xref: /linux/drivers/hid/amd-sfh-hid/amd_sfh_client.c (revision 55d0969c451159cff86949b38c39171cab962069)
1 // SPDX-License-Identifier: GPL-2.0-or-later
2 /*
3  *  AMD SFH Client Layer
4  *  Copyright 2020-2021 Advanced Micro Devices, Inc.
5  *  Authors: Nehal Bakulchandra Shah <Nehal-Bakulchandra.Shah@amd.com>
6  *	     Sandeep Singh <Sandeep.singh@amd.com>
7  *	     Basavaraj Natikar <Basavaraj.Natikar@amd.com>
8  */
9 
10 #include <linux/dma-mapping.h>
11 #include <linux/hid.h>
12 #include <linux/list.h>
13 #include <linux/slab.h>
14 #include <linux/workqueue.h>
15 #include <linux/errno.h>
16 
17 #include "hid_descriptor/amd_sfh_hid_desc.h"
18 #include "amd_sfh_pcie.h"
19 #include "amd_sfh_hid.h"
20 
21 void amd_sfh_set_report(struct hid_device *hid, int report_id,
22 			int report_type)
23 {
24 	struct amdtp_hid_data *hid_data = hid->driver_data;
25 	struct amdtp_cl_data *cli_data = hid_data->cli_data;
26 	int i;
27 
28 	for (i = 0; i < cli_data->num_hid_devices; i++) {
29 		if (cli_data->hid_sensor_hubs[i] == hid) {
30 			cli_data->cur_hid_dev = i;
31 			break;
32 		}
33 	}
34 	amdtp_hid_wakeup(hid);
35 }
36 
37 int amd_sfh_get_report(struct hid_device *hid, int report_id, int report_type)
38 {
39 	struct amdtp_hid_data *hid_data = hid->driver_data;
40 	struct amdtp_cl_data *cli_data = hid_data->cli_data;
41 	struct request_list *req_list = &cli_data->req_list;
42 	int i;
43 
44 	for (i = 0; i < cli_data->num_hid_devices; i++) {
45 		if (cli_data->hid_sensor_hubs[i] == hid) {
46 			struct request_list *new = kzalloc(sizeof(*new), GFP_KERNEL);
47 
48 			if (!new)
49 				return -ENOMEM;
50 
51 			new->current_index = i;
52 			new->sensor_idx = cli_data->sensor_idx[i];
53 			new->hid = hid;
54 			new->report_type = report_type;
55 			new->report_id = report_id;
56 			cli_data->report_id[i] = report_id;
57 			cli_data->request_done[i] = false;
58 			list_add(&new->list, &req_list->list);
59 			break;
60 		}
61 	}
62 	schedule_delayed_work(&cli_data->work, 0);
63 	return 0;
64 }
65 
66 void amd_sfh_work(struct work_struct *work)
67 {
68 	struct amdtp_cl_data *cli_data = container_of(work, struct amdtp_cl_data, work.work);
69 	struct request_list *req_list = &cli_data->req_list;
70 	struct amd_input_data *in_data = cli_data->in_data;
71 	struct request_list *req_node;
72 	u8 current_index, sensor_index;
73 	struct amd_mp2_ops *mp2_ops;
74 	struct amd_mp2_dev *mp2;
75 	u8 report_id, node_type;
76 	u8 report_size = 0;
77 
78 	req_node = list_last_entry(&req_list->list, struct request_list, list);
79 	list_del(&req_node->list);
80 	current_index = req_node->current_index;
81 	sensor_index = req_node->sensor_idx;
82 	report_id = req_node->report_id;
83 	node_type = req_node->report_type;
84 	kfree(req_node);
85 
86 	mp2 = container_of(in_data, struct amd_mp2_dev, in_data);
87 	mp2_ops = mp2->mp2_ops;
88 	if (node_type == HID_FEATURE_REPORT) {
89 		report_size = mp2_ops->get_feat_rep(sensor_index, report_id,
90 						    cli_data->feature_report[current_index]);
91 		if (report_size)
92 			hid_input_report(cli_data->hid_sensor_hubs[current_index],
93 					 cli_data->report_type[current_index],
94 					 cli_data->feature_report[current_index], report_size, 0);
95 		else
96 			pr_err("AMDSFH: Invalid report size\n");
97 
98 	} else if (node_type == HID_INPUT_REPORT) {
99 		report_size = mp2_ops->get_in_rep(current_index, sensor_index, report_id, in_data);
100 		if (report_size)
101 			hid_input_report(cli_data->hid_sensor_hubs[current_index],
102 					 cli_data->report_type[current_index],
103 					 in_data->input_report[current_index], report_size, 0);
104 		else
105 			pr_err("AMDSFH: Invalid report size\n");
106 	}
107 	cli_data->cur_hid_dev = current_index;
108 	cli_data->sensor_requested_cnt[current_index] = 0;
109 	amdtp_hid_wakeup(cli_data->hid_sensor_hubs[current_index]);
110 }
111 
112 void amd_sfh_work_buffer(struct work_struct *work)
113 {
114 	struct amdtp_cl_data *cli_data = container_of(work, struct amdtp_cl_data, work_buffer.work);
115 	struct amd_input_data *in_data = cli_data->in_data;
116 	struct amd_mp2_dev *mp2;
117 	u8 report_size;
118 	int i;
119 
120 	for (i = 0; i < cli_data->num_hid_devices; i++) {
121 		if (cli_data->sensor_sts[i] == SENSOR_ENABLED) {
122 			mp2 = container_of(in_data, struct amd_mp2_dev, in_data);
123 			report_size = mp2->mp2_ops->get_in_rep(i, cli_data->sensor_idx[i],
124 							       cli_data->report_id[i], in_data);
125 			hid_input_report(cli_data->hid_sensor_hubs[i], HID_INPUT_REPORT,
126 					 in_data->input_report[i], report_size, 0);
127 		}
128 	}
129 	schedule_delayed_work(&cli_data->work_buffer, msecs_to_jiffies(AMD_SFH_IDLE_LOOP));
130 }
131 
132 static u32 amd_sfh_wait_for_response(struct amd_mp2_dev *mp2, u8 sid, u32 sensor_sts)
133 {
134 	if (mp2->mp2_ops->response)
135 		sensor_sts = mp2->mp2_ops->response(mp2, sid, sensor_sts);
136 
137 	return sensor_sts;
138 }
139 
140 static const char *get_sensor_name(int idx)
141 {
142 	switch (idx) {
143 	case accel_idx:
144 		return "accelerometer";
145 	case gyro_idx:
146 		return "gyroscope";
147 	case mag_idx:
148 		return "magnetometer";
149 	case als_idx:
150 	case ACS_IDX: /* ambient color sensor */
151 		return "ALS";
152 	case HPD_IDX:
153 		return "HPD";
154 	default:
155 		return "unknown sensor type";
156 	}
157 }
158 
159 static void amd_sfh_resume(struct amd_mp2_dev *mp2)
160 {
161 	struct amdtp_cl_data *cl_data = mp2->cl_data;
162 	struct amd_mp2_sensor_info info;
163 	int i, status;
164 
165 	for (i = 0; i < cl_data->num_hid_devices; i++) {
166 		if (cl_data->sensor_sts[i] == SENSOR_DISABLED) {
167 			info.period = AMD_SFH_IDLE_LOOP;
168 			info.sensor_idx = cl_data->sensor_idx[i];
169 			info.dma_address = cl_data->sensor_dma_addr[i];
170 			mp2->mp2_ops->start(mp2, info);
171 			status = amd_sfh_wait_for_response
172 					(mp2, cl_data->sensor_idx[i], SENSOR_ENABLED);
173 			if (status == SENSOR_ENABLED)
174 				cl_data->sensor_sts[i] = SENSOR_ENABLED;
175 			dev_dbg(&mp2->pdev->dev, "resume sid 0x%x (%s) status 0x%x\n",
176 				cl_data->sensor_idx[i], get_sensor_name(cl_data->sensor_idx[i]),
177 				cl_data->sensor_sts[i]);
178 		}
179 	}
180 
181 	schedule_delayed_work(&cl_data->work_buffer, msecs_to_jiffies(AMD_SFH_IDLE_LOOP));
182 	amd_sfh_clear_intr(mp2);
183 }
184 
185 static void amd_sfh_suspend(struct amd_mp2_dev *mp2)
186 {
187 	struct amdtp_cl_data *cl_data = mp2->cl_data;
188 	int i, status;
189 
190 	for (i = 0; i < cl_data->num_hid_devices; i++) {
191 		if (cl_data->sensor_idx[i] != HPD_IDX &&
192 		    cl_data->sensor_sts[i] == SENSOR_ENABLED) {
193 			mp2->mp2_ops->stop(mp2, cl_data->sensor_idx[i]);
194 			status = amd_sfh_wait_for_response
195 					(mp2, cl_data->sensor_idx[i], SENSOR_DISABLED);
196 			if (status != SENSOR_ENABLED)
197 				cl_data->sensor_sts[i] = SENSOR_DISABLED;
198 			dev_dbg(&mp2->pdev->dev, "suspend sid 0x%x (%s) status 0x%x\n",
199 				cl_data->sensor_idx[i], get_sensor_name(cl_data->sensor_idx[i]),
200 				cl_data->sensor_sts[i]);
201 		}
202 	}
203 
204 	cancel_delayed_work_sync(&cl_data->work_buffer);
205 	amd_sfh_clear_intr(mp2);
206 }
207 
208 int amd_sfh_hid_client_init(struct amd_mp2_dev *privdata)
209 {
210 	struct amd_input_data *in_data = &privdata->in_data;
211 	struct amdtp_cl_data *cl_data = privdata->cl_data;
212 	struct amd_mp2_ops *mp2_ops = privdata->mp2_ops;
213 	struct amd_mp2_sensor_info info;
214 	struct request_list *req_list;
215 	struct device *dev;
216 	u32 feature_report_size;
217 	u32 input_report_size;
218 	int rc, i;
219 	u8 cl_idx;
220 
221 	req_list = &cl_data->req_list;
222 	dev = &privdata->pdev->dev;
223 	amd_sfh_set_desc_ops(mp2_ops);
224 
225 	mp2_ops->suspend = amd_sfh_suspend;
226 	mp2_ops->resume = amd_sfh_resume;
227 
228 	cl_data->num_hid_devices = amd_mp2_get_sensor_num(privdata, &cl_data->sensor_idx[0]);
229 	if (cl_data->num_hid_devices == 0)
230 		return -ENODEV;
231 	cl_data->is_any_sensor_enabled = false;
232 
233 	INIT_DELAYED_WORK(&cl_data->work, amd_sfh_work);
234 	INIT_DELAYED_WORK(&cl_data->work_buffer, amd_sfh_work_buffer);
235 	INIT_LIST_HEAD(&req_list->list);
236 	cl_data->in_data = in_data;
237 
238 	for (i = 0; i < cl_data->num_hid_devices; i++) {
239 		in_data->sensor_virt_addr[i] = dmam_alloc_coherent(dev, sizeof(int) * 8,
240 								   &cl_data->sensor_dma_addr[i],
241 								   GFP_KERNEL);
242 		if (!in_data->sensor_virt_addr[i]) {
243 			rc = -ENOMEM;
244 			goto cleanup;
245 		}
246 		cl_data->sensor_sts[i] = SENSOR_DISABLED;
247 		cl_data->sensor_requested_cnt[i] = 0;
248 		cl_data->cur_hid_dev = i;
249 		cl_idx = cl_data->sensor_idx[i];
250 		cl_data->report_descr_sz[i] = mp2_ops->get_desc_sz(cl_idx, descr_size);
251 		if (!cl_data->report_descr_sz[i]) {
252 			rc = -EINVAL;
253 			goto cleanup;
254 		}
255 		feature_report_size = mp2_ops->get_desc_sz(cl_idx, feature_size);
256 		if (!feature_report_size) {
257 			rc = -EINVAL;
258 			goto cleanup;
259 		}
260 		input_report_size =  mp2_ops->get_desc_sz(cl_idx, input_size);
261 		if (!input_report_size) {
262 			rc = -EINVAL;
263 			goto cleanup;
264 		}
265 		cl_data->feature_report[i] = devm_kzalloc(dev, feature_report_size, GFP_KERNEL);
266 		if (!cl_data->feature_report[i]) {
267 			rc = -ENOMEM;
268 			goto cleanup;
269 		}
270 		in_data->input_report[i] = devm_kzalloc(dev, input_report_size, GFP_KERNEL);
271 		if (!in_data->input_report[i]) {
272 			rc = -ENOMEM;
273 			goto cleanup;
274 		}
275 		info.period = AMD_SFH_IDLE_LOOP;
276 		info.sensor_idx = cl_idx;
277 		info.dma_address = cl_data->sensor_dma_addr[i];
278 
279 		cl_data->report_descr[i] =
280 			devm_kzalloc(dev, cl_data->report_descr_sz[i], GFP_KERNEL);
281 		if (!cl_data->report_descr[i]) {
282 			rc = -ENOMEM;
283 			goto cleanup;
284 		}
285 		rc = mp2_ops->get_rep_desc(cl_idx, cl_data->report_descr[i]);
286 		if (rc)
287 			goto cleanup;
288 		mp2_ops->start(privdata, info);
289 		cl_data->sensor_sts[i] = amd_sfh_wait_for_response
290 						(privdata, cl_data->sensor_idx[i], SENSOR_ENABLED);
291 
292 		if (cl_data->sensor_sts[i] == SENSOR_ENABLED)
293 			cl_data->is_any_sensor_enabled = true;
294 	}
295 
296 	if (!cl_data->is_any_sensor_enabled ||
297 	    (mp2_ops->discovery_status && mp2_ops->discovery_status(privdata) == 0)) {
298 		dev_warn(dev, "Failed to discover, sensors not enabled is %d\n",
299 			 cl_data->is_any_sensor_enabled);
300 		rc = -EOPNOTSUPP;
301 		goto cleanup;
302 	}
303 
304 	for (i = 0; i < cl_data->num_hid_devices; i++) {
305 		cl_data->cur_hid_dev = i;
306 		if (cl_data->sensor_sts[i] == SENSOR_ENABLED) {
307 			rc = amdtp_hid_probe(i, cl_data);
308 			if (rc)
309 				goto cleanup;
310 		} else {
311 			cl_data->sensor_sts[i] = SENSOR_DISABLED;
312 		}
313 		dev_dbg(dev, "sid 0x%x (%s) status 0x%x\n",
314 			cl_data->sensor_idx[i], get_sensor_name(cl_data->sensor_idx[i]),
315 			cl_data->sensor_sts[i]);
316 	}
317 
318 	schedule_delayed_work(&cl_data->work_buffer, msecs_to_jiffies(AMD_SFH_IDLE_LOOP));
319 	return 0;
320 
321 cleanup:
322 	amd_sfh_hid_client_deinit(privdata);
323 	for (i = 0; i < cl_data->num_hid_devices; i++) {
324 		devm_kfree(dev, cl_data->feature_report[i]);
325 		devm_kfree(dev, in_data->input_report[i]);
326 		devm_kfree(dev, cl_data->report_descr[i]);
327 	}
328 	return rc;
329 }
330 
331 int amd_sfh_hid_client_deinit(struct amd_mp2_dev *privdata)
332 {
333 	struct amdtp_cl_data *cl_data = privdata->cl_data;
334 	int i, status;
335 
336 	for (i = 0; i < cl_data->num_hid_devices; i++) {
337 		if (cl_data->sensor_sts[i] == SENSOR_ENABLED) {
338 			privdata->mp2_ops->stop(privdata, cl_data->sensor_idx[i]);
339 			status = amd_sfh_wait_for_response
340 					(privdata, cl_data->sensor_idx[i], SENSOR_DISABLED);
341 			if (status != SENSOR_ENABLED)
342 				cl_data->sensor_sts[i] = SENSOR_DISABLED;
343 			dev_dbg(&privdata->pdev->dev, "stopping sid 0x%x (%s) status 0x%x\n",
344 				cl_data->sensor_idx[i], get_sensor_name(cl_data->sensor_idx[i]),
345 				cl_data->sensor_sts[i]);
346 		}
347 	}
348 
349 	cancel_delayed_work_sync(&cl_data->work);
350 	cancel_delayed_work_sync(&cl_data->work_buffer);
351 	amdtp_hid_remove(cl_data);
352 
353 	return 0;
354 }
355