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source: mainline/uspace/drv/bus/usb/ohci/root_hub.c@ f8dfb40

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Last change on this file since f8dfb40 was 19746a96, checked in by Jan Vesely <jano.vesely@…>, 14 years ago
ohci: Add root hub mutex to prevent interrupt request handling race.
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1	/*
2	* Copyright (c) 2011 Jan Vesely
3	* All rights reserved.
4	*
5	* Redistribution and use in source and binary forms, with or without
6	* modification, are permitted provided that the following conditions
7	* are met:
8	*
9	* - Redistributions of source code must retain the above copyright
10	* notice, this list of conditions and the following disclaimer.
11	* - Redistributions in binary form must reproduce the above copyright
12	* notice, this list of conditions and the following disclaimer in the
13	* documentation and/or other materials provided with the distribution.
14	* - The name of the author may not be used to endorse or promote products
15	* derived from this software without specific prior written permission.
16	*
17	* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
18	* IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
19	* OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
20	* IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
21	* INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
22	* NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
23	* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
24	* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
25	* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
26	* THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
27	*/
28	/** @addtogroup drvusbohci
29	* @{
30	*/
31	/** @file
32	* @brief OHCI driver
33	*/
34	#include <assert.h>
35	#include <errno.h>
36	#include <str_error.h>
37	#include <fibril_synch.h>
38
39	#include <usb/debug.h>
40	#include <usb/dev/request.h>
41	#include <usb/classes/hub.h>
42
43	#include "root_hub.h"
44	#include <usb/classes/classes.h>
45	#include <usb/classes/hub.h>
46	#include <usb/dev/driver.h>
47	#include "ohci_regs.h"
48
49	/**
50	* standart device descriptor for ohci root hub
51	*/
52	static const usb_standard_device_descriptor_t ohci_rh_device_descriptor = {
53	.configuration_count = 1,
54	.descriptor_type = USB_DESCTYPE_DEVICE,
55	.device_class = USB_CLASS_HUB,
56	.device_protocol = 0,
57	.device_subclass = 0,
58	.device_version = 0,
59	.length = sizeof(usb_standard_device_descriptor_t),
60	.max_packet_size = 64,
61	.vendor_id = 0x16db, /* HelenOS does not have USB vendor ID assigned.*/
62	.product_id = 0x0001,
63	.str_serial_number = 0,
64	.usb_spec_version = 0x110,
65	};
66
67	/**
68	* standart configuration descriptor with filled common values
69	* for ohci root hubs
70	*/
71	static const usb_standard_configuration_descriptor_t ohci_rh_conf_descriptor = {
72	.attributes = 1 << 7,
73	.configuration_number = 1,
74	.descriptor_type = USB_DESCTYPE_CONFIGURATION,
75	.interface_count = 1,
76	.length = sizeof(usb_standard_configuration_descriptor_t),
77	.max_power = 0, /* root hubs don't need no power */
78	.str_configuration = 0,
79	};
80
81	/**
82	* standart ohci root hub interface descriptor
83	*/
84	static const usb_standard_interface_descriptor_t ohci_rh_iface_descriptor = {
85	.alternate_setting = 0,
86	.descriptor_type = USB_DESCTYPE_INTERFACE,
87	.endpoint_count = 1,
88	.interface_class = USB_CLASS_HUB,
89	.interface_number = 1,
90	.interface_protocol = 0,
91	.interface_subclass = 0,
92	.length = sizeof(usb_standard_interface_descriptor_t),
93	.str_interface = 0,
94	};
95
96	/**
97	* standart ohci root hub endpoint descriptor
98	*/
99	static const usb_standard_endpoint_descriptor_t ohci_rh_ep_descriptor = {
100	.attributes = USB_TRANSFER_INTERRUPT,
101	.descriptor_type = USB_DESCTYPE_ENDPOINT,
102	.endpoint_address = 1 + (1 << 7),
103	.length = sizeof(usb_standard_endpoint_descriptor_t),
104	.max_packet_size = 2,
105	.poll_interval = 255,
106	};
107
108	static void create_serialized_hub_descriptor(rh_t *instance);
109	static void rh_init_descriptors(rh_t *instance);
110	static uint16_t create_interrupt_mask(const rh_t *instance);
111	static int get_status(const rh_t instance, usb_transfer_batch_t request);
112	static int get_descriptor(const rh_t instance, usb_transfer_batch_t request);
113	static int set_feature(const rh_t instance, usb_transfer_batch_t request);
114	static int clear_feature(const rh_t instance, usb_transfer_batch_t request);
115	static int set_feature_port(
116	const rh_t *instance, uint16_t feature, uint16_t port);
117	static int clear_feature_port(
118	const rh_t *instance, uint16_t feature, uint16_t port);
119	static int control_request(rh_t instance, usb_transfer_batch_t request);
120	static inline void interrupt_request(
121	usb_transfer_batch_t *request, uint16_t mask, size_t size)
122	{
123	assert(request);
124
125	request->transfered_size = size;
126	usb_transfer_batch_finish_error(request, &mask, size, EOK);
127	}
128
129	#define TRANSFER_OK(bytes) \
130	do { \
131	request->transfered_size = bytes; \
132	return EOK; \
133	} while (0)
134
135	/** Root Hub driver structure initialization.
136	*
137	* Reads info registers and prepares descriptors. Sets power mode.
138	*/
139	void rh_init(rh_t instance, ohci_regs_t regs)
140	{
141	assert(instance);
142	assert(regs);
143
144	instance->registers = regs;
145	instance->port_count =
146	(instance->registers->rh_desc_a >> RHDA_NDS_SHIFT) & RHDA_NDS_MASK;
147	if (instance->port_count > 15) {
148	usb_log_warning("OHCI specification does not allow more than 15"
149	" ports. Max 15 ports will be used");
150	instance->port_count = 15;
151	}
152
153	/* Don't forget the hub status bit and round up */
154	instance->interrupt_mask_size = 1 + (instance->port_count / 8);
155	instance->unfinished_interrupt_transfer = NULL;
156
157	#if defined OHCI_POWER_SWITCH_no
158	/* Set port power mode to no power-switching. (always on) */
159	instance->registers->rh_desc_a \|= RHDA_NPS_FLAG;
160
161	/* Set to no over-current reporting */
162	instance->registers->rh_desc_a \|= RHDA_NOCP_FLAG;
163
164	#elif defined OHCI_POWER_SWITCH_ganged
165	/* Set port power mode to no ganged power-switching. */
166	instance->registers->rh_desc_a &= ~RHDA_NPS_FLAG;
167	instance->registers->rh_desc_a &= ~RHDA_PSM_FLAG;
168	instance->registers->rh_status = RHS_CLEAR_GLOBAL_POWER;
169
170	/* Set to global over-current */
171	instance->registers->rh_desc_a &= ~RHDA_NOCP_FLAG;
172	instance->registers->rh_desc_a &= ~RHDA_OCPM_FLAG;
173	#else
174	/* Set port power mode to no per port power-switching. */
175	instance->registers->rh_desc_a &= ~RHDA_NPS_FLAG;
176	instance->registers->rh_desc_a \|= RHDA_PSM_FLAG;
177
178	/* Control all ports by global switch and turn them off */
179	instance->registers->rh_desc_b &= (RHDB_PCC_MASK << RHDB_PCC_SHIFT);
180	instance->registers->rh_status = RHS_CLEAR_GLOBAL_POWER;
181
182	/* Return control to per port state */
183	instance->registers->rh_desc_b \|=
184	((1 << (instance->port_count + 1)) - 1) << RHDB_PCC_SHIFT;
185
186	/* Set per port over-current */
187	instance->registers->rh_desc_a &= ~RHDA_NOCP_FLAG;
188	instance->registers->rh_desc_a \|= RHDA_OCPM_FLAG;
189	#endif
190
191	fibril_mutex_initialize(&instance->guard);
192	rh_init_descriptors(instance);
193
194	usb_log_info("Root hub (%zu ports) initialized.\n",
195	instance->port_count);
196	}
197	/----------------------------------------------------------------------------/
198	/**
199	* Process root hub request.
200	*
201	* @param instance Root hub instance
202	* @param request Structure containing both request and response information
203	* @return Error code
204	*/
205	void rh_request(rh_t instance, usb_transfer_batch_t request)
206	{
207	assert(instance);
208	assert(request);
209
210	switch (request->ep->transfer_type)
211	{
212	case USB_TRANSFER_CONTROL:
213	usb_log_debug("Root hub got CONTROL packet\n");
214	const int ret = control_request(instance, request);
215	usb_transfer_batch_finish_error(request, NULL, 0, ret);
216	break;
217	case USB_TRANSFER_INTERRUPT:
218	usb_log_debug("Root hub got INTERRUPT packet\n");
219	fibril_mutex_lock(&instance->guard);
220	assert(instance->unfinished_interrupt_transfer == NULL);
221	const uint16_t mask = create_interrupt_mask(instance);
222	if (mask == 0) {
223	usb_log_debug("No changes..\n");
224	instance->unfinished_interrupt_transfer = request;
225	fibril_mutex_unlock(&instance->guard);
226	return;
227	}
228	usb_log_debug("Processing changes...\n");
229	interrupt_request(request, mask, instance->interrupt_mask_size);
230	fibril_mutex_unlock(&instance->guard);
231	break;
232
233	default:
234	usb_log_error("Root hub got unsupported request.\n");
235	usb_transfer_batch_finish_error(request, NULL, 0, EINVAL);
236	}
237	usb_transfer_batch_dispose(request);
238	}
239	/----------------------------------------------------------------------------/
240	/**
241	* Process interrupt on a hub device.
242	*
243	* If there is no pending interrupt transfer, nothing happens.
244	* @param instance
245	*/
246	void rh_interrupt(rh_t *instance)
247	{
248	assert(instance);
249
250	fibril_mutex_lock(&instance->guard);
251	if (instance->unfinished_interrupt_transfer) {
252	usb_log_debug("Finalizing interrupt transfer\n");
253	const uint16_t mask = create_interrupt_mask(instance);
254	interrupt_request(instance->unfinished_interrupt_transfer,
255	mask, instance->interrupt_mask_size);
256	usb_transfer_batch_dispose(
257	instance->unfinished_interrupt_transfer);
258	instance->unfinished_interrupt_transfer = NULL;
259	}
260	fibril_mutex_unlock(&instance->guard);
261	}
262	/----------------------------------------------------------------------------/
263	/**
264	* Create hub descriptor.
265	*
266	* For descriptor format see USB hub specification (chapter 11.15.2.1, pg. 263)
267	*
268	* @param instance Root hub instance
269	* @return Error code
270	*/
271	void create_serialized_hub_descriptor(rh_t *instance)
272	{
273	assert(instance);
274
275	/* 7 bytes + 2 port bit fields (port count + global bit) */
276	const size_t size = 7 + (instance->interrupt_mask_size * 2);
277	assert(size <= HUB_DESCRIPTOR_MAX_SIZE);
278	instance->hub_descriptor_size = size;
279
280	const uint32_t hub_desc = instance->registers->rh_desc_a;
281	const uint32_t port_desc = instance->registers->rh_desc_b;
282
283	/* bDescLength */
284	instance->descriptors.hub[0] = size;
285	/* bDescriptorType */
286	instance->descriptors.hub[1] = USB_DESCTYPE_HUB;
287	/* bNmbrPorts */
288	instance->descriptors.hub[2] = instance->port_count;
289	/* wHubCharacteristics */
290	instance->descriptors.hub[3] = 0 \|
291	/* The lowest 2 bits indicate power switching mode */
292	(((hub_desc & RHDA_PSM_FLAG) ? 1 : 0) << 0) \|
293	(((hub_desc & RHDA_NPS_FLAG) ? 1 : 0) << 1) \|
294	/* Bit 3 indicates device type (compound device) */
295	(((hub_desc & RHDA_DT_FLAG) ? 1 : 0) << 2) \|
296	/* Bits 4,5 indicate over-current protection mode */
297	(((hub_desc & RHDA_OCPM_FLAG) ? 1 : 0) << 3) \|
298	(((hub_desc & RHDA_NOCP_FLAG) ? 1 : 0) << 4);
299
300	/* Reserved */
301	instance->descriptors.hub[4] = 0;
302	/* bPwrOn2PwrGood */
303	instance->descriptors.hub[5] =
304	(hub_desc >> RHDA_POTPGT_SHIFT) & RHDA_POTPGT_MASK;
305	/* bHubContrCurrent, root hubs don't need no power. */
306	instance->descriptors.hub[6] = 0;
307
308	/* Device Removable and some legacy 1.0 stuff*/
309	instance->descriptors.hub[7] =
310	(port_desc >> RHDB_DR_SHIFT) & RHDB_DR_MASK & 0xff;
311	instance->descriptors.hub[8] = 0xff;
312	if (instance->interrupt_mask_size == 2) {
313	instance->descriptors.hub[8] =
314	(port_desc >> RHDB_DR_SHIFT) & RHDB_DR_MASK >> 8;
315	instance->descriptors.hub[9] = 0xff;
316	instance->descriptors.hub[10] = 0xff;
317	}
318	}
319	/----------------------------------------------------------------------------/
320	/** Initialize hub descriptors.
321	*
322	* A full configuration descriptor is assembled. The configuration and endpoint
323	* descriptors have local modifications.
324	* @param instance Root hub instance
325	* @return Error code
326	*/
327	void rh_init_descriptors(rh_t *instance)
328	{
329	assert(instance);
330
331	instance->descriptors.configuration = ohci_rh_conf_descriptor;
332	instance->descriptors.interface = ohci_rh_iface_descriptor;
333	instance->descriptors.endpoint = ohci_rh_ep_descriptor;
334	create_serialized_hub_descriptor(instance);
335
336	instance->descriptors.endpoint.max_packet_size =
337	instance->interrupt_mask_size;
338
339	instance->descriptors.configuration.total_length =
340	sizeof(usb_standard_configuration_descriptor_t) +
341	sizeof(usb_standard_endpoint_descriptor_t) +
342	sizeof(usb_standard_interface_descriptor_t) +
343	instance->hub_descriptor_size;
344	}
345	/----------------------------------------------------------------------------/
346	/**
347	* Create bitmap of changes to answer status interrupt.
348	*
349	* Result contains bitmap where bit 0 indicates change on hub and
350	* bit i indicates change on i`th port (i>0). For more info see
351	* Hub and Port status bitmap specification in USB specification
352	* (chapter 11.13.4).
353	* @param instance root hub instance
354	* @return Mask of changes.
355	*/
356	uint16_t create_interrupt_mask(const rh_t *instance)
357	{
358	assert(instance);
359	uint16_t mask = 0;
360
361	/* Only local power source change and over-current change can happen */
362	if (instance->registers->rh_status & (RHS_LPSC_FLAG \| RHS_OCIC_FLAG)) {
363	mask \|= 1;
364	}
365	for (size_t port = 1; port <= instance->port_count; ++port) {
366	/* Write-clean bits are those that indicate change */
367	if (RHPS_CHANGE_WC_MASK
368	& instance->registers->rh_port_status[port - 1]) {
369
370	mask \|= (1 << port);
371	}
372	}
373	/* USB is little endian */
374	return host2uint32_t_le(mask);
375	}
376	/----------------------------------------------------------------------------/
377	/**
378	* Create answer to status request.
379	*
380	* This might be either hub status or port status request. If neither,
381	* ENOTSUP is returned.
382	* @param instance root hub instance
383	* @param request structure containing both request and response information
384	* @return error code
385	*/
386	int get_status(const rh_t instance, usb_transfer_batch_t request)
387	{
388	assert(instance);
389	assert(request);
390
391	const usb_device_request_setup_packet_t *request_packet =
392	(usb_device_request_setup_packet_t*)request->setup_buffer;
393
394	if (request->buffer_size < 4) {
395	usb_log_error("Buffer too small for get status request.\n");
396	return EOVERFLOW;
397	}
398
399	/* Hub status: just filter relevant info from rh_status reg */
400	if (request_packet->request_type == USB_HUB_REQ_TYPE_GET_HUB_STATUS) {
401	const uint32_t data = instance->registers->rh_status &
402	(RHS_LPS_FLAG \| RHS_LPSC_FLAG \| RHS_OCI_FLAG \| RHS_OCIC_FLAG);
403	memcpy(request->buffer, &data, sizeof(data));
404	TRANSFER_OK(sizeof(data));
405	}
406
407	/* Copy appropriate rh_port_status register, OHCI designers were
408	* kind enough to make those bit values match USB specification */
409	if (request_packet->request_type == USB_HUB_REQ_TYPE_GET_PORT_STATUS) {
410	const unsigned port = request_packet->index;
411	if (port < 1 \|\| port > instance->port_count)
412	return EINVAL;
413
414	const uint32_t data =
415	instance->registers->rh_port_status[port - 1];
416	memcpy(request->buffer, &data, sizeof(data));
417	TRANSFER_OK(sizeof(data));
418	}
419
420	return ENOTSUP;
421	}
422	/----------------------------------------------------------------------------/
423	/**
424	* Create answer to a descriptor request.
425	*
426	* This might be a request for standard (configuration, device, endpoint or
427	* interface) or device specific (hub) descriptor.
428	* @param instance Root hub instance
429	* @param request Structure containing both request and response information
430	* @return Error code
431	*/
432	int get_descriptor(const rh_t instance, usb_transfer_batch_t request)
433	{
434	assert(instance);
435	assert(request);
436
437	const usb_device_request_setup_packet_t *setup_request =
438	(usb_device_request_setup_packet_t *) request->setup_buffer;
439	size_t size;
440	const void *descriptor = NULL;
441	const uint16_t setup_request_value = setup_request->value_high;
442	//(setup_request->value_low << 8);
443	switch (setup_request_value)
444	{
445	case USB_DESCTYPE_HUB:
446	usb_log_debug2("USB_DESCTYPE_HUB\n");
447	/* Hub descriptor was generated locally */
448	descriptor = instance->descriptors.hub;
449	size = instance->hub_descriptor_size;
450	break;
451
452	case USB_DESCTYPE_DEVICE:
453	usb_log_debug2("USB_DESCTYPE_DEVICE\n");
454	/* Device descriptor is shared (No one should ask for it)*/
455	descriptor = &ohci_rh_device_descriptor;
456	size = sizeof(ohci_rh_device_descriptor);
457	break;
458
459	case USB_DESCTYPE_CONFIGURATION:
460	usb_log_debug2("USB_DESCTYPE_CONFIGURATION\n");
461	/* Start with configuration and add others depending on
462	* request size */
463	descriptor = &instance->descriptors;
464	size = instance->descriptors.configuration.total_length;
465	break;
466
467	case USB_DESCTYPE_INTERFACE:
468	usb_log_debug2("USB_DESCTYPE_INTERFACE\n");
469	/* Use local interface descriptor. There is one and it
470	* might be modified */
471	descriptor = &instance->descriptors.interface;
472	size = sizeof(instance->descriptors.interface);
473	break;
474
475	case USB_DESCTYPE_ENDPOINT:
476	/* Use local endpoint descriptor. There is one
477	* it might have max_packet_size field modified*/
478	usb_log_debug2("USB_DESCTYPE_ENDPOINT\n");
479	descriptor = &instance->descriptors.endpoint;
480	size = sizeof(instance->descriptors.endpoint);
481	break;
482
483	default:
484	usb_log_debug2("USB_DESCTYPE_EINVAL %d \n"
485	"\ttype %d\n\trequest %d\n\tvalue "
486	"%d\n\tindex %d\n\tlen %d\n ",
487	setup_request->value,
488	setup_request->request_type, setup_request->request,
489	setup_request_value, setup_request->index,
490	setup_request->length);
491	return EINVAL;
492	}
493	if (request->buffer_size < size) {
494	size = request->buffer_size;
495	}
496
497	memcpy(request->buffer, descriptor, size);
498	TRANSFER_OK(size);
499	}
500	/----------------------------------------------------------------------------/
501	/**
502	* process feature-enabling request on hub
503	*
504	* @param instance root hub instance
505	* @param feature feature selector
506	* @param port port number, counted from 1
507	* @param enable enable or disable the specified feature
508	* @return error code
509	*/
510	int set_feature_port(const rh_t *instance, uint16_t feature, uint16_t port)
511	{
512	assert(instance);
513
514	if (port < 1 \|\| port > instance->port_count)
515	return EINVAL;
516
517	switch (feature)
518	{
519	case USB_HUB_FEATURE_PORT_POWER: //8
520	/* No power switching */
521	if (instance->registers->rh_desc_a & RHDA_NPS_FLAG)
522	return EOK;
523	/* Ganged power switching */
524	if (!(instance->registers->rh_desc_a & RHDA_PSM_FLAG)) {
525	instance->registers->rh_status = RHS_SET_GLOBAL_POWER;
526	return EOK;
527	}
528	case USB_HUB_FEATURE_PORT_ENABLE: //1
529	case USB_HUB_FEATURE_PORT_SUSPEND: //2
530	case USB_HUB_FEATURE_PORT_RESET: //4
531	/* Nice thing is that these shifts correspond to the position
532	* of control bits in register */
533	instance->registers->rh_port_status[port - 1] = (1 << feature);
534	return EOK;
535	default:
536	return ENOTSUP;
537	}
538	}
539	/----------------------------------------------------------------------------/
540	/**
541	* Process feature clear request.
542	*
543	* @param instance root hub instance
544	* @param feature feature selector
545	* @param port port number, counted from 1
546	* @param enable enable or disable the specified feature
547	* @return error code
548	*/
549	int clear_feature_port(const rh_t *instance, uint16_t feature, uint16_t port)
550	{
551	assert(instance);
552
553	if (port < 1 \|\| port > instance->port_count)
554	return EINVAL;
555
556	/* Enabled features to clear: see page 269 of USB specs */
557	switch (feature)
558	{
559	case USB_HUB_FEATURE_PORT_POWER: //8
560	/* No power switching */
561	if (instance->registers->rh_desc_a & RHDA_NPS_FLAG)
562	return ENOTSUP;
563	/* Ganged power switching */
564	if (!(instance->registers->rh_desc_a & RHDA_PSM_FLAG)) {
565	instance->registers->rh_status = RHS_CLEAR_GLOBAL_POWER;
566	return EOK;
567	}
568	instance->registers->rh_port_status[port - 1] =
569	RHPS_CLEAR_PORT_POWER;
570	return EOK;
571
572	case USB_HUB_FEATURE_PORT_ENABLE: //1
573	instance->registers->rh_port_status[port - 1] =
574	RHPS_CLEAR_PORT_ENABLE;
575	return EOK;
576
577	case USB_HUB_FEATURE_PORT_SUSPEND: //2
578	instance->registers->rh_port_status[port - 1] =
579	RHPS_CLEAR_PORT_SUSPEND;
580	return EOK;
581
582	case USB_HUB_FEATURE_C_PORT_CONNECTION: //16
583	case USB_HUB_FEATURE_C_PORT_ENABLE: //17
584	case USB_HUB_FEATURE_C_PORT_SUSPEND: //18
585	case USB_HUB_FEATURE_C_PORT_OVER_CURRENT: //19
586	case USB_HUB_FEATURE_C_PORT_RESET: //20
587	/* Nice thing is that these shifts correspond to the position
588	* of control bits in register */
589	instance->registers->rh_port_status[port - 1] = (1 << feature);
590	return EOK;
591
592	default:
593	return ENOTSUP;
594	}
595	}
596	/----------------------------------------------------------------------------/
597	/**
598	* process one of requests that do not request nor carry additional data
599	*
600	* Request can be one of USB_DEVREQ_CLEAR_FEATURE, USB_DEVREQ_SET_FEATURE or
601	* USB_DEVREQ_SET_ADDRESS.
602	* @param instance root hub instance
603	* @param request structure containing both request and response information
604	* @return error code
605	*/
606	int set_feature(const rh_t instance, usb_transfer_batch_t request)
607	{
608	assert(instance);
609	assert(request);
610
611	const usb_device_request_setup_packet_t *setup_request =
612	(usb_device_request_setup_packet_t *) request->setup_buffer;
613	switch (setup_request->request_type)
614	{
615	case USB_HUB_REQ_TYPE_SET_PORT_FEATURE:
616	usb_log_debug("USB_HUB_REQ_TYPE_SET_PORT_FEATURE\n");
617	return set_feature_port(instance,
618	setup_request->value, setup_request->index);
619
620	case USB_HUB_REQ_TYPE_SET_HUB_FEATURE:
621	/* Chapter 11.16.2 specifies that hub can be recipient
622	* only for C_HUB_LOCAL_POWER and C_HUB_OVER_CURRENT
623	* features. It makes no sense to SET either. */
624	usb_log_error("Invalid HUB set feature request.\n");
625	return ENOTSUP;
626	default:
627	usb_log_error("Invalid set feature request type: %d\n",
628	setup_request->request_type);
629	return EINVAL;
630	}
631	}
632	/----------------------------------------------------------------------------/
633	/**
634	* process one of requests that do not request nor carry additional data
635	*
636	* Request can be one of USB_DEVREQ_CLEAR_FEATURE, USB_DEVREQ_SET_FEATURE or
637	* USB_DEVREQ_SET_ADDRESS.
638	* @param instance root hub instance
639	* @param request structure containing both request and response information
640	* @return error code
641	*/
642	int clear_feature(const rh_t instance, usb_transfer_batch_t request)
643	{
644	assert(instance);
645	assert(request);
646
647	const usb_device_request_setup_packet_t *setup_request =
648	(usb_device_request_setup_packet_t *) request->setup_buffer;
649
650	request->transfered_size = 0;
651
652	switch (setup_request->request_type)
653	{
654	case USB_HUB_REQ_TYPE_CLEAR_PORT_FEATURE:
655	usb_log_debug("USB_HUB_REQ_TYPE_CLEAR_PORT_FEATURE\n");
656	return clear_feature_port(instance,
657	setup_request->value, setup_request->index);
658
659	case USB_HUB_REQ_TYPE_CLEAR_HUB_FEATURE:
660	usb_log_debug("USB_HUB_REQ_TYPE_CLEAR_HUB_FEATURE\n");
661	/*
662	* Chapter 11.16.2 specifies that only C_HUB_LOCAL_POWER and
663	* C_HUB_OVER_CURRENT are supported.
664	* C_HUB_OVER_CURRENT is represented by OHCI RHS_OCIC_FLAG.
665	* C_HUB_LOCAL_POWER is not supported
666	* as root hubs do not support local power status feature.
667	* (OHCI pg. 127) */
668	if (setup_request->value == USB_HUB_FEATURE_C_HUB_OVER_CURRENT) {
669	instance->registers->rh_status = RHS_OCIC_FLAG;
670	TRANSFER_OK(0);
671	}
672	default:
673	usb_log_error("Invalid clear feature request type: %d\n",
674	setup_request->request_type);
675	return EINVAL;
676	}
677	}
678	/----------------------------------------------------------------------------/
679	/**
680	* Process hub control request.
681	*
682	* If needed, writes answer into the request structure.
683	* Request can be one of
684	* USB_DEVREQ_GET_STATUS,
685	* USB_DEVREQ_GET_DESCRIPTOR,
686	* USB_DEVREQ_GET_CONFIGURATION,
687	* USB_DEVREQ_CLEAR_FEATURE,
688	* USB_DEVREQ_SET_FEATURE,
689	* USB_DEVREQ_SET_ADDRESS,
690	* USB_DEVREQ_SET_DESCRIPTOR or
691	* USB_DEVREQ_SET_CONFIGURATION.
692	*
693	* @param instance root hub instance
694	* @param request structure containing both request and response information
695	* @return error code
696	*/
697	int control_request(rh_t instance, usb_transfer_batch_t request)
698	{
699	assert(instance);
700	assert(request);
701
702	if (!request->setup_buffer) {
703	usb_log_error("Root hub received empty transaction!");
704	return EINVAL;
705	}
706
707	if (sizeof(usb_device_request_setup_packet_t) > request->setup_size) {
708	usb_log_error("Setup packet too small\n");
709	return EOVERFLOW;
710	}
711
712	usb_log_debug2("CTRL packet: %s.\n",
713	usb_debug_str_buffer((uint8_t *) request->setup_buffer, 8, 8));
714	const usb_device_request_setup_packet_t *setup_request =
715	(usb_device_request_setup_packet_t *) request->setup_buffer;
716	switch (setup_request->request)
717	{
718	case USB_DEVREQ_GET_STATUS:
719	usb_log_debug("USB_DEVREQ_GET_STATUS\n");
720	return get_status(instance, request);
721
722	case USB_DEVREQ_GET_DESCRIPTOR:
723	usb_log_debug("USB_DEVREQ_GET_DESCRIPTOR\n");
724	return get_descriptor(instance, request);
725
726	case USB_DEVREQ_GET_CONFIGURATION:
727	usb_log_debug("USB_DEVREQ_GET_CONFIGURATION\n");
728	if (request->buffer_size != 1)
729	return EINVAL;
730	request->buffer[0] = 1;
731	TRANSFER_OK(1);
732
733	case USB_DEVREQ_CLEAR_FEATURE:
734	usb_log_debug2("Processing request without "
735	"additional data\n");
736	return clear_feature(instance, request);
737
738	case USB_DEVREQ_SET_FEATURE:
739	usb_log_debug2("Processing request without "
740	"additional data\n");
741	return set_feature(instance, request);
742
743	case USB_DEVREQ_SET_ADDRESS:
744	usb_log_debug("USB_DEVREQ_SET_ADDRESS\n");
745	instance->address = setup_request->value;
746	TRANSFER_OK(0);
747
748	case USB_DEVREQ_SET_CONFIGURATION:
749	usb_log_debug("USB_DEVREQ_SET_CONFIGURATION\n");
750	/* We don't need to do anything */
751	TRANSFER_OK(0);
752
753	case USB_DEVREQ_SET_DESCRIPTOR: /* Not supported by OHCI RH */
754	default:
755	usb_log_error("Received unsupported request: %d.\n",
756	setup_request->request);
757	return ENOTSUP;
758	}
759	}
760
761	/**
762	* @}
763	*/

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