] & 0x100)) { if (debug & DEBUG_HFCMULTI_INIT) printk(KERN_DEBUG "%s: PORT turn on CRC4 report:" - " card(%d) port(%d)\n", - __func__, HFC_cnt + 1, 1); + " card(%d) port(%d)\n", + __func__, HFC_cnt + 1, 1); test_and_set_bit(HFC_CFG_CRC4, - &hc->chan[hc->dslot].cfg); + &hc->chan[hc->dslot].cfg); } else { if (debug & DEBUG_HFCMULTI_INIT) printk(KERN_DEBUG "%s: PORT turn off CRC4" - " report: card(%d) port(%d)\n", - __func__, HFC_cnt + 1, 1); + " report: card(%d) port(%d)\n", + __func__, HFC_cnt + 1, 1); } /* set forced clock */ if (port[Port_cnt] & 0x0200) { if (debug & DEBUG_HFCMULTI_INIT) printk(KERN_DEBUG "%s: PORT force getting clock from " - "E1: card(%d) port(%d)\n", - __func__, HFC_cnt + 1, 1); + "E1: card(%d) port(%d)\n", + __func__, HFC_cnt + 1, 1); test_and_set_bit(HFC_CHIP_E1CLOCK_GET, &hc->chip); } else - if (port[Port_cnt] & 0x0400) { - if (debug & DEBUG_HFCMULTI_INIT) - printk(KERN_DEBUG "%s: PORT force putting clock to " - "E1: card(%d) port(%d)\n", - __func__, HFC_cnt + 1, 1); - test_and_set_bit(HFC_CHIP_E1CLOCK_PUT, &hc->chip); - } + if (port[Port_cnt] & 0x0400) { + if (debug & DEBUG_HFCMULTI_INIT) + printk(KERN_DEBUG "%s: PORT force putting clock to " + "E1: card(%d) port(%d)\n", + __func__, HFC_cnt + 1, 1); + test_and_set_bit(HFC_CHIP_E1CLOCK_PUT, &hc->chip); + } /* set JATT PLL */ if (port[Port_cnt] & 0x0800) { if (debug & DEBUG_HFCMULTI_INIT) printk(KERN_DEBUG "%s: PORT disable JATT PLL on " - "E1: card(%d) port(%d)\n", - __func__, HFC_cnt + 1, 1); + "E1: card(%d) port(%d)\n", + __func__, HFC_cnt + 1, 1); test_and_set_bit(HFC_CHIP_RX_SYNC, &hc->chip); } /* set elastic jitter buffer */ @@ -4820,10 +4820,10 @@ init_e1_port(struct hfc_multi *hc, struct hm_map *m) hc->chan[hc->dslot].jitter = (port[Port_cnt]>>12) & 0x3; if (debug & DEBUG_HFCMULTI_INIT) printk(KERN_DEBUG - "%s: PORT set elastic " - "buffer to %d: card(%d) port(%d)\n", - __func__, hc->chan[hc->dslot].jitter, - HFC_cnt + 1, 1); + "%s: PORT set elastic " + "buffer to %d: card(%d) port(%d)\n", + __func__, hc->chan[hc->dslot].jitter, + HFC_cnt + 1, 1); } else hc->chan[hc->dslot].jitter = 2; /* default */ snprintf(name, MISDN_MAX_IDLEN - 1, "hfc-e1.%d", HFC_cnt + 1); @@ -4853,7 +4853,7 @@ init_multi_port(struct hfc_multi *hc, int pt) dch->hw = hc; dch->dev.Dprotocols = (1 << ISDN_P_TE_S0) | (1 << ISDN_P_NT_S0); dch->dev.Bprotocols = (1 << (ISDN_P_B_RAW & ISDN_P_B_MASK)) | - (1 << (ISDN_P_B_HDLC & ISDN_P_B_MASK)); + (1 << (ISDN_P_B_HDLC & ISDN_P_B_MASK)); dch->dev.D.send = handle_dmsg; dch->dev.D.ctrl = hfcm_dctrl; dch->dev.nrbchan = 2; @@ -4866,14 +4866,14 @@ init_multi_port(struct hfc_multi *hc, int pt) bch = kzalloc(sizeof(struct bchannel), GFP_KERNEL); if (!bch) { printk(KERN_ERR "%s: no memory for bchannel\n", - __func__); + __func__); ret = -ENOMEM; goto free_chan; } hc->chan[i + ch].coeff = kzalloc(512, GFP_KERNEL); if (!hc->chan[i + ch].coeff) { printk(KERN_ERR "%s: no memory for coeffs\n", - __func__); + __func__); ret = -ENOMEM; kfree(bch); goto free_chan; @@ -4895,22 +4895,22 @@ init_multi_port(struct hfc_multi *hc, int pt) if (port[Port_cnt] & 0x001) { if (debug & DEBUG_HFCMULTI_INIT) printk(KERN_DEBUG - "%s: PROTOCOL set master clock: " - "card(%d) port(%d)\n", - __func__, HFC_cnt + 1, pt + 1); + "%s: PROTOCOL set master clock: " + "card(%d) port(%d)\n", + __func__, HFC_cnt + 1, pt + 1); if (dch->dev.D.protocol != ISDN_P_TE_S0) { printk(KERN_ERR "Error: Master clock " - "for port(%d) of card(%d) is only" - " possible with TE-mode\n", - pt + 1, HFC_cnt + 1); + "for port(%d) of card(%d) is only" + " possible with TE-mode\n", + pt + 1, HFC_cnt + 1); ret = -EINVAL; goto free_chan; } if (hc->masterclk >= 0) { printk(KERN_ERR "Error: Master clock " - "for port(%d) of card(%d) already " - "defined for port(%d)\n", - pt + 1, HFC_cnt + 1, hc->masterclk+1); + "for port(%d) of card(%d) already " + "defined for port(%d)\n", + pt + 1, HFC_cnt + 1, hc->masterclk + 1); ret = -EINVAL; goto free_chan; } @@ -4920,29 +4920,29 @@ init_multi_port(struct hfc_multi *hc, int pt) if (port[Port_cnt] & 0x002) { if (debug & DEBUG_HFCMULTI_INIT) printk(KERN_DEBUG - "%s: PROTOCOL set non capacitive " - "transmitter: card(%d) port(%d)\n", - __func__, HFC_cnt + 1, pt + 1); + "%s: PROTOCOL set non capacitive " + "transmitter: card(%d) port(%d)\n", + __func__, HFC_cnt + 1, pt + 1); test_and_set_bit(HFC_CFG_NONCAP_TX, - &hc->chan[i + 2].cfg); + &hc->chan[i + 2].cfg); } /* disable E-channel */ if (port[Port_cnt] & 0x004) { if (debug & DEBUG_HFCMULTI_INIT) printk(KERN_DEBUG - "%s: PROTOCOL disable E-channel: " - "card(%d) port(%d)\n", - __func__, HFC_cnt + 1, pt + 1); + "%s: PROTOCOL disable E-channel: " + "card(%d) port(%d)\n", + __func__, HFC_cnt + 1, pt + 1); test_and_set_bit(HFC_CFG_DIS_ECHANNEL, - &hc->chan[i + 2].cfg); + &hc->chan[i + 2].cfg); } if (hc->ctype == HFC_TYPE_XHFC) { snprintf(name, MISDN_MAX_IDLEN - 1, "xhfc.%d-%d", - HFC_cnt + 1, pt + 1); + HFC_cnt + 1, pt + 1); ret = mISDN_register_device(&dch->dev, NULL, name); } else { snprintf(name, MISDN_MAX_IDLEN - 1, "hfc-%ds.%d-%d", - hc->ctype, HFC_cnt + 1, pt + 1); + hc->ctype, HFC_cnt + 1, pt + 1); ret = mISDN_register_device(&dch->dev, &hc->pci_dev->dev, name); } if (ret) @@ -4956,7 +4956,7 @@ free_chan: static int hfcmulti_init(struct hm_map *m, struct pci_dev *pdev, - const struct pci_device_id *ent) + const struct pci_device_id *ent) { int ret_err = 0; int pt; @@ -4967,22 +4967,22 @@ hfcmulti_init(struct hm_map *m, struct pci_dev *pdev, if (HFC_cnt >= MAX_CARDS) { printk(KERN_ERR "too many cards (max=%d).\n", - MAX_CARDS); + MAX_CARDS); return -EINVAL; } if ((type[HFC_cnt] & 0xff) && (type[HFC_cnt] & 0xff) != m->type) { printk(KERN_WARNING "HFC-MULTI: Card '%s:%s' type %d found but " - "type[%d] %d was supplied as module parameter\n", - m->vendor_name, m->card_name, m->type, HFC_cnt, - type[HFC_cnt] & 0xff); + "type[%d] %d was supplied as module parameter\n", + m->vendor_name, m->card_name, m->type, HFC_cnt, + type[HFC_cnt] & 0xff); printk(KERN_WARNING "HFC-MULTI: Load module without parameters " - "first, to see cards and their types."); + "first, to see cards and their types."); return -EINVAL; } if (debug & DEBUG_HFCMULTI_INIT) printk(KERN_DEBUG "%s: Registering %s:%s chip type %d (0x%x)\n", - __func__, m->vendor_name, m->card_name, m->type, - type[HFC_cnt]); + __func__, m->vendor_name, m->card_name, m->type, + type[HFC_cnt]); /* allocate card+fifo structure */ hc = kzalloc(sizeof(struct hfc_multi), GFP_KERNEL); @@ -5000,13 +5000,13 @@ hfcmulti_init(struct hm_map *m, struct pci_dev *pdev, if (dslot[HFC_cnt] < 0 && hc->ctype == HFC_TYPE_E1) { hc->dslot = 0; printk(KERN_INFO "HFC-E1 card has disabled D-channel, but " - "31 B-channels\n"); + "31 B-channels\n"); } if (dslot[HFC_cnt] > 0 && dslot[HFC_cnt] < 32 && hc->ctype == HFC_TYPE_E1) { hc->dslot = dslot[HFC_cnt]; printk(KERN_INFO "HFC-E1 card has alternating D-channel on " - "time slot %d\n", dslot[HFC_cnt]); + "time slot %d\n", dslot[HFC_cnt]); } else hc->dslot = 16; @@ -5019,7 +5019,7 @@ hfcmulti_init(struct hm_map *m, struct pci_dev *pdev, hc->silence = 0x2a; /* alaw silence */ if ((poll >> 1) > sizeof(hc->silence_data)) { printk(KERN_ERR "HFCMULTI error: silence_data too small, " - "please fix\n"); + "please fix\n"); return -EINVAL; } for (i = 0; i < (poll >> 1); i++) @@ -5086,7 +5086,7 @@ hfcmulti_init(struct hm_map *m, struct pci_dev *pdev, for (pt = 0; pt < hc->ports; pt++) { if (Port_cnt >= MAX_PORTS) { printk(KERN_ERR "too many ports (max=%d).\n", - MAX_PORTS); + MAX_PORTS); ret_err = -EINVAL; goto free_card; } @@ -5096,9 +5096,9 @@ hfcmulti_init(struct hm_map *m, struct pci_dev *pdev, ret_err = init_multi_port(hc, pt); if (debug & DEBUG_HFCMULTI_INIT) printk(KERN_DEBUG - "%s: Registering D-channel, card(%d) port(%d)" - "result %d\n", - __func__, HFC_cnt + 1, pt, ret_err); + "%s: Registering D-channel, card(%d) port(%d)" + "result %d\n", + __func__, HFC_cnt + 1, pt, ret_err); if (ret_err) { while (pt) { /* release already registered ports */ @@ -5129,7 +5129,7 @@ hfcmulti_init(struct hm_map *m, struct pci_dev *pdev, pmj = ~pmj & 0xf; printk(KERN_INFO "%s: %s DIPs(0x%x) jumpers(0x%x)\n", - m->vendor_name, m->card_name, dips, pmj); + m->vendor_name, m->card_name, dips, pmj); break; case DIP_8S: /* @@ -5151,16 +5151,16 @@ hfcmulti_init(struct hm_map *m, struct pci_dev *pdev, /* disable PCI auxbridge function */ HFC_outb(hc, R_BRG_PCM_CFG, V_PCM_CLK); printk(KERN_INFO "%s: %s DIPs(0x%x)\n", - m->vendor_name, m->card_name, dips); + m->vendor_name, m->card_name, dips); break; case DIP_E1: /* * get DIP Setting for beroNet E1 cards * DIP Setting: collect GPI 4/5/6/7 (R_GPI_IN0) */ - dips = (~HFC_inb(hc, R_GPI_IN0) & 0xF0)>>4; + dips = (~HFC_inb(hc, R_GPI_IN0) & 0xF0) >> 4; printk(KERN_INFO "%s: %s DIPs(0x%x)\n", - m->vendor_name, m->card_name, dips); + m->vendor_name, m->card_name, dips); break; } @@ -5203,9 +5203,9 @@ static void __devexit hfc_remove_pci(struct pci_dev *pdev) if (debug) printk(KERN_INFO "removing hfc_multi card vendor:%x " - "device:%x subvendor:%x subdevice:%x\n", - pdev->vendor, pdev->device, - pdev->subsystem_vendor, pdev->subsystem_device); + "device:%x subvendor:%x subdevice:%x\n", + pdev->vendor, pdev->device, + pdev->subsystem_vendor, pdev->subsystem_device); if (card) { spin_lock_irqsave(&HFClock, flags); @@ -5214,7 +5214,7 @@ static void __devexit hfc_remove_pci(struct pci_dev *pdev) } else { if (debug) printk(KERN_DEBUG "%s: drvdata already removed\n", - __func__); + __func__); } } @@ -5225,50 +5225,50 @@ static void __devexit hfc_remove_pci(struct pci_dev *pdev) #define VENDOR_PRIM "PrimuX" static const struct hm_map hfcm_map[] = { -/*0*/ {VENDOR_BN, "HFC-1S Card (mini PCI)", 4, 1, 1, 3, 0, DIP_4S, 0, 0}, -/*1*/ {VENDOR_BN, "HFC-2S Card", 4, 2, 1, 3, 0, DIP_4S, 0, 0}, -/*2*/ {VENDOR_BN, "HFC-2S Card (mini PCI)", 4, 2, 1, 3, 0, DIP_4S, 0, 0}, -/*3*/ {VENDOR_BN, "HFC-4S Card", 4, 4, 1, 2, 0, DIP_4S, 0, 0}, -/*4*/ {VENDOR_BN, "HFC-4S Card (mini PCI)", 4, 4, 1, 2, 0, 0, 0, 0}, -/*5*/ {VENDOR_CCD, "HFC-4S Eval (old)", 4, 4, 0, 0, 0, 0, 0, 0}, -/*6*/ {VENDOR_CCD, "HFC-4S IOB4ST", 4, 4, 1, 2, 0, DIP_4S, 0, 0}, -/*7*/ {VENDOR_CCD, "HFC-4S", 4, 4, 1, 2, 0, 0, 0, 0}, -/*8*/ {VENDOR_DIG, "HFC-4S Card", 4, 4, 0, 2, 0, 0, HFC_IO_MODE_REGIO, 0}, -/*9*/ {VENDOR_CCD, "HFC-4S Swyx 4xS0 SX2 QuadBri", 4, 4, 1, 2, 0, 0, 0, 0}, -/*10*/ {VENDOR_JH, "HFC-4S (junghanns 2.0)", 4, 4, 1, 2, 0, 0, 0, 0}, -/*11*/ {VENDOR_PRIM, "HFC-2S Primux Card", 4, 2, 0, 0, 0, 0, 0, 0}, - -/*12*/ {VENDOR_BN, "HFC-8S Card", 8, 8, 1, 0, 0, 0, 0, 0}, -/*13*/ {VENDOR_BN, "HFC-8S Card (+)", 8, 8, 1, 8, 0, DIP_8S, - HFC_IO_MODE_REGIO, 0}, -/*14*/ {VENDOR_CCD, "HFC-8S Eval (old)", 8, 8, 0, 0, 0, 0, 0, 0}, -/*15*/ {VENDOR_CCD, "HFC-8S IOB4ST Recording", 8, 8, 1, 0, 0, 0, 0, 0}, - -/*16*/ {VENDOR_CCD, "HFC-8S IOB8ST", 8, 8, 1, 0, 0, 0, 0, 0}, -/*17*/ {VENDOR_CCD, "HFC-8S", 8, 8, 1, 0, 0, 0, 0, 0}, -/*18*/ {VENDOR_CCD, "HFC-8S", 8, 8, 1, 0, 0, 0, 0, 0}, - -/*19*/ {VENDOR_BN, "HFC-E1 Card", 1, 1, 0, 1, 0, DIP_E1, 0, 0}, -/*20*/ {VENDOR_BN, "HFC-E1 Card (mini PCI)", 1, 1, 0, 1, 0, 0, 0, 0}, -/*21*/ {VENDOR_BN, "HFC-E1+ Card (Dual)", 1, 1, 0, 1, 0, DIP_E1, 0, 0}, -/*22*/ {VENDOR_BN, "HFC-E1 Card (Dual)", 1, 1, 0, 1, 0, DIP_E1, 0, 0}, - -/*23*/ {VENDOR_CCD, "HFC-E1 Eval (old)", 1, 1, 0, 0, 0, 0, 0, 0}, -/*24*/ {VENDOR_CCD, "HFC-E1 IOB1E1", 1, 1, 0, 1, 0, 0, 0, 0}, -/*25*/ {VENDOR_CCD, "HFC-E1", 1, 1, 0, 1, 0, 0, 0, 0}, - -/*26*/ {VENDOR_CCD, "HFC-4S Speech Design", 4, 4, 0, 0, 0, 0, - HFC_IO_MODE_PLXSD, 0}, -/*27*/ {VENDOR_CCD, "HFC-E1 Speech Design", 1, 1, 0, 0, 0, 0, - HFC_IO_MODE_PLXSD, 0}, -/*28*/ {VENDOR_CCD, "HFC-4S OpenVox", 4, 4, 1, 0, 0, 0, 0, 0}, -/*29*/ {VENDOR_CCD, "HFC-2S OpenVox", 4, 2, 1, 0, 0, 0, 0, 0}, -/*30*/ {VENDOR_CCD, "HFC-8S OpenVox", 8, 8, 1, 0, 0, 0, 0, 0}, -/*31*/ {VENDOR_CCD, "XHFC-4S Speech Design", 5, 4, 0, 0, 0, 0, - HFC_IO_MODE_EMBSD, XHFC_IRQ}, -/*32*/ {VENDOR_JH, "HFC-8S (junghanns)", 8, 8, 1, 0, 0, 0, 0, 0}, -/*33*/ {VENDOR_BN, "HFC-2S Beronet Card PCIe", 4, 2, 1, 3, 0, DIP_4S, 0, 0}, -/*34*/ {VENDOR_BN, "HFC-4S Beronet Card PCIe", 4, 4, 1, 2, 0, DIP_4S, 0, 0}, + /*0*/ {VENDOR_BN, "HFC-1S Card (mini PCI)", 4, 1, 1, 3, 0, DIP_4S, 0, 0}, + /*1*/ {VENDOR_BN, "HFC-2S Card", 4, 2, 1, 3, 0, DIP_4S, 0, 0}, + /*2*/ {VENDOR_BN, "HFC-2S Card (mini PCI)", 4, 2, 1, 3, 0, DIP_4S, 0, 0}, + /*3*/ {VENDOR_BN, "HFC-4S Card", 4, 4, 1, 2, 0, DIP_4S, 0, 0}, + /*4*/ {VENDOR_BN, "HFC-4S Card (mini PCI)", 4, 4, 1, 2, 0, 0, 0, 0}, + /*5*/ {VENDOR_CCD, "HFC-4S Eval (old)", 4, 4, 0, 0, 0, 0, 0, 0}, + /*6*/ {VENDOR_CCD, "HFC-4S IOB4ST", 4, 4, 1, 2, 0, DIP_4S, 0, 0}, + /*7*/ {VENDOR_CCD, "HFC-4S", 4, 4, 1, 2, 0, 0, 0, 0}, + /*8*/ {VENDOR_DIG, "HFC-4S Card", 4, 4, 0, 2, 0, 0, HFC_IO_MODE_REGIO, 0}, + /*9*/ {VENDOR_CCD, "HFC-4S Swyx 4xS0 SX2 QuadBri", 4, 4, 1, 2, 0, 0, 0, 0}, + /*10*/ {VENDOR_JH, "HFC-4S (junghanns 2.0)", 4, 4, 1, 2, 0, 0, 0, 0}, + /*11*/ {VENDOR_PRIM, "HFC-2S Primux Card", 4, 2, 0, 0, 0, 0, 0, 0}, + + /*12*/ {VENDOR_BN, "HFC-8S Card", 8, 8, 1, 0, 0, 0, 0, 0}, + /*13*/ {VENDOR_BN, "HFC-8S Card (+)", 8, 8, 1, 8, 0, DIP_8S, + HFC_IO_MODE_REGIO, 0}, + /*14*/ {VENDOR_CCD, "HFC-8S Eval (old)", 8, 8, 0, 0, 0, 0, 0, 0}, + /*15*/ {VENDOR_CCD, "HFC-8S IOB4ST Recording", 8, 8, 1, 0, 0, 0, 0, 0}, + + /*16*/ {VENDOR_CCD, "HFC-8S IOB8ST", 8, 8, 1, 0, 0, 0, 0, 0}, + /*17*/ {VENDOR_CCD, "HFC-8S", 8, 8, 1, 0, 0, 0, 0, 0}, + /*18*/ {VENDOR_CCD, "HFC-8S", 8, 8, 1, 0, 0, 0, 0, 0}, + + /*19*/ {VENDOR_BN, "HFC-E1 Card", 1, 1, 0, 1, 0, DIP_E1, 0, 0}, + /*20*/ {VENDOR_BN, "HFC-E1 Card (mini PCI)", 1, 1, 0, 1, 0, 0, 0, 0}, + /*21*/ {VENDOR_BN, "HFC-E1+ Card (Dual)", 1, 1, 0, 1, 0, DIP_E1, 0, 0}, + /*22*/ {VENDOR_BN, "HFC-E1 Card (Dual)", 1, 1, 0, 1, 0, DIP_E1, 0, 0}, + + /*23*/ {VENDOR_CCD, "HFC-E1 Eval (old)", 1, 1, 0, 0, 0, 0, 0, 0}, + /*24*/ {VENDOR_CCD, "HFC-E1 IOB1E1", 1, 1, 0, 1, 0, 0, 0, 0}, + /*25*/ {VENDOR_CCD, "HFC-E1", 1, 1, 0, 1, 0, 0, 0, 0}, + + /*26*/ {VENDOR_CCD, "HFC-4S Speech Design", 4, 4, 0, 0, 0, 0, + HFC_IO_MODE_PLXSD, 0}, + /*27*/ {VENDOR_CCD, "HFC-E1 Speech Design", 1, 1, 0, 0, 0, 0, + HFC_IO_MODE_PLXSD, 0}, + /*28*/ {VENDOR_CCD, "HFC-4S OpenVox", 4, 4, 1, 0, 0, 0, 0, 0}, + /*29*/ {VENDOR_CCD, "HFC-2S OpenVox", 4, 2, 1, 0, 0, 0, 0, 0}, + /*30*/ {VENDOR_CCD, "HFC-8S OpenVox", 8, 8, 1, 0, 0, 0, 0, 0}, + /*31*/ {VENDOR_CCD, "XHFC-4S Speech Design", 5, 4, 0, 0, 0, 0, + HFC_IO_MODE_EMBSD, XHFC_IRQ}, + /*32*/ {VENDOR_JH, "HFC-8S (junghanns)", 8, 8, 1, 0, 0, 0, 0, 0}, + /*33*/ {VENDOR_BN, "HFC-2S Beronet Card PCIe", 4, 2, 1, 3, 0, DIP_4S, 0, 0}, + /*34*/ {VENDOR_BN, "HFC-4S Beronet Card PCIe", 4, 4, 1, 2, 0, DIP_4S, 0, 0}, }; #undef H @@ -5277,83 +5277,83 @@ static struct pci_device_id hfmultipci_ids[] __devinitdata = { /* Cards with HFC-4S Chip */ { PCI_VENDOR_ID_CCD, PCI_DEVICE_ID_CCD_HFC4S, PCI_VENDOR_ID_CCD, - PCI_SUBDEVICE_ID_CCD_BN1SM, 0, 0, H(0)}, /* BN1S mini PCI */ + PCI_SUBDEVICE_ID_CCD_BN1SM, 0, 0, H(0)}, /* BN1S mini PCI */ { PCI_VENDOR_ID_CCD, PCI_DEVICE_ID_CCD_HFC4S, PCI_VENDOR_ID_CCD, - PCI_SUBDEVICE_ID_CCD_BN2S, 0, 0, H(1)}, /* BN2S */ + PCI_SUBDEVICE_ID_CCD_BN2S, 0, 0, H(1)}, /* BN2S */ { PCI_VENDOR_ID_CCD, PCI_DEVICE_ID_CCD_HFC4S, PCI_VENDOR_ID_CCD, - PCI_SUBDEVICE_ID_CCD_BN2SM, 0, 0, H(2)}, /* BN2S mini PCI */ + PCI_SUBDEVICE_ID_CCD_BN2SM, 0, 0, H(2)}, /* BN2S mini PCI */ { PCI_VENDOR_ID_CCD, PCI_DEVICE_ID_CCD_HFC4S, PCI_VENDOR_ID_CCD, - PCI_SUBDEVICE_ID_CCD_BN4S, 0, 0, H(3)}, /* BN4S */ + PCI_SUBDEVICE_ID_CCD_BN4S, 0, 0, H(3)}, /* BN4S */ { PCI_VENDOR_ID_CCD, PCI_DEVICE_ID_CCD_HFC4S, PCI_VENDOR_ID_CCD, - PCI_SUBDEVICE_ID_CCD_BN4SM, 0, 0, H(4)}, /* BN4S mini PCI */ + PCI_SUBDEVICE_ID_CCD_BN4SM, 0, 0, H(4)}, /* BN4S mini PCI */ { PCI_VENDOR_ID_CCD, PCI_DEVICE_ID_CCD_HFC4S, PCI_VENDOR_ID_CCD, - PCI_DEVICE_ID_CCD_HFC4S, 0, 0, H(5)}, /* Old Eval */ + PCI_DEVICE_ID_CCD_HFC4S, 0, 0, H(5)}, /* Old Eval */ { PCI_VENDOR_ID_CCD, PCI_DEVICE_ID_CCD_HFC4S, PCI_VENDOR_ID_CCD, - PCI_SUBDEVICE_ID_CCD_IOB4ST, 0, 0, H(6)}, /* IOB4ST */ + PCI_SUBDEVICE_ID_CCD_IOB4ST, 0, 0, H(6)}, /* IOB4ST */ { PCI_VENDOR_ID_CCD, PCI_DEVICE_ID_CCD_HFC4S, PCI_VENDOR_ID_CCD, - PCI_SUBDEVICE_ID_CCD_HFC4S, 0, 0, H(7)}, /* 4S */ + PCI_SUBDEVICE_ID_CCD_HFC4S, 0, 0, H(7)}, /* 4S */ { PCI_VENDOR_ID_DIGIUM, PCI_DEVICE_ID_DIGIUM_HFC4S, - PCI_VENDOR_ID_DIGIUM, PCI_DEVICE_ID_DIGIUM_HFC4S, 0, 0, H(8)}, + PCI_VENDOR_ID_DIGIUM, PCI_DEVICE_ID_DIGIUM_HFC4S, 0, 0, H(8)}, { PCI_VENDOR_ID_CCD, PCI_DEVICE_ID_CCD_HFC4S, PCI_VENDOR_ID_CCD, - PCI_SUBDEVICE_ID_CCD_SWYX4S, 0, 0, H(9)}, /* 4S Swyx */ + PCI_SUBDEVICE_ID_CCD_SWYX4S, 0, 0, H(9)}, /* 4S Swyx */ { PCI_VENDOR_ID_CCD, PCI_DEVICE_ID_CCD_HFC4S, PCI_VENDOR_ID_CCD, - PCI_SUBDEVICE_ID_CCD_JH4S20, 0, 0, H(10)}, + PCI_SUBDEVICE_ID_CCD_JH4S20, 0, 0, H(10)}, { PCI_VENDOR_ID_CCD, PCI_DEVICE_ID_CCD_HFC4S, PCI_VENDOR_ID_CCD, - PCI_SUBDEVICE_ID_CCD_PMX2S, 0, 0, H(11)}, /* Primux */ + PCI_SUBDEVICE_ID_CCD_PMX2S, 0, 0, H(11)}, /* Primux */ { PCI_VENDOR_ID_CCD, PCI_DEVICE_ID_CCD_HFC4S, PCI_VENDOR_ID_CCD, - PCI_SUBDEVICE_ID_CCD_OV4S, 0, 0, H(28)}, /* OpenVox 4 */ + PCI_SUBDEVICE_ID_CCD_OV4S, 0, 0, H(28)}, /* OpenVox 4 */ { PCI_VENDOR_ID_CCD, PCI_DEVICE_ID_CCD_HFC4S, PCI_VENDOR_ID_CCD, - PCI_SUBDEVICE_ID_CCD_OV2S, 0, 0, H(29)}, /* OpenVox 2 */ + PCI_SUBDEVICE_ID_CCD_OV2S, 0, 0, H(29)}, /* OpenVox 2 */ { PCI_VENDOR_ID_CCD, PCI_DEVICE_ID_CCD_HFC4S, PCI_VENDOR_ID_CCD, - 0xb761, 0, 0, H(33)}, /* BN2S PCIe */ + 0xb761, 0, 0, H(33)}, /* BN2S PCIe */ { PCI_VENDOR_ID_CCD, PCI_DEVICE_ID_CCD_HFC4S, PCI_VENDOR_ID_CCD, - 0xb762, 0, 0, H(34)}, /* BN4S PCIe */ + 0xb762, 0, 0, H(34)}, /* BN4S PCIe */ /* Cards with HFC-8S Chip */ { PCI_VENDOR_ID_CCD, PCI_DEVICE_ID_CCD_HFC8S, PCI_VENDOR_ID_CCD, - PCI_SUBDEVICE_ID_CCD_BN8S, 0, 0, H(12)}, /* BN8S */ + PCI_SUBDEVICE_ID_CCD_BN8S, 0, 0, H(12)}, /* BN8S */ { PCI_VENDOR_ID_CCD, PCI_DEVICE_ID_CCD_HFC8S, PCI_VENDOR_ID_CCD, - PCI_SUBDEVICE_ID_CCD_BN8SP, 0, 0, H(13)}, /* BN8S+ */ + PCI_SUBDEVICE_ID_CCD_BN8SP, 0, 0, H(13)}, /* BN8S+ */ { PCI_VENDOR_ID_CCD, PCI_DEVICE_ID_CCD_HFC8S, PCI_VENDOR_ID_CCD, - PCI_DEVICE_ID_CCD_HFC8S, 0, 0, H(14)}, /* old Eval */ + PCI_DEVICE_ID_CCD_HFC8S, 0, 0, H(14)}, /* old Eval */ { PCI_VENDOR_ID_CCD, PCI_DEVICE_ID_CCD_HFC8S, PCI_VENDOR_ID_CCD, - PCI_SUBDEVICE_ID_CCD_IOB8STR, 0, 0, H(15)}, /* IOB8ST Recording */ + PCI_SUBDEVICE_ID_CCD_IOB8STR, 0, 0, H(15)}, /* IOB8ST Recording */ { PCI_VENDOR_ID_CCD, PCI_DEVICE_ID_CCD_HFC8S, PCI_VENDOR_ID_CCD, - PCI_SUBDEVICE_ID_CCD_IOB8ST, 0, 0, H(16)}, /* IOB8ST */ + PCI_SUBDEVICE_ID_CCD_IOB8ST, 0, 0, H(16)}, /* IOB8ST */ { PCI_VENDOR_ID_CCD, PCI_DEVICE_ID_CCD_HFC8S, PCI_VENDOR_ID_CCD, - PCI_SUBDEVICE_ID_CCD_IOB8ST_1, 0, 0, H(17)}, /* IOB8ST */ + PCI_SUBDEVICE_ID_CCD_IOB8ST_1, 0, 0, H(17)}, /* IOB8ST */ { PCI_VENDOR_ID_CCD, PCI_DEVICE_ID_CCD_HFC8S, PCI_VENDOR_ID_CCD, - PCI_SUBDEVICE_ID_CCD_HFC8S, 0, 0, H(18)}, /* 8S */ + PCI_SUBDEVICE_ID_CCD_HFC8S, 0, 0, H(18)}, /* 8S */ { PCI_VENDOR_ID_CCD, PCI_DEVICE_ID_CCD_HFC8S, PCI_VENDOR_ID_CCD, - PCI_SUBDEVICE_ID_CCD_OV8S, 0, 0, H(30)}, /* OpenVox 8 */ + PCI_SUBDEVICE_ID_CCD_OV8S, 0, 0, H(30)}, /* OpenVox 8 */ { PCI_VENDOR_ID_CCD, PCI_DEVICE_ID_CCD_HFC8S, PCI_VENDOR_ID_CCD, - PCI_SUBDEVICE_ID_CCD_JH8S, 0, 0, H(32)}, /* Junganns 8S */ + PCI_SUBDEVICE_ID_CCD_JH8S, 0, 0, H(32)}, /* Junganns 8S */ /* Cards with HFC-E1 Chip */ { PCI_VENDOR_ID_CCD, PCI_DEVICE_ID_CCD_HFCE1, PCI_VENDOR_ID_CCD, - PCI_SUBDEVICE_ID_CCD_BNE1, 0, 0, H(19)}, /* BNE1 */ + PCI_SUBDEVICE_ID_CCD_BNE1, 0, 0, H(19)}, /* BNE1 */ { PCI_VENDOR_ID_CCD, PCI_DEVICE_ID_CCD_HFCE1, PCI_VENDOR_ID_CCD, - PCI_SUBDEVICE_ID_CCD_BNE1M, 0, 0, H(20)}, /* BNE1 mini PCI */ + PCI_SUBDEVICE_ID_CCD_BNE1M, 0, 0, H(20)}, /* BNE1 mini PCI */ { PCI_VENDOR_ID_CCD, PCI_DEVICE_ID_CCD_HFCE1, PCI_VENDOR_ID_CCD, - PCI_SUBDEVICE_ID_CCD_BNE1DP, 0, 0, H(21)}, /* BNE1 + (Dual) */ + PCI_SUBDEVICE_ID_CCD_BNE1DP, 0, 0, H(21)}, /* BNE1 + (Dual) */ { PCI_VENDOR_ID_CCD, PCI_DEVICE_ID_CCD_HFCE1, PCI_VENDOR_ID_CCD, - PCI_SUBDEVICE_ID_CCD_BNE1D, 0, 0, H(22)}, /* BNE1 (Dual) */ + PCI_SUBDEVICE_ID_CCD_BNE1D, 0, 0, H(22)}, /* BNE1 (Dual) */ { PCI_VENDOR_ID_CCD, PCI_DEVICE_ID_CCD_HFCE1, PCI_VENDOR_ID_CCD, - PCI_DEVICE_ID_CCD_HFCE1, 0, 0, H(23)}, /* Old Eval */ + PCI_DEVICE_ID_CCD_HFCE1, 0, 0, H(23)}, /* Old Eval */ { PCI_VENDOR_ID_CCD, PCI_DEVICE_ID_CCD_HFCE1, PCI_VENDOR_ID_CCD, - PCI_SUBDEVICE_ID_CCD_IOB1E1, 0, 0, H(24)}, /* IOB1E1 */ + PCI_SUBDEVICE_ID_CCD_IOB1E1, 0, 0, H(24)}, /* IOB1E1 */ { PCI_VENDOR_ID_CCD, PCI_DEVICE_ID_CCD_HFCE1, PCI_VENDOR_ID_CCD, - PCI_SUBDEVICE_ID_CCD_HFCE1, 0, 0, H(25)}, /* E1 */ + PCI_SUBDEVICE_ID_CCD_HFCE1, 0, 0, H(25)}, /* E1 */ { PCI_VENDOR_ID_PLX, PCI_DEVICE_ID_PLX_9030, PCI_VENDOR_ID_CCD, - PCI_SUBDEVICE_ID_CCD_SPD4S, 0, 0, H(26)}, /* PLX PCI Bridge */ + PCI_SUBDEVICE_ID_CCD_SPD4S, 0, 0, H(26)}, /* PLX PCI Bridge */ { PCI_VENDOR_ID_PLX, PCI_DEVICE_ID_PLX_9030, PCI_VENDOR_ID_CCD, - PCI_SUBDEVICE_ID_CCD_SPDE1, 0, 0, H(27)}, /* PLX PCI Bridge */ + PCI_SUBDEVICE_ID_CCD_SPDE1, 0, 0, H(27)}, /* PLX PCI Bridge */ { PCI_VENDOR_ID_CCD, PCI_DEVICE_ID_CCD_HFCE1, PCI_VENDOR_ID_CCD, - PCI_SUBDEVICE_ID_CCD_JHSE1, 0, 0, H(25)}, /* Junghanns E1 */ + PCI_SUBDEVICE_ID_CCD_JHSE1, 0, 0, H(25)}, /* Junghanns E1 */ { PCI_VDEVICE(CCD, PCI_DEVICE_ID_CCD_HFC4S), 0 }, { PCI_VDEVICE(CCD, PCI_DEVICE_ID_CCD_HFC8S), 0 }, @@ -5371,16 +5371,16 @@ hfcmulti_probe(struct pci_dev *pdev, const struct pci_device_id *ent) int ret; if (m == NULL && ent->vendor == PCI_VENDOR_ID_CCD && ( - ent->device == PCI_DEVICE_ID_CCD_HFC4S || - ent->device == PCI_DEVICE_ID_CCD_HFC8S || - ent->device == PCI_DEVICE_ID_CCD_HFCE1)) { + ent->device == PCI_DEVICE_ID_CCD_HFC4S || + ent->device == PCI_DEVICE_ID_CCD_HFC8S || + ent->device == PCI_DEVICE_ID_CCD_HFCE1)) { printk(KERN_ERR - "Unknown HFC multiport controller (vendor:%04x device:%04x " - "subvendor:%04x subdevice:%04x)\n", pdev->vendor, - pdev->device, pdev->subsystem_vendor, - pdev->subsystem_device); + "Unknown HFC multiport controller (vendor:%04x device:%04x " + "subvendor:%04x subdevice:%04x)\n", pdev->vendor, + pdev->device, pdev->subsystem_vendor, + pdev->subsystem_device); printk(KERN_ERR - "Please contact the driver maintainer for support.\n"); + "Please contact the driver maintainer for support.\n"); return -ENODEV; } ret = hfcmulti_init(m, pdev, ent); @@ -5453,7 +5453,7 @@ HFCmulti_init(void) break; default: printk(KERN_ERR - "%s: Wrong poll value (%d).\n", __func__, poll); + "%s: Wrong poll value (%d).\n", __func__, poll); err = -EINVAL; return err; @@ -5485,7 +5485,7 @@ HFCmulti_init(void) err = hfcmulti_init(&m, NULL, NULL); if (err) { printk(KERN_ERR "error registering embedded driver: " - "%x\n", err); + "%x\n", err); return err; } HFC_cnt++; |