diff options
author | Karsten Keil <kkeil@suse.de> | 2008-07-26 20:00:43 -0400 |
---|---|---|
committer | Karsten Keil <kkeil@suse.de> | 2008-07-26 20:00:43 -0400 |
commit | af69fb3a8ffa37e986db00ed93099dc44babeef4 (patch) | |
tree | 63354d4ae8b0d6e08f3f550e55cb6c4ccc548bd3 /drivers/isdn | |
parent | 1700fe1a10dc0eaac0ef60a8093eaeafa9bff9ae (diff) |
Add mISDN HFC multiport driver
Enable support for cards with Cologne Chip AG's HFC multiport
chip.
Signed-off-by: Karsten Keil <kkeil@suse.de>
Diffstat (limited to 'drivers/isdn')
-rw-r--r-- | drivers/isdn/hardware/mISDN/Kconfig | 12 | ||||
-rw-r--r-- | drivers/isdn/hardware/mISDN/Makefile | 1 | ||||
-rw-r--r-- | drivers/isdn/hardware/mISDN/hfc_multi.h | 1204 | ||||
-rw-r--r-- | drivers/isdn/hardware/mISDN/hfcmulti.c | 5320 |
4 files changed, 6537 insertions, 0 deletions
diff --git a/drivers/isdn/hardware/mISDN/Kconfig b/drivers/isdn/hardware/mISDN/Kconfig index f62dc8752be9..14793480c453 100644 --- a/drivers/isdn/hardware/mISDN/Kconfig +++ b/drivers/isdn/hardware/mISDN/Kconfig | |||
@@ -11,3 +11,15 @@ config MISDN_HFCPCI | |||
11 | Enable support for cards with Cologne Chip AG's | 11 | Enable support for cards with Cologne Chip AG's |
12 | HFC PCI chip. | 12 | HFC PCI chip. |
13 | 13 | ||
14 | config MISDN_HFCMULTI | ||
15 | tristate "Support for HFC multiport cards (HFC-4S/8S/E1)" | ||
16 | depends on PCI | ||
17 | depends on MISDN | ||
18 | help | ||
19 | Enable support for cards with Cologne Chip AG's HFC multiport | ||
20 | chip. There are three types of chips that are quite similar, | ||
21 | but the interface is different: | ||
22 | * HFC-4S (4 S/T interfaces on one chip) | ||
23 | * HFC-8S (8 S/T interfaces on one chip) | ||
24 | * HFC-E1 (E1 interface for 2Mbit ISDN) | ||
25 | |||
diff --git a/drivers/isdn/hardware/mISDN/Makefile b/drivers/isdn/hardware/mISDN/Makefile index 6f20a40b9d54..1e7ca5332ad7 100644 --- a/drivers/isdn/hardware/mISDN/Makefile +++ b/drivers/isdn/hardware/mISDN/Makefile | |||
@@ -4,3 +4,4 @@ | |||
4 | # | 4 | # |
5 | 5 | ||
6 | obj-$(CONFIG_MISDN_HFCPCI) += hfcpci.o | 6 | obj-$(CONFIG_MISDN_HFCPCI) += hfcpci.o |
7 | obj-$(CONFIG_MISDN_HFCMULTI) += hfcmulti.o | ||
diff --git a/drivers/isdn/hardware/mISDN/hfc_multi.h b/drivers/isdn/hardware/mISDN/hfc_multi.h new file mode 100644 index 000000000000..a33d87afc843 --- /dev/null +++ b/drivers/isdn/hardware/mISDN/hfc_multi.h | |||
@@ -0,0 +1,1204 @@ | |||
1 | /* | ||
2 | * see notice in hfc_multi.c | ||
3 | */ | ||
4 | |||
5 | extern void ztdummy_extern_interrupt(void); | ||
6 | extern void ztdummy_register_interrupt(void); | ||
7 | extern int ztdummy_unregister_interrupt(void); | ||
8 | |||
9 | #define DEBUG_HFCMULTI_FIFO 0x00010000 | ||
10 | #define DEBUG_HFCMULTI_CRC 0x00020000 | ||
11 | #define DEBUG_HFCMULTI_INIT 0x00040000 | ||
12 | #define DEBUG_HFCMULTI_PLXSD 0x00080000 | ||
13 | #define DEBUG_HFCMULTI_MODE 0x00100000 | ||
14 | #define DEBUG_HFCMULTI_MSG 0x00200000 | ||
15 | #define DEBUG_HFCMULTI_STATE 0x00400000 | ||
16 | #define DEBUG_HFCMULTI_SYNC 0x01000000 | ||
17 | #define DEBUG_HFCMULTI_DTMF 0x02000000 | ||
18 | #define DEBUG_HFCMULTI_LOCK 0x80000000 | ||
19 | |||
20 | #define PCI_ENA_REGIO 0x01 | ||
21 | #define PCI_ENA_MEMIO 0x02 | ||
22 | |||
23 | /* | ||
24 | * NOTE: some registers are assigned multiple times due to different modes | ||
25 | * also registers are assigned differen for HFC-4s/8s and HFC-E1 | ||
26 | */ | ||
27 | |||
28 | /* | ||
29 | #define MAX_FRAME_SIZE 2048 | ||
30 | */ | ||
31 | |||
32 | struct hfc_chan { | ||
33 | struct dchannel *dch; /* link if channel is a D-channel */ | ||
34 | struct bchannel *bch; /* link if channel is a B-channel */ | ||
35 | int port; /* the interface port this */ | ||
36 | /* channel is associated with */ | ||
37 | int nt_timer; /* -1 if off, 0 if elapsed, >0 if running */ | ||
38 | int los, ais, slip_tx, slip_rx, rdi; /* current alarms */ | ||
39 | int jitter; | ||
40 | u_long cfg; /* port configuration */ | ||
41 | int sync; /* sync state (used by E1) */ | ||
42 | u_int protocol; /* current protocol */ | ||
43 | int slot_tx; /* current pcm slot */ | ||
44 | int bank_tx; /* current pcm bank */ | ||
45 | int slot_rx; | ||
46 | int bank_rx; | ||
47 | int conf; /* conference setting of TX slot */ | ||
48 | int txpending; /* if there is currently data in */ | ||
49 | /* the FIFO 0=no, 1=yes, 2=splloop */ | ||
50 | int rx_off; /* set to turn fifo receive off */ | ||
51 | int coeff_count; /* curren coeff block */ | ||
52 | s32 *coeff; /* memory pointer to 8 coeff blocks */ | ||
53 | }; | ||
54 | |||
55 | |||
56 | struct hfcm_hw { | ||
57 | u_char r_ctrl; | ||
58 | u_char r_irq_ctrl; | ||
59 | u_char r_cirm; | ||
60 | u_char r_ram_sz; | ||
61 | u_char r_pcm_md0; | ||
62 | u_char r_irqmsk_misc; | ||
63 | u_char r_dtmf; | ||
64 | u_char r_st_sync; | ||
65 | u_char r_sci_msk; | ||
66 | u_char r_tx0, r_tx1; | ||
67 | u_char a_st_ctrl0[8]; | ||
68 | timer_t timer; | ||
69 | }; | ||
70 | |||
71 | |||
72 | /* for each stack these flags are used (cfg) */ | ||
73 | #define HFC_CFG_NONCAP_TX 1 /* S/T TX interface has less capacity */ | ||
74 | #define HFC_CFG_DIS_ECHANNEL 2 /* disable E-channel processing */ | ||
75 | #define HFC_CFG_REG_ECHANNEL 3 /* register E-channel */ | ||
76 | #define HFC_CFG_OPTICAL 4 /* the E1 interface is optical */ | ||
77 | #define HFC_CFG_REPORT_LOS 5 /* the card should report loss of signal */ | ||
78 | #define HFC_CFG_REPORT_AIS 6 /* the card should report alarm ind. sign. */ | ||
79 | #define HFC_CFG_REPORT_SLIP 7 /* the card should report bit slips */ | ||
80 | #define HFC_CFG_REPORT_RDI 8 /* the card should report remote alarm */ | ||
81 | #define HFC_CFG_DTMF 9 /* enable DTMF-detection */ | ||
82 | #define HFC_CFG_CRC4 10 /* disable CRC-4 Multiframe mode, */ | ||
83 | /* use double frame instead. */ | ||
84 | |||
85 | #define HFC_CHIP_EXRAM_128 0 /* external ram 128k */ | ||
86 | #define HFC_CHIP_EXRAM_512 1 /* external ram 256k */ | ||
87 | #define HFC_CHIP_REVISION0 2 /* old fifo handling */ | ||
88 | #define HFC_CHIP_PCM_SLAVE 3 /* PCM is slave */ | ||
89 | #define HFC_CHIP_PCM_MASTER 4 /* PCM is master */ | ||
90 | #define HFC_CHIP_RX_SYNC 5 /* disable pll sync for pcm */ | ||
91 | #define HFC_CHIP_DTMF 6 /* DTMF decoding is enabled */ | ||
92 | #define HFC_CHIP_ULAW 7 /* ULAW mode */ | ||
93 | #define HFC_CHIP_CLOCK2 8 /* double clock mode */ | ||
94 | #define HFC_CHIP_E1CLOCK_GET 9 /* always get clock from E1 interface */ | ||
95 | #define HFC_CHIP_E1CLOCK_PUT 10 /* always put clock from E1 interface */ | ||
96 | #define HFC_CHIP_WATCHDOG 11 /* whether we should send signals */ | ||
97 | /* to the watchdog */ | ||
98 | #define HFC_CHIP_B410P 12 /* whether we have a b410p with echocan in */ | ||
99 | /* hw */ | ||
100 | #define HFC_CHIP_PLXSD 13 /* whether we have a Speech-Design PLX */ | ||
101 | |||
102 | #define HFC_IO_MODE_PCIMEM 0x00 /* normal memory mapped IO */ | ||
103 | #define HFC_IO_MODE_REGIO 0x01 /* PCI io access */ | ||
104 | #define HFC_IO_MODE_PLXSD 0x02 /* access HFC via PLX9030 */ | ||
105 | |||
106 | /* table entry in the PCI devices list */ | ||
107 | struct hm_map { | ||
108 | char *vendor_name; | ||
109 | char *card_name; | ||
110 | int type; | ||
111 | int ports; | ||
112 | int clock2; | ||
113 | int leds; | ||
114 | int opticalsupport; | ||
115 | int dip_type; | ||
116 | int io_mode; | ||
117 | }; | ||
118 | |||
119 | struct hfc_multi { | ||
120 | struct list_head list; | ||
121 | struct hm_map *mtyp; | ||
122 | int id; | ||
123 | int pcm; /* id of pcm bus */ | ||
124 | int type; | ||
125 | int ports; | ||
126 | |||
127 | u_int irq; /* irq used by card */ | ||
128 | u_int irqcnt; | ||
129 | struct pci_dev *pci_dev; | ||
130 | int io_mode; /* selects mode */ | ||
131 | #ifdef HFC_REGISTER_DEBUG | ||
132 | void (*HFC_outb)(struct hfc_multi *hc, u_char reg, | ||
133 | u_char val, const char *function, int line); | ||
134 | void (*HFC_outb_nodebug)(struct hfc_multi *hc, u_char reg, | ||
135 | u_char val, const char *function, int line); | ||
136 | u_char (*HFC_inb)(struct hfc_multi *hc, u_char reg, | ||
137 | const char *function, int line); | ||
138 | u_char (*HFC_inb_nodebug)(struct hfc_multi *hc, u_char reg, | ||
139 | const char *function, int line); | ||
140 | u_short (*HFC_inw)(struct hfc_multi *hc, u_char reg, | ||
141 | const char *function, int line); | ||
142 | u_short (*HFC_inw_nodebug)(struct hfc_multi *hc, u_char reg, | ||
143 | const char *function, int line); | ||
144 | void (*HFC_wait)(struct hfc_multi *hc, | ||
145 | const char *function, int line); | ||
146 | void (*HFC_wait_nodebug)(struct hfc_multi *hc, | ||
147 | const char *function, int line); | ||
148 | #else | ||
149 | void (*HFC_outb)(struct hfc_multi *hc, u_char reg, | ||
150 | u_char val); | ||
151 | void (*HFC_outb_nodebug)(struct hfc_multi *hc, u_char reg, | ||
152 | u_char val); | ||
153 | u_char (*HFC_inb)(struct hfc_multi *hc, u_char reg); | ||
154 | u_char (*HFC_inb_nodebug)(struct hfc_multi *hc, u_char reg); | ||
155 | u_short (*HFC_inw)(struct hfc_multi *hc, u_char reg); | ||
156 | u_short (*HFC_inw_nodebug)(struct hfc_multi *hc, u_char reg); | ||
157 | void (*HFC_wait)(struct hfc_multi *hc); | ||
158 | void (*HFC_wait_nodebug)(struct hfc_multi *hc); | ||
159 | #endif | ||
160 | void (*read_fifo)(struct hfc_multi *hc, u_char *data, | ||
161 | int len); | ||
162 | void (*write_fifo)(struct hfc_multi *hc, u_char *data, | ||
163 | int len); | ||
164 | u_long pci_origmembase, plx_origmembase, dsp_origmembase; | ||
165 | u_char *pci_membase; /* PCI memory (MUST BE BYTE POINTER) */ | ||
166 | u_char *plx_membase; /* PLX memory */ | ||
167 | u_char *dsp_membase; /* DSP on PLX */ | ||
168 | u_long pci_iobase; /* PCI IO */ | ||
169 | struct hfcm_hw hw; /* remember data of write-only-registers */ | ||
170 | |||
171 | u_long chip; /* chip configuration */ | ||
172 | int masterclk; /* port that provides master clock -1=off */ | ||
173 | int dtmf; /* flag that dtmf is currently in process */ | ||
174 | int Flen; /* F-buffer size */ | ||
175 | int Zlen; /* Z-buffer size (must be int for calculation)*/ | ||
176 | int max_trans; /* maximum transparent fifo fill */ | ||
177 | int Zmin; /* Z-buffer offset */ | ||
178 | int DTMFbase; /* base address of DTMF coefficients */ | ||
179 | |||
180 | u_int slots; /* number of PCM slots */ | ||
181 | u_int leds; /* type of leds */ | ||
182 | u_int ledcount; /* used to animate leds */ | ||
183 | u_long ledstate; /* save last state of leds */ | ||
184 | int opticalsupport; /* has the e1 board */ | ||
185 | /* an optical Interface */ | ||
186 | int dslot; /* channel # of d-channel (E1) default 16 */ | ||
187 | |||
188 | u_long wdcount; /* every 500 ms we need to */ | ||
189 | /* send the watchdog a signal */ | ||
190 | u_char wdbyte; /* watchdog toggle byte */ | ||
191 | u_int activity[8]; /* if there is any action on this */ | ||
192 | /* port (will be cleared after */ | ||
193 | /* showing led-states) */ | ||
194 | int e1_state; /* keep track of last state */ | ||
195 | int e1_getclock; /* if sync is retrieved from interface */ | ||
196 | int syncronized; /* keep track of existing sync interface */ | ||
197 | int e1_resync; /* resync jobs */ | ||
198 | |||
199 | spinlock_t lock; /* the lock */ | ||
200 | |||
201 | /* | ||
202 | * the channel index is counted from 0, regardless where the channel | ||
203 | * is located on the hfc-channel. | ||
204 | * the bch->channel is equvalent to the hfc-channel | ||
205 | */ | ||
206 | struct hfc_chan chan[32]; | ||
207 | u_char created[8]; /* what port is created */ | ||
208 | signed char slot_owner[256]; /* owner channel of slot */ | ||
209 | }; | ||
210 | |||
211 | /* PLX GPIOs */ | ||
212 | #define PLX_GPIO4_DIR_BIT 13 | ||
213 | #define PLX_GPIO4_BIT 14 | ||
214 | #define PLX_GPIO5_DIR_BIT 16 | ||
215 | #define PLX_GPIO5_BIT 17 | ||
216 | #define PLX_GPIO6_DIR_BIT 19 | ||
217 | #define PLX_GPIO6_BIT 20 | ||
218 | #define PLX_GPIO7_DIR_BIT 22 | ||
219 | #define PLX_GPIO7_BIT 23 | ||
220 | #define PLX_GPIO8_DIR_BIT 25 | ||
221 | #define PLX_GPIO8_BIT 26 | ||
222 | |||
223 | #define PLX_GPIO4 (1 << PLX_GPIO4_BIT) | ||
224 | #define PLX_GPIO5 (1 << PLX_GPIO5_BIT) | ||
225 | #define PLX_GPIO6 (1 << PLX_GPIO6_BIT) | ||
226 | #define PLX_GPIO7 (1 << PLX_GPIO7_BIT) | ||
227 | #define PLX_GPIO8 (1 << PLX_GPIO8_BIT) | ||
228 | |||
229 | #define PLX_GPIO4_DIR (1 << PLX_GPIO4_DIR_BIT) | ||
230 | #define PLX_GPIO5_DIR (1 << PLX_GPIO5_DIR_BIT) | ||
231 | #define PLX_GPIO6_DIR (1 << PLX_GPIO6_DIR_BIT) | ||
232 | #define PLX_GPIO7_DIR (1 << PLX_GPIO7_DIR_BIT) | ||
233 | #define PLX_GPIO8_DIR (1 << PLX_GPIO8_DIR_BIT) | ||
234 | |||
235 | #define PLX_TERM_ON PLX_GPIO7 | ||
236 | #define PLX_SLAVE_EN_N PLX_GPIO5 | ||
237 | #define PLX_MASTER_EN PLX_GPIO6 | ||
238 | #define PLX_SYNC_O_EN PLX_GPIO4 | ||
239 | #define PLX_DSP_RES_N PLX_GPIO8 | ||
240 | /* GPIO4..8 Enable & Set to OUT, SLAVE_EN_N = 1 */ | ||
241 | #define PLX_GPIOC_INIT (PLX_GPIO4_DIR | PLX_GPIO5_DIR | PLX_GPIO6_DIR \ | ||
242 | | PLX_GPIO7_DIR | PLX_GPIO8_DIR | PLX_SLAVE_EN_N) | ||
243 | |||
244 | /* PLX Interrupt Control/STATUS */ | ||
245 | #define PLX_INTCSR_LINTI1_ENABLE 0x01 | ||
246 | #define PLX_INTCSR_LINTI1_STATUS 0x04 | ||
247 | #define PLX_INTCSR_LINTI2_ENABLE 0x08 | ||
248 | #define PLX_INTCSR_LINTI2_STATUS 0x20 | ||
249 | #define PLX_INTCSR_PCIINT_ENABLE 0x40 | ||
250 | |||
251 | /* PLX Registers */ | ||
252 | #define PLX_INTCSR 0x4c | ||
253 | #define PLX_CNTRL 0x50 | ||
254 | #define PLX_GPIOC 0x54 | ||
255 | |||
256 | |||
257 | /* | ||
258 | * REGISTER SETTING FOR HFC-4S/8S AND HFC-E1 | ||
259 | */ | ||
260 | |||
261 | /* write only registers */ | ||
262 | #define R_CIRM 0x00 | ||
263 | #define R_CTRL 0x01 | ||
264 | #define R_BRG_PCM_CFG 0x02 | ||
265 | #define R_RAM_ADDR0 0x08 | ||
266 | #define R_RAM_ADDR1 0x09 | ||
267 | #define R_RAM_ADDR2 0x0A | ||
268 | #define R_FIRST_FIFO 0x0B | ||
269 | #define R_RAM_SZ 0x0C | ||
270 | #define R_FIFO_MD 0x0D | ||
271 | #define R_INC_RES_FIFO 0x0E | ||
272 | #define R_FSM_IDX 0x0F | ||
273 | #define R_FIFO 0x0F | ||
274 | #define R_SLOT 0x10 | ||
275 | #define R_IRQMSK_MISC 0x11 | ||
276 | #define R_SCI_MSK 0x12 | ||
277 | #define R_IRQ_CTRL 0x13 | ||
278 | #define R_PCM_MD0 0x14 | ||
279 | #define R_PCM_MD1 0x15 | ||
280 | #define R_PCM_MD2 0x15 | ||
281 | #define R_SH0H 0x15 | ||
282 | #define R_SH1H 0x15 | ||
283 | #define R_SH0L 0x15 | ||
284 | #define R_SH1L 0x15 | ||
285 | #define R_SL_SEL0 0x15 | ||
286 | #define R_SL_SEL1 0x15 | ||
287 | #define R_SL_SEL2 0x15 | ||
288 | #define R_SL_SEL3 0x15 | ||
289 | #define R_SL_SEL4 0x15 | ||
290 | #define R_SL_SEL5 0x15 | ||
291 | #define R_SL_SEL6 0x15 | ||
292 | #define R_SL_SEL7 0x15 | ||
293 | #define R_ST_SEL 0x16 | ||
294 | #define R_ST_SYNC 0x17 | ||
295 | #define R_CONF_EN 0x18 | ||
296 | #define R_TI_WD 0x1A | ||
297 | #define R_BERT_WD_MD 0x1B | ||
298 | #define R_DTMF 0x1C | ||
299 | #define R_DTMF_N 0x1D | ||
300 | #define R_E1_WR_STA 0x20 | ||
301 | #define R_E1_RD_STA 0x20 | ||
302 | #define R_LOS0 0x22 | ||
303 | #define R_LOS1 0x23 | ||
304 | #define R_RX0 0x24 | ||
305 | #define R_RX_FR0 0x25 | ||
306 | #define R_RX_FR1 0x26 | ||
307 | #define R_TX0 0x28 | ||
308 | #define R_TX1 0x29 | ||
309 | #define R_TX_FR0 0x2C | ||
310 | |||
311 | #define R_TX_FR1 0x2D | ||
312 | #define R_TX_FR2 0x2E | ||
313 | #define R_JATT_ATT 0x2F /* undocumented */ | ||
314 | #define A_ST_RD_STATE 0x30 | ||
315 | #define A_ST_WR_STATE 0x30 | ||
316 | #define R_RX_OFF 0x30 | ||
317 | #define A_ST_CTRL0 0x31 | ||
318 | #define R_SYNC_OUT 0x31 | ||
319 | #define A_ST_CTRL1 0x32 | ||
320 | #define A_ST_CTRL2 0x33 | ||
321 | #define A_ST_SQ_WR 0x34 | ||
322 | #define R_TX_OFF 0x34 | ||
323 | #define R_SYNC_CTRL 0x35 | ||
324 | #define A_ST_CLK_DLY 0x37 | ||
325 | #define R_PWM0 0x38 | ||
326 | #define R_PWM1 0x39 | ||
327 | #define A_ST_B1_TX 0x3C | ||
328 | #define A_ST_B2_TX 0x3D | ||
329 | #define A_ST_D_TX 0x3E | ||
330 | #define R_GPIO_OUT0 0x40 | ||
331 | #define R_GPIO_OUT1 0x41 | ||
332 | #define R_GPIO_EN0 0x42 | ||
333 | #define R_GPIO_EN1 0x43 | ||
334 | #define R_GPIO_SEL 0x44 | ||
335 | #define R_BRG_CTRL 0x45 | ||
336 | #define R_PWM_MD 0x46 | ||
337 | #define R_BRG_MD 0x47 | ||
338 | #define R_BRG_TIM0 0x48 | ||
339 | #define R_BRG_TIM1 0x49 | ||
340 | #define R_BRG_TIM2 0x4A | ||
341 | #define R_BRG_TIM3 0x4B | ||
342 | #define R_BRG_TIM_SEL01 0x4C | ||
343 | #define R_BRG_TIM_SEL23 0x4D | ||
344 | #define R_BRG_TIM_SEL45 0x4E | ||
345 | #define R_BRG_TIM_SEL67 0x4F | ||
346 | #define A_SL_CFG 0xD0 | ||
347 | #define A_CONF 0xD1 | ||
348 | #define A_CH_MSK 0xF4 | ||
349 | #define A_CON_HDLC 0xFA | ||
350 | #define A_SUBCH_CFG 0xFB | ||
351 | #define A_CHANNEL 0xFC | ||
352 | #define A_FIFO_SEQ 0xFD | ||
353 | #define A_IRQ_MSK 0xFF | ||
354 | |||
355 | /* read only registers */ | ||
356 | #define A_Z12 0x04 | ||
357 | #define A_Z1L 0x04 | ||
358 | #define A_Z1 0x04 | ||
359 | #define A_Z1H 0x05 | ||
360 | #define A_Z2L 0x06 | ||
361 | #define A_Z2 0x06 | ||
362 | #define A_Z2H 0x07 | ||
363 | #define A_F1 0x0C | ||
364 | #define A_F12 0x0C | ||
365 | #define A_F2 0x0D | ||
366 | #define R_IRQ_OVIEW 0x10 | ||
367 | #define R_IRQ_MISC 0x11 | ||
368 | #define R_IRQ_STATECH 0x12 | ||
369 | #define R_CONF_OFLOW 0x14 | ||
370 | #define R_RAM_USE 0x15 | ||
371 | #define R_CHIP_ID 0x16 | ||
372 | #define R_BERT_STA 0x17 | ||
373 | #define R_F0_CNTL 0x18 | ||
374 | #define R_F0_CNTH 0x19 | ||
375 | #define R_BERT_EC 0x1A | ||
376 | #define R_BERT_ECL 0x1A | ||
377 | #define R_BERT_ECH 0x1B | ||
378 | #define R_STATUS 0x1C | ||
379 | #define R_CHIP_RV 0x1F | ||
380 | #define R_STATE 0x20 | ||
381 | #define R_SYNC_STA 0x24 | ||
382 | #define R_RX_SL0_0 0x25 | ||
383 | #define R_RX_SL0_1 0x26 | ||
384 | #define R_RX_SL0_2 0x27 | ||
385 | #define R_JATT_DIR 0x2b /* undocumented */ | ||
386 | #define R_SLIP 0x2c | ||
387 | #define A_ST_RD_STA 0x30 | ||
388 | #define R_FAS_EC 0x30 | ||
389 | #define R_FAS_ECL 0x30 | ||
390 | #define R_FAS_ECH 0x31 | ||
391 | #define R_VIO_EC 0x32 | ||
392 | #define R_VIO_ECL 0x32 | ||
393 | #define R_VIO_ECH 0x33 | ||
394 | #define A_ST_SQ_RD 0x34 | ||
395 | #define R_CRC_EC 0x34 | ||
396 | #define R_CRC_ECL 0x34 | ||
397 | #define R_CRC_ECH 0x35 | ||
398 | #define R_E_EC 0x36 | ||
399 | #define R_E_ECL 0x36 | ||
400 | #define R_E_ECH 0x37 | ||
401 | #define R_SA6_SA13_EC 0x38 | ||
402 | #define R_SA6_SA13_ECL 0x38 | ||
403 | #define R_SA6_SA13_ECH 0x39 | ||
404 | #define R_SA6_SA23_EC 0x3A | ||
405 | #define R_SA6_SA23_ECL 0x3A | ||
406 | #define R_SA6_SA23_ECH 0x3B | ||
407 | #define A_ST_B1_RX 0x3C | ||
408 | #define A_ST_B2_RX 0x3D | ||
409 | #define A_ST_D_RX 0x3E | ||
410 | #define A_ST_E_RX 0x3F | ||
411 | #define R_GPIO_IN0 0x40 | ||
412 | #define R_GPIO_IN1 0x41 | ||
413 | #define R_GPI_IN0 0x44 | ||
414 | #define R_GPI_IN1 0x45 | ||
415 | #define R_GPI_IN2 0x46 | ||
416 | #define R_GPI_IN3 0x47 | ||
417 | #define R_INT_DATA 0x88 | ||
418 | #define R_IRQ_FIFO_BL0 0xC8 | ||
419 | #define R_IRQ_FIFO_BL1 0xC9 | ||
420 | #define R_IRQ_FIFO_BL2 0xCA | ||
421 | #define R_IRQ_FIFO_BL3 0xCB | ||
422 | #define R_IRQ_FIFO_BL4 0xCC | ||
423 | #define R_IRQ_FIFO_BL5 0xCD | ||
424 | #define R_IRQ_FIFO_BL6 0xCE | ||
425 | #define R_IRQ_FIFO_BL7 0xCF | ||
426 | |||
427 | /* read and write registers */ | ||
428 | #define A_FIFO_DATA0 0x80 | ||
429 | #define A_FIFO_DATA1 0x80 | ||
430 | #define A_FIFO_DATA2 0x80 | ||
431 | #define A_FIFO_DATA0_NOINC 0x84 | ||
432 | #define A_FIFO_DATA1_NOINC 0x84 | ||
433 | #define A_FIFO_DATA2_NOINC 0x84 | ||
434 | #define R_RAM_DATA 0xC0 | ||
435 | |||
436 | |||
437 | /* | ||
438 | * BIT SETTING FOR HFC-4S/8S AND HFC-E1 | ||
439 | */ | ||
440 | |||
441 | /* chapter 2: universal bus interface */ | ||
442 | /* R_CIRM */ | ||
443 | #define V_IRQ_SEL 0x01 | ||
444 | #define V_SRES 0x08 | ||
445 | #define V_HFCRES 0x10 | ||
446 | #define V_PCMRES 0x20 | ||
447 | #define V_STRES 0x40 | ||
448 | #define V_ETRES 0x40 | ||
449 | #define V_RLD_EPR 0x80 | ||
450 | /* R_CTRL */ | ||
451 | #define V_FIFO_LPRIO 0x02 | ||
452 | #define V_SLOW_RD 0x04 | ||
453 | #define V_EXT_RAM 0x08 | ||
454 | #define V_CLK_OFF 0x20 | ||
455 | #define V_ST_CLK 0x40 | ||
456 | /* R_RAM_ADDR0 */ | ||
457 | #define V_RAM_ADDR2 0x01 | ||
458 | #define V_ADDR_RES 0x40 | ||
459 | #define V_ADDR_INC 0x80 | ||
460 | /* R_RAM_SZ */ | ||
461 | #define V_RAM_SZ 0x01 | ||
462 | #define V_PWM0_16KHZ 0x10 | ||
463 | #define V_PWM1_16KHZ 0x20 | ||
464 | #define V_FZ_MD 0x80 | ||
465 | /* R_CHIP_ID */ | ||
466 | #define V_PNP_IRQ 0x01 | ||
467 | #define V_CHIP_ID 0x10 | ||
468 | |||
469 | /* chapter 3: data flow */ | ||
470 | /* R_FIRST_FIFO */ | ||
471 | #define V_FIRST_FIRO_DIR 0x01 | ||
472 | #define V_FIRST_FIFO_NUM 0x02 | ||
473 | /* R_FIFO_MD */ | ||
474 | #define V_FIFO_MD 0x01 | ||
475 | #define V_CSM_MD 0x04 | ||
476 | #define V_FSM_MD 0x08 | ||
477 | #define V_FIFO_SZ 0x10 | ||
478 | /* R_FIFO */ | ||
479 | #define V_FIFO_DIR 0x01 | ||
480 | #define V_FIFO_NUM 0x02 | ||
481 | #define V_REV 0x80 | ||
482 | /* R_SLOT */ | ||
483 | #define V_SL_DIR 0x01 | ||
484 | #define V_SL_NUM 0x02 | ||
485 | /* A_SL_CFG */ | ||
486 | #define V_CH_DIR 0x01 | ||
487 | #define V_CH_SEL 0x02 | ||
488 | #define V_ROUTING 0x40 | ||
489 | /* A_CON_HDLC */ | ||
490 | #define V_IFF 0x01 | ||
491 | #define V_HDLC_TRP 0x02 | ||
492 | #define V_TRP_IRQ 0x04 | ||
493 | #define V_DATA_FLOW 0x20 | ||
494 | /* A_SUBCH_CFG */ | ||
495 | #define V_BIT_CNT 0x01 | ||
496 | #define V_START_BIT 0x08 | ||
497 | #define V_LOOP_FIFO 0x40 | ||
498 | #define V_INV_DATA 0x80 | ||
499 | /* A_CHANNEL */ | ||
500 | #define V_CH_DIR0 0x01 | ||
501 | #define V_CH_NUM0 0x02 | ||
502 | /* A_FIFO_SEQ */ | ||
503 | #define V_NEXT_FIFO_DIR 0x01 | ||
504 | #define V_NEXT_FIFO_NUM 0x02 | ||
505 | #define V_SEQ_END 0x40 | ||
506 | |||
507 | /* chapter 4: FIFO handling and HDLC controller */ | ||
508 | /* R_INC_RES_FIFO */ | ||
509 | #define V_INC_F 0x01 | ||
510 | #define V_RES_F 0x02 | ||
511 | #define V_RES_LOST 0x04 | ||
512 | |||
513 | /* chapter 5: S/T interface */ | ||
514 | /* R_SCI_MSK */ | ||
515 | #define V_SCI_MSK_ST0 0x01 | ||
516 | #define V_SCI_MSK_ST1 0x02 | ||
517 | #define V_SCI_MSK_ST2 0x04 | ||
518 | #define V_SCI_MSK_ST3 0x08 | ||
519 | #define V_SCI_MSK_ST4 0x10 | ||
520 | #define V_SCI_MSK_ST5 0x20 | ||
521 | #define V_SCI_MSK_ST6 0x40 | ||
522 | #define V_SCI_MSK_ST7 0x80 | ||
523 | /* R_ST_SEL */ | ||
524 | #define V_ST_SEL 0x01 | ||
525 | #define V_MULT_ST 0x08 | ||
526 | /* R_ST_SYNC */ | ||
527 | #define V_SYNC_SEL 0x01 | ||
528 | #define V_AUTO_SYNC 0x08 | ||
529 | /* A_ST_WR_STA */ | ||
530 | #define V_ST_SET_STA 0x01 | ||
531 | #define V_ST_LD_STA 0x10 | ||
532 | #define V_ST_ACT 0x20 | ||
533 | #define V_SET_G2_G3 0x80 | ||
534 | /* A_ST_CTRL0 */ | ||
535 | #define V_B1_EN 0x01 | ||
536 | #define V_B2_EN 0x02 | ||
537 | #define V_ST_MD 0x04 | ||
538 | #define V_D_PRIO 0x08 | ||
539 | #define V_SQ_EN 0x10 | ||
540 | #define V_96KHZ 0x20 | ||
541 | #define V_TX_LI 0x40 | ||
542 | #define V_ST_STOP 0x80 | ||
543 | /* A_ST_CTRL1 */ | ||
544 | #define V_G2_G3_EN 0x01 | ||
545 | #define V_D_HI 0x04 | ||
546 | #define V_E_IGNO 0x08 | ||
547 | #define V_E_LO 0x10 | ||
548 | #define V_B12_SWAP 0x80 | ||
549 | /* A_ST_CTRL2 */ | ||
550 | #define V_B1_RX_EN 0x01 | ||
551 | #define V_B2_RX_EN 0x02 | ||
552 | #define V_ST_TRIS 0x40 | ||
553 | /* A_ST_CLK_DLY */ | ||
554 | #define V_ST_CK_DLY 0x01 | ||
555 | #define V_ST_SMPL 0x10 | ||
556 | /* A_ST_D_TX */ | ||
557 | #define V_ST_D_TX 0x40 | ||
558 | /* R_IRQ_STATECH */ | ||
559 | #define V_SCI_ST0 0x01 | ||
560 | #define V_SCI_ST1 0x02 | ||
561 | #define V_SCI_ST2 0x04 | ||
562 | #define V_SCI_ST3 0x08 | ||
563 | #define V_SCI_ST4 0x10 | ||
564 | #define V_SCI_ST5 0x20 | ||
565 | #define V_SCI_ST6 0x40 | ||
566 | #define V_SCI_ST7 0x80 | ||
567 | /* A_ST_RD_STA */ | ||
568 | #define V_ST_STA 0x01 | ||
569 | #define V_FR_SYNC_ST 0x10 | ||
570 | #define V_TI2_EXP 0x20 | ||
571 | #define V_INFO0 0x40 | ||
572 | #define V_G2_G3 0x80 | ||
573 | /* A_ST_SQ_RD */ | ||
574 | #define V_ST_SQ 0x01 | ||
575 | #define V_MF_RX_RDY 0x10 | ||
576 | #define V_MF_TX_RDY 0x80 | ||
577 | /* A_ST_D_RX */ | ||
578 | #define V_ST_D_RX 0x40 | ||
579 | /* A_ST_E_RX */ | ||
580 | #define V_ST_E_RX 0x40 | ||
581 | |||
582 | /* chapter 5: E1 interface */ | ||
583 | /* R_E1_WR_STA */ | ||
584 | /* R_E1_RD_STA */ | ||
585 | #define V_E1_SET_STA 0x01 | ||
586 | #define V_E1_LD_STA 0x10 | ||
587 | /* R_RX0 */ | ||
588 | #define V_RX_CODE 0x01 | ||
589 | #define V_RX_FBAUD 0x04 | ||
590 | #define V_RX_CMI 0x08 | ||
591 | #define V_RX_INV_CMI 0x10 | ||
592 | #define V_RX_INV_CLK 0x20 | ||
593 | #define V_RX_INV_DATA 0x40 | ||
594 | #define V_AIS_ITU 0x80 | ||
595 | /* R_RX_FR0 */ | ||
596 | #define V_NO_INSYNC 0x01 | ||
597 | #define V_AUTO_RESYNC 0x02 | ||
598 | #define V_AUTO_RECO 0x04 | ||
599 | #define V_SWORD_COND 0x08 | ||
600 | #define V_SYNC_LOSS 0x10 | ||
601 | #define V_XCRC_SYNC 0x20 | ||
602 | #define V_MF_RESYNC 0x40 | ||
603 | #define V_RESYNC 0x80 | ||
604 | /* R_RX_FR1 */ | ||
605 | #define V_RX_MF 0x01 | ||
606 | #define V_RX_MF_SYNC 0x02 | ||
607 | #define V_RX_SL0_RAM 0x04 | ||
608 | #define V_ERR_SIM 0x20 | ||
609 | #define V_RES_NMF 0x40 | ||
610 | /* R_TX0 */ | ||
611 | #define V_TX_CODE 0x01 | ||
612 | #define V_TX_FBAUD 0x04 | ||
613 | #define V_TX_CMI_CODE 0x08 | ||
614 | #define V_TX_INV_CMI_CODE 0x10 | ||
615 | #define V_TX_INV_CLK 0x20 | ||
616 | #define V_TX_INV_DATA 0x40 | ||
617 | #define V_OUT_EN 0x80 | ||
618 | /* R_TX1 */ | ||
619 | #define V_INV_CLK 0x01 | ||
620 | #define V_EXCHG_DATA_LI 0x02 | ||
621 | #define V_AIS_OUT 0x04 | ||
622 | #define V_ATX 0x20 | ||
623 | #define V_NTRI 0x40 | ||
624 | #define V_AUTO_ERR_RES 0x80 | ||
625 | /* R_TX_FR0 */ | ||
626 | #define V_TRP_FAS 0x01 | ||
627 | #define V_TRP_NFAS 0x02 | ||
628 | #define V_TRP_RAL 0x04 | ||
629 | #define V_TRP_SA 0x08 | ||
630 | /* R_TX_FR1 */ | ||
631 | #define V_TX_FAS 0x01 | ||
632 | #define V_TX_NFAS 0x02 | ||
633 | #define V_TX_RAL 0x04 | ||
634 | #define V_TX_SA 0x08 | ||
635 | /* R_TX_FR2 */ | ||
636 | #define V_TX_MF 0x01 | ||
637 | #define V_TRP_SL0 0x02 | ||
638 | #define V_TX_SL0_RAM 0x04 | ||
639 | #define V_TX_E 0x10 | ||
640 | #define V_NEG_E 0x20 | ||
641 | #define V_XS12_ON 0x40 | ||
642 | #define V_XS15_ON 0x80 | ||
643 | /* R_RX_OFF */ | ||
644 | #define V_RX_SZ 0x01 | ||
645 | #define V_RX_INIT 0x04 | ||
646 | /* R_SYNC_OUT */ | ||
647 | #define V_SYNC_E1_RX 0x01 | ||
648 | #define V_IPATS0 0x20 | ||
649 | #define V_IPATS1 0x40 | ||
650 | #define V_IPATS2 0x80 | ||
651 | /* R_TX_OFF */ | ||
652 | #define V_TX_SZ 0x01 | ||
653 | #define V_TX_INIT 0x04 | ||
654 | /* R_SYNC_CTRL */ | ||
655 | #define V_EXT_CLK_SYNC 0x01 | ||
656 | #define V_SYNC_OFFS 0x02 | ||
657 | #define V_PCM_SYNC 0x04 | ||
658 | #define V_NEG_CLK 0x08 | ||
659 | #define V_HCLK 0x10 | ||
660 | /* | ||
661 | #define V_JATT_AUTO_DEL 0x20 | ||
662 | #define V_JATT_AUTO 0x40 | ||
663 | */ | ||
664 | #define V_JATT_OFF 0x80 | ||
665 | /* R_STATE */ | ||
666 | #define V_E1_STA 0x01 | ||
667 | #define V_ALT_FR_RX 0x40 | ||
668 | #define V_ALT_FR_TX 0x80 | ||
669 | /* R_SYNC_STA */ | ||
670 | #define V_RX_STA 0x01 | ||
671 | #define V_FR_SYNC_E1 0x04 | ||
672 | #define V_SIG_LOS 0x08 | ||
673 | #define V_MFA_STA 0x10 | ||
674 | #define V_AIS 0x40 | ||
675 | #define V_NO_MF_SYNC 0x80 | ||
676 | /* R_RX_SL0_0 */ | ||
677 | #define V_SI_FAS 0x01 | ||
678 | #define V_SI_NFAS 0x02 | ||
679 | #define V_A 0x04 | ||
680 | #define V_CRC_OK 0x08 | ||
681 | #define V_TX_E1 0x10 | ||
682 | #define V_TX_E2 0x20 | ||
683 | #define V_RX_E1 0x40 | ||
684 | #define V_RX_E2 0x80 | ||
685 | /* R_SLIP */ | ||
686 | #define V_SLIP_RX 0x01 | ||
687 | #define V_FOSLIP_RX 0x08 | ||
688 | #define V_SLIP_TX 0x10 | ||
689 | #define V_FOSLIP_TX 0x80 | ||
690 | |||
691 | /* chapter 6: PCM interface */ | ||
692 | /* R_PCM_MD0 */ | ||
693 | #define V_PCM_MD 0x01 | ||
694 | #define V_C4_POL 0x02 | ||
695 | #define V_F0_NEG 0x04 | ||
696 | #define V_F0_LEN 0x08 | ||
697 | #define V_PCM_ADDR 0x10 | ||
698 | /* R_SL_SEL0 */ | ||
699 | #define V_SL_SEL0 0x01 | ||
700 | #define V_SH_SEL0 0x80 | ||
701 | /* R_SL_SEL1 */ | ||
702 | #define V_SL_SEL1 0x01 | ||
703 | #define V_SH_SEL1 0x80 | ||
704 | /* R_SL_SEL2 */ | ||
705 | #define V_SL_SEL2 0x01 | ||
706 | #define V_SH_SEL2 0x80 | ||
707 | /* R_SL_SEL3 */ | ||
708 | #define V_SL_SEL3 0x01 | ||
709 | #define V_SH_SEL3 0x80 | ||
710 | /* R_SL_SEL4 */ | ||
711 | #define V_SL_SEL4 0x01 | ||
712 | #define V_SH_SEL4 0x80 | ||
713 | /* R_SL_SEL5 */ | ||
714 | #define V_SL_SEL5 0x01 | ||
715 | #define V_SH_SEL5 0x80 | ||
716 | /* R_SL_SEL6 */ | ||
717 | #define V_SL_SEL6 0x01 | ||
718 | #define V_SH_SEL6 0x80 | ||
719 | /* R_SL_SEL7 */ | ||
720 | #define V_SL_SEL7 0x01 | ||
721 | #define V_SH_SEL7 0x80 | ||
722 | /* R_PCM_MD1 */ | ||
723 | #define V_ODEC_CON 0x01 | ||
724 | #define V_PLL_ADJ 0x04 | ||
725 | #define V_PCM_DR 0x10 | ||
726 | #define V_PCM_LOOP 0x40 | ||
727 | /* R_PCM_MD2 */ | ||
728 | #define V_SYNC_PLL 0x02 | ||
729 | #define V_SYNC_SRC 0x04 | ||
730 | #define V_SYNC_OUT 0x08 | ||
731 | #define V_ICR_FR_TIME 0x40 | ||
732 | #define V_EN_PLL 0x80 | ||
733 | |||
734 | /* chapter 7: pulse width modulation */ | ||
735 | /* R_PWM_MD */ | ||
736 | #define V_EXT_IRQ_EN 0x08 | ||
737 | #define V_PWM0_MD 0x10 | ||
738 | #define V_PWM1_MD 0x40 | ||
739 | |||
740 | /* chapter 8: multiparty audio conferences */ | ||
741 | /* R_CONF_EN */ | ||
742 | #define V_CONF_EN 0x01 | ||
743 | #define V_ULAW 0x80 | ||
744 | /* A_CONF */ | ||
745 | #define V_CONF_NUM 0x01 | ||
746 | #define V_NOISE_SUPPR 0x08 | ||
747 | #define V_ATT_LEV 0x20 | ||
748 | #define V_CONF_SL 0x80 | ||
749 | /* R_CONF_OFLOW */ | ||
750 | #define V_CONF_OFLOW0 0x01 | ||
751 | #define V_CONF_OFLOW1 0x02 | ||
752 | #define V_CONF_OFLOW2 0x04 | ||
753 | #define V_CONF_OFLOW3 0x08 | ||
754 | #define V_CONF_OFLOW4 0x10 | ||
755 | #define V_CONF_OFLOW5 0x20 | ||
756 | #define V_CONF_OFLOW6 0x40 | ||
757 | #define V_CONF_OFLOW7 0x80 | ||
758 | |||
759 | /* chapter 9: DTMF contoller */ | ||
760 | /* R_DTMF0 */ | ||
761 | #define V_DTMF_EN 0x01 | ||
762 | #define V_HARM_SEL 0x02 | ||
763 | #define V_DTMF_RX_CH 0x04 | ||
764 | #define V_DTMF_STOP 0x08 | ||
765 | #define V_CHBL_SEL 0x10 | ||
766 | #define V_RST_DTMF 0x40 | ||
767 | #define V_ULAW_SEL 0x80 | ||
768 | |||
769 | /* chapter 10: BERT */ | ||
770 | /* R_BERT_WD_MD */ | ||
771 | #define V_PAT_SEQ 0x01 | ||
772 | #define V_BERT_ERR 0x08 | ||
773 | #define V_AUTO_WD_RES 0x20 | ||
774 | #define V_WD_RES 0x80 | ||
775 | /* R_BERT_STA */ | ||
776 | #define V_BERT_SYNC_SRC 0x01 | ||
777 | #define V_BERT_SYNC 0x10 | ||
778 | #define V_BERT_INV_DATA 0x20 | ||
779 | |||
780 | /* chapter 11: auxiliary interface */ | ||
781 | /* R_BRG_PCM_CFG */ | ||
782 | #define V_BRG_EN 0x01 | ||
783 | #define V_BRG_MD 0x02 | ||
784 | #define V_PCM_CLK 0x20 | ||
785 | #define V_ADDR_WRDLY 0x40 | ||
786 | /* R_BRG_CTRL */ | ||
787 | #define V_BRG_CS 0x01 | ||
788 | #define V_BRG_ADDR 0x08 | ||
789 | #define V_BRG_CS_SRC 0x80 | ||
790 | /* R_BRG_MD */ | ||
791 | #define V_BRG_MD0 0x01 | ||
792 | #define V_BRG_MD1 0x02 | ||
793 | #define V_BRG_MD2 0x04 | ||
794 | #define V_BRG_MD3 0x08 | ||
795 | #define V_BRG_MD4 0x10 | ||
796 | #define V_BRG_MD5 0x20 | ||
797 | #define V_BRG_MD6 0x40 | ||
798 | #define V_BRG_MD7 0x80 | ||
799 | /* R_BRG_TIM0 */ | ||
800 | #define V_BRG_TIM0_IDLE 0x01 | ||
801 | #define V_BRG_TIM0_CLK 0x10 | ||
802 | /* R_BRG_TIM1 */ | ||
803 | #define V_BRG_TIM1_IDLE 0x01 | ||
804 | #define V_BRG_TIM1_CLK 0x10 | ||
805 | /* R_BRG_TIM2 */ | ||
806 | #define V_BRG_TIM2_IDLE 0x01 | ||
807 | #define V_BRG_TIM2_CLK 0x10 | ||
808 | /* R_BRG_TIM3 */ | ||
809 | #define V_BRG_TIM3_IDLE 0x01 | ||
810 | #define V_BRG_TIM3_CLK 0x10 | ||
811 | /* R_BRG_TIM_SEL01 */ | ||
812 | #define V_BRG_WR_SEL0 0x01 | ||
813 | #define V_BRG_RD_SEL0 0x04 | ||
814 | #define V_BRG_WR_SEL1 0x10 | ||
815 | #define V_BRG_RD_SEL1 0x40 | ||
816 | /* R_BRG_TIM_SEL23 */ | ||
817 | #define V_BRG_WR_SEL2 0x01 | ||
818 | #define V_BRG_RD_SEL2 0x04 | ||
819 | #define V_BRG_WR_SEL3 0x10 | ||
820 | #define V_BRG_RD_SEL3 0x40 | ||
821 | /* R_BRG_TIM_SEL45 */ | ||
822 | #define V_BRG_WR_SEL4 0x01 | ||
823 | #define V_BRG_RD_SEL4 0x04 | ||
824 | #define V_BRG_WR_SEL5 0x10 | ||
825 | #define V_BRG_RD_SEL5 0x40 | ||
826 | /* R_BRG_TIM_SEL67 */ | ||
827 | #define V_BRG_WR_SEL6 0x01 | ||
828 | #define V_BRG_RD_SEL6 0x04 | ||
829 | #define V_BRG_WR_SEL7 0x10 | ||
830 | #define V_BRG_RD_SEL7 0x40 | ||
831 | |||
832 | /* chapter 12: clock, reset, interrupt, timer and watchdog */ | ||
833 | /* R_IRQMSK_MISC */ | ||
834 | #define V_STA_IRQMSK 0x01 | ||
835 | #define V_TI_IRQMSK 0x02 | ||
836 | #define V_PROC_IRQMSK 0x04 | ||
837 | #define V_DTMF_IRQMSK 0x08 | ||
838 | #define V_IRQ1S_MSK 0x10 | ||
839 | #define V_SA6_IRQMSK 0x20 | ||
840 | #define V_RX_EOMF_MSK 0x40 | ||
841 | #define V_TX_EOMF_MSK 0x80 | ||
842 | /* R_IRQ_CTRL */ | ||
843 | #define V_FIFO_IRQ 0x01 | ||
844 | #define V_GLOB_IRQ_EN 0x08 | ||
845 | #define V_IRQ_POL 0x10 | ||
846 | /* R_TI_WD */ | ||
847 | #define V_EV_TS 0x01 | ||
848 | #define V_WD_TS 0x10 | ||
849 | /* A_IRQ_MSK */ | ||
850 | #define V_IRQ 0x01 | ||
851 | #define V_BERT_EN 0x02 | ||
852 | #define V_MIX_IRQ 0x04 | ||
853 | /* R_IRQ_OVIEW */ | ||
854 | #define V_IRQ_FIFO_BL0 0x01 | ||
855 | #define V_IRQ_FIFO_BL1 0x02 | ||
856 | #define V_IRQ_FIFO_BL2 0x04 | ||
857 | #define V_IRQ_FIFO_BL3 0x08 | ||
858 | #define V_IRQ_FIFO_BL4 0x10 | ||
859 | #define V_IRQ_FIFO_BL5 0x20 | ||
860 | #define V_IRQ_FIFO_BL6 0x40 | ||
861 | #define V_IRQ_FIFO_BL7 0x80 | ||
862 | /* R_IRQ_MISC */ | ||
863 | #define V_STA_IRQ 0x01 | ||
864 | #define V_TI_IRQ 0x02 | ||
865 | #define V_IRQ_PROC 0x04 | ||
866 | #define V_DTMF_IRQ 0x08 | ||
867 | #define V_IRQ1S 0x10 | ||
868 | #define V_SA6_IRQ 0x20 | ||
869 | #define V_RX_EOMF 0x40 | ||
870 | #define V_TX_EOMF 0x80 | ||
871 | /* R_STATUS */ | ||
872 | #define V_BUSY 0x01 | ||
873 | #define V_PROC 0x02 | ||
874 | #define V_DTMF_STA 0x04 | ||
875 | #define V_LOST_STA 0x08 | ||
876 | #define V_SYNC_IN 0x10 | ||
877 | #define V_EXT_IRQSTA 0x20 | ||
878 | #define V_MISC_IRQSTA 0x40 | ||
879 | #define V_FR_IRQSTA 0x80 | ||
880 | /* R_IRQ_FIFO_BL0 */ | ||
881 | #define V_IRQ_FIFO0_TX 0x01 | ||
882 | #define V_IRQ_FIFO0_RX 0x02 | ||
883 | #define V_IRQ_FIFO1_TX 0x04 | ||
884 | #define V_IRQ_FIFO1_RX 0x08 | ||
885 | #define V_IRQ_FIFO2_TX 0x10 | ||
886 | #define V_IRQ_FIFO2_RX 0x20 | ||
887 | #define V_IRQ_FIFO3_TX 0x40 | ||
888 | #define V_IRQ_FIFO3_RX 0x80 | ||
889 | /* R_IRQ_FIFO_BL1 */ | ||
890 | #define V_IRQ_FIFO4_TX 0x01 | ||
891 | #define V_IRQ_FIFO4_RX 0x02 | ||
892 | #define V_IRQ_FIFO5_TX 0x04 | ||
893 | #define V_IRQ_FIFO5_RX 0x08 | ||
894 | #define V_IRQ_FIFO6_TX 0x10 | ||
895 | #define V_IRQ_FIFO6_RX 0x20 | ||
896 | #define V_IRQ_FIFO7_TX 0x40 | ||
897 | #define V_IRQ_FIFO7_RX 0x80 | ||
898 | /* R_IRQ_FIFO_BL2 */ | ||
899 | #define V_IRQ_FIFO8_TX 0x01 | ||
900 | #define V_IRQ_FIFO8_RX 0x02 | ||
901 | #define V_IRQ_FIFO9_TX 0x04 | ||
902 | #define V_IRQ_FIFO9_RX 0x08 | ||
903 | #define V_IRQ_FIFO10_TX 0x10 | ||
904 | #define V_IRQ_FIFO10_RX 0x20 | ||
905 | #define V_IRQ_FIFO11_TX 0x40 | ||
906 | #define V_IRQ_FIFO11_RX 0x80 | ||
907 | /* R_IRQ_FIFO_BL3 */ | ||
908 | #define V_IRQ_FIFO12_TX 0x01 | ||
909 | #define V_IRQ_FIFO12_RX 0x02 | ||
910 | #define V_IRQ_FIFO13_TX 0x04 | ||
911 | #define V_IRQ_FIFO13_RX 0x08 | ||
912 | #define V_IRQ_FIFO14_TX 0x10 | ||
913 | #define V_IRQ_FIFO14_RX 0x20 | ||
914 | #define V_IRQ_FIFO15_TX 0x40 | ||
915 | #define V_IRQ_FIFO15_RX 0x80 | ||
916 | /* R_IRQ_FIFO_BL4 */ | ||
917 | #define V_IRQ_FIFO16_TX 0x01 | ||
918 | #define V_IRQ_FIFO16_RX 0x02 | ||
919 | #define V_IRQ_FIFO17_TX 0x04 | ||
920 | #define V_IRQ_FIFO17_RX 0x08 | ||
921 | #define V_IRQ_FIFO18_TX 0x10 | ||
922 | #define V_IRQ_FIFO18_RX 0x20 | ||
923 | #define V_IRQ_FIFO19_TX 0x40 | ||
924 | #define V_IRQ_FIFO19_RX 0x80 | ||
925 | /* R_IRQ_FIFO_BL5 */ | ||
926 | #define V_IRQ_FIFO20_TX 0x01 | ||
927 | #define V_IRQ_FIFO20_RX 0x02 | ||
928 | #define V_IRQ_FIFO21_TX 0x04 | ||
929 | #define V_IRQ_FIFO21_RX 0x08 | ||
930 | #define V_IRQ_FIFO22_TX 0x10 | ||
931 | #define V_IRQ_FIFO22_RX 0x20 | ||
932 | #define V_IRQ_FIFO23_TX 0x40 | ||
933 | #define V_IRQ_FIFO23_RX 0x80 | ||
934 | /* R_IRQ_FIFO_BL6 */ | ||
935 | #define V_IRQ_FIFO24_TX 0x01 | ||
936 | #define V_IRQ_FIFO24_RX 0x02 | ||
937 | #define V_IRQ_FIFO25_TX 0x04 | ||
938 | #define V_IRQ_FIFO25_RX 0x08 | ||
939 | #define V_IRQ_FIFO26_TX 0x10 | ||
940 | #define V_IRQ_FIFO26_RX 0x20 | ||
941 | #define V_IRQ_FIFO27_TX 0x40 | ||
942 | #define V_IRQ_FIFO27_RX 0x80 | ||
943 | /* R_IRQ_FIFO_BL7 */ | ||
944 | #define V_IRQ_FIFO28_TX 0x01 | ||
945 | #define V_IRQ_FIFO28_RX 0x02 | ||
946 | #define V_IRQ_FIFO29_TX 0x04 | ||
947 | #define V_IRQ_FIFO29_RX 0x08 | ||
948 | #define V_IRQ_FIFO30_TX 0x10 | ||
949 | #define V_IRQ_FIFO30_RX 0x20 | ||
950 | #define V_IRQ_FIFO31_TX 0x40 | ||
951 | #define V_IRQ_FIFO31_RX 0x80 | ||
952 | |||
953 | /* chapter 13: general purpose I/O pins (GPIO) and input pins (GPI) */ | ||
954 | /* R_GPIO_OUT0 */ | ||
955 | #define V_GPIO_OUT0 0x01 | ||
956 | #define V_GPIO_OUT1 0x02 | ||
957 | #define V_GPIO_OUT2 0x04 | ||
958 | #define V_GPIO_OUT3 0x08 | ||
959 | #define V_GPIO_OUT4 0x10 | ||
960 | #define V_GPIO_OUT5 0x20 | ||
961 | #define V_GPIO_OUT6 0x40 | ||
962 | #define V_GPIO_OUT7 0x80 | ||
963 | /* R_GPIO_OUT1 */ | ||
964 | #define V_GPIO_OUT8 0x01 | ||
965 | #define V_GPIO_OUT9 0x02 | ||
966 | #define V_GPIO_OUT10 0x04 | ||
967 | #define V_GPIO_OUT11 0x08 | ||
968 | #define V_GPIO_OUT12 0x10 | ||
969 | #define V_GPIO_OUT13 0x20 | ||
970 | #define V_GPIO_OUT14 0x40 | ||
971 | #define V_GPIO_OUT15 0x80 | ||
972 | /* R_GPIO_EN0 */ | ||
973 | #define V_GPIO_EN0 0x01 | ||
974 | #define V_GPIO_EN1 0x02 | ||
975 | #define V_GPIO_EN2 0x04 | ||
976 | #define V_GPIO_EN3 0x08 | ||
977 | #define V_GPIO_EN4 0x10 | ||
978 | #define V_GPIO_EN5 0x20 | ||
979 | #define V_GPIO_EN6 0x40 | ||
980 | #define V_GPIO_EN7 0x80 | ||
981 | /* R_GPIO_EN1 */ | ||
982 | #define V_GPIO_EN8 0x01 | ||
983 | #define V_GPIO_EN9 0x02 | ||
984 | #define V_GPIO_EN10 0x04 | ||
985 | #define V_GPIO_EN11 0x08 | ||
986 | #define V_GPIO_EN12 0x10 | ||
987 | #define V_GPIO_EN13 0x20 | ||
988 | #define V_GPIO_EN14 0x40 | ||
989 | #define V_GPIO_EN15 0x80 | ||
990 | /* R_GPIO_SEL */ | ||
991 | #define V_GPIO_SEL0 0x01 | ||
992 | #define V_GPIO_SEL1 0x02 | ||
993 | #define V_GPIO_SEL2 0x04 | ||
994 | #define V_GPIO_SEL3 0x08 | ||
995 | #define V_GPIO_SEL4 0x10 | ||
996 | #define V_GPIO_SEL5 0x20 | ||
997 | #define V_GPIO_SEL6 0x40 | ||
998 | #define V_GPIO_SEL7 0x80 | ||
999 | /* R_GPIO_IN0 */ | ||
1000 | #define V_GPIO_IN0 0x01 | ||
1001 | #define V_GPIO_IN1 0x02 | ||
1002 | #define V_GPIO_IN2 0x04 | ||
1003 | #define V_GPIO_IN3 0x08 | ||
1004 | #define V_GPIO_IN4 0x10 | ||
1005 | #define V_GPIO_IN5 0x20 | ||
1006 | #define V_GPIO_IN6 0x40 | ||
1007 | #define V_GPIO_IN7 0x80 | ||
1008 | /* R_GPIO_IN1 */ | ||
1009 | #define V_GPIO_IN8 0x01 | ||
1010 | #define V_GPIO_IN9 0x02 | ||
1011 | #define V_GPIO_IN10 0x04 | ||
1012 | #define V_GPIO_IN11 0x08 | ||
1013 | #define V_GPIO_IN12 0x10 | ||
1014 | #define V_GPIO_IN13 0x20 | ||
1015 | #define V_GPIO_IN14 0x40 | ||
1016 | #define V_GPIO_IN15 0x80 | ||
1017 | /* R_GPI_IN0 */ | ||
1018 | #define V_GPI_IN0 0x01 | ||
1019 | #define V_GPI_IN1 0x02 | ||
1020 | #define V_GPI_IN2 0x04 | ||
1021 | #define V_GPI_IN3 0x08 | ||
1022 | #define V_GPI_IN4 0x10 | ||
1023 | #define V_GPI_IN5 0x20 | ||
1024 | #define V_GPI_IN6 0x40 | ||
1025 | #define V_GPI_IN7 0x80 | ||
1026 | /* R_GPI_IN1 */ | ||
1027 | #define V_GPI_IN8 0x01 | ||
1028 | #define V_GPI_IN9 0x02 | ||
1029 | #define V_GPI_IN10 0x04 | ||
1030 | #define V_GPI_IN11 0x08 | ||
1031 | #define V_GPI_IN12 0x10 | ||
1032 | #define V_GPI_IN13 0x20 | ||
1033 | #define V_GPI_IN14 0x40 | ||
1034 | #define V_GPI_IN15 0x80 | ||
1035 | /* R_GPI_IN2 */ | ||
1036 | #define V_GPI_IN16 0x01 | ||
1037 | #define V_GPI_IN17 0x02 | ||
1038 | #define V_GPI_IN18 0x04 | ||
1039 | #define V_GPI_IN19 0x08 | ||
1040 | #define V_GPI_IN20 0x10 | ||
1041 | #define V_GPI_IN21 0x20 | ||
1042 | #define V_GPI_IN22 0x40 | ||
1043 | #define V_GPI_IN23 0x80 | ||
1044 | /* R_GPI_IN3 */ | ||
1045 | #define V_GPI_IN24 0x01 | ||
1046 | #define V_GPI_IN25 0x02 | ||
1047 | #define V_GPI_IN26 0x04 | ||
1048 | #define V_GPI_IN27 0x08 | ||
1049 | #define V_GPI_IN28 0x10 | ||
1050 | #define V_GPI_IN29 0x20 | ||
1051 | #define V_GPI_IN30 0x40 | ||
1052 | #define V_GPI_IN31 0x80 | ||
1053 | |||
1054 | /* map of all registers, used for debugging */ | ||
1055 | |||
1056 | #ifdef HFC_REGISTER_DEBUG | ||
1057 | struct hfc_register_names { | ||
1058 | char *name; | ||
1059 | u_char reg; | ||
1060 | } hfc_register_names[] = { | ||
1061 | /* write registers */ | ||
1062 | {"R_CIRM", 0x00}, | ||
1063 | {"R_CTRL", 0x01}, | ||
1064 | {"R_BRG_PCM_CFG ", 0x02}, | ||
1065 | {"R_RAM_ADDR0", 0x08}, | ||
1066 | {"R_RAM_ADDR1", 0x09}, | ||
1067 | {"R_RAM_ADDR2", 0x0A}, | ||
1068 | {"R_FIRST_FIFO", 0x0B}, | ||
1069 | {"R_RAM_SZ", 0x0C}, | ||
1070 | {"R_FIFO_MD", 0x0D}, | ||
1071 | {"R_INC_RES_FIFO", 0x0E}, | ||
1072 | {"R_FIFO / R_FSM_IDX", 0x0F}, | ||
1073 | {"R_SLOT", 0x10}, | ||
1074 | {"R_IRQMSK_MISC", 0x11}, | ||
1075 | {"R_SCI_MSK", 0x12}, | ||
1076 | {"R_IRQ_CTRL", 0x13}, | ||
1077 | {"R_PCM_MD0", 0x14}, | ||
1078 | {"R_0x15", 0x15}, | ||
1079 | {"R_ST_SEL", 0x16}, | ||
1080 | {"R_ST_SYNC", 0x17}, | ||
1081 | {"R_CONF_EN", 0x18}, | ||
1082 | {"R_TI_WD", 0x1A}, | ||
1083 | {"R_BERT_WD_MD", 0x1B}, | ||
1084 | {"R_DTMF", 0x1C}, | ||
1085 | {"R_DTMF_N", 0x1D}, | ||
1086 | {"R_E1_XX_STA", 0x20}, | ||
1087 | {"R_LOS0", 0x22}, | ||
1088 | {"R_LOS1", 0x23}, | ||
1089 | {"R_RX0", 0x24}, | ||
1090 | {"R_RX_FR0", 0x25}, | ||
1091 | {"R_RX_FR1", 0x26}, | ||
1092 | {"R_TX0", 0x28}, | ||
1093 | {"R_TX1", 0x29}, | ||
1094 | {"R_TX_FR0", 0x2C}, | ||
1095 | {"R_TX_FR1", 0x2D}, | ||
1096 | {"R_TX_FR2", 0x2E}, | ||
1097 | {"R_JATT_ATT", 0x2F}, | ||
1098 | {"A_ST_xx_STA/R_RX_OFF", 0x30}, | ||
1099 | {"A_ST_CTRL0/R_SYNC_OUT", 0x31}, | ||
1100 | {"A_ST_CTRL1", 0x32}, | ||
1101 | {"A_ST_CTRL2", 0x33}, | ||
1102 | {"A_ST_SQ_WR", 0x34}, | ||
1103 | {"R_TX_OFF", 0x34}, | ||
1104 | {"R_SYNC_CTRL", 0x35}, | ||
1105 | {"A_ST_CLK_DLY", 0x37}, | ||
1106 | {"R_PWM0", 0x38}, | ||
1107 | {"R_PWM1", 0x39}, | ||
1108 | {"A_ST_B1_TX", 0x3C}, | ||
1109 | {"A_ST_B2_TX", 0x3D}, | ||
1110 | {"A_ST_D_TX", 0x3E}, | ||
1111 | {"R_GPIO_OUT0", 0x40}, | ||
1112 | {"R_GPIO_OUT1", 0x41}, | ||
1113 | {"R_GPIO_EN0", 0x42}, | ||
1114 | {"R_GPIO_EN1", 0x43}, | ||
1115 | {"R_GPIO_SEL", 0x44}, | ||
1116 | {"R_BRG_CTRL", 0x45}, | ||
1117 | {"R_PWM_MD", 0x46}, | ||
1118 | {"R_BRG_MD", 0x47}, | ||
1119 | {"R_BRG_TIM0", 0x48}, | ||
1120 | {"R_BRG_TIM1", 0x49}, | ||
1121 | {"R_BRG_TIM2", 0x4A}, | ||
1122 | {"R_BRG_TIM3", 0x4B}, | ||
1123 | {"R_BRG_TIM_SEL01", 0x4C}, | ||
1124 | {"R_BRG_TIM_SEL23", 0x4D}, | ||
1125 | {"R_BRG_TIM_SEL45", 0x4E}, | ||
1126 | {"R_BRG_TIM_SEL67", 0x4F}, | ||
1127 | {"A_FIFO_DATA0-2", 0x80}, | ||
1128 | {"A_FIFO_DATA0-2_NOINC", 0x84}, | ||
1129 | {"R_RAM_DATA", 0xC0}, | ||
1130 | {"A_SL_CFG", 0xD0}, | ||
1131 | {"A_CONF", 0xD1}, | ||
1132 | {"A_CH_MSK", 0xF4}, | ||
1133 | {"A_CON_HDLC", 0xFA}, | ||
1134 | {"A_SUBCH_CFG", 0xFB}, | ||
1135 | {"A_CHANNEL", 0xFC}, | ||
1136 | {"A_FIFO_SEQ", 0xFD}, | ||
1137 | {"A_IRQ_MSK", 0xFF}, | ||
1138 | {NULL, 0}, | ||
1139 | |||
1140 | /* read registers */ | ||
1141 | {"A_Z1", 0x04}, | ||
1142 | {"A_Z1H", 0x05}, | ||
1143 | {"A_Z2", 0x06}, | ||
1144 | {"A_Z2H", 0x07}, | ||
1145 | {"A_F1", 0x0C}, | ||
1146 | {"A_F2", 0x0D}, | ||
1147 | {"R_IRQ_OVIEW", 0x10}, | ||
1148 | {"R_IRQ_MISC", 0x11}, | ||
1149 | {"R_IRQ_STATECH", 0x12}, | ||
1150 | {"R_CONF_OFLOW", 0x14}, | ||
1151 | {"R_RAM_USE", 0x15}, | ||
1152 | {"R_CHIP_ID", 0x16}, | ||
1153 | {"R_BERT_STA", 0x17}, | ||
1154 | {"R_F0_CNTL", 0x18}, | ||
1155 | {"R_F0_CNTH", 0x19}, | ||
1156 | {"R_BERT_ECL", 0x1A}, | ||
1157 | {"R_BERT_ECH", 0x1B}, | ||
1158 | {"R_STATUS", 0x1C}, | ||
1159 | {"R_CHIP_RV", 0x1F}, | ||
1160 | {"R_STATE", 0x20}, | ||
1161 | {"R_SYNC_STA", 0x24}, | ||
1162 | {"R_RX_SL0_0", 0x25}, | ||
1163 | {"R_RX_SL0_1", 0x26}, | ||
1164 | {"R_RX_SL0_2", 0x27}, | ||
1165 | {"R_JATT_DIR", 0x2b}, | ||
1166 | {"R_SLIP", 0x2c}, | ||
1167 | {"A_ST_RD_STA", 0x30}, | ||
1168 | {"R_FAS_ECL", 0x30}, | ||
1169 | {"R_FAS_ECH", 0x31}, | ||
1170 | {"R_VIO_ECL", 0x32}, | ||
1171 | {"R_VIO_ECH", 0x33}, | ||
1172 | {"R_CRC_ECL / A_ST_SQ_RD", 0x34}, | ||
1173 | {"R_CRC_ECH", 0x35}, | ||
1174 | {"R_E_ECL", 0x36}, | ||
1175 | {"R_E_ECH", 0x37}, | ||
1176 | {"R_SA6_SA13_ECL", 0x38}, | ||
1177 | {"R_SA6_SA13_ECH", 0x39}, | ||
1178 | {"R_SA6_SA23_ECL", 0x3A}, | ||
1179 | {"R_SA6_SA23_ECH", 0x3B}, | ||
1180 | {"A_ST_B1_RX", 0x3C}, | ||
1181 | {"A_ST_B2_RX", 0x3D}, | ||
1182 | {"A_ST_D_RX", 0x3E}, | ||
1183 | {"A_ST_E_RX", 0x3F}, | ||
1184 | {"R_GPIO_IN0", 0x40}, | ||
1185 | {"R_GPIO_IN1", 0x41}, | ||
1186 | {"R_GPI_IN0", 0x44}, | ||
1187 | {"R_GPI_IN1", 0x45}, | ||
1188 | {"R_GPI_IN2", 0x46}, | ||
1189 | {"R_GPI_IN3", 0x47}, | ||
1190 | {"A_FIFO_DATA0-2", 0x80}, | ||
1191 | {"A_FIFO_DATA0-2_NOINC", 0x84}, | ||
1192 | {"R_INT_DATA", 0x88}, | ||
1193 | {"R_RAM_DATA", 0xC0}, | ||
1194 | {"R_IRQ_FIFO_BL0", 0xC8}, | ||
1195 | {"R_IRQ_FIFO_BL1", 0xC9}, | ||
1196 | {"R_IRQ_FIFO_BL2", 0xCA}, | ||
1197 | {"R_IRQ_FIFO_BL3", 0xCB}, | ||
1198 | {"R_IRQ_FIFO_BL4", 0xCC}, | ||
1199 | {"R_IRQ_FIFO_BL5", 0xCD}, | ||
1200 | {"R_IRQ_FIFO_BL6", 0xCE}, | ||
1201 | {"R_IRQ_FIFO_BL7", 0xCF}, | ||
1202 | }; | ||
1203 | #endif /* HFC_REGISTER_DEBUG */ | ||
1204 | |||
diff --git a/drivers/isdn/hardware/mISDN/hfcmulti.c b/drivers/isdn/hardware/mISDN/hfcmulti.c new file mode 100644 index 000000000000..2649ea55a9e8 --- /dev/null +++ b/drivers/isdn/hardware/mISDN/hfcmulti.c | |||
@@ -0,0 +1,5320 @@ | |||
1 | /* | ||
2 | * hfcmulti.c low level driver for hfc-4s/hfc-8s/hfc-e1 based cards | ||
3 | * | ||
4 | * Author Andreas Eversberg (jolly@eversberg.eu) | ||
5 | * ported to mqueue mechanism: | ||
6 | * Peter Sprenger (sprengermoving-bytes.de) | ||
7 | * | ||
8 | * inspired by existing hfc-pci driver: | ||
9 | * Copyright 1999 by Werner Cornelius (werner@isdn-development.de) | ||
10 | * Copyright 2008 by Karsten Keil (kkeil@suse.de) | ||
11 | * Copyright 2008 by Andreas Eversberg (jolly@eversberg.eu) | ||
12 | * | ||
13 | * This program is free software; you can redistribute it and/or modify | ||
14 | * it under the terms of the GNU General Public License as published by | ||
15 | * the Free Software Foundation; either version 2, or (at your option) | ||
16 | * any later version. | ||
17 | * | ||
18 | * This program is distributed in the hope that it will be useful, | ||
19 | * but WITHOUT ANY WARRANTY; without even the implied warranty of | ||
20 | * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the | ||
21 | * GNU General Public License for more details. | ||
22 | * | ||
23 | * You should have received a copy of the GNU General Public License | ||
24 | * along with this program; if not, write to the Free Software | ||
25 | * Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. | ||
26 | * | ||
27 | * | ||
28 | * Thanks to Cologne Chip AG for this great controller! | ||
29 | */ | ||
30 | |||
31 | /* | ||
32 | * module parameters: | ||
33 | * type: | ||
34 | * By default (0), the card is automatically detected. | ||
35 | * Or use the following combinations: | ||
36 | * Bit 0-7 = 0x00001 = HFC-E1 (1 port) | ||
37 | * or Bit 0-7 = 0x00004 = HFC-4S (4 ports) | ||
38 | * or Bit 0-7 = 0x00008 = HFC-8S (8 ports) | ||
39 | * Bit 8 = 0x00100 = uLaw (instead of aLaw) | ||
40 | * Bit 9 = 0x00200 = Disable DTMF detect on all B-channels via hardware | ||
41 | * Bit 10 = spare | ||
42 | * Bit 11 = 0x00800 = Force PCM bus into slave mode. (otherwhise auto) | ||
43 | * or Bit 12 = 0x01000 = Force PCM bus into master mode. (otherwhise auto) | ||
44 | * Bit 13 = spare | ||
45 | * Bit 14 = 0x04000 = Use external ram (128K) | ||
46 | * Bit 15 = 0x08000 = Use external ram (512K) | ||
47 | * Bit 16 = 0x10000 = Use 64 timeslots instead of 32 | ||
48 | * or Bit 17 = 0x20000 = Use 128 timeslots instead of anything else | ||
49 | * Bit 18 = spare | ||
50 | * Bit 19 = 0x80000 = Send the Watchdog a Signal (Dual E1 with Watchdog) | ||
51 | * (all other bits are reserved and shall be 0) | ||
52 | * example: 0x20204 one HFC-4S with dtmf detection and 128 timeslots on PCM | ||
53 | * bus (PCM master) | ||
54 | * | ||
55 | * port: (optional or required for all ports on all installed cards) | ||
56 | * HFC-4S/HFC-8S only bits: | ||
57 | * Bit 0 = 0x001 = Use master clock for this S/T interface | ||
58 | * (ony once per chip). | ||
59 | * Bit 1 = 0x002 = transmitter line setup (non capacitive mode) | ||
60 | * Don't use this unless you know what you are doing! | ||
61 | * Bit 2 = 0x004 = Disable E-channel. (No E-channel processing) | ||
62 | * example: 0x0001,0x0000,0x0000,0x0000 one HFC-4S with master clock | ||
63 | * received from port 1 | ||
64 | * | ||
65 | * HFC-E1 only bits: | ||
66 | * Bit 0 = 0x0001 = interface: 0=copper, 1=optical | ||
67 | * Bit 1 = 0x0002 = reserved (later for 32 B-channels transparent mode) | ||
68 | * Bit 2 = 0x0004 = Report LOS | ||
69 | * Bit 3 = 0x0008 = Report AIS | ||
70 | * Bit 4 = 0x0010 = Report SLIP | ||
71 | * Bit 5 = 0x0020 = Report RDI | ||
72 | * Bit 8 = 0x0100 = Turn off CRC-4 Multiframe Mode, use double frame | ||
73 | * mode instead. | ||
74 | * Bit 9 = 0x0200 = Force get clock from interface, even in NT mode. | ||
75 | * or Bit 10 = 0x0400 = Force put clock to interface, even in TE mode. | ||
76 | * Bit 11 = 0x0800 = Use direct RX clock for PCM sync rather than PLL. | ||
77 | * (E1 only) | ||
78 | * Bit 12-13 = 0xX000 = elastic jitter buffer (1-3), Set both bits to 0 | ||
79 | * for default. | ||
80 | * (all other bits are reserved and shall be 0) | ||
81 | * | ||
82 | * debug: | ||
83 | * NOTE: only one debug value must be given for all cards | ||
84 | * enable debugging (see hfc_multi.h for debug options) | ||
85 | * | ||
86 | * poll: | ||
87 | * NOTE: only one poll value must be given for all cards | ||
88 | * Give the number of samples for each fifo process. | ||
89 | * By default 128 is used. Decrease to reduce delay, increase to | ||
90 | * reduce cpu load. If unsure, don't mess with it! | ||
91 | * Valid is 8, 16, 32, 64, 128, 256. | ||
92 | * | ||
93 | * pcm: | ||
94 | * NOTE: only one pcm value must be given for every card. | ||
95 | * The PCM bus id tells the mISDNdsp module about the connected PCM bus. | ||
96 | * By default (0), the PCM bus id is 100 for the card that is PCM master. | ||
97 | * If multiple cards are PCM master (because they are not interconnected), | ||
98 | * each card with PCM master will have increasing PCM id. | ||
99 | * All PCM busses with the same ID are expected to be connected and have | ||
100 | * common time slots slots. | ||
101 | * Only one chip of the PCM bus must be master, the others slave. | ||
102 | * -1 means no support of PCM bus not even. | ||
103 | * Omit this value, if all cards are interconnected or none is connected. | ||
104 | * If unsure, don't give this parameter. | ||
105 | * | ||
106 | * dslot: | ||
107 | * NOTE: only one poll value must be given for every card. | ||
108 | * Also this value must be given for non-E1 cards. If omitted, the E1 | ||
109 | * card has D-channel on time slot 16, which is default. | ||
110 | * If 1..15 or 17..31, an alternate time slot is used for D-channel. | ||
111 | * In this case, the application must be able to handle this. | ||
112 | * If -1 is given, the D-channel is disabled and all 31 slots can be used | ||
113 | * for B-channel. (only for specific applications) | ||
114 | * If you don't know how to use it, you don't need it! | ||
115 | * | ||
116 | * iomode: | ||
117 | * NOTE: only one mode value must be given for every card. | ||
118 | * -> See hfc_multi.h for HFC_IO_MODE_* values | ||
119 | * By default, the IO mode is pci memory IO (MEMIO). | ||
120 | * Some cards requre specific IO mode, so it cannot be changed. | ||
121 | * It may be usefull to set IO mode to register io (REGIO) to solve | ||
122 | * PCI bridge problems. | ||
123 | * If unsure, don't give this parameter. | ||
124 | * | ||
125 | * clockdelay_nt: | ||
126 | * NOTE: only one clockdelay_nt value must be given once for all cards. | ||
127 | * Give the value of the clock control register (A_ST_CLK_DLY) | ||
128 | * of the S/T interfaces in NT mode. | ||
129 | * This register is needed for the TBR3 certification, so don't change it. | ||
130 | * | ||
131 | * clockdelay_te: | ||
132 | * NOTE: only one clockdelay_te value must be given once | ||
133 | * Give the value of the clock control register (A_ST_CLK_DLY) | ||
134 | * of the S/T interfaces in TE mode. | ||
135 | * This register is needed for the TBR3 certification, so don't change it. | ||
136 | */ | ||
137 | |||
138 | /* | ||
139 | * debug register access (never use this, it will flood your system log) | ||
140 | * #define HFC_REGISTER_DEBUG | ||
141 | */ | ||
142 | |||
143 | static const char *hfcmulti_revision = "2.00"; | ||
144 | |||
145 | #include <linux/module.h> | ||
146 | #include <linux/pci.h> | ||
147 | #include <linux/delay.h> | ||
148 | #include <linux/mISDNhw.h> | ||
149 | #include <linux/mISDNdsp.h> | ||
150 | |||
151 | /* | ||
152 | #define IRQCOUNT_DEBUG | ||
153 | #define IRQ_DEBUG | ||
154 | */ | ||
155 | |||
156 | #include "hfc_multi.h" | ||
157 | #ifdef ECHOPREP | ||
158 | #include "gaintab.h" | ||
159 | #endif | ||
160 | |||
161 | #define MAX_CARDS 8 | ||
162 | #define MAX_PORTS (8 * MAX_CARDS) | ||
163 | |||
164 | static LIST_HEAD(HFClist); | ||
165 | static spinlock_t HFClock; /* global hfc list lock */ | ||
166 | |||
167 | static void ph_state_change(struct dchannel *); | ||
168 | static void (*hfc_interrupt)(void); | ||
169 | static void (*register_interrupt)(void); | ||
170 | static int (*unregister_interrupt)(void); | ||
171 | static int interrupt_registered; | ||
172 | |||
173 | static struct hfc_multi *syncmaster; | ||
174 | int plxsd_master; /* if we have a master card (yet) */ | ||
175 | static spinlock_t plx_lock; /* may not acquire other lock inside */ | ||
176 | EXPORT_SYMBOL(plx_lock); | ||
177 | |||
178 | #define TYP_E1 1 | ||
179 | #define TYP_4S 4 | ||
180 | #define TYP_8S 8 | ||
181 | |||
182 | static int poll_timer = 6; /* default = 128 samples = 16ms */ | ||
183 | /* number of POLL_TIMER interrupts for G2 timeout (ca 1s) */ | ||
184 | static int nt_t1_count[] = { 3840, 1920, 960, 480, 240, 120, 60, 30 }; | ||
185 | #define CLKDEL_TE 0x0f /* CLKDEL in TE mode */ | ||
186 | #define CLKDEL_NT 0x6c /* CLKDEL in NT mode | ||
187 | (0x60 MUST be included!) */ | ||
188 | static u_char silence = 0xff; /* silence by LAW */ | ||
189 | |||
190 | #define DIP_4S 0x1 /* DIP Switches for Beronet 1S/2S/4S cards */ | ||
191 | #define DIP_8S 0x2 /* DIP Switches for Beronet 8S+ cards */ | ||
192 | #define DIP_E1 0x3 /* DIP Switches for Beronet E1 cards */ | ||
193 | |||
194 | /* | ||
195 | * module stuff | ||
196 | */ | ||
197 | |||
198 | static uint type[MAX_CARDS]; | ||
199 | static uint pcm[MAX_CARDS]; | ||
200 | static uint dslot[MAX_CARDS]; | ||
201 | static uint iomode[MAX_CARDS]; | ||
202 | static uint port[MAX_PORTS]; | ||
203 | static uint debug; | ||
204 | static uint poll; | ||
205 | static uint timer; | ||
206 | static uint clockdelay_te = CLKDEL_TE; | ||
207 | static uint clockdelay_nt = CLKDEL_NT; | ||
208 | |||
209 | static int HFC_cnt, Port_cnt, PCM_cnt = 99; | ||
210 | |||
211 | MODULE_AUTHOR("Andreas Eversberg"); | ||
212 | MODULE_LICENSE("GPL"); | ||
213 | module_param(debug, uint, S_IRUGO | S_IWUSR); | ||
214 | module_param(poll, uint, S_IRUGO | S_IWUSR); | ||
215 | module_param(timer, uint, S_IRUGO | S_IWUSR); | ||
216 | module_param(clockdelay_te, uint, S_IRUGO | S_IWUSR); | ||
217 | module_param(clockdelay_nt, uint, S_IRUGO | S_IWUSR); | ||
218 | module_param_array(type, uint, NULL, S_IRUGO | S_IWUSR); | ||
219 | module_param_array(pcm, uint, NULL, S_IRUGO | S_IWUSR); | ||
220 | module_param_array(dslot, uint, NULL, S_IRUGO | S_IWUSR); | ||
221 | module_param_array(iomode, uint, NULL, S_IRUGO | S_IWUSR); | ||
222 | module_param_array(port, uint, NULL, S_IRUGO | S_IWUSR); | ||
223 | |||
224 | #ifdef HFC_REGISTER_DEBUG | ||
225 | #define HFC_outb(hc, reg, val) \ | ||
226 | (hc->HFC_outb(hc, reg, val, __func__, __LINE__)) | ||
227 | #define HFC_outb_nodebug(hc, reg, val) \ | ||
228 | (hc->HFC_outb_nodebug(hc, reg, val, __func__, __LINE__)) | ||
229 | #define HFC_inb(hc, reg) \ | ||
230 | (hc->HFC_inb(hc, reg, __func__, __LINE__)) | ||
231 | #define HFC_inb_nodebug(hc, reg) \ | ||
232 | (hc->HFC_inb_nodebug(hc, reg, __func__, __LINE__)) | ||
233 | #define HFC_inw(hc, reg) \ | ||
234 | (hc->HFC_inw(hc, reg, __func__, __LINE__)) | ||
235 | #define HFC_inw_nodebug(hc, reg) \ | ||
236 | (hc->HFC_inw_nodebug(hc, reg, __func__, __LINE__)) | ||
237 | #define HFC_wait(hc) \ | ||
238 | (hc->HFC_wait(hc, __func__, __LINE__)) | ||
239 | #define HFC_wait_nodebug(hc) \ | ||
240 | (hc->HFC_wait_nodebug(hc, __func__, __LINE__)) | ||
241 | #else | ||
242 | #define HFC_outb(hc, reg, val) (hc->HFC_outb(hc, reg, val)) | ||
243 | #define HFC_outb_nodebug(hc, reg, val) (hc->HFC_outb_nodebug(hc, reg, val)) | ||
244 | #define HFC_inb(hc, reg) (hc->HFC_inb(hc, reg)) | ||
245 | #define HFC_inb_nodebug(hc, reg) (hc->HFC_inb_nodebug(hc, reg)) | ||
246 | #define HFC_inw(hc, reg) (hc->HFC_inw(hc, reg)) | ||
247 | #define HFC_inw_nodebug(hc, reg) (hc->HFC_inw_nodebug(hc, reg)) | ||
248 | #define HFC_wait(hc) (hc->HFC_wait(hc)) | ||
249 | #define HFC_wait_nodebug(hc) (hc->HFC_wait_nodebug(hc)) | ||
250 | #endif | ||
251 | |||
252 | /* HFC_IO_MODE_PCIMEM */ | ||
253 | static void | ||
254 | #ifdef HFC_REGISTER_DEBUG | ||
255 | HFC_outb_pcimem(struct hfc_multi *hc, u_char reg, u_char val, | ||
256 | const char *function, int line) | ||
257 | #else | ||
258 | HFC_outb_pcimem(struct hfc_multi *hc, u_char reg, u_char val) | ||
259 | #endif | ||
260 | { | ||
261 | writeb(val, (hc->pci_membase)+reg); | ||
262 | } | ||
263 | static u_char | ||
264 | #ifdef HFC_REGISTER_DEBUG | ||
265 | HFC_inb_pcimem(struct hfc_multi *hc, u_char reg, const char *function, int line) | ||
266 | #else | ||
267 | HFC_inb_pcimem(struct hfc_multi *hc, u_char reg) | ||
268 | #endif | ||
269 | { | ||
270 | return readb((hc->pci_membase)+reg); | ||
271 | } | ||
272 | static u_short | ||
273 | #ifdef HFC_REGISTER_DEBUG | ||
274 | HFC_inw_pcimem(struct hfc_multi *hc, u_char reg, const char *function, int line) | ||
275 | #else | ||
276 | HFC_inw_pcimem(struct hfc_multi *hc, u_char reg) | ||
277 | #endif | ||
278 | { | ||
279 | return readw((hc->pci_membase)+reg); | ||
280 | } | ||
281 | static void | ||
282 | #ifdef HFC_REGISTER_DEBUG | ||
283 | HFC_wait_pcimem(struct hfc_multi *hc, const char *function, int line) | ||
284 | #else | ||
285 | HFC_wait_pcimem(struct hfc_multi *hc) | ||
286 | #endif | ||
287 | { | ||
288 | while (readb((hc->pci_membase)+R_STATUS) & V_BUSY); | ||
289 | } | ||
290 | |||
291 | /* HFC_IO_MODE_REGIO */ | ||
292 | static void | ||
293 | #ifdef HFC_REGISTER_DEBUG | ||
294 | HFC_outb_regio(struct hfc_multi *hc, u_char reg, u_char val, | ||
295 | const char *function, int line) | ||
296 | #else | ||
297 | HFC_outb_regio(struct hfc_multi *hc, u_char reg, u_char val) | ||
298 | #endif | ||
299 | { | ||
300 | outb(reg, (hc->pci_iobase)+4); | ||
301 | outb(val, hc->pci_iobase); | ||
302 | } | ||
303 | static u_char | ||
304 | #ifdef HFC_REGISTER_DEBUG | ||
305 | HFC_inb_regio(struct hfc_multi *hc, u_char reg, const char *function, int line) | ||
306 | #else | ||
307 | HFC_inb_regio(struct hfc_multi *hc, u_char reg) | ||
308 | #endif | ||
309 | { | ||
310 | outb(reg, (hc->pci_iobase)+4); | ||
311 | return inb(hc->pci_iobase); | ||
312 | } | ||
313 | static u_short | ||
314 | #ifdef HFC_REGISTER_DEBUG | ||
315 | HFC_inw_regio(struct hfc_multi *hc, u_char reg, const char *function, int line) | ||
316 | #else | ||
317 | HFC_inw_regio(struct hfc_multi *hc, u_char reg) | ||
318 | #endif | ||
319 | { | ||
320 | outb(reg, (hc->pci_iobase)+4); | ||
321 | return inw(hc->pci_iobase); | ||
322 | } | ||
323 | static void | ||
324 | #ifdef HFC_REGISTER_DEBUG | ||
325 | HFC_wait_regio(struct hfc_multi *hc, const char *function, int line) | ||
326 | #else | ||
327 | HFC_wait_regio(struct hfc_multi *hc) | ||
328 | #endif | ||
329 | { | ||
330 | outb(R_STATUS, (hc->pci_iobase)+4); | ||
331 | while (inb(hc->pci_iobase) & V_BUSY); | ||
332 | } | ||
333 | |||
334 | #ifdef HFC_REGISTER_DEBUG | ||
335 | static void | ||
336 | HFC_outb_debug(struct hfc_multi *hc, u_char reg, u_char val, | ||
337 | const char *function, int line) | ||
338 | { | ||
339 | char regname[256] = "", bits[9] = "xxxxxxxx"; | ||
340 | int i; | ||
341 | |||
342 | i = -1; | ||
343 | while (hfc_register_names[++i].name) { | ||
344 | if (hfc_register_names[i].reg == reg) | ||
345 | strcat(regname, hfc_register_names[i].name); | ||
346 | } | ||
347 | if (regname[0] == '\0') | ||
348 | strcpy(regname, "register"); | ||
349 | |||
350 | bits[7] = '0'+(!!(val&1)); | ||
351 | bits[6] = '0'+(!!(val&2)); | ||
352 | bits[5] = '0'+(!!(val&4)); | ||
353 | bits[4] = '0'+(!!(val&8)); | ||
354 | bits[3] = '0'+(!!(val&16)); | ||
355 | bits[2] = '0'+(!!(val&32)); | ||
356 | bits[1] = '0'+(!!(val&64)); | ||
357 | bits[0] = '0'+(!!(val&128)); | ||
358 | printk(KERN_DEBUG | ||
359 | "HFC_outb(chip %d, %02x=%s, 0x%02x=%s); in %s() line %d\n", | ||
360 | hc->id, reg, regname, val, bits, function, line); | ||
361 | HFC_outb_nodebug(hc, reg, val); | ||
362 | } | ||
363 | static u_char | ||
364 | HFC_inb_debug(struct hfc_multi *hc, u_char reg, const char *function, int line) | ||
365 | { | ||
366 | char regname[256] = "", bits[9] = "xxxxxxxx"; | ||
367 | u_char val = HFC_inb_nodebug(hc, reg); | ||
368 | int i; | ||
369 | |||
370 | i = 0; | ||
371 | while (hfc_register_names[i++].name) | ||
372 | ; | ||
373 | while (hfc_register_names[++i].name) { | ||
374 | if (hfc_register_names[i].reg == reg) | ||
375 | strcat(regname, hfc_register_names[i].name); | ||
376 | } | ||
377 | if (regname[0] == '\0') | ||
378 | strcpy(regname, "register"); | ||
379 | |||
380 | bits[7] = '0'+(!!(val&1)); | ||
381 | bits[6] = '0'+(!!(val&2)); | ||
382 | bits[5] = '0'+(!!(val&4)); | ||
383 | bits[4] = '0'+(!!(val&8)); | ||
384 | bits[3] = '0'+(!!(val&16)); | ||
385 | bits[2] = '0'+(!!(val&32)); | ||
386 | bits[1] = '0'+(!!(val&64)); | ||
387 | bits[0] = '0'+(!!(val&128)); | ||
388 | printk(KERN_DEBUG | ||
389 | "HFC_inb(chip %d, %02x=%s) = 0x%02x=%s; in %s() line %d\n", | ||
390 | hc->id, reg, regname, val, bits, function, line); | ||
391 | return val; | ||
392 | } | ||
393 | static u_short | ||
394 | HFC_inw_debug(struct hfc_multi *hc, u_char reg, const char *function, int line) | ||
395 | { | ||
396 | char regname[256] = ""; | ||
397 | u_short val = HFC_inw_nodebug(hc, reg); | ||
398 | int i; | ||
399 | |||
400 | i = 0; | ||
401 | while (hfc_register_names[i++].name) | ||
402 | ; | ||
403 | while (hfc_register_names[++i].name) { | ||
404 | if (hfc_register_names[i].reg == reg) | ||
405 | strcat(regname, hfc_register_names[i].name); | ||
406 | } | ||
407 | if (regname[0] == '\0') | ||
408 | strcpy(regname, "register"); | ||
409 | |||
410 | printk(KERN_DEBUG | ||
411 | "HFC_inw(chip %d, %02x=%s) = 0x%04x; in %s() line %d\n", | ||
412 | hc->id, reg, regname, val, function, line); | ||
413 | return val; | ||
414 | } | ||
415 | static void | ||
416 | HFC_wait_debug(struct hfc_multi *hc, const char *function, int line) | ||
417 | { | ||
418 | printk(KERN_DEBUG "HFC_wait(chip %d); in %s() line %d\n", | ||
419 | hc->id, function, line); | ||
420 | HFC_wait_nodebug(hc); | ||
421 | } | ||
422 | #endif | ||
423 | |||
424 | /* write fifo data (REGIO) */ | ||
425 | void | ||
426 | write_fifo_regio(struct hfc_multi *hc, u_char *data, int len) | ||
427 | { | ||
428 | outb(A_FIFO_DATA0, (hc->pci_iobase)+4); | ||
429 | while (len>>2) { | ||
430 | outl(*(u32 *)data, hc->pci_iobase); | ||
431 | data += 4; | ||
432 | len -= 4; | ||
433 | } | ||
434 | while (len>>1) { | ||
435 | outw(*(u16 *)data, hc->pci_iobase); | ||
436 | data += 2; | ||
437 | len -= 2; | ||
438 | } | ||
439 | while (len) { | ||
440 | outb(*data, hc->pci_iobase); | ||
441 | data++; | ||
442 | len--; | ||
443 | } | ||
444 | } | ||
445 | /* write fifo data (PCIMEM) */ | ||
446 | void | ||
447 | write_fifo_pcimem(struct hfc_multi *hc, u_char *data, int len) | ||
448 | { | ||
449 | while (len>>2) { | ||
450 | writel(*(u32 *)data, (hc->pci_membase)+A_FIFO_DATA0); | ||
451 | data += 4; | ||
452 | len -= 4; | ||
453 | } | ||
454 | while (len>>1) { | ||
455 | writew(*(u16 *)data, (hc->pci_membase)+A_FIFO_DATA0); | ||
456 | data += 2; | ||
457 | len -= 2; | ||
458 | } | ||
459 | while (len) { | ||
460 | writeb(*data, (hc->pci_membase)+A_FIFO_DATA0); | ||
461 | data++; | ||
462 | len--; | ||
463 | } | ||
464 | } | ||
465 | /* read fifo data (REGIO) */ | ||
466 | void | ||
467 | read_fifo_regio(struct hfc_multi *hc, u_char *data, int len) | ||
468 | { | ||
469 | outb(A_FIFO_DATA0, (hc->pci_iobase)+4); | ||
470 | while (len>>2) { | ||
471 | *(u32 *)data = inl(hc->pci_iobase); | ||
472 | data += 4; | ||
473 | len -= 4; | ||
474 | } | ||
475 | while (len>>1) { | ||
476 | *(u16 *)data = inw(hc->pci_iobase); | ||
477 | data += 2; | ||
478 | len -= 2; | ||
479 | } | ||
480 | while (len) { | ||
481 | *data = inb(hc->pci_iobase); | ||
482 | data++; | ||
483 | len--; | ||
484 | } | ||
485 | } | ||
486 | |||
487 | /* read fifo data (PCIMEM) */ | ||
488 | void | ||
489 | read_fifo_pcimem(struct hfc_multi *hc, u_char *data, int len) | ||
490 | { | ||
491 | while (len>>2) { | ||
492 | *(u32 *)data = | ||
493 | readl((hc->pci_membase)+A_FIFO_DATA0); | ||
494 | data += 4; | ||
495 | len -= 4; | ||
496 | } | ||
497 | while (len>>1) { | ||
498 | *(u16 *)data = | ||
499 | readw((hc->pci_membase)+A_FIFO_DATA0); | ||
500 | data += 2; | ||
501 | len -= 2; | ||
502 | } | ||
503 | while (len) { | ||
504 | *data = readb((hc->pci_membase)+A_FIFO_DATA0); | ||
505 | data++; | ||
506 | len--; | ||
507 | } | ||
508 | } | ||
509 | |||
510 | |||
511 | static void | ||
512 | enable_hwirq(struct hfc_multi *hc) | ||
513 | { | ||
514 | hc->hw.r_irq_ctrl |= V_GLOB_IRQ_EN; | ||
515 | HFC_outb(hc, R_IRQ_CTRL, hc->hw.r_irq_ctrl); | ||
516 | } | ||
517 | |||
518 | static void | ||
519 | disable_hwirq(struct hfc_multi *hc) | ||
520 | { | ||
521 | hc->hw.r_irq_ctrl &= ~((u_char)V_GLOB_IRQ_EN); | ||
522 | HFC_outb(hc, R_IRQ_CTRL, hc->hw.r_irq_ctrl); | ||
523 | } | ||
524 | |||
525 | #define NUM_EC 2 | ||
526 | #define MAX_TDM_CHAN 32 | ||
527 | |||
528 | |||
529 | inline void | ||
530 | enablepcibridge(struct hfc_multi *c) | ||
531 | { | ||
532 | HFC_outb(c, R_BRG_PCM_CFG, (0x0 << 6) | 0x3); /* was _io before */ | ||
533 | } | ||
534 | |||
535 | inline void | ||
536 | disablepcibridge(struct hfc_multi *c) | ||
537 | { | ||
538 | HFC_outb(c, R_BRG_PCM_CFG, (0x0 << 6) | 0x2); /* was _io before */ | ||
539 | } | ||
540 | |||
541 | inline unsigned char | ||
542 | readpcibridge(struct hfc_multi *hc, unsigned char address) | ||
543 | { | ||
544 | unsigned short cipv; | ||
545 | unsigned char data; | ||
546 | |||
547 | if (!hc->pci_iobase) | ||
548 | return 0; | ||
549 | |||
550 | /* slow down a PCI read access by 1 PCI clock cycle */ | ||
551 | HFC_outb(hc, R_CTRL, 0x4); /*was _io before*/ | ||
552 | |||
553 | if (address == 0) | ||
554 | cipv = 0x4000; | ||
555 | else | ||
556 | cipv = 0x5800; | ||
557 | |||
558 | /* select local bridge port address by writing to CIP port */ | ||
559 | /* data = HFC_inb(c, cipv); * was _io before */ | ||
560 | outw(cipv, hc->pci_iobase + 4); | ||
561 | data = inb(hc->pci_iobase); | ||
562 | |||
563 | /* restore R_CTRL for normal PCI read cycle speed */ | ||
564 | HFC_outb(hc, R_CTRL, 0x0); /* was _io before */ | ||
565 | |||
566 | return data; | ||
567 | } | ||
568 | |||
569 | inline void | ||
570 | writepcibridge(struct hfc_multi *hc, unsigned char address, unsigned char data) | ||
571 | { | ||
572 | unsigned short cipv; | ||
573 | unsigned int datav; | ||
574 | |||
575 | if (!hc->pci_iobase) | ||
576 | return; | ||
577 | |||
578 | if (address == 0) | ||
579 | cipv = 0x4000; | ||
580 | else | ||
581 | cipv = 0x5800; | ||
582 | |||
583 | /* select local bridge port address by writing to CIP port */ | ||
584 | outw(cipv, hc->pci_iobase + 4); | ||
585 | /* define a 32 bit dword with 4 identical bytes for write sequence */ | ||
586 | datav = data | ((__u32) data << 8) | ((__u32) data << 16) | | ||
587 | ((__u32) data << 24); | ||
588 | |||
589 | /* | ||
590 | * write this 32 bit dword to the bridge data port | ||
591 | * this will initiate a write sequence of up to 4 writes to the same | ||
592 | * address on the local bus interface the number of write accesses | ||
593 | * is undefined but >=1 and depends on the next PCI transaction | ||
594 | * during write sequence on the local bus | ||
595 | */ | ||
596 | outl(datav, hc->pci_iobase); | ||
597 | } | ||
598 | |||
599 | inline void | ||
600 | cpld_set_reg(struct hfc_multi *hc, unsigned char reg) | ||
601 | { | ||
602 | /* Do data pin read low byte */ | ||
603 | HFC_outb(hc, R_GPIO_OUT1, reg); | ||
604 | } | ||
605 | |||
606 | inline void | ||
607 | cpld_write_reg(struct hfc_multi *hc, unsigned char reg, unsigned char val) | ||
608 | { | ||
609 | cpld_set_reg(hc, reg); | ||
610 | |||
611 | enablepcibridge(hc); | ||
612 | writepcibridge(hc, 1, val); | ||
613 | disablepcibridge(hc); | ||
614 | |||
615 | return; | ||
616 | } | ||
617 | |||
618 | inline unsigned char | ||
619 | cpld_read_reg(struct hfc_multi *hc, unsigned char reg) | ||
620 | { | ||
621 | unsigned char bytein; | ||
622 | |||
623 | cpld_set_reg(hc, reg); | ||
624 | |||
625 | /* Do data pin read low byte */ | ||
626 | HFC_outb(hc, R_GPIO_OUT1, reg); | ||
627 | |||
628 | enablepcibridge(hc); | ||
629 | bytein = readpcibridge(hc, 1); | ||
630 | disablepcibridge(hc); | ||
631 | |||
632 | return bytein; | ||
633 | } | ||
634 | |||
635 | inline void | ||
636 | vpm_write_address(struct hfc_multi *hc, unsigned short addr) | ||
637 | { | ||
638 | cpld_write_reg(hc, 0, 0xff & addr); | ||
639 | cpld_write_reg(hc, 1, 0x01 & (addr >> 8)); | ||
640 | } | ||
641 | |||
642 | inline unsigned short | ||
643 | vpm_read_address(struct hfc_multi *c) | ||
644 | { | ||
645 | unsigned short addr; | ||
646 | unsigned short highbit; | ||
647 | |||
648 | addr = cpld_read_reg(c, 0); | ||
649 | highbit = cpld_read_reg(c, 1); | ||
650 | |||
651 | addr = addr | (highbit << 8); | ||
652 | |||
653 | return addr & 0x1ff; | ||
654 | } | ||
655 | |||
656 | inline unsigned char | ||
657 | vpm_in(struct hfc_multi *c, int which, unsigned short addr) | ||
658 | { | ||
659 | unsigned char res; | ||
660 | |||
661 | vpm_write_address(c, addr); | ||
662 | |||
663 | if (!which) | ||
664 | cpld_set_reg(c, 2); | ||
665 | else | ||
666 | cpld_set_reg(c, 3); | ||
667 | |||
668 | enablepcibridge(c); | ||
669 | res = readpcibridge(c, 1); | ||
670 | disablepcibridge(c); | ||
671 | |||
672 | cpld_set_reg(c, 0); | ||
673 | |||
674 | return res; | ||
675 | } | ||
676 | |||
677 | inline void | ||
678 | vpm_out(struct hfc_multi *c, int which, unsigned short addr, | ||
679 | unsigned char data) | ||
680 | { | ||
681 | vpm_write_address(c, addr); | ||
682 | |||
683 | enablepcibridge(c); | ||
684 | |||
685 | if (!which) | ||
686 | cpld_set_reg(c, 2); | ||
687 | else | ||
688 | cpld_set_reg(c, 3); | ||
689 | |||
690 | writepcibridge(c, 1, data); | ||
691 | |||
692 | cpld_set_reg(c, 0); | ||
693 | |||
694 | disablepcibridge(c); | ||
695 | |||
696 | { | ||
697 | unsigned char regin; | ||
698 | regin = vpm_in(c, which, addr); | ||
699 | if (regin != data) | ||
700 | printk(KERN_DEBUG "Wrote 0x%x to register 0x%x but got back " | ||
701 | "0x%x\n", data, addr, regin); | ||
702 | } | ||
703 | |||
704 | } | ||
705 | |||
706 | |||
707 | void | ||
708 | vpm_init(struct hfc_multi *wc) | ||
709 | { | ||
710 | unsigned char reg; | ||
711 | unsigned int mask; | ||
712 | unsigned int i, x, y; | ||
713 | unsigned int ver; | ||
714 | |||
715 | for (x = 0; x < NUM_EC; x++) { | ||
716 | /* Setup GPIO's */ | ||
717 | if (!x) { | ||
718 | ver = vpm_in(wc, x, 0x1a0); | ||
719 | printk(KERN_DEBUG "VPM: Chip %d: ver %02x\n", x, ver); | ||
720 | } | ||
721 | |||
722 | for (y = 0; y < 4; y++) { | ||
723 | vpm_out(wc, x, 0x1a8 + y, 0x00); /* GPIO out */ | ||
724 | vpm_out(wc, x, 0x1ac + y, 0x00); /* GPIO dir */ | ||
725 | vpm_out(wc, x, 0x1b0 + y, 0x00); /* GPIO sel */ | ||
726 | } | ||
727 | |||
728 | /* Setup TDM path - sets fsync and tdm_clk as inputs */ | ||
729 | reg = vpm_in(wc, x, 0x1a3); /* misc_con */ | ||
730 | vpm_out(wc, x, 0x1a3, reg & ~2); | ||
731 | |||
732 | /* Setup Echo length (256 taps) */ | ||
733 | vpm_out(wc, x, 0x022, 1); | ||
734 | vpm_out(wc, x, 0x023, 0xff); | ||
735 | |||
736 | /* Setup timeslots */ | ||
737 | vpm_out(wc, x, 0x02f, 0x00); | ||
738 | mask = 0x02020202 << (x * 4); | ||
739 | |||
740 | /* Setup the tdm channel masks for all chips */ | ||
741 | for (i = 0; i < 4; i++) | ||
742 | vpm_out(wc, x, 0x33 - i, (mask >> (i << 3)) & 0xff); | ||
743 | |||
744 | /* Setup convergence rate */ | ||
745 | printk(KERN_DEBUG "VPM: A-law mode\n"); | ||
746 | reg = 0x00 | 0x10 | 0x01; | ||
747 | vpm_out(wc, x, 0x20, reg); | ||
748 | printk(KERN_DEBUG "VPM reg 0x20 is %x\n", reg); | ||
749 | /*vpm_out(wc, x, 0x20, (0x00 | 0x08 | 0x20 | 0x10)); */ | ||
750 | |||
751 | vpm_out(wc, x, 0x24, 0x02); | ||
752 | reg = vpm_in(wc, x, 0x24); | ||
753 | printk(KERN_DEBUG "NLP Thresh is set to %d (0x%x)\n", reg, reg); | ||
754 | |||
755 | /* Initialize echo cans */ | ||
756 | for (i = 0; i < MAX_TDM_CHAN; i++) { | ||
757 | if (mask & (0x00000001 << i)) | ||
758 | vpm_out(wc, x, i, 0x00); | ||
759 | } | ||
760 | |||
761 | /* | ||
762 | * ARM arch at least disallows a udelay of | ||
763 | * more than 2ms... it gives a fake "__bad_udelay" | ||
764 | * reference at link-time. | ||
765 | * long delays in kernel code are pretty sucky anyway | ||
766 | * for now work around it using 5 x 2ms instead of 1 x 10ms | ||
767 | */ | ||
768 | |||
769 | udelay(2000); | ||
770 | udelay(2000); | ||
771 | udelay(2000); | ||
772 | udelay(2000); | ||
773 | udelay(2000); | ||
774 | |||
775 | /* Put in bypass mode */ | ||
776 | for (i = 0; i < MAX_TDM_CHAN; i++) { | ||
777 | if (mask & (0x00000001 << i)) | ||
778 | vpm_out(wc, x, i, 0x01); | ||
779 | } | ||
780 | |||
781 | /* Enable bypass */ | ||
782 | for (i = 0; i < MAX_TDM_CHAN; i++) { | ||
783 | if (mask & (0x00000001 << i)) | ||
784 | vpm_out(wc, x, 0x78 + i, 0x01); | ||
785 | } | ||
786 | |||
787 | } | ||
788 | } | ||
789 | |||
790 | void | ||
791 | vpm_check(struct hfc_multi *hctmp) | ||
792 | { | ||
793 | unsigned char gpi2; | ||
794 | |||
795 | gpi2 = HFC_inb(hctmp, R_GPI_IN2); | ||
796 | |||
797 | if ((gpi2 & 0x3) != 0x3) | ||
798 | printk(KERN_DEBUG "Got interrupt 0x%x from VPM!\n", gpi2); | ||
799 | } | ||
800 | |||
801 | |||
802 | /* | ||
803 | * Interface to enable/disable the HW Echocan | ||
804 | * | ||
805 | * these functions are called within a spin_lock_irqsave on | ||
806 | * the channel instance lock, so we are not disturbed by irqs | ||
807 | * | ||
808 | * we can later easily change the interface to make other | ||
809 | * things configurable, for now we configure the taps | ||
810 | * | ||
811 | */ | ||
812 | |||
813 | void | ||
814 | vpm_echocan_on(struct hfc_multi *hc, int ch, int taps) | ||
815 | { | ||
816 | unsigned int timeslot; | ||
817 | unsigned int unit; | ||
818 | struct bchannel *bch = hc->chan[ch].bch; | ||
819 | #ifdef TXADJ | ||
820 | int txadj = -4; | ||
821 | struct sk_buff *skb; | ||
822 | #endif | ||
823 | if (hc->chan[ch].protocol != ISDN_P_B_RAW) | ||
824 | return; | ||
825 | |||
826 | if (!bch) | ||
827 | return; | ||
828 | |||
829 | #ifdef TXADJ | ||
830 | skb = _alloc_mISDN_skb(PH_CONTROL_IND, HFC_VOL_CHANGE_TX, | ||
831 | sizeof(int), &txadj, GFP_ATOMIC); | ||
832 | if (skb) | ||
833 | recv_Bchannel_skb(bch, skb); | ||
834 | #endif | ||
835 | |||
836 | timeslot = ((ch/4)*8) + ((ch%4)*4) + 1; | ||
837 | unit = ch % 4; | ||
838 | |||
839 | printk(KERN_NOTICE "vpm_echocan_on called taps [%d] on timeslot %d\n", | ||
840 | taps, timeslot); | ||
841 | |||
842 | vpm_out(hc, unit, timeslot, 0x7e); | ||
843 | } | ||
844 | |||
845 | void | ||
846 | vpm_echocan_off(struct hfc_multi *hc, int ch) | ||
847 | { | ||
848 | unsigned int timeslot; | ||
849 | unsigned int unit; | ||
850 | struct bchannel *bch = hc->chan[ch].bch; | ||
851 | #ifdef TXADJ | ||
852 | int txadj = 0; | ||
853 | struct sk_buff *skb; | ||
854 | #endif | ||
855 | |||
856 | if (hc->chan[ch].protocol != ISDN_P_B_RAW) | ||
857 | return; | ||
858 | |||
859 | if (!bch) | ||
860 | return; | ||
861 | |||
862 | #ifdef TXADJ | ||
863 | skb = _alloc_mISDN_skb(PH_CONTROL_IND, HFC_VOL_CHANGE_TX, | ||
864 | sizeof(int), &txadj, GFP_ATOMIC); | ||
865 | if (skb) | ||
866 | recv_Bchannel_skb(bch, skb); | ||
867 | #endif | ||
868 | |||
869 | timeslot = ((ch/4)*8) + ((ch%4)*4) + 1; | ||
870 | unit = ch % 4; | ||
871 | |||
872 | printk(KERN_NOTICE "vpm_echocan_off called on timeslot %d\n", | ||
873 | timeslot); | ||
874 | /* FILLME */ | ||
875 | vpm_out(hc, unit, timeslot, 0x01); | ||
876 | } | ||
877 | |||
878 | |||
879 | /* | ||
880 | * Speech Design resync feature | ||
881 | * NOTE: This is called sometimes outside interrupt handler. | ||
882 | * We must lock irqsave, so no other interrupt (other card) will occurr! | ||
883 | * Also multiple interrupts may nest, so must lock each access (lists, card)! | ||
884 | */ | ||
885 | static inline void | ||
886 | hfcmulti_resync(struct hfc_multi *locked, struct hfc_multi *newmaster, int rm) | ||
887 | { | ||
888 | struct hfc_multi *hc, *next, *pcmmaster = 0; | ||
889 | u_int *plx_acc_32, pv; | ||
890 | u_long flags; | ||
891 | |||
892 | spin_lock_irqsave(&HFClock, flags); | ||
893 | spin_lock(&plx_lock); /* must be locked inside other locks */ | ||
894 | |||
895 | if (debug & DEBUG_HFCMULTI_PLXSD) | ||
896 | printk(KERN_DEBUG "%s: RESYNC(syncmaster=0x%p)\n", | ||
897 | __func__, syncmaster); | ||
898 | |||
899 | /* select new master */ | ||
900 | if (newmaster) { | ||
901 | if (debug & DEBUG_HFCMULTI_PLXSD) | ||
902 | printk(KERN_DEBUG "using provided controller\n"); | ||
903 | } else { | ||
904 | list_for_each_entry_safe(hc, next, &HFClist, list) { | ||
905 | if (test_bit(HFC_CHIP_PLXSD, &hc->chip)) { | ||
906 | if (hc->syncronized) { | ||
907 | newmaster = hc; | ||
908 | break; | ||
909 | } | ||
910 | } | ||
911 | } | ||
912 | } | ||
913 | |||
914 | /* Disable sync of all cards */ | ||
915 | list_for_each_entry_safe(hc, next, &HFClist, list) { | ||
916 | if (test_bit(HFC_CHIP_PLXSD, &hc->chip)) { | ||
917 | plx_acc_32 = (u_int *)(hc->plx_membase+PLX_GPIOC); | ||
918 | pv = readl(plx_acc_32); | ||
919 | pv &= ~PLX_SYNC_O_EN; | ||
920 | writel(pv, plx_acc_32); | ||
921 | if (test_bit(HFC_CHIP_PCM_MASTER, &hc->chip)) { | ||
922 | pcmmaster = hc; | ||
923 | if (hc->type == 1) { | ||
924 | if (debug & DEBUG_HFCMULTI_PLXSD) | ||
925 | printk(KERN_DEBUG | ||
926 | "Schedule SYNC_I\n"); | ||
927 | hc->e1_resync |= 1; /* get SYNC_I */ | ||
928 | } | ||
929 | } | ||
930 | } | ||
931 | } | ||
932 | |||
933 | if (newmaster) { | ||
934 | hc = newmaster; | ||
935 | if (debug & DEBUG_HFCMULTI_PLXSD) | ||
936 | printk(KERN_DEBUG "id=%d (0x%p) = syncronized with " | ||
937 | "interface.\n", hc->id, hc); | ||
938 | /* Enable new sync master */ | ||
939 | plx_acc_32 = (u_int *)(hc->plx_membase+PLX_GPIOC); | ||
940 | pv = readl(plx_acc_32); | ||
941 | pv |= PLX_SYNC_O_EN; | ||
942 | writel(pv, plx_acc_32); | ||
943 | /* switch to jatt PLL, if not disabled by RX_SYNC */ | ||
944 | if (hc->type == 1 && !test_bit(HFC_CHIP_RX_SYNC, &hc->chip)) { | ||
945 | if (debug & DEBUG_HFCMULTI_PLXSD) | ||
946 | printk(KERN_DEBUG "Schedule jatt PLL\n"); | ||
947 | hc->e1_resync |= 2; /* switch to jatt */ | ||
948 | } | ||
949 | } else { | ||
950 | if (pcmmaster) { | ||
951 | hc = pcmmaster; | ||
952 | if (debug & DEBUG_HFCMULTI_PLXSD) | ||
953 | printk(KERN_DEBUG | ||
954 | "id=%d (0x%p) = PCM master syncronized " | ||
955 | "with QUARTZ\n", hc->id, hc); | ||
956 | if (hc->type == 1) { | ||
957 | /* Use the crystal clock for the PCM | ||
958 | master card */ | ||
959 | if (debug & DEBUG_HFCMULTI_PLXSD) | ||
960 | printk(KERN_DEBUG | ||
961 | "Schedule QUARTZ for HFC-E1\n"); | ||
962 | hc->e1_resync |= 4; /* switch quartz */ | ||
963 | } else { | ||
964 | if (debug & DEBUG_HFCMULTI_PLXSD) | ||
965 | printk(KERN_DEBUG | ||
966 | "QUARTZ is automatically " | ||
967 | "enabled by HFC-%dS\n", hc->type); | ||
968 | } | ||
969 | plx_acc_32 = (u_int *)(hc->plx_membase+PLX_GPIOC); | ||
970 | pv = readl(plx_acc_32); | ||
971 | pv |= PLX_SYNC_O_EN; | ||
972 | writel(pv, plx_acc_32); | ||
973 | } else | ||
974 | if (!rm) | ||
975 | printk(KERN_ERR "%s no pcm master, this MUST " | ||
976 | "not happen!\n", __func__); | ||
977 | } | ||
978 | syncmaster = newmaster; | ||
979 | |||
980 | spin_unlock(&plx_lock); | ||
981 | spin_unlock_irqrestore(&HFClock, flags); | ||
982 | } | ||
983 | |||
984 | /* This must be called AND hc must be locked irqsave!!! */ | ||
985 | inline void | ||
986 | plxsd_checksync(struct hfc_multi *hc, int rm) | ||
987 | { | ||
988 | if (hc->syncronized) { | ||
989 | if (syncmaster == NULL) { | ||
990 | if (debug & DEBUG_HFCMULTI_PLXSD) | ||
991 | printk(KERN_WARNING "%s: GOT sync on card %d" | ||
992 | " (id=%d)\n", __func__, hc->id + 1, | ||
993 | hc->id); | ||
994 | hfcmulti_resync(hc, hc, rm); | ||
995 | } | ||
996 | } else { | ||
997 | if (syncmaster == hc) { | ||
998 | if (debug & DEBUG_HFCMULTI_PLXSD) | ||
999 | printk(KERN_WARNING "%s: LOST sync on card %d" | ||
1000 | " (id=%d)\n", __func__, hc->id + 1, | ||
1001 | hc->id); | ||
1002 | hfcmulti_resync(hc, NULL, rm); | ||
1003 | } | ||
1004 | } | ||
1005 | } | ||
1006 | |||
1007 | |||
1008 | /* | ||
1009 | * free hardware resources used by driver | ||
1010 | */ | ||
1011 | static void | ||
1012 | release_io_hfcmulti(struct hfc_multi *hc) | ||
1013 | { | ||
1014 | u_int *plx_acc_32, pv; | ||
1015 | u_long plx_flags; | ||
1016 | |||
1017 | if (debug & DEBUG_HFCMULTI_INIT) | ||
1018 | printk(KERN_DEBUG "%s: entered\n", __func__); | ||
1019 | |||
1020 | /* soft reset also masks all interrupts */ | ||
1021 | hc->hw.r_cirm |= V_SRES; | ||
1022 | HFC_outb(hc, R_CIRM, hc->hw.r_cirm); | ||
1023 | udelay(1000); | ||
1024 | hc->hw.r_cirm &= ~V_SRES; | ||
1025 | HFC_outb(hc, R_CIRM, hc->hw.r_cirm); | ||
1026 | udelay(1000); /* instead of 'wait' that may cause locking */ | ||
1027 | |||
1028 | /* release Speech Design card, if PLX was initialized */ | ||
1029 | if (test_bit(HFC_CHIP_PLXSD, &hc->chip) && hc->plx_membase) { | ||
1030 | if (debug & DEBUG_HFCMULTI_PLXSD) | ||
1031 | printk(KERN_DEBUG "%s: release PLXSD card %d\n", | ||
1032 | __func__, hc->id + 1); | ||
1033 | spin_lock_irqsave(&plx_lock, plx_flags); | ||
1034 | plx_acc_32 = (u_int *)(hc->plx_membase+PLX_GPIOC); | ||
1035 | writel(PLX_GPIOC_INIT, plx_acc_32); | ||
1036 | pv = readl(plx_acc_32); | ||
1037 | /* Termination off */ | ||
1038 | pv &= ~PLX_TERM_ON; | ||
1039 | /* Disconnect the PCM */ | ||
1040 | pv |= PLX_SLAVE_EN_N; | ||
1041 | pv &= ~PLX_MASTER_EN; | ||
1042 | pv &= ~PLX_SYNC_O_EN; | ||
1043 | /* Put the DSP in Reset */ | ||
1044 | pv &= ~PLX_DSP_RES_N; | ||
1045 | writel(pv, plx_acc_32); | ||
1046 | if (debug & DEBUG_HFCMULTI_INIT) | ||
1047 | printk(KERN_WARNING "%s: PCM off: PLX_GPIO=%x\n", | ||
1048 | __func__, pv); | ||
1049 | spin_unlock_irqrestore(&plx_lock, plx_flags); | ||
1050 | } | ||
1051 | |||
1052 | /* disable memory mapped ports / io ports */ | ||
1053 | test_and_clear_bit(HFC_CHIP_PLXSD, &hc->chip); /* prevent resync */ | ||
1054 | pci_write_config_word(hc->pci_dev, PCI_COMMAND, 0); | ||
1055 | if (hc->pci_membase) | ||
1056 | iounmap((void *)hc->pci_membase); | ||
1057 | if (hc->plx_membase) | ||
1058 | iounmap((void *)hc->plx_membase); | ||
1059 | if (hc->pci_iobase) | ||
1060 | release_region(hc->pci_iobase, 8); | ||
1061 | |||
1062 | if (hc->pci_dev) { | ||
1063 | pci_disable_device(hc->pci_dev); | ||
1064 | pci_set_drvdata(hc->pci_dev, NULL); | ||
1065 | } | ||
1066 | if (debug & DEBUG_HFCMULTI_INIT) | ||
1067 | printk(KERN_DEBUG "%s: done\n", __func__); | ||
1068 | } | ||
1069 | |||
1070 | /* | ||
1071 | * function called to reset the HFC chip. A complete software reset of chip | ||
1072 | * and fifos is done. All configuration of the chip is done. | ||
1073 | */ | ||
1074 | |||
1075 | static int | ||
1076 | init_chip(struct hfc_multi *hc) | ||
1077 | { | ||
1078 | u_long flags, val, val2 = 0, rev; | ||
1079 | int i, err = 0; | ||
1080 | u_char r_conf_en, rval; | ||
1081 | u_int *plx_acc_32, pv; | ||
1082 | u_long plx_flags, hfc_flags; | ||
1083 | int plx_count; | ||
1084 | struct hfc_multi *pos, *next, *plx_last_hc; | ||
1085 | |||
1086 | spin_lock_irqsave(&hc->lock, flags); | ||
1087 | /* reset all registers */ | ||
1088 | memset(&hc->hw, 0, sizeof(struct hfcm_hw)); | ||
1089 | |||
1090 | /* revision check */ | ||
1091 | if (debug & DEBUG_HFCMULTI_INIT) | ||
1092 | printk(KERN_DEBUG "%s: entered\n", __func__); | ||
1093 | val = HFC_inb(hc, R_CHIP_ID)>>4; | ||
1094 | if (val != 0x8 && val != 0xc && val != 0xe) { | ||
1095 | printk(KERN_INFO "HFC_multi: unknown CHIP_ID:%x\n", (u_int)val); | ||
1096 | err = -EIO; | ||
1097 | goto out; | ||
1098 | } | ||
1099 | rev = HFC_inb(hc, R_CHIP_RV); | ||
1100 | printk(KERN_INFO | ||
1101 | "HFC_multi: detected HFC with chip ID=0x%lx revision=%ld%s\n", | ||
1102 | val, rev, (rev == 0) ? " (old FIFO handling)" : ""); | ||
1103 | if (rev == 0) { | ||
1104 | test_and_set_bit(HFC_CHIP_REVISION0, &hc->chip); | ||
1105 | printk(KERN_WARNING | ||
1106 | "HFC_multi: NOTE: Your chip is revision 0, " | ||
1107 | "ask Cologne Chip for update. Newer chips " | ||
1108 | "have a better FIFO handling. Old chips " | ||
1109 | "still work but may have slightly lower " | ||
1110 | "HDLC transmit performance.\n"); | ||
1111 | } | ||
1112 | if (rev > 1) { | ||
1113 | printk(KERN_WARNING "HFC_multi: WARNING: This driver doesn't " | ||
1114 | "consider chip revision = %ld. The chip / " | ||
1115 | "bridge may not work.\n", rev); | ||
1116 | } | ||
1117 | |||
1118 | /* set s-ram size */ | ||
1119 | hc->Flen = 0x10; | ||
1120 | hc->Zmin = 0x80; | ||
1121 | hc->Zlen = 384; | ||
1122 | hc->DTMFbase = 0x1000; | ||
1123 | if (test_bit(HFC_CHIP_EXRAM_128, &hc->chip)) { | ||
1124 | if (debug & DEBUG_HFCMULTI_INIT) | ||
1125 | printk(KERN_DEBUG "%s: changing to 128K extenal RAM\n", | ||
1126 | __func__); | ||
1127 | hc->hw.r_ctrl |= V_EXT_RAM; | ||
1128 | hc->hw.r_ram_sz = 1; | ||
1129 | hc->Flen = 0x20; | ||
1130 | hc->Zmin = 0xc0; | ||
1131 | hc->Zlen = 1856; | ||
1132 | hc->DTMFbase = 0x2000; | ||
1133 | } | ||
1134 | if (test_bit(HFC_CHIP_EXRAM_512, &hc->chip)) { | ||
1135 | if (debug & DEBUG_HFCMULTI_INIT) | ||
1136 | printk(KERN_DEBUG "%s: changing to 512K extenal RAM\n", | ||
1137 | __func__); | ||
1138 | hc->hw.r_ctrl |= V_EXT_RAM; | ||
1139 | hc->hw.r_ram_sz = 2; | ||
1140 | hc->Flen = 0x20; | ||
1141 | hc->Zmin = 0xc0; | ||
1142 | hc->Zlen = 8000; | ||
1143 | hc->DTMFbase = 0x2000; | ||
1144 | } | ||
1145 | hc->max_trans = poll << 1; | ||
1146 | if (hc->max_trans > hc->Zlen) | ||
1147 | hc->max_trans = hc->Zlen; | ||
1148 | |||
1149 | /* Speech Design PLX bridge */ | ||
1150 | if (test_bit(HFC_CHIP_PLXSD, &hc->chip)) { | ||
1151 | if (debug & DEBUG_HFCMULTI_PLXSD) | ||
1152 | printk(KERN_DEBUG "%s: initializing PLXSD card %d\n", | ||
1153 | __func__, hc->id + 1); | ||
1154 | spin_lock_irqsave(&plx_lock, plx_flags); | ||
1155 | plx_acc_32 = (u_int *)(hc->plx_membase+PLX_GPIOC); | ||
1156 | writel(PLX_GPIOC_INIT, plx_acc_32); | ||
1157 | pv = readl(plx_acc_32); | ||
1158 | /* The first and the last cards are terminating the PCM bus */ | ||
1159 | pv |= PLX_TERM_ON; /* hc is currently the last */ | ||
1160 | /* Disconnect the PCM */ | ||
1161 | pv |= PLX_SLAVE_EN_N; | ||
1162 | pv &= ~PLX_MASTER_EN; | ||
1163 | pv &= ~PLX_SYNC_O_EN; | ||
1164 | /* Put the DSP in Reset */ | ||
1165 | pv &= ~PLX_DSP_RES_N; | ||
1166 | writel(pv, plx_acc_32); | ||
1167 | spin_unlock_irqrestore(&plx_lock, plx_flags); | ||
1168 | if (debug & DEBUG_HFCMULTI_INIT) | ||
1169 | printk(KERN_WARNING "%s: slave/term: PLX_GPIO=%x\n", | ||
1170 | __func__, pv); | ||
1171 | /* | ||
1172 | * If we are the 3rd PLXSD card or higher, we must turn | ||
1173 | * termination of last PLXSD card off. | ||
1174 | */ | ||
1175 | spin_lock_irqsave(&HFClock, hfc_flags); | ||
1176 | plx_count = 0; | ||
1177 | plx_last_hc = NULL; | ||
1178 | list_for_each_entry_safe(pos, next, &HFClist, list) { | ||
1179 | if (test_bit(HFC_CHIP_PLXSD, &pos->chip)) { | ||
1180 | plx_count++; | ||
1181 | if (pos != hc) | ||
1182 | plx_last_hc = pos; | ||
1183 | } | ||
1184 | } | ||
1185 | if (plx_count >= 3) { | ||
1186 | if (debug & DEBUG_HFCMULTI_PLXSD) | ||
1187 | printk(KERN_DEBUG "%s: card %d is between, so " | ||
1188 | "we disable termination\n", | ||
1189 | __func__, plx_last_hc->id + 1); | ||
1190 | spin_lock_irqsave(&plx_lock, plx_flags); | ||
1191 | plx_acc_32 = (u_int *)(plx_last_hc->plx_membase | ||
1192 | + PLX_GPIOC); | ||
1193 | pv = readl(plx_acc_32); | ||
1194 | pv &= ~PLX_TERM_ON; | ||
1195 | writel(pv, plx_acc_32); | ||
1196 | spin_unlock_irqrestore(&plx_lock, plx_flags); | ||
1197 | if (debug & DEBUG_HFCMULTI_INIT) | ||
1198 | printk(KERN_WARNING "%s: term off: PLX_GPIO=%x\n", | ||
1199 | __func__, pv); | ||
1200 | } | ||
1201 | spin_unlock_irqrestore(&HFClock, hfc_flags); | ||
1202 | hc->hw.r_pcm_md0 = V_F0_LEN; /* shift clock for DSP */ | ||
1203 | } | ||
1204 | |||
1205 | /* we only want the real Z2 read-pointer for revision > 0 */ | ||
1206 | if (!test_bit(HFC_CHIP_REVISION0, &hc->chip)) | ||
1207 | hc->hw.r_ram_sz |= V_FZ_MD; | ||
1208 | |||
1209 | /* select pcm mode */ | ||
1210 | if (test_bit(HFC_CHIP_PCM_SLAVE, &hc->chip)) { | ||
1211 | if (debug & DEBUG_HFCMULTI_INIT) | ||
1212 | printk(KERN_DEBUG "%s: setting PCM into slave mode\n", | ||
1213 | __func__); | ||
1214 | } else | ||
1215 | if (test_bit(HFC_CHIP_PCM_MASTER, &hc->chip) && !plxsd_master) { | ||
1216 | if (debug & DEBUG_HFCMULTI_INIT) | ||
1217 | printk(KERN_DEBUG "%s: setting PCM into master mode\n", | ||
1218 | __func__); | ||
1219 | hc->hw.r_pcm_md0 |= V_PCM_MD; | ||
1220 | } else { | ||
1221 | if (debug & DEBUG_HFCMULTI_INIT) | ||
1222 | printk(KERN_DEBUG "%s: performing PCM auto detect\n", | ||
1223 | __func__); | ||
1224 | } | ||
1225 | |||
1226 | /* soft reset */ | ||
1227 | HFC_outb(hc, R_CTRL, hc->hw.r_ctrl); | ||
1228 | HFC_outb(hc, R_RAM_SZ, hc->hw.r_ram_sz); | ||
1229 | HFC_outb(hc, R_FIFO_MD, 0); | ||
1230 | hc->hw.r_cirm = V_SRES | V_HFCRES | V_PCMRES | V_STRES | V_RLD_EPR; | ||
1231 | HFC_outb(hc, R_CIRM, hc->hw.r_cirm); | ||
1232 | udelay(100); | ||
1233 | hc->hw.r_cirm = 0; | ||
1234 | HFC_outb(hc, R_CIRM, hc->hw.r_cirm); | ||
1235 | udelay(100); | ||
1236 | HFC_outb(hc, R_RAM_SZ, hc->hw.r_ram_sz); | ||
1237 | |||
1238 | /* Speech Design PLX bridge pcm and sync mode */ | ||
1239 | if (test_bit(HFC_CHIP_PLXSD, &hc->chip)) { | ||
1240 | spin_lock_irqsave(&plx_lock, plx_flags); | ||
1241 | plx_acc_32 = (u_int *)(hc->plx_membase+PLX_GPIOC); | ||
1242 | pv = readl(plx_acc_32); | ||
1243 | /* Connect PCM */ | ||
1244 | if (hc->hw.r_pcm_md0 & V_PCM_MD) { | ||
1245 | pv |= PLX_MASTER_EN | PLX_SLAVE_EN_N; | ||
1246 | pv |= PLX_SYNC_O_EN; | ||
1247 | if (debug & DEBUG_HFCMULTI_INIT) | ||
1248 | printk(KERN_WARNING "%s: master: PLX_GPIO=%x\n", | ||
1249 | __func__, pv); | ||
1250 | } else { | ||
1251 | pv &= ~(PLX_MASTER_EN | PLX_SLAVE_EN_N); | ||
1252 | pv &= ~PLX_SYNC_O_EN; | ||
1253 | if (debug & DEBUG_HFCMULTI_INIT) | ||
1254 | printk(KERN_WARNING "%s: slave: PLX_GPIO=%x\n", | ||
1255 | __func__, pv); | ||
1256 | } | ||
1257 | writel(pv, plx_acc_32); | ||
1258 | spin_unlock_irqrestore(&plx_lock, plx_flags); | ||
1259 | } | ||
1260 | |||
1261 | /* PCM setup */ | ||
1262 | HFC_outb(hc, R_PCM_MD0, hc->hw.r_pcm_md0 | 0x90); | ||
1263 | if (hc->slots == 32) | ||
1264 | HFC_outb(hc, R_PCM_MD1, 0x00); | ||
1265 | if (hc->slots == 64) | ||
1266 | HFC_outb(hc, R_PCM_MD1, 0x10); | ||
1267 | if (hc->slots == 128) | ||
1268 | HFC_outb(hc, R_PCM_MD1, 0x20); | ||
1269 | HFC_outb(hc, R_PCM_MD0, hc->hw.r_pcm_md0 | 0xa0); | ||
1270 | if (test_bit(HFC_CHIP_PLXSD, &hc->chip)) | ||
1271 | HFC_outb(hc, R_PCM_MD2, V_SYNC_SRC); /* sync via SYNC_I / O */ | ||
1272 | else | ||
1273 | HFC_outb(hc, R_PCM_MD2, 0x00); /* sync from interface */ | ||
1274 | HFC_outb(hc, R_PCM_MD0, hc->hw.r_pcm_md0 | 0x00); | ||
1275 | for (i = 0; i < 256; i++) { | ||
1276 | HFC_outb_nodebug(hc, R_SLOT, i); | ||
1277 | HFC_outb_nodebug(hc, A_SL_CFG, 0); | ||
1278 | HFC_outb_nodebug(hc, A_CONF, 0); | ||
1279 | hc->slot_owner[i] = -1; | ||
1280 | } | ||
1281 | |||
1282 | /* set clock speed */ | ||
1283 | if (test_bit(HFC_CHIP_CLOCK2, &hc->chip)) { | ||
1284 | if (debug & DEBUG_HFCMULTI_INIT) | ||
1285 | printk(KERN_DEBUG | ||
1286 | "%s: setting double clock\n", __func__); | ||
1287 | HFC_outb(hc, R_BRG_PCM_CFG, V_PCM_CLK); | ||
1288 | } | ||
1289 | |||
1290 | /* B410P GPIO */ | ||
1291 | if (test_bit(HFC_CHIP_B410P, &hc->chip)) { | ||
1292 | printk(KERN_NOTICE "Setting GPIOs\n"); | ||
1293 | HFC_outb(hc, R_GPIO_SEL, 0x30); | ||
1294 | HFC_outb(hc, R_GPIO_EN1, 0x3); | ||
1295 | udelay(1000); | ||
1296 | printk(KERN_NOTICE "calling vpm_init\n"); | ||
1297 | vpm_init(hc); | ||
1298 | } | ||
1299 | |||
1300 | /* check if R_F0_CNT counts (8 kHz frame count) */ | ||
1301 | val = HFC_inb(hc, R_F0_CNTL); | ||
1302 | val += HFC_inb(hc, R_F0_CNTH) << 8; | ||
1303 | if (debug & DEBUG_HFCMULTI_INIT) | ||
1304 | printk(KERN_DEBUG | ||
1305 | "HFC_multi F0_CNT %ld after reset\n", val); | ||
1306 | spin_unlock_irqrestore(&hc->lock, flags); | ||
1307 | set_current_state(TASK_UNINTERRUPTIBLE); | ||
1308 | schedule_timeout((HZ/100)?:1); /* Timeout minimum 10ms */ | ||
1309 | spin_lock_irqsave(&hc->lock, flags); | ||
1310 | val2 = HFC_inb(hc, R_F0_CNTL); | ||
1311 | val2 += HFC_inb(hc, R_F0_CNTH) << 8; | ||
1312 | if (debug & DEBUG_HFCMULTI_INIT) | ||
1313 | printk(KERN_DEBUG | ||
1314 | "HFC_multi F0_CNT %ld after 10 ms (1st try)\n", | ||
1315 | val2); | ||
1316 | if (val2 >= val+8) { /* 1 ms */ | ||
1317 | /* it counts, so we keep the pcm mode */ | ||
1318 | if (test_bit(HFC_CHIP_PCM_MASTER, &hc->chip)) | ||
1319 | printk(KERN_INFO "controller is PCM bus MASTER\n"); | ||
1320 | else | ||
1321 | if (test_bit(HFC_CHIP_PCM_SLAVE, &hc->chip)) | ||
1322 | printk(KERN_INFO "controller is PCM bus SLAVE\n"); | ||
1323 | else { | ||
1324 | test_and_set_bit(HFC_CHIP_PCM_SLAVE, &hc->chip); | ||
1325 | printk(KERN_INFO "controller is PCM bus SLAVE " | ||
1326 | "(auto detected)\n"); | ||
1327 | } | ||
1328 | } else { | ||
1329 | /* does not count */ | ||
1330 | if (test_bit(HFC_CHIP_PCM_MASTER, &hc->chip)) { | ||
1331 | controller_fail: | ||
1332 | printk(KERN_ERR "HFC_multi ERROR, getting no 125us " | ||
1333 | "pulse. Seems that controller fails.\n"); | ||
1334 | err = -EIO; | ||
1335 | goto out; | ||
1336 | } | ||
1337 | if (test_bit(HFC_CHIP_PCM_SLAVE, &hc->chip)) { | ||
1338 | printk(KERN_INFO "controller is PCM bus SLAVE " | ||
1339 | "(ignoring missing PCM clock)\n"); | ||
1340 | } else { | ||
1341 | /* only one pcm master */ | ||
1342 | if (test_bit(HFC_CHIP_PLXSD, &hc->chip) | ||
1343 | && plxsd_master) { | ||
1344 | printk(KERN_ERR "HFC_multi ERROR, no clock " | ||
1345 | "on another Speech Design card found. " | ||
1346 | "Please be sure to connect PCM cable.\n"); | ||
1347 | err = -EIO; | ||
1348 | goto out; | ||
1349 | } | ||
1350 | /* retry with master clock */ | ||
1351 | if (test_bit(HFC_CHIP_PLXSD, &hc->chip)) { | ||
1352 | spin_lock_irqsave(&plx_lock, plx_flags); | ||
1353 | plx_acc_32 = (u_int *)(hc->plx_membase + | ||
1354 | PLX_GPIOC); | ||
1355 | pv = readl(plx_acc_32); | ||
1356 | pv |= PLX_MASTER_EN | PLX_SLAVE_EN_N; | ||
1357 | pv |= PLX_SYNC_O_EN; | ||
1358 | writel(pv, plx_acc_32); | ||
1359 | spin_unlock_irqrestore(&plx_lock, plx_flags); | ||
1360 | if (debug & DEBUG_HFCMULTI_INIT) | ||
1361 | printk(KERN_WARNING "%s: master: PLX_GPIO" | ||
1362 | "=%x\n", __func__, pv); | ||
1363 | } | ||
1364 | hc->hw.r_pcm_md0 |= V_PCM_MD; | ||
1365 | HFC_outb(hc, R_PCM_MD0, hc->hw.r_pcm_md0 | 0x00); | ||
1366 | spin_unlock_irqrestore(&hc->lock, flags); | ||
1367 | set_current_state(TASK_UNINTERRUPTIBLE); | ||
1368 | schedule_timeout((HZ/100)?:1); /* Timeout min. 10ms */ | ||
1369 | spin_lock_irqsave(&hc->lock, flags); | ||
1370 | val2 = HFC_inb(hc, R_F0_CNTL); | ||
1371 | val2 += HFC_inb(hc, R_F0_CNTH) << 8; | ||
1372 | if (debug & DEBUG_HFCMULTI_INIT) | ||
1373 | printk(KERN_DEBUG "HFC_multi F0_CNT %ld after " | ||
1374 | "10 ms (2nd try)\n", val2); | ||
1375 | if (val2 >= val+8) { /* 1 ms */ | ||
1376 | test_and_set_bit(HFC_CHIP_PCM_MASTER, | ||
1377 | &hc->chip); | ||
1378 | printk(KERN_INFO "controller is PCM bus MASTER " | ||
1379 | "(auto detected)\n"); | ||
1380 | } else | ||
1381 | goto controller_fail; | ||
1382 | } | ||
1383 | } | ||
1384 | |||
1385 | /* Release the DSP Reset */ | ||
1386 | if (test_bit(HFC_CHIP_PLXSD, &hc->chip)) { | ||
1387 | if (test_bit(HFC_CHIP_PCM_MASTER, &hc->chip)) | ||
1388 | plxsd_master = 1; | ||
1389 | spin_lock_irqsave(&plx_lock, plx_flags); | ||
1390 | plx_acc_32 = (u_int *)(hc->plx_membase+PLX_GPIOC); | ||
1391 | pv = readl(plx_acc_32); | ||
1392 | pv |= PLX_DSP_RES_N; | ||
1393 | writel(pv, plx_acc_32); | ||
1394 | spin_unlock_irqrestore(&plx_lock, plx_flags); | ||
1395 | if (debug & DEBUG_HFCMULTI_INIT) | ||
1396 | printk(KERN_WARNING "%s: reset off: PLX_GPIO=%x\n", | ||
1397 | __func__, pv); | ||
1398 | } | ||
1399 | |||
1400 | /* pcm id */ | ||
1401 | if (hc->pcm) | ||
1402 | printk(KERN_INFO "controller has given PCM BUS ID %d\n", | ||
1403 | hc->pcm); | ||
1404 | else { | ||
1405 | if (test_bit(HFC_CHIP_PCM_MASTER, &hc->chip) | ||
1406 | || test_bit(HFC_CHIP_PLXSD, &hc->chip)) { | ||
1407 | PCM_cnt++; /* SD has proprietary bridging */ | ||
1408 | } | ||
1409 | hc->pcm = PCM_cnt; | ||
1410 | printk(KERN_INFO "controller has PCM BUS ID %d " | ||
1411 | "(auto selected)\n", hc->pcm); | ||
1412 | } | ||
1413 | |||
1414 | /* set up timer */ | ||
1415 | HFC_outb(hc, R_TI_WD, poll_timer); | ||
1416 | hc->hw.r_irqmsk_misc |= V_TI_IRQMSK; | ||
1417 | |||
1418 | /* | ||
1419 | * set up 125us interrupt, only if function pointer is available | ||
1420 | * and module parameter timer is set | ||
1421 | */ | ||
1422 | if (timer && hfc_interrupt && register_interrupt) { | ||
1423 | /* only one chip should use this interrupt */ | ||
1424 | timer = 0; | ||
1425 | interrupt_registered = 1; | ||
1426 | hc->hw.r_irqmsk_misc |= V_PROC_IRQMSK; | ||
1427 | /* deactivate other interrupts in ztdummy */ | ||
1428 | register_interrupt(); | ||
1429 | } | ||
1430 | |||
1431 | /* set E1 state machine IRQ */ | ||
1432 | if (hc->type == 1) | ||
1433 | hc->hw.r_irqmsk_misc |= V_STA_IRQMSK; | ||
1434 | |||
1435 | /* set DTMF detection */ | ||
1436 | if (test_bit(HFC_CHIP_DTMF, &hc->chip)) { | ||
1437 | if (debug & DEBUG_HFCMULTI_INIT) | ||
1438 | printk(KERN_DEBUG "%s: enabling DTMF detection " | ||
1439 | "for all B-channel\n", __func__); | ||
1440 | hc->hw.r_dtmf = V_DTMF_EN | V_DTMF_STOP; | ||
1441 | if (test_bit(HFC_CHIP_ULAW, &hc->chip)) | ||
1442 | hc->hw.r_dtmf |= V_ULAW_SEL; | ||
1443 | HFC_outb(hc, R_DTMF_N, 102 - 1); | ||
1444 | hc->hw.r_irqmsk_misc |= V_DTMF_IRQMSK; | ||
1445 | } | ||
1446 | |||
1447 | /* conference engine */ | ||
1448 | if (test_bit(HFC_CHIP_ULAW, &hc->chip)) | ||
1449 | r_conf_en = V_CONF_EN | V_ULAW; | ||
1450 | else | ||
1451 | r_conf_en = V_CONF_EN; | ||
1452 | HFC_outb(hc, R_CONF_EN, r_conf_en); | ||
1453 | |||
1454 | /* setting leds */ | ||
1455 | switch (hc->leds) { | ||
1456 | case 1: /* HFC-E1 OEM */ | ||
1457 | if (test_bit(HFC_CHIP_WATCHDOG, &hc->chip)) | ||
1458 | HFC_outb(hc, R_GPIO_SEL, 0x32); | ||
1459 | else | ||
1460 | HFC_outb(hc, R_GPIO_SEL, 0x30); | ||
1461 | |||
1462 | HFC_outb(hc, R_GPIO_EN1, 0x0f); | ||
1463 | HFC_outb(hc, R_GPIO_OUT1, 0x00); | ||
1464 | |||
1465 | HFC_outb(hc, R_GPIO_EN0, V_GPIO_EN2 | V_GPIO_EN3); | ||
1466 | break; | ||
1467 | |||
1468 | case 2: /* HFC-4S OEM */ | ||
1469 | case 3: | ||
1470 | HFC_outb(hc, R_GPIO_SEL, 0xf0); | ||
1471 | HFC_outb(hc, R_GPIO_EN1, 0xff); | ||
1472 | HFC_outb(hc, R_GPIO_OUT1, 0x00); | ||
1473 | break; | ||
1474 | } | ||
1475 | |||
1476 | /* set master clock */ | ||
1477 | if (hc->masterclk >= 0) { | ||
1478 | if (debug & DEBUG_HFCMULTI_INIT) | ||
1479 | printk(KERN_DEBUG "%s: setting ST master clock " | ||
1480 | "to port %d (0..%d)\n", | ||
1481 | __func__, hc->masterclk, hc->ports-1); | ||
1482 | hc->hw.r_st_sync = hc->masterclk | V_AUTO_SYNC; | ||
1483 | HFC_outb(hc, R_ST_SYNC, hc->hw.r_st_sync); | ||
1484 | } | ||
1485 | |||
1486 | /* setting misc irq */ | ||
1487 | HFC_outb(hc, R_IRQMSK_MISC, hc->hw.r_irqmsk_misc); | ||
1488 | if (debug & DEBUG_HFCMULTI_INIT) | ||
1489 | printk(KERN_DEBUG "r_irqmsk_misc.2: 0x%x\n", | ||
1490 | hc->hw.r_irqmsk_misc); | ||
1491 | |||
1492 | /* RAM access test */ | ||
1493 | HFC_outb(hc, R_RAM_ADDR0, 0); | ||
1494 | HFC_outb(hc, R_RAM_ADDR1, 0); | ||
1495 | HFC_outb(hc, R_RAM_ADDR2, 0); | ||
1496 | for (i = 0; i < 256; i++) { | ||
1497 | HFC_outb_nodebug(hc, R_RAM_ADDR0, i); | ||
1498 | HFC_outb_nodebug(hc, R_RAM_DATA, ((i*3)&0xff)); | ||
1499 | } | ||
1500 | for (i = 0; i < 256; i++) { | ||
1501 | HFC_outb_nodebug(hc, R_RAM_ADDR0, i); | ||
1502 | HFC_inb_nodebug(hc, R_RAM_DATA); | ||
1503 | rval = HFC_inb_nodebug(hc, R_INT_DATA); | ||
1504 | if (rval != ((i * 3) & 0xff)) { | ||
1505 | printk(KERN_DEBUG | ||
1506 | "addr:%x val:%x should:%x\n", i, rval, | ||
1507 | (i * 3) & 0xff); | ||
1508 | err++; | ||
1509 | } | ||
1510 | } | ||
1511 | if (err) { | ||
1512 | printk(KERN_DEBUG "aborting - %d RAM access errors\n", err); | ||
1513 | err = -EIO; | ||
1514 | goto out; | ||
1515 | } | ||
1516 | |||
1517 | if (debug & DEBUG_HFCMULTI_INIT) | ||
1518 | printk(KERN_DEBUG "%s: done\n", __func__); | ||
1519 | out: | ||
1520 | spin_unlock_irqrestore(&hc->lock, flags); | ||
1521 | return err; | ||
1522 | } | ||
1523 | |||
1524 | |||
1525 | /* | ||
1526 | * control the watchdog | ||
1527 | */ | ||
1528 | static void | ||
1529 | hfcmulti_watchdog(struct hfc_multi *hc) | ||
1530 | { | ||
1531 | hc->wdcount++; | ||
1532 | |||
1533 | if (hc->wdcount > 10) { | ||
1534 | hc->wdcount = 0; | ||
1535 | hc->wdbyte = hc->wdbyte == V_GPIO_OUT2 ? | ||
1536 | V_GPIO_OUT3 : V_GPIO_OUT2; | ||
1537 | |||
1538 | /* printk("Sending Watchdog Kill %x\n",hc->wdbyte); */ | ||
1539 | HFC_outb(hc, R_GPIO_EN0, V_GPIO_EN2 | V_GPIO_EN3); | ||
1540 | HFC_outb(hc, R_GPIO_OUT0, hc->wdbyte); | ||
1541 | } | ||
1542 | } | ||
1543 | |||
1544 | |||
1545 | |||
1546 | /* | ||
1547 | * output leds | ||
1548 | */ | ||
1549 | static void | ||
1550 | hfcmulti_leds(struct hfc_multi *hc) | ||
1551 | { | ||
1552 | unsigned long lled; | ||
1553 | unsigned long leddw; | ||
1554 | int i, state, active, leds; | ||
1555 | struct dchannel *dch; | ||
1556 | int led[4]; | ||
1557 | |||
1558 | hc->ledcount += poll; | ||
1559 | if (hc->ledcount > 4096) { | ||
1560 | hc->ledcount -= 4096; | ||
1561 | hc->ledstate = 0xAFFEAFFE; | ||
1562 | } | ||
1563 | |||
1564 | switch (hc->leds) { | ||
1565 | case 1: /* HFC-E1 OEM */ | ||
1566 | /* 2 red blinking: NT mode deactivate | ||
1567 | * 2 red steady: TE mode deactivate | ||
1568 | * left green: L1 active | ||
1569 | * left red: frame sync, but no L1 | ||
1570 | * right green: L2 active | ||
1571 | */ | ||
1572 | if (hc->chan[hc->dslot].sync != 2) { /* no frame sync */ | ||
1573 | if (hc->chan[hc->dslot].dch->dev.D.protocol | ||
1574 | != ISDN_P_NT_E1) { | ||
1575 | led[0] = 1; | ||
1576 | led[1] = 1; | ||
1577 | } else if (hc->ledcount>>11) { | ||
1578 | led[0] = 1; | ||
1579 | led[1] = 1; | ||
1580 | } else { | ||
1581 | led[0] = 0; | ||
1582 | led[1] = 0; | ||
1583 | } | ||
1584 | led[2] = 0; | ||
1585 | led[3] = 0; | ||
1586 | } else { /* with frame sync */ | ||
1587 | /* TODO make it work */ | ||
1588 | led[0] = 0; | ||
1589 | led[1] = 0; | ||
1590 | led[2] = 0; | ||
1591 | led[3] = 1; | ||
1592 | } | ||
1593 | leds = (led[0] | (led[1]<<2) | (led[2]<<1) | (led[3]<<3))^0xF; | ||
1594 | /* leds are inverted */ | ||
1595 | if (leds != (int)hc->ledstate) { | ||
1596 | HFC_outb_nodebug(hc, R_GPIO_OUT1, leds); | ||
1597 | hc->ledstate = leds; | ||
1598 | } | ||
1599 | break; | ||
1600 | |||
1601 | case 2: /* HFC-4S OEM */ | ||
1602 | /* red blinking = PH_DEACTIVATE NT Mode | ||
1603 | * red steady = PH_DEACTIVATE TE Mode | ||
1604 | * green steady = PH_ACTIVATE | ||
1605 | */ | ||
1606 | for (i = 0; i < 4; i++) { | ||
1607 | state = 0; | ||
1608 | active = -1; | ||
1609 | dch = hc->chan[(i << 2) | 2].dch; | ||
1610 | if (dch) { | ||
1611 | state = dch->state; | ||
1612 | if (dch->dev.D.protocol == ISDN_P_NT_S0) | ||
1613 | active = 3; | ||
1614 | else | ||
1615 | active = 7; | ||
1616 | } | ||
1617 | if (state) { | ||
1618 | if (state == active) { | ||
1619 | led[i] = 1; /* led green */ | ||
1620 | } else | ||
1621 | if (dch->dev.D.protocol == ISDN_P_TE_S0) | ||
1622 | /* TE mode: led red */ | ||
1623 | led[i] = 2; | ||
1624 | else | ||
1625 | if (hc->ledcount>>11) | ||
1626 | /* led red */ | ||
1627 | led[i] = 2; | ||
1628 | else | ||
1629 | /* led off */ | ||
1630 | led[i] = 0; | ||
1631 | } else | ||
1632 | led[i] = 0; /* led off */ | ||
1633 | } | ||
1634 | if (test_bit(HFC_CHIP_B410P, &hc->chip)) { | ||
1635 | leds = 0; | ||
1636 | for (i = 0; i < 4; i++) { | ||
1637 | if (led[i] == 1) { | ||
1638 | /*green*/ | ||
1639 | leds |= (0x2 << (i * 2)); | ||
1640 | } else if (led[i] == 2) { | ||
1641 | /*red*/ | ||
1642 | leds |= (0x1 << (i * 2)); | ||
1643 | } | ||
1644 | } | ||
1645 | if (leds != (int)hc->ledstate) { | ||
1646 | vpm_out(hc, 0, 0x1a8 + 3, leds); | ||
1647 | hc->ledstate = leds; | ||
1648 | } | ||
1649 | } else { | ||
1650 | leds = ((led[3] > 0) << 0) | ((led[1] > 0) << 1) | | ||
1651 | ((led[0] > 0) << 2) | ((led[2] > 0) << 3) | | ||
1652 | ((led[3] & 1) << 4) | ((led[1] & 1) << 5) | | ||
1653 | ((led[0] & 1) << 6) | ((led[2] & 1) << 7); | ||
1654 | if (leds != (int)hc->ledstate) { | ||
1655 | HFC_outb_nodebug(hc, R_GPIO_EN1, leds & 0x0F); | ||
1656 | HFC_outb_nodebug(hc, R_GPIO_OUT1, leds >> 4); | ||
1657 | hc->ledstate = leds; | ||
1658 | } | ||
1659 | } | ||
1660 | break; | ||
1661 | |||
1662 | case 3: /* HFC 1S/2S Beronet */ | ||
1663 | /* red blinking = PH_DEACTIVATE NT Mode | ||
1664 | * red steady = PH_DEACTIVATE TE Mode | ||
1665 | * green steady = PH_ACTIVATE | ||
1666 | */ | ||
1667 | for (i = 0; i < 2; i++) { | ||
1668 | state = 0; | ||
1669 | active = -1; | ||
1670 | dch = hc->chan[(i << 2) | 2].dch; | ||
1671 | if (dch) { | ||
1672 | state = dch->state; | ||
1673 | if (dch->dev.D.protocol == ISDN_P_NT_S0) | ||
1674 | active = 3; | ||
1675 | else | ||
1676 | active = 7; | ||
1677 | } | ||
1678 | if (state) { | ||
1679 | if (state == active) { | ||
1680 | led[i] = 1; /* led green */ | ||
1681 | } else | ||
1682 | if (dch->dev.D.protocol == ISDN_P_TE_S0) | ||
1683 | /* TE mode: led red */ | ||
1684 | led[i] = 2; | ||
1685 | else | ||
1686 | if (hc->ledcount >> 11) | ||
1687 | /* led red */ | ||
1688 | led[i] = 2; | ||
1689 | else | ||
1690 | /* led off */ | ||
1691 | led[i] = 0; | ||
1692 | } else | ||
1693 | led[i] = 0; /* led off */ | ||
1694 | } | ||
1695 | |||
1696 | |||
1697 | leds = (led[0] > 0) | ((led[1] > 0)<<1) | ((led[0]&1)<<2) | ||
1698 | | ((led[1]&1)<<3); | ||
1699 | if (leds != (int)hc->ledstate) { | ||
1700 | HFC_outb_nodebug(hc, R_GPIO_EN1, | ||
1701 | ((led[0] > 0) << 2) | ((led[1] > 0) << 3)); | ||
1702 | HFC_outb_nodebug(hc, R_GPIO_OUT1, | ||
1703 | ((led[0] & 1) << 2) | ((led[1] & 1) << 3)); | ||
1704 | hc->ledstate = leds; | ||
1705 | } | ||
1706 | break; | ||
1707 | case 8: /* HFC 8S+ Beronet */ | ||
1708 | lled = 0; | ||
1709 | |||
1710 | for (i = 0; i < 8; i++) { | ||
1711 | state = 0; | ||
1712 | active = -1; | ||
1713 | dch = hc->chan[(i << 2) | 2].dch; | ||
1714 | if (dch) { | ||
1715 | state = dch->state; | ||
1716 | if (dch->dev.D.protocol == ISDN_P_NT_S0) | ||
1717 | active = 3; | ||
1718 | else | ||
1719 | active = 7; | ||
1720 | } | ||
1721 | if (state) { | ||
1722 | if (state == active) { | ||
1723 | lled |= 0 << i; | ||
1724 | } else | ||
1725 | if (hc->ledcount >> 11) | ||
1726 | lled |= 0 << i; | ||
1727 | else | ||
1728 | lled |= 1 << i; | ||
1729 | } else | ||
1730 | lled |= 1 << i; | ||
1731 | } | ||
1732 | leddw = lled << 24 | lled << 16 | lled << 8 | lled; | ||
1733 | if (leddw != hc->ledstate) { | ||
1734 | /* HFC_outb(hc, R_BRG_PCM_CFG, 1); | ||
1735 | HFC_outb(c, R_BRG_PCM_CFG, (0x0 << 6) | 0x3); */ | ||
1736 | /* was _io before */ | ||
1737 | HFC_outb_nodebug(hc, R_BRG_PCM_CFG, 1 | V_PCM_CLK); | ||
1738 | outw(0x4000, hc->pci_iobase + 4); | ||
1739 | outl(leddw, hc->pci_iobase); | ||
1740 | HFC_outb_nodebug(hc, R_BRG_PCM_CFG, V_PCM_CLK); | ||
1741 | hc->ledstate = leddw; | ||
1742 | } | ||
1743 | break; | ||
1744 | } | ||
1745 | } | ||
1746 | /* | ||
1747 | * read dtmf coefficients | ||
1748 | */ | ||
1749 | |||
1750 | static void | ||
1751 | hfcmulti_dtmf(struct hfc_multi *hc) | ||
1752 | { | ||
1753 | s32 *coeff; | ||
1754 | u_int mantissa; | ||
1755 | int co, ch; | ||
1756 | struct bchannel *bch = NULL; | ||
1757 | u8 exponent; | ||
1758 | int dtmf = 0; | ||
1759 | int addr; | ||
1760 | u16 w_float; | ||
1761 | struct sk_buff *skb; | ||
1762 | struct mISDNhead *hh; | ||
1763 | |||
1764 | if (debug & DEBUG_HFCMULTI_DTMF) | ||
1765 | printk(KERN_DEBUG "%s: dtmf detection irq\n", __func__); | ||
1766 | for (ch = 0; ch <= 31; ch++) { | ||
1767 | /* only process enabled B-channels */ | ||
1768 | bch = hc->chan[ch].bch; | ||
1769 | if (!bch) | ||
1770 | continue; | ||
1771 | if (!hc->created[hc->chan[ch].port]) | ||
1772 | continue; | ||
1773 | if (!test_bit(FLG_TRANSPARENT, &bch->Flags)) | ||
1774 | continue; | ||
1775 | if (debug & DEBUG_HFCMULTI_DTMF) | ||
1776 | printk(KERN_DEBUG "%s: dtmf channel %d:", | ||
1777 | __func__, ch); | ||
1778 | coeff = &(hc->chan[ch].coeff[hc->chan[ch].coeff_count * 16]); | ||
1779 | dtmf = 1; | ||
1780 | for (co = 0; co < 8; co++) { | ||
1781 | /* read W(n-1) coefficient */ | ||
1782 | addr = hc->DTMFbase + ((co<<7) | (ch<<2)); | ||
1783 | HFC_outb_nodebug(hc, R_RAM_ADDR0, addr); | ||
1784 | HFC_outb_nodebug(hc, R_RAM_ADDR1, addr>>8); | ||
1785 | HFC_outb_nodebug(hc, R_RAM_ADDR2, (addr>>16) | ||
1786 | | V_ADDR_INC); | ||
1787 | w_float = HFC_inb_nodebug(hc, R_RAM_DATA); | ||
1788 | w_float |= (HFC_inb_nodebug(hc, R_RAM_DATA) << 8); | ||
1789 | if (debug & DEBUG_HFCMULTI_DTMF) | ||
1790 | printk(" %04x", w_float); | ||
1791 | |||
1792 | /* decode float (see chip doc) */ | ||
1793 | mantissa = w_float & 0x0fff; | ||
1794 | if (w_float & 0x8000) | ||
1795 | mantissa |= 0xfffff000; | ||
1796 | exponent = (w_float>>12) & 0x7; | ||
1797 | if (exponent) { | ||
1798 | mantissa ^= 0x1000; | ||
1799 | mantissa <<= (exponent-1); | ||
1800 | } | ||
1801 | |||
1802 | /* store coefficient */ | ||
1803 | coeff[co<<1] = mantissa; | ||
1804 | |||
1805 | /* read W(n) coefficient */ | ||
1806 | w_float = HFC_inb_nodebug(hc, R_RAM_DATA); | ||
1807 | w_float |= (HFC_inb_nodebug(hc, R_RAM_DATA) << 8); | ||
1808 | if (debug & DEBUG_HFCMULTI_DTMF) | ||
1809 | printk(" %04x", w_float); | ||
1810 | |||
1811 | /* decode float (see chip doc) */ | ||
1812 | mantissa = w_float & 0x0fff; | ||
1813 | if (w_float & 0x8000) | ||
1814 | mantissa |= 0xfffff000; | ||
1815 | exponent = (w_float>>12) & 0x7; | ||
1816 | if (exponent) { | ||
1817 | mantissa ^= 0x1000; | ||
1818 | mantissa <<= (exponent-1); | ||
1819 | } | ||
1820 | |||
1821 | /* store coefficient */ | ||
1822 | coeff[(co<<1)|1] = mantissa; | ||
1823 | } | ||
1824 | if (debug & DEBUG_HFCMULTI_DTMF) | ||
1825 | printk("%s: DTMF ready %08x %08x %08x %08x " | ||
1826 | "%08x %08x %08x %08x\n", __func__, | ||
1827 | coeff[0], coeff[1], coeff[2], coeff[3], | ||
1828 | coeff[4], coeff[5], coeff[6], coeff[7]); | ||
1829 | hc->chan[ch].coeff_count++; | ||
1830 | if (hc->chan[ch].coeff_count == 8) { | ||
1831 | hc->chan[ch].coeff_count = 0; | ||
1832 | skb = mI_alloc_skb(512, GFP_ATOMIC); | ||
1833 | if (!skb) { | ||
1834 | printk(KERN_WARNING "%s: No memory for skb\n", | ||
1835 | __func__); | ||
1836 | continue; | ||
1837 | } | ||
1838 | hh = mISDN_HEAD_P(skb); | ||
1839 | hh->prim = PH_CONTROL_IND; | ||
1840 | hh->id = DTMF_HFC_COEF; | ||
1841 | memcpy(skb_put(skb, 512), hc->chan[ch].coeff, 512); | ||
1842 | recv_Bchannel_skb(bch, skb); | ||
1843 | } | ||
1844 | } | ||
1845 | |||
1846 | /* restart DTMF processing */ | ||
1847 | hc->dtmf = dtmf; | ||
1848 | if (dtmf) | ||
1849 | HFC_outb_nodebug(hc, R_DTMF, hc->hw.r_dtmf | V_RST_DTMF); | ||
1850 | } | ||
1851 | |||
1852 | |||
1853 | /* | ||
1854 | * fill fifo as much as possible | ||
1855 | */ | ||
1856 | |||
1857 | static void | ||
1858 | hfcmulti_tx(struct hfc_multi *hc, int ch) | ||
1859 | { | ||
1860 | int i, ii, temp, len = 0; | ||
1861 | int Zspace, z1, z2; /* must be int for calculation */ | ||
1862 | int Fspace, f1, f2; | ||
1863 | u_char *d; | ||
1864 | int *txpending, slot_tx; | ||
1865 | struct bchannel *bch; | ||
1866 | struct dchannel *dch; | ||
1867 | struct sk_buff **sp = NULL; | ||
1868 | int *idxp; | ||
1869 | |||
1870 | bch = hc->chan[ch].bch; | ||
1871 | dch = hc->chan[ch].dch; | ||
1872 | if ((!dch) && (!bch)) | ||
1873 | return; | ||
1874 | |||
1875 | txpending = &hc->chan[ch].txpending; | ||
1876 | slot_tx = hc->chan[ch].slot_tx; | ||
1877 | if (dch) { | ||
1878 | if (!test_bit(FLG_ACTIVE, &dch->Flags)) | ||
1879 | return; | ||
1880 | sp = &dch->tx_skb; | ||
1881 | idxp = &dch->tx_idx; | ||
1882 | } else { | ||
1883 | if (!test_bit(FLG_ACTIVE, &bch->Flags)) | ||
1884 | return; | ||
1885 | sp = &bch->tx_skb; | ||
1886 | idxp = &bch->tx_idx; | ||
1887 | } | ||
1888 | if (*sp) | ||
1889 | len = (*sp)->len; | ||
1890 | |||
1891 | if ((!len) && *txpending != 1) | ||
1892 | return; /* no data */ | ||
1893 | |||
1894 | if (test_bit(HFC_CHIP_B410P, &hc->chip) && | ||
1895 | (hc->chan[ch].protocol == ISDN_P_B_RAW) && | ||
1896 | (hc->chan[ch].slot_rx < 0) && | ||
1897 | (hc->chan[ch].slot_tx < 0)) | ||
1898 | HFC_outb_nodebug(hc, R_FIFO, 0x20 | (ch << 1)); | ||
1899 | else | ||
1900 | HFC_outb_nodebug(hc, R_FIFO, ch << 1); | ||
1901 | HFC_wait_nodebug(hc); | ||
1902 | |||
1903 | if (*txpending == 2) { | ||
1904 | /* reset fifo */ | ||
1905 | HFC_outb_nodebug(hc, R_INC_RES_FIFO, V_RES_F); | ||
1906 | HFC_wait_nodebug(hc); | ||
1907 | HFC_outb(hc, A_SUBCH_CFG, 0); | ||
1908 | *txpending = 1; | ||
1909 | } | ||
1910 | next_frame: | ||
1911 | if (dch || test_bit(FLG_HDLC, &bch->Flags)) { | ||
1912 | f1 = HFC_inb_nodebug(hc, A_F1); | ||
1913 | f2 = HFC_inb_nodebug(hc, A_F2); | ||
1914 | while (f2 != (temp = HFC_inb_nodebug(hc, A_F2))) { | ||
1915 | if (debug & DEBUG_HFCMULTI_FIFO) | ||
1916 | printk(KERN_DEBUG | ||
1917 | "%s(card %d): reread f2 because %d!=%d\n", | ||
1918 | __func__, hc->id + 1, temp, f2); | ||
1919 | f2 = temp; /* repeat until F2 is equal */ | ||
1920 | } | ||
1921 | Fspace = f2 - f1 - 1; | ||
1922 | if (Fspace < 0) | ||
1923 | Fspace += hc->Flen; | ||
1924 | /* | ||
1925 | * Old FIFO handling doesn't give us the current Z2 read | ||
1926 | * pointer, so we cannot send the next frame before the fifo | ||
1927 | * is empty. It makes no difference except for a slightly | ||
1928 | * lower performance. | ||
1929 | */ | ||
1930 | if (test_bit(HFC_CHIP_REVISION0, &hc->chip)) { | ||
1931 | if (f1 != f2) | ||
1932 | Fspace = 0; | ||
1933 | else | ||
1934 | Fspace = 1; | ||
1935 | } | ||
1936 | /* one frame only for ST D-channels, to allow resending */ | ||
1937 | if (hc->type != 1 && dch) { | ||
1938 | if (f1 != f2) | ||
1939 | Fspace = 0; | ||
1940 | } | ||
1941 | /* F-counter full condition */ | ||
1942 | if (Fspace == 0) | ||
1943 | return; | ||
1944 | } | ||
1945 | z1 = HFC_inw_nodebug(hc, A_Z1) - hc->Zmin; | ||
1946 | z2 = HFC_inw_nodebug(hc, A_Z2) - hc->Zmin; | ||
1947 | while (z2 != (temp = (HFC_inw_nodebug(hc, A_Z2) - hc->Zmin))) { | ||
1948 | if (debug & DEBUG_HFCMULTI_FIFO) | ||
1949 | printk(KERN_DEBUG "%s(card %d): reread z2 because " | ||
1950 | "%d!=%d\n", __func__, hc->id + 1, temp, z2); | ||
1951 | z2 = temp; /* repeat unti Z2 is equal */ | ||
1952 | } | ||
1953 | Zspace = z2 - z1; | ||
1954 | if (Zspace <= 0) | ||
1955 | Zspace += hc->Zlen; | ||
1956 | Zspace -= 4; /* keep not too full, so pointers will not overrun */ | ||
1957 | /* fill transparent data only to maxinum transparent load (minus 4) */ | ||
1958 | if (bch && test_bit(FLG_TRANSPARENT, &bch->Flags)) | ||
1959 | Zspace = Zspace - hc->Zlen + hc->max_trans; | ||
1960 | if (Zspace <= 0) /* no space of 4 bytes */ | ||
1961 | return; | ||
1962 | |||
1963 | /* if no data */ | ||
1964 | if (!len) { | ||
1965 | if (z1 == z2) { /* empty */ | ||
1966 | /* if done with FIFO audio data during PCM connection */ | ||
1967 | if (bch && (!test_bit(FLG_HDLC, &bch->Flags)) && | ||
1968 | *txpending && slot_tx >= 0) { | ||
1969 | if (debug & DEBUG_HFCMULTI_MODE) | ||
1970 | printk(KERN_DEBUG | ||
1971 | "%s: reconnecting PCM due to no " | ||
1972 | "more FIFO data: channel %d " | ||
1973 | "slot_tx %d\n", | ||
1974 | __func__, ch, slot_tx); | ||
1975 | /* connect slot */ | ||
1976 | HFC_outb(hc, A_CON_HDLC, 0xc0 | 0x00 | | ||
1977 | V_HDLC_TRP | V_IFF); | ||
1978 | HFC_outb_nodebug(hc, R_FIFO, ch<<1 | 1); | ||
1979 | HFC_wait_nodebug(hc); | ||
1980 | HFC_outb(hc, A_CON_HDLC, 0xc0 | 0x00 | | ||
1981 | V_HDLC_TRP | V_IFF); | ||
1982 | HFC_outb_nodebug(hc, R_FIFO, ch<<1); | ||
1983 | HFC_wait_nodebug(hc); | ||
1984 | } | ||
1985 | *txpending = 0; | ||
1986 | } | ||
1987 | return; /* no data */ | ||
1988 | } | ||
1989 | |||
1990 | /* if audio data and connected slot */ | ||
1991 | if (bch && (!test_bit(FLG_HDLC, &bch->Flags)) && (!*txpending) | ||
1992 | && slot_tx >= 0) { | ||
1993 | if (debug & DEBUG_HFCMULTI_MODE) | ||
1994 | printk(KERN_DEBUG "%s: disconnecting PCM due to " | ||
1995 | "FIFO data: channel %d slot_tx %d\n", | ||
1996 | __func__, ch, slot_tx); | ||
1997 | /* disconnect slot */ | ||
1998 | HFC_outb(hc, A_CON_HDLC, 0x80 | 0x00 | V_HDLC_TRP | V_IFF); | ||
1999 | HFC_outb_nodebug(hc, R_FIFO, ch<<1 | 1); | ||
2000 | HFC_wait_nodebug(hc); | ||
2001 | HFC_outb(hc, A_CON_HDLC, 0x80 | 0x00 | V_HDLC_TRP | V_IFF); | ||
2002 | HFC_outb_nodebug(hc, R_FIFO, ch<<1); | ||
2003 | HFC_wait_nodebug(hc); | ||
2004 | } | ||
2005 | *txpending = 1; | ||
2006 | |||
2007 | /* show activity */ | ||
2008 | hc->activity[hc->chan[ch].port] = 1; | ||
2009 | |||
2010 | /* fill fifo to what we have left */ | ||
2011 | ii = len; | ||
2012 | if (dch || test_bit(FLG_HDLC, &bch->Flags)) | ||
2013 | temp = 1; | ||
2014 | else | ||
2015 | temp = 0; | ||
2016 | i = *idxp; | ||
2017 | d = (*sp)->data + i; | ||
2018 | if (ii - i > Zspace) | ||
2019 | ii = Zspace + i; | ||
2020 | if (debug & DEBUG_HFCMULTI_FIFO) | ||
2021 | printk(KERN_DEBUG "%s(card %d): fifo(%d) has %d bytes space " | ||
2022 | "left (z1=%04x, z2=%04x) sending %d of %d bytes %s\n", | ||
2023 | __func__, hc->id + 1, ch, Zspace, z1, z2, ii-i, len-i, | ||
2024 | temp ? "HDLC":"TRANS"); | ||
2025 | |||
2026 | |||
2027 | /* Have to prep the audio data */ | ||
2028 | hc->write_fifo(hc, d, ii - i); | ||
2029 | *idxp = ii; | ||
2030 | |||
2031 | /* if not all data has been written */ | ||
2032 | if (ii != len) { | ||
2033 | /* NOTE: fifo is started by the calling function */ | ||
2034 | return; | ||
2035 | } | ||
2036 | |||
2037 | /* if all data has been written, terminate frame */ | ||
2038 | if (dch || test_bit(FLG_HDLC, &bch->Flags)) { | ||
2039 | /* increment f-counter */ | ||
2040 | HFC_outb_nodebug(hc, R_INC_RES_FIFO, V_INC_F); | ||
2041 | HFC_wait_nodebug(hc); | ||
2042 | } | ||
2043 | |||
2044 | /* send confirm, since get_net_bframe will not do it with trans */ | ||
2045 | if (bch && test_bit(FLG_TRANSPARENT, &bch->Flags)) | ||
2046 | confirm_Bsend(bch); | ||
2047 | |||
2048 | /* check for next frame */ | ||
2049 | dev_kfree_skb(*sp); | ||
2050 | if (bch && get_next_bframe(bch)) { /* hdlc is confirmed here */ | ||
2051 | len = (*sp)->len; | ||
2052 | goto next_frame; | ||
2053 | } | ||
2054 | if (dch && get_next_dframe(dch)) { | ||
2055 | len = (*sp)->len; | ||
2056 | goto next_frame; | ||
2057 | } | ||
2058 | |||
2059 | /* | ||
2060 | * now we have no more data, so in case of transparent, | ||
2061 | * we set the last byte in fifo to 'silence' in case we will get | ||
2062 | * no more data at all. this prevents sending an undefined value. | ||
2063 | */ | ||
2064 | if (bch && test_bit(FLG_TRANSPARENT, &bch->Flags)) | ||
2065 | HFC_outb_nodebug(hc, A_FIFO_DATA0_NOINC, silence); | ||
2066 | } | ||
2067 | |||
2068 | |||
2069 | /* NOTE: only called if E1 card is in active state */ | ||
2070 | static void | ||
2071 | hfcmulti_rx(struct hfc_multi *hc, int ch) | ||
2072 | { | ||
2073 | int temp; | ||
2074 | int Zsize, z1, z2 = 0; /* = 0, to make GCC happy */ | ||
2075 | int f1 = 0, f2 = 0; /* = 0, to make GCC happy */ | ||
2076 | int again = 0; | ||
2077 | struct bchannel *bch; | ||
2078 | struct dchannel *dch; | ||
2079 | struct sk_buff *skb, **sp = NULL; | ||
2080 | int maxlen; | ||
2081 | |||
2082 | bch = hc->chan[ch].bch; | ||
2083 | dch = hc->chan[ch].dch; | ||
2084 | if ((!dch) && (!bch)) | ||
2085 | return; | ||
2086 | if (dch) { | ||
2087 | if (!test_bit(FLG_ACTIVE, &dch->Flags)) | ||
2088 | return; | ||
2089 | sp = &dch->rx_skb; | ||
2090 | maxlen = dch->maxlen; | ||
2091 | } else { | ||
2092 | if (!test_bit(FLG_ACTIVE, &bch->Flags)) | ||
2093 | return; | ||
2094 | sp = &bch->rx_skb; | ||
2095 | maxlen = bch->maxlen; | ||
2096 | } | ||
2097 | next_frame: | ||
2098 | /* on first AND before getting next valid frame, R_FIFO must be written | ||
2099 | to. */ | ||
2100 | if (test_bit(HFC_CHIP_B410P, &hc->chip) && | ||
2101 | (hc->chan[ch].protocol == ISDN_P_B_RAW) && | ||
2102 | (hc->chan[ch].slot_rx < 0) && | ||
2103 | (hc->chan[ch].slot_tx < 0)) | ||
2104 | HFC_outb_nodebug(hc, R_FIFO, 0x20 | (ch<<1) | 1); | ||
2105 | else | ||
2106 | HFC_outb_nodebug(hc, R_FIFO, (ch<<1)|1); | ||
2107 | HFC_wait_nodebug(hc); | ||
2108 | |||
2109 | /* ignore if rx is off BUT change fifo (above) to start pending TX */ | ||
2110 | if (hc->chan[ch].rx_off) | ||
2111 | return; | ||
2112 | |||
2113 | if (dch || test_bit(FLG_HDLC, &bch->Flags)) { | ||
2114 | f1 = HFC_inb_nodebug(hc, A_F1); | ||
2115 | while (f1 != (temp = HFC_inb_nodebug(hc, A_F1))) { | ||
2116 | if (debug & DEBUG_HFCMULTI_FIFO) | ||
2117 | printk(KERN_DEBUG | ||
2118 | "%s(card %d): reread f1 because %d!=%d\n", | ||
2119 | __func__, hc->id + 1, temp, f1); | ||
2120 | f1 = temp; /* repeat until F1 is equal */ | ||
2121 | } | ||
2122 | f2 = HFC_inb_nodebug(hc, A_F2); | ||
2123 | } | ||
2124 | z1 = HFC_inw_nodebug(hc, A_Z1) - hc->Zmin; | ||
2125 | while (z1 != (temp = (HFC_inw_nodebug(hc, A_Z1) - hc->Zmin))) { | ||
2126 | if (debug & DEBUG_HFCMULTI_FIFO) | ||
2127 | printk(KERN_DEBUG "%s(card %d): reread z2 because " | ||
2128 | "%d!=%d\n", __func__, hc->id + 1, temp, z2); | ||
2129 | z1 = temp; /* repeat until Z1 is equal */ | ||
2130 | } | ||
2131 | z2 = HFC_inw_nodebug(hc, A_Z2) - hc->Zmin; | ||
2132 | Zsize = z1 - z2; | ||
2133 | if ((dch || test_bit(FLG_HDLC, &bch->Flags)) && f1 != f2) | ||
2134 | /* complete hdlc frame */ | ||
2135 | Zsize++; | ||
2136 | if (Zsize < 0) | ||
2137 | Zsize += hc->Zlen; | ||
2138 | /* if buffer is empty */ | ||
2139 | if (Zsize <= 0) | ||
2140 | return; | ||
2141 | |||
2142 | if (*sp == NULL) { | ||
2143 | *sp = mI_alloc_skb(maxlen + 3, GFP_ATOMIC); | ||
2144 | if (*sp == NULL) { | ||
2145 | printk(KERN_DEBUG "%s: No mem for rx_skb\n", | ||
2146 | __func__); | ||
2147 | return; | ||
2148 | } | ||
2149 | } | ||
2150 | /* show activity */ | ||
2151 | hc->activity[hc->chan[ch].port] = 1; | ||
2152 | |||
2153 | /* empty fifo with what we have */ | ||
2154 | if (dch || test_bit(FLG_HDLC, &bch->Flags)) { | ||
2155 | if (debug & DEBUG_HFCMULTI_FIFO) | ||
2156 | printk(KERN_DEBUG "%s(card %d): fifo(%d) reading %d " | ||
2157 | "bytes (z1=%04x, z2=%04x) HDLC %s (f1=%d, f2=%d) " | ||
2158 | "got=%d (again %d)\n", __func__, hc->id + 1, ch, | ||
2159 | Zsize, z1, z2, (f1 == f2) ? "fragment" : "COMPLETE", | ||
2160 | f1, f2, Zsize + (*sp)->len, again); | ||
2161 | /* HDLC */ | ||
2162 | if ((Zsize + (*sp)->len) > (maxlen + 3)) { | ||
2163 | if (debug & DEBUG_HFCMULTI_FIFO) | ||
2164 | printk(KERN_DEBUG | ||
2165 | "%s(card %d): hdlc-frame too large.\n", | ||
2166 | __func__, hc->id + 1); | ||
2167 | skb_trim(*sp, 0); | ||
2168 | HFC_outb_nodebug(hc, R_INC_RES_FIFO, V_RES_F); | ||
2169 | HFC_wait_nodebug(hc); | ||
2170 | return; | ||
2171 | } | ||
2172 | |||
2173 | hc->read_fifo(hc, skb_put(*sp, Zsize), Zsize); | ||
2174 | |||
2175 | if (f1 != f2) { | ||
2176 | /* increment Z2,F2-counter */ | ||
2177 | HFC_outb_nodebug(hc, R_INC_RES_FIFO, V_INC_F); | ||
2178 | HFC_wait_nodebug(hc); | ||
2179 | /* check size */ | ||
2180 | if ((*sp)->len < 4) { | ||
2181 | if (debug & DEBUG_HFCMULTI_FIFO) | ||
2182 | printk(KERN_DEBUG | ||
2183 | "%s(card %d): Frame below minimum " | ||
2184 | "size\n", __func__, hc->id + 1); | ||
2185 | skb_trim(*sp, 0); | ||
2186 | goto next_frame; | ||
2187 | } | ||
2188 | /* there is at least one complete frame, check crc */ | ||
2189 | if ((*sp)->data[(*sp)->len - 1]) { | ||
2190 | if (debug & DEBUG_HFCMULTI_CRC) | ||
2191 | printk(KERN_DEBUG | ||
2192 | "%s: CRC-error\n", __func__); | ||
2193 | skb_trim(*sp, 0); | ||
2194 | goto next_frame; | ||
2195 | } | ||
2196 | skb_trim(*sp, (*sp)->len - 3); | ||
2197 | if ((*sp)->len < MISDN_COPY_SIZE) { | ||
2198 | skb = *sp; | ||
2199 | *sp = mI_alloc_skb(skb->len, GFP_ATOMIC); | ||
2200 | if (*sp) { | ||
2201 | memcpy(skb_put(*sp, skb->len), | ||
2202 | skb->data, skb->len); | ||
2203 | skb_trim(skb, 0); | ||
2204 | } else { | ||
2205 | printk(KERN_DEBUG "%s: No mem\n", | ||
2206 | __func__); | ||
2207 | *sp = skb; | ||
2208 | skb = NULL; | ||
2209 | } | ||
2210 | } else { | ||
2211 | skb = NULL; | ||
2212 | } | ||
2213 | if (debug & DEBUG_HFCMULTI_FIFO) { | ||
2214 | printk(KERN_DEBUG "%s(card %d):", | ||
2215 | __func__, hc->id + 1); | ||
2216 | temp = 0; | ||
2217 | while (temp < (*sp)->len) | ||
2218 | printk(" %02x", (*sp)->data[temp++]); | ||
2219 | printk("\n"); | ||
2220 | } | ||
2221 | if (dch) | ||
2222 | recv_Dchannel(dch); | ||
2223 | else | ||
2224 | recv_Bchannel(bch); | ||
2225 | *sp = skb; | ||
2226 | again++; | ||
2227 | goto next_frame; | ||
2228 | } | ||
2229 | /* there is an incomplete frame */ | ||
2230 | } else { | ||
2231 | /* transparent */ | ||
2232 | if (Zsize > skb_tailroom(*sp)) | ||
2233 | Zsize = skb_tailroom(*sp); | ||
2234 | hc->read_fifo(hc, skb_put(*sp, Zsize), Zsize); | ||
2235 | if (((*sp)->len) < MISDN_COPY_SIZE) { | ||
2236 | skb = *sp; | ||
2237 | *sp = mI_alloc_skb(skb->len, GFP_ATOMIC); | ||
2238 | if (*sp) { | ||
2239 | memcpy(skb_put(*sp, skb->len), | ||
2240 | skb->data, skb->len); | ||
2241 | skb_trim(skb, 0); | ||
2242 | } else { | ||
2243 | printk(KERN_DEBUG "%s: No mem\n", __func__); | ||
2244 | *sp = skb; | ||
2245 | skb = NULL; | ||
2246 | } | ||
2247 | } else { | ||
2248 | skb = NULL; | ||
2249 | } | ||
2250 | if (debug & DEBUG_HFCMULTI_FIFO) | ||
2251 | printk(KERN_DEBUG | ||
2252 | "%s(card %d): fifo(%d) reading %d bytes " | ||
2253 | "(z1=%04x, z2=%04x) TRANS\n", | ||
2254 | __func__, hc->id + 1, ch, Zsize, z1, z2); | ||
2255 | /* only bch is transparent */ | ||
2256 | recv_Bchannel(bch); | ||
2257 | *sp = skb; | ||
2258 | } | ||
2259 | } | ||
2260 | |||
2261 | |||
2262 | /* | ||
2263 | * Interrupt handler | ||
2264 | */ | ||
2265 | static void | ||
2266 | signal_state_up(struct dchannel *dch, int info, char *msg) | ||
2267 | { | ||
2268 | struct sk_buff *skb; | ||
2269 | int id, data = info; | ||
2270 | |||
2271 | if (debug & DEBUG_HFCMULTI_STATE) | ||
2272 | printk(KERN_DEBUG "%s: %s\n", __func__, msg); | ||
2273 | |||
2274 | id = TEI_SAPI | (GROUP_TEI << 8); /* manager address */ | ||
2275 | |||
2276 | skb = _alloc_mISDN_skb(MPH_INFORMATION_IND, id, sizeof(data), &data, | ||
2277 | GFP_ATOMIC); | ||
2278 | if (!skb) | ||
2279 | return; | ||
2280 | recv_Dchannel_skb(dch, skb); | ||
2281 | } | ||
2282 | |||
2283 | static inline void | ||
2284 | handle_timer_irq(struct hfc_multi *hc) | ||
2285 | { | ||
2286 | int ch, temp; | ||
2287 | struct dchannel *dch; | ||
2288 | u_long flags; | ||
2289 | |||
2290 | /* process queued resync jobs */ | ||
2291 | if (hc->e1_resync) { | ||
2292 | /* lock, so e1_resync gets not changed */ | ||
2293 | spin_lock_irqsave(&HFClock, flags); | ||
2294 | if (hc->e1_resync & 1) { | ||
2295 | if (debug & DEBUG_HFCMULTI_PLXSD) | ||
2296 | printk(KERN_DEBUG "Enable SYNC_I\n"); | ||
2297 | HFC_outb(hc, R_SYNC_CTRL, V_EXT_CLK_SYNC); | ||
2298 | /* disable JATT, if RX_SYNC is set */ | ||
2299 | if (test_bit(HFC_CHIP_RX_SYNC, &hc->chip)) | ||
2300 | HFC_outb(hc, R_SYNC_OUT, V_SYNC_E1_RX); | ||
2301 | } | ||
2302 | if (hc->e1_resync & 2) { | ||
2303 | if (debug & DEBUG_HFCMULTI_PLXSD) | ||
2304 | printk(KERN_DEBUG "Enable jatt PLL\n"); | ||
2305 | HFC_outb(hc, R_SYNC_CTRL, V_SYNC_OFFS); | ||
2306 | } | ||
2307 | if (hc->e1_resync & 4) { | ||
2308 | if (debug & DEBUG_HFCMULTI_PLXSD) | ||
2309 | printk(KERN_DEBUG | ||
2310 | "Enable QUARTZ for HFC-E1\n"); | ||
2311 | /* set jatt to quartz */ | ||
2312 | HFC_outb(hc, R_SYNC_CTRL, V_EXT_CLK_SYNC | ||
2313 | | V_JATT_OFF); | ||
2314 | /* switch to JATT, in case it is not already */ | ||
2315 | HFC_outb(hc, R_SYNC_OUT, 0); | ||
2316 | } | ||
2317 | hc->e1_resync = 0; | ||
2318 | spin_unlock_irqrestore(&HFClock, flags); | ||
2319 | } | ||
2320 | |||
2321 | if (hc->type != 1 || hc->e1_state == 1) | ||
2322 | for (ch = 0; ch <= 31; ch++) { | ||
2323 | if (hc->created[hc->chan[ch].port]) { | ||
2324 | hfcmulti_tx(hc, ch); | ||
2325 | /* fifo is started when switching to rx-fifo */ | ||
2326 | hfcmulti_rx(hc, ch); | ||
2327 | if (hc->chan[ch].dch && | ||
2328 | hc->chan[ch].nt_timer > -1) { | ||
2329 | dch = hc->chan[ch].dch; | ||
2330 | if (!(--hc->chan[ch].nt_timer)) { | ||
2331 | schedule_event(dch, | ||
2332 | FLG_PHCHANGE); | ||
2333 | if (debug & | ||
2334 | DEBUG_HFCMULTI_STATE) | ||
2335 | printk(KERN_DEBUG | ||
2336 | "%s: nt_timer at " | ||
2337 | "state %x\n", | ||
2338 | __func__, | ||
2339 | dch->state); | ||
2340 | } | ||
2341 | } | ||
2342 | } | ||
2343 | } | ||
2344 | if (hc->type == 1 && hc->created[0]) { | ||
2345 | dch = hc->chan[hc->dslot].dch; | ||
2346 | if (test_bit(HFC_CFG_REPORT_LOS, &hc->chan[hc->dslot].cfg)) { | ||
2347 | /* LOS */ | ||
2348 | temp = HFC_inb_nodebug(hc, R_SYNC_STA) & V_SIG_LOS; | ||
2349 | if (!temp && hc->chan[hc->dslot].los) | ||
2350 | signal_state_up(dch, L1_SIGNAL_LOS_ON, | ||
2351 | "LOS detected"); | ||
2352 | if (temp && !hc->chan[hc->dslot].los) | ||
2353 | signal_state_up(dch, L1_SIGNAL_LOS_OFF, | ||
2354 | "LOS gone"); | ||
2355 | hc->chan[hc->dslot].los = temp; | ||
2356 | } | ||
2357 | if (test_bit(HFC_CFG_REPORT_AIS, &hc->chan[hc->dslot].cfg)) { | ||
2358 | /* AIS */ | ||
2359 | temp = HFC_inb_nodebug(hc, R_SYNC_STA) & V_AIS; | ||
2360 | if (!temp && hc->chan[hc->dslot].ais) | ||
2361 | signal_state_up(dch, L1_SIGNAL_AIS_ON, | ||
2362 | "AIS detected"); | ||
2363 | if (temp && !hc->chan[hc->dslot].ais) | ||
2364 | signal_state_up(dch, L1_SIGNAL_AIS_OFF, | ||
2365 | "AIS gone"); | ||
2366 | hc->chan[hc->dslot].ais = temp; | ||
2367 | } | ||
2368 | if (test_bit(HFC_CFG_REPORT_SLIP, &hc->chan[hc->dslot].cfg)) { | ||
2369 | /* SLIP */ | ||
2370 | temp = HFC_inb_nodebug(hc, R_SLIP) & V_FOSLIP_RX; | ||
2371 | if (!temp && hc->chan[hc->dslot].slip_rx) | ||
2372 | signal_state_up(dch, L1_SIGNAL_SLIP_RX, | ||
2373 | " bit SLIP detected RX"); | ||
2374 | hc->chan[hc->dslot].slip_rx = temp; | ||
2375 | temp = HFC_inb_nodebug(hc, R_SLIP) & V_FOSLIP_TX; | ||
2376 | if (!temp && hc->chan[hc->dslot].slip_tx) | ||
2377 | signal_state_up(dch, L1_SIGNAL_SLIP_TX, | ||
2378 | " bit SLIP detected TX"); | ||
2379 | hc->chan[hc->dslot].slip_tx = temp; | ||
2380 | } | ||
2381 | if (test_bit(HFC_CFG_REPORT_RDI, &hc->chan[hc->dslot].cfg)) { | ||
2382 | /* RDI */ | ||
2383 | temp = HFC_inb_nodebug(hc, R_RX_SL0_0) & V_A; | ||
2384 | if (!temp && hc->chan[hc->dslot].rdi) | ||
2385 | signal_state_up(dch, L1_SIGNAL_RDI_ON, | ||
2386 | "RDI detected"); | ||
2387 | if (temp && !hc->chan[hc->dslot].rdi) | ||
2388 | signal_state_up(dch, L1_SIGNAL_RDI_OFF, | ||
2389 | "RDI gone"); | ||
2390 | hc->chan[hc->dslot].rdi = temp; | ||
2391 | } | ||
2392 | temp = HFC_inb_nodebug(hc, R_JATT_DIR); | ||
2393 | switch (hc->chan[hc->dslot].sync) { | ||
2394 | case 0: | ||
2395 | if ((temp & 0x60) == 0x60) { | ||
2396 | if (debug & DEBUG_HFCMULTI_SYNC) | ||
2397 | printk(KERN_DEBUG | ||
2398 | "%s: (id=%d) E1 now " | ||
2399 | "in clock sync\n", | ||
2400 | __func__, hc->id); | ||
2401 | HFC_outb(hc, R_RX_OFF, | ||
2402 | hc->chan[hc->dslot].jitter | V_RX_INIT); | ||
2403 | HFC_outb(hc, R_TX_OFF, | ||
2404 | hc->chan[hc->dslot].jitter | V_RX_INIT); | ||
2405 | hc->chan[hc->dslot].sync = 1; | ||
2406 | goto check_framesync; | ||
2407 | } | ||
2408 | break; | ||
2409 | case 1: | ||
2410 | if ((temp & 0x60) != 0x60) { | ||
2411 | if (debug & DEBUG_HFCMULTI_SYNC) | ||
2412 | printk(KERN_DEBUG | ||
2413 | "%s: (id=%d) E1 " | ||
2414 | "lost clock sync\n", | ||
2415 | __func__, hc->id); | ||
2416 | hc->chan[hc->dslot].sync = 0; | ||
2417 | break; | ||
2418 | } | ||
2419 | check_framesync: | ||
2420 | temp = HFC_inb_nodebug(hc, R_SYNC_STA); | ||
2421 | if (temp == 0x27) { | ||
2422 | if (debug & DEBUG_HFCMULTI_SYNC) | ||
2423 | printk(KERN_DEBUG | ||
2424 | "%s: (id=%d) E1 " | ||
2425 | "now in frame sync\n", | ||
2426 | __func__, hc->id); | ||
2427 | hc->chan[hc->dslot].sync = 2; | ||
2428 | } | ||
2429 | break; | ||
2430 | case 2: | ||
2431 | if ((temp & 0x60) != 0x60) { | ||
2432 | if (debug & DEBUG_HFCMULTI_SYNC) | ||
2433 | printk(KERN_DEBUG | ||
2434 | "%s: (id=%d) E1 lost " | ||
2435 | "clock & frame sync\n", | ||
2436 | __func__, hc->id); | ||
2437 | hc->chan[hc->dslot].sync = 0; | ||
2438 | break; | ||
2439 | } | ||
2440 | temp = HFC_inb_nodebug(hc, R_SYNC_STA); | ||
2441 | if (temp != 0x27) { | ||
2442 | if (debug & DEBUG_HFCMULTI_SYNC) | ||
2443 | printk(KERN_DEBUG | ||
2444 | "%s: (id=%d) E1 " | ||
2445 | "lost frame sync\n", | ||
2446 | __func__, hc->id); | ||
2447 | hc->chan[hc->dslot].sync = 1; | ||
2448 | } | ||
2449 | break; | ||
2450 | } | ||
2451 | } | ||
2452 | |||
2453 | if (test_bit(HFC_CHIP_WATCHDOG, &hc->chip)) | ||
2454 | hfcmulti_watchdog(hc); | ||
2455 | |||
2456 | if (hc->leds) | ||
2457 | hfcmulti_leds(hc); | ||
2458 | } | ||
2459 | |||
2460 | static void | ||
2461 | ph_state_irq(struct hfc_multi *hc, u_char r_irq_statech) | ||
2462 | { | ||
2463 | struct dchannel *dch; | ||
2464 | int ch; | ||
2465 | int active; | ||
2466 | u_char st_status, temp; | ||
2467 | |||
2468 | /* state machine */ | ||
2469 | for (ch = 0; ch <= 31; ch++) { | ||
2470 | if (hc->chan[ch].dch) { | ||
2471 | dch = hc->chan[ch].dch; | ||
2472 | if (r_irq_statech & 1) { | ||
2473 | HFC_outb_nodebug(hc, R_ST_SEL, | ||
2474 | hc->chan[ch].port); | ||
2475 | /* undocumented: delay after R_ST_SEL */ | ||
2476 | udelay(1); | ||
2477 | /* undocumented: status changes during read */ | ||
2478 | st_status = HFC_inb_nodebug(hc, A_ST_RD_STATE); | ||
2479 | while (st_status != (temp = | ||
2480 | HFC_inb_nodebug(hc, A_ST_RD_STATE))) { | ||
2481 | if (debug & DEBUG_HFCMULTI_STATE) | ||
2482 | printk(KERN_DEBUG "%s: reread " | ||
2483 | "STATE because %d!=%d\n", | ||
2484 | __func__, temp, | ||
2485 | st_status); | ||
2486 | st_status = temp; /* repeat */ | ||
2487 | } | ||
2488 | |||
2489 | /* Speech Design TE-sync indication */ | ||
2490 | if (test_bit(HFC_CHIP_PLXSD, &hc->chip) && | ||
2491 | dch->dev.D.protocol == ISDN_P_TE_S0) { | ||
2492 | if (st_status & V_FR_SYNC_ST) | ||
2493 | hc->syncronized |= | ||
2494 | (1 << hc->chan[ch].port); | ||
2495 | else | ||
2496 | hc->syncronized &= | ||
2497 | ~(1 << hc->chan[ch].port); | ||
2498 | } | ||
2499 | dch->state = st_status & 0x0f; | ||
2500 | if (dch->dev.D.protocol == ISDN_P_NT_S0) | ||
2501 | active = 3; | ||
2502 | else | ||
2503 | active = 7; | ||
2504 | if (dch->state == active) { | ||
2505 | HFC_outb_nodebug(hc, R_FIFO, | ||
2506 | (ch << 1) | 1); | ||
2507 | HFC_wait_nodebug(hc); | ||
2508 | HFC_outb_nodebug(hc, | ||
2509 | R_INC_RES_FIFO, V_RES_F); | ||
2510 | HFC_wait_nodebug(hc); | ||
2511 | dch->tx_idx = 0; | ||
2512 | } | ||
2513 | schedule_event(dch, FLG_PHCHANGE); | ||
2514 | if (debug & DEBUG_HFCMULTI_STATE) | ||
2515 | printk(KERN_DEBUG | ||
2516 | "%s: S/T newstate %x port %d\n", | ||
2517 | __func__, dch->state, | ||
2518 | hc->chan[ch].port); | ||
2519 | } | ||
2520 | r_irq_statech >>= 1; | ||
2521 | } | ||
2522 | } | ||
2523 | if (test_bit(HFC_CHIP_PLXSD, &hc->chip)) | ||
2524 | plxsd_checksync(hc, 0); | ||
2525 | } | ||
2526 | |||
2527 | static void | ||
2528 | fifo_irq(struct hfc_multi *hc, int block) | ||
2529 | { | ||
2530 | int ch, j; | ||
2531 | struct dchannel *dch; | ||
2532 | struct bchannel *bch; | ||
2533 | u_char r_irq_fifo_bl; | ||
2534 | |||
2535 | r_irq_fifo_bl = HFC_inb_nodebug(hc, R_IRQ_FIFO_BL0 + block); | ||
2536 | j = 0; | ||
2537 | while (j < 8) { | ||
2538 | ch = (block << 2) + (j >> 1); | ||
2539 | dch = hc->chan[ch].dch; | ||
2540 | bch = hc->chan[ch].bch; | ||
2541 | if (((!dch) && (!bch)) || (!hc->created[hc->chan[ch].port])) { | ||
2542 | j += 2; | ||
2543 | continue; | ||
2544 | } | ||
2545 | if (dch && (r_irq_fifo_bl & (1 << j)) && | ||
2546 | test_bit(FLG_ACTIVE, &dch->Flags)) { | ||
2547 | hfcmulti_tx(hc, ch); | ||
2548 | /* start fifo */ | ||
2549 | HFC_outb_nodebug(hc, R_FIFO, 0); | ||
2550 | HFC_wait_nodebug(hc); | ||
2551 | } | ||
2552 | if (bch && (r_irq_fifo_bl & (1 << j)) && | ||
2553 | test_bit(FLG_ACTIVE, &bch->Flags)) { | ||
2554 | hfcmulti_tx(hc, ch); | ||
2555 | /* start fifo */ | ||
2556 | HFC_outb_nodebug(hc, R_FIFO, 0); | ||
2557 | HFC_wait_nodebug(hc); | ||
2558 | } | ||
2559 | j++; | ||
2560 | if (dch && (r_irq_fifo_bl & (1 << j)) && | ||
2561 | test_bit(FLG_ACTIVE, &dch->Flags)) { | ||
2562 | hfcmulti_rx(hc, ch); | ||
2563 | } | ||
2564 | if (bch && (r_irq_fifo_bl & (1 << j)) && | ||
2565 | test_bit(FLG_ACTIVE, &bch->Flags)) { | ||
2566 | hfcmulti_rx(hc, ch); | ||
2567 | } | ||
2568 | j++; | ||
2569 | } | ||
2570 | } | ||
2571 | |||
2572 | #ifdef IRQ_DEBUG | ||
2573 | int irqsem; | ||
2574 | #endif | ||
2575 | static irqreturn_t | ||
2576 | hfcmulti_interrupt(int intno, void *dev_id) | ||
2577 | { | ||
2578 | #ifdef IRQCOUNT_DEBUG | ||
2579 | static int iq1 = 0, iq2 = 0, iq3 = 0, iq4 = 0, | ||
2580 | iq5 = 0, iq6 = 0, iqcnt = 0; | ||
2581 | #endif | ||
2582 | static int count; | ||
2583 | struct hfc_multi *hc = dev_id; | ||
2584 | struct dchannel *dch; | ||
2585 | u_char r_irq_statech, status, r_irq_misc, r_irq_oview; | ||
2586 | int i; | ||
2587 | u_short *plx_acc, wval; | ||
2588 | u_char e1_syncsta, temp; | ||
2589 | u_long flags; | ||
2590 | |||
2591 | if (!hc) { | ||
2592 | printk(KERN_ERR "HFC-multi: Spurious interrupt!\n"); | ||
2593 | return IRQ_NONE; | ||
2594 | } | ||
2595 | |||
2596 | spin_lock(&hc->lock); | ||
2597 | |||
2598 | #ifdef IRQ_DEBUG | ||
2599 | if (irqsem) | ||
2600 | printk(KERN_ERR "irq for card %d during irq from " | ||
2601 | "card %d, this is no bug.\n", hc->id + 1, irqsem); | ||
2602 | irqsem = hc->id + 1; | ||
2603 | #endif | ||
2604 | |||
2605 | if (test_bit(HFC_CHIP_PLXSD, &hc->chip)) { | ||
2606 | spin_lock_irqsave(&plx_lock, flags); | ||
2607 | plx_acc = (u_short *)(hc->plx_membase + PLX_INTCSR); | ||
2608 | wval = readw(plx_acc); | ||
2609 | spin_unlock_irqrestore(&plx_lock, flags); | ||
2610 | if (!(wval & PLX_INTCSR_LINTI1_STATUS)) | ||
2611 | goto irq_notforus; | ||
2612 | } | ||
2613 | |||
2614 | status = HFC_inb_nodebug(hc, R_STATUS); | ||
2615 | r_irq_statech = HFC_inb_nodebug(hc, R_IRQ_STATECH); | ||
2616 | #ifdef IRQCOUNT_DEBUG | ||
2617 | if (r_irq_statech) | ||
2618 | iq1++; | ||
2619 | if (status & V_DTMF_STA) | ||
2620 | iq2++; | ||
2621 | if (status & V_LOST_STA) | ||
2622 | iq3++; | ||
2623 | if (status & V_EXT_IRQSTA) | ||
2624 | iq4++; | ||
2625 | if (status & V_MISC_IRQSTA) | ||
2626 | iq5++; | ||
2627 | if (status & V_FR_IRQSTA) | ||
2628 | iq6++; | ||
2629 | if (iqcnt++ > 5000) { | ||
2630 | printk(KERN_ERR "iq1:%x iq2:%x iq3:%x iq4:%x iq5:%x iq6:%x\n", | ||
2631 | iq1, iq2, iq3, iq4, iq5, iq6); | ||
2632 | iqcnt = 0; | ||
2633 | } | ||
2634 | #endif | ||
2635 | if (!r_irq_statech && | ||
2636 | !(status & (V_DTMF_STA | V_LOST_STA | V_EXT_IRQSTA | | ||
2637 | V_MISC_IRQSTA | V_FR_IRQSTA))) { | ||
2638 | /* irq is not for us */ | ||
2639 | goto irq_notforus; | ||
2640 | } | ||
2641 | hc->irqcnt++; | ||
2642 | if (r_irq_statech) { | ||
2643 | if (hc->type != 1) | ||
2644 | ph_state_irq(hc, r_irq_statech); | ||
2645 | } | ||
2646 | if (status & V_EXT_IRQSTA) | ||
2647 | ; /* external IRQ */ | ||
2648 | if (status & V_LOST_STA) { | ||
2649 | /* LOST IRQ */ | ||
2650 | HFC_outb(hc, R_INC_RES_FIFO, V_RES_LOST); /* clear irq! */ | ||
2651 | } | ||
2652 | if (status & V_MISC_IRQSTA) { | ||
2653 | /* misc IRQ */ | ||
2654 | r_irq_misc = HFC_inb_nodebug(hc, R_IRQ_MISC); | ||
2655 | if (r_irq_misc & V_STA_IRQ) { | ||
2656 | if (hc->type == 1) { | ||
2657 | /* state machine */ | ||
2658 | dch = hc->chan[hc->dslot].dch; | ||
2659 | e1_syncsta = HFC_inb_nodebug(hc, R_SYNC_STA); | ||
2660 | if (test_bit(HFC_CHIP_PLXSD, &hc->chip) | ||
2661 | && hc->e1_getclock) { | ||
2662 | if (e1_syncsta & V_FR_SYNC_E1) | ||
2663 | hc->syncronized = 1; | ||
2664 | else | ||
2665 | hc->syncronized = 0; | ||
2666 | } | ||
2667 | /* undocumented: status changes during read */ | ||
2668 | dch->state = HFC_inb_nodebug(hc, R_E1_RD_STA); | ||
2669 | while (dch->state != (temp = | ||
2670 | HFC_inb_nodebug(hc, R_E1_RD_STA))) { | ||
2671 | if (debug & DEBUG_HFCMULTI_STATE) | ||
2672 | printk(KERN_DEBUG "%s: reread " | ||
2673 | "STATE because %d!=%d\n", | ||
2674 | __func__, temp, | ||
2675 | dch->state); | ||
2676 | dch->state = temp; /* repeat */ | ||
2677 | } | ||
2678 | dch->state = HFC_inb_nodebug(hc, R_E1_RD_STA) | ||
2679 | & 0x7; | ||
2680 | schedule_event(dch, FLG_PHCHANGE); | ||
2681 | if (debug & DEBUG_HFCMULTI_STATE) | ||
2682 | printk(KERN_DEBUG | ||
2683 | "%s: E1 (id=%d) newstate %x\n", | ||
2684 | __func__, hc->id, dch->state); | ||
2685 | if (test_bit(HFC_CHIP_PLXSD, &hc->chip)) | ||
2686 | plxsd_checksync(hc, 0); | ||
2687 | } | ||
2688 | } | ||
2689 | if (r_irq_misc & V_TI_IRQ) | ||
2690 | handle_timer_irq(hc); | ||
2691 | |||
2692 | if (r_irq_misc & V_DTMF_IRQ) { | ||
2693 | /* -> DTMF IRQ */ | ||
2694 | hfcmulti_dtmf(hc); | ||
2695 | } | ||
2696 | /* TODO: REPLACE !!!! 125 us Interrupts are not acceptable */ | ||
2697 | if (r_irq_misc & V_IRQ_PROC) { | ||
2698 | /* IRQ every 125us */ | ||
2699 | count++; | ||
2700 | /* generate 1kHz signal */ | ||
2701 | if (count == 8) { | ||
2702 | if (hfc_interrupt) | ||
2703 | hfc_interrupt(); | ||
2704 | count = 0; | ||
2705 | } | ||
2706 | } | ||
2707 | |||
2708 | } | ||
2709 | if (status & V_FR_IRQSTA) { | ||
2710 | /* FIFO IRQ */ | ||
2711 | r_irq_oview = HFC_inb_nodebug(hc, R_IRQ_OVIEW); | ||
2712 | for (i = 0; i < 8; i++) { | ||
2713 | if (r_irq_oview & (1 << i)) | ||
2714 | fifo_irq(hc, i); | ||
2715 | } | ||
2716 | } | ||
2717 | |||
2718 | #ifdef IRQ_DEBUG | ||
2719 | irqsem = 0; | ||
2720 | #endif | ||
2721 | spin_unlock(&hc->lock); | ||
2722 | return IRQ_HANDLED; | ||
2723 | |||
2724 | irq_notforus: | ||
2725 | #ifdef IRQ_DEBUG | ||
2726 | irqsem = 0; | ||
2727 | #endif | ||
2728 | spin_unlock(&hc->lock); | ||
2729 | return IRQ_NONE; | ||
2730 | } | ||
2731 | |||
2732 | |||
2733 | /* | ||
2734 | * timer callback for D-chan busy resolution. Currently no function | ||
2735 | */ | ||
2736 | |||
2737 | static void | ||
2738 | hfcmulti_dbusy_timer(struct hfc_multi *hc) | ||
2739 | { | ||
2740 | } | ||
2741 | |||
2742 | |||
2743 | /* | ||
2744 | * activate/deactivate hardware for selected channels and mode | ||
2745 | * | ||
2746 | * configure B-channel with the given protocol | ||
2747 | * ch eqals to the HFC-channel (0-31) | ||
2748 | * ch is the number of channel (0-4,4-7,8-11,12-15,16-19,20-23,24-27,28-31 | ||
2749 | * for S/T, 1-31 for E1) | ||
2750 | * the hdlc interrupts will be set/unset | ||
2751 | */ | ||
2752 | static int | ||
2753 | mode_hfcmulti(struct hfc_multi *hc, int ch, int protocol, int slot_tx, | ||
2754 | int bank_tx, int slot_rx, int bank_rx) | ||
2755 | { | ||
2756 | int flow_tx = 0, flow_rx = 0, routing = 0; | ||
2757 | int oslot_tx, oslot_rx; | ||
2758 | int conf; | ||
2759 | |||
2760 | if (ch < 0 || ch > 31) | ||
2761 | return EINVAL; | ||
2762 | oslot_tx = hc->chan[ch].slot_tx; | ||
2763 | oslot_rx = hc->chan[ch].slot_rx; | ||
2764 | conf = hc->chan[ch].conf; | ||
2765 | |||
2766 | if (debug & DEBUG_HFCMULTI_MODE) | ||
2767 | printk(KERN_DEBUG | ||
2768 | "%s: card %d channel %d protocol %x slot old=%d new=%d " | ||
2769 | "bank new=%d (TX) slot old=%d new=%d bank new=%d (RX)\n", | ||
2770 | __func__, hc->id, ch, protocol, oslot_tx, slot_tx, | ||
2771 | bank_tx, oslot_rx, slot_rx, bank_rx); | ||
2772 | |||
2773 | if (oslot_tx >= 0 && slot_tx != oslot_tx) { | ||
2774 | /* remove from slot */ | ||
2775 | if (debug & DEBUG_HFCMULTI_MODE) | ||
2776 | printk(KERN_DEBUG "%s: remove from slot %d (TX)\n", | ||
2777 | __func__, oslot_tx); | ||
2778 | if (hc->slot_owner[oslot_tx<<1] == ch) { | ||
2779 | HFC_outb(hc, R_SLOT, oslot_tx << 1); | ||
2780 | HFC_outb(hc, A_SL_CFG, 0); | ||
2781 | HFC_outb(hc, A_CONF, 0); | ||
2782 | hc->slot_owner[oslot_tx<<1] = -1; | ||
2783 | } else { | ||
2784 | if (debug & DEBUG_HFCMULTI_MODE) | ||
2785 | printk(KERN_DEBUG | ||
2786 | "%s: we are not owner of this tx slot " | ||
2787 | "anymore, channel %d is.\n", | ||
2788 | __func__, hc->slot_owner[oslot_tx<<1]); | ||
2789 | } | ||
2790 | } | ||
2791 | |||
2792 | if (oslot_rx >= 0 && slot_rx != oslot_rx) { | ||
2793 | /* remove from slot */ | ||
2794 | if (debug & DEBUG_HFCMULTI_MODE) | ||
2795 | printk(KERN_DEBUG | ||
2796 | "%s: remove from slot %d (RX)\n", | ||
2797 | __func__, oslot_rx); | ||
2798 | if (hc->slot_owner[(oslot_rx << 1) | 1] == ch) { | ||
2799 | HFC_outb(hc, R_SLOT, (oslot_rx << 1) | V_SL_DIR); | ||
2800 | HFC_outb(hc, A_SL_CFG, 0); | ||
2801 | hc->slot_owner[(oslot_rx << 1) | 1] = -1; | ||
2802 | } else { | ||
2803 | if (debug & DEBUG_HFCMULTI_MODE) | ||
2804 | printk(KERN_DEBUG | ||
2805 | "%s: we are not owner of this rx slot " | ||
2806 | "anymore, channel %d is.\n", | ||
2807 | __func__, | ||
2808 | hc->slot_owner[(oslot_rx << 1) | 1]); | ||
2809 | } | ||
2810 | } | ||
2811 | |||
2812 | if (slot_tx < 0) { | ||
2813 | flow_tx = 0x80; /* FIFO->ST */ | ||
2814 | /* disable pcm slot */ | ||
2815 | hc->chan[ch].slot_tx = -1; | ||
2816 | hc->chan[ch].bank_tx = 0; | ||
2817 | } else { | ||
2818 | /* set pcm slot */ | ||
2819 | if (hc->chan[ch].txpending) | ||
2820 | flow_tx = 0x80; /* FIFO->ST */ | ||
2821 | else | ||
2822 | flow_tx = 0xc0; /* PCM->ST */ | ||
2823 | /* put on slot */ | ||
2824 | routing = bank_tx ? 0xc0 : 0x80; | ||
2825 | if (conf >= 0 || bank_tx > 1) | ||
2826 | routing = 0x40; /* loop */ | ||
2827 | if (debug & DEBUG_HFCMULTI_MODE) | ||
2828 | printk(KERN_DEBUG "%s: put channel %d to slot %d bank" | ||
2829 | " %d flow %02x routing %02x conf %d (TX)\n", | ||
2830 | __func__, ch, slot_tx, bank_tx, | ||
2831 | flow_tx, routing, conf); | ||
2832 | HFC_outb(hc, R_SLOT, slot_tx << 1); | ||
2833 | HFC_outb(hc, A_SL_CFG, (ch<<1) | routing); | ||
2834 | HFC_outb(hc, A_CONF, (conf < 0) ? 0 : (conf | V_CONF_SL)); | ||
2835 | hc->slot_owner[slot_tx << 1] = ch; | ||
2836 | hc->chan[ch].slot_tx = slot_tx; | ||
2837 | hc->chan[ch].bank_tx = bank_tx; | ||
2838 | } | ||
2839 | if (slot_rx < 0) { | ||
2840 | /* disable pcm slot */ | ||
2841 | flow_rx = 0x80; /* ST->FIFO */ | ||
2842 | hc->chan[ch].slot_rx = -1; | ||
2843 | hc->chan[ch].bank_rx = 0; | ||
2844 | } else { | ||
2845 | /* set pcm slot */ | ||
2846 | if (hc->chan[ch].txpending) | ||
2847 | flow_rx = 0x80; /* ST->FIFO */ | ||
2848 | else | ||
2849 | flow_rx = 0xc0; /* ST->(FIFO,PCM) */ | ||
2850 | /* put on slot */ | ||
2851 | routing = bank_rx?0x80:0xc0; /* reversed */ | ||
2852 | if (conf >= 0 || bank_rx > 1) | ||
2853 | routing = 0x40; /* loop */ | ||
2854 | if (debug & DEBUG_HFCMULTI_MODE) | ||
2855 | printk(KERN_DEBUG "%s: put channel %d to slot %d bank" | ||
2856 | " %d flow %02x routing %02x conf %d (RX)\n", | ||
2857 | __func__, ch, slot_rx, bank_rx, | ||
2858 | flow_rx, routing, conf); | ||
2859 | HFC_outb(hc, R_SLOT, (slot_rx<<1) | V_SL_DIR); | ||
2860 | HFC_outb(hc, A_SL_CFG, (ch<<1) | V_CH_DIR | routing); | ||
2861 | hc->slot_owner[(slot_rx<<1)|1] = ch; | ||
2862 | hc->chan[ch].slot_rx = slot_rx; | ||
2863 | hc->chan[ch].bank_rx = bank_rx; | ||
2864 | } | ||
2865 | |||
2866 | switch (protocol) { | ||
2867 | case (ISDN_P_NONE): | ||
2868 | /* disable TX fifo */ | ||
2869 | HFC_outb(hc, R_FIFO, ch << 1); | ||
2870 | HFC_wait(hc); | ||
2871 | HFC_outb(hc, A_CON_HDLC, flow_tx | 0x00 | V_IFF); | ||
2872 | HFC_outb(hc, A_SUBCH_CFG, 0); | ||
2873 | HFC_outb(hc, A_IRQ_MSK, 0); | ||
2874 | HFC_outb(hc, R_INC_RES_FIFO, V_RES_F); | ||
2875 | HFC_wait(hc); | ||
2876 | /* disable RX fifo */ | ||
2877 | HFC_outb(hc, R_FIFO, (ch<<1)|1); | ||
2878 | HFC_wait(hc); | ||
2879 | HFC_outb(hc, A_CON_HDLC, flow_rx | 0x00); | ||
2880 | HFC_outb(hc, A_SUBCH_CFG, 0); | ||
2881 | HFC_outb(hc, A_IRQ_MSK, 0); | ||
2882 | HFC_outb(hc, R_INC_RES_FIFO, V_RES_F); | ||
2883 | HFC_wait(hc); | ||
2884 | if (hc->chan[ch].bch && hc->type != 1) { | ||
2885 | hc->hw.a_st_ctrl0[hc->chan[ch].port] &= | ||
2886 | ((ch & 0x3) == 0)? ~V_B1_EN: ~V_B2_EN; | ||
2887 | HFC_outb(hc, R_ST_SEL, hc->chan[ch].port); | ||
2888 | /* undocumented: delay after R_ST_SEL */ | ||
2889 | udelay(1); | ||
2890 | HFC_outb(hc, A_ST_CTRL0, | ||
2891 | hc->hw.a_st_ctrl0[hc->chan[ch].port]); | ||
2892 | } | ||
2893 | if (hc->chan[ch].bch) { | ||
2894 | test_and_clear_bit(FLG_HDLC, &hc->chan[ch].bch->Flags); | ||
2895 | test_and_clear_bit(FLG_TRANSPARENT, | ||
2896 | &hc->chan[ch].bch->Flags); | ||
2897 | } | ||
2898 | break; | ||
2899 | case (ISDN_P_B_RAW): /* B-channel */ | ||
2900 | |||
2901 | if (test_bit(HFC_CHIP_B410P, &hc->chip) && | ||
2902 | (hc->chan[ch].slot_rx < 0) && | ||
2903 | (hc->chan[ch].slot_tx < 0)) { | ||
2904 | |||
2905 | printk(KERN_DEBUG | ||
2906 | "Setting B-channel %d to echo cancelable " | ||
2907 | "state on PCM slot %d\n", ch, | ||
2908 | ((ch / 4) * 8) + ((ch % 4) * 4) + 1); | ||
2909 | printk(KERN_DEBUG | ||
2910 | "Enabling pass through for channel\n"); | ||
2911 | vpm_out(hc, ch, ((ch / 4) * 8) + | ||
2912 | ((ch % 4) * 4) + 1, 0x01); | ||
2913 | /* rx path */ | ||
2914 | /* S/T -> PCM */ | ||
2915 | HFC_outb(hc, R_FIFO, (ch << 1)); | ||
2916 | HFC_wait(hc); | ||
2917 | HFC_outb(hc, A_CON_HDLC, 0xc0 | V_HDLC_TRP | V_IFF); | ||
2918 | HFC_outb(hc, R_SLOT, (((ch / 4) * 8) + | ||
2919 | ((ch % 4) * 4) + 1) << 1); | ||
2920 | HFC_outb(hc, A_SL_CFG, 0x80 | (ch << 1)); | ||
2921 | |||
2922 | /* PCM -> FIFO */ | ||
2923 | HFC_outb(hc, R_FIFO, 0x20 | (ch << 1) | 1); | ||
2924 | HFC_wait(hc); | ||
2925 | HFC_outb(hc, A_CON_HDLC, 0x20 | V_HDLC_TRP | V_IFF); | ||
2926 | HFC_outb(hc, A_SUBCH_CFG, 0); | ||
2927 | HFC_outb(hc, A_IRQ_MSK, 0); | ||
2928 | HFC_outb(hc, R_INC_RES_FIFO, V_RES_F); | ||
2929 | HFC_wait(hc); | ||
2930 | HFC_outb(hc, R_SLOT, ((((ch / 4) * 8) + | ||
2931 | ((ch % 4) * 4) + 1) << 1) | 1); | ||
2932 | HFC_outb(hc, A_SL_CFG, 0x80 | 0x20 | (ch << 1) | 1); | ||
2933 | |||
2934 | /* tx path */ | ||
2935 | /* PCM -> S/T */ | ||
2936 | HFC_outb(hc, R_FIFO, (ch << 1) | 1); | ||
2937 | HFC_wait(hc); | ||
2938 | HFC_outb(hc, A_CON_HDLC, 0xc0 | V_HDLC_TRP | V_IFF); | ||
2939 | HFC_outb(hc, R_SLOT, ((((ch / 4) * 8) + | ||
2940 | ((ch % 4) * 4)) << 1) | 1); | ||
2941 | HFC_outb(hc, A_SL_CFG, 0x80 | 0x40 | (ch << 1) | 1); | ||
2942 | |||
2943 | /* FIFO -> PCM */ | ||
2944 | HFC_outb(hc, R_FIFO, 0x20 | (ch << 1)); | ||
2945 | HFC_wait(hc); | ||
2946 | HFC_outb(hc, A_CON_HDLC, 0x20 | V_HDLC_TRP | V_IFF); | ||
2947 | HFC_outb(hc, A_SUBCH_CFG, 0); | ||
2948 | HFC_outb(hc, A_IRQ_MSK, 0); | ||
2949 | HFC_outb(hc, R_INC_RES_FIFO, V_RES_F); | ||
2950 | HFC_wait(hc); | ||
2951 | /* tx silence */ | ||
2952 | HFC_outb_nodebug(hc, A_FIFO_DATA0_NOINC, silence); | ||
2953 | HFC_outb(hc, R_SLOT, (((ch / 4) * 8) + | ||
2954 | ((ch % 4) * 4)) << 1); | ||
2955 | HFC_outb(hc, A_SL_CFG, 0x80 | 0x20 | (ch << 1)); | ||
2956 | } else { | ||
2957 | /* enable TX fifo */ | ||
2958 | HFC_outb(hc, R_FIFO, ch << 1); | ||
2959 | HFC_wait(hc); | ||
2960 | HFC_outb(hc, A_CON_HDLC, flow_tx | 0x00 | | ||
2961 | V_HDLC_TRP | V_IFF); | ||
2962 | HFC_outb(hc, A_SUBCH_CFG, 0); | ||
2963 | HFC_outb(hc, A_IRQ_MSK, 0); | ||
2964 | HFC_outb(hc, R_INC_RES_FIFO, V_RES_F); | ||
2965 | HFC_wait(hc); | ||
2966 | /* tx silence */ | ||
2967 | HFC_outb_nodebug(hc, A_FIFO_DATA0_NOINC, silence); | ||
2968 | /* enable RX fifo */ | ||
2969 | HFC_outb(hc, R_FIFO, (ch<<1)|1); | ||
2970 | HFC_wait(hc); | ||
2971 | HFC_outb(hc, A_CON_HDLC, flow_rx | 0x00 | V_HDLC_TRP); | ||
2972 | HFC_outb(hc, A_SUBCH_CFG, 0); | ||
2973 | HFC_outb(hc, A_IRQ_MSK, 0); | ||
2974 | HFC_outb(hc, R_INC_RES_FIFO, V_RES_F); | ||
2975 | HFC_wait(hc); | ||
2976 | } | ||
2977 | if (hc->type != 1) { | ||
2978 | hc->hw.a_st_ctrl0[hc->chan[ch].port] |= | ||
2979 | ((ch & 0x3) == 0) ? V_B1_EN : V_B2_EN; | ||
2980 | HFC_outb(hc, R_ST_SEL, hc->chan[ch].port); | ||
2981 | /* undocumented: delay after R_ST_SEL */ | ||
2982 | udelay(1); | ||
2983 | HFC_outb(hc, A_ST_CTRL0, | ||
2984 | hc->hw.a_st_ctrl0[hc->chan[ch].port]); | ||
2985 | } | ||
2986 | if (hc->chan[ch].bch) | ||
2987 | test_and_set_bit(FLG_TRANSPARENT, | ||
2988 | &hc->chan[ch].bch->Flags); | ||
2989 | break; | ||
2990 | case (ISDN_P_B_HDLC): /* B-channel */ | ||
2991 | case (ISDN_P_TE_S0): /* D-channel */ | ||
2992 | case (ISDN_P_NT_S0): | ||
2993 | case (ISDN_P_TE_E1): | ||
2994 | case (ISDN_P_NT_E1): | ||
2995 | /* enable TX fifo */ | ||
2996 | HFC_outb(hc, R_FIFO, ch<<1); | ||
2997 | HFC_wait(hc); | ||
2998 | if (hc->type == 1 || hc->chan[ch].bch) { | ||
2999 | /* E1 or B-channel */ | ||
3000 | HFC_outb(hc, A_CON_HDLC, flow_tx | 0x04); | ||
3001 | HFC_outb(hc, A_SUBCH_CFG, 0); | ||
3002 | } else { | ||
3003 | /* D-Channel without HDLC fill flags */ | ||
3004 | HFC_outb(hc, A_CON_HDLC, flow_tx | 0x04 | V_IFF); | ||
3005 | HFC_outb(hc, A_SUBCH_CFG, 2); | ||
3006 | } | ||
3007 | HFC_outb(hc, A_IRQ_MSK, V_IRQ); | ||
3008 | HFC_outb(hc, R_INC_RES_FIFO, V_RES_F); | ||
3009 | HFC_wait(hc); | ||
3010 | /* enable RX fifo */ | ||
3011 | HFC_outb(hc, R_FIFO, (ch<<1)|1); | ||
3012 | HFC_wait(hc); | ||
3013 | HFC_outb(hc, A_CON_HDLC, flow_rx | 0x04); | ||
3014 | if (hc->type == 1 || hc->chan[ch].bch) | ||
3015 | HFC_outb(hc, A_SUBCH_CFG, 0); /* full 8 bits */ | ||
3016 | else | ||
3017 | HFC_outb(hc, A_SUBCH_CFG, 2); /* 2 bits dchannel */ | ||
3018 | HFC_outb(hc, A_IRQ_MSK, V_IRQ); | ||
3019 | HFC_outb(hc, R_INC_RES_FIFO, V_RES_F); | ||
3020 | HFC_wait(hc); | ||
3021 | if (hc->chan[ch].bch) { | ||
3022 | test_and_set_bit(FLG_HDLC, &hc->chan[ch].bch->Flags); | ||
3023 | if (hc->type != 1) { | ||
3024 | hc->hw.a_st_ctrl0[hc->chan[ch].port] |= | ||
3025 | ((ch&0x3) == 0) ? V_B1_EN : V_B2_EN; | ||
3026 | HFC_outb(hc, R_ST_SEL, hc->chan[ch].port); | ||
3027 | /* undocumented: delay after R_ST_SEL */ | ||
3028 | udelay(1); | ||
3029 | HFC_outb(hc, A_ST_CTRL0, | ||
3030 | hc->hw.a_st_ctrl0[hc->chan[ch].port]); | ||
3031 | } | ||
3032 | } | ||
3033 | break; | ||
3034 | default: | ||
3035 | printk(KERN_DEBUG "%s: protocol not known %x\n", | ||
3036 | __func__, protocol); | ||
3037 | hc->chan[ch].protocol = ISDN_P_NONE; | ||
3038 | return -ENOPROTOOPT; | ||
3039 | } | ||
3040 | hc->chan[ch].protocol = protocol; | ||
3041 | return 0; | ||
3042 | } | ||
3043 | |||
3044 | |||
3045 | /* | ||
3046 | * connect/disconnect PCM | ||
3047 | */ | ||
3048 | |||
3049 | static void | ||
3050 | hfcmulti_pcm(struct hfc_multi *hc, int ch, int slot_tx, int bank_tx, | ||
3051 | int slot_rx, int bank_rx) | ||
3052 | { | ||
3053 | if (slot_rx < 0 || slot_rx < 0 || bank_tx < 0 || bank_rx < 0) { | ||
3054 | /* disable PCM */ | ||
3055 | mode_hfcmulti(hc, ch, hc->chan[ch].protocol, -1, 0, -1, 0); | ||
3056 | return; | ||
3057 | } | ||
3058 | |||
3059 | /* enable pcm */ | ||
3060 | mode_hfcmulti(hc, ch, hc->chan[ch].protocol, slot_tx, bank_tx, | ||
3061 | slot_rx, bank_rx); | ||
3062 | } | ||
3063 | |||
3064 | /* | ||
3065 | * set/disable conference | ||
3066 | */ | ||
3067 | |||
3068 | static void | ||
3069 | hfcmulti_conf(struct hfc_multi *hc, int ch, int num) | ||
3070 | { | ||
3071 | if (num >= 0 && num <= 7) | ||
3072 | hc->chan[ch].conf = num; | ||
3073 | else | ||
3074 | hc->chan[ch].conf = -1; | ||
3075 | mode_hfcmulti(hc, ch, hc->chan[ch].protocol, hc->chan[ch].slot_tx, | ||
3076 | hc->chan[ch].bank_tx, hc->chan[ch].slot_rx, | ||
3077 | hc->chan[ch].bank_rx); | ||
3078 | } | ||
3079 | |||
3080 | |||
3081 | /* | ||
3082 | * set/disable sample loop | ||
3083 | */ | ||
3084 | |||
3085 | /* NOTE: this function is experimental and therefore disabled */ | ||
3086 | |||
3087 | /* | ||
3088 | * Layer 1 callback function | ||
3089 | */ | ||
3090 | static int | ||
3091 | hfcm_l1callback(struct dchannel *dch, u_int cmd) | ||
3092 | { | ||
3093 | struct hfc_multi *hc = dch->hw; | ||
3094 | u_long flags; | ||
3095 | |||
3096 | switch (cmd) { | ||
3097 | case INFO3_P8: | ||
3098 | case INFO3_P10: | ||
3099 | break; | ||
3100 | case HW_RESET_REQ: | ||
3101 | /* start activation */ | ||
3102 | spin_lock_irqsave(&hc->lock, flags); | ||
3103 | if (hc->type == 1) { | ||
3104 | if (debug & DEBUG_HFCMULTI_MSG) | ||
3105 | printk(KERN_DEBUG | ||
3106 | "%s: HW_RESET_REQ no BRI\n", | ||
3107 | __func__); | ||
3108 | } else { | ||
3109 | HFC_outb(hc, R_ST_SEL, hc->chan[dch->slot].port); | ||
3110 | /* undocumented: delay after R_ST_SEL */ | ||
3111 | udelay(1); | ||
3112 | HFC_outb(hc, A_ST_WR_STATE, V_ST_LD_STA | 3); /* F3 */ | ||
3113 | udelay(6); /* wait at least 5,21us */ | ||
3114 | HFC_outb(hc, A_ST_WR_STATE, 3); | ||
3115 | HFC_outb(hc, A_ST_WR_STATE, 3 | (V_ST_ACT*3)); | ||
3116 | /* activate */ | ||
3117 | } | ||
3118 | spin_unlock_irqrestore(&hc->lock, flags); | ||
3119 | l1_event(dch->l1, HW_POWERUP_IND); | ||
3120 | break; | ||
3121 | case HW_DEACT_REQ: | ||
3122 | /* start deactivation */ | ||
3123 | spin_lock_irqsave(&hc->lock, flags); | ||
3124 | if (hc->type == 1) { | ||
3125 | if (debug & DEBUG_HFCMULTI_MSG) | ||
3126 | printk(KERN_DEBUG | ||
3127 | "%s: HW_DEACT_REQ no BRI\n", | ||
3128 | __func__); | ||
3129 | } else { | ||
3130 | HFC_outb(hc, R_ST_SEL, hc->chan[dch->slot].port); | ||
3131 | /* undocumented: delay after R_ST_SEL */ | ||
3132 | udelay(1); | ||
3133 | HFC_outb(hc, A_ST_WR_STATE, V_ST_ACT*2); | ||
3134 | /* deactivate */ | ||
3135 | if (test_bit(HFC_CHIP_PLXSD, &hc->chip)) { | ||
3136 | hc->syncronized &= | ||
3137 | ~(1 << hc->chan[dch->slot].port); | ||
3138 | plxsd_checksync(hc, 0); | ||
3139 | } | ||
3140 | } | ||
3141 | skb_queue_purge(&dch->squeue); | ||
3142 | if (dch->tx_skb) { | ||
3143 | dev_kfree_skb(dch->tx_skb); | ||
3144 | dch->tx_skb = NULL; | ||
3145 | } | ||
3146 | dch->tx_idx = 0; | ||
3147 | if (dch->rx_skb) { | ||
3148 | dev_kfree_skb(dch->rx_skb); | ||
3149 | dch->rx_skb = NULL; | ||
3150 | } | ||
3151 | test_and_clear_bit(FLG_TX_BUSY, &dch->Flags); | ||
3152 | if (test_and_clear_bit(FLG_BUSY_TIMER, &dch->Flags)) | ||
3153 | del_timer(&dch->timer); | ||
3154 | spin_unlock_irqrestore(&hc->lock, flags); | ||
3155 | break; | ||
3156 | case HW_POWERUP_REQ: | ||
3157 | spin_lock_irqsave(&hc->lock, flags); | ||
3158 | if (hc->type == 1) { | ||
3159 | if (debug & DEBUG_HFCMULTI_MSG) | ||
3160 | printk(KERN_DEBUG | ||
3161 | "%s: HW_POWERUP_REQ no BRI\n", | ||
3162 | __func__); | ||
3163 | } else { | ||
3164 | HFC_outb(hc, R_ST_SEL, hc->chan[dch->slot].port); | ||
3165 | /* undocumented: delay after R_ST_SEL */ | ||
3166 | udelay(1); | ||
3167 | HFC_outb(hc, A_ST_WR_STATE, 3 | 0x10); /* activate */ | ||
3168 | udelay(6); /* wait at least 5,21us */ | ||
3169 | HFC_outb(hc, A_ST_WR_STATE, 3); /* activate */ | ||
3170 | } | ||
3171 | spin_unlock_irqrestore(&hc->lock, flags); | ||
3172 | break; | ||
3173 | case PH_ACTIVATE_IND: | ||
3174 | test_and_set_bit(FLG_ACTIVE, &dch->Flags); | ||
3175 | _queue_data(&dch->dev.D, cmd, MISDN_ID_ANY, 0, NULL, | ||
3176 | GFP_ATOMIC); | ||
3177 | break; | ||
3178 | case PH_DEACTIVATE_IND: | ||
3179 | test_and_clear_bit(FLG_ACTIVE, &dch->Flags); | ||
3180 | _queue_data(&dch->dev.D, cmd, MISDN_ID_ANY, 0, NULL, | ||
3181 | GFP_ATOMIC); | ||
3182 | break; | ||
3183 | default: | ||
3184 | if (dch->debug & DEBUG_HW) | ||
3185 | printk(KERN_DEBUG "%s: unknown command %x\n", | ||
3186 | __func__, cmd); | ||
3187 | return -1; | ||
3188 | } | ||
3189 | return 0; | ||
3190 | } | ||
3191 | |||
3192 | /* | ||
3193 | * Layer2 -> Layer 1 Transfer | ||
3194 | */ | ||
3195 | |||
3196 | static int | ||
3197 | handle_dmsg(struct mISDNchannel *ch, struct sk_buff *skb) | ||
3198 | { | ||
3199 | struct mISDNdevice *dev = container_of(ch, struct mISDNdevice, D); | ||
3200 | struct dchannel *dch = container_of(dev, struct dchannel, dev); | ||
3201 | struct hfc_multi *hc = dch->hw; | ||
3202 | struct mISDNhead *hh = mISDN_HEAD_P(skb); | ||
3203 | int ret = -EINVAL; | ||
3204 | unsigned int id; | ||
3205 | u_long flags; | ||
3206 | |||
3207 | switch (hh->prim) { | ||
3208 | case PH_DATA_REQ: | ||
3209 | if (skb->len < 1) | ||
3210 | break; | ||
3211 | spin_lock_irqsave(&hc->lock, flags); | ||
3212 | ret = dchannel_senddata(dch, skb); | ||
3213 | if (ret > 0) { /* direct TX */ | ||
3214 | id = hh->id; /* skb can be freed */ | ||
3215 | hfcmulti_tx(hc, dch->slot); | ||
3216 | ret = 0; | ||
3217 | /* start fifo */ | ||
3218 | HFC_outb(hc, R_FIFO, 0); | ||
3219 | HFC_wait(hc); | ||
3220 | spin_unlock_irqrestore(&hc->lock, flags); | ||
3221 | queue_ch_frame(ch, PH_DATA_CNF, id, NULL); | ||
3222 | } else | ||
3223 | spin_unlock_irqrestore(&hc->lock, flags); | ||
3224 | return ret; | ||
3225 | case PH_ACTIVATE_REQ: | ||
3226 | if (dch->dev.D.protocol != ISDN_P_TE_S0) { | ||
3227 | spin_lock_irqsave(&hc->lock, flags); | ||
3228 | ret = 0; | ||
3229 | if (debug & DEBUG_HFCMULTI_MSG) | ||
3230 | printk(KERN_DEBUG | ||
3231 | "%s: PH_ACTIVATE port %d (0..%d)\n", | ||
3232 | __func__, hc->chan[dch->slot].port, | ||
3233 | hc->ports-1); | ||
3234 | /* start activation */ | ||
3235 | if (hc->type == 1) { | ||
3236 | ph_state_change(dch); | ||
3237 | if (debug & DEBUG_HFCMULTI_STATE) | ||
3238 | printk(KERN_DEBUG | ||
3239 | "%s: E1 report state %x \n", | ||
3240 | __func__, dch->state); | ||
3241 | } else { | ||
3242 | HFC_outb(hc, R_ST_SEL, | ||
3243 | hc->chan[dch->slot].port); | ||
3244 | /* undocumented: delay after R_ST_SEL */ | ||
3245 | udelay(1); | ||
3246 | HFC_outb(hc, A_ST_WR_STATE, V_ST_LD_STA | 1); | ||
3247 | /* G1 */ | ||
3248 | udelay(6); /* wait at least 5,21us */ | ||
3249 | HFC_outb(hc, A_ST_WR_STATE, 1); | ||
3250 | HFC_outb(hc, A_ST_WR_STATE, 1 | | ||
3251 | (V_ST_ACT*3)); /* activate */ | ||
3252 | dch->state = 1; | ||
3253 | } | ||
3254 | spin_unlock_irqrestore(&hc->lock, flags); | ||
3255 | } else | ||
3256 | ret = l1_event(dch->l1, hh->prim); | ||
3257 | break; | ||
3258 | case PH_DEACTIVATE_REQ: | ||
3259 | test_and_clear_bit(FLG_L2_ACTIVATED, &dch->Flags); | ||
3260 | if (dch->dev.D.protocol != ISDN_P_TE_S0) { | ||
3261 | spin_lock_irqsave(&hc->lock, flags); | ||
3262 | if (debug & DEBUG_HFCMULTI_MSG) | ||
3263 | printk(KERN_DEBUG | ||
3264 | "%s: PH_DEACTIVATE port %d (0..%d)\n", | ||
3265 | __func__, hc->chan[dch->slot].port, | ||
3266 | hc->ports-1); | ||
3267 | /* start deactivation */ | ||
3268 | if (hc->type == 1) { | ||
3269 | if (debug & DEBUG_HFCMULTI_MSG) | ||
3270 | printk(KERN_DEBUG | ||
3271 | "%s: PH_DEACTIVATE no BRI\n", | ||
3272 | __func__); | ||
3273 | } else { | ||
3274 | HFC_outb(hc, R_ST_SEL, | ||
3275 | hc->chan[dch->slot].port); | ||
3276 | /* undocumented: delay after R_ST_SEL */ | ||
3277 | udelay(1); | ||
3278 | HFC_outb(hc, A_ST_WR_STATE, V_ST_ACT * 2); | ||
3279 | /* deactivate */ | ||
3280 | dch->state = 1; | ||
3281 | } | ||
3282 | skb_queue_purge(&dch->squeue); | ||
3283 | if (dch->tx_skb) { | ||
3284 | dev_kfree_skb(dch->tx_skb); | ||
3285 | dch->tx_skb = NULL; | ||
3286 | } | ||
3287 | dch->tx_idx = 0; | ||
3288 | if (dch->rx_skb) { | ||
3289 | dev_kfree_skb(dch->rx_skb); | ||
3290 | dch->rx_skb = NULL; | ||
3291 | } | ||
3292 | test_and_clear_bit(FLG_TX_BUSY, &dch->Flags); | ||
3293 | if (test_and_clear_bit(FLG_BUSY_TIMER, &dch->Flags)) | ||
3294 | del_timer(&dch->timer); | ||
3295 | #ifdef FIXME | ||
3296 | if (test_and_clear_bit(FLG_L1_BUSY, &dch->Flags)) | ||
3297 | dchannel_sched_event(&hc->dch, D_CLEARBUSY); | ||
3298 | #endif | ||
3299 | ret = 0; | ||
3300 | spin_unlock_irqrestore(&hc->lock, flags); | ||
3301 | } else | ||
3302 | ret = l1_event(dch->l1, hh->prim); | ||
3303 | break; | ||
3304 | } | ||
3305 | if (!ret) | ||
3306 | dev_kfree_skb(skb); | ||
3307 | return ret; | ||
3308 | } | ||
3309 | |||
3310 | static void | ||
3311 | deactivate_bchannel(struct bchannel *bch) | ||
3312 | { | ||
3313 | struct hfc_multi *hc = bch->hw; | ||
3314 | u_long flags; | ||
3315 | |||
3316 | spin_lock_irqsave(&hc->lock, flags); | ||
3317 | if (test_and_clear_bit(FLG_TX_NEXT, &bch->Flags)) { | ||
3318 | dev_kfree_skb(bch->next_skb); | ||
3319 | bch->next_skb = NULL; | ||
3320 | } | ||
3321 | if (bch->tx_skb) { | ||
3322 | dev_kfree_skb(bch->tx_skb); | ||
3323 | bch->tx_skb = NULL; | ||
3324 | } | ||
3325 | bch->tx_idx = 0; | ||
3326 | if (bch->rx_skb) { | ||
3327 | dev_kfree_skb(bch->rx_skb); | ||
3328 | bch->rx_skb = NULL; | ||
3329 | } | ||
3330 | hc->chan[bch->slot].coeff_count = 0; | ||
3331 | test_and_clear_bit(FLG_ACTIVE, &bch->Flags); | ||
3332 | test_and_clear_bit(FLG_TX_BUSY, &bch->Flags); | ||
3333 | hc->chan[bch->slot].rx_off = 0; | ||
3334 | hc->chan[bch->slot].conf = -1; | ||
3335 | mode_hfcmulti(hc, bch->slot, ISDN_P_NONE, -1, 0, -1, 0); | ||
3336 | spin_unlock_irqrestore(&hc->lock, flags); | ||
3337 | } | ||
3338 | |||
3339 | static int | ||
3340 | handle_bmsg(struct mISDNchannel *ch, struct sk_buff *skb) | ||
3341 | { | ||
3342 | struct bchannel *bch = container_of(ch, struct bchannel, ch); | ||
3343 | struct hfc_multi *hc = bch->hw; | ||
3344 | int ret = -EINVAL; | ||
3345 | struct mISDNhead *hh = mISDN_HEAD_P(skb); | ||
3346 | unsigned int id; | ||
3347 | u_long flags; | ||
3348 | |||
3349 | switch (hh->prim) { | ||
3350 | case PH_DATA_REQ: | ||
3351 | if (!skb->len) | ||
3352 | break; | ||
3353 | spin_lock_irqsave(&hc->lock, flags); | ||
3354 | ret = bchannel_senddata(bch, skb); | ||
3355 | if (ret > 0) { /* direct TX */ | ||
3356 | id = hh->id; /* skb can be freed */ | ||
3357 | hfcmulti_tx(hc, bch->slot); | ||
3358 | ret = 0; | ||
3359 | /* start fifo */ | ||
3360 | HFC_outb_nodebug(hc, R_FIFO, 0); | ||
3361 | HFC_wait_nodebug(hc); | ||
3362 | if (!test_bit(FLG_TRANSPARENT, &bch->Flags)) { | ||
3363 | spin_unlock_irqrestore(&hc->lock, flags); | ||
3364 | queue_ch_frame(ch, PH_DATA_CNF, id, NULL); | ||
3365 | } else | ||
3366 | spin_unlock_irqrestore(&hc->lock, flags); | ||
3367 | } else | ||
3368 | spin_unlock_irqrestore(&hc->lock, flags); | ||
3369 | return ret; | ||
3370 | case PH_ACTIVATE_REQ: | ||
3371 | if (debug & DEBUG_HFCMULTI_MSG) | ||
3372 | printk(KERN_DEBUG "%s: PH_ACTIVATE ch %d (0..32)\n", | ||
3373 | __func__, bch->slot); | ||
3374 | spin_lock_irqsave(&hc->lock, flags); | ||
3375 | /* activate B-channel if not already activated */ | ||
3376 | if (!test_and_set_bit(FLG_ACTIVE, &bch->Flags)) { | ||
3377 | hc->chan[bch->slot].txpending = 0; | ||
3378 | ret = mode_hfcmulti(hc, bch->slot, | ||
3379 | ch->protocol, | ||
3380 | hc->chan[bch->slot].slot_tx, | ||
3381 | hc->chan[bch->slot].bank_tx, | ||
3382 | hc->chan[bch->slot].slot_rx, | ||
3383 | hc->chan[bch->slot].bank_rx); | ||
3384 | if (!ret) { | ||
3385 | if (ch->protocol == ISDN_P_B_RAW && !hc->dtmf | ||
3386 | && test_bit(HFC_CHIP_DTMF, &hc->chip)) { | ||
3387 | /* start decoder */ | ||
3388 | hc->dtmf = 1; | ||
3389 | if (debug & DEBUG_HFCMULTI_DTMF) | ||
3390 | printk(KERN_DEBUG | ||
3391 | "%s: start dtmf decoder\n", | ||
3392 | __func__); | ||
3393 | HFC_outb(hc, R_DTMF, hc->hw.r_dtmf | | ||
3394 | V_RST_DTMF); | ||
3395 | } | ||
3396 | } | ||
3397 | } else | ||
3398 | ret = 0; | ||
3399 | spin_unlock_irqrestore(&hc->lock, flags); | ||
3400 | if (!ret) | ||
3401 | _queue_data(ch, PH_ACTIVATE_IND, MISDN_ID_ANY, 0, NULL, | ||
3402 | GFP_KERNEL); | ||
3403 | break; | ||
3404 | case PH_CONTROL_REQ: | ||
3405 | spin_lock_irqsave(&hc->lock, flags); | ||
3406 | switch (hh->id) { | ||
3407 | case HFC_SPL_LOOP_ON: /* set sample loop */ | ||
3408 | if (debug & DEBUG_HFCMULTI_MSG) | ||
3409 | printk(KERN_DEBUG | ||
3410 | "%s: HFC_SPL_LOOP_ON (len = %d)\n", | ||
3411 | __func__, skb->len); | ||
3412 | ret = 0; | ||
3413 | break; | ||
3414 | case HFC_SPL_LOOP_OFF: /* set silence */ | ||
3415 | if (debug & DEBUG_HFCMULTI_MSG) | ||
3416 | printk(KERN_DEBUG "%s: HFC_SPL_LOOP_OFF\n", | ||
3417 | __func__); | ||
3418 | ret = 0; | ||
3419 | break; | ||
3420 | default: | ||
3421 | printk(KERN_ERR | ||
3422 | "%s: unknown PH_CONTROL_REQ info %x\n", | ||
3423 | __func__, hh->id); | ||
3424 | ret = -EINVAL; | ||
3425 | } | ||
3426 | spin_unlock_irqrestore(&hc->lock, flags); | ||
3427 | break; | ||
3428 | case PH_DEACTIVATE_REQ: | ||
3429 | deactivate_bchannel(bch); /* locked there */ | ||
3430 | _queue_data(ch, PH_DEACTIVATE_IND, MISDN_ID_ANY, 0, NULL, | ||
3431 | GFP_KERNEL); | ||
3432 | ret = 0; | ||
3433 | break; | ||
3434 | } | ||
3435 | if (!ret) | ||
3436 | dev_kfree_skb(skb); | ||
3437 | return ret; | ||
3438 | } | ||
3439 | |||
3440 | /* | ||
3441 | * bchannel control function | ||
3442 | */ | ||
3443 | static int | ||
3444 | channel_bctrl(struct bchannel *bch, struct mISDN_ctrl_req *cq) | ||
3445 | { | ||
3446 | int ret = 0; | ||
3447 | struct dsp_features *features = | ||
3448 | (struct dsp_features *)(*((u_long *)&cq->p1)); | ||
3449 | struct hfc_multi *hc = bch->hw; | ||
3450 | int slot_tx; | ||
3451 | int bank_tx; | ||
3452 | int slot_rx; | ||
3453 | int bank_rx; | ||
3454 | int num; | ||
3455 | |||
3456 | switch (cq->op) { | ||
3457 | case MISDN_CTRL_GETOP: | ||
3458 | cq->op = MISDN_CTRL_HFC_OP | MISDN_CTRL_HW_FEATURES_OP | ||
3459 | | MISDN_CTRL_RX_OFF; | ||
3460 | break; | ||
3461 | case MISDN_CTRL_RX_OFF: /* turn off / on rx stream */ | ||
3462 | hc->chan[bch->slot].rx_off = !!cq->p1; | ||
3463 | if (!hc->chan[bch->slot].rx_off) { | ||
3464 | /* reset fifo on rx on */ | ||
3465 | HFC_outb_nodebug(hc, R_FIFO, (bch->slot << 1) | 1); | ||
3466 | HFC_wait_nodebug(hc); | ||
3467 | HFC_outb_nodebug(hc, R_INC_RES_FIFO, V_RES_F); | ||
3468 | HFC_wait_nodebug(hc); | ||
3469 | } | ||
3470 | if (debug & DEBUG_HFCMULTI_MSG) | ||
3471 | printk(KERN_DEBUG "%s: RX_OFF request (nr=%d off=%d)\n", | ||
3472 | __func__, bch->nr, hc->chan[bch->slot].rx_off); | ||
3473 | break; | ||
3474 | case MISDN_CTRL_HW_FEATURES: /* fill features structure */ | ||
3475 | if (debug & DEBUG_HFCMULTI_MSG) | ||
3476 | printk(KERN_DEBUG "%s: HW_FEATURE request\n", | ||
3477 | __func__); | ||
3478 | /* create confirm */ | ||
3479 | features->hfc_id = hc->id; | ||
3480 | if (test_bit(HFC_CHIP_DTMF, &hc->chip)) | ||
3481 | features->hfc_dtmf = 1; | ||
3482 | features->hfc_loops = 0; | ||
3483 | if (test_bit(HFC_CHIP_B410P, &hc->chip)) { | ||
3484 | features->hfc_echocanhw = 1; | ||
3485 | } else { | ||
3486 | features->pcm_id = hc->pcm; | ||
3487 | features->pcm_slots = hc->slots; | ||
3488 | features->pcm_banks = 2; | ||
3489 | } | ||
3490 | break; | ||
3491 | case MISDN_CTRL_HFC_PCM_CONN: /* connect to pcm timeslot (0..N) */ | ||
3492 | slot_tx = cq->p1 & 0xff; | ||
3493 | bank_tx = cq->p1 >> 8; | ||
3494 | slot_rx = cq->p2 & 0xff; | ||
3495 | bank_rx = cq->p2 >> 8; | ||
3496 | if (debug & DEBUG_HFCMULTI_MSG) | ||
3497 | printk(KERN_DEBUG | ||
3498 | "%s: HFC_PCM_CONN slot %d bank %d (TX) " | ||
3499 | "slot %d bank %d (RX)\n", | ||
3500 | __func__, slot_tx, bank_tx, | ||
3501 | slot_rx, bank_rx); | ||
3502 | if (slot_tx < hc->slots && bank_tx <= 2 && | ||
3503 | slot_rx < hc->slots && bank_rx <= 2) | ||
3504 | hfcmulti_pcm(hc, bch->slot, | ||
3505 | slot_tx, bank_tx, slot_rx, bank_rx); | ||
3506 | else { | ||
3507 | printk(KERN_WARNING | ||
3508 | "%s: HFC_PCM_CONN slot %d bank %d (TX) " | ||
3509 | "slot %d bank %d (RX) out of range\n", | ||
3510 | __func__, slot_tx, bank_tx, | ||
3511 | slot_rx, bank_rx); | ||
3512 | ret = -EINVAL; | ||
3513 | } | ||
3514 | break; | ||
3515 | case MISDN_CTRL_HFC_PCM_DISC: /* release interface from pcm timeslot */ | ||
3516 | if (debug & DEBUG_HFCMULTI_MSG) | ||
3517 | printk(KERN_DEBUG "%s: HFC_PCM_DISC\n", | ||
3518 | __func__); | ||
3519 | hfcmulti_pcm(hc, bch->slot, -1, 0, -1, 0); | ||
3520 | break; | ||
3521 | case MISDN_CTRL_HFC_CONF_JOIN: /* join conference (0..7) */ | ||
3522 | num = cq->p1 & 0xff; | ||
3523 | if (debug & DEBUG_HFCMULTI_MSG) | ||
3524 | printk(KERN_DEBUG "%s: HFC_CONF_JOIN conf %d\n", | ||
3525 | __func__, num); | ||
3526 | if (num <= 7) | ||
3527 | hfcmulti_conf(hc, bch->slot, num); | ||
3528 | else { | ||
3529 | printk(KERN_WARNING | ||
3530 | "%s: HW_CONF_JOIN conf %d out of range\n", | ||
3531 | __func__, num); | ||
3532 | ret = -EINVAL; | ||
3533 | } | ||
3534 | break; | ||
3535 | case MISDN_CTRL_HFC_CONF_SPLIT: /* split conference */ | ||
3536 | if (debug & DEBUG_HFCMULTI_MSG) | ||
3537 | printk(KERN_DEBUG "%s: HFC_CONF_SPLIT\n", __func__); | ||
3538 | hfcmulti_conf(hc, bch->slot, -1); | ||
3539 | break; | ||
3540 | case MISDN_CTRL_HFC_ECHOCAN_ON: | ||
3541 | if (debug & DEBUG_HFCMULTI_MSG) | ||
3542 | printk(KERN_DEBUG "%s: HFC_ECHOCAN_ON\n", __func__); | ||
3543 | if (test_bit(HFC_CHIP_B410P, &hc->chip)) | ||
3544 | vpm_echocan_on(hc, bch->slot, cq->p1); | ||
3545 | else | ||
3546 | ret = -EINVAL; | ||
3547 | break; | ||
3548 | |||
3549 | case MISDN_CTRL_HFC_ECHOCAN_OFF: | ||
3550 | if (debug & DEBUG_HFCMULTI_MSG) | ||
3551 | printk(KERN_DEBUG "%s: HFC_ECHOCAN_OFF\n", | ||
3552 | __func__); | ||
3553 | if (test_bit(HFC_CHIP_B410P, &hc->chip)) | ||
3554 | vpm_echocan_off(hc, bch->slot); | ||
3555 | else | ||
3556 | ret = -EINVAL; | ||
3557 | break; | ||
3558 | default: | ||
3559 | printk(KERN_WARNING "%s: unknown Op %x\n", | ||
3560 | __func__, cq->op); | ||
3561 | ret = -EINVAL; | ||
3562 | break; | ||
3563 | } | ||
3564 | return ret; | ||
3565 | } | ||
3566 | |||
3567 | static int | ||
3568 | hfcm_bctrl(struct mISDNchannel *ch, u_int cmd, void *arg) | ||
3569 | { | ||
3570 | struct bchannel *bch = container_of(ch, struct bchannel, ch); | ||
3571 | struct hfc_multi *hc = bch->hw; | ||
3572 | int err = -EINVAL; | ||
3573 | u_long flags; | ||
3574 | |||
3575 | if (bch->debug & DEBUG_HW) | ||
3576 | printk(KERN_DEBUG "%s: cmd:%x %p\n", | ||
3577 | __func__, cmd, arg); | ||
3578 | switch (cmd) { | ||
3579 | case CLOSE_CHANNEL: | ||
3580 | test_and_clear_bit(FLG_OPEN, &bch->Flags); | ||
3581 | if (test_bit(FLG_ACTIVE, &bch->Flags)) | ||
3582 | deactivate_bchannel(bch); /* locked there */ | ||
3583 | ch->protocol = ISDN_P_NONE; | ||
3584 | ch->peer = NULL; | ||
3585 | module_put(THIS_MODULE); | ||
3586 | err = 0; | ||
3587 | break; | ||
3588 | case CONTROL_CHANNEL: | ||
3589 | spin_lock_irqsave(&hc->lock, flags); | ||
3590 | err = channel_bctrl(bch, arg); | ||
3591 | spin_unlock_irqrestore(&hc->lock, flags); | ||
3592 | break; | ||
3593 | default: | ||
3594 | printk(KERN_WARNING "%s: unknown prim(%x)\n", | ||
3595 | __func__, cmd); | ||
3596 | } | ||
3597 | return err; | ||
3598 | } | ||
3599 | |||
3600 | /* | ||
3601 | * handle D-channel events | ||
3602 | * | ||
3603 | * handle state change event | ||
3604 | */ | ||
3605 | static void | ||
3606 | ph_state_change(struct dchannel *dch) | ||
3607 | { | ||
3608 | struct hfc_multi *hc = dch->hw; | ||
3609 | int ch, i; | ||
3610 | |||
3611 | if (!dch) { | ||
3612 | printk(KERN_WARNING "%s: ERROR given dch is NULL\n", | ||
3613 | __func__); | ||
3614 | return; | ||
3615 | } | ||
3616 | ch = dch->slot; | ||
3617 | |||
3618 | if (hc->type == 1) { | ||
3619 | if (dch->dev.D.protocol == ISDN_P_TE_E1) { | ||
3620 | if (debug & DEBUG_HFCMULTI_STATE) | ||
3621 | printk(KERN_DEBUG | ||
3622 | "%s: E1 TE (id=%d) newstate %x\n", | ||
3623 | __func__, hc->id, dch->state); | ||
3624 | } else { | ||
3625 | if (debug & DEBUG_HFCMULTI_STATE) | ||
3626 | printk(KERN_DEBUG | ||
3627 | "%s: E1 NT (id=%d) newstate %x\n", | ||
3628 | __func__, hc->id, dch->state); | ||
3629 | } | ||
3630 | switch (dch->state) { | ||
3631 | case (1): | ||
3632 | if (hc->e1_state != 1) { | ||
3633 | for (i = 1; i <= 31; i++) { | ||
3634 | /* reset fifos on e1 activation */ | ||
3635 | HFC_outb_nodebug(hc, R_FIFO, (i << 1) | 1); | ||
3636 | HFC_wait_nodebug(hc); | ||
3637 | HFC_outb_nodebug(hc, | ||
3638 | R_INC_RES_FIFO, V_RES_F); | ||
3639 | HFC_wait_nodebug(hc); | ||
3640 | } | ||
3641 | } | ||
3642 | test_and_set_bit(FLG_ACTIVE, &dch->Flags); | ||
3643 | _queue_data(&dch->dev.D, PH_ACTIVATE_IND, | ||
3644 | MISDN_ID_ANY, 0, NULL, GFP_ATOMIC); | ||
3645 | break; | ||
3646 | |||
3647 | default: | ||
3648 | if (hc->e1_state != 1) | ||
3649 | return; | ||
3650 | test_and_clear_bit(FLG_ACTIVE, &dch->Flags); | ||
3651 | _queue_data(&dch->dev.D, PH_DEACTIVATE_IND, | ||
3652 | MISDN_ID_ANY, 0, NULL, GFP_ATOMIC); | ||
3653 | } | ||
3654 | hc->e1_state = dch->state; | ||
3655 | } else { | ||
3656 | if (dch->dev.D.protocol == ISDN_P_TE_S0) { | ||
3657 | if (debug & DEBUG_HFCMULTI_STATE) | ||
3658 | printk(KERN_DEBUG | ||
3659 | "%s: S/T TE newstate %x\n", | ||
3660 | __func__, dch->state); | ||
3661 | switch (dch->state) { | ||
3662 | case (0): | ||
3663 | l1_event(dch->l1, HW_RESET_IND); | ||
3664 | break; | ||
3665 | case (3): | ||
3666 | l1_event(dch->l1, HW_DEACT_IND); | ||
3667 | break; | ||
3668 | case (5): | ||
3669 | case (8): | ||
3670 | l1_event(dch->l1, ANYSIGNAL); | ||
3671 | break; | ||
3672 | case (6): | ||
3673 | l1_event(dch->l1, INFO2); | ||
3674 | break; | ||
3675 | case (7): | ||
3676 | l1_event(dch->l1, INFO4_P8); | ||
3677 | break; | ||
3678 | } | ||
3679 | } else { | ||
3680 | if (debug & DEBUG_HFCMULTI_STATE) | ||
3681 | printk(KERN_DEBUG "%s: S/T NT newstate %x\n", | ||
3682 | __func__, dch->state); | ||
3683 | switch (dch->state) { | ||
3684 | case (2): | ||
3685 | if (hc->chan[ch].nt_timer == 0) { | ||
3686 | hc->chan[ch].nt_timer = -1; | ||
3687 | HFC_outb(hc, R_ST_SEL, | ||
3688 | hc->chan[ch].port); | ||
3689 | /* undocumented: delay after R_ST_SEL */ | ||
3690 | udelay(1); | ||
3691 | HFC_outb(hc, A_ST_WR_STATE, 4 | | ||
3692 | V_ST_LD_STA); /* G4 */ | ||
3693 | udelay(6); /* wait at least 5,21us */ | ||
3694 | HFC_outb(hc, A_ST_WR_STATE, 4); | ||
3695 | dch->state = 4; | ||
3696 | } else { | ||
3697 | /* one extra count for the next event */ | ||
3698 | hc->chan[ch].nt_timer = | ||
3699 | nt_t1_count[poll_timer] + 1; | ||
3700 | HFC_outb(hc, R_ST_SEL, | ||
3701 | hc->chan[ch].port); | ||
3702 | /* undocumented: delay after R_ST_SEL */ | ||
3703 | udelay(1); | ||
3704 | /* allow G2 -> G3 transition */ | ||
3705 | HFC_outb(hc, A_ST_WR_STATE, 2 | | ||
3706 | V_SET_G2_G3); | ||
3707 | } | ||
3708 | break; | ||
3709 | case (1): | ||
3710 | hc->chan[ch].nt_timer = -1; | ||
3711 | test_and_clear_bit(FLG_ACTIVE, &dch->Flags); | ||
3712 | _queue_data(&dch->dev.D, PH_DEACTIVATE_IND, | ||
3713 | MISDN_ID_ANY, 0, NULL, GFP_ATOMIC); | ||
3714 | break; | ||
3715 | case (4): | ||
3716 | hc->chan[ch].nt_timer = -1; | ||
3717 | break; | ||
3718 | case (3): | ||
3719 | hc->chan[ch].nt_timer = -1; | ||
3720 | test_and_set_bit(FLG_ACTIVE, &dch->Flags); | ||
3721 | _queue_data(&dch->dev.D, PH_ACTIVATE_IND, | ||
3722 | MISDN_ID_ANY, 0, NULL, GFP_ATOMIC); | ||
3723 | break; | ||
3724 | } | ||
3725 | } | ||
3726 | } | ||
3727 | } | ||
3728 | |||
3729 | /* | ||
3730 | * called for card mode init message | ||
3731 | */ | ||
3732 | |||
3733 | static void | ||
3734 | hfcmulti_initmode(struct dchannel *dch) | ||
3735 | { | ||
3736 | struct hfc_multi *hc = dch->hw; | ||
3737 | u_char a_st_wr_state, r_e1_wr_sta; | ||
3738 | int i, pt; | ||
3739 | |||
3740 | if (debug & DEBUG_HFCMULTI_INIT) | ||
3741 | printk(KERN_DEBUG "%s: entered\n", __func__); | ||
3742 | |||
3743 | if (hc->type == 1) { | ||
3744 | hc->chan[hc->dslot].slot_tx = -1; | ||
3745 | hc->chan[hc->dslot].slot_rx = -1; | ||
3746 | hc->chan[hc->dslot].conf = -1; | ||
3747 | if (hc->dslot) { | ||
3748 | mode_hfcmulti(hc, hc->dslot, dch->dev.D.protocol, | ||
3749 | -1, 0, -1, 0); | ||
3750 | dch->timer.function = (void *) hfcmulti_dbusy_timer; | ||
3751 | dch->timer.data = (long) dch; | ||
3752 | init_timer(&dch->timer); | ||
3753 | } | ||
3754 | for (i = 1; i <= 31; i++) { | ||
3755 | if (i == hc->dslot) | ||
3756 | continue; | ||
3757 | hc->chan[i].slot_tx = -1; | ||
3758 | hc->chan[i].slot_rx = -1; | ||
3759 | hc->chan[i].conf = -1; | ||
3760 | mode_hfcmulti(hc, i, ISDN_P_NONE, -1, 0, -1, 0); | ||
3761 | } | ||
3762 | /* E1 */ | ||
3763 | if (test_bit(HFC_CFG_REPORT_LOS, &hc->chan[hc->dslot].cfg)) { | ||
3764 | HFC_outb(hc, R_LOS0, 255); /* 2 ms */ | ||
3765 | HFC_outb(hc, R_LOS1, 255); /* 512 ms */ | ||
3766 | } | ||
3767 | if (test_bit(HFC_CFG_OPTICAL, &hc->chan[hc->dslot].cfg)) { | ||
3768 | HFC_outb(hc, R_RX0, 0); | ||
3769 | hc->hw.r_tx0 = 0 | V_OUT_EN; | ||
3770 | } else { | ||
3771 | HFC_outb(hc, R_RX0, 1); | ||
3772 | hc->hw.r_tx0 = 1 | V_OUT_EN; | ||
3773 | } | ||
3774 | hc->hw.r_tx1 = V_ATX | V_NTRI; | ||
3775 | HFC_outb(hc, R_TX0, hc->hw.r_tx0); | ||
3776 | HFC_outb(hc, R_TX1, hc->hw.r_tx1); | ||
3777 | HFC_outb(hc, R_TX_FR0, 0x00); | ||
3778 | HFC_outb(hc, R_TX_FR1, 0xf8); | ||
3779 | |||
3780 | if (test_bit(HFC_CFG_CRC4, &hc->chan[hc->dslot].cfg)) | ||
3781 | HFC_outb(hc, R_TX_FR2, V_TX_MF | V_TX_E | V_NEG_E); | ||
3782 | |||
3783 | HFC_outb(hc, R_RX_FR0, V_AUTO_RESYNC | V_AUTO_RECO | 0); | ||
3784 | |||
3785 | if (test_bit(HFC_CFG_CRC4, &hc->chan[hc->dslot].cfg)) | ||
3786 | HFC_outb(hc, R_RX_FR1, V_RX_MF | V_RX_MF_SYNC); | ||
3787 | |||
3788 | if (dch->dev.D.protocol == ISDN_P_NT_E1) { | ||
3789 | if (debug & DEBUG_HFCMULTI_INIT) | ||
3790 | printk(KERN_DEBUG "%s: E1 port is NT-mode\n", | ||
3791 | __func__); | ||
3792 | r_e1_wr_sta = 0; /* G0 */ | ||
3793 | hc->e1_getclock = 0; | ||
3794 | } else { | ||
3795 | if (debug & DEBUG_HFCMULTI_INIT) | ||
3796 | printk(KERN_DEBUG "%s: E1 port is TE-mode\n", | ||
3797 | __func__); | ||
3798 | r_e1_wr_sta = 0; /* F0 */ | ||
3799 | hc->e1_getclock = 1; | ||
3800 | } | ||
3801 | if (test_bit(HFC_CHIP_RX_SYNC, &hc->chip)) | ||
3802 | HFC_outb(hc, R_SYNC_OUT, V_SYNC_E1_RX); | ||
3803 | else | ||
3804 | HFC_outb(hc, R_SYNC_OUT, 0); | ||
3805 | if (test_bit(HFC_CHIP_E1CLOCK_GET, &hc->chip)) | ||
3806 | hc->e1_getclock = 1; | ||
3807 | if (test_bit(HFC_CHIP_E1CLOCK_PUT, &hc->chip)) | ||
3808 | hc->e1_getclock = 0; | ||
3809 | if (test_bit(HFC_CHIP_PCM_SLAVE, &hc->chip)) { | ||
3810 | /* SLAVE (clock master) */ | ||
3811 | if (debug & DEBUG_HFCMULTI_INIT) | ||
3812 | printk(KERN_DEBUG | ||
3813 | "%s: E1 port is clock master " | ||
3814 | "(clock from PCM)\n", __func__); | ||
3815 | HFC_outb(hc, R_SYNC_CTRL, V_EXT_CLK_SYNC | V_PCM_SYNC); | ||
3816 | } else { | ||
3817 | if (hc->e1_getclock) { | ||
3818 | /* MASTER (clock slave) */ | ||
3819 | if (debug & DEBUG_HFCMULTI_INIT) | ||
3820 | printk(KERN_DEBUG | ||
3821 | "%s: E1 port is clock slave " | ||
3822 | "(clock to PCM)\n", __func__); | ||
3823 | HFC_outb(hc, R_SYNC_CTRL, V_SYNC_OFFS); | ||
3824 | } else { | ||
3825 | /* MASTER (clock master) */ | ||
3826 | if (debug & DEBUG_HFCMULTI_INIT) | ||
3827 | printk(KERN_DEBUG "%s: E1 port is " | ||
3828 | "clock master " | ||
3829 | "(clock from QUARTZ)\n", | ||
3830 | __func__); | ||
3831 | HFC_outb(hc, R_SYNC_CTRL, V_EXT_CLK_SYNC | | ||
3832 | V_PCM_SYNC | V_JATT_OFF); | ||
3833 | HFC_outb(hc, R_SYNC_OUT, 0); | ||
3834 | } | ||
3835 | } | ||
3836 | HFC_outb(hc, R_JATT_ATT, 0x9c); /* undoc register */ | ||
3837 | HFC_outb(hc, R_PWM_MD, V_PWM0_MD); | ||
3838 | HFC_outb(hc, R_PWM0, 0x50); | ||
3839 | HFC_outb(hc, R_PWM1, 0xff); | ||
3840 | /* state machine setup */ | ||
3841 | HFC_outb(hc, R_E1_WR_STA, r_e1_wr_sta | V_E1_LD_STA); | ||
3842 | udelay(6); /* wait at least 5,21us */ | ||
3843 | HFC_outb(hc, R_E1_WR_STA, r_e1_wr_sta); | ||
3844 | if (test_bit(HFC_CHIP_PLXSD, &hc->chip)) { | ||
3845 | hc->syncronized = 0; | ||
3846 | plxsd_checksync(hc, 0); | ||
3847 | } | ||
3848 | } else { | ||
3849 | i = dch->slot; | ||
3850 | hc->chan[i].slot_tx = -1; | ||
3851 | hc->chan[i].slot_rx = -1; | ||
3852 | hc->chan[i].conf = -1; | ||
3853 | mode_hfcmulti(hc, i, dch->dev.D.protocol, -1, 0, -1, 0); | ||
3854 | dch->timer.function = (void *)hfcmulti_dbusy_timer; | ||
3855 | dch->timer.data = (long) dch; | ||
3856 | init_timer(&dch->timer); | ||
3857 | hc->chan[i - 2].slot_tx = -1; | ||
3858 | hc->chan[i - 2].slot_rx = -1; | ||
3859 | hc->chan[i - 2].conf = -1; | ||
3860 | mode_hfcmulti(hc, i - 2, ISDN_P_NONE, -1, 0, -1, 0); | ||
3861 | hc->chan[i - 1].slot_tx = -1; | ||
3862 | hc->chan[i - 1].slot_rx = -1; | ||
3863 | hc->chan[i - 1].conf = -1; | ||
3864 | mode_hfcmulti(hc, i - 1, ISDN_P_NONE, -1, 0, -1, 0); | ||
3865 | /* ST */ | ||
3866 | pt = hc->chan[i].port; | ||
3867 | /* select interface */ | ||
3868 | HFC_outb(hc, R_ST_SEL, pt); | ||
3869 | /* undocumented: delay after R_ST_SEL */ | ||
3870 | udelay(1); | ||
3871 | if (dch->dev.D.protocol == ISDN_P_NT_S0) { | ||
3872 | if (debug & DEBUG_HFCMULTI_INIT) | ||
3873 | printk(KERN_DEBUG | ||
3874 | "%s: ST port %d is NT-mode\n", | ||
3875 | __func__, pt); | ||
3876 | /* clock delay */ | ||
3877 | HFC_outb(hc, A_ST_CLK_DLY, clockdelay_nt); | ||
3878 | a_st_wr_state = 1; /* G1 */ | ||
3879 | hc->hw.a_st_ctrl0[pt] = V_ST_MD; | ||
3880 | } else { | ||
3881 | if (debug & DEBUG_HFCMULTI_INIT) | ||
3882 | printk(KERN_DEBUG | ||
3883 | "%s: ST port %d is TE-mode\n", | ||
3884 | __func__, pt); | ||
3885 | /* clock delay */ | ||
3886 | HFC_outb(hc, A_ST_CLK_DLY, clockdelay_te); | ||
3887 | a_st_wr_state = 2; /* F2 */ | ||
3888 | hc->hw.a_st_ctrl0[pt] = 0; | ||
3889 | } | ||
3890 | if (!test_bit(HFC_CFG_NONCAP_TX, &hc->chan[i].cfg)) | ||
3891 | hc->hw.a_st_ctrl0[pt] |= V_TX_LI; | ||
3892 | /* line setup */ | ||
3893 | HFC_outb(hc, A_ST_CTRL0, hc->hw.a_st_ctrl0[pt]); | ||
3894 | /* disable E-channel */ | ||
3895 | if ((dch->dev.D.protocol == ISDN_P_NT_S0) || | ||
3896 | test_bit(HFC_CFG_DIS_ECHANNEL, &hc->chan[i].cfg)) | ||
3897 | HFC_outb(hc, A_ST_CTRL1, V_E_IGNO); | ||
3898 | else | ||
3899 | HFC_outb(hc, A_ST_CTRL1, 0); | ||
3900 | /* enable B-channel receive */ | ||
3901 | HFC_outb(hc, A_ST_CTRL2, V_B1_RX_EN | V_B2_RX_EN); | ||
3902 | /* state machine setup */ | ||
3903 | HFC_outb(hc, A_ST_WR_STATE, a_st_wr_state | V_ST_LD_STA); | ||
3904 | udelay(6); /* wait at least 5,21us */ | ||
3905 | HFC_outb(hc, A_ST_WR_STATE, a_st_wr_state); | ||
3906 | hc->hw.r_sci_msk |= 1 << pt; | ||
3907 | /* state machine interrupts */ | ||
3908 | HFC_outb(hc, R_SCI_MSK, hc->hw.r_sci_msk); | ||
3909 | /* unset sync on port */ | ||
3910 | if (test_bit(HFC_CHIP_PLXSD, &hc->chip)) { | ||
3911 | hc->syncronized &= | ||
3912 | ~(1 << hc->chan[dch->slot].port); | ||
3913 | plxsd_checksync(hc, 0); | ||
3914 | } | ||
3915 | } | ||
3916 | if (debug & DEBUG_HFCMULTI_INIT) | ||
3917 | printk("%s: done\n", __func__); | ||
3918 | } | ||
3919 | |||
3920 | |||
3921 | static int | ||
3922 | open_dchannel(struct hfc_multi *hc, struct dchannel *dch, | ||
3923 | struct channel_req *rq) | ||
3924 | { | ||
3925 | int err = 0; | ||
3926 | u_long flags; | ||
3927 | |||
3928 | if (debug & DEBUG_HW_OPEN) | ||
3929 | printk(KERN_DEBUG "%s: dev(%d) open from %p\n", __func__, | ||
3930 | dch->dev.id, __builtin_return_address(0)); | ||
3931 | if (rq->protocol == ISDN_P_NONE) | ||
3932 | return -EINVAL; | ||
3933 | if ((dch->dev.D.protocol != ISDN_P_NONE) && | ||
3934 | (dch->dev.D.protocol != rq->protocol)) { | ||
3935 | if (debug & DEBUG_HFCMULTI_MODE) | ||
3936 | printk(KERN_WARNING "%s: change protocol %x to %x\n", | ||
3937 | __func__, dch->dev.D.protocol, rq->protocol); | ||
3938 | } | ||
3939 | if ((dch->dev.D.protocol == ISDN_P_TE_S0) | ||
3940 | && (rq->protocol != ISDN_P_TE_S0)) | ||
3941 | l1_event(dch->l1, CLOSE_CHANNEL); | ||
3942 | if (dch->dev.D.protocol != rq->protocol) { | ||
3943 | if (rq->protocol == ISDN_P_TE_S0) { | ||
3944 | err = create_l1(dch, hfcm_l1callback); | ||
3945 | if (err) | ||
3946 | return err; | ||
3947 | } | ||
3948 | dch->dev.D.protocol = rq->protocol; | ||
3949 | spin_lock_irqsave(&hc->lock, flags); | ||
3950 | hfcmulti_initmode(dch); | ||
3951 | spin_unlock_irqrestore(&hc->lock, flags); | ||
3952 | } | ||
3953 | |||
3954 | if (((rq->protocol == ISDN_P_NT_S0) && (dch->state == 3)) || | ||
3955 | ((rq->protocol == ISDN_P_TE_S0) && (dch->state == 7)) || | ||
3956 | ((rq->protocol == ISDN_P_NT_E1) && (dch->state == 1)) || | ||
3957 | ((rq->protocol == ISDN_P_TE_E1) && (dch->state == 1))) { | ||
3958 | _queue_data(&dch->dev.D, PH_ACTIVATE_IND, MISDN_ID_ANY, | ||
3959 | 0, NULL, GFP_KERNEL); | ||
3960 | } | ||
3961 | rq->ch = &dch->dev.D; | ||
3962 | if (!try_module_get(THIS_MODULE)) | ||
3963 | printk(KERN_WARNING "%s:cannot get module\n", __func__); | ||
3964 | return 0; | ||
3965 | } | ||
3966 | |||
3967 | static int | ||
3968 | open_bchannel(struct hfc_multi *hc, struct dchannel *dch, | ||
3969 | struct channel_req *rq) | ||
3970 | { | ||
3971 | struct bchannel *bch; | ||
3972 | int ch; | ||
3973 | |||
3974 | if (!test_bit(rq->adr.channel, &dch->dev.channelmap[0])) | ||
3975 | return -EINVAL; | ||
3976 | if (rq->protocol == ISDN_P_NONE) | ||
3977 | return -EINVAL; | ||
3978 | if (hc->type == 1) | ||
3979 | ch = rq->adr.channel; | ||
3980 | else | ||
3981 | ch = (rq->adr.channel - 1) + (dch->slot - 2); | ||
3982 | bch = hc->chan[ch].bch; | ||
3983 | if (!bch) { | ||
3984 | printk(KERN_ERR "%s:internal error ch %d has no bch\n", | ||
3985 | __func__, ch); | ||
3986 | return -EINVAL; | ||
3987 | } | ||
3988 | if (test_and_set_bit(FLG_OPEN, &bch->Flags)) | ||
3989 | return -EBUSY; /* b-channel can be only open once */ | ||
3990 | bch->ch.protocol = rq->protocol; | ||
3991 | hc->chan[ch].rx_off = 0; | ||
3992 | rq->ch = &bch->ch; | ||
3993 | if (!try_module_get(THIS_MODULE)) | ||
3994 | printk(KERN_WARNING "%s:cannot get module\n", __func__); | ||
3995 | return 0; | ||
3996 | } | ||
3997 | |||
3998 | /* | ||
3999 | * device control function | ||
4000 | */ | ||
4001 | static int | ||
4002 | channel_dctrl(struct dchannel *dch, struct mISDN_ctrl_req *cq) | ||
4003 | { | ||
4004 | int ret = 0; | ||
4005 | |||
4006 | switch (cq->op) { | ||
4007 | case MISDN_CTRL_GETOP: | ||
4008 | cq->op = 0; | ||
4009 | break; | ||
4010 | default: | ||
4011 | printk(KERN_WARNING "%s: unknown Op %x\n", | ||
4012 | __func__, cq->op); | ||
4013 | ret = -EINVAL; | ||
4014 | break; | ||
4015 | } | ||
4016 | return ret; | ||
4017 | } | ||
4018 | |||
4019 | static int | ||
4020 | hfcm_dctrl(struct mISDNchannel *ch, u_int cmd, void *arg) | ||
4021 | { | ||
4022 | struct mISDNdevice *dev = container_of(ch, struct mISDNdevice, D); | ||
4023 | struct dchannel *dch = container_of(dev, struct dchannel, dev); | ||
4024 | struct hfc_multi *hc = dch->hw; | ||
4025 | struct channel_req *rq; | ||
4026 | int err = 0; | ||
4027 | u_long flags; | ||
4028 | |||
4029 | if (dch->debug & DEBUG_HW) | ||
4030 | printk(KERN_DEBUG "%s: cmd:%x %p\n", | ||
4031 | __func__, cmd, arg); | ||
4032 | switch (cmd) { | ||
4033 | case OPEN_CHANNEL: | ||
4034 | rq = arg; | ||
4035 | switch (rq->protocol) { | ||
4036 | case ISDN_P_TE_S0: | ||
4037 | case ISDN_P_NT_S0: | ||
4038 | if (hc->type == 1) { | ||
4039 | err = -EINVAL; | ||
4040 | break; | ||
4041 | } | ||
4042 | err = open_dchannel(hc, dch, rq); /* locked there */ | ||
4043 | break; | ||
4044 | case ISDN_P_TE_E1: | ||
4045 | case ISDN_P_NT_E1: | ||
4046 | if (hc->type != 1) { | ||
4047 | err = -EINVAL; | ||
4048 | break; | ||
4049 | } | ||
4050 | err = open_dchannel(hc, dch, rq); /* locked there */ | ||
4051 | break; | ||
4052 | default: | ||
4053 | spin_lock_irqsave(&hc->lock, flags); | ||
4054 | err = open_bchannel(hc, dch, rq); | ||
4055 | spin_unlock_irqrestore(&hc->lock, flags); | ||
4056 | } | ||
4057 | break; | ||
4058 | case CLOSE_CHANNEL: | ||
4059 | if (debug & DEBUG_HW_OPEN) | ||
4060 | printk(KERN_DEBUG "%s: dev(%d) close from %p\n", | ||
4061 | __func__, dch->dev.id, | ||
4062 | __builtin_return_address(0)); | ||
4063 | module_put(THIS_MODULE); | ||
4064 | break; | ||
4065 | case CONTROL_CHANNEL: | ||
4066 | spin_lock_irqsave(&hc->lock, flags); | ||
4067 | err = channel_dctrl(dch, arg); | ||
4068 | spin_unlock_irqrestore(&hc->lock, flags); | ||
4069 | break; | ||
4070 | default: | ||
4071 | if (dch->debug & DEBUG_HW) | ||
4072 | printk(KERN_DEBUG "%s: unknown command %x\n", | ||
4073 | __func__, cmd); | ||
4074 | err = -EINVAL; | ||
4075 | } | ||
4076 | return err; | ||
4077 | } | ||
4078 | |||
4079 | /* | ||
4080 | * initialize the card | ||
4081 | */ | ||
4082 | |||
4083 | /* | ||
4084 | * start timer irq, wait some time and check if we have interrupts. | ||
4085 | * if not, reset chip and try again. | ||
4086 | */ | ||
4087 | static int | ||
4088 | init_card(struct hfc_multi *hc) | ||
4089 | { | ||
4090 | int err = -EIO; | ||
4091 | u_long flags; | ||
4092 | u_short *plx_acc; | ||
4093 | u_long plx_flags; | ||
4094 | |||
4095 | if (debug & DEBUG_HFCMULTI_INIT) | ||
4096 | printk(KERN_DEBUG "%s: entered\n", __func__); | ||
4097 | |||
4098 | spin_lock_irqsave(&hc->lock, flags); | ||
4099 | /* set interrupts but leave global interrupt disabled */ | ||
4100 | hc->hw.r_irq_ctrl = V_FIFO_IRQ; | ||
4101 | disable_hwirq(hc); | ||
4102 | spin_unlock_irqrestore(&hc->lock, flags); | ||
4103 | |||
4104 | if (request_irq(hc->pci_dev->irq, hfcmulti_interrupt, IRQF_SHARED, | ||
4105 | "HFC-multi", hc)) { | ||
4106 | printk(KERN_WARNING "mISDN: Could not get interrupt %d.\n", | ||
4107 | hc->pci_dev->irq); | ||
4108 | return -EIO; | ||
4109 | } | ||
4110 | hc->irq = hc->pci_dev->irq; | ||
4111 | |||
4112 | if (test_bit(HFC_CHIP_PLXSD, &hc->chip)) { | ||
4113 | spin_lock_irqsave(&plx_lock, plx_flags); | ||
4114 | plx_acc = (u_short *)(hc->plx_membase+PLX_INTCSR); | ||
4115 | writew((PLX_INTCSR_PCIINT_ENABLE | PLX_INTCSR_LINTI1_ENABLE), | ||
4116 | plx_acc); /* enable PCI & LINT1 irq */ | ||
4117 | spin_unlock_irqrestore(&plx_lock, plx_flags); | ||
4118 | } | ||
4119 | |||
4120 | if (debug & DEBUG_HFCMULTI_INIT) | ||
4121 | printk(KERN_DEBUG "%s: IRQ %d count %d\n", | ||
4122 | __func__, hc->irq, hc->irqcnt); | ||
4123 | err = init_chip(hc); | ||
4124 | if (err) | ||
4125 | goto error; | ||
4126 | /* | ||
4127 | * Finally enable IRQ output | ||
4128 | * this is only allowed, if an IRQ routine is allready | ||
4129 | * established for this HFC, so don't do that earlier | ||
4130 | */ | ||
4131 | spin_lock_irqsave(&hc->lock, flags); | ||
4132 | enable_hwirq(hc); | ||
4133 | spin_unlock_irqrestore(&hc->lock, flags); | ||
4134 | /* printk(KERN_DEBUG "no master irq set!!!\n"); */ | ||
4135 | set_current_state(TASK_UNINTERRUPTIBLE); | ||
4136 | schedule_timeout((100*HZ)/1000); /* Timeout 100ms */ | ||
4137 | /* turn IRQ off until chip is completely initialized */ | ||
4138 | spin_lock_irqsave(&hc->lock, flags); | ||
4139 | disable_hwirq(hc); | ||
4140 | spin_unlock_irqrestore(&hc->lock, flags); | ||
4141 | if (debug & DEBUG_HFCMULTI_INIT) | ||
4142 | printk(KERN_DEBUG "%s: IRQ %d count %d\n", | ||
4143 | __func__, hc->irq, hc->irqcnt); | ||
4144 | if (hc->irqcnt) { | ||
4145 | if (debug & DEBUG_HFCMULTI_INIT) | ||
4146 | printk(KERN_DEBUG "%s: done\n", __func__); | ||
4147 | |||
4148 | return 0; | ||
4149 | } | ||
4150 | if (test_bit(HFC_CHIP_PCM_SLAVE, &hc->chip)) { | ||
4151 | printk(KERN_INFO "ignoring missing interrupts\n"); | ||
4152 | return 0; | ||
4153 | } | ||
4154 | |||
4155 | printk(KERN_ERR "HFC PCI: IRQ(%d) getting no interrupts during init.\n", | ||
4156 | hc->irq); | ||
4157 | |||
4158 | err = -EIO; | ||
4159 | |||
4160 | error: | ||
4161 | if (test_bit(HFC_CHIP_PLXSD, &hc->chip)) { | ||
4162 | spin_lock_irqsave(&plx_lock, plx_flags); | ||
4163 | plx_acc = (u_short *)(hc->plx_membase+PLX_INTCSR); | ||
4164 | writew(0x00, plx_acc); /*disable IRQs*/ | ||
4165 | spin_unlock_irqrestore(&plx_lock, plx_flags); | ||
4166 | } | ||
4167 | |||
4168 | if (debug & DEBUG_HFCMULTI_INIT) | ||
4169 | printk(KERN_WARNING "%s: free irq %d\n", __func__, hc->irq); | ||
4170 | if (hc->irq) { | ||
4171 | free_irq(hc->irq, hc); | ||
4172 | hc->irq = 0; | ||
4173 | } | ||
4174 | |||
4175 | if (debug & DEBUG_HFCMULTI_INIT) | ||
4176 | printk(KERN_DEBUG "%s: done (err=%d)\n", __func__, err); | ||
4177 | return err; | ||
4178 | } | ||
4179 | |||
4180 | /* | ||
4181 | * find pci device and set it up | ||
4182 | */ | ||
4183 | |||
4184 | static int | ||
4185 | setup_pci(struct hfc_multi *hc, struct pci_dev *pdev, | ||
4186 | const struct pci_device_id *ent) | ||
4187 | { | ||
4188 | struct hm_map *m = (struct hm_map *)ent->driver_data; | ||
4189 | |||
4190 | printk(KERN_INFO | ||
4191 | "HFC-multi: card manufacturer: '%s' card name: '%s' clock: %s\n", | ||
4192 | m->vendor_name, m->card_name, m->clock2 ? "double" : "normal"); | ||
4193 | |||
4194 | hc->pci_dev = pdev; | ||
4195 | if (m->clock2) | ||
4196 | test_and_set_bit(HFC_CHIP_CLOCK2, &hc->chip); | ||
4197 | |||
4198 | if (ent->device == 0xB410) { | ||
4199 | test_and_set_bit(HFC_CHIP_B410P, &hc->chip); | ||
4200 | test_and_set_bit(HFC_CHIP_PCM_MASTER, &hc->chip); | ||
4201 | test_and_clear_bit(HFC_CHIP_PCM_SLAVE, &hc->chip); | ||
4202 | hc->slots = 32; | ||
4203 | } | ||
4204 | |||
4205 | if (hc->pci_dev->irq <= 0) { | ||
4206 | printk(KERN_WARNING "HFC-multi: No IRQ for PCI card found.\n"); | ||
4207 | return -EIO; | ||
4208 | } | ||
4209 | if (pci_enable_device(hc->pci_dev)) { | ||
4210 | printk(KERN_WARNING "HFC-multi: Error enabling PCI card.\n"); | ||
4211 | return -EIO; | ||
4212 | } | ||
4213 | hc->leds = m->leds; | ||
4214 | hc->ledstate = 0xAFFEAFFE; | ||
4215 | hc->opticalsupport = m->opticalsupport; | ||
4216 | |||
4217 | /* set memory access methods */ | ||
4218 | if (m->io_mode) /* use mode from card config */ | ||
4219 | hc->io_mode = m->io_mode; | ||
4220 | switch (hc->io_mode) { | ||
4221 | case HFC_IO_MODE_PLXSD: | ||
4222 | test_and_set_bit(HFC_CHIP_PLXSD, &hc->chip); | ||
4223 | hc->slots = 128; /* required */ | ||
4224 | /* fall through */ | ||
4225 | case HFC_IO_MODE_PCIMEM: | ||
4226 | hc->HFC_outb = HFC_outb_pcimem; | ||
4227 | hc->HFC_inb = HFC_inb_pcimem; | ||
4228 | hc->HFC_inw = HFC_inw_pcimem; | ||
4229 | hc->HFC_wait = HFC_wait_pcimem; | ||
4230 | hc->read_fifo = read_fifo_pcimem; | ||
4231 | hc->write_fifo = write_fifo_pcimem; | ||
4232 | break; | ||
4233 | case HFC_IO_MODE_REGIO: | ||
4234 | hc->HFC_outb = HFC_outb_regio; | ||
4235 | hc->HFC_inb = HFC_inb_regio; | ||
4236 | hc->HFC_inw = HFC_inw_regio; | ||
4237 | hc->HFC_wait = HFC_wait_regio; | ||
4238 | hc->read_fifo = read_fifo_regio; | ||
4239 | hc->write_fifo = write_fifo_regio; | ||
4240 | break; | ||
4241 | default: | ||
4242 | printk(KERN_WARNING "HFC-multi: Invalid IO mode.\n"); | ||
4243 | pci_disable_device(hc->pci_dev); | ||
4244 | return -EIO; | ||
4245 | } | ||
4246 | hc->HFC_outb_nodebug = hc->HFC_outb; | ||
4247 | hc->HFC_inb_nodebug = hc->HFC_inb; | ||
4248 | hc->HFC_inw_nodebug = hc->HFC_inw; | ||
4249 | hc->HFC_wait_nodebug = hc->HFC_wait; | ||
4250 | #ifdef HFC_REGISTER_DEBUG | ||
4251 | hc->HFC_outb = HFC_outb_debug; | ||
4252 | hc->HFC_inb = HFC_inb_debug; | ||
4253 | hc->HFC_inw = HFC_inw_debug; | ||
4254 | hc->HFC_wait = HFC_wait_debug; | ||
4255 | #endif | ||
4256 | hc->pci_iobase = 0; | ||
4257 | hc->pci_membase = NULL; | ||
4258 | hc->plx_membase = NULL; | ||
4259 | |||
4260 | switch (hc->io_mode) { | ||
4261 | case HFC_IO_MODE_PLXSD: | ||
4262 | hc->plx_origmembase = hc->pci_dev->resource[0].start; | ||
4263 | /* MEMBASE 1 is PLX PCI Bridge */ | ||
4264 | |||
4265 | if (!hc->plx_origmembase) { | ||
4266 | printk(KERN_WARNING | ||
4267 | "HFC-multi: No IO-Memory for PCI PLX bridge found\n"); | ||
4268 | pci_disable_device(hc->pci_dev); | ||
4269 | return -EIO; | ||
4270 | } | ||
4271 | |||
4272 | hc->plx_membase = ioremap(hc->plx_origmembase, 0x80); | ||
4273 | if (!hc->plx_membase) { | ||
4274 | printk(KERN_WARNING | ||
4275 | "HFC-multi: failed to remap plx address space. " | ||
4276 | "(internal error)\n"); | ||
4277 | pci_disable_device(hc->pci_dev); | ||
4278 | return -EIO; | ||
4279 | } | ||
4280 | printk(KERN_INFO | ||
4281 | "HFC-multi: plx_membase:%#lx plx_origmembase:%#lx\n", | ||
4282 | (u_long)hc->plx_membase, hc->plx_origmembase); | ||
4283 | |||
4284 | hc->pci_origmembase = hc->pci_dev->resource[2].start; | ||
4285 | /* MEMBASE 1 is PLX PCI Bridge */ | ||
4286 | if (!hc->pci_origmembase) { | ||
4287 | printk(KERN_WARNING | ||
4288 | "HFC-multi: No IO-Memory for PCI card found\n"); | ||
4289 | pci_disable_device(hc->pci_dev); | ||
4290 | return -EIO; | ||
4291 | } | ||
4292 | |||
4293 | hc->pci_membase = ioremap(hc->pci_origmembase, 0x400); | ||
4294 | if (!hc->pci_membase) { | ||
4295 | printk(KERN_WARNING "HFC-multi: failed to remap io " | ||
4296 | "address space. (internal error)\n"); | ||
4297 | pci_disable_device(hc->pci_dev); | ||
4298 | return -EIO; | ||
4299 | } | ||
4300 | |||
4301 | printk(KERN_INFO | ||
4302 | "card %d: defined at MEMBASE %#lx (%#lx) IRQ %d HZ %d " | ||
4303 | "leds-type %d\n", | ||
4304 | hc->id, (u_long)hc->pci_membase, hc->pci_origmembase, | ||
4305 | hc->pci_dev->irq, HZ, hc->leds); | ||
4306 | pci_write_config_word(hc->pci_dev, PCI_COMMAND, PCI_ENA_MEMIO); | ||
4307 | break; | ||
4308 | case HFC_IO_MODE_PCIMEM: | ||
4309 | hc->pci_origmembase = hc->pci_dev->resource[1].start; | ||
4310 | if (!hc->pci_origmembase) { | ||
4311 | printk(KERN_WARNING | ||
4312 | "HFC-multi: No IO-Memory for PCI card found\n"); | ||
4313 | pci_disable_device(hc->pci_dev); | ||
4314 | return -EIO; | ||
4315 | } | ||
4316 | |||
4317 | hc->pci_membase = ioremap(hc->pci_origmembase, 256); | ||
4318 | if (!hc->pci_membase) { | ||
4319 | printk(KERN_WARNING | ||
4320 | "HFC-multi: failed to remap io address space. " | ||
4321 | "(internal error)\n"); | ||
4322 | pci_disable_device(hc->pci_dev); | ||
4323 | return -EIO; | ||
4324 | } | ||
4325 | printk(KERN_INFO "card %d: defined at MEMBASE %#lx (%#lx) IRQ %d " | ||
4326 | "HZ %d leds-type %d\n", hc->id, (u_long)hc->pci_membase, | ||
4327 | hc->pci_origmembase, hc->pci_dev->irq, HZ, hc->leds); | ||
4328 | pci_write_config_word(hc->pci_dev, PCI_COMMAND, PCI_ENA_MEMIO); | ||
4329 | break; | ||
4330 | case HFC_IO_MODE_REGIO: | ||
4331 | hc->pci_iobase = (u_int) hc->pci_dev->resource[0].start; | ||
4332 | if (!hc->pci_iobase) { | ||
4333 | printk(KERN_WARNING | ||
4334 | "HFC-multi: No IO for PCI card found\n"); | ||
4335 | pci_disable_device(hc->pci_dev); | ||
4336 | return -EIO; | ||
4337 | } | ||
4338 | |||
4339 | if (!request_region(hc->pci_iobase, 8, "hfcmulti")) { | ||
4340 | printk(KERN_WARNING "HFC-multi: failed to request " | ||
4341 | "address space at 0x%08lx (internal error)\n", | ||
4342 | hc->pci_iobase); | ||
4343 | pci_disable_device(hc->pci_dev); | ||
4344 | return -EIO; | ||
4345 | } | ||
4346 | |||
4347 | printk(KERN_INFO | ||
4348 | "%s %s: defined at IOBASE %#x IRQ %d HZ %d leds-type %d\n", | ||
4349 | m->vendor_name, m->card_name, (u_int) hc->pci_iobase, | ||
4350 | hc->pci_dev->irq, HZ, hc->leds); | ||
4351 | pci_write_config_word(hc->pci_dev, PCI_COMMAND, PCI_ENA_REGIO); | ||
4352 | break; | ||
4353 | default: | ||
4354 | printk(KERN_WARNING "HFC-multi: Invalid IO mode.\n"); | ||
4355 | pci_disable_device(hc->pci_dev); | ||
4356 | return -EIO; | ||
4357 | } | ||
4358 | |||
4359 | pci_set_drvdata(hc->pci_dev, hc); | ||
4360 | |||
4361 | /* At this point the needed PCI config is done */ | ||
4362 | /* fifos are still not enabled */ | ||
4363 | return 0; | ||
4364 | } | ||
4365 | |||
4366 | |||
4367 | /* | ||
4368 | * remove port | ||
4369 | */ | ||
4370 | |||
4371 | static void | ||
4372 | release_port(struct hfc_multi *hc, struct dchannel *dch) | ||
4373 | { | ||
4374 | int pt, ci, i = 0; | ||
4375 | u_long flags; | ||
4376 | struct bchannel *pb; | ||
4377 | |||
4378 | ci = dch->slot; | ||
4379 | pt = hc->chan[ci].port; | ||
4380 | |||
4381 | if (debug & DEBUG_HFCMULTI_INIT) | ||
4382 | printk(KERN_DEBUG "%s: entered for port %d\n", | ||
4383 | __func__, pt + 1); | ||
4384 | |||
4385 | if (pt >= hc->ports) { | ||
4386 | printk(KERN_WARNING "%s: ERROR port out of range (%d).\n", | ||
4387 | __func__, pt + 1); | ||
4388 | return; | ||
4389 | } | ||
4390 | |||
4391 | if (debug & DEBUG_HFCMULTI_INIT) | ||
4392 | printk(KERN_DEBUG "%s: releasing port=%d\n", | ||
4393 | __func__, pt + 1); | ||
4394 | |||
4395 | if (dch->dev.D.protocol == ISDN_P_TE_S0) | ||
4396 | l1_event(dch->l1, CLOSE_CHANNEL); | ||
4397 | |||
4398 | hc->chan[ci].dch = NULL; | ||
4399 | |||
4400 | if (hc->created[pt]) { | ||
4401 | hc->created[pt] = 0; | ||
4402 | mISDN_unregister_device(&dch->dev); | ||
4403 | } | ||
4404 | |||
4405 | spin_lock_irqsave(&hc->lock, flags); | ||
4406 | |||
4407 | if (dch->timer.function) { | ||
4408 | del_timer(&dch->timer); | ||
4409 | dch->timer.function = NULL; | ||
4410 | } | ||
4411 | |||
4412 | if (hc->type == 1) { /* E1 */ | ||
4413 | /* remove sync */ | ||
4414 | if (test_bit(HFC_CHIP_PLXSD, &hc->chip)) { | ||
4415 | hc->syncronized = 0; | ||
4416 | plxsd_checksync(hc, 1); | ||
4417 | } | ||
4418 | /* free channels */ | ||
4419 | for (i = 0; i <= 31; i++) { | ||
4420 | if (hc->chan[i].bch) { | ||
4421 | if (debug & DEBUG_HFCMULTI_INIT) | ||
4422 | printk(KERN_DEBUG | ||
4423 | "%s: free port %d channel %d\n", | ||
4424 | __func__, hc->chan[i].port+1, i); | ||
4425 | pb = hc->chan[i].bch; | ||
4426 | hc->chan[i].bch = NULL; | ||
4427 | spin_unlock_irqrestore(&hc->lock, flags); | ||
4428 | mISDN_freebchannel(pb); | ||
4429 | kfree(pb); | ||
4430 | kfree(hc->chan[i].coeff); | ||
4431 | spin_lock_irqsave(&hc->lock, flags); | ||
4432 | } | ||
4433 | } | ||
4434 | } else { | ||
4435 | /* remove sync */ | ||
4436 | if (test_bit(HFC_CHIP_PLXSD, &hc->chip)) { | ||
4437 | hc->syncronized &= | ||
4438 | ~(1 << hc->chan[ci].port); | ||
4439 | plxsd_checksync(hc, 1); | ||
4440 | } | ||
4441 | /* free channels */ | ||
4442 | if (hc->chan[ci - 2].bch) { | ||
4443 | if (debug & DEBUG_HFCMULTI_INIT) | ||
4444 | printk(KERN_DEBUG | ||
4445 | "%s: free port %d channel %d\n", | ||
4446 | __func__, hc->chan[ci - 2].port+1, | ||
4447 | ci - 2); | ||
4448 | pb = hc->chan[ci - 2].bch; | ||
4449 | hc->chan[ci - 2].bch = NULL; | ||
4450 | spin_unlock_irqrestore(&hc->lock, flags); | ||
4451 | mISDN_freebchannel(pb); | ||
4452 | kfree(pb); | ||
4453 | kfree(hc->chan[ci - 2].coeff); | ||
4454 | spin_lock_irqsave(&hc->lock, flags); | ||
4455 | } | ||
4456 | if (hc->chan[ci - 1].bch) { | ||
4457 | if (debug & DEBUG_HFCMULTI_INIT) | ||
4458 | printk(KERN_DEBUG | ||
4459 | "%s: free port %d channel %d\n", | ||
4460 | __func__, hc->chan[ci - 1].port+1, | ||
4461 | ci - 1); | ||
4462 | pb = hc->chan[ci - 1].bch; | ||
4463 | hc->chan[ci - 1].bch = NULL; | ||
4464 | spin_unlock_irqrestore(&hc->lock, flags); | ||
4465 | mISDN_freebchannel(pb); | ||
4466 | kfree(pb); | ||
4467 | kfree(hc->chan[ci - 1].coeff); | ||
4468 | spin_lock_irqsave(&hc->lock, flags); | ||
4469 | } | ||
4470 | } | ||
4471 | |||
4472 | spin_unlock_irqrestore(&hc->lock, flags); | ||
4473 | |||
4474 | if (debug & DEBUG_HFCMULTI_INIT) | ||
4475 | printk(KERN_DEBUG "%s: free port %d channel D\n", __func__, pt); | ||
4476 | mISDN_freedchannel(dch); | ||
4477 | kfree(dch); | ||
4478 | |||
4479 | if (debug & DEBUG_HFCMULTI_INIT) | ||
4480 | printk(KERN_DEBUG "%s: done!\n", __func__); | ||
4481 | } | ||
4482 | |||
4483 | static void | ||
4484 | release_card(struct hfc_multi *hc) | ||
4485 | { | ||
4486 | u_long flags; | ||
4487 | int ch; | ||
4488 | |||
4489 | if (debug & DEBUG_HFCMULTI_INIT) | ||
4490 | printk(KERN_WARNING "%s: release card (%d) entered\n", | ||
4491 | __func__, hc->id); | ||
4492 | |||
4493 | spin_lock_irqsave(&hc->lock, flags); | ||
4494 | disable_hwirq(hc); | ||
4495 | spin_unlock_irqrestore(&hc->lock, flags); | ||
4496 | |||
4497 | udelay(1000); | ||
4498 | |||
4499 | /* dimm leds */ | ||
4500 | if (hc->leds) | ||
4501 | hfcmulti_leds(hc); | ||
4502 | |||
4503 | /* disable D-channels & B-channels */ | ||
4504 | if (debug & DEBUG_HFCMULTI_INIT) | ||
4505 | printk(KERN_DEBUG "%s: disable all channels (d and b)\n", | ||
4506 | __func__); | ||
4507 | for (ch = 0; ch <= 31; ch++) { | ||
4508 | if (hc->chan[ch].dch) | ||
4509 | release_port(hc, hc->chan[ch].dch); | ||
4510 | } | ||
4511 | |||
4512 | /* release hardware & irq */ | ||
4513 | if (hc->irq) { | ||
4514 | if (debug & DEBUG_HFCMULTI_INIT) | ||
4515 | printk(KERN_WARNING "%s: free irq %d\n", | ||
4516 | __func__, hc->irq); | ||
4517 | free_irq(hc->irq, hc); | ||
4518 | hc->irq = 0; | ||
4519 | |||
4520 | } | ||
4521 | release_io_hfcmulti(hc); | ||
4522 | |||
4523 | if (debug & DEBUG_HFCMULTI_INIT) | ||
4524 | printk(KERN_WARNING "%s: remove instance from list\n", | ||
4525 | __func__); | ||
4526 | list_del(&hc->list); | ||
4527 | |||
4528 | if (debug & DEBUG_HFCMULTI_INIT) | ||
4529 | printk(KERN_WARNING "%s: delete instance\n", __func__); | ||
4530 | if (hc == syncmaster) | ||
4531 | syncmaster = NULL; | ||
4532 | kfree(hc); | ||
4533 | if (debug & DEBUG_HFCMULTI_INIT) | ||
4534 | printk(KERN_WARNING "%s: card successfully removed\n", | ||
4535 | __func__); | ||
4536 | } | ||
4537 | |||
4538 | static int | ||
4539 | init_e1_port(struct hfc_multi *hc, struct hm_map *m) | ||
4540 | { | ||
4541 | struct dchannel *dch; | ||
4542 | struct bchannel *bch; | ||
4543 | int ch, ret = 0; | ||
4544 | char name[MISDN_MAX_IDLEN]; | ||
4545 | |||
4546 | dch = kzalloc(sizeof(struct dchannel), GFP_KERNEL); | ||
4547 | if (!dch) | ||
4548 | return -ENOMEM; | ||
4549 | dch->debug = debug; | ||
4550 | mISDN_initdchannel(dch, MAX_DFRAME_LEN_L1, ph_state_change); | ||
4551 | dch->hw = hc; | ||
4552 | dch->dev.Dprotocols = (1 << ISDN_P_TE_E1) | (1 << ISDN_P_NT_E1); | ||
4553 | dch->dev.Bprotocols = (1 << (ISDN_P_B_RAW & ISDN_P_B_MASK)) | | ||
4554 | (1 << (ISDN_P_B_HDLC & ISDN_P_B_MASK)); | ||
4555 | dch->dev.D.send = handle_dmsg; | ||
4556 | dch->dev.D.ctrl = hfcm_dctrl; | ||
4557 | dch->dev.nrbchan = (hc->dslot)?30:31; | ||
4558 | dch->slot = hc->dslot; | ||
4559 | hc->chan[hc->dslot].dch = dch; | ||
4560 | hc->chan[hc->dslot].port = 0; | ||
4561 | hc->chan[hc->dslot].nt_timer = -1; | ||
4562 | for (ch = 1; ch <= 31; ch++) { | ||
4563 | if (ch == hc->dslot) /* skip dchannel */ | ||
4564 | continue; | ||
4565 | bch = kzalloc(sizeof(struct bchannel), GFP_KERNEL); | ||
4566 | if (!bch) { | ||
4567 | printk(KERN_ERR "%s: no memory for bchannel\n", | ||
4568 | __func__); | ||
4569 | ret = -ENOMEM; | ||
4570 | goto free_chan; | ||
4571 | } | ||
4572 | hc->chan[ch].coeff = kzalloc(512, GFP_KERNEL); | ||
4573 | if (!hc->chan[ch].coeff) { | ||
4574 | printk(KERN_ERR "%s: no memory for coeffs\n", | ||
4575 | __func__); | ||
4576 | ret = -ENOMEM; | ||
4577 | goto free_chan; | ||
4578 | } | ||
4579 | bch->nr = ch; | ||
4580 | bch->slot = ch; | ||
4581 | bch->debug = debug; | ||
4582 | mISDN_initbchannel(bch, MAX_DATA_MEM); | ||
4583 | bch->hw = hc; | ||
4584 | bch->ch.send = handle_bmsg; | ||
4585 | bch->ch.ctrl = hfcm_bctrl; | ||
4586 | bch->ch.nr = ch; | ||
4587 | list_add(&bch->ch.list, &dch->dev.bchannels); | ||
4588 | hc->chan[ch].bch = bch; | ||
4589 | hc->chan[ch].port = 0; | ||
4590 | test_and_set_bit(bch->nr, &dch->dev.channelmap[0]); | ||
4591 | } | ||
4592 | /* set optical line type */ | ||
4593 | if (port[Port_cnt] & 0x001) { | ||
4594 | if (!m->opticalsupport) { | ||
4595 | printk(KERN_INFO | ||
4596 | "This board has no optical " | ||
4597 | "support\n"); | ||
4598 | } else { | ||
4599 | if (debug & DEBUG_HFCMULTI_INIT) | ||
4600 | printk(KERN_DEBUG | ||
4601 | "%s: PORT set optical " | ||
4602 | "interfacs: card(%d) " | ||
4603 | "port(%d)\n", | ||
4604 | __func__, | ||
4605 | HFC_cnt + 1, 1); | ||
4606 | test_and_set_bit(HFC_CFG_OPTICAL, | ||
4607 | &hc->chan[hc->dslot].cfg); | ||
4608 | } | ||
4609 | } | ||
4610 | /* set LOS report */ | ||
4611 | if (port[Port_cnt] & 0x004) { | ||
4612 | if (debug & DEBUG_HFCMULTI_INIT) | ||
4613 | printk(KERN_DEBUG "%s: PORT set " | ||
4614 | "LOS report: card(%d) port(%d)\n", | ||
4615 | __func__, HFC_cnt + 1, 1); | ||
4616 | test_and_set_bit(HFC_CFG_REPORT_LOS, | ||
4617 | &hc->chan[hc->dslot].cfg); | ||
4618 | } | ||
4619 | /* set AIS report */ | ||
4620 | if (port[Port_cnt] & 0x008) { | ||
4621 | if (debug & DEBUG_HFCMULTI_INIT) | ||
4622 | printk(KERN_DEBUG "%s: PORT set " | ||
4623 | "AIS report: card(%d) port(%d)\n", | ||
4624 | __func__, HFC_cnt + 1, 1); | ||
4625 | test_and_set_bit(HFC_CFG_REPORT_AIS, | ||
4626 | &hc->chan[hc->dslot].cfg); | ||
4627 | } | ||
4628 | /* set SLIP report */ | ||
4629 | if (port[Port_cnt] & 0x010) { | ||
4630 | if (debug & DEBUG_HFCMULTI_INIT) | ||
4631 | printk(KERN_DEBUG | ||
4632 | "%s: PORT set SLIP report: " | ||
4633 | "card(%d) port(%d)\n", | ||
4634 | __func__, HFC_cnt + 1, 1); | ||
4635 | test_and_set_bit(HFC_CFG_REPORT_SLIP, | ||
4636 | &hc->chan[hc->dslot].cfg); | ||
4637 | } | ||
4638 | /* set RDI report */ | ||
4639 | if (port[Port_cnt] & 0x020) { | ||
4640 | if (debug & DEBUG_HFCMULTI_INIT) | ||
4641 | printk(KERN_DEBUG | ||
4642 | "%s: PORT set RDI report: " | ||
4643 | "card(%d) port(%d)\n", | ||
4644 | __func__, HFC_cnt + 1, 1); | ||
4645 | test_and_set_bit(HFC_CFG_REPORT_RDI, | ||
4646 | &hc->chan[hc->dslot].cfg); | ||
4647 | } | ||
4648 | /* set CRC-4 Mode */ | ||
4649 | if (!(port[Port_cnt] & 0x100)) { | ||
4650 | if (debug & DEBUG_HFCMULTI_INIT) | ||
4651 | printk(KERN_DEBUG "%s: PORT turn on CRC4 report:" | ||
4652 | " card(%d) port(%d)\n", | ||
4653 | __func__, HFC_cnt + 1, 1); | ||
4654 | test_and_set_bit(HFC_CFG_CRC4, | ||
4655 | &hc->chan[hc->dslot].cfg); | ||
4656 | } else { | ||
4657 | if (debug & DEBUG_HFCMULTI_INIT) | ||
4658 | printk(KERN_DEBUG "%s: PORT turn off CRC4" | ||
4659 | " report: card(%d) port(%d)\n", | ||
4660 | __func__, HFC_cnt + 1, 1); | ||
4661 | } | ||
4662 | /* set forced clock */ | ||
4663 | if (port[Port_cnt] & 0x0200) { | ||
4664 | if (debug & DEBUG_HFCMULTI_INIT) | ||
4665 | printk(KERN_DEBUG "%s: PORT force getting clock from " | ||
4666 | "E1: card(%d) port(%d)\n", | ||
4667 | __func__, HFC_cnt + 1, 1); | ||
4668 | test_and_set_bit(HFC_CHIP_E1CLOCK_GET, &hc->chip); | ||
4669 | } else | ||
4670 | if (port[Port_cnt] & 0x0400) { | ||
4671 | if (debug & DEBUG_HFCMULTI_INIT) | ||
4672 | printk(KERN_DEBUG "%s: PORT force putting clock to " | ||
4673 | "E1: card(%d) port(%d)\n", | ||
4674 | __func__, HFC_cnt + 1, 1); | ||
4675 | test_and_set_bit(HFC_CHIP_E1CLOCK_PUT, &hc->chip); | ||
4676 | } | ||
4677 | /* set JATT PLL */ | ||
4678 | if (port[Port_cnt] & 0x0800) { | ||
4679 | if (debug & DEBUG_HFCMULTI_INIT) | ||
4680 | printk(KERN_DEBUG "%s: PORT disable JATT PLL on " | ||
4681 | "E1: card(%d) port(%d)\n", | ||
4682 | __func__, HFC_cnt + 1, 1); | ||
4683 | test_and_set_bit(HFC_CHIP_RX_SYNC, &hc->chip); | ||
4684 | } | ||
4685 | /* set elastic jitter buffer */ | ||
4686 | if (port[Port_cnt] & 0x3000) { | ||
4687 | hc->chan[hc->dslot].jitter = (port[Port_cnt]>>12) & 0x3; | ||
4688 | if (debug & DEBUG_HFCMULTI_INIT) | ||
4689 | printk(KERN_DEBUG | ||
4690 | "%s: PORT set elastic " | ||
4691 | "buffer to %d: card(%d) port(%d)\n", | ||
4692 | __func__, hc->chan[hc->dslot].jitter, | ||
4693 | HFC_cnt + 1, 1); | ||
4694 | } else | ||
4695 | hc->chan[hc->dslot].jitter = 2; /* default */ | ||
4696 | snprintf(name, MISDN_MAX_IDLEN - 1, "hfc-e1.%d", HFC_cnt + 1); | ||
4697 | ret = mISDN_register_device(&dch->dev, name); | ||
4698 | if (ret) | ||
4699 | goto free_chan; | ||
4700 | hc->created[0] = 1; | ||
4701 | return ret; | ||
4702 | free_chan: | ||
4703 | release_port(hc, dch); | ||
4704 | return ret; | ||
4705 | } | ||
4706 | |||
4707 | static int | ||
4708 | init_multi_port(struct hfc_multi *hc, int pt) | ||
4709 | { | ||
4710 | struct dchannel *dch; | ||
4711 | struct bchannel *bch; | ||
4712 | int ch, i, ret = 0; | ||
4713 | char name[MISDN_MAX_IDLEN]; | ||
4714 | |||
4715 | dch = kzalloc(sizeof(struct dchannel), GFP_KERNEL); | ||
4716 | if (!dch) | ||
4717 | return -ENOMEM; | ||
4718 | dch->debug = debug; | ||
4719 | mISDN_initdchannel(dch, MAX_DFRAME_LEN_L1, ph_state_change); | ||
4720 | dch->hw = hc; | ||
4721 | dch->dev.Dprotocols = (1 << ISDN_P_TE_S0) | (1 << ISDN_P_NT_S0); | ||
4722 | dch->dev.Bprotocols = (1 << (ISDN_P_B_RAW & ISDN_P_B_MASK)) | | ||
4723 | (1 << (ISDN_P_B_HDLC & ISDN_P_B_MASK)); | ||
4724 | dch->dev.D.send = handle_dmsg; | ||
4725 | dch->dev.D.ctrl = hfcm_dctrl; | ||
4726 | dch->dev.nrbchan = 2; | ||
4727 | i = pt << 2; | ||
4728 | dch->slot = i + 2; | ||
4729 | hc->chan[i + 2].dch = dch; | ||
4730 | hc->chan[i + 2].port = pt; | ||
4731 | hc->chan[i + 2].nt_timer = -1; | ||
4732 | for (ch = 0; ch < dch->dev.nrbchan; ch++) { | ||
4733 | bch = kzalloc(sizeof(struct bchannel), GFP_KERNEL); | ||
4734 | if (!bch) { | ||
4735 | printk(KERN_ERR "%s: no memory for bchannel\n", | ||
4736 | __func__); | ||
4737 | ret = -ENOMEM; | ||
4738 | goto free_chan; | ||
4739 | } | ||
4740 | hc->chan[i + ch].coeff = kzalloc(512, GFP_KERNEL); | ||
4741 | if (!hc->chan[i + ch].coeff) { | ||
4742 | printk(KERN_ERR "%s: no memory for coeffs\n", | ||
4743 | __func__); | ||
4744 | ret = -ENOMEM; | ||
4745 | goto free_chan; | ||
4746 | } | ||
4747 | bch->nr = ch + 1; | ||
4748 | bch->slot = i + ch; | ||
4749 | bch->debug = debug; | ||
4750 | mISDN_initbchannel(bch, MAX_DATA_MEM); | ||
4751 | bch->hw = hc; | ||
4752 | bch->ch.send = handle_bmsg; | ||
4753 | bch->ch.ctrl = hfcm_bctrl; | ||
4754 | bch->ch.nr = ch + 1; | ||
4755 | list_add(&bch->ch.list, &dch->dev.bchannels); | ||
4756 | hc->chan[i + ch].bch = bch; | ||
4757 | hc->chan[i + ch].port = pt; | ||
4758 | test_and_set_bit(bch->nr, &dch->dev.channelmap[0]); | ||
4759 | } | ||
4760 | /* set master clock */ | ||
4761 | if (port[Port_cnt] & 0x001) { | ||
4762 | if (debug & DEBUG_HFCMULTI_INIT) | ||
4763 | printk(KERN_DEBUG | ||
4764 | "%s: PROTOCOL set master clock: " | ||
4765 | "card(%d) port(%d)\n", | ||
4766 | __func__, HFC_cnt + 1, pt + 1); | ||
4767 | if (dch->dev.D.protocol != ISDN_P_TE_S0) { | ||
4768 | printk(KERN_ERR "Error: Master clock " | ||
4769 | "for port(%d) of card(%d) is only" | ||
4770 | " possible with TE-mode\n", | ||
4771 | pt + 1, HFC_cnt + 1); | ||
4772 | ret = -EINVAL; | ||
4773 | goto free_chan; | ||
4774 | } | ||
4775 | if (hc->masterclk >= 0) { | ||
4776 | printk(KERN_ERR "Error: Master clock " | ||
4777 | "for port(%d) of card(%d) already " | ||
4778 | "defined for port(%d)\n", | ||
4779 | pt + 1, HFC_cnt + 1, hc->masterclk+1); | ||
4780 | ret = -EINVAL; | ||
4781 | goto free_chan; | ||
4782 | } | ||
4783 | hc->masterclk = pt; | ||
4784 | } | ||
4785 | /* set transmitter line to non capacitive */ | ||
4786 | if (port[Port_cnt] & 0x002) { | ||
4787 | if (debug & DEBUG_HFCMULTI_INIT) | ||
4788 | printk(KERN_DEBUG | ||
4789 | "%s: PROTOCOL set non capacitive " | ||
4790 | "transmitter: card(%d) port(%d)\n", | ||
4791 | __func__, HFC_cnt + 1, pt + 1); | ||
4792 | test_and_set_bit(HFC_CFG_NONCAP_TX, | ||
4793 | &hc->chan[i + 2].cfg); | ||
4794 | } | ||
4795 | /* disable E-channel */ | ||
4796 | if (port[Port_cnt] & 0x004) { | ||
4797 | if (debug & DEBUG_HFCMULTI_INIT) | ||
4798 | printk(KERN_DEBUG | ||
4799 | "%s: PROTOCOL disable E-channel: " | ||
4800 | "card(%d) port(%d)\n", | ||
4801 | __func__, HFC_cnt + 1, pt + 1); | ||
4802 | test_and_set_bit(HFC_CFG_DIS_ECHANNEL, | ||
4803 | &hc->chan[i + 2].cfg); | ||
4804 | } | ||
4805 | snprintf(name, MISDN_MAX_IDLEN - 1, "hfc-%ds.%d/%d", | ||
4806 | hc->type, HFC_cnt + 1, pt + 1); | ||
4807 | ret = mISDN_register_device(&dch->dev, name); | ||
4808 | if (ret) | ||
4809 | goto free_chan; | ||
4810 | hc->created[pt] = 1; | ||
4811 | return ret; | ||
4812 | free_chan: | ||
4813 | release_port(hc, dch); | ||
4814 | return ret; | ||
4815 | } | ||
4816 | |||
4817 | static int | ||
4818 | hfcmulti_init(struct pci_dev *pdev, const struct pci_device_id *ent) | ||
4819 | { | ||
4820 | struct hm_map *m = (struct hm_map *)ent->driver_data; | ||
4821 | int ret_err = 0; | ||
4822 | int pt; | ||
4823 | struct hfc_multi *hc; | ||
4824 | u_long flags; | ||
4825 | u_char dips = 0, pmj = 0; /* dip settings, port mode Jumpers */ | ||
4826 | |||
4827 | if (HFC_cnt >= MAX_CARDS) { | ||
4828 | printk(KERN_ERR "too many cards (max=%d).\n", | ||
4829 | MAX_CARDS); | ||
4830 | return -EINVAL; | ||
4831 | } | ||
4832 | if ((type[HFC_cnt] & 0xff) && (type[HFC_cnt] & 0xff) != m->type) { | ||
4833 | printk(KERN_WARNING "HFC-MULTI: Card '%s:%s' type %d found but " | ||
4834 | "type[%d] %d was supplied as module parameter\n", | ||
4835 | m->vendor_name, m->card_name, m->type, HFC_cnt, | ||
4836 | type[HFC_cnt] & 0xff); | ||
4837 | printk(KERN_WARNING "HFC-MULTI: Load module without parameters " | ||
4838 | "first, to see cards and their types."); | ||
4839 | return -EINVAL; | ||
4840 | } | ||
4841 | if (debug & DEBUG_HFCMULTI_INIT) | ||
4842 | printk(KERN_DEBUG "%s: Registering %s:%s chip type %d (0x%x)\n", | ||
4843 | __func__, m->vendor_name, m->card_name, m->type, | ||
4844 | type[HFC_cnt]); | ||
4845 | |||
4846 | /* allocate card+fifo structure */ | ||
4847 | hc = kzalloc(sizeof(struct hfc_multi), GFP_KERNEL); | ||
4848 | if (!hc) { | ||
4849 | printk(KERN_ERR "No kmem for HFC-Multi card\n"); | ||
4850 | return -ENOMEM; | ||
4851 | } | ||
4852 | spin_lock_init(&hc->lock); | ||
4853 | hc->mtyp = m; | ||
4854 | hc->type = m->type; | ||
4855 | hc->ports = m->ports; | ||
4856 | hc->id = HFC_cnt; | ||
4857 | hc->pcm = pcm[HFC_cnt]; | ||
4858 | hc->io_mode = iomode[HFC_cnt]; | ||
4859 | if (dslot[HFC_cnt] < 0) { | ||
4860 | hc->dslot = 0; | ||
4861 | printk(KERN_INFO "HFC-E1 card has disabled D-channel, but " | ||
4862 | "31 B-channels\n"); | ||
4863 | } if (dslot[HFC_cnt] > 0 && dslot[HFC_cnt] < 32) { | ||
4864 | hc->dslot = dslot[HFC_cnt]; | ||
4865 | printk(KERN_INFO "HFC-E1 card has alternating D-channel on " | ||
4866 | "time slot %d\n", dslot[HFC_cnt]); | ||
4867 | } else | ||
4868 | hc->dslot = 16; | ||
4869 | |||
4870 | /* set chip specific features */ | ||
4871 | hc->masterclk = -1; | ||
4872 | if (type[HFC_cnt] & 0x100) { | ||
4873 | test_and_set_bit(HFC_CHIP_ULAW, &hc->chip); | ||
4874 | silence = 0xff; /* ulaw silence */ | ||
4875 | } else | ||
4876 | silence = 0x2a; /* alaw silence */ | ||
4877 | if (!(type[HFC_cnt] & 0x200)) | ||
4878 | test_and_set_bit(HFC_CHIP_DTMF, &hc->chip); | ||
4879 | |||
4880 | if (type[HFC_cnt] & 0x800) | ||
4881 | test_and_set_bit(HFC_CHIP_PCM_SLAVE, &hc->chip); | ||
4882 | if (type[HFC_cnt] & 0x1000) { | ||
4883 | test_and_set_bit(HFC_CHIP_PCM_MASTER, &hc->chip); | ||
4884 | test_and_clear_bit(HFC_CHIP_PCM_SLAVE, &hc->chip); | ||
4885 | } | ||
4886 | if (type[HFC_cnt] & 0x4000) | ||
4887 | test_and_set_bit(HFC_CHIP_EXRAM_128, &hc->chip); | ||
4888 | if (type[HFC_cnt] & 0x8000) | ||
4889 | test_and_set_bit(HFC_CHIP_EXRAM_512, &hc->chip); | ||
4890 | hc->slots = 32; | ||
4891 | if (type[HFC_cnt] & 0x10000) | ||
4892 | hc->slots = 64; | ||
4893 | if (type[HFC_cnt] & 0x20000) | ||
4894 | hc->slots = 128; | ||
4895 | if (type[HFC_cnt] & 0x80000) { | ||
4896 | test_and_set_bit(HFC_CHIP_WATCHDOG, &hc->chip); | ||
4897 | hc->wdcount = 0; | ||
4898 | hc->wdbyte = V_GPIO_OUT2; | ||
4899 | printk(KERN_NOTICE "Watchdog enabled\n"); | ||
4900 | } | ||
4901 | |||
4902 | /* setup pci, hc->slots may change due to PLXSD */ | ||
4903 | ret_err = setup_pci(hc, pdev, ent); | ||
4904 | if (ret_err) { | ||
4905 | if (hc == syncmaster) | ||
4906 | syncmaster = NULL; | ||
4907 | kfree(hc); | ||
4908 | return ret_err; | ||
4909 | } | ||
4910 | |||
4911 | /* crate channels */ | ||
4912 | for (pt = 0; pt < hc->ports; pt++) { | ||
4913 | if (Port_cnt >= MAX_PORTS) { | ||
4914 | printk(KERN_ERR "too many ports (max=%d).\n", | ||
4915 | MAX_PORTS); | ||
4916 | ret_err = -EINVAL; | ||
4917 | goto free_card; | ||
4918 | } | ||
4919 | if (hc->type == 1) | ||
4920 | ret_err = init_e1_port(hc, m); | ||
4921 | else | ||
4922 | ret_err = init_multi_port(hc, pt); | ||
4923 | if (debug & DEBUG_HFCMULTI_INIT) | ||
4924 | printk(KERN_DEBUG | ||
4925 | "%s: Registering D-channel, card(%d) port(%d)" | ||
4926 | "result %d\n", | ||
4927 | __func__, HFC_cnt + 1, pt, ret_err); | ||
4928 | |||
4929 | if (ret_err) { | ||
4930 | while (pt) { /* release already registered ports */ | ||
4931 | pt--; | ||
4932 | release_port(hc, hc->chan[(pt << 2) + 2].dch); | ||
4933 | } | ||
4934 | goto free_card; | ||
4935 | } | ||
4936 | Port_cnt++; | ||
4937 | } | ||
4938 | |||
4939 | /* disp switches */ | ||
4940 | switch (m->dip_type) { | ||
4941 | case DIP_4S: | ||
4942 | /* | ||
4943 | * get DIP Setting for beroNet 1S/2S/4S cards | ||
4944 | * check if Port Jumper config matches | ||
4945 | * module param 'protocol' | ||
4946 | * DIP Setting: (collect GPIO 13/14/15 (R_GPIO_IN1) + | ||
4947 | * GPI 19/23 (R_GPI_IN2)) | ||
4948 | */ | ||
4949 | dips = ((~HFC_inb(hc, R_GPIO_IN1) & 0xE0) >> 5) | | ||
4950 | ((~HFC_inb(hc, R_GPI_IN2) & 0x80) >> 3) | | ||
4951 | (~HFC_inb(hc, R_GPI_IN2) & 0x08); | ||
4952 | |||
4953 | /* Port mode (TE/NT) jumpers */ | ||
4954 | pmj = ((HFC_inb(hc, R_GPI_IN3) >> 4) & 0xf); | ||
4955 | |||
4956 | if (test_bit(HFC_CHIP_B410P, &hc->chip)) | ||
4957 | pmj = ~pmj & 0xf; | ||
4958 | |||
4959 | printk(KERN_INFO "%s: %s DIPs(0x%x) jumpers(0x%x)\n", | ||
4960 | m->vendor_name, m->card_name, dips, pmj); | ||
4961 | break; | ||
4962 | case DIP_8S: | ||
4963 | /* | ||
4964 | * get DIP Setting for beroNet 8S0+ cards | ||
4965 | * | ||
4966 | * enable PCI auxbridge function | ||
4967 | */ | ||
4968 | HFC_outb(hc, R_BRG_PCM_CFG, 1 | V_PCM_CLK); | ||
4969 | /* prepare access to auxport */ | ||
4970 | outw(0x4000, hc->pci_iobase + 4); | ||
4971 | /* | ||
4972 | * some dummy reads are required to | ||
4973 | * read valid DIP switch data | ||
4974 | */ | ||
4975 | dips = inb(hc->pci_iobase); | ||
4976 | dips = inb(hc->pci_iobase); | ||
4977 | dips = inb(hc->pci_iobase); | ||
4978 | dips = ~inb(hc->pci_iobase) & 0x3F; | ||
4979 | outw(0x0, hc->pci_iobase + 4); | ||
4980 | /* disable PCI auxbridge function */ | ||
4981 | HFC_outb(hc, R_BRG_PCM_CFG, V_PCM_CLK); | ||
4982 | printk(KERN_INFO "%s: %s DIPs(0x%x)\n", | ||
4983 | m->vendor_name, m->card_name, dips); | ||
4984 | break; | ||
4985 | case DIP_E1: | ||
4986 | /* | ||
4987 | * get DIP Setting for beroNet E1 cards | ||
4988 | * DIP Setting: collect GPI 4/5/6/7 (R_GPI_IN0) | ||
4989 | */ | ||
4990 | dips = (~HFC_inb(hc, R_GPI_IN0) & 0xF0)>>4; | ||
4991 | printk(KERN_INFO "%s: %s DIPs(0x%x)\n", | ||
4992 | m->vendor_name, m->card_name, dips); | ||
4993 | break; | ||
4994 | } | ||
4995 | |||
4996 | /* add to list */ | ||
4997 | spin_lock_irqsave(&HFClock, flags); | ||
4998 | list_add_tail(&hc->list, &HFClist); | ||
4999 | spin_unlock_irqrestore(&HFClock, flags); | ||
5000 | |||
5001 | /* initialize hardware */ | ||
5002 | ret_err = init_card(hc); | ||
5003 | if (ret_err) { | ||
5004 | printk(KERN_ERR "init card returns %d\n", ret_err); | ||
5005 | release_card(hc); | ||
5006 | return ret_err; | ||
5007 | } | ||
5008 | |||
5009 | /* start IRQ and return */ | ||
5010 | spin_lock_irqsave(&hc->lock, flags); | ||
5011 | enable_hwirq(hc); | ||
5012 | spin_unlock_irqrestore(&hc->lock, flags); | ||
5013 | return 0; | ||
5014 | |||
5015 | free_card: | ||
5016 | release_io_hfcmulti(hc); | ||
5017 | if (hc == syncmaster) | ||
5018 | syncmaster = NULL; | ||
5019 | kfree(hc); | ||
5020 | return ret_err; | ||
5021 | } | ||
5022 | |||
5023 | static void __devexit hfc_remove_pci(struct pci_dev *pdev) | ||
5024 | { | ||
5025 | struct hfc_multi *card = pci_get_drvdata(pdev); | ||
5026 | u_long flags; | ||
5027 | |||
5028 | if (debug) | ||
5029 | printk(KERN_INFO "removing hfc_multi card vendor:%x " | ||
5030 | "device:%x subvendor:%x subdevice:%x\n", | ||
5031 | pdev->vendor, pdev->device, | ||
5032 | pdev->subsystem_vendor, pdev->subsystem_device); | ||
5033 | |||
5034 | if (card) { | ||
5035 | spin_lock_irqsave(&HFClock, flags); | ||
5036 | release_card(card); | ||
5037 | spin_unlock_irqrestore(&HFClock, flags); | ||
5038 | } else { | ||
5039 | if (debug) | ||
5040 | printk(KERN_WARNING "%s: drvdata allready removed\n", | ||
5041 | __func__); | ||
5042 | } | ||
5043 | } | ||
5044 | |||
5045 | #define VENDOR_CCD "Cologne Chip AG" | ||
5046 | #define VENDOR_BN "beroNet GmbH" | ||
5047 | #define VENDOR_DIG "Digium Inc." | ||
5048 | #define VENDOR_JH "Junghanns.NET GmbH" | ||
5049 | #define VENDOR_PRIM "PrimuX" | ||
5050 | |||
5051 | static const struct hm_map hfcm_map[] = { | ||
5052 | /*0*/ {VENDOR_BN, "HFC-1S Card (mini PCI)", 4, 1, 1, 3, 0, DIP_4S, 0}, | ||
5053 | /*1*/ {VENDOR_BN, "HFC-2S Card", 4, 2, 1, 3, 0, DIP_4S}, | ||
5054 | /*2*/ {VENDOR_BN, "HFC-2S Card (mini PCI)", 4, 2, 1, 3, 0, DIP_4S, 0}, | ||
5055 | /*3*/ {VENDOR_BN, "HFC-4S Card", 4, 4, 1, 2, 0, DIP_4S, 0}, | ||
5056 | /*4*/ {VENDOR_BN, "HFC-4S Card (mini PCI)", 4, 4, 1, 2, 0, 0, 0}, | ||
5057 | /*5*/ {VENDOR_CCD, "HFC-4S Eval (old)", 4, 4, 0, 0, 0, 0, 0}, | ||
5058 | /*6*/ {VENDOR_CCD, "HFC-4S IOB4ST", 4, 4, 1, 2, 0, 0, 0}, | ||
5059 | /*7*/ {VENDOR_CCD, "HFC-4S", 4, 4, 1, 2, 0, 0, 0}, | ||
5060 | /*8*/ {VENDOR_DIG, "HFC-4S Card", 4, 4, 0, 2, 0, 0, HFC_IO_MODE_REGIO}, | ||
5061 | /*9*/ {VENDOR_CCD, "HFC-4S Swyx 4xS0 SX2 QuadBri", 4, 4, 1, 2, 0, 0, 0}, | ||
5062 | /*10*/ {VENDOR_JH, "HFC-4S (junghanns 2.0)", 4, 4, 1, 2, 0, 0, 0}, | ||
5063 | /*11*/ {VENDOR_PRIM, "HFC-2S Primux Card", 4, 2, 0, 0, 0, 0, 0}, | ||
5064 | |||
5065 | /*12*/ {VENDOR_BN, "HFC-8S Card", 8, 8, 1, 0, 0, 0, 0}, | ||
5066 | /*13*/ {VENDOR_BN, "HFC-8S Card (+)", 8, 8, 1, 8, 0, DIP_8S, | ||
5067 | HFC_IO_MODE_REGIO}, | ||
5068 | /*14*/ {VENDOR_CCD, "HFC-8S Eval (old)", 8, 8, 0, 0, 0, 0, 0}, | ||
5069 | /*15*/ {VENDOR_CCD, "HFC-8S IOB4ST Recording", 8, 8, 1, 0, 0, 0, 0}, | ||
5070 | |||
5071 | /*16*/ {VENDOR_CCD, "HFC-8S IOB8ST", 8, 8, 1, 0, 0, 0, 0}, | ||
5072 | /*17*/ {VENDOR_CCD, "HFC-8S", 8, 8, 1, 0, 0, 0, 0}, | ||
5073 | /*18*/ {VENDOR_CCD, "HFC-8S", 8, 8, 1, 0, 0, 0, 0}, | ||
5074 | |||
5075 | /*19*/ {VENDOR_BN, "HFC-E1 Card", 1, 1, 0, 1, 0, DIP_E1, 0}, | ||
5076 | /*20*/ {VENDOR_BN, "HFC-E1 Card (mini PCI)", 1, 1, 0, 1, 0, 0, 0}, | ||
5077 | /*21*/ {VENDOR_BN, "HFC-E1+ Card (Dual)", 1, 1, 0, 1, 0, DIP_E1, 0}, | ||
5078 | /*22*/ {VENDOR_BN, "HFC-E1 Card (Dual)", 1, 1, 0, 1, 0, DIP_E1, 0}, | ||
5079 | |||
5080 | /*23*/ {VENDOR_CCD, "HFC-E1 Eval (old)", 1, 1, 0, 0, 0, 0, 0}, | ||
5081 | /*24*/ {VENDOR_CCD, "HFC-E1 IOB1E1", 1, 1, 0, 1, 0, 0, 0}, | ||
5082 | /*25*/ {VENDOR_CCD, "HFC-E1", 1, 1, 0, 1, 0, 0, 0}, | ||
5083 | |||
5084 | /*26*/ {VENDOR_CCD, "HFC-4S Speech Design", 4, 4, 0, 0, 0, 0, | ||
5085 | HFC_IO_MODE_PLXSD}, | ||
5086 | /*27*/ {VENDOR_CCD, "HFC-E1 Speech Design", 1, 1, 0, 0, 0, 0, | ||
5087 | HFC_IO_MODE_PLXSD}, | ||
5088 | /*28*/ {VENDOR_CCD, "HFC-4S OpenVox", 4, 4, 1, 0, 0, 0, 0}, | ||
5089 | /*29*/ {VENDOR_CCD, "HFC-2S OpenVox", 4, 2, 1, 0, 0, 0, 0}, | ||
5090 | /*30*/ {VENDOR_CCD, "HFC-8S OpenVox", 8, 8, 1, 0, 0, 0, 0}, | ||
5091 | }; | ||
5092 | |||
5093 | #undef H | ||
5094 | #define H(x) ((unsigned long)&hfcm_map[x]) | ||
5095 | static struct pci_device_id hfmultipci_ids[] __devinitdata = { | ||
5096 | |||
5097 | /* Cards with HFC-4S Chip */ | ||
5098 | { PCI_VENDOR_ID_CCD, PCI_DEVICE_ID_CCD_HFC4S, PCI_VENDOR_ID_CCD, | ||
5099 | PCI_SUBDEVICE_ID_CCD_BN1SM, 0, 0, H(0)}, /* BN1S mini PCI */ | ||
5100 | { PCI_VENDOR_ID_CCD, PCI_DEVICE_ID_CCD_HFC4S, PCI_VENDOR_ID_CCD, | ||
5101 | PCI_SUBDEVICE_ID_CCD_BN2S, 0, 0, H(1)}, /* BN2S */ | ||
5102 | { PCI_VENDOR_ID_CCD, PCI_DEVICE_ID_CCD_HFC4S, PCI_VENDOR_ID_CCD, | ||
5103 | PCI_SUBDEVICE_ID_CCD_BN2SM, 0, 0, H(2)}, /* BN2S mini PCI */ | ||
5104 | { PCI_VENDOR_ID_CCD, PCI_DEVICE_ID_CCD_HFC4S, PCI_VENDOR_ID_CCD, | ||
5105 | PCI_SUBDEVICE_ID_CCD_BN4S, 0, 0, H(3)}, /* BN4S */ | ||
5106 | { PCI_VENDOR_ID_CCD, PCI_DEVICE_ID_CCD_HFC4S, PCI_VENDOR_ID_CCD, | ||
5107 | PCI_SUBDEVICE_ID_CCD_BN4SM, 0, 0, H(4)}, /* BN4S mini PCI */ | ||
5108 | { PCI_VENDOR_ID_CCD, PCI_DEVICE_ID_CCD_HFC4S, PCI_VENDOR_ID_CCD, | ||
5109 | PCI_DEVICE_ID_CCD_HFC4S, 0, 0, H(5)}, /* Old Eval */ | ||
5110 | { PCI_VENDOR_ID_CCD, PCI_DEVICE_ID_CCD_HFC4S, PCI_VENDOR_ID_CCD, | ||
5111 | PCI_SUBDEVICE_ID_CCD_IOB4ST, 0, 0, H(6)}, /* IOB4ST */ | ||
5112 | { PCI_VENDOR_ID_CCD, PCI_DEVICE_ID_CCD_HFC4S, PCI_VENDOR_ID_CCD, | ||
5113 | PCI_SUBDEVICE_ID_CCD_HFC4S, 0, 0, H(7)}, /* 4S */ | ||
5114 | { PCI_VENDOR_ID_DIGIUM, PCI_DEVICE_ID_DIGIUM_HFC4S, | ||
5115 | PCI_VENDOR_ID_DIGIUM, PCI_DEVICE_ID_DIGIUM_HFC4S, 0, 0, H(8)}, | ||
5116 | { PCI_VENDOR_ID_CCD, PCI_DEVICE_ID_CCD_HFC4S, PCI_VENDOR_ID_CCD, | ||
5117 | PCI_SUBDEVICE_ID_CCD_SWYX4S, 0, 0, H(9)}, /* 4S Swyx */ | ||
5118 | { PCI_VENDOR_ID_CCD, PCI_DEVICE_ID_CCD_HFC4S, PCI_VENDOR_ID_CCD, | ||
5119 | PCI_SUBDEVICE_ID_CCD_JH4S20, 0, 0, H(10)}, | ||
5120 | { PCI_VENDOR_ID_CCD, PCI_DEVICE_ID_CCD_HFC4S, PCI_VENDOR_ID_CCD, | ||
5121 | PCI_SUBDEVICE_ID_CCD_PMX2S, 0, 0, H(11)}, /* Primux */ | ||
5122 | { PCI_VENDOR_ID_CCD, PCI_DEVICE_ID_CCD_HFC4S, PCI_VENDOR_ID_CCD, | ||
5123 | PCI_SUBDEVICE_ID_CCD_OV4S, 0, 0, H(28)}, /* OpenVox 4 */ | ||
5124 | { PCI_VENDOR_ID_CCD, PCI_DEVICE_ID_CCD_HFC4S, PCI_VENDOR_ID_CCD, | ||
5125 | PCI_SUBDEVICE_ID_CCD_OV2S, 0, 0, H(29)}, /* OpenVox 2 */ | ||
5126 | |||
5127 | /* Cards with HFC-8S Chip */ | ||
5128 | { PCI_VENDOR_ID_CCD, PCI_DEVICE_ID_CCD_HFC8S, PCI_VENDOR_ID_CCD, | ||
5129 | PCI_SUBDEVICE_ID_CCD_BN8S, 0, 0, H(12)}, /* BN8S */ | ||
5130 | { PCI_VENDOR_ID_CCD, PCI_DEVICE_ID_CCD_HFC8S, PCI_VENDOR_ID_CCD, | ||
5131 | PCI_SUBDEVICE_ID_CCD_BN8SP, 0, 0, H(13)}, /* BN8S+ */ | ||
5132 | { PCI_VENDOR_ID_CCD, PCI_DEVICE_ID_CCD_HFC8S, PCI_VENDOR_ID_CCD, | ||
5133 | PCI_DEVICE_ID_CCD_HFC8S, 0, 0, H(14)}, /* old Eval */ | ||
5134 | { PCI_VENDOR_ID_CCD, PCI_DEVICE_ID_CCD_HFC8S, PCI_VENDOR_ID_CCD, | ||
5135 | PCI_SUBDEVICE_ID_CCD_IOB8STR, 0, 0, H(15)}, | ||
5136 | /* IOB8ST Recording */ | ||
5137 | { PCI_VENDOR_ID_CCD, PCI_DEVICE_ID_CCD_HFC8S, PCI_VENDOR_ID_CCD, | ||
5138 | PCI_SUBDEVICE_ID_CCD_IOB8ST, 0, 0, H(16)}, /* IOB8ST */ | ||
5139 | { PCI_VENDOR_ID_CCD, PCI_DEVICE_ID_CCD_HFC8S, PCI_VENDOR_ID_CCD, | ||
5140 | PCI_SUBDEVICE_ID_CCD_IOB8ST_1, 0, 0, H(17)}, /* IOB8ST */ | ||
5141 | { PCI_VENDOR_ID_CCD, PCI_DEVICE_ID_CCD_HFC8S, PCI_VENDOR_ID_CCD, | ||
5142 | PCI_SUBDEVICE_ID_CCD_HFC8S, 0, 0, H(18)}, /* 8S */ | ||
5143 | { PCI_VENDOR_ID_CCD, PCI_DEVICE_ID_CCD_HFC8S, PCI_VENDOR_ID_CCD, | ||
5144 | PCI_SUBDEVICE_ID_CCD_OV8S, 0, 0, H(30)}, /* OpenVox 8 */ | ||
5145 | |||
5146 | |||
5147 | /* Cards with HFC-E1 Chip */ | ||
5148 | { PCI_VENDOR_ID_CCD, PCI_DEVICE_ID_CCD_HFCE1, PCI_VENDOR_ID_CCD, | ||
5149 | PCI_SUBDEVICE_ID_CCD_BNE1, 0, 0, H(19)}, /* BNE1 */ | ||
5150 | { PCI_VENDOR_ID_CCD, PCI_DEVICE_ID_CCD_HFCE1, PCI_VENDOR_ID_CCD, | ||
5151 | PCI_SUBDEVICE_ID_CCD_BNE1M, 0, 0, H(20)}, /* BNE1 mini PCI */ | ||
5152 | { PCI_VENDOR_ID_CCD, PCI_DEVICE_ID_CCD_HFCE1, PCI_VENDOR_ID_CCD, | ||
5153 | PCI_SUBDEVICE_ID_CCD_BNE1DP, 0, 0, H(21)}, /* BNE1 + (Dual) */ | ||
5154 | { PCI_VENDOR_ID_CCD, PCI_DEVICE_ID_CCD_HFCE1, PCI_VENDOR_ID_CCD, | ||
5155 | PCI_SUBDEVICE_ID_CCD_BNE1D, 0, 0, H(22)}, /* BNE1 (Dual) */ | ||
5156 | |||
5157 | { PCI_VENDOR_ID_CCD, PCI_DEVICE_ID_CCD_HFCE1, PCI_VENDOR_ID_CCD, | ||
5158 | PCI_DEVICE_ID_CCD_HFCE1, 0, 0, H(23)}, /* Old Eval */ | ||
5159 | { PCI_VENDOR_ID_CCD, PCI_DEVICE_ID_CCD_HFCE1, PCI_VENDOR_ID_CCD, | ||
5160 | PCI_SUBDEVICE_ID_CCD_IOB1E1, 0, 0, H(24)}, /* IOB1E1 */ | ||
5161 | { PCI_VENDOR_ID_CCD, PCI_DEVICE_ID_CCD_HFCE1, PCI_VENDOR_ID_CCD, | ||
5162 | PCI_SUBDEVICE_ID_CCD_HFCE1, 0, 0, H(25)}, /* E1 */ | ||
5163 | |||
5164 | { PCI_VENDOR_ID_PLX, PCI_DEVICE_ID_PLX_9030, PCI_VENDOR_ID_CCD, | ||
5165 | PCI_SUBDEVICE_ID_CCD_SPD4S, 0, 0, H(26)}, /* PLX PCI Bridge */ | ||
5166 | { PCI_VENDOR_ID_PLX, PCI_DEVICE_ID_PLX_9030, PCI_VENDOR_ID_CCD, | ||
5167 | PCI_SUBDEVICE_ID_CCD_SPDE1, 0, 0, H(27)}, /* PLX PCI Bridge */ | ||
5168 | { PCI_VENDOR_ID_CCD, PCI_DEVICE_ID_CCD_HFC4S, PCI_ANY_ID, PCI_ANY_ID, | ||
5169 | 0, 0, 0}, | ||
5170 | { PCI_VENDOR_ID_CCD, PCI_DEVICE_ID_CCD_HFC8S, PCI_ANY_ID, PCI_ANY_ID, | ||
5171 | 0, 0, 0}, | ||
5172 | { PCI_VENDOR_ID_CCD, PCI_DEVICE_ID_CCD_HFCE1, PCI_ANY_ID, PCI_ANY_ID, | ||
5173 | 0, 0, 0}, | ||
5174 | {0, } | ||
5175 | }; | ||
5176 | #undef H | ||
5177 | |||
5178 | MODULE_DEVICE_TABLE(pci, hfmultipci_ids); | ||
5179 | |||
5180 | static int | ||
5181 | hfcmulti_probe(struct pci_dev *pdev, const struct pci_device_id *ent) | ||
5182 | { | ||
5183 | struct hm_map *m = (struct hm_map *)ent->driver_data; | ||
5184 | int ret; | ||
5185 | |||
5186 | if (m == NULL) { | ||
5187 | if (ent->vendor == PCI_VENDOR_ID_CCD) | ||
5188 | if (ent->device == PCI_DEVICE_ID_CCD_HFC4S || | ||
5189 | ent->device == PCI_DEVICE_ID_CCD_HFC8S || | ||
5190 | ent->device == PCI_DEVICE_ID_CCD_HFCE1) | ||
5191 | printk(KERN_ERR | ||
5192 | "unknown HFC multiport controller " | ||
5193 | "(vendor:%x device:%x subvendor:%x " | ||
5194 | "subdevice:%x) Please contact the " | ||
5195 | "driver maintainer for support.\n", | ||
5196 | ent->vendor, ent->device, | ||
5197 | ent->subvendor, ent->subdevice); | ||
5198 | return -ENODEV; | ||
5199 | } | ||
5200 | ret = hfcmulti_init(pdev, ent); | ||
5201 | if (ret) | ||
5202 | return ret; | ||
5203 | HFC_cnt++; | ||
5204 | printk(KERN_INFO "%d devices registered\n", HFC_cnt); | ||
5205 | return 0; | ||
5206 | } | ||
5207 | |||
5208 | static struct pci_driver hfcmultipci_driver = { | ||
5209 | .name = "hfc_multi", | ||
5210 | .probe = hfcmulti_probe, | ||
5211 | .remove = __devexit_p(hfc_remove_pci), | ||
5212 | .id_table = hfmultipci_ids, | ||
5213 | }; | ||
5214 | |||
5215 | static void __exit | ||
5216 | HFCmulti_cleanup(void) | ||
5217 | { | ||
5218 | struct hfc_multi *card, *next; | ||
5219 | |||
5220 | /* unload interrupt function symbol */ | ||
5221 | if (hfc_interrupt) | ||
5222 | symbol_put(ztdummy_extern_interrupt); | ||
5223 | if (register_interrupt) | ||
5224 | symbol_put(ztdummy_register_interrupt); | ||
5225 | if (unregister_interrupt) { | ||
5226 | if (interrupt_registered) { | ||
5227 | interrupt_registered = 0; | ||
5228 | unregister_interrupt(); | ||
5229 | } | ||
5230 | symbol_put(ztdummy_unregister_interrupt); | ||
5231 | } | ||
5232 | |||
5233 | list_for_each_entry_safe(card, next, &HFClist, list) | ||
5234 | release_card(card); | ||
5235 | /* get rid of all devices of this driver */ | ||
5236 | pci_unregister_driver(&hfcmultipci_driver); | ||
5237 | } | ||
5238 | |||
5239 | static int __init | ||
5240 | HFCmulti_init(void) | ||
5241 | { | ||
5242 | int err; | ||
5243 | |||
5244 | #ifdef IRQ_DEBUG | ||
5245 | printk(KERN_ERR "%s: IRQ_DEBUG IS ENABLED!\n", __func__); | ||
5246 | #endif | ||
5247 | |||
5248 | spin_lock_init(&HFClock); | ||
5249 | spin_lock_init(&plx_lock); | ||
5250 | |||
5251 | if (debug & DEBUG_HFCMULTI_INIT) | ||
5252 | printk(KERN_DEBUG "%s: init entered\n", __func__); | ||
5253 | |||
5254 | #ifdef __BIG_ENDIAN | ||
5255 | #error "not running on big endian machines now" | ||
5256 | #endif | ||
5257 | hfc_interrupt = symbol_get(ztdummy_extern_interrupt); | ||
5258 | register_interrupt = symbol_get(ztdummy_register_interrupt); | ||
5259 | unregister_interrupt = symbol_get(ztdummy_unregister_interrupt); | ||
5260 | printk(KERN_INFO "mISDN: HFC-multi driver %s\n", | ||
5261 | hfcmulti_revision); | ||
5262 | |||
5263 | switch (poll) { | ||
5264 | case 0: | ||
5265 | poll_timer = 6; | ||
5266 | poll = 128; | ||
5267 | break; | ||
5268 | /* | ||
5269 | * wenn dieses break nochmal verschwindet, | ||
5270 | * gibt es heisse ohren :-) | ||
5271 | * "without the break you will get hot ears ???" | ||
5272 | */ | ||
5273 | case 8: | ||
5274 | poll_timer = 2; | ||
5275 | break; | ||
5276 | case 16: | ||
5277 | poll_timer = 3; | ||
5278 | break; | ||
5279 | case 32: | ||
5280 | poll_timer = 4; | ||
5281 | break; | ||
5282 | case 64: | ||
5283 | poll_timer = 5; | ||
5284 | break; | ||
5285 | case 128: | ||
5286 | poll_timer = 6; | ||
5287 | break; | ||
5288 | case 256: | ||
5289 | poll_timer = 7; | ||
5290 | break; | ||
5291 | default: | ||
5292 | printk(KERN_ERR | ||
5293 | "%s: Wrong poll value (%d).\n", __func__, poll); | ||
5294 | err = -EINVAL; | ||
5295 | return err; | ||
5296 | |||
5297 | } | ||
5298 | |||
5299 | err = pci_register_driver(&hfcmultipci_driver); | ||
5300 | if (err < 0) { | ||
5301 | printk(KERN_ERR "error registering pci driver: %x\n", err); | ||
5302 | if (hfc_interrupt) | ||
5303 | symbol_put(ztdummy_extern_interrupt); | ||
5304 | if (register_interrupt) | ||
5305 | symbol_put(ztdummy_register_interrupt); | ||
5306 | if (unregister_interrupt) { | ||
5307 | if (interrupt_registered) { | ||
5308 | interrupt_registered = 0; | ||
5309 | unregister_interrupt(); | ||
5310 | } | ||
5311 | symbol_put(ztdummy_unregister_interrupt); | ||
5312 | } | ||
5313 | return err; | ||
5314 | } | ||
5315 | return 0; | ||
5316 | } | ||
5317 | |||
5318 | |||
5319 | module_init(HFCmulti_init); | ||
5320 | module_exit(HFCmulti_cleanup); | ||