xref: /titanic_52/usr/src/uts/common/io/usb/clients/usbser/usbsacm/usbsacm.c (revision 9e37f2b5d225bd6428d62c06655138fc78fd1ac0)
1 /*
2  * CDDL HEADER START
3  *
4  * The contents of this file are subject to the terms of the
5  * Common Development and Distribution License (the "License").
6  * You may not use this file except in compliance with the License.
7  *
8  * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
9  * or http://www.opensolaris.org/os/licensing.
10  * See the License for the specific language governing permissions
11  * and limitations under the License.
12  *
13  * When distributing Covered Code, include this CDDL HEADER in each
14  * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
15  * If applicable, add the following below this CDDL HEADER, with the
16  * fields enclosed by brackets "[]" replaced with your own identifying
17  * information: Portions Copyright [yyyy] [name of copyright owner]
18  *
19  * CDDL HEADER END
20  */
21 
22 /*
23  * Copyright 2010 Sun Microsystems, Inc.  All rights reserved.
24  * Use is subject to license terms.
25  */
26 
27 /*
28  * USB Serial CDC ACM driver
29  *
30  * 1. General Concepts
31  * -------------------
32  *
33  * 1.1 Overview
34  * ------------
35  * This driver supports devices that comply with the USB Communication
36  * Device Class Abstract Control Model (USB CDC ACM) specification,
37  * which is available at http://www.usb.org. Given the broad nature
38  * of communication equipment, this driver supports the following
39  * types of devices:
40  *	+ Telecommunications devices: analog modems, mobile phones;
41  *	+ Networking devices: cable modems;
42  * Except the above mentioned acm devices, this driver also supports
43  * some devices which provide modem-like function and have pairs of
44  * bulk in/out pipes.
45  *
46  * There are three classes that make up the definition for communication
47  * devices: the Communication Device Class, the Communication Interface
48  * Class and the Data Interface Class. The Communication Device Class
49  * is a device level definition and is used by the host to properly
50  * identify a communication device that may present several different
51  * types of interfaces. The Communication Interface Class defines a
52  * general-purpose mechanism that can be used to enable all types of
53  * communication services on the Universal Serial Bus (USB). The Data
54  * Interface Class defines a general-purpose mechanism to enable bulk
55  * transfer on the USB when the data does not meet the requirements
56  * for any other class.
57  *
58  * 1.2 Interface Definitions
59  * -------------------------
60  * Communication Class Interface is used for device management and,
61  * optionally, call management. Device management includes the requests
62  * that manage the operational state of a device, the device responses,
63  * and event notifications. In Abstract Control Model, the device can
64  * provide an internal implementation of call management over the Data
65  * Class interface or the Communication Class interface.
66  *
67  * The Data Class defines a data interface as an interface with a class
68  * type of Data Class. Data transmission on a communication device is
69  * not restricted to interfaces using the Data Class. Rather, a data
70  * interface is used to transmit and/or receive data that is not
71  * defined by any other class. The data could be:
72  *	+ Some form of raw data from a communication line.
73  *	+ Legacy modem data.
74  *	+ Data using a proprietary format.
75  *
76  * 1.3 Endpoint Requirements
77  * -------------------------
78  * The Communication Class interface requires one endpoint, the management
79  * element. Optionally, it can have an additional endpoint, the notification
80  * element. The management element uses the default endpoint for all
81  * standard and Communication Class-specific requests. The notification
82  * element normally uses an interrupt endpoint.
83  *
84  * The type of endpoints belonging to a Data Class interface are restricted
85  * to bulk, and are expected to exist in pairs of the same type (one In and
86  * one Out).
87  *
88  * 1.4 ACM Function Characteristics
89  * --------------------------------
90  * With Abstract Control Model, the USB device understands standard
91  * V.25ter (AT) commands. The device contains a Datapump and micro-
92  * controller that handles the AT commands and relay controls. The
93  * device uses both a Data Class interface and a Communication Class.
94  * interface.
95  *
96  * A Communication Class interface of type Abstract Control Model will
97  * consist of a minimum of two pipes; one is used to implement the
98  * management element and the other to implement a notification element.
99  * In addition, the device can use two pipes to implement channels over
100  * which to carry unspecified data, typically over a Data Class interface.
101  *
102  * 1.5 ACM Serial Emulation
103  * ------------------------
104  * The Abstract Control Model can bridge the gap between legacy modem
105  * devices and USB devices. To support certain types of legacy applications,
106  * two problems need to be addressed. The first is supporting specific
107  * legacy control signals and state variables which are addressed
108  * directly by the various carrier modulation standards. To support these
109  * requirement, additional requests and notifications have been created.
110  * Please refer to macro, beginning with USB_CDC_REQ_* and
111  * USB_CDC_NOTIFICATION_*.
112  *
113  * The second significant item which is needed to bridge the gap between
114  * legacy modem designs and the Abstract Control Model is a means to
115  * multiplex call control (AT commands) on the Data Class interface.
116  * Legacy modem designs are limited by only supporting one channel for
117  * both "AT" commands and the actual data. To allow this type of
118  * functionality, the device must have a means to specify this limitation
119  * to the host.
120  *
121  * When describing this type of device, the Communication Class interface
122  * would still specify a Abstract Control Model, but call control would
123  * actually occur over the Data Class interface. To describe this
124  * particular characteristic, the Call Management Functional Descriptor
125  * would have bit D1 of bmCapabilities set.
126  *
127  * 1.6 Other Bulk In/Out Devices
128  * -----------------------------
129  * Some devices don't conform to USB CDC specification, but they provide
130  * modem-like function and have pairs of bulk in/out pipes. This driver
131  * supports this kind of device and exports term nodes by their pipes.
132  *
133  * 2. Implementation
134  * -----------------
135  *
136  * 2.1 Overview
137  * ------------
138  * It is a device-specific driver (DSD) working with USB generic serial
139  * driver (GSD). It implements the USB-to-serial device-specific driver
140  * interface (DSDI) which is offered by GSD. The interface is defined
141  * by ds_ops_t structure.
142  *
143  * 2.2 Port States
144  * ---------------
145  * For USB CDC ACM devices, this driver is attached to its interface,
146  * and exports one port for each interface. For other modem-like devices,
147  * this driver can dynamically find the ports in the current device,
148  * and export one port for each pair bulk in/out pipes. Each port can
149  * be operated independently.
150  *
151  * port_state:
152  *
153  *		attach_ports
154  *		    |
155  *		    |
156  *		    |
157  *		    v
158  *	    USBSACM_PORT_CLOSED
159  *		|	    ^
160  *		|	    |
161  *		V	    |
162  *	   open_port	close_port
163  *		|	    ^
164  *		|	    |
165  *		V	    |
166  *	      USBSACM_PORT_OPEN
167  *
168  *
169  * 2.3 Pipe States
170  * ---------------
171  * Each port has its own bulk in/out pipes and some ports could also have
172  * its own interrupt pipes (traced by usbsacm_port structure), which are
173  * opened during attach. The pipe status is as following:
174  *
175  * pipe_state:
176  *
177  *		usbsacm_init_alloc_ports  usbsacm_free_ports
178  *				|		^
179  *				v		|
180  *		  |---->------ USBSACM_PORT_CLOSED ------>------+
181  *		  ^						|
182  *		  |				reconnect/resume/open_port
183  *		  |						|
184  *    disconnect/suspend/close_port				|
185  *		  |						v
186  *		  +------<------ USBSACM_PIPE_IDLE ------<------|
187  *				    |		|
188  *				    V		^
189  *				    |		|
190  *		  +-----------------+		+-----------+
191  *		  |					    |
192  *		  V					    ^
193  *		  |					    |
194  *	rx_start/tx_start----->------failed------->---------|
195  *		  |					    |
196  *		  |				bulkin_cb/bulkout_cb
197  *		  V					    |
198  *		  |					    ^
199  *		  |					    |
200  *		  +----->----- USBSACM_PIPE_BUSY ---->------+
201  *
202  *
203  * To get its status in a timely way, acm driver can get the status
204  * of the device by polling the interrupt pipe.
205  *
206  */
207 
208 #include <sys/types.h>
209 #include <sys/param.h>
210 #include <sys/conf.h>
211 #include <sys/stream.h>
212 #include <sys/strsun.h>
213 #include <sys/termio.h>
214 #include <sys/termiox.h>
215 #include <sys/ddi.h>
216 #include <sys/sunddi.h>
217 #include <sys/byteorder.h>
218 #define	USBDRV_MAJOR_VER	2
219 #define	USBDRV_MINOR_VER	0
220 #include <sys/usb/usba.h>
221 #include <sys/usb/usba/usba_types.h>
222 #include <sys/usb/clients/usbser/usbser.h>
223 #include <sys/usb/clients/usbser/usbser_dsdi.h>
224 #include <sys/usb/clients/usbcdc/usb_cdc.h>
225 #include <sys/usb/clients/usbser/usbsacm/usbsacm.h>
226 
227 /* devops entry points */
228 static int	usbsacm_attach(dev_info_t *, ddi_attach_cmd_t);
229 static int	usbsacm_detach(dev_info_t *, ddi_detach_cmd_t);
230 static int	usbsacm_getinfo(dev_info_t *, ddi_info_cmd_t, void *,
231 		void **);
232 static int	usbsacm_open(queue_t *, dev_t *, int, int, cred_t *);
233 
234 /* DSD operations */
235 static int	usbsacm_ds_attach(ds_attach_info_t *);
236 static void	usbsacm_ds_detach(ds_hdl_t);
237 static int	usbsacm_ds_register_cb(ds_hdl_t, uint_t, ds_cb_t *);
238 static void	usbsacm_ds_unregister_cb(ds_hdl_t, uint_t);
239 static int	usbsacm_ds_open_port(ds_hdl_t, uint_t);
240 static int	usbsacm_ds_close_port(ds_hdl_t, uint_t);
241 
242 /* standard UART operations */
243 static int	usbsacm_ds_set_port_params(ds_hdl_t, uint_t,
244 		ds_port_params_t *);
245 static int	usbsacm_ds_set_modem_ctl(ds_hdl_t, uint_t, int, int);
246 static int	usbsacm_ds_get_modem_ctl(ds_hdl_t, uint_t, int, int *);
247 static int	usbsacm_ds_break_ctl(ds_hdl_t, uint_t, int);
248 
249 /* data xfer */
250 static int	usbsacm_ds_tx(ds_hdl_t, uint_t, mblk_t *);
251 static mblk_t	*usbsacm_ds_rx(ds_hdl_t, uint_t);
252 static void	usbsacm_ds_stop(ds_hdl_t, uint_t, int);
253 static void	usbsacm_ds_start(ds_hdl_t, uint_t, int);
254 
255 /* fifo operations */
256 static int	usbsacm_ds_fifo_flush(ds_hdl_t, uint_t, int);
257 static int	usbsacm_ds_fifo_drain(ds_hdl_t, uint_t, int);
258 static int	usbsacm_wait_tx_drain(usbsacm_port_t *, int);
259 static int	usbsacm_fifo_flush_locked(usbsacm_state_t *, uint_t, int);
260 
261 /* power management and CPR */
262 static int	usbsacm_ds_suspend(ds_hdl_t);
263 static int	usbsacm_ds_resume(ds_hdl_t);
264 static int	usbsacm_ds_disconnect(ds_hdl_t);
265 static int	usbsacm_ds_reconnect(ds_hdl_t);
266 static int	usbsacm_ds_usb_power(ds_hdl_t, int, int, int *);
267 static int	usbsacm_create_pm_components(usbsacm_state_t *);
268 static void	usbsacm_destroy_pm_components(usbsacm_state_t *);
269 static void	usbsacm_pm_set_busy(usbsacm_state_t *);
270 static void	usbsacm_pm_set_idle(usbsacm_state_t *);
271 static int	usbsacm_pwrlvl0(usbsacm_state_t *);
272 static int	usbsacm_pwrlvl1(usbsacm_state_t *);
273 static int	usbsacm_pwrlvl2(usbsacm_state_t *);
274 static int	usbsacm_pwrlvl3(usbsacm_state_t *);
275 
276 /* event handling */
277 /* pipe callbacks */
278 static void	usbsacm_bulkin_cb(usb_pipe_handle_t, usb_bulk_req_t *);
279 static void	usbsacm_bulkout_cb(usb_pipe_handle_t, usb_bulk_req_t *);
280 
281 /* interrupt pipe */
282 static void	usbsacm_pipe_start_polling(usbsacm_port_t *acmp);
283 static void	usbsacm_intr_cb(usb_pipe_handle_t ph, usb_intr_req_t *req);
284 static void	usbsacm_intr_ex_cb(usb_pipe_handle_t ph, usb_intr_req_t *req);
285 static void	usbsacm_parse_intr_data(usbsacm_port_t *acmp, mblk_t *data);
286 
287 /* Utility functions */
288 /* data transfer routines */
289 static int	usbsacm_rx_start(usbsacm_port_t *);
290 static void	usbsacm_tx_start(usbsacm_port_t *);
291 static int	usbsacm_send_data(usbsacm_port_t *, mblk_t *);
292 
293 /* Initialize or release resources */
294 static int	usbsacm_init_alloc_ports(usbsacm_state_t *);
295 static void	usbsacm_free_ports(usbsacm_state_t *);
296 static void	usbsacm_cleanup(usbsacm_state_t *);
297 
298 /* analysis functional descriptors */
299 static int	usbsacm_get_descriptors(usbsacm_state_t *);
300 
301 /* hotplug */
302 static int	usbsacm_restore_device_state(usbsacm_state_t *);
303 static int	usbsacm_restore_port_state(usbsacm_state_t *);
304 
305 /* pipe operations */
306 static int	usbsacm_open_port_pipes(usbsacm_port_t *);
307 static void	usbsacm_close_port_pipes(usbsacm_port_t *);
308 static void	usbsacm_close_pipes(usbsacm_state_t *);
309 static void	usbsacm_disconnect_pipes(usbsacm_state_t *);
310 static int	usbsacm_reconnect_pipes(usbsacm_state_t *);
311 
312 /* vendor-specific commands */
313 static int	usbsacm_req_write(usbsacm_port_t *, uchar_t, uint16_t,
314 		mblk_t **);
315 static int	usbsacm_set_line_coding(usbsacm_port_t *,
316 		usb_cdc_line_coding_t *);
317 static void	usbsacm_mctl2reg(int mask, int val, uint8_t *);
318 static int	usbsacm_reg2mctl(uint8_t);
319 
320 /* misc */
321 static void	usbsacm_put_tail(mblk_t **, mblk_t *);
322 static void	usbsacm_put_head(mblk_t **, mblk_t *);
323 
324 
325 /*
326  * Standard STREAMS driver definitions
327  */
328 struct module_info usbsacm_modinfo = {
329 	0,			/* module id */
330 	"usbsacm",		/* module name */
331 	USBSER_MIN_PKTSZ,	/* min pkt size */
332 	USBSER_MAX_PKTSZ,	/* max pkt size */
333 	USBSER_HIWAT,		/* hi watermark */
334 	USBSER_LOWAT		/* low watermark */
335 };
336 
337 static struct qinit usbsacm_rinit = {
338 	NULL,
339 	usbser_rsrv,
340 	usbsacm_open,
341 	usbser_close,
342 	NULL,
343 	&usbsacm_modinfo,
344 	NULL
345 };
346 
347 static struct qinit usbsacm_winit = {
348 	usbser_wput,
349 	usbser_wsrv,
350 	NULL,
351 	NULL,
352 	NULL,
353 	&usbsacm_modinfo,
354 	NULL
355 };
356 
357 
358 struct streamtab usbsacm_str_info = {
359 	&usbsacm_rinit, &usbsacm_winit, NULL, NULL
360 };
361 
362 /* cb_ops structure */
363 static struct cb_ops usbsacm_cb_ops = {
364 	nodev,			/* cb_open */
365 	nodev,			/* cb_close */
366 	nodev,			/* cb_strategy */
367 	nodev,			/* cb_print */
368 	nodev,			/* cb_dump */
369 	nodev,			/* cb_read */
370 	nodev,			/* cb_write */
371 	nodev,			/* cb_ioctl */
372 	nodev,			/* cb_devmap */
373 	nodev,			/* cb_mmap */
374 	nodev,			/* cb_segmap */
375 	nochpoll,		/* cb_chpoll */
376 	ddi_prop_op,		/* cb_prop_op */
377 	&usbsacm_str_info,	/* cb_stream */
378 	(int)(D_64BIT | D_NEW | D_MP | D_HOTPLUG)	/* cb_flag */
379 };
380 
381 /* dev_ops structure */
382 struct dev_ops usbsacm_ops = {
383 	DEVO_REV,		/* devo_rev */
384 	0,			/* devo_refcnt */
385 	usbsacm_getinfo,	/* devo_getinfo */
386 	nulldev,		/* devo_identify */
387 	nulldev,		/* devo_probe */
388 	usbsacm_attach,		/* devo_attach */
389 	usbsacm_detach,		/* devo_detach */
390 	nodev,			/* devo_reset */
391 	&usbsacm_cb_ops,	/* devo_cb_ops */
392 	(struct bus_ops *)NULL,	/* devo_bus_ops */
393 	usbser_power,		/* devo_power */
394 	ddi_quiesce_not_needed,	/* devo_quiesce */
395 };
396 
397 extern struct mod_ops mod_driverops;
398 /* modldrv structure */
399 static struct modldrv modldrv = {
400 	&mod_driverops,		/* type of module - driver */
401 	"USB Serial CDC ACM driver",
402 	&usbsacm_ops,
403 };
404 
405 /* modlinkage structure */
406 static struct modlinkage modlinkage = {
407 	MODREV_1,
408 	&modldrv,
409 	NULL
410 };
411 
412 static void	*usbsacm_statep;	/* soft state */
413 
414 /*
415  * DSD definitions
416  */
417 static ds_ops_t usbsacm_ds_ops = {
418 	DS_OPS_VERSION,
419 	usbsacm_ds_attach,
420 	usbsacm_ds_detach,
421 	usbsacm_ds_register_cb,
422 	usbsacm_ds_unregister_cb,
423 	usbsacm_ds_open_port,
424 	usbsacm_ds_close_port,
425 	usbsacm_ds_usb_power,
426 	usbsacm_ds_suspend,
427 	usbsacm_ds_resume,
428 	usbsacm_ds_disconnect,
429 	usbsacm_ds_reconnect,
430 	usbsacm_ds_set_port_params,
431 	usbsacm_ds_set_modem_ctl,
432 	usbsacm_ds_get_modem_ctl,
433 	usbsacm_ds_break_ctl,
434 	NULL,			/* NULL if h/w doesn't support loopback */
435 	usbsacm_ds_tx,
436 	usbsacm_ds_rx,
437 	usbsacm_ds_stop,
438 	usbsacm_ds_start,
439 	usbsacm_ds_fifo_flush,
440 	usbsacm_ds_fifo_drain
441 };
442 
443 /*
444  * baud code -> baud rate (0 means unsupported rate)
445  */
446 static int usbsacm_speedtab[] = {
447 	0,	/* B0 */
448 	50,	/* B50 */
449 	75,	/* B75 */
450 	110,	/* B110 */
451 	134,	/* B134 */
452 	150,	/* B150 */
453 	200,	/* B200 */
454 	300,	/* B300 */
455 	600,	/* B600 */
456 	1200,	/* B1200 */
457 	1800,	/* B1800 */
458 	2400,	/* B2400 */
459 	4800,	/* B4800 */
460 	9600,	/* B9600 */
461 	19200,	/* B19200 */
462 	38400,	/* B38400 */
463 	57600,	/* B57600 */
464 	76800,	/* B76800 */
465 	115200,	/* B115200 */
466 	153600,	/* B153600 */
467 	230400,	/* B230400 */
468 	307200,	/* B307200 */
469 	460800,	/* B460800 */
470 	921600	/* B921600 */
471 };
472 
473 
474 static uint_t	usbsacm_errlevel = USB_LOG_L4;
475 static uint_t	usbsacm_errmask = 0xffffffff;
476 static uint_t	usbsacm_instance_debug = (uint_t)-1;
477 
478 
479 /*
480  * usbsacm driver's entry points
481  * -----------------------------
482  */
483 /*
484  * Module-wide initialization routine.
485  */
486 int
487 _init(void)
488 {
489 	int    error;
490 
491 	if ((error = mod_install(&modlinkage)) == 0) {
492 
493 		error = ddi_soft_state_init(&usbsacm_statep,
494 		    usbser_soft_state_size(), 1);
495 	}
496 
497 	return (error);
498 }
499 
500 
501 /*
502  * Module-wide tear-down routine.
503  */
504 int
505 _fini(void)
506 {
507 	int    error;
508 
509 	if ((error = mod_remove(&modlinkage)) == 0) {
510 		ddi_soft_state_fini(&usbsacm_statep);
511 	}
512 
513 	return (error);
514 }
515 
516 
517 int
518 _info(struct modinfo *modinfop)
519 {
520 	return (mod_info(&modlinkage, modinfop));
521 }
522 
523 
524 /*
525  * Device configuration entry points
526  */
527 static int
528 usbsacm_attach(dev_info_t *dip, ddi_attach_cmd_t cmd)
529 {
530 	return (usbser_attach(dip, cmd, usbsacm_statep, &usbsacm_ds_ops));
531 }
532 
533 
534 static int
535 usbsacm_detach(dev_info_t *dip, ddi_detach_cmd_t cmd)
536 {
537 	return (usbser_detach(dip, cmd, usbsacm_statep));
538 }
539 
540 
541 int
542 usbsacm_getinfo(dev_info_t *dip, ddi_info_cmd_t infocmd, void *arg,
543 		void **result)
544 {
545 	return (usbser_getinfo(dip, infocmd, arg, result, usbsacm_statep));
546 }
547 
548 
549 static int
550 usbsacm_open(queue_t *rq, dev_t *dev, int flag, int sflag, cred_t *cr)
551 {
552 	return (usbser_open(rq, dev, flag, sflag, cr, usbsacm_statep));
553 }
554 
555 /*
556  * usbsacm_ds_detach:
557  *	attach device instance, called from GSD attach
558  *	initialize state and device, including:
559  *		state variables, locks, device node
560  *		device registration with system
561  *		power management
562  */
563 static int
564 usbsacm_ds_attach(ds_attach_info_t *aip)
565 {
566 	usbsacm_state_t	*acmp;
567 
568 	acmp = (usbsacm_state_t *)kmem_zalloc(sizeof (usbsacm_state_t),
569 	    KM_SLEEP);
570 	acmp->acm_dip = aip->ai_dip;
571 	acmp->acm_usb_events = aip->ai_usb_events;
572 	acmp->acm_ports = NULL;
573 	*aip->ai_hdl = (ds_hdl_t)acmp;
574 
575 	/* registers usbsacm with the USBA framework */
576 	if (usb_client_attach(acmp->acm_dip, USBDRV_VERSION,
577 	    0) != USB_SUCCESS) {
578 
579 		goto fail;
580 	}
581 
582 	/* Get the configuration information of device */
583 	if (usb_get_dev_data(acmp->acm_dip, &acmp->acm_dev_data,
584 	    USB_PARSE_LVL_CFG, 0) != USB_SUCCESS) {
585 
586 		goto fail;
587 	}
588 	acmp->acm_def_ph = acmp->acm_dev_data->dev_default_ph;
589 	acmp->acm_dev_state = USB_DEV_ONLINE;
590 	mutex_init(&acmp->acm_mutex, NULL, MUTEX_DRIVER,
591 	    acmp->acm_dev_data->dev_iblock_cookie);
592 
593 	acmp->acm_lh = usb_alloc_log_hdl(acmp->acm_dip, "usbsacm",
594 	    &usbsacm_errlevel, &usbsacm_errmask, &usbsacm_instance_debug, 0);
595 
596 	/* Create power management components */
597 	if (usbsacm_create_pm_components(acmp) != USB_SUCCESS) {
598 		USB_DPRINTF_L2(PRINT_MASK_ATTA, acmp->acm_lh,
599 		    "usbsacm_ds_attach: create pm components failed.");
600 
601 		goto fail;
602 	}
603 
604 	/* Register to get callbacks for USB events */
605 	if (usb_register_event_cbs(acmp->acm_dip, acmp->acm_usb_events, 0)
606 	    != USB_SUCCESS) {
607 		USB_DPRINTF_L2(PRINT_MASK_ATTA, acmp->acm_lh,
608 		    "usbsacm_ds_attach: register event callback failed.");
609 
610 		goto fail;
611 	}
612 
613 	/*
614 	 * If devices conform to acm spec, driver will attach using class id;
615 	 * if not, using device id.
616 	 */
617 	if ((strcmp(DEVI(acmp->acm_dip)->devi_binding_name,
618 	    "usbif,class2.2") == 0) ||
619 	    ((strcmp(DEVI(acmp->acm_dip)->devi_binding_name,
620 	    "usb,class2.2.0") == 0))) {
621 
622 		acmp->acm_compatibility = B_TRUE;
623 	} else {
624 		USB_DPRINTF_L2(PRINT_MASK_ATTA, acmp->acm_lh,
625 		    "usbsacm_ds_attach: A nonstandard device is attaching to "
626 		    "usbsacm driver. This device doesn't conform to "
627 		    "usb cdc spec.");
628 
629 		acmp->acm_compatibility = B_FALSE;
630 	}
631 
632 	/* initialize state variables */
633 	if (usbsacm_init_alloc_ports(acmp) != USB_SUCCESS) {
634 		USB_DPRINTF_L2(PRINT_MASK_ATTA, acmp->acm_lh,
635 		    "usbsacm_ds_attach: initialize port structure failed.");
636 
637 		goto fail;
638 	}
639 	*aip->ai_port_cnt = acmp->acm_port_cnt;
640 
641 	/* Get max data size of bulk transfer */
642 	if (usb_pipe_get_max_bulk_transfer_size(acmp->acm_dip,
643 	    &acmp->acm_xfer_sz) != USB_SUCCESS) {
644 		USB_DPRINTF_L2(PRINT_MASK_ATTA, acmp->acm_lh,
645 		    "usbsacm_ds_attach: get max size of transfer failed.");
646 
647 		goto fail;
648 	}
649 
650 	return (USB_SUCCESS);
651 fail:
652 	usbsacm_cleanup(acmp);
653 
654 	return (USB_FAILURE);
655 }
656 
657 
658 /*
659  * usbsacm_ds_detach:
660  *	detach device instance, called from GSD detach
661  */
662 static void
663 usbsacm_ds_detach(ds_hdl_t hdl)
664 {
665 	usbsacm_state_t	*acmp = (usbsacm_state_t *)hdl;
666 
667 	USB_DPRINTF_L4(PRINT_MASK_CLOSE, acmp->acm_lh,
668 	    "usbsacm_ds_detach:");
669 
670 	usbsacm_close_pipes(acmp);
671 	usbsacm_cleanup(acmp);
672 }
673 
674 
675 /*
676  * usbsacm_ds_register_cb:
677  *	GSD routine call ds_register_cb to register interrupt callbacks
678  *	for the given port
679  */
680 /*ARGSUSED*/
681 static int
682 usbsacm_ds_register_cb(ds_hdl_t hdl, uint_t port_num, ds_cb_t *cb)
683 {
684 	usbsacm_state_t	*acmp = (usbsacm_state_t *)hdl;
685 	usbsacm_port_t	*acm_port;
686 
687 	USB_DPRINTF_L4(PRINT_MASK_OPEN, acmp->acm_lh,
688 	    "usbsacm_ds_register_cb: acmp = 0x%p port_num = %d",
689 	    (void *)acmp, port_num);
690 
691 	/* Check if port number is greater than actual port number. */
692 	if (port_num >= acmp->acm_port_cnt) {
693 		USB_DPRINTF_L2(PRINT_MASK_ATTA, acmp->acm_lh,
694 		    "usbsacm_ds_register_cb: port number is wrong.");
695 
696 		return (USB_FAILURE);
697 	}
698 	acm_port = &acmp->acm_ports[port_num];
699 	acm_port->acm_cb = *cb;
700 
701 	return (USB_SUCCESS);
702 }
703 
704 
705 /*
706  * usbsacm_ds_unregister_cb:
707  *	GSD routine call ds_unregister_cb to unregister
708  *	interrupt callbacks for the given port
709  */
710 /*ARGSUSED*/
711 static void
712 usbsacm_ds_unregister_cb(ds_hdl_t hdl, uint_t port_num)
713 {
714 	usbsacm_state_t	*acmp = (usbsacm_state_t *)hdl;
715 	usbsacm_port_t	*acm_port;
716 
717 	USB_DPRINTF_L4(PRINT_MASK_CLOSE, acmp->acm_lh,
718 	    "usbsacm_ds_unregister_cb: ");
719 
720 	if (port_num < acmp->acm_port_cnt) {
721 		/* Release callback function */
722 		acm_port = &acmp->acm_ports[port_num];
723 		bzero(&acm_port->acm_cb, sizeof (acm_port->acm_cb));
724 	}
725 }
726 
727 
728 /*
729  * usbsacm_ds_open_port:
730  *	GSD routine call ds_open_port
731  *	to open the given port
732  */
733 /*ARGSUSED*/
734 static int
735 usbsacm_ds_open_port(ds_hdl_t hdl, uint_t port_num)
736 {
737 	usbsacm_state_t	*acmp = (usbsacm_state_t *)hdl;
738 	usbsacm_port_t	*acm_port = &acmp->acm_ports[port_num];
739 
740 	USB_DPRINTF_L4(PRINT_MASK_OPEN, acmp->acm_lh,
741 	    "usbsacm_ds_open_port: port_num = %d", port_num);
742 
743 	mutex_enter(&acm_port->acm_port_mutex);
744 	/* Check the status of the given port and device */
745 	if ((acmp->acm_dev_state == USB_DEV_DISCONNECTED) ||
746 	    (acm_port->acm_port_state != USBSACM_PORT_CLOSED)) {
747 		mutex_exit(&acm_port->acm_port_mutex);
748 
749 		return (USB_FAILURE);
750 	}
751 	mutex_exit(&acm_port->acm_port_mutex);
752 
753 	usbsacm_pm_set_busy(acmp);
754 
755 	/* open pipes of port */
756 	if (usbsacm_open_port_pipes(acm_port) != USB_SUCCESS) {
757 		USB_DPRINTF_L2(PRINT_MASK_OPEN, acmp->acm_lh,
758 		    "usbsacm_ds_open_port: open pipes failed.");
759 
760 		return (USB_FAILURE);
761 	}
762 
763 	mutex_enter(&acm_port->acm_port_mutex);
764 	/* data receipt */
765 	if (usbsacm_rx_start(acm_port) != USB_SUCCESS) {
766 		USB_DPRINTF_L2(PRINT_MASK_OPEN, acmp->acm_lh,
767 		    "usbsacm_ds_open_port: start receive data failed.");
768 		mutex_exit(&acm_port->acm_port_mutex);
769 
770 		return (USB_FAILURE);
771 	}
772 	acm_port->acm_port_state = USBSACM_PORT_OPEN;
773 
774 	mutex_exit(&acm_port->acm_port_mutex);
775 
776 	return (USB_SUCCESS);
777 }
778 
779 
780 /*
781  * usbsacm_ds_close_port:
782  *	GSD routine call ds_close_port
783  *	to close the given port
784  */
785 /*ARGSUSED*/
786 static int
787 usbsacm_ds_close_port(ds_hdl_t hdl, uint_t port_num)
788 {
789 	usbsacm_state_t	*acmp = (usbsacm_state_t *)hdl;
790 	usbsacm_port_t	*acm_port = &acmp->acm_ports[port_num];
791 	int		rval = USB_SUCCESS;
792 
793 	USB_DPRINTF_L4(PRINT_MASK_CLOSE, acmp->acm_lh,
794 	    "usbsacm_ds_close_port: acmp = 0x%p", (void *)acmp);
795 
796 	mutex_enter(&acm_port->acm_port_mutex);
797 	acm_port->acm_port_state = USBSACM_PORT_CLOSED;
798 	mutex_exit(&acm_port->acm_port_mutex);
799 
800 	usbsacm_close_port_pipes(acm_port);
801 
802 	mutex_enter(&acm_port->acm_port_mutex);
803 	rval = usbsacm_fifo_flush_locked(acmp, port_num, DS_TX | DS_RX);
804 	mutex_exit(&acm_port->acm_port_mutex);
805 
806 	usbsacm_pm_set_idle(acmp);
807 
808 	return (rval);
809 }
810 
811 
812 /*
813  * usbsacm_ds_usb_power:
814  *	GSD routine call ds_usb_power
815  *	to set power level of the component
816  */
817 /*ARGSUSED*/
818 static int
819 usbsacm_ds_usb_power(ds_hdl_t hdl, int comp, int level, int *new_state)
820 {
821 	usbsacm_state_t	*acmp = (usbsacm_state_t *)hdl;
822 	usbsacm_pm_t	*pm = acmp->acm_pm;
823 	int		rval = USB_SUCCESS;
824 
825 	USB_DPRINTF_L4(PRINT_MASK_PM, acmp->acm_lh,
826 	    "usbsacm_ds_usb_power: ");
827 
828 	/* check if pm is NULL */
829 	if (pm == NULL) {
830 		USB_DPRINTF_L2(PRINT_MASK_PM, acmp->acm_lh,
831 		    "usbsacm_ds_usb_power: pm is NULL.");
832 
833 		return (USB_FAILURE);
834 	}
835 
836 	mutex_enter(&acmp->acm_mutex);
837 	/*
838 	 * check if we are transitioning to a legal power level
839 	 */
840 	if (USB_DEV_PWRSTATE_OK(pm->pm_pwr_states, level)) {
841 		USB_DPRINTF_L2(PRINT_MASK_PM, acmp->acm_lh,
842 		    "usbsacm_ds_usb_power: "
843 		    "illegal power level %d, pwr_states=%x",
844 		    level, pm->pm_pwr_states);
845 		mutex_exit(&acmp->acm_mutex);
846 
847 		return (USB_FAILURE);
848 	}
849 
850 	/*
851 	 * if we are about to raise power and asked to lower power, fail
852 	 */
853 	if (pm->pm_raise_power && (level < (int)pm->pm_cur_power)) {
854 		USB_DPRINTF_L2(PRINT_MASK_PM, acmp->acm_lh,
855 		    "usbsacm_ds_usb_power: wrong condition.");
856 		mutex_exit(&acmp->acm_mutex);
857 
858 		return (USB_FAILURE);
859 	}
860 
861 	/*
862 	 * Set the power status of device by request level.
863 	 */
864 	switch (level) {
865 	case USB_DEV_OS_PWR_OFF:
866 		rval = usbsacm_pwrlvl0(acmp);
867 
868 		break;
869 	case USB_DEV_OS_PWR_1:
870 		rval = usbsacm_pwrlvl1(acmp);
871 
872 		break;
873 	case USB_DEV_OS_PWR_2:
874 		rval = usbsacm_pwrlvl2(acmp);
875 
876 		break;
877 	case USB_DEV_OS_FULL_PWR:
878 		rval = usbsacm_pwrlvl3(acmp);
879 		/*
880 		 * If usbser dev_state is DISCONNECTED or SUSPENDED, it shows
881 		 * that the usb serial device is disconnected/suspended while it
882 		 * is under power down state, now the device is powered up
883 		 * before it is reconnected/resumed. xxx_pwrlvl3() will set dev
884 		 * state to ONLINE, we need to set the dev state back to
885 		 * DISCONNECTED/SUSPENDED.
886 		 */
887 		if ((rval == USB_SUCCESS) &&
888 		    ((*new_state == USB_DEV_DISCONNECTED) ||
889 		    (*new_state == USB_DEV_SUSPENDED))) {
890 			acmp->acm_dev_state = *new_state;
891 		}
892 
893 		break;
894 	}
895 
896 	*new_state = acmp->acm_dev_state;
897 	mutex_exit(&acmp->acm_mutex);
898 
899 	return (rval);
900 }
901 
902 
903 /*
904  * usbsacm_ds_suspend:
905  *	GSD routine call ds_suspend
906  *	during CPR suspend
907  */
908 static int
909 usbsacm_ds_suspend(ds_hdl_t hdl)
910 {
911 	usbsacm_state_t	*acmp = (usbsacm_state_t *)hdl;
912 	int		state = USB_DEV_SUSPENDED;
913 
914 	USB_DPRINTF_L4(PRINT_MASK_PM, acmp->acm_lh,
915 	    "usbsacm_ds_suspend: ");
916 	/*
917 	 * If the device is suspended while it is under PWRED_DOWN state, we
918 	 * need to keep the PWRED_DOWN state so that it could be powered up
919 	 * later. In the mean while, usbser dev state will be changed to
920 	 * SUSPENDED state.
921 	 */
922 	mutex_enter(&acmp->acm_mutex);
923 	if (acmp->acm_dev_state != USB_DEV_PWRED_DOWN) {
924 		/* set device status to suspend */
925 		acmp->acm_dev_state = USB_DEV_SUSPENDED;
926 	}
927 	mutex_exit(&acmp->acm_mutex);
928 
929 	usbsacm_disconnect_pipes(acmp);
930 
931 	return (state);
932 }
933 
934 /*
935  * usbsacm_ds_resume:
936  *	GSD routine call ds_resume
937  *	during CPR resume
938  */
939 /*ARGSUSED*/
940 static int
941 usbsacm_ds_resume(ds_hdl_t hdl)
942 {
943 	usbsacm_state_t	*acmp = (usbsacm_state_t *)hdl;
944 	int		current_state;
945 	int		ret;
946 
947 	USB_DPRINTF_L4(PRINT_MASK_PM, acmp->acm_lh,
948 	    "usbsacm_ds_resume: ");
949 
950 	mutex_enter(&acmp->acm_mutex);
951 	current_state = acmp->acm_dev_state;
952 	mutex_exit(&acmp->acm_mutex);
953 
954 	/* restore the status of device */
955 	if (current_state != USB_DEV_ONLINE) {
956 		ret = usbsacm_restore_device_state(acmp);
957 	} else {
958 		ret = USB_DEV_ONLINE;
959 	}
960 
961 	return (ret);
962 }
963 
964 /*
965  * usbsacm_ds_disconnect:
966  *	GSD routine call ds_disconnect
967  *	to disconnect USB device
968  */
969 static int
970 usbsacm_ds_disconnect(ds_hdl_t hdl)
971 {
972 	usbsacm_state_t	*acmp = (usbsacm_state_t *)hdl;
973 	int		state = USB_DEV_DISCONNECTED;
974 
975 	USB_DPRINTF_L4(PRINT_MASK_CLOSE, acmp->acm_lh,
976 	    "usbsacm_ds_disconnect: ");
977 
978 	/*
979 	 * If the device is disconnected while it is under PWRED_DOWN state, we
980 	 * need to keep the PWRED_DOWN state so that it could be powered up
981 	 * later. In the mean while, usbser dev state will be changed to
982 	 * DISCONNECTED state.
983 	 */
984 	mutex_enter(&acmp->acm_mutex);
985 	if (acmp->acm_dev_state != USB_DEV_PWRED_DOWN) {
986 		/* set device status to disconnected */
987 		acmp->acm_dev_state = USB_DEV_DISCONNECTED;
988 	}
989 	mutex_exit(&acmp->acm_mutex);
990 
991 	usbsacm_disconnect_pipes(acmp);
992 
993 	return (state);
994 }
995 
996 
997 /*
998  * usbsacm_ds_reconnect:
999  *	GSD routine call ds_reconnect
1000  *	to reconnect USB device
1001  */
1002 /*ARGSUSED*/
1003 static int
1004 usbsacm_ds_reconnect(ds_hdl_t hdl)
1005 {
1006 	usbsacm_state_t	*acmp = (usbsacm_state_t *)hdl;
1007 
1008 	USB_DPRINTF_L4(PRINT_MASK_OPEN, acmp->acm_lh,
1009 	    "usbsacm_ds_reconnect: ");
1010 
1011 	return (usbsacm_restore_device_state(acmp));
1012 }
1013 
1014 
1015 /*
1016  * usbsacm_ds_set_port_params:
1017  *	GSD routine call ds_set_port_params
1018  *	to set one or more port parameters
1019  */
1020 /*ARGSUSED*/
1021 static int
1022 usbsacm_ds_set_port_params(ds_hdl_t hdl, uint_t port_num, ds_port_params_t *tp)
1023 {
1024 	usbsacm_state_t	*acmp = (usbsacm_state_t *)hdl;
1025 	usbsacm_port_t	*acm_port = &acmp->acm_ports[port_num];
1026 	int		i;
1027 	uint_t		ui;
1028 	ds_port_param_entry_t *pe;
1029 	usb_cdc_line_coding_t lc;
1030 	int		ret;
1031 
1032 	USB_DPRINTF_L4(PRINT_MASK_ALL, acmp->acm_lh,
1033 	    "usbsacm_ds_set_port_params: acmp = 0x%p", (void *)acmp);
1034 
1035 	mutex_enter(&acm_port->acm_port_mutex);
1036 	/*
1037 	 * If device conform to acm spec, check if it support to set port param.
1038 	 */
1039 	if ((acm_port->acm_cap & USB_CDC_ACM_CAP_SERIAL_LINE) == 0 &&
1040 	    acmp->acm_compatibility == B_TRUE) {
1041 
1042 		mutex_exit(&acm_port->acm_port_mutex);
1043 		USB_DPRINTF_L2(PRINT_MASK_ALL, acmp->acm_lh,
1044 		    "usbsacm_ds_set_port_params: "
1045 		    "don't support Set_Line_Coding.");
1046 
1047 		return (USB_FAILURE);
1048 	}
1049 
1050 	lc = acm_port->acm_line_coding;
1051 	mutex_exit(&acm_port->acm_port_mutex);
1052 	pe = tp->tp_entries;
1053 	/* Get parameter information from ds_port_params_t */
1054 	for (i = 0; i < tp->tp_cnt; i++, pe++) {
1055 		switch (pe->param) {
1056 		case DS_PARAM_BAUD:
1057 			/* Data terminal rate, in bits per second. */
1058 			ui = pe->val.ui;
1059 
1060 			/* if we don't support this speed, return USB_FAILURE */
1061 			if ((ui >= NELEM(usbsacm_speedtab)) ||
1062 			    ((ui > 0) && (usbsacm_speedtab[ui] == 0))) {
1063 				USB_DPRINTF_L2(PRINT_MASK_EVENTS, acmp->acm_lh,
1064 				    "usbsacm_ds_set_port_params: "
1065 				    " error baud rate");
1066 
1067 				return (USB_FAILURE);
1068 			}
1069 			lc.dwDTERate = LE_32(usbsacm_speedtab[ui]);
1070 
1071 			break;
1072 		case DS_PARAM_PARITY:
1073 			/* Parity Type */
1074 			if (pe->val.ui & PARENB) {
1075 				if (pe->val.ui & PARODD) {
1076 					lc.bParityType = USB_CDC_PARITY_ODD;
1077 				} else {
1078 					lc.bParityType = USB_CDC_PARITY_EVEN;
1079 				}
1080 			} else {
1081 				lc.bParityType = USB_CDC_PARITY_NO;
1082 			}
1083 
1084 			break;
1085 		case DS_PARAM_STOPB:
1086 			/* Stop bit */
1087 			if (pe->val.ui & CSTOPB) {
1088 				lc.bCharFormat = USB_CDC_STOP_BITS_2;
1089 			} else {
1090 				lc.bCharFormat = USB_CDC_STOP_BITS_1;
1091 			}
1092 
1093 			break;
1094 		case DS_PARAM_CHARSZ:
1095 			/* Data Bits */
1096 			switch (pe->val.ui) {
1097 			case CS5:
1098 				lc.bDataBits = 5;
1099 				break;
1100 			case CS6:
1101 				lc.bDataBits = 6;
1102 				break;
1103 			case CS7:
1104 				lc.bDataBits = 7;
1105 				break;
1106 			case CS8:
1107 			default:
1108 				lc.bDataBits = 8;
1109 				break;
1110 			}
1111 
1112 			break;
1113 		default:
1114 			USB_DPRINTF_L2(PRINT_MASK_EVENTS, acmp->acm_lh,
1115 			    "usbsacm_ds_set_port_params: "
1116 			    "parameter 0x%x isn't supported",
1117 			    pe->param);
1118 
1119 			break;
1120 		}
1121 	}
1122 
1123 	if ((ret = usbsacm_set_line_coding(acm_port, &lc)) == USB_SUCCESS) {
1124 		mutex_enter(&acm_port->acm_port_mutex);
1125 		acm_port->acm_line_coding = lc;
1126 		mutex_exit(&acm_port->acm_port_mutex);
1127 	}
1128 
1129 	/*
1130 	 * If device don't conform to acm spec, return success directly.
1131 	 */
1132 	if (acmp->acm_compatibility != B_TRUE) {
1133 		ret = USB_SUCCESS;
1134 	}
1135 
1136 	return (ret);
1137 }
1138 
1139 
1140 /*
1141  * usbsacm_ds_set_modem_ctl:
1142  *	GSD routine call ds_set_modem_ctl
1143  *	to set modem control of the given port
1144  */
1145 /*ARGSUSED*/
1146 static int
1147 usbsacm_ds_set_modem_ctl(ds_hdl_t hdl, uint_t port_num, int mask, int val)
1148 {
1149 	usbsacm_state_t	*acmp = (usbsacm_state_t *)hdl;
1150 	usbsacm_port_t	*acm_port = &acmp->acm_ports[port_num];
1151 	uint8_t		new_mctl;
1152 	int		ret;
1153 
1154 	USB_DPRINTF_L4(PRINT_MASK_ALL, acmp->acm_lh,
1155 	    "usbsacm_ds_set_modem_ctl: mask = 0x%x val = 0x%x",
1156 	    mask, val);
1157 
1158 	mutex_enter(&acm_port->acm_port_mutex);
1159 	/*
1160 	 * If device conform to acm spec, check if it support to set modem
1161 	 * controls.
1162 	 */
1163 	if ((acm_port->acm_cap & USB_CDC_ACM_CAP_SERIAL_LINE) == 0 &&
1164 	    acmp->acm_compatibility == B_TRUE) {
1165 
1166 		mutex_exit(&acm_port->acm_port_mutex);
1167 		USB_DPRINTF_L2(PRINT_MASK_ALL, acmp->acm_lh,
1168 		    "usbsacm_ds_set_modem_ctl: "
1169 		    "don't support Set_Control_Line_State.");
1170 
1171 		return (USB_FAILURE);
1172 	}
1173 
1174 	new_mctl = acm_port->acm_mctlout;
1175 	mutex_exit(&acm_port->acm_port_mutex);
1176 
1177 	usbsacm_mctl2reg(mask, val, &new_mctl);
1178 
1179 	if ((acmp->acm_compatibility == B_FALSE) || ((ret =
1180 	    usbsacm_req_write(acm_port, USB_CDC_REQ_SET_CONTROL_LINE_STATE,
1181 	    new_mctl, NULL)) == USB_SUCCESS)) {
1182 		mutex_enter(&acm_port->acm_port_mutex);
1183 		acm_port->acm_mctlout = new_mctl;
1184 		mutex_exit(&acm_port->acm_port_mutex);
1185 	}
1186 
1187 	/*
1188 	 * If device don't conform to acm spec, return success directly.
1189 	 */
1190 	if (acmp->acm_compatibility != B_TRUE) {
1191 		ret = USB_SUCCESS;
1192 	}
1193 
1194 	return (ret);
1195 }
1196 
1197 
1198 /*
1199  * usbsacm_ds_get_modem_ctl:
1200  *	GSD routine call ds_get_modem_ctl
1201  *	to get modem control/status of the given port
1202  */
1203 /*ARGSUSED*/
1204 static int
1205 usbsacm_ds_get_modem_ctl(ds_hdl_t hdl, uint_t port_num, int mask, int *valp)
1206 {
1207 	usbsacm_state_t	*acmp = (usbsacm_state_t *)hdl;
1208 	usbsacm_port_t	*acm_port = &acmp->acm_ports[port_num];
1209 
1210 	mutex_enter(&acm_port->acm_port_mutex);
1211 	*valp = usbsacm_reg2mctl(acm_port->acm_mctlout) & mask;
1212 	/*
1213 	 * If device conform to acm spec, polling function can modify the value
1214 	 * of acm_mctlin; else set to default value.
1215 	 */
1216 	if (acmp->acm_compatibility) {
1217 		*valp |= usbsacm_reg2mctl(acm_port->acm_mctlin) & mask;
1218 		*valp |= (mask & (TIOCM_CD | TIOCM_CTS));
1219 	} else {
1220 		*valp |= (mask & (TIOCM_CD | TIOCM_CTS | TIOCM_DSR | TIOCM_RI));
1221 	}
1222 	mutex_exit(&acm_port->acm_port_mutex);
1223 
1224 	USB_DPRINTF_L4(PRINT_MASK_ALL, acmp->acm_lh,
1225 	    "usbsacm_ds_get_modem_ctl: val = 0x%x", *valp);
1226 
1227 	return (USB_SUCCESS);
1228 }
1229 
1230 
1231 /*
1232  * usbsacm_ds_tx:
1233  *	GSD routine call ds_break_ctl
1234  *	to set/clear break
1235  */
1236 /*ARGSUSED*/
1237 static int
1238 usbsacm_ds_break_ctl(ds_hdl_t hdl, uint_t port_num, int ctl)
1239 {
1240 	usbsacm_state_t	*acmp = (usbsacm_state_t *)hdl;
1241 	usbsacm_port_t	*acm_port = &acmp->acm_ports[port_num];
1242 
1243 	USB_DPRINTF_L4(PRINT_MASK_ALL, acmp->acm_lh,
1244 	    "usbsacm_ds_break_ctl: ");
1245 
1246 	mutex_enter(&acm_port->acm_port_mutex);
1247 	/*
1248 	 * If device conform to acm spec, check if it support to send break.
1249 	 */
1250 	if ((acm_port->acm_cap & USB_CDC_ACM_CAP_SEND_BREAK) == 0 &&
1251 	    acmp->acm_compatibility == B_TRUE) {
1252 
1253 		mutex_exit(&acm_port->acm_port_mutex);
1254 		USB_DPRINTF_L2(PRINT_MASK_ALL, acmp->acm_lh,
1255 		    "usbsacm_ds_break_ctl: don't support send break.");
1256 
1257 		return (USB_FAILURE);
1258 	}
1259 	mutex_exit(&acm_port->acm_port_mutex);
1260 
1261 	return (usbsacm_req_write(acm_port, USB_CDC_REQ_SEND_BREAK,
1262 	    ((ctl == DS_ON) ? 0xffff : 0), NULL));
1263 }
1264 
1265 
1266 /*
1267  * usbsacm_ds_tx:
1268  *	GSD routine call ds_tx
1269  *	to data transmit
1270  */
1271 /*ARGSUSED*/
1272 static int
1273 usbsacm_ds_tx(ds_hdl_t hdl, uint_t port_num, mblk_t *mp)
1274 {
1275 	usbsacm_state_t	*acmp = (usbsacm_state_t *)hdl;
1276 	usbsacm_port_t	*acm_port = &acmp->acm_ports[port_num];
1277 
1278 	USB_DPRINTF_L4(PRINT_MASK_ALL, acmp->acm_lh,
1279 	    "usbsacm_ds_tx: mp = 0x%p acmp = 0x%p", (void *)mp, (void *)acmp);
1280 
1281 	/* sanity checks */
1282 	if (mp == NULL) {
1283 
1284 		return (USB_SUCCESS);
1285 	}
1286 	if (MBLKL(mp) < 1) {
1287 		freemsg(mp);
1288 
1289 		return (USB_SUCCESS);
1290 	}
1291 
1292 	mutex_enter(&acm_port->acm_port_mutex);
1293 	/* put mblk to tail of mblk chain */
1294 	usbsacm_put_tail(&acm_port->acm_tx_mp, mp);
1295 	usbsacm_tx_start(acm_port);
1296 	mutex_exit(&acm_port->acm_port_mutex);
1297 
1298 	return (USB_SUCCESS);
1299 }
1300 
1301 
1302 /*
1303  * usbsacm_ds_rx:
1304  *	GSD routine call ds_rx;
1305  *	to data receipt
1306  */
1307 /*ARGSUSED*/
1308 static mblk_t *
1309 usbsacm_ds_rx(ds_hdl_t hdl, uint_t port_num)
1310 {
1311 	usbsacm_state_t	*acmp = (usbsacm_state_t *)hdl;
1312 	usbsacm_port_t	*acm_port = &acmp->acm_ports[port_num];
1313 	mblk_t		*mp;
1314 
1315 	USB_DPRINTF_L4(PRINT_MASK_ALL, acmp->acm_lh,
1316 	    "usbsacm_ds_rx: acmp = 0x%p", (void *)acmp);
1317 
1318 	mutex_enter(&acm_port->acm_port_mutex);
1319 
1320 	mp = acm_port->acm_rx_mp;
1321 	acm_port->acm_rx_mp = NULL;
1322 	mutex_exit(&acm_port->acm_port_mutex);
1323 
1324 	return (mp);
1325 }
1326 
1327 
1328 /*
1329  * usbsacm_ds_stop:
1330  *	GSD routine call ds_stop;
1331  *	but acm spec don't define this function
1332  */
1333 /*ARGSUSED*/
1334 static void
1335 usbsacm_ds_stop(ds_hdl_t hdl, uint_t port_num, int dir)
1336 {
1337 	usbsacm_state_t	*acmp = (usbsacm_state_t *)hdl;
1338 
1339 	USB_DPRINTF_L2(PRINT_MASK_EVENTS, acmp->acm_lh,
1340 	    "usbsacm_ds_stop: don't support!");
1341 }
1342 
1343 
1344 /*
1345  * usbsacm_ds_start:
1346  *	GSD routine call ds_start;
1347  *	but acm spec don't define this function
1348  */
1349 /*ARGSUSED*/
1350 static void
1351 usbsacm_ds_start(ds_hdl_t hdl, uint_t port_num, int dir)
1352 {
1353 	usbsacm_state_t	*acmp = (usbsacm_state_t *)hdl;
1354 
1355 	USB_DPRINTF_L2(PRINT_MASK_EVENTS, acmp->acm_lh,
1356 	    "usbsacm_ds_start: don't support!");
1357 }
1358 
1359 
1360 /*
1361  * usbsacm_ds_fifo_flush:
1362  *	GSD routine call ds_fifo_flush
1363  *	to flush FIFOs
1364  */
1365 /*ARGSUSED*/
1366 static int
1367 usbsacm_ds_fifo_flush(ds_hdl_t hdl, uint_t port_num, int dir)
1368 {
1369 	usbsacm_state_t	*acmp = (usbsacm_state_t *)hdl;
1370 	usbsacm_port_t	*acm_port = &acmp->acm_ports[port_num];
1371 	int		ret = USB_SUCCESS;
1372 
1373 	USB_DPRINTF_L4(PRINT_MASK_ALL, acmp->acm_lh,
1374 	    "usbsacm_ds_fifo_flush: ");
1375 
1376 	mutex_enter(&acm_port->acm_port_mutex);
1377 	ret = usbsacm_fifo_flush_locked(acmp, port_num, dir);
1378 	mutex_exit(&acm_port->acm_port_mutex);
1379 
1380 	return (ret);
1381 }
1382 
1383 
1384 /*
1385  * usbsacm_ds_fifo_drain:
1386  *	GSD routine call ds_fifo_drain
1387  *	to wait until empty output FIFO
1388  */
1389 /*ARGSUSED*/
1390 static int
1391 usbsacm_ds_fifo_drain(ds_hdl_t hdl, uint_t port_num, int timeout)
1392 {
1393 	usbsacm_state_t	*acmp = (usbsacm_state_t *)hdl;
1394 	usbsacm_port_t	*acm_port = &acmp->acm_ports[port_num];
1395 	int		rval = USB_SUCCESS;
1396 
1397 	USB_DPRINTF_L4(PRINT_MASK_EVENTS, acmp->acm_lh,
1398 	    "usbsacm_ds_fifo_drain: ");
1399 
1400 	mutex_enter(&acm_port->acm_port_mutex);
1401 	ASSERT(acm_port->acm_port_state == USBSACM_PORT_OPEN);
1402 
1403 	if (usbsacm_wait_tx_drain(acm_port, timeout) != USB_SUCCESS) {
1404 		USB_DPRINTF_L2(PRINT_MASK_EVENTS, acmp->acm_lh,
1405 		    "usbsacm_ds_fifo_drain: fifo drain failed.");
1406 		mutex_exit(&acm_port->acm_port_mutex);
1407 
1408 		return (USB_FAILURE);
1409 	}
1410 
1411 	mutex_exit(&acm_port->acm_port_mutex);
1412 
1413 	return (rval);
1414 }
1415 
1416 
1417 /*
1418  * usbsacm_fifo_flush_locked:
1419  *	flush FIFOs of the given ports
1420  */
1421 /*ARGSUSED*/
1422 static int
1423 usbsacm_fifo_flush_locked(usbsacm_state_t *acmp, uint_t port_num, int dir)
1424 {
1425 	usbsacm_port_t	*acm_port = &acmp->acm_ports[port_num];
1426 
1427 	USB_DPRINTF_L4(PRINT_MASK_EVENTS, acmp->acm_lh,
1428 	    "usbsacm_fifo_flush_locked: ");
1429 
1430 	/* flush transmit FIFO if DS_TX is set */
1431 	if ((dir & DS_TX) && acm_port->acm_tx_mp) {
1432 		freemsg(acm_port->acm_tx_mp);
1433 		acm_port->acm_tx_mp = NULL;
1434 	}
1435 	/* flush received FIFO if DS_RX is set */
1436 	if ((dir & DS_RX) && acm_port->acm_rx_mp) {
1437 		freemsg(acm_port->acm_rx_mp);
1438 		acm_port->acm_rx_mp = NULL;
1439 	}
1440 
1441 	return (USB_SUCCESS);
1442 }
1443 
1444 
1445 /*
1446  * usbsacm_get_bulk_pipe_number:
1447  *	Calculate the number of bulk in or out pipes in current device.
1448  */
1449 static int
1450 usbsacm_get_bulk_pipe_number(usbsacm_state_t *acmp, uint_t dir)
1451 {
1452 	int		count = 0;
1453 	int		i, skip;
1454 	usb_if_data_t	*cur_if;
1455 	int		ep_num;
1456 	int		if_num;
1457 
1458 	USB_DPRINTF_L4(PRINT_MASK_ATTA, acmp->acm_lh,
1459 	    "usbsacm_get_bulk_pipe_number: ");
1460 
1461 	cur_if = acmp->acm_dev_data->dev_curr_cfg->cfg_if;
1462 	if_num = acmp->acm_dev_data->dev_curr_cfg->cfg_n_if;
1463 
1464 	/* search each interface which have bulk endpoint */
1465 	for (i = 0; i < if_num; i++) {
1466 		ep_num = cur_if->if_alt->altif_n_ep;
1467 
1468 		/*
1469 		 * search endpoints in current interface,
1470 		 * which type is input parameter 'dir'
1471 		 */
1472 		for (skip = 0; skip < ep_num; skip++) {
1473 			if (usb_lookup_ep_data(acmp->acm_dip,
1474 			    acmp->acm_dev_data, i, 0, skip,
1475 			    USB_EP_ATTR_BULK, dir) == NULL) {
1476 
1477 				/*
1478 				 * If not found, skip the internal loop
1479 				 * and search the next interface.
1480 				 */
1481 				break;
1482 			}
1483 			count++;
1484 		}
1485 
1486 		cur_if++;
1487 	}
1488 
1489 	return (count);
1490 }
1491 
1492 
1493 /*
1494  * port management
1495  * ---------------
1496  *	initialize, release port.
1497  *
1498  *
1499  * usbsacm_init_ports_status:
1500  *	Initialize the port status for the current device.
1501  */
1502 static int
1503 usbsacm_init_ports_status(usbsacm_state_t *acmp)
1504 {
1505 	usbsacm_port_t	*cur_port;
1506 	int		i, skip;
1507 	int		if_num;
1508 	int		intr_if_no = 0;
1509 	int		ep_num;
1510 	usb_if_data_t	*cur_if;
1511 
1512 	USB_DPRINTF_L4(PRINT_MASK_OPEN, acmp->acm_lh,
1513 	    "usbsacm_init_ports_status: acmp = 0x%p", (void *)acmp);
1514 
1515 	/* Initialize the port status to default value */
1516 	for (i = 0; i < acmp->acm_port_cnt; i++) {
1517 		cur_port = &acmp->acm_ports[i];
1518 
1519 		cv_init(&cur_port->acm_tx_cv, NULL, CV_DRIVER, NULL);
1520 
1521 		cur_port->acm_port_state = USBSACM_PORT_CLOSED;
1522 
1523 		cur_port->acm_line_coding.dwDTERate = LE_32((uint32_t)9600);
1524 		cur_port->acm_line_coding.bCharFormat = 0;
1525 		cur_port->acm_line_coding.bParityType = USB_CDC_PARITY_NO;
1526 		cur_port->acm_line_coding.bDataBits = 8;
1527 		cur_port->acm_device = acmp;
1528 		mutex_init(&cur_port->acm_port_mutex, NULL, MUTEX_DRIVER,
1529 		    acmp->acm_dev_data->dev_iblock_cookie);
1530 	}
1531 
1532 	/*
1533 	 * If device conform to cdc acm spec, parse function descriptors.
1534 	 */
1535 	if (acmp->acm_compatibility == B_TRUE) {
1536 
1537 		if (usbsacm_get_descriptors(acmp) != USB_SUCCESS) {
1538 
1539 			return (USB_FAILURE);
1540 		}
1541 
1542 		return (USB_SUCCESS);
1543 	}
1544 
1545 	/*
1546 	 * If device don't conform to spec, search pairs of bulk in/out
1547 	 * endpoints and fill port structure.
1548 	 */
1549 	cur_if = acmp->acm_dev_data->dev_curr_cfg->cfg_if;
1550 	if_num = acmp->acm_dev_data->dev_curr_cfg->cfg_n_if;
1551 	cur_port = acmp->acm_ports;
1552 
1553 	/* search each interface which have bulk in and out */
1554 	for (i = 0; i < if_num; i++) {
1555 		ep_num = cur_if->if_alt->altif_n_ep;
1556 
1557 		for (skip = 0; skip < ep_num; skip++) {
1558 
1559 		/* search interrupt pipe. */
1560 		if ((usb_lookup_ep_data(acmp->acm_dip, acmp->acm_dev_data,
1561 		    i, 0, skip, USB_EP_ATTR_INTR, USB_EP_DIR_IN) != NULL)) {
1562 
1563 			intr_if_no = i;
1564 		}
1565 
1566 		/* search pair of bulk in/out endpoints. */
1567 		if ((usb_lookup_ep_data(acmp->acm_dip, acmp->acm_dev_data,
1568 		    i, 0, skip, USB_EP_ATTR_BULK, USB_EP_DIR_IN) == NULL) ||
1569 		    (usb_lookup_ep_data(acmp->acm_dip, acmp->acm_dev_data,
1570 		    i, 0, skip, USB_EP_ATTR_BULK, USB_EP_DIR_OUT) == NULL)) {
1571 
1572 			continue;
1573 		}
1574 
1575 		cur_port->acm_data_if_no = i;
1576 		cur_port->acm_ctrl_if_no = intr_if_no;
1577 		cur_port->acm_data_port_no = skip;
1578 		cur_port++;
1579 		intr_if_no = 0;
1580 		}
1581 
1582 		cur_if++;
1583 	}
1584 
1585 	return (USB_SUCCESS);
1586 }
1587 
1588 
1589 /*
1590  * usbsacm_init_alloc_ports:
1591  *	Allocate memory and initialize the port state for the current device.
1592  */
1593 static int
1594 usbsacm_init_alloc_ports(usbsacm_state_t *acmp)
1595 {
1596 	int		rval = USB_SUCCESS;
1597 	int		count_in = 0, count_out = 0;
1598 
1599 	if (acmp->acm_compatibility) {
1600 		acmp->acm_port_cnt = 1;
1601 	} else {
1602 		/* Calculate the number of the bulk in/out endpoints */
1603 		count_in = usbsacm_get_bulk_pipe_number(acmp, USB_EP_DIR_IN);
1604 		count_out = usbsacm_get_bulk_pipe_number(acmp, USB_EP_DIR_OUT);
1605 
1606 		USB_DPRINTF_L3(PRINT_MASK_OPEN, acmp->acm_lh,
1607 		    "usbsacm_init_alloc_ports: count_in = %d, count_out = %d",
1608 		    count_in, count_out);
1609 
1610 		acmp->acm_port_cnt = min(count_in, count_out);
1611 	}
1612 
1613 	/* return if not found any pair of bulk in/out endpoint. */
1614 	if (acmp->acm_port_cnt == 0) {
1615 		USB_DPRINTF_L2(PRINT_MASK_OPEN, acmp->acm_lh,
1616 		    "usbsacm_init_alloc_ports: port count is zero.");
1617 
1618 		return (USB_FAILURE);
1619 	}
1620 
1621 	/* allocate memory for ports */
1622 	acmp->acm_ports = (usbsacm_port_t *)kmem_zalloc(acmp->acm_port_cnt *
1623 	    sizeof (usbsacm_port_t), KM_SLEEP);
1624 	if (acmp->acm_ports == NULL) {
1625 		USB_DPRINTF_L2(PRINT_MASK_OPEN, acmp->acm_lh,
1626 		    "usbsacm_init_alloc_ports: allocate memory failed.");
1627 
1628 		return (USB_FAILURE);
1629 	}
1630 
1631 	/* fill the status of port structure. */
1632 	rval = usbsacm_init_ports_status(acmp);
1633 	if (rval != USB_SUCCESS) {
1634 		usbsacm_free_ports(acmp);
1635 	}
1636 
1637 	return (rval);
1638 }
1639 
1640 
1641 /*
1642  * usbsacm_free_ports:
1643  *	Release ports and deallocate memory.
1644  */
1645 static void
1646 usbsacm_free_ports(usbsacm_state_t *acmp)
1647 {
1648 	int		i;
1649 
1650 	USB_DPRINTF_L4(PRINT_MASK_CLOSE, acmp->acm_lh,
1651 	    "usbsacm_free_ports: ");
1652 
1653 	/* Release memory and data structure for each port */
1654 	for (i = 0; i < acmp->acm_port_cnt; i++) {
1655 		cv_destroy(&acmp->acm_ports[i].acm_tx_cv);
1656 		mutex_destroy(&acmp->acm_ports[i].acm_port_mutex);
1657 	}
1658 	kmem_free((caddr_t)acmp->acm_ports, sizeof (usbsacm_port_t) *
1659 	    acmp->acm_port_cnt);
1660 	acmp->acm_ports = NULL;
1661 }
1662 
1663 
1664 /*
1665  * usbsacm_get_descriptors:
1666  *	analysis functional descriptors of acm device
1667  */
1668 static int
1669 usbsacm_get_descriptors(usbsacm_state_t *acmp)
1670 {
1671 	int			i;
1672 	usb_cfg_data_t		*cfg;
1673 	usb_alt_if_data_t	*altif;
1674 	usb_cvs_data_t		*cvs;
1675 	int			mgmt_cap = 0;
1676 	int			master_if = -1, slave_if = -1;
1677 	usbsacm_port_t		*acm_port = acmp->acm_ports;
1678 
1679 	USB_DPRINTF_L4(PRINT_MASK_ATTA, acmp->acm_lh,
1680 	    "usbsacm_get_descriptors: ");
1681 
1682 	cfg = acmp->acm_dev_data->dev_curr_cfg;
1683 	/* set default control and data interface */
1684 	acm_port->acm_ctrl_if_no = acm_port->acm_data_if_no = 0;
1685 
1686 	/* get current interfaces */
1687 	acm_port->acm_ctrl_if_no = acmp->acm_dev_data->dev_curr_if;
1688 	if (cfg->cfg_if[acm_port->acm_ctrl_if_no].if_n_alt == 0) {
1689 		USB_DPRINTF_L2(PRINT_MASK_ATTA, acmp->acm_lh,
1690 		    "usbsacm_get_descriptors: elements in if_alt is %d",
1691 		    cfg->cfg_if[acm_port->acm_ctrl_if_no].if_n_alt);
1692 
1693 		return (USB_FAILURE);
1694 	}
1695 
1696 	altif = &cfg->cfg_if[acm_port->acm_ctrl_if_no].if_alt[0];
1697 
1698 	/*
1699 	 * Based on CDC specification, ACM devices usually include the
1700 	 * following function descriptors: Header, ACM, Union and Call
1701 	 * Management function descriptors. This loop search tree data
1702 	 * structure for each acm class descriptor.
1703 	 */
1704 	for (i = 0; i < altif->altif_n_cvs; i++) {
1705 
1706 		cvs = &altif->altif_cvs[i];
1707 
1708 		if ((cvs->cvs_buf == NULL) ||
1709 		    (cvs->cvs_buf[1] != USB_CDC_CS_INTERFACE)) {
1710 			continue;
1711 		}
1712 
1713 		switch (cvs->cvs_buf[2]) {
1714 		case USB_CDC_DESCR_TYPE_CALL_MANAGEMENT:
1715 			/* parse call management functional descriptor. */
1716 			if (cvs->cvs_buf_len >= 5) {
1717 				mgmt_cap = cvs->cvs_buf[3];
1718 				acm_port->acm_data_if_no = cvs->cvs_buf[4];
1719 			}
1720 			break;
1721 		case USB_CDC_DESCR_TYPE_ACM:
1722 			/* parse ACM functional descriptor. */
1723 			if (cvs->cvs_buf_len >= 4) {
1724 				acm_port->acm_cap = cvs->cvs_buf[3];
1725 			}
1726 			break;
1727 		case USB_CDC_DESCR_TYPE_UNION:
1728 			/* parse Union functional descriptor. */
1729 			if (cvs->cvs_buf_len >= 5) {
1730 				master_if = cvs->cvs_buf[3];
1731 				slave_if = cvs->cvs_buf[4];
1732 			}
1733 			break;
1734 		default:
1735 			break;
1736 		}
1737 	}
1738 
1739 	/* For usb acm devices, it must satisfy the following options. */
1740 	if (cfg->cfg_n_if < 2) {
1741 		USB_DPRINTF_L2(PRINT_MASK_ATTA, acmp->acm_lh,
1742 		    "usbsacm_get_descriptors: # of interfaces %d < 2",
1743 		    cfg->cfg_n_if);
1744 
1745 		return (USB_FAILURE);
1746 	}
1747 
1748 	if (acm_port->acm_data_if_no == 0 &&
1749 	    slave_if != acm_port->acm_data_if_no) {
1750 		USB_DPRINTF_L2(PRINT_MASK_ATTA, acmp->acm_lh,
1751 		    "usbsacm_get_descriptors: Device hasn't call management "
1752 		    "descriptor and use Union Descriptor.");
1753 
1754 		acm_port->acm_data_if_no = slave_if;
1755 	}
1756 
1757 	if ((master_if != acm_port->acm_ctrl_if_no) ||
1758 	    (slave_if != acm_port->acm_data_if_no)) {
1759 		USB_DPRINTF_L2(PRINT_MASK_ATTA, acmp->acm_lh,
1760 		    "usbsacm_get_descriptors: control interface or "
1761 		    "data interface don't match.");
1762 
1763 		return (USB_FAILURE);
1764 	}
1765 
1766 	/*
1767 	 * We usually need both call and data capabilities, but
1768 	 * some devices, such as Nokia mobile phones, don't provide
1769 	 * call management descriptor, so we just give a warning
1770 	 * message.
1771 	 */
1772 	if (((mgmt_cap & USB_CDC_CALL_MGMT_CAP_CALL_MGMT) == 0) ||
1773 	    ((mgmt_cap & USB_CDC_CALL_MGMT_CAP_DATA_INTERFACE) == 0)) {
1774 		USB_DPRINTF_L2(PRINT_MASK_ATTA, acmp->acm_lh,
1775 		    "usbsacm_get_descriptors: "
1776 		    "insufficient mgmt capabilities %x",
1777 		    mgmt_cap);
1778 	}
1779 
1780 	if ((acm_port->acm_ctrl_if_no >= cfg->cfg_n_if) ||
1781 	    (acm_port->acm_data_if_no >= cfg->cfg_n_if)) {
1782 		USB_DPRINTF_L2(PRINT_MASK_ATTA, acmp->acm_lh,
1783 		    "usbsacm_get_descriptors: control interface %d or "
1784 		    "data interface %d out of range.",
1785 		    acm_port->acm_ctrl_if_no, acm_port->acm_data_if_no);
1786 
1787 		return (USB_FAILURE);
1788 	}
1789 
1790 	/* control interface must have interrupt endpoint */
1791 	if (usb_lookup_ep_data(acmp->acm_dip, acmp->acm_dev_data,
1792 	    acm_port->acm_ctrl_if_no, 0, 0, USB_EP_ATTR_INTR,
1793 	    USB_EP_DIR_IN) == NULL) {
1794 		USB_DPRINTF_L2(PRINT_MASK_ATTA, acmp->acm_lh,
1795 		    "usbsacm_get_descriptors: "
1796 		    "ctrl interface %d has no interrupt endpoint",
1797 		    acm_port->acm_data_if_no);
1798 
1799 		return (USB_FAILURE);
1800 	}
1801 
1802 	/* data interface must have bulk in and out */
1803 	if (usb_lookup_ep_data(acmp->acm_dip, acmp->acm_dev_data,
1804 	    acm_port->acm_data_if_no, 0, 0, USB_EP_ATTR_BULK,
1805 	    USB_EP_DIR_IN) == NULL) {
1806 		USB_DPRINTF_L2(PRINT_MASK_ATTA, acmp->acm_lh,
1807 		    "usbsacm_get_descriptors: "
1808 		    "data interface %d has no bulk in endpoint",
1809 		    acm_port->acm_data_if_no);
1810 
1811 		return (USB_FAILURE);
1812 	}
1813 	if (usb_lookup_ep_data(acmp->acm_dip, acmp->acm_dev_data,
1814 	    acm_port->acm_data_if_no, 0, 0, USB_EP_ATTR_BULK,
1815 	    USB_EP_DIR_OUT) == NULL) {
1816 		USB_DPRINTF_L2(PRINT_MASK_ATTA, acmp->acm_lh,
1817 		    "usbsacm_get_descriptors: "
1818 		    "data interface %d has no bulk out endpoint",
1819 		    acm_port->acm_data_if_no);
1820 
1821 		return (USB_FAILURE);
1822 	}
1823 
1824 	return (USB_SUCCESS);
1825 }
1826 
1827 
1828 /*
1829  * usbsacm_cleanup:
1830  *	Release resources of current device during detach.
1831  */
1832 static void
1833 usbsacm_cleanup(usbsacm_state_t *acmp)
1834 {
1835 	USB_DPRINTF_L4(PRINT_MASK_CLOSE, acmp->acm_lh,
1836 	    "usbsacm_cleanup: ");
1837 
1838 	if (acmp != NULL) {
1839 		/* free ports */
1840 		if (acmp->acm_ports != NULL) {
1841 			usbsacm_free_ports(acmp);
1842 		}
1843 
1844 		/* unregister callback function */
1845 		if (acmp->acm_usb_events != NULL) {
1846 			usb_unregister_event_cbs(acmp->acm_dip,
1847 			    acmp->acm_usb_events);
1848 		}
1849 
1850 		/* destroy power management components */
1851 		if (acmp->acm_pm != NULL) {
1852 			usbsacm_destroy_pm_components(acmp);
1853 		}
1854 
1855 		/* free description of device tree. */
1856 		if (acmp->acm_def_ph != NULL) {
1857 			mutex_destroy(&acmp->acm_mutex);
1858 
1859 			usb_free_descr_tree(acmp->acm_dip, acmp->acm_dev_data);
1860 			acmp->acm_def_ph = NULL;
1861 		}
1862 
1863 		if (acmp->acm_lh != NULL) {
1864 			usb_free_log_hdl(acmp->acm_lh);
1865 			acmp->acm_lh = NULL;
1866 		}
1867 
1868 		/* detach client device */
1869 		if (acmp->acm_dev_data != NULL) {
1870 			usb_client_detach(acmp->acm_dip, acmp->acm_dev_data);
1871 		}
1872 
1873 		kmem_free((caddr_t)acmp, sizeof (usbsacm_state_t));
1874 	}
1875 }
1876 
1877 
1878 /*
1879  * usbsacm_restore_device_state:
1880  *	restore device state after CPR resume or reconnect
1881  */
1882 static int
1883 usbsacm_restore_device_state(usbsacm_state_t *acmp)
1884 {
1885 	int	state;
1886 
1887 	USB_DPRINTF_L4(PRINT_MASK_ALL, acmp->acm_lh,
1888 	    "usbsacm_restore_device_state: ");
1889 
1890 	mutex_enter(&acmp->acm_mutex);
1891 	state = acmp->acm_dev_state;
1892 	mutex_exit(&acmp->acm_mutex);
1893 
1894 	/* Check device status */
1895 	if ((state != USB_DEV_DISCONNECTED) && (state != USB_DEV_SUSPENDED)) {
1896 
1897 		return (state);
1898 	}
1899 
1900 	/* Check if we are talking to the same device */
1901 	if (usb_check_same_device(acmp->acm_dip, acmp->acm_lh, USB_LOG_L0,
1902 	    -1, USB_CHK_ALL, NULL) != USB_SUCCESS) {
1903 		mutex_enter(&acmp->acm_mutex);
1904 		state = acmp->acm_dev_state = USB_DEV_DISCONNECTED;
1905 		mutex_exit(&acmp->acm_mutex);
1906 
1907 		return (state);
1908 	}
1909 
1910 	if (state == USB_DEV_DISCONNECTED) {
1911 		USB_DPRINTF_L1(PRINT_MASK_ALL, acmp->acm_lh,
1912 		    "usbsacm_restore_device_state: Device has been reconnected "
1913 		    "but data may have been lost");
1914 	}
1915 
1916 	/* reconnect pipes */
1917 	if (usbsacm_reconnect_pipes(acmp) != USB_SUCCESS) {
1918 
1919 		return (state);
1920 	}
1921 
1922 	/*
1923 	 * init device state
1924 	 */
1925 	mutex_enter(&acmp->acm_mutex);
1926 	state = acmp->acm_dev_state = USB_DEV_ONLINE;
1927 	mutex_exit(&acmp->acm_mutex);
1928 
1929 	if ((usbsacm_restore_port_state(acmp) != USB_SUCCESS)) {
1930 		USB_DPRINTF_L2(PRINT_MASK_ATTA, acmp->acm_lh,
1931 		    "usbsacm_restore_device_state: failed");
1932 	}
1933 
1934 	return (state);
1935 }
1936 
1937 
1938 /*
1939  * usbsacm_restore_port_state:
1940  *	restore ports state after CPR resume or reconnect
1941  */
1942 static int
1943 usbsacm_restore_port_state(usbsacm_state_t *acmp)
1944 {
1945 	int		i, ret = USB_SUCCESS;
1946 	usbsacm_port_t	*cur_port;
1947 
1948 	USB_DPRINTF_L4(PRINT_MASK_ALL, acmp->acm_lh,
1949 	    "usbsacm_restore_port_state: ");
1950 
1951 	/* restore status of all ports */
1952 	for (i = 0; i < acmp->acm_port_cnt; i++) {
1953 		cur_port = &acmp->acm_ports[i];
1954 		mutex_enter(&cur_port->acm_port_mutex);
1955 		if (cur_port->acm_port_state != USBSACM_PORT_OPEN) {
1956 			mutex_exit(&cur_port->acm_port_mutex);
1957 
1958 			continue;
1959 		}
1960 		mutex_exit(&cur_port->acm_port_mutex);
1961 
1962 		if ((ret = usbsacm_set_line_coding(cur_port,
1963 		    &cur_port->acm_line_coding)) != USB_SUCCESS) {
1964 			USB_DPRINTF_L2(PRINT_MASK_ATTA, acmp->acm_lh,
1965 			    "usbsacm_restore_port_state: failed.");
1966 		}
1967 	}
1968 
1969 	return (ret);
1970 }
1971 
1972 
1973 /*
1974  * pipe management
1975  * ---------------
1976  *
1977  *
1978  * usbsacm_open_port_pipes:
1979  *	Open pipes of one port and set port structure;
1980  *	Each port includes three pipes: bulk in, bulk out and interrupt.
1981  */
1982 static int
1983 usbsacm_open_port_pipes(usbsacm_port_t *acm_port)
1984 {
1985 	int		rval = USB_SUCCESS;
1986 	usbsacm_state_t	*acmp = acm_port->acm_device;
1987 	usb_ep_data_t	*in_data, *out_data, *intr_pipe;
1988 	usb_pipe_policy_t policy;
1989 
1990 	USB_DPRINTF_L4(PRINT_MASK_OPEN, acmp->acm_lh,
1991 	    "usbsacm_open_port_pipes: acmp = 0x%p", (void *)acmp);
1992 
1993 	/* Get bulk and interrupt endpoint data */
1994 	intr_pipe = usb_lookup_ep_data(acmp->acm_dip, acmp->acm_dev_data,
1995 	    acm_port->acm_ctrl_if_no, 0, 0,
1996 	    USB_EP_ATTR_INTR, USB_EP_DIR_IN);
1997 	in_data = usb_lookup_ep_data(acmp->acm_dip, acmp->acm_dev_data,
1998 	    acm_port->acm_data_if_no, 0, acm_port->acm_data_port_no,
1999 	    USB_EP_ATTR_BULK, USB_EP_DIR_IN);
2000 	out_data = usb_lookup_ep_data(acmp->acm_dip, acmp->acm_dev_data,
2001 	    acm_port->acm_data_if_no, 0, acm_port->acm_data_port_no,
2002 	    USB_EP_ATTR_BULK, USB_EP_DIR_OUT);
2003 
2004 	/* Bulk in and out must exist meanwhile. */
2005 	if ((in_data == NULL) || (out_data == NULL)) {
2006 		USB_DPRINTF_L2(PRINT_MASK_OPEN, acmp->acm_lh,
2007 		    "usbsacm_open_port_pipes: look up bulk pipe failed in "
2008 		    "interface %d port %d",
2009 		    acm_port->acm_data_if_no, acm_port->acm_data_port_no);
2010 
2011 		return (USB_FAILURE);
2012 	}
2013 
2014 	/*
2015 	 * If device conform to acm spec, it must have an interrupt pipe
2016 	 * for this port.
2017 	 */
2018 	if (acmp->acm_compatibility == B_TRUE && intr_pipe == NULL) {
2019 		USB_DPRINTF_L2(PRINT_MASK_OPEN, acmp->acm_lh,
2020 		    "usbsacm_open_port_pipes: look up interrupt pipe failed in "
2021 		    "interface %d", acm_port->acm_ctrl_if_no);
2022 
2023 		return (USB_FAILURE);
2024 	}
2025 
2026 	policy.pp_max_async_reqs = 2;
2027 
2028 	/* Open bulk in endpoint */
2029 	if (usb_pipe_open(acmp->acm_dip, &in_data->ep_descr, &policy,
2030 	    USB_FLAGS_SLEEP, &acm_port->acm_bulkin_ph) != USB_SUCCESS) {
2031 		USB_DPRINTF_L2(PRINT_MASK_OPEN, acmp->acm_lh,
2032 		    "usbsacm_open_port_pipes: open bulkin pipe failed!");
2033 
2034 		return (USB_FAILURE);
2035 	}
2036 
2037 	/* Open bulk out endpoint */
2038 	if (usb_pipe_open(acmp->acm_dip, &out_data->ep_descr, &policy,
2039 	    USB_FLAGS_SLEEP, &acm_port->acm_bulkout_ph) != USB_SUCCESS) {
2040 		USB_DPRINTF_L2(PRINT_MASK_OPEN, acmp->acm_lh,
2041 		    "usbsacm_open_port_pipes: open bulkout pipe failed!");
2042 
2043 		usb_pipe_close(acmp->acm_dip, acm_port->acm_bulkin_ph,
2044 		    USB_FLAGS_SLEEP, NULL, NULL);
2045 
2046 		return (USB_FAILURE);
2047 	}
2048 
2049 	/* Open interrupt endpoint if found. */
2050 	if (intr_pipe != NULL) {
2051 
2052 		if (usb_pipe_open(acmp->acm_dip, &intr_pipe->ep_descr, &policy,
2053 		    USB_FLAGS_SLEEP, &acm_port->acm_intr_ph) != USB_SUCCESS) {
2054 			USB_DPRINTF_L2(PRINT_MASK_OPEN, acmp->acm_lh,
2055 			    "usbsacm_open_port_pipes: "
2056 			    "open control pipe failed");
2057 
2058 			usb_pipe_close(acmp->acm_dip, acm_port->acm_bulkin_ph,
2059 			    USB_FLAGS_SLEEP, NULL, NULL);
2060 			usb_pipe_close(acmp->acm_dip, acm_port->acm_bulkout_ph,
2061 			    USB_FLAGS_SLEEP, NULL, NULL);
2062 
2063 			return (USB_FAILURE);
2064 		}
2065 	}
2066 
2067 	/* initialize the port structure. */
2068 	mutex_enter(&acm_port->acm_port_mutex);
2069 	acm_port->acm_bulkin_size = in_data->ep_descr.wMaxPacketSize;
2070 	acm_port->acm_bulkin_state = USBSACM_PIPE_IDLE;
2071 	acm_port->acm_bulkout_state = USBSACM_PIPE_IDLE;
2072 	if (acm_port->acm_intr_ph != NULL) {
2073 		acm_port->acm_intr_state = USBSACM_PIPE_IDLE;
2074 		acm_port->acm_intr_ep_descr = intr_pipe->ep_descr;
2075 	}
2076 	mutex_exit(&acm_port->acm_port_mutex);
2077 
2078 	if (acm_port->acm_intr_ph != NULL) {
2079 
2080 		usbsacm_pipe_start_polling(acm_port);
2081 	}
2082 
2083 	return (rval);
2084 }
2085 
2086 
2087 /*
2088  * usbsacm_close_port_pipes:
2089  *	Close pipes of one port and reset port structure to closed;
2090  *	Each port includes three pipes: bulk in, bulk out and interrupt.
2091  */
2092 static void
2093 usbsacm_close_port_pipes(usbsacm_port_t	*acm_port)
2094 {
2095 	usbsacm_state_t	*acmp = acm_port->acm_device;
2096 
2097 	mutex_enter(&acm_port->acm_port_mutex);
2098 	USB_DPRINTF_L4(PRINT_MASK_CLOSE, acmp->acm_lh,
2099 	    "usbsacm_close_port_pipes: acm_bulkin_state = %d",
2100 	    acm_port->acm_bulkin_state);
2101 
2102 	/*
2103 	 * Check the status of the given port. If port is closing or closed,
2104 	 * return directly.
2105 	 */
2106 	if ((acm_port->acm_bulkin_state == USBSACM_PIPE_CLOSED) ||
2107 	    (acm_port->acm_bulkin_state == USBSACM_PIPE_CLOSING)) {
2108 		USB_DPRINTF_L2(PRINT_MASK_CLOSE, acmp->acm_lh,
2109 		    "usbsacm_close_port_pipes: port is closing or has closed");
2110 		mutex_exit(&acm_port->acm_port_mutex);
2111 
2112 		return;
2113 	}
2114 
2115 	acm_port->acm_bulkin_state = USBSACM_PIPE_CLOSING;
2116 	mutex_exit(&acm_port->acm_port_mutex);
2117 
2118 	/* Close pipes */
2119 	usb_pipe_reset(acmp->acm_dip, acm_port->acm_bulkin_ph,
2120 	    USB_FLAGS_SLEEP, 0, 0);
2121 	usb_pipe_close(acmp->acm_dip, acm_port->acm_bulkin_ph,
2122 	    USB_FLAGS_SLEEP, 0, 0);
2123 	usb_pipe_close(acmp->acm_dip, acm_port->acm_bulkout_ph,
2124 	    USB_FLAGS_SLEEP, 0, 0);
2125 	if (acm_port->acm_intr_ph != NULL) {
2126 		usb_pipe_stop_intr_polling(acm_port->acm_intr_ph,
2127 		    USB_FLAGS_SLEEP);
2128 		usb_pipe_close(acmp->acm_dip, acm_port->acm_intr_ph,
2129 		    USB_FLAGS_SLEEP, 0, 0);
2130 	}
2131 
2132 	mutex_enter(&acm_port->acm_port_mutex);
2133 	/* Reset the status of pipes to closed */
2134 	acm_port->acm_bulkin_state = USBSACM_PIPE_CLOSED;
2135 	acm_port->acm_bulkin_ph = NULL;
2136 	acm_port->acm_bulkout_state = USBSACM_PIPE_CLOSED;
2137 	acm_port->acm_bulkout_ph = NULL;
2138 	if (acm_port->acm_intr_ph != NULL) {
2139 		acm_port->acm_intr_state = USBSACM_PIPE_CLOSED;
2140 		acm_port->acm_intr_ph = NULL;
2141 	}
2142 
2143 	mutex_exit(&acm_port->acm_port_mutex);
2144 
2145 	USB_DPRINTF_L4(PRINT_MASK_CLOSE, acmp->acm_lh,
2146 	    "usbsacm_close_port_pipes: port has been closed.");
2147 }
2148 
2149 
2150 /*
2151  * usbsacm_close_pipes:
2152  *	close all opened pipes of current devices.
2153  */
2154 static void
2155 usbsacm_close_pipes(usbsacm_state_t *acmp)
2156 {
2157 	int		i;
2158 
2159 	USB_DPRINTF_L4(PRINT_MASK_CLOSE, acmp->acm_lh,
2160 	    "usbsacm_close_pipes: ");
2161 
2162 	/* Close all ports */
2163 	for (i = 0; i < acmp->acm_port_cnt; i++) {
2164 		usbsacm_close_port_pipes(&acmp->acm_ports[i]);
2165 	}
2166 }
2167 
2168 
2169 /*
2170  * usbsacm_disconnect_pipes:
2171  *	this function just call usbsacm_close_pipes.
2172  */
2173 static void
2174 usbsacm_disconnect_pipes(usbsacm_state_t *acmp)
2175 {
2176 	USB_DPRINTF_L4(PRINT_MASK_CLOSE, acmp->acm_lh,
2177 	    "usbsacm_disconnect_pipes: ");
2178 
2179 	usbsacm_close_pipes(acmp);
2180 }
2181 
2182 
2183 /*
2184  * usbsacm_reconnect_pipes:
2185  *	reconnect pipes in CPR resume or reconnect
2186  */
2187 static int
2188 usbsacm_reconnect_pipes(usbsacm_state_t *acmp)
2189 {
2190 	usbsacm_port_t	*cur_port = acmp->acm_ports;
2191 	int		i;
2192 
2193 	USB_DPRINTF_L4(PRINT_MASK_OPEN, acmp->acm_lh,
2194 	    "usbsacm_reconnect_pipes: ");
2195 
2196 	/* reopen all ports of current device. */
2197 	for (i = 0; i < acmp->acm_port_cnt; i++) {
2198 		cur_port = &acmp->acm_ports[i];
2199 
2200 		mutex_enter(&cur_port->acm_port_mutex);
2201 		/*
2202 		 * If port status is open, reopen it;
2203 		 * else retain the current status.
2204 		 */
2205 		if (cur_port->acm_port_state == USBSACM_PORT_OPEN) {
2206 
2207 			mutex_exit(&cur_port->acm_port_mutex);
2208 			if (usbsacm_open_port_pipes(cur_port) != USB_SUCCESS) {
2209 				USB_DPRINTF_L4(PRINT_MASK_OPEN, acmp->acm_lh,
2210 				    "usbsacm_reconnect_pipes: "
2211 				    "open port %d failed.", i);
2212 
2213 				return (USB_FAILURE);
2214 			}
2215 			mutex_enter(&cur_port->acm_port_mutex);
2216 		}
2217 		mutex_exit(&cur_port->acm_port_mutex);
2218 	}
2219 
2220 	return (USB_SUCCESS);
2221 }
2222 
2223 /*
2224  * usbsacm_bulkin_cb:
2225  *	Bulk In regular and exeception callback;
2226  *	USBA framework will call this callback
2227  *	after deal with bulkin request.
2228  */
2229 /*ARGSUSED*/
2230 static void
2231 usbsacm_bulkin_cb(usb_pipe_handle_t pipe, usb_bulk_req_t *req)
2232 {
2233 	usbsacm_port_t	*acm_port = (usbsacm_port_t *)req->bulk_client_private;
2234 	usbsacm_state_t	*acmp = acm_port->acm_device;
2235 	mblk_t		*data;
2236 	int		data_len;
2237 
2238 	data = req->bulk_data;
2239 	data_len = (data) ? MBLKL(data) : 0;
2240 
2241 	mutex_enter(&acm_port->acm_port_mutex);
2242 	USB_DPRINTF_L4(PRINT_MASK_EVENTS, acmp->acm_lh,
2243 	    "usbsacm_bulkin_cb: "
2244 	    "acm_bulkin_state = %d acm_port_state = %d data_len = %d",
2245 	    acm_port->acm_bulkin_state, acm_port->acm_port_state, data_len);
2246 
2247 	if ((acm_port->acm_port_state == USBSACM_PORT_OPEN) && (data_len) &&
2248 	    (req->bulk_completion_reason == USB_CR_OK)) {
2249 		mutex_exit(&acm_port->acm_port_mutex);
2250 		/* prevent USBA from freeing data along with the request */
2251 		req->bulk_data = NULL;
2252 
2253 		/* save data on the receive list */
2254 		usbsacm_put_tail(&acm_port->acm_rx_mp, data);
2255 
2256 		/* invoke GSD receive callback */
2257 		if (acm_port->acm_cb.cb_rx) {
2258 			acm_port->acm_cb.cb_rx(acm_port->acm_cb.cb_arg);
2259 		}
2260 		mutex_enter(&acm_port->acm_port_mutex);
2261 	}
2262 	mutex_exit(&acm_port->acm_port_mutex);
2263 
2264 	usb_free_bulk_req(req);
2265 
2266 	/* receive more */
2267 	mutex_enter(&acm_port->acm_port_mutex);
2268 	if (((acm_port->acm_bulkin_state == USBSACM_PIPE_BUSY) ||
2269 	    (acm_port->acm_bulkin_state == USBSACM_PIPE_IDLE)) &&
2270 	    (acm_port->acm_port_state == USBSACM_PORT_OPEN) &&
2271 	    (acmp->acm_dev_state == USB_DEV_ONLINE)) {
2272 		if (usbsacm_rx_start(acm_port) != USB_SUCCESS) {
2273 			USB_DPRINTF_L2(PRINT_MASK_EVENTS, acmp->acm_lh,
2274 			    "usbsacm_bulkin_cb: restart rx fail "
2275 			    "acm_port_state = %d", acm_port->acm_port_state);
2276 		}
2277 	} else if (acm_port->acm_bulkin_state == USBSACM_PIPE_BUSY) {
2278 		acm_port->acm_bulkin_state = USBSACM_PIPE_IDLE;
2279 	}
2280 	mutex_exit(&acm_port->acm_port_mutex);
2281 }
2282 
2283 
2284 /*
2285  * usbsacm_bulkout_cb:
2286  *	Bulk Out regular and exeception callback;
2287  *	USBA framework will call this callback function
2288  *	after deal with bulkout request.
2289  */
2290 /*ARGSUSED*/
2291 static void
2292 usbsacm_bulkout_cb(usb_pipe_handle_t pipe, usb_bulk_req_t *req)
2293 {
2294 	usbsacm_port_t	*acm_port = (usbsacm_port_t *)req->bulk_client_private;
2295 	usbsacm_state_t	*acmp = acm_port->acm_device;
2296 	int		data_len;
2297 	mblk_t		*data = req->bulk_data;
2298 
2299 	USB_DPRINTF_L4(PRINT_MASK_EVENTS, acmp->acm_lh,
2300 	    "usbsacm_bulkout_cb: acmp = 0x%p", (void *)acmp);
2301 
2302 	data_len = (req->bulk_data) ? MBLKL(req->bulk_data) : 0;
2303 
2304 	/* put untransferred residue back on the transfer list */
2305 	if (req->bulk_completion_reason && (data_len > 0)) {
2306 		usbsacm_put_head(&acm_port->acm_tx_mp, data);
2307 		req->bulk_data = NULL;
2308 	}
2309 
2310 	usb_free_bulk_req(req);
2311 
2312 	/* invoke GSD transmit callback */
2313 	if (acm_port->acm_cb.cb_tx) {
2314 		acm_port->acm_cb.cb_tx(acm_port->acm_cb.cb_arg);
2315 	}
2316 
2317 	/* send more */
2318 	mutex_enter(&acm_port->acm_port_mutex);
2319 	acm_port->acm_bulkout_state = USBSACM_PIPE_IDLE;
2320 	if (acm_port->acm_tx_mp == NULL) {
2321 		cv_broadcast(&acm_port->acm_tx_cv);
2322 	} else {
2323 		usbsacm_tx_start(acm_port);
2324 	}
2325 	mutex_exit(&acm_port->acm_port_mutex);
2326 }
2327 
2328 
2329 /*
2330  * usbsacm_rx_start:
2331  *	start data receipt
2332  */
2333 static int
2334 usbsacm_rx_start(usbsacm_port_t *acm_port)
2335 {
2336 	usbsacm_state_t	*acmp = acm_port->acm_device;
2337 	usb_bulk_req_t	*br;
2338 	int		rval = USB_FAILURE;
2339 	int		data_len;
2340 
2341 	USB_DPRINTF_L4(PRINT_MASK_EVENTS, acmp->acm_lh,
2342 	    "usbsacm_rx_start: acm_xfer_sz = 0x%lx acm_bulkin_size = 0x%lx",
2343 	    acmp->acm_xfer_sz, acm_port->acm_bulkin_size);
2344 
2345 	acm_port->acm_bulkin_state = USBSACM_PIPE_BUSY;
2346 	/*
2347 	 * Qualcomm CDMA card won't response the first request,
2348 	 * if the following code don't multiply by 2.
2349 	 */
2350 	data_len = min(acmp->acm_xfer_sz, acm_port->acm_bulkin_size * 2);
2351 	mutex_exit(&acm_port->acm_port_mutex);
2352 
2353 	br = usb_alloc_bulk_req(acmp->acm_dip, data_len, USB_FLAGS_SLEEP);
2354 	if (br == NULL) {
2355 		USB_DPRINTF_L2(PRINT_MASK_EVENTS, acmp->acm_lh,
2356 		    "usbsacm_rx_start: allocate bulk request failed");
2357 
2358 		mutex_enter(&acm_port->acm_port_mutex);
2359 
2360 		return (USB_FAILURE);
2361 	}
2362 	/* initialize bulk in request. */
2363 	br->bulk_len = data_len;
2364 	br->bulk_timeout = USBSACM_BULKIN_TIMEOUT;
2365 	br->bulk_cb = usbsacm_bulkin_cb;
2366 	br->bulk_exc_cb = usbsacm_bulkin_cb;
2367 	br->bulk_client_private = (usb_opaque_t)acm_port;
2368 	br->bulk_attributes = USB_ATTRS_AUTOCLEARING
2369 	    | USB_ATTRS_SHORT_XFER_OK;
2370 
2371 	rval = usb_pipe_bulk_xfer(acm_port->acm_bulkin_ph, br, 0);
2372 
2373 	mutex_enter(&acm_port->acm_port_mutex);
2374 	if (rval != USB_SUCCESS) {
2375 		USB_DPRINTF_L2(PRINT_MASK_EVENTS, acmp->acm_lh,
2376 		    "usbsacm_rx_start: bulk transfer failed %d", rval);
2377 		usb_free_bulk_req(br);
2378 		acm_port->acm_bulkin_state = USBSACM_PIPE_IDLE;
2379 	}
2380 
2381 	return (rval);
2382 }
2383 
2384 
2385 /*
2386  * usbsacm_tx_start:
2387  *	start data transmit
2388  */
2389 static void
2390 usbsacm_tx_start(usbsacm_port_t *acm_port)
2391 {
2392 	int		len;		/* bytes we can transmit */
2393 	mblk_t		*data;		/* data to be transmitted */
2394 	int		data_len;	/* bytes in 'data' */
2395 	mblk_t		*mp;		/* current msgblk */
2396 	int		copylen;	/* bytes copy from 'mp' to 'data' */
2397 	int		rval;
2398 	usbsacm_state_t	*acmp = acm_port->acm_device;
2399 
2400 	USB_DPRINTF_L4(PRINT_MASK_ALL, acmp->acm_lh,
2401 	    "usbsacm_tx_start: ");
2402 
2403 	/* check the transmitted data. */
2404 	if (acm_port->acm_tx_mp == NULL) {
2405 		USB_DPRINTF_L2(PRINT_MASK_EVENTS, acmp->acm_lh,
2406 		    "usbsacm_tx_start: acm_tx_mp is NULL");
2407 
2408 		return;
2409 	}
2410 
2411 	/* check pipe status */
2412 	if (acm_port->acm_bulkout_state != USBSACM_PIPE_IDLE) {
2413 
2414 		USB_DPRINTF_L2(PRINT_MASK_EVENTS, acmp->acm_lh,
2415 		    "usbsacm_tx_start: error state in bulkout endpoint");
2416 
2417 		return;
2418 	}
2419 	ASSERT(MBLKL(acm_port->acm_tx_mp) > 0);
2420 
2421 	/* send as much data as port can receive */
2422 	len = min(msgdsize(acm_port->acm_tx_mp), acmp->acm_xfer_sz);
2423 
2424 	if (len == 0) {
2425 		USB_DPRINTF_L2(PRINT_MASK_EVENTS, acmp->acm_lh,
2426 		    "usbsacm_tx_start: data len is 0");
2427 
2428 		return;
2429 	}
2430 
2431 	/* allocate memory for sending data. */
2432 	if ((data = allocb(len, BPRI_LO)) == NULL) {
2433 		USB_DPRINTF_L2(PRINT_MASK_EVENTS, acmp->acm_lh,
2434 		    "usbsacm_tx_start: failure in allocate memory");
2435 
2436 		return;
2437 	}
2438 
2439 	/*
2440 	 * copy no more than 'len' bytes from mblk chain to transmit mblk 'data'
2441 	 */
2442 	data_len = 0;
2443 	while ((data_len < len) && acm_port->acm_tx_mp) {
2444 		/* Get the first mblk from chain. */
2445 		mp = acm_port->acm_tx_mp;
2446 		copylen = min(MBLKL(mp), len - data_len);
2447 		bcopy(mp->b_rptr, data->b_wptr, copylen);
2448 		mp->b_rptr += copylen;
2449 		data->b_wptr += copylen;
2450 		data_len += copylen;
2451 
2452 		if (MBLKL(mp) < 1) {
2453 			acm_port->acm_tx_mp = unlinkb(mp);
2454 			freeb(mp);
2455 		} else {
2456 			ASSERT(data_len == len);
2457 		}
2458 	}
2459 
2460 	if (data_len <= 0) {
2461 		freeb(data);
2462 
2463 		return;
2464 	}
2465 
2466 	acm_port->acm_bulkout_state = USBSACM_PIPE_BUSY;
2467 
2468 	mutex_exit(&acm_port->acm_port_mutex);
2469 	/* send request. */
2470 	rval = usbsacm_send_data(acm_port, data);
2471 	mutex_enter(&acm_port->acm_port_mutex);
2472 
2473 	/*
2474 	 * If send failed, retransmit data when acm_tx_mp is null.
2475 	 */
2476 	if (rval != USB_SUCCESS) {
2477 		acm_port->acm_bulkout_state = USBSACM_PIPE_IDLE;
2478 		if (acm_port->acm_tx_mp == NULL) {
2479 			usbsacm_put_head(&acm_port->acm_tx_mp, data);
2480 		}
2481 	}
2482 }
2483 
2484 
2485 /*
2486  * usbsacm_send_data:
2487  *	data transfer
2488  */
2489 static int
2490 usbsacm_send_data(usbsacm_port_t *acm_port, mblk_t *data)
2491 {
2492 	usbsacm_state_t	*acmp = acm_port->acm_device;
2493 	usb_bulk_req_t	*br;
2494 	int		rval;
2495 	int		data_len = MBLKL(data);
2496 
2497 	USB_DPRINTF_L4(PRINT_MASK_EVENTS, acmp->acm_lh,
2498 	    "usbsacm_send_data: data address is 0x%p, length = %d",
2499 	    (void *)data, data_len);
2500 
2501 	br = usb_alloc_bulk_req(acmp->acm_dip, 0, USB_FLAGS_SLEEP);
2502 	if (br == NULL) {
2503 		USB_DPRINTF_L2(PRINT_MASK_OPEN, acmp->acm_lh,
2504 		    "usbsacm_send_data: alloc req failed.");
2505 
2506 		return (USB_FAILURE);
2507 	}
2508 
2509 	/* initialize the bulk out request */
2510 	br->bulk_data = data;
2511 	br->bulk_len = data_len;
2512 	br->bulk_timeout = USBSACM_BULKOUT_TIMEOUT;
2513 	br->bulk_cb = usbsacm_bulkout_cb;
2514 	br->bulk_exc_cb = usbsacm_bulkout_cb;
2515 	br->bulk_client_private = (usb_opaque_t)acm_port;
2516 	br->bulk_attributes = USB_ATTRS_AUTOCLEARING;
2517 
2518 	rval = usb_pipe_bulk_xfer(acm_port->acm_bulkout_ph, br, 0);
2519 
2520 	if (rval != USB_SUCCESS) {
2521 		USB_DPRINTF_L2(PRINT_MASK_EVENTS, acmp->acm_lh,
2522 		    "usbsacm_send_data: Send Data failed.");
2523 
2524 		/*
2525 		 * Don't free it in usb_free_bulk_req because it will
2526 		 * be linked in usbsacm_put_head
2527 		 */
2528 		br->bulk_data = NULL;
2529 
2530 		usb_free_bulk_req(br);
2531 	}
2532 
2533 	return (rval);
2534 }
2535 
2536 /*
2537  * usbsacm_wait_tx_drain:
2538  *	wait until local tx buffer drains.
2539  *	'timeout' is in seconds, zero means wait forever
2540  */
2541 static int
2542 usbsacm_wait_tx_drain(usbsacm_port_t *acm_port, int timeout)
2543 {
2544 	clock_t		until;
2545 	int		over = 0;
2546 
2547 	until = ddi_get_lbolt() + drv_usectohz(1000 * 1000 * timeout);
2548 
2549 	while (acm_port->acm_tx_mp && !over) {
2550 		if (timeout > 0) {
2551 			over = (cv_timedwait_sig(&acm_port->acm_tx_cv,
2552 			    &acm_port->acm_port_mutex, until) <= 0);
2553 		} else {
2554 			over = (cv_wait_sig(&acm_port->acm_tx_cv,
2555 			    &acm_port->acm_port_mutex) == 0);
2556 		}
2557 	}
2558 
2559 	return ((acm_port->acm_tx_mp == NULL) ? USB_SUCCESS : USB_FAILURE);
2560 }
2561 
2562 
2563 /*
2564  * usbsacm_req_write:
2565  *	send command over control pipe
2566  */
2567 static int
2568 usbsacm_req_write(usbsacm_port_t *acm_port, uchar_t request, uint16_t value,
2569     mblk_t **data)
2570 {
2571 	usbsacm_state_t	*acmp = acm_port->acm_device;
2572 	usb_ctrl_setup_t setup;
2573 	usb_cb_flags_t	cb_flags;
2574 	usb_cr_t	cr;
2575 
2576 	USB_DPRINTF_L4(PRINT_MASK_ALL, acmp->acm_lh,
2577 	    "usbsacm_req_write: ");
2578 
2579 	/* initialize the control request. */
2580 	setup.bmRequestType = USBSACM_REQ_WRITE_IF;
2581 	setup.bRequest = request;
2582 	setup.wValue = value;
2583 	setup.wIndex = acm_port->acm_ctrl_if_no;
2584 	setup.wLength = ((data != NULL) && (*data != NULL)) ? MBLKL(*data) : 0;
2585 	setup.attrs = 0;
2586 
2587 	return (usb_pipe_ctrl_xfer_wait(acmp->acm_def_ph, &setup, data,
2588 	    &cr, &cb_flags, 0));
2589 }
2590 
2591 
2592 /*
2593  * usbsacm_set_line_coding:
2594  *	Send USB_CDC_REQ_SET_LINE_CODING request
2595  */
2596 static int
2597 usbsacm_set_line_coding(usbsacm_port_t *acm_port, usb_cdc_line_coding_t *lc)
2598 {
2599 	mblk_t		*bp;
2600 	int		ret;
2601 
2602 	/* allocate mblk and copy supplied structure into it */
2603 	if ((bp = allocb(USB_CDC_LINE_CODING_LEN, BPRI_HI)) == NULL) {
2604 
2605 		return (USB_NO_RESOURCES);
2606 	}
2607 
2608 #ifndef __lock_lint /* warlock gets confused here */
2609 	/* LINTED E_BAD_PTR_CAST_ALIGN */
2610 	*((usb_cdc_line_coding_t *)bp->b_wptr) = *lc;
2611 	bp->b_wptr += USB_CDC_LINE_CODING_LEN;
2612 #endif
2613 
2614 	ret = usbsacm_req_write(acm_port, USB_CDC_REQ_SET_LINE_CODING, 0, &bp);
2615 
2616 	if (bp != NULL) {
2617 		freeb(bp);
2618 	}
2619 
2620 	return (ret);
2621 }
2622 
2623 
2624 
2625 /*
2626  * usbsacm_mctl2reg:
2627  *	Set Modem control status
2628  */
2629 static void
2630 usbsacm_mctl2reg(int mask, int val, uint8_t *line_ctl)
2631 {
2632 	if (mask & TIOCM_RTS) {
2633 		if (val & TIOCM_RTS) {
2634 			*line_ctl |= USB_CDC_ACM_CONTROL_RTS;
2635 		} else {
2636 			*line_ctl &= ~USB_CDC_ACM_CONTROL_RTS;
2637 		}
2638 	}
2639 	if (mask & TIOCM_DTR) {
2640 		if (val & TIOCM_DTR) {
2641 			*line_ctl |= USB_CDC_ACM_CONTROL_DTR;
2642 		} else {
2643 			*line_ctl &= ~USB_CDC_ACM_CONTROL_DTR;
2644 		}
2645 	}
2646 }
2647 
2648 
2649 /*
2650  * usbsacm_reg2mctl:
2651  *	Get Modem control status
2652  */
2653 static int
2654 usbsacm_reg2mctl(uint8_t line_ctl)
2655 {
2656 	int	val = 0;
2657 
2658 	if (line_ctl & USB_CDC_ACM_CONTROL_RTS) {
2659 		val |= TIOCM_RTS;
2660 	}
2661 	if (line_ctl & USB_CDC_ACM_CONTROL_DTR) {
2662 		val |= TIOCM_DTR;
2663 	}
2664 	if (line_ctl & USB_CDC_ACM_CONTROL_DSR) {
2665 		val |= TIOCM_DSR;
2666 	}
2667 	if (line_ctl & USB_CDC_ACM_CONTROL_RNG) {
2668 		val |= TIOCM_RI;
2669 	}
2670 
2671 	return (val);
2672 }
2673 
2674 
2675 /*
2676  * misc routines
2677  * -------------
2678  *
2679  */
2680 
2681 /*
2682  * usbsacm_put_tail:
2683  *	link a message block to tail of message
2684  *	account for the case when message is null
2685  */
2686 static void
2687 usbsacm_put_tail(mblk_t **mpp, mblk_t *bp)
2688 {
2689 	if (*mpp) {
2690 		linkb(*mpp, bp);
2691 	} else {
2692 		*mpp = bp;
2693 	}
2694 }
2695 
2696 
2697 /*
2698  * usbsacm_put_head:
2699  *	put a message block at the head of the message
2700  *	account for the case when message is null
2701  */
2702 static void
2703 usbsacm_put_head(mblk_t **mpp, mblk_t *bp)
2704 {
2705 	if (*mpp) {
2706 		linkb(bp, *mpp);
2707 	}
2708 	*mpp = bp;
2709 }
2710 
2711 
2712 /*
2713  * power management
2714  * ----------------
2715  *
2716  * usbsacm_create_pm_components:
2717  *	create PM components
2718  */
2719 static int
2720 usbsacm_create_pm_components(usbsacm_state_t *acmp)
2721 {
2722 	dev_info_t	*dip = acmp->acm_dip;
2723 	usbsacm_pm_t	*pm;
2724 	uint_t		pwr_states;
2725 	usb_dev_descr_t *dev_descr;
2726 
2727 	USB_DPRINTF_L4(PRINT_MASK_PM, acmp->acm_lh,
2728 	    "usbsacm_create_pm_components: ");
2729 
2730 	if (usb_create_pm_components(dip, &pwr_states) != USB_SUCCESS) {
2731 		USB_DPRINTF_L2(PRINT_MASK_PM, acmp->acm_lh,
2732 		    "usbsacm_create_pm_components: failed");
2733 
2734 		return (USB_SUCCESS);
2735 	}
2736 
2737 	pm = acmp->acm_pm =
2738 	    (usbsacm_pm_t *)kmem_zalloc(sizeof (usbsacm_pm_t), KM_SLEEP);
2739 
2740 	pm->pm_pwr_states = (uint8_t)pwr_states;
2741 	pm->pm_cur_power = USB_DEV_OS_FULL_PWR;
2742 	/*
2743 	 * Qualcomm CDMA card won't response the following control commands
2744 	 * after receive USB_REMOTE_WAKEUP_ENABLE. So we just set
2745 	 * pm_wakeup_enable to 0 for this specific device.
2746 	 */
2747 	dev_descr = acmp->acm_dev_data->dev_descr;
2748 	if (dev_descr->idVendor == 0x5c6 && dev_descr->idProduct == 0x3100) {
2749 		pm->pm_wakeup_enabled = 0;
2750 	} else {
2751 		pm->pm_wakeup_enabled = (usb_handle_remote_wakeup(dip,
2752 		    USB_REMOTE_WAKEUP_ENABLE) == USB_SUCCESS);
2753 	}
2754 
2755 	(void) pm_raise_power(dip, 0, USB_DEV_OS_FULL_PWR);
2756 
2757 	return (USB_SUCCESS);
2758 }
2759 
2760 
2761 /*
2762  * usbsacm_destroy_pm_components:
2763  *	destroy PM components
2764  */
2765 static void
2766 usbsacm_destroy_pm_components(usbsacm_state_t *acmp)
2767 {
2768 	usbsacm_pm_t	*pm = acmp->acm_pm;
2769 	dev_info_t	*dip = acmp->acm_dip;
2770 	int		rval;
2771 
2772 	USB_DPRINTF_L4(PRINT_MASK_CLOSE, acmp->acm_lh,
2773 	    "usbsacm_destroy_pm_components: ");
2774 
2775 	if (acmp->acm_dev_state != USB_DEV_DISCONNECTED) {
2776 		if (pm->pm_wakeup_enabled) {
2777 			rval = pm_raise_power(dip, 0, USB_DEV_OS_FULL_PWR);
2778 			if (rval != DDI_SUCCESS) {
2779 				USB_DPRINTF_L2(PRINT_MASK_PM, acmp->acm_lh,
2780 				    "usbsacm_destroy_pm_components: "
2781 				    "raising power failed (%d)", rval);
2782 			}
2783 
2784 			rval = usb_handle_remote_wakeup(dip,
2785 			    USB_REMOTE_WAKEUP_DISABLE);
2786 			if (rval != USB_SUCCESS) {
2787 				USB_DPRINTF_L2(PRINT_MASK_PM, acmp->acm_lh,
2788 				    "usbsacm_destroy_pm_components: "
2789 				    "disable remote wakeup failed (%d)", rval);
2790 			}
2791 		}
2792 
2793 		(void) pm_lower_power(dip, 0, USB_DEV_OS_PWR_OFF);
2794 	}
2795 	kmem_free((caddr_t)pm, sizeof (usbsacm_pm_t));
2796 	acmp->acm_pm = NULL;
2797 }
2798 
2799 
2800 /*
2801  * usbsacm_pm_set_busy:
2802  *	mark device busy and raise power
2803  */
2804 static void
2805 usbsacm_pm_set_busy(usbsacm_state_t *acmp)
2806 {
2807 	usbsacm_pm_t	*pm = acmp->acm_pm;
2808 	dev_info_t	*dip = acmp->acm_dip;
2809 	int		rval;
2810 
2811 	USB_DPRINTF_L4(PRINT_MASK_PM, acmp->acm_lh,
2812 	    "usbsacm_pm_set_busy: pm = 0x%p", (void *)pm);
2813 
2814 	if (pm == NULL) {
2815 
2816 		return;
2817 	}
2818 
2819 	mutex_enter(&acmp->acm_mutex);
2820 	/* if already marked busy, just increment the counter */
2821 	if (pm->pm_busy_cnt++ > 0) {
2822 		mutex_exit(&acmp->acm_mutex);
2823 
2824 		return;
2825 	}
2826 
2827 	(void) pm_busy_component(dip, 0);
2828 
2829 	if (pm->pm_cur_power == USB_DEV_OS_FULL_PWR) {
2830 		mutex_exit(&acmp->acm_mutex);
2831 
2832 		return;
2833 	}
2834 
2835 	/* need to raise power	*/
2836 	pm->pm_raise_power = B_TRUE;
2837 	mutex_exit(&acmp->acm_mutex);
2838 
2839 	rval = pm_raise_power(dip, 0, USB_DEV_OS_FULL_PWR);
2840 	if (rval != DDI_SUCCESS) {
2841 		USB_DPRINTF_L2(PRINT_MASK_PM, acmp->acm_lh,
2842 		    "usbsacm_pm_set_busy: raising power failed");
2843 	}
2844 
2845 	mutex_enter(&acmp->acm_mutex);
2846 	pm->pm_raise_power = B_FALSE;
2847 	mutex_exit(&acmp->acm_mutex);
2848 }
2849 
2850 
2851 /*
2852  * usbsacm_pm_set_idle:
2853  *	mark device idle
2854  */
2855 static void
2856 usbsacm_pm_set_idle(usbsacm_state_t *acmp)
2857 {
2858 	usbsacm_pm_t	*pm = acmp->acm_pm;
2859 	dev_info_t	*dip = acmp->acm_dip;
2860 
2861 	USB_DPRINTF_L4(PRINT_MASK_PM, acmp->acm_lh,
2862 	    "usbsacm_pm_set_idle: ");
2863 
2864 	if (pm == NULL) {
2865 
2866 		return;
2867 	}
2868 
2869 	/*
2870 	 * if more ports use the device, do not mark as yet
2871 	 */
2872 	mutex_enter(&acmp->acm_mutex);
2873 	if (--pm->pm_busy_cnt > 0) {
2874 		mutex_exit(&acmp->acm_mutex);
2875 
2876 		return;
2877 	}
2878 
2879 	if (pm) {
2880 		(void) pm_idle_component(dip, 0);
2881 	}
2882 	mutex_exit(&acmp->acm_mutex);
2883 }
2884 
2885 
2886 /*
2887  * usbsacm_pwrlvl0:
2888  *	Functions to handle power transition for OS levels 0 -> 3
2889  *	The same level as OS state, different from USB state
2890  */
2891 static int
2892 usbsacm_pwrlvl0(usbsacm_state_t *acmp)
2893 {
2894 	int		rval;
2895 	int		i;
2896 	usbsacm_port_t	*cur_port = acmp->acm_ports;
2897 
2898 	USB_DPRINTF_L4(PRINT_MASK_PM, acmp->acm_lh,
2899 	    "usbsacm_pwrlvl0: ");
2900 
2901 	switch (acmp->acm_dev_state) {
2902 	case USB_DEV_ONLINE:
2903 		/* issue USB D3 command to the device */
2904 		rval = usb_set_device_pwrlvl3(acmp->acm_dip);
2905 		ASSERT(rval == USB_SUCCESS);
2906 
2907 		if (cur_port != NULL) {
2908 			for (i = 0; i < acmp->acm_port_cnt; i++) {
2909 				cur_port = &acmp->acm_ports[i];
2910 				if (cur_port->acm_intr_ph != NULL &&
2911 				    cur_port->acm_port_state !=
2912 				    USBSACM_PORT_CLOSED) {
2913 
2914 					mutex_exit(&acmp->acm_mutex);
2915 					usb_pipe_stop_intr_polling(
2916 					    cur_port->acm_intr_ph,
2917 					    USB_FLAGS_SLEEP);
2918 					mutex_enter(&acmp->acm_mutex);
2919 
2920 					mutex_enter(&cur_port->acm_port_mutex);
2921 					cur_port->acm_intr_state =
2922 					    USBSACM_PIPE_IDLE;
2923 					mutex_exit(&cur_port->acm_port_mutex);
2924 				}
2925 			}
2926 		}
2927 
2928 		acmp->acm_dev_state = USB_DEV_PWRED_DOWN;
2929 		acmp->acm_pm->pm_cur_power = USB_DEV_OS_PWR_OFF;
2930 
2931 		/* FALLTHRU */
2932 	case USB_DEV_DISCONNECTED:
2933 	case USB_DEV_SUSPENDED:
2934 		/* allow a disconnect/cpr'ed device to go to lower power */
2935 
2936 		return (USB_SUCCESS);
2937 	case USB_DEV_PWRED_DOWN:
2938 	default:
2939 		USB_DPRINTF_L2(PRINT_MASK_PM, acmp->acm_lh,
2940 		    "usbsacm_pwrlvl0: illegal device state");
2941 
2942 		return (USB_FAILURE);
2943 	}
2944 }
2945 
2946 
2947 /*
2948  * usbsacm_pwrlvl1:
2949  *	Functions to handle power transition for OS levels 1 -> 2
2950  */
2951 static int
2952 usbsacm_pwrlvl1(usbsacm_state_t *acmp)
2953 {
2954 	/* issue USB D2 command to the device */
2955 	(void) usb_set_device_pwrlvl2(acmp->acm_dip);
2956 
2957 	return (USB_FAILURE);
2958 }
2959 
2960 
2961 /*
2962  * usbsacm_pwrlvl2:
2963  *	Functions to handle power transition for OS levels 2 -> 1
2964  */
2965 static int
2966 usbsacm_pwrlvl2(usbsacm_state_t *acmp)
2967 {
2968 	/* issue USB D1 command to the device */
2969 	(void) usb_set_device_pwrlvl1(acmp->acm_dip);
2970 
2971 	return (USB_FAILURE);
2972 }
2973 
2974 
2975 /*
2976  * usbsacm_pwrlvl3:
2977  *	Functions to handle power transition for OS levels 3 -> 0
2978  *	The same level as OS state, different from USB state
2979  */
2980 static int
2981 usbsacm_pwrlvl3(usbsacm_state_t *acmp)
2982 {
2983 	int		rval;
2984 	int		i;
2985 	usbsacm_port_t	*cur_port = acmp->acm_ports;
2986 
2987 	USB_DPRINTF_L4(PRINT_MASK_PM, acmp->acm_lh,
2988 	    "usbsacm_pwrlvl3: ");
2989 
2990 	switch (acmp->acm_dev_state) {
2991 	case USB_DEV_PWRED_DOWN:
2992 		/* Issue USB D0 command to the device here */
2993 		rval = usb_set_device_pwrlvl0(acmp->acm_dip);
2994 		ASSERT(rval == USB_SUCCESS);
2995 
2996 		if (cur_port != NULL) {
2997 			for (i = 0; i < acmp->acm_port_cnt; i++) {
2998 				cur_port = &acmp->acm_ports[i];
2999 				if (cur_port->acm_intr_ph != NULL &&
3000 				    cur_port->acm_port_state !=
3001 				    USBSACM_PORT_CLOSED) {
3002 
3003 					mutex_exit(&acmp->acm_mutex);
3004 					usbsacm_pipe_start_polling(cur_port);
3005 					mutex_enter(&acmp->acm_mutex);
3006 				}
3007 			}
3008 		}
3009 
3010 		acmp->acm_dev_state = USB_DEV_ONLINE;
3011 		acmp->acm_pm->pm_cur_power = USB_DEV_OS_FULL_PWR;
3012 
3013 		/* FALLTHRU */
3014 	case USB_DEV_ONLINE:
3015 		/* we are already in full power */
3016 
3017 		/* FALLTHRU */
3018 	case USB_DEV_DISCONNECTED:
3019 	case USB_DEV_SUSPENDED:
3020 
3021 		return (USB_SUCCESS);
3022 	default:
3023 		USB_DPRINTF_L2(PRINT_MASK_PM, acmp->acm_lh,
3024 		    "usbsacm_pwrlvl3: illegal device state");
3025 
3026 		return (USB_FAILURE);
3027 	}
3028 }
3029 
3030 
3031 /*
3032  * usbsacm_pipe_start_polling:
3033  *	start polling on the interrupt pipe
3034  */
3035 static void
3036 usbsacm_pipe_start_polling(usbsacm_port_t *acm_port)
3037 {
3038 	usb_intr_req_t	*intr;
3039 	int		rval;
3040 	usbsacm_state_t	*acmp = acm_port->acm_device;
3041 
3042 	USB_DPRINTF_L4(PRINT_MASK_ATTA, acmp->acm_lh,
3043 	    "usbsacm_pipe_start_polling: ");
3044 
3045 	if (acm_port->acm_intr_ph == NULL) {
3046 
3047 		return;
3048 	}
3049 
3050 	intr = usb_alloc_intr_req(acmp->acm_dip, 0, USB_FLAGS_SLEEP);
3051 
3052 	/*
3053 	 * If it is in interrupt context, usb_alloc_intr_req will return NULL if
3054 	 * called with SLEEP flag.
3055 	 */
3056 	if (!intr) {
3057 		USB_DPRINTF_L2(PRINT_MASK_OPEN, acmp->acm_lh,
3058 		    "usbsacm_pipe_start_polling: alloc req failed.");
3059 
3060 		return;
3061 	}
3062 
3063 	/* initialize the interrupt request. */
3064 	intr->intr_attributes = USB_ATTRS_SHORT_XFER_OK |
3065 	    USB_ATTRS_AUTOCLEARING;
3066 	mutex_enter(&acm_port->acm_port_mutex);
3067 	intr->intr_len = acm_port->acm_intr_ep_descr.wMaxPacketSize;
3068 	mutex_exit(&acm_port->acm_port_mutex);
3069 	intr->intr_client_private = (usb_opaque_t)acm_port;
3070 	intr->intr_cb = usbsacm_intr_cb;
3071 	intr->intr_exc_cb = usbsacm_intr_ex_cb;
3072 
3073 	rval = usb_pipe_intr_xfer(acm_port->acm_intr_ph, intr, USB_FLAGS_SLEEP);
3074 
3075 	mutex_enter(&acm_port->acm_port_mutex);
3076 	if (rval == USB_SUCCESS) {
3077 		acm_port->acm_intr_state = USBSACM_PIPE_BUSY;
3078 	} else {
3079 		usb_free_intr_req(intr);
3080 		acm_port->acm_intr_state = USBSACM_PIPE_IDLE;
3081 		USB_DPRINTF_L3(PRINT_MASK_OPEN, acmp->acm_lh,
3082 		    "usbsacm_pipe_start_polling: failed (%d)", rval);
3083 	}
3084 	mutex_exit(&acm_port->acm_port_mutex);
3085 }
3086 
3087 
3088 /*
3089  * usbsacm_intr_cb:
3090  *	interrupt pipe normal callback
3091  */
3092 /*ARGSUSED*/
3093 static void
3094 usbsacm_intr_cb(usb_pipe_handle_t ph, usb_intr_req_t *req)
3095 {
3096 	usbsacm_port_t	*acm_port = (usbsacm_port_t *)req->intr_client_private;
3097 	usbsacm_state_t	*acmp = acm_port->acm_device;
3098 	mblk_t		*data = req->intr_data;
3099 	int		data_len;
3100 
3101 	USB_DPRINTF_L4(PRINT_MASK_CB, acmp->acm_lh,
3102 	    "usbsacm_intr_cb: ");
3103 
3104 	data_len = (data) ? MBLKL(data) : 0;
3105 
3106 	/* check data length */
3107 	if (data_len < 8) {
3108 		USB_DPRINTF_L2(PRINT_MASK_CB, acmp->acm_lh,
3109 		    "usbsacm_intr_cb: %d packet too short", data_len);
3110 		usb_free_intr_req(req);
3111 
3112 		return;
3113 	}
3114 	req->intr_data = NULL;
3115 	usb_free_intr_req(req);
3116 
3117 	mutex_enter(&acm_port->acm_port_mutex);
3118 	/* parse interrupt data. */
3119 	usbsacm_parse_intr_data(acm_port, data);
3120 	mutex_exit(&acm_port->acm_port_mutex);
3121 }
3122 
3123 
3124 /*
3125  * usbsacm_intr_ex_cb:
3126  *	interrupt pipe exception callback
3127  */
3128 /*ARGSUSED*/
3129 static void
3130 usbsacm_intr_ex_cb(usb_pipe_handle_t ph, usb_intr_req_t *req)
3131 {
3132 	usbsacm_port_t	*acm_port = (usbsacm_port_t *)req->intr_client_private;
3133 	usbsacm_state_t	*acmp = acm_port->acm_device;
3134 	usb_cr_t	cr = req->intr_completion_reason;
3135 
3136 	USB_DPRINTF_L4(PRINT_MASK_CB, acmp->acm_lh,
3137 	    "usbsacm_intr_ex_cb: ");
3138 
3139 	usb_free_intr_req(req);
3140 
3141 	/*
3142 	 * If completion reason isn't USB_CR_PIPE_CLOSING and
3143 	 * USB_CR_STOPPED_POLLING, restart polling.
3144 	 */
3145 	if ((cr != USB_CR_PIPE_CLOSING) && (cr != USB_CR_STOPPED_POLLING)) {
3146 		mutex_enter(&acmp->acm_mutex);
3147 
3148 		if (acmp->acm_dev_state != USB_DEV_ONLINE) {
3149 
3150 			USB_DPRINTF_L3(PRINT_MASK_CB, acmp->acm_lh,
3151 			    "usbsacm_intr_ex_cb: state = %d",
3152 			    acmp->acm_dev_state);
3153 
3154 			mutex_exit(&acmp->acm_mutex);
3155 
3156 			return;
3157 		}
3158 		mutex_exit(&acmp->acm_mutex);
3159 
3160 		usbsacm_pipe_start_polling(acm_port);
3161 	}
3162 }
3163 
3164 
3165 /*
3166  * usbsacm_parse_intr_data:
3167  *	Parse data received from interrupt callback
3168  */
3169 static void
3170 usbsacm_parse_intr_data(usbsacm_port_t *acm_port, mblk_t *data)
3171 {
3172 	usbsacm_state_t	*acmp = acm_port->acm_device;
3173 	uint8_t		bmRequestType;
3174 	uint8_t		bNotification;
3175 	uint16_t	wValue;
3176 	uint16_t	wLength;
3177 	uint16_t	wData;
3178 
3179 	USB_DPRINTF_L4(PRINT_MASK_ALL, acmp->acm_lh,
3180 	    "usbsacm_parse_intr_data: ");
3181 
3182 	bmRequestType = data->b_rptr[0];
3183 	bNotification = data->b_rptr[1];
3184 	/*
3185 	 * If Notification type is NETWORK_CONNECTION, wValue is 0 or 1,
3186 	 * mLength is 0. If Notification type is SERIAL_TYPE, mValue is 0,
3187 	 * mLength is 2. So we directly get the value from the byte.
3188 	 */
3189 	wValue = data->b_rptr[2];
3190 	wLength = data->b_rptr[6];
3191 
3192 	if (bmRequestType != USB_CDC_NOTIFICATION_REQUEST_TYPE) {
3193 		USB_DPRINTF_L2(PRINT_MASK_CB, acmp->acm_lh,
3194 		    "usbsacm_parse_intr_data: unknown request type - 0x%x",
3195 		    bmRequestType);
3196 
3197 		freemsg(data);
3198 
3199 		return;
3200 	}
3201 
3202 	/*
3203 	 * Check the return value of device
3204 	 */
3205 	switch (bNotification) {
3206 	case USB_CDC_NOTIFICATION_NETWORK_CONNECTION:
3207 		USB_DPRINTF_L3(PRINT_MASK_CB, acmp->acm_lh,
3208 		    "usbsacm_parse_intr_data: %s network!",
3209 		    wValue ? "connected to" :"disconnected from");
3210 
3211 		break;
3212 	case USB_CDC_NOTIFICATION_RESPONSE_AVAILABLE:
3213 		USB_DPRINTF_L3(PRINT_MASK_CB, acmp->acm_lh,
3214 		    "usbsacm_parse_intr_data: A response is a available.");
3215 
3216 		break;
3217 	case USB_CDC_NOTIFICATION_SERIAL_STATE:
3218 		/* check the parameter's length. */
3219 		if (wLength != 2) {
3220 
3221 			USB_DPRINTF_L3(PRINT_MASK_CB, acmp->acm_lh,
3222 			    "usbsacm_parse_intr_data: error data length.");
3223 		} else {
3224 			/*
3225 			 * The Data field is a bitmapped value that contains
3226 			 * the current state of carrier detect, transmission
3227 			 * carrier, break, ring signal and device overrun
3228 			 * error.
3229 			 */
3230 			wData = data->b_rptr[8];
3231 			/*
3232 			 * Check the serial state of the current port.
3233 			 */
3234 			if (wData & USB_CDC_ACM_CONTROL_DCD) {
3235 
3236 				USB_DPRINTF_L3(PRINT_MASK_CB, acmp->acm_lh,
3237 				    "usbsacm_parse_intr_data: "
3238 				    "receiver carrier is set.");
3239 			}
3240 			if (wData & USB_CDC_ACM_CONTROL_DSR) {
3241 
3242 				USB_DPRINTF_L3(PRINT_MASK_CB, acmp->acm_lh,
3243 				    "usbsacm_parse_intr_data: "
3244 				    "transmission carrier is set.");
3245 
3246 				acm_port->acm_mctlin |= USB_CDC_ACM_CONTROL_DSR;
3247 			}
3248 			if (wData & USB_CDC_ACM_CONTROL_BREAK) {
3249 
3250 				USB_DPRINTF_L3(PRINT_MASK_CB, acmp->acm_lh,
3251 				    "usbsacm_parse_intr_data: "
3252 				    "break detection mechanism is set.");
3253 			}
3254 			if (wData & USB_CDC_ACM_CONTROL_RNG) {
3255 
3256 				USB_DPRINTF_L3(PRINT_MASK_CB, acmp->acm_lh,
3257 				    "usbsacm_parse_intr_data: "
3258 				    "ring signal detection is set.");
3259 
3260 				acm_port->acm_mctlin |= USB_CDC_ACM_CONTROL_RNG;
3261 			}
3262 			if (wData & USB_CDC_ACM_CONTROL_FRAMING) {
3263 
3264 				USB_DPRINTF_L3(PRINT_MASK_CB, acmp->acm_lh,
3265 				    "usbsacm_parse_intr_data: "
3266 				    "A framing error has occurred.");
3267 			}
3268 			if (wData & USB_CDC_ACM_CONTROL_PARITY) {
3269 
3270 				USB_DPRINTF_L3(PRINT_MASK_CB, acmp->acm_lh,
3271 				    "usbsacm_parse_intr_data: "
3272 				    "A parity error has occurred.");
3273 			}
3274 			if (wData & USB_CDC_ACM_CONTROL_OVERRUN) {
3275 
3276 				USB_DPRINTF_L3(PRINT_MASK_CB, acmp->acm_lh,
3277 				    "usbsacm_parse_intr_data: "
3278 				    "Received data has been discarded "
3279 				    "due to overrun.");
3280 			}
3281 		}
3282 
3283 		break;
3284 	default:
3285 		USB_DPRINTF_L3(PRINT_MASK_CB, acmp->acm_lh,
3286 		    "usbsacm_parse_intr_data: unknown notification - 0x%x!",
3287 		    bNotification);
3288 
3289 		break;
3290 	}
3291 
3292 	freemsg(data);
3293 }
3294