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1 // Copyright (c) 2012 The Chromium OS Authors. All rights reserved.
2 // Use of this source code is governed by a BSD-style license that can be
3 // found in the LICENSE file.
4 
5 #include <gtest/gtest.h>
6 #include <stdio.h>
7 #include <syslog.h>
8 
9 #include <map>
10 #include <vector>
11 
12 extern "C" {
13 
14 #include "cras_alsa_mixer.h"
15 #include "cras_iodev.h"
16 #include "cras_shm.h"
17 #include "cras_system_state.h"
18 #include "cras_types.h"
19 
20 //  Include C file to test static functions.
21 #include "cras_alsa_io.c"
22 }
23 
24 #define BUFFER_SIZE 8192
25 
26 //  Data for simulating functions stubbed below.
27 static int cras_alsa_open_called;
28 static int cras_iodev_append_stream_ret;
29 static int cras_alsa_get_avail_frames_ret;
30 static int cras_alsa_get_avail_frames_avail;
31 static int cras_alsa_start_called;
32 static uint8_t* cras_alsa_mmap_begin_buffer;
33 static size_t cras_alsa_mmap_begin_frames;
34 static size_t cras_alsa_fill_properties_called;
35 static bool cras_alsa_support_8_channels;
36 static size_t alsa_mixer_set_dBFS_called;
37 static int alsa_mixer_set_dBFS_value;
38 static const struct mixer_control* alsa_mixer_set_dBFS_output;
39 static size_t alsa_mixer_set_capture_dBFS_called;
40 static int alsa_mixer_set_capture_dBFS_value;
41 static const struct mixer_control* alsa_mixer_set_capture_dBFS_input;
42 static const struct mixer_control*
43     cras_alsa_mixer_get_minimum_capture_gain_mixer_input;
44 static const struct mixer_control*
45     cras_alsa_mixer_get_maximum_capture_gain_mixer_input;
46 static size_t cras_alsa_mixer_list_outputs_called;
47 static size_t cras_alsa_mixer_list_inputs_called;
48 static size_t cras_alsa_mixer_get_control_for_section_called;
49 static struct mixer_control*
50     cras_alsa_mixer_get_control_for_section_return_value;
51 static size_t sys_get_volume_called;
52 static size_t sys_get_volume_return_value;
53 static size_t alsa_mixer_set_mute_called;
54 static int alsa_mixer_set_mute_value;
55 static size_t alsa_mixer_get_dB_range_called;
56 static long alsa_mixer_get_dB_range_value;
57 static size_t alsa_mixer_get_output_dB_range_called;
58 static long alsa_mixer_get_output_dB_range_value;
59 static const struct mixer_control* alsa_mixer_set_mute_output;
60 static size_t alsa_mixer_set_capture_mute_called;
61 static int alsa_mixer_set_capture_mute_value;
62 static const struct mixer_control* alsa_mixer_set_capture_mute_input;
63 static size_t sys_get_mute_called;
64 static int sys_get_mute_return_value;
65 static size_t sys_get_capture_mute_called;
66 static int sys_get_capture_mute_return_value;
67 static struct cras_alsa_mixer* fake_mixer = (struct cras_alsa_mixer*)1;
68 static struct cras_card_config* fake_config = (struct cras_card_config*)2;
69 static struct mixer_control** cras_alsa_mixer_list_outputs_outputs;
70 static size_t cras_alsa_mixer_list_outputs_outputs_length;
71 static struct mixer_control** cras_alsa_mixer_list_inputs_outputs;
72 static size_t cras_alsa_mixer_list_inputs_outputs_length;
73 static size_t cras_alsa_mixer_set_output_active_state_called;
74 static std::vector<struct mixer_control*>
75     cras_alsa_mixer_set_output_active_state_outputs;
76 static std::vector<int> cras_alsa_mixer_set_output_active_state_values;
77 static cras_audio_format* fake_format;
78 static size_t sys_set_volume_limits_called;
79 static size_t cras_alsa_mixer_get_minimum_capture_gain_called;
80 static size_t cras_alsa_mixer_get_maximum_capture_gain_called;
81 static struct mixer_control* cras_alsa_jack_get_mixer_output_ret;
82 static struct mixer_control* cras_alsa_jack_get_mixer_input_ret;
83 static size_t cras_alsa_mixer_get_output_volume_curve_called;
84 typedef std::map<const struct mixer_control*, std::string> ControlNameMap;
85 static ControlNameMap cras_alsa_mixer_get_control_name_values;
86 static size_t cras_alsa_mixer_get_control_name_called;
87 static size_t cras_alsa_jack_list_create_called;
88 static size_t cras_alsa_jack_list_find_jacks_by_name_matching_called;
89 static size_t cras_alsa_jack_list_add_jack_for_section_called;
90 static struct cras_alsa_jack*
91     cras_alsa_jack_list_add_jack_for_section_result_jack;
92 static size_t cras_alsa_jack_list_destroy_called;
93 static int cras_alsa_jack_list_has_hctl_jacks_return_val;
94 static jack_state_change_callback* cras_alsa_jack_list_create_cb;
95 static void* cras_alsa_jack_list_create_cb_data;
96 static char test_card_name[] = "TestCard";
97 static char test_pcm_name[] = "TestPCM";
98 static char test_dev_name[] = "TestDev";
99 static char test_dev_id[] = "TestDevId";
100 static size_t cras_iodev_add_node_called;
101 static struct cras_ionode* cras_iodev_set_node_plugged_ionode;
102 static size_t cras_iodev_set_node_plugged_called;
103 static int cras_iodev_set_node_plugged_value;
104 static unsigned cras_alsa_jack_enable_ucm_called;
105 static unsigned ucm_set_enabled_called;
106 static size_t cras_iodev_update_dsp_called;
107 static const char* cras_iodev_update_dsp_name;
108 typedef std::map<const char*, std::string> DspNameMap;
109 static size_t ucm_get_dsp_name_for_dev_called;
110 static DspNameMap ucm_get_dsp_name_for_dev_values;
111 static size_t cras_iodev_free_resources_called;
112 static size_t cras_alsa_jack_update_node_type_called;
113 static int ucm_swap_mode_exists_ret_value;
114 static int ucm_enable_swap_mode_ret_value;
115 static size_t ucm_enable_swap_mode_called;
116 static int is_utf8_string_ret_value;
117 static const char* cras_alsa_jack_update_monitor_fake_name = 0;
118 static int cras_alsa_jack_get_name_called;
119 static const char* cras_alsa_jack_get_name_ret_value = 0;
120 static char default_jack_name[] = "Something Jack";
121 static int auto_unplug_input_node_ret = 0;
122 static int auto_unplug_output_node_ret = 0;
123 static long cras_alsa_mixer_get_minimum_capture_gain_ret_value;
124 static long cras_alsa_mixer_get_maximum_capture_gain_ret_value;
125 static snd_pcm_state_t snd_pcm_state_ret;
126 static int cras_alsa_attempt_resume_called;
127 static snd_hctl_t* fake_hctl = (snd_hctl_t*)2;
128 static size_t ucm_get_dma_period_for_dev_called;
129 static unsigned int ucm_get_dma_period_for_dev_ret;
130 static int cras_card_config_get_volume_curve_for_control_called;
131 typedef std::map<std::string, struct cras_volume_curve*> VolCurveMap;
132 static VolCurveMap cras_card_config_get_volume_curve_vals;
133 static int cras_alsa_mmap_get_whole_buffer_called;
134 static int cras_iodev_fill_odev_zeros_called;
135 static unsigned int cras_iodev_fill_odev_zeros_frames;
136 static int cras_iodev_frames_queued_ret;
137 static int cras_iodev_buffer_avail_ret;
138 static int cras_alsa_resume_appl_ptr_called;
139 static int cras_alsa_resume_appl_ptr_ahead;
140 static const struct cras_volume_curve* fake_get_dBFS_volume_curve_val;
141 static int cras_iodev_dsp_set_swap_mode_for_node_called;
142 static std::map<std::string, long> ucm_get_default_node_gain_values;
143 static std::map<std::string, long> ucm_get_intrinsic_sensitivity_values;
144 static thread_callback audio_thread_cb;
145 static void* audio_thread_cb_data;
146 static int hotword_send_triggered_msg_called;
147 static struct timespec clock_gettime_retspec;
148 static unsigned cras_iodev_reset_rate_estimator_called;
149 
ResetStubData()150 void ResetStubData() {
151   cras_alsa_open_called = 0;
152   cras_iodev_append_stream_ret = 0;
153   cras_alsa_get_avail_frames_ret = 0;
154   cras_alsa_get_avail_frames_avail = 0;
155   cras_alsa_start_called = 0;
156   cras_alsa_fill_properties_called = 0;
157   cras_alsa_support_8_channels = false;
158   sys_get_volume_called = 0;
159   alsa_mixer_set_dBFS_called = 0;
160   alsa_mixer_set_capture_dBFS_called = 0;
161   sys_get_mute_called = 0;
162   sys_get_capture_mute_called = 0;
163   alsa_mixer_set_mute_called = 0;
164   alsa_mixer_get_dB_range_called = 0;
165   alsa_mixer_get_output_dB_range_called = 0;
166   alsa_mixer_set_capture_mute_called = 0;
167   cras_alsa_mixer_get_control_for_section_called = 0;
168   cras_alsa_mixer_get_control_for_section_return_value = NULL;
169   cras_alsa_mixer_list_outputs_called = 0;
170   cras_alsa_mixer_list_outputs_outputs_length = 0;
171   cras_alsa_mixer_list_inputs_called = 0;
172   cras_alsa_mixer_list_inputs_outputs_length = 0;
173   cras_alsa_mixer_set_output_active_state_called = 0;
174   cras_alsa_mixer_set_output_active_state_outputs.clear();
175   cras_alsa_mixer_set_output_active_state_values.clear();
176   sys_set_volume_limits_called = 0;
177   cras_alsa_mixer_get_minimum_capture_gain_called = 0;
178   cras_alsa_mixer_get_maximum_capture_gain_called = 0;
179   cras_alsa_mixer_get_output_volume_curve_called = 0;
180   cras_alsa_jack_get_mixer_output_ret = NULL;
181   cras_alsa_jack_get_mixer_input_ret = NULL;
182   cras_alsa_mixer_get_control_name_values.clear();
183   cras_alsa_mixer_get_control_name_called = 0;
184   cras_alsa_jack_list_create_called = 0;
185   cras_alsa_jack_list_find_jacks_by_name_matching_called = 0;
186   cras_alsa_jack_list_add_jack_for_section_called = 0;
187   cras_alsa_jack_list_add_jack_for_section_result_jack = NULL;
188   cras_alsa_jack_list_destroy_called = 0;
189   cras_alsa_jack_list_has_hctl_jacks_return_val = 1;
190   cras_iodev_add_node_called = 0;
191   cras_iodev_set_node_plugged_called = 0;
192   cras_alsa_jack_enable_ucm_called = 0;
193   ucm_set_enabled_called = 0;
194   cras_iodev_update_dsp_called = 0;
195   cras_iodev_update_dsp_name = 0;
196   ucm_get_dsp_name_for_dev_called = 0;
197   ucm_get_dsp_name_for_dev_values.clear();
198   cras_iodev_free_resources_called = 0;
199   cras_alsa_jack_update_node_type_called = 0;
200   ucm_swap_mode_exists_ret_value = 0;
201   ucm_enable_swap_mode_ret_value = 0;
202   ucm_enable_swap_mode_called = 0;
203   is_utf8_string_ret_value = 1;
204   cras_alsa_jack_get_name_called = 0;
205   cras_alsa_jack_get_name_ret_value = default_jack_name;
206   cras_alsa_jack_update_monitor_fake_name = 0;
207   cras_card_config_get_volume_curve_for_control_called = 0;
208   cras_card_config_get_volume_curve_vals.clear();
209   cras_alsa_mixer_get_minimum_capture_gain_ret_value = 0;
210   cras_alsa_mixer_get_maximum_capture_gain_ret_value = 0;
211   snd_pcm_state_ret = SND_PCM_STATE_RUNNING;
212   cras_alsa_attempt_resume_called = 0;
213   ucm_get_dma_period_for_dev_called = 0;
214   ucm_get_dma_period_for_dev_ret = 0;
215   cras_alsa_mmap_get_whole_buffer_called = 0;
216   cras_iodev_fill_odev_zeros_called = 0;
217   cras_iodev_fill_odev_zeros_frames = 0;
218   cras_iodev_frames_queued_ret = 0;
219   cras_iodev_buffer_avail_ret = 0;
220   cras_alsa_resume_appl_ptr_called = 0;
221   cras_alsa_resume_appl_ptr_ahead = 0;
222   fake_get_dBFS_volume_curve_val = NULL;
223   cras_iodev_dsp_set_swap_mode_for_node_called = 0;
224   ucm_get_default_node_gain_values.clear();
225   ucm_get_intrinsic_sensitivity_values.clear();
226   cras_iodev_reset_rate_estimator_called = 0;
227 }
228 
fake_get_dBFS(const struct cras_volume_curve * curve,size_t volume)229 static long fake_get_dBFS(const struct cras_volume_curve* curve,
230                           size_t volume) {
231   fake_get_dBFS_volume_curve_val = curve;
232   return (volume - 100) * 100;
233 }
234 static cras_volume_curve default_curve = {
235     .get_dBFS = fake_get_dBFS,
236 };
237 
alsa_iodev_create_with_default_parameters(size_t card_index,const char * dev_id,enum CRAS_ALSA_CARD_TYPE card_type,int is_first,struct cras_alsa_mixer * mixer,struct cras_card_config * config,struct cras_use_case_mgr * ucm,enum CRAS_STREAM_DIRECTION direction)238 static struct cras_iodev* alsa_iodev_create_with_default_parameters(
239     size_t card_index,
240     const char* dev_id,
241     enum CRAS_ALSA_CARD_TYPE card_type,
242     int is_first,
243     struct cras_alsa_mixer* mixer,
244     struct cras_card_config* config,
245     struct cras_use_case_mgr* ucm,
246     enum CRAS_STREAM_DIRECTION direction) {
247   return alsa_iodev_create(card_index, test_card_name, 0, test_pcm_name,
248                            test_dev_name, dev_id, card_type, is_first, mixer,
249                            config, ucm, fake_hctl, direction, 0, 0,
250                            (char*)"123");
251 }
252 
253 namespace {
TEST(AlsaIoInit,InitializeInvalidDirection)254 TEST(AlsaIoInit, InitializeInvalidDirection) {
255   struct alsa_io* aio;
256 
257   aio = (struct alsa_io*)alsa_iodev_create_with_default_parameters(
258       0, NULL, ALSA_CARD_TYPE_INTERNAL, 0, fake_mixer, fake_config, NULL,
259       CRAS_NUM_DIRECTIONS);
260   ASSERT_EQ(aio, (void*)NULL);
261 }
262 
TEST(AlsaIoInit,InitializePlayback)263 TEST(AlsaIoInit, InitializePlayback) {
264   struct alsa_io* aio;
265   struct cras_alsa_mixer* const fake_mixer = (struct cras_alsa_mixer*)2;
266 
267   ResetStubData();
268   aio = (struct alsa_io*)alsa_iodev_create_with_default_parameters(
269       0, test_dev_id, ALSA_CARD_TYPE_INTERNAL, 1, fake_mixer, fake_config, NULL,
270       CRAS_STREAM_OUTPUT);
271   ASSERT_EQ(0, alsa_iodev_legacy_complete_init((struct cras_iodev*)aio));
272   /* Get volume curve twice for iodev, and default node. */
273   EXPECT_EQ(2, cras_card_config_get_volume_curve_for_control_called);
274   EXPECT_EQ(SND_PCM_STREAM_PLAYBACK, aio->alsa_stream);
275   /* Call cras_alsa_fill_properties once on update_max_supported_channels. */
276   EXPECT_EQ(1, cras_alsa_fill_properties_called);
277   EXPECT_EQ(1, cras_alsa_mixer_list_outputs_called);
278   EXPECT_EQ(
279       0, strncmp(test_card_name, aio->base.info.name, strlen(test_card_name)));
280   EXPECT_EQ(1, cras_iodev_update_dsp_called);
281   EXPECT_EQ("", cras_iodev_update_dsp_name);
282   ASSERT_NE(reinterpret_cast<const char*>(NULL), aio->dev_name);
283   EXPECT_EQ(0, strcmp(test_dev_name, aio->dev_name));
284   ASSERT_NE(reinterpret_cast<const char*>(NULL), aio->dev_id);
285   EXPECT_EQ(0, strcmp(test_dev_id, aio->dev_id));
286 
287   alsa_iodev_destroy((struct cras_iodev*)aio);
288   EXPECT_EQ(1, cras_iodev_free_resources_called);
289 }
290 
TEST(AlsaIoInit,DefaultNodeInternalCard)291 TEST(AlsaIoInit, DefaultNodeInternalCard) {
292   struct alsa_io* aio;
293   struct cras_alsa_mixer* const fake_mixer = (struct cras_alsa_mixer*)2;
294 
295   ResetStubData();
296   aio = (struct alsa_io*)alsa_iodev_create_with_default_parameters(
297       0, NULL, ALSA_CARD_TYPE_INTERNAL, 0, fake_mixer, fake_config, NULL,
298       CRAS_STREAM_OUTPUT);
299   ASSERT_EQ(0, alsa_iodev_legacy_complete_init((struct cras_iodev*)aio));
300   EXPECT_EQ(2, cras_card_config_get_volume_curve_for_control_called);
301   ASSERT_STREQ(DEFAULT, aio->base.active_node->name);
302   ASSERT_EQ(1, aio->base.active_node->plugged);
303   ASSERT_EQ((void*)no_stream, (void*)aio->base.no_stream);
304   ASSERT_EQ((void*)is_free_running, (void*)aio->base.is_free_running);
305   alsa_iodev_destroy((struct cras_iodev*)aio);
306 
307   aio = (struct alsa_io*)alsa_iodev_create_with_default_parameters(
308       0, NULL, ALSA_CARD_TYPE_INTERNAL, 1, fake_mixer, fake_config, NULL,
309       CRAS_STREAM_OUTPUT);
310   ASSERT_EQ(0, alsa_iodev_legacy_complete_init((struct cras_iodev*)aio));
311   EXPECT_EQ(4, cras_card_config_get_volume_curve_for_control_called);
312   ASSERT_STREQ(INTERNAL_SPEAKER, aio->base.active_node->name);
313   ASSERT_EQ(1, aio->base.active_node->plugged);
314   ASSERT_EQ((void*)no_stream, (void*)aio->base.no_stream);
315   ASSERT_EQ((void*)is_free_running, (void*)aio->base.is_free_running);
316   alsa_iodev_destroy((struct cras_iodev*)aio);
317 
318   aio = (struct alsa_io*)alsa_iodev_create_with_default_parameters(
319       0, NULL, ALSA_CARD_TYPE_INTERNAL, 0, fake_mixer, fake_config, NULL,
320       CRAS_STREAM_INPUT);
321   ASSERT_EQ(0, alsa_iodev_legacy_complete_init((struct cras_iodev*)aio));
322   /* No more call to get volume curve for input device. */
323   EXPECT_EQ(4, cras_card_config_get_volume_curve_for_control_called);
324   ASSERT_STREQ(DEFAULT, aio->base.active_node->name);
325   ASSERT_EQ(1, aio->base.active_node->plugged);
326   ASSERT_EQ((void*)no_stream, (void*)aio->base.no_stream);
327   ASSERT_EQ((void*)is_free_running, (void*)aio->base.is_free_running);
328   alsa_iodev_destroy((struct cras_iodev*)aio);
329 
330   aio = (struct alsa_io*)alsa_iodev_create_with_default_parameters(
331       0, NULL, ALSA_CARD_TYPE_INTERNAL, 1, fake_mixer, fake_config, NULL,
332       CRAS_STREAM_INPUT);
333   ASSERT_EQ(0, alsa_iodev_legacy_complete_init((struct cras_iodev*)aio));
334   EXPECT_EQ(4, cras_card_config_get_volume_curve_for_control_called);
335   ASSERT_STREQ(INTERNAL_MICROPHONE, aio->base.active_node->name);
336   ASSERT_EQ(1, aio->base.active_node->plugged);
337   ASSERT_EQ((void*)no_stream, (void*)aio->base.no_stream);
338   ASSERT_EQ((void*)is_free_running, (void*)aio->base.is_free_running);
339   alsa_iodev_destroy((struct cras_iodev*)aio);
340 }
341 
TEST(AlsaIoInit,DefaultNodeUSBCard)342 TEST(AlsaIoInit, DefaultNodeUSBCard) {
343   struct alsa_io* aio;
344   struct cras_alsa_mixer* const fake_mixer = (struct cras_alsa_mixer*)2;
345 
346   ResetStubData();
347   aio = (struct alsa_io*)alsa_iodev_create_with_default_parameters(
348       0, NULL, ALSA_CARD_TYPE_USB, 1, fake_mixer, fake_config, NULL,
349       CRAS_STREAM_OUTPUT);
350   ASSERT_EQ(0, alsa_iodev_legacy_complete_init((struct cras_iodev*)aio));
351   EXPECT_EQ(2, cras_card_config_get_volume_curve_for_control_called);
352   ASSERT_STREQ(DEFAULT, aio->base.active_node->name);
353   ASSERT_EQ(1, aio->base.active_node->plugged);
354   EXPECT_EQ(1, cras_iodev_set_node_plugged_called);
355   alsa_iodev_destroy((struct cras_iodev*)aio);
356 
357   aio = (struct alsa_io*)alsa_iodev_create_with_default_parameters(
358       0, NULL, ALSA_CARD_TYPE_USB, 1, fake_mixer, fake_config, NULL,
359       CRAS_STREAM_INPUT);
360   ASSERT_EQ(0, alsa_iodev_legacy_complete_init((struct cras_iodev*)aio));
361   EXPECT_EQ(2, cras_card_config_get_volume_curve_for_control_called);
362   ASSERT_STREQ(DEFAULT, aio->base.active_node->name);
363   ASSERT_EQ(1, aio->base.active_node->plugged);
364   EXPECT_EQ(2, cras_iodev_set_node_plugged_called);
365 
366   /* No extra gain applied. */
367   ASSERT_EQ(DEFAULT_CAPTURE_VOLUME_DBFS,
368             aio->base.active_node->intrinsic_sensitivity);
369   ASSERT_EQ(0, aio->base.active_node->capture_gain);
370   alsa_iodev_destroy((struct cras_iodev*)aio);
371 }
372 
TEST(AlsaIoInit,OpenPlayback)373 TEST(AlsaIoInit, OpenPlayback) {
374   struct cras_iodev* iodev;
375   struct cras_audio_format format;
376   struct alsa_io* aio;
377 
378   ResetStubData();
379   iodev = alsa_iodev_create_with_default_parameters(
380       0, NULL, ALSA_CARD_TYPE_INTERNAL, 0, fake_mixer, fake_config, NULL,
381       CRAS_STREAM_OUTPUT);
382   ASSERT_EQ(0, alsa_iodev_legacy_complete_init(iodev));
383   /* Call open_dev once on update_max_supported_channels. */
384   EXPECT_EQ(1, cras_alsa_open_called);
385   EXPECT_EQ(2, cras_card_config_get_volume_curve_for_control_called);
386   aio = (struct alsa_io*)iodev;
387   format.frame_rate = 48000;
388   format.num_channels = 1;
389   cras_iodev_set_format(iodev, &format);
390 
391   // Test that these flags are cleared after open_dev.
392   aio->free_running = 1;
393   aio->filled_zeros_for_draining = 512;
394   iodev->open_dev(iodev);
395   EXPECT_EQ(2, cras_alsa_open_called);
396   iodev->configure_dev(iodev);
397   EXPECT_EQ(2, cras_alsa_open_called);
398   EXPECT_EQ(1, sys_set_volume_limits_called);
399   EXPECT_EQ(1, alsa_mixer_set_dBFS_called);
400   EXPECT_EQ(0, cras_alsa_start_called);
401   EXPECT_EQ(0, cras_iodev_set_node_plugged_called);
402   EXPECT_EQ(0, aio->free_running);
403   EXPECT_EQ(0, aio->filled_zeros_for_draining);
404   EXPECT_EQ(SEVERE_UNDERRUN_MS * format.frame_rate / 1000,
405             aio->severe_underrun_frames);
406 
407   alsa_iodev_destroy(iodev);
408   free(fake_format);
409 }
410 
TEST(AlsaIoInit,UsbCardAutoPlug)411 TEST(AlsaIoInit, UsbCardAutoPlug) {
412   struct cras_iodev* iodev;
413 
414   ResetStubData();
415   iodev = alsa_iodev_create_with_default_parameters(
416       0, NULL, ALSA_CARD_TYPE_INTERNAL, 1, fake_mixer, fake_config, NULL,
417       CRAS_STREAM_OUTPUT);
418   ASSERT_EQ(0, alsa_iodev_legacy_complete_init(iodev));
419   EXPECT_EQ(2, cras_card_config_get_volume_curve_for_control_called);
420   EXPECT_EQ(0, cras_iodev_set_node_plugged_called);
421   alsa_iodev_destroy(iodev);
422 
423   ResetStubData();
424   iodev = alsa_iodev_create_with_default_parameters(0, NULL, ALSA_CARD_TYPE_USB,
425                                                     0, fake_mixer, fake_config,
426                                                     NULL, CRAS_STREAM_OUTPUT);
427   ASSERT_EQ(0, alsa_iodev_legacy_complete_init(iodev));
428   EXPECT_EQ(2, cras_card_config_get_volume_curve_for_control_called);
429   EXPECT_EQ(0, cras_iodev_set_node_plugged_called);
430   alsa_iodev_destroy(iodev);
431 
432   ResetStubData();
433   iodev = alsa_iodev_create_with_default_parameters(0, NULL, ALSA_CARD_TYPE_USB,
434                                                     1, fake_mixer, fake_config,
435                                                     NULL, CRAS_STREAM_OUTPUT);
436   ASSERT_EQ(0, alsa_iodev_legacy_complete_init(iodev));
437   EXPECT_EQ(2, cras_card_config_get_volume_curve_for_control_called);
438   // Should assume USB devs are plugged when they appear.
439   EXPECT_EQ(1, cras_iodev_set_node_plugged_called);
440   EXPECT_EQ(1, iodev->active_node->plugged);
441   alsa_iodev_destroy(iodev);
442 }
443 
TEST(AlsaIoInit,UsbCardUseSoftwareVolume)444 TEST(AlsaIoInit, UsbCardUseSoftwareVolume) {
445   struct cras_iodev* iodev;
446 
447   alsa_mixer_get_dB_range_value = 1000;
448   alsa_mixer_get_output_dB_range_value = 1000;
449   ResetStubData();
450   iodev = alsa_iodev_create_with_default_parameters(0, NULL, ALSA_CARD_TYPE_USB,
451                                                     1, fake_mixer, fake_config,
452                                                     NULL, CRAS_STREAM_OUTPUT);
453   ASSERT_EQ(0, alsa_iodev_legacy_complete_init(iodev));
454   EXPECT_EQ(2, cras_card_config_get_volume_curve_for_control_called);
455   EXPECT_EQ(1, alsa_mixer_get_dB_range_called);
456   EXPECT_EQ(1, alsa_mixer_get_output_dB_range_called);
457   EXPECT_EQ(1, iodev->active_node->software_volume_needed);
458   alsa_iodev_destroy(iodev);
459 
460   alsa_mixer_get_dB_range_value = 3000;
461   alsa_mixer_get_output_dB_range_value = 2000;
462   ResetStubData();
463   iodev = alsa_iodev_create_with_default_parameters(0, NULL, ALSA_CARD_TYPE_USB,
464                                                     1, fake_mixer, fake_config,
465                                                     NULL, CRAS_STREAM_OUTPUT);
466   ASSERT_EQ(0, alsa_iodev_legacy_complete_init(iodev));
467   EXPECT_EQ(2, cras_card_config_get_volume_curve_for_control_called);
468   EXPECT_EQ(1, alsa_mixer_get_dB_range_called);
469   EXPECT_EQ(1, alsa_mixer_get_output_dB_range_called);
470   EXPECT_EQ(0, iodev->active_node->software_volume_needed);
471   alsa_iodev_destroy(iodev);
472 }
473 
TEST(AlsaIoInit,SoftwareGainIntrinsicSensitivity)474 TEST(AlsaIoInit, SoftwareGainIntrinsicSensitivity) {
475   struct cras_iodev* iodev;
476   struct cras_use_case_mgr* const fake_ucm = (struct cras_use_case_mgr*)3;
477   long intrinsic_sensitivity = -2700;
478 
479   ResetStubData();
480 
481   // Set intrinsic sensitivity to -2700 * 0.01 dBFS/Pa.
482   ucm_get_intrinsic_sensitivity_values[INTERNAL_MICROPHONE] =
483       intrinsic_sensitivity;
484 
485   // Assume this is the first device so it gets internal mic node name.
486   iodev = alsa_iodev_create_with_default_parameters(
487       0, NULL, ALSA_CARD_TYPE_INTERNAL, 1, fake_mixer, fake_config, fake_ucm,
488       CRAS_STREAM_INPUT);
489   ASSERT_EQ(0, alsa_iodev_legacy_complete_init(iodev));
490   ASSERT_EQ(intrinsic_sensitivity, iodev->active_node->intrinsic_sensitivity);
491   ASSERT_EQ(DEFAULT_CAPTURE_VOLUME_DBFS - intrinsic_sensitivity,
492             iodev->active_node->capture_gain);
493 
494   alsa_iodev_destroy(iodev);
495 }
496 
TEST(AlsaIoInit,RouteBasedOnJackCallback)497 TEST(AlsaIoInit, RouteBasedOnJackCallback) {
498   struct alsa_io* aio;
499   struct cras_alsa_mixer* const fake_mixer = (struct cras_alsa_mixer*)2;
500 
501   ResetStubData();
502   aio = (struct alsa_io*)alsa_iodev_create_with_default_parameters(
503       0, NULL, ALSA_CARD_TYPE_INTERNAL, 1, fake_mixer, fake_config, NULL,
504       CRAS_STREAM_OUTPUT);
505   ASSERT_NE(aio, (void*)NULL);
506   ASSERT_EQ(0, alsa_iodev_legacy_complete_init((struct cras_iodev*)aio));
507   EXPECT_EQ(2, cras_card_config_get_volume_curve_for_control_called);
508   EXPECT_EQ(SND_PCM_STREAM_PLAYBACK, aio->alsa_stream);
509   /* Call cras_alsa_fill_properties once on update_max_supported_channels. */
510   EXPECT_EQ(1, cras_alsa_fill_properties_called);
511   EXPECT_EQ(1, cras_alsa_mixer_list_outputs_called);
512   EXPECT_EQ(1, cras_alsa_jack_list_create_called);
513   EXPECT_EQ(1, cras_alsa_jack_list_find_jacks_by_name_matching_called);
514   EXPECT_EQ(0, cras_alsa_jack_list_add_jack_for_section_called);
515 
516   cras_alsa_jack_list_create_cb(NULL, 1, cras_alsa_jack_list_create_cb_data);
517   EXPECT_EQ(1, cras_iodev_set_node_plugged_called);
518   EXPECT_EQ(1, cras_iodev_set_node_plugged_value);
519   cras_alsa_jack_list_create_cb(NULL, 0, cras_alsa_jack_list_create_cb_data);
520   EXPECT_EQ(2, cras_iodev_set_node_plugged_called);
521   EXPECT_EQ(0, cras_iodev_set_node_plugged_value);
522 
523   alsa_iodev_destroy((struct cras_iodev*)aio);
524   EXPECT_EQ(1, cras_alsa_jack_list_destroy_called);
525 }
526 
TEST(AlsaIoInit,RouteBasedOnInputJackCallback)527 TEST(AlsaIoInit, RouteBasedOnInputJackCallback) {
528   struct alsa_io* aio;
529   struct cras_alsa_mixer* const fake_mixer = (struct cras_alsa_mixer*)2;
530 
531   ResetStubData();
532   aio = (struct alsa_io*)alsa_iodev_create_with_default_parameters(
533       0, NULL, ALSA_CARD_TYPE_INTERNAL, 0, fake_mixer, fake_config, NULL,
534       CRAS_STREAM_INPUT);
535   ASSERT_NE(aio, (void*)NULL);
536   ASSERT_EQ(0, alsa_iodev_legacy_complete_init((struct cras_iodev*)aio));
537 
538   EXPECT_EQ(SND_PCM_STREAM_CAPTURE, aio->alsa_stream);
539   /* Call cras_alsa_fill_properties once on update_max_supported_channels. */
540   EXPECT_EQ(1, cras_alsa_fill_properties_called);
541   EXPECT_EQ(1, cras_alsa_jack_list_create_called);
542   EXPECT_EQ(1, cras_alsa_jack_list_find_jacks_by_name_matching_called);
543   EXPECT_EQ(0, cras_alsa_jack_list_add_jack_for_section_called);
544 
545   cras_alsa_jack_list_create_cb(NULL, 1, cras_alsa_jack_list_create_cb_data);
546   EXPECT_EQ(1, cras_iodev_set_node_plugged_called);
547   EXPECT_EQ(1, cras_iodev_set_node_plugged_value);
548   cras_alsa_jack_list_create_cb(NULL, 0, cras_alsa_jack_list_create_cb_data);
549   EXPECT_EQ(2, cras_iodev_set_node_plugged_called);
550   EXPECT_EQ(0, cras_iodev_set_node_plugged_value);
551 
552   alsa_iodev_destroy((struct cras_iodev*)aio);
553   EXPECT_EQ(1, cras_alsa_jack_list_destroy_called);
554 }
555 
TEST(AlsaIoInit,InitializeCapture)556 TEST(AlsaIoInit, InitializeCapture) {
557   struct alsa_io* aio;
558 
559   ResetStubData();
560   aio = (struct alsa_io*)alsa_iodev_create_with_default_parameters(
561       0, NULL, ALSA_CARD_TYPE_INTERNAL, 1, fake_mixer, fake_config, NULL,
562       CRAS_STREAM_INPUT);
563   ASSERT_NE(aio, (void*)NULL);
564   ASSERT_EQ(0, alsa_iodev_legacy_complete_init((struct cras_iodev*)aio));
565 
566   EXPECT_EQ(SND_PCM_STREAM_CAPTURE, aio->alsa_stream);
567   /* Call cras_alsa_fill_properties once on update_max_supported_channels. */
568   EXPECT_EQ(1, cras_alsa_fill_properties_called);
569   EXPECT_EQ(1, cras_alsa_mixer_list_inputs_called);
570 
571   alsa_iodev_destroy((struct cras_iodev*)aio);
572 }
573 
TEST(AlsaIoInit,OpenCapture)574 TEST(AlsaIoInit, OpenCapture) {
575   struct cras_iodev* iodev;
576   struct cras_audio_format format;
577   struct alsa_io* aio;
578 
579   iodev = alsa_iodev_create_with_default_parameters(
580       0, NULL, ALSA_CARD_TYPE_INTERNAL, 0, fake_mixer, fake_config, NULL,
581       CRAS_STREAM_INPUT);
582   ASSERT_EQ(0, alsa_iodev_legacy_complete_init(iodev));
583 
584   aio = (struct alsa_io*)iodev;
585   format.frame_rate = 48000;
586   format.num_channels = 1;
587   cras_iodev_set_format(iodev, &format);
588 
589   ResetStubData();
590   iodev->open_dev(iodev);
591   EXPECT_EQ(1, cras_alsa_open_called);
592   iodev->configure_dev(iodev);
593   EXPECT_EQ(1, cras_alsa_open_called);
594   EXPECT_EQ(1, cras_alsa_mixer_get_minimum_capture_gain_called);
595   EXPECT_EQ(1, cras_alsa_mixer_get_maximum_capture_gain_called);
596   EXPECT_EQ(1, alsa_mixer_set_capture_dBFS_called);
597   EXPECT_EQ(1, sys_get_capture_mute_called);
598   EXPECT_EQ(1, alsa_mixer_set_capture_mute_called);
599   EXPECT_EQ(1, cras_alsa_start_called);
600   EXPECT_EQ(SEVERE_UNDERRUN_MS * format.frame_rate / 1000,
601             aio->severe_underrun_frames);
602 
603   alsa_iodev_destroy(iodev);
604   free(fake_format);
605 }
606 
TEST(AlsaIoInit,OpenCaptureSetCaptureGainWithDefaultNodeGain)607 TEST(AlsaIoInit, OpenCaptureSetCaptureGainWithDefaultNodeGain) {
608   struct cras_iodev* iodev;
609   struct cras_audio_format format;
610   struct cras_use_case_mgr* const fake_ucm = (struct cras_use_case_mgr*)3;
611   long default_node_gain = 1000;
612 
613   ResetStubData();
614   // Set default node gain to -1000 * 0.01 dB.
615   ucm_get_default_node_gain_values[INTERNAL_MICROPHONE] = default_node_gain;
616 
617   // Assume this is the first device so it gets internal mic node name.
618   iodev = alsa_iodev_create_with_default_parameters(
619       0, NULL, ALSA_CARD_TYPE_INTERNAL, 1, fake_mixer, fake_config, fake_ucm,
620       CRAS_STREAM_INPUT);
621   ASSERT_EQ(0, alsa_iodev_legacy_complete_init(iodev));
622 
623   cras_iodev_set_format(iodev, &format);
624 
625   // Check the default node gain is the same as what specified in UCM.
626   EXPECT_EQ(default_node_gain, iodev->active_node->capture_gain);
627   cras_alsa_mixer_get_minimum_capture_gain_ret_value = 0;
628   cras_alsa_mixer_get_maximum_capture_gain_ret_value = 2000;
629 
630   iodev->open_dev(iodev);
631   iodev->configure_dev(iodev);
632   iodev->close_dev(iodev);
633 
634   // Hardware gain is in the hardware gain range and set to 1000 * 0.01 dB.
635   EXPECT_EQ(default_node_gain, alsa_mixer_set_capture_dBFS_value);
636 
637   // Check we do respect the hardware maximum capture gain.
638   cras_alsa_mixer_get_maximum_capture_gain_ret_value = 500;
639 
640   iodev->open_dev(iodev);
641   iodev->configure_dev(iodev);
642   iodev->close_dev(iodev);
643 
644   EXPECT_EQ(500, alsa_mixer_set_capture_dBFS_value);
645 
646   alsa_iodev_destroy(iodev);
647   free(fake_format);
648 }
649 
TEST(AlsaIoInit,OpenCaptureSetCaptureGainWithSoftwareGain)650 TEST(AlsaIoInit, OpenCaptureSetCaptureGainWithSoftwareGain) {
651   struct cras_iodev* iodev;
652   struct cras_audio_format format;
653   struct cras_use_case_mgr* const fake_ucm = (struct cras_use_case_mgr*)3;
654 
655   /* Meet the requirements of using software gain. */
656   ResetStubData();
657 
658   iodev = alsa_iodev_create_with_default_parameters(
659       0, NULL, ALSA_CARD_TYPE_INTERNAL, 0, fake_mixer, fake_config, fake_ucm,
660       CRAS_STREAM_INPUT);
661   ASSERT_EQ(0, alsa_iodev_legacy_complete_init(iodev));
662 
663   format.frame_rate = 48000;
664   format.num_channels = 1;
665   cras_iodev_set_format(iodev, &format);
666 
667   iodev->open_dev(iodev);
668   iodev->configure_dev(iodev);
669   iodev->close_dev(iodev);
670 
671   /* Hardware gain is set to 0dB when software gain is used. */
672   EXPECT_EQ(0, alsa_mixer_set_capture_dBFS_value);
673 
674   /* Test the case where software gain is not needed. */
675   iodev->active_node->software_volume_needed = 0;
676   iodev->active_node->capture_gain = 1000;
677   iodev->open_dev(iodev);
678   iodev->configure_dev(iodev);
679   iodev->close_dev(iodev);
680 
681   /* Hardware gain is set to 1000 * 0.01 dB as got from catpure_gain.*/
682   EXPECT_EQ(0, alsa_mixer_set_capture_dBFS_value);
683 
684   alsa_iodev_destroy(iodev);
685   free(fake_format);
686 }
687 
TEST(AlsaIoInit,OpenCaptureSetCaptureGainWithDefaultUsbDevice)688 TEST(AlsaIoInit, OpenCaptureSetCaptureGainWithDefaultUsbDevice) {
689   struct cras_iodev* iodev;
690   struct cras_audio_format format;
691 
692   iodev = alsa_iodev_create_with_default_parameters(0, NULL, ALSA_CARD_TYPE_USB,
693                                                     0, fake_mixer, fake_config,
694                                                     NULL, CRAS_STREAM_INPUT);
695   ASSERT_EQ(0, alsa_iodev_legacy_complete_init(iodev));
696 
697   format.frame_rate = 48000;
698   format.num_channels = 1;
699   cras_iodev_set_format(iodev, &format);
700 
701   iodev->active_node->intrinsic_sensitivity = DEFAULT_CAPTURE_VOLUME_DBFS;
702   iodev->active_node->capture_gain = 0;
703 
704   ResetStubData();
705   iodev->open_dev(iodev);
706   iodev->configure_dev(iodev);
707 
708   EXPECT_EQ(1, sys_get_capture_mute_called);
709   EXPECT_EQ(1, alsa_mixer_set_capture_mute_called);
710 
711   /* Not change mixer controls for USB devices without UCM config. */
712   EXPECT_EQ(0, alsa_mixer_set_capture_dBFS_called);
713 
714   alsa_iodev_destroy(iodev);
715   free(fake_format);
716 }
717 
TEST(AlsaIoInit,UpdateActiveNode)718 TEST(AlsaIoInit, UpdateActiveNode) {
719   struct cras_iodev* iodev;
720   struct cras_alsa_mixer* const fake_mixer = (struct cras_alsa_mixer*)2;
721 
722   ResetStubData();
723   iodev = alsa_iodev_create_with_default_parameters(
724       0, NULL, ALSA_CARD_TYPE_INTERNAL, 0, fake_mixer, fake_config, NULL,
725       CRAS_STREAM_OUTPUT);
726   ASSERT_EQ(0, alsa_iodev_legacy_complete_init(iodev));
727   EXPECT_EQ(2, cras_card_config_get_volume_curve_for_control_called);
728 
729   iodev->update_active_node(iodev, 0, 1);
730 
731   alsa_iodev_destroy(iodev);
732 }
733 
TEST(AlsaIoInit,StartDevice)734 TEST(AlsaIoInit, StartDevice) {
735   struct cras_iodev* iodev;
736   int rc;
737 
738   ResetStubData();
739   iodev = alsa_iodev_create_with_default_parameters(
740       0, NULL, ALSA_CARD_TYPE_INTERNAL, 0, NULL, fake_config, NULL,
741       CRAS_STREAM_OUTPUT);
742   ASSERT_EQ(0, alsa_iodev_legacy_complete_init(iodev));
743   EXPECT_EQ(2, cras_card_config_get_volume_curve_for_control_called);
744 
745   // Return right away if it is already running.
746   snd_pcm_state_ret = SND_PCM_STATE_RUNNING;
747   rc = iodev->start(iodev);
748   EXPECT_EQ(0, rc);
749   EXPECT_EQ(0, cras_alsa_start_called);
750 
751   // Otherwise, start the device.
752   snd_pcm_state_ret = SND_PCM_STATE_SETUP;
753   rc = iodev->start(iodev);
754   EXPECT_EQ(0, rc);
755   EXPECT_EQ(1, cras_alsa_start_called);
756 
757   alsa_iodev_destroy(iodev);
758 }
759 
TEST(AlsaIoInit,ResumeDevice)760 TEST(AlsaIoInit, ResumeDevice) {
761   struct cras_iodev* iodev;
762   int rc;
763 
764   ResetStubData();
765   iodev = alsa_iodev_create_with_default_parameters(
766       0, NULL, ALSA_CARD_TYPE_INTERNAL, 0, NULL, fake_config, NULL,
767       CRAS_STREAM_OUTPUT);
768   ASSERT_EQ(0, alsa_iodev_legacy_complete_init(iodev));
769   EXPECT_EQ(2, cras_card_config_get_volume_curve_for_control_called);
770 
771   // Attempt to resume if the device is suspended.
772   snd_pcm_state_ret = SND_PCM_STATE_SUSPENDED;
773   rc = iodev->start(iodev);
774   EXPECT_EQ(0, rc);
775   EXPECT_EQ(1, cras_alsa_attempt_resume_called);
776 
777   alsa_iodev_destroy(iodev);
778 }
779 
TEST(AlsaIoInit,DspNameDefault)780 TEST(AlsaIoInit, DspNameDefault) {
781   struct alsa_io* aio;
782   struct cras_alsa_mixer* const fake_mixer = (struct cras_alsa_mixer*)2;
783   struct cras_use_case_mgr* const fake_ucm = (struct cras_use_case_mgr*)3;
784 
785   ResetStubData();
786   aio = (struct alsa_io*)alsa_iodev_create_with_default_parameters(
787       0, NULL, ALSA_CARD_TYPE_INTERNAL, 0, fake_mixer, fake_config, fake_ucm,
788       CRAS_STREAM_OUTPUT);
789   ASSERT_EQ(0, alsa_iodev_legacy_complete_init((struct cras_iodev*)aio));
790   EXPECT_EQ(2, cras_card_config_get_volume_curve_for_control_called);
791   EXPECT_EQ(SND_PCM_STREAM_PLAYBACK, aio->alsa_stream);
792   EXPECT_EQ(1, ucm_get_dsp_name_for_dev_called);
793   EXPECT_STREQ("", cras_iodev_update_dsp_name);
794 
795   alsa_iodev_destroy((struct cras_iodev*)aio);
796 }
797 
TEST(AlsaIoInit,DspName)798 TEST(AlsaIoInit, DspName) {
799   struct alsa_io* aio;
800   struct cras_alsa_mixer* const fake_mixer = (struct cras_alsa_mixer*)2;
801   struct cras_use_case_mgr* const fake_ucm = (struct cras_use_case_mgr*)3;
802 
803   ResetStubData();
804   ucm_get_dsp_name_for_dev_values[DEFAULT] = "hello";
805   aio = (struct alsa_io*)alsa_iodev_create_with_default_parameters(
806       0, NULL, ALSA_CARD_TYPE_INTERNAL, 0, fake_mixer, fake_config, fake_ucm,
807       CRAS_STREAM_OUTPUT);
808   ASSERT_EQ(0, alsa_iodev_legacy_complete_init((struct cras_iodev*)aio));
809   EXPECT_EQ(2, cras_card_config_get_volume_curve_for_control_called);
810   EXPECT_EQ(SND_PCM_STREAM_PLAYBACK, aio->alsa_stream);
811   EXPECT_EQ(1, ucm_get_dsp_name_for_dev_called);
812   EXPECT_STREQ("hello", cras_iodev_update_dsp_name);
813 
814   alsa_iodev_destroy((struct cras_iodev*)aio);
815 }
816 
TEST(AlsaIoInit,DspNameJackOverride)817 TEST(AlsaIoInit, DspNameJackOverride) {
818   struct alsa_io* aio;
819   struct cras_alsa_mixer* const fake_mixer = (struct cras_alsa_mixer*)2;
820   struct cras_use_case_mgr* const fake_ucm = (struct cras_use_case_mgr*)3;
821   const struct cras_alsa_jack* jack = (struct cras_alsa_jack*)4;
822   static const char* jack_name = "jack";
823 
824   ResetStubData();
825   aio = (struct alsa_io*)alsa_iodev_create_with_default_parameters(
826       0, NULL, ALSA_CARD_TYPE_INTERNAL, 0, fake_mixer, fake_config, fake_ucm,
827       CRAS_STREAM_OUTPUT);
828   ASSERT_EQ(0, alsa_iodev_legacy_complete_init((struct cras_iodev*)aio));
829   EXPECT_EQ(SND_PCM_STREAM_PLAYBACK, aio->alsa_stream);
830   EXPECT_EQ(1, ucm_get_dsp_name_for_dev_called);
831   EXPECT_EQ(1, cras_iodev_update_dsp_called);
832   EXPECT_STREQ("", cras_iodev_update_dsp_name);
833 
834   cras_alsa_jack_get_name_ret_value = jack_name;
835   ucm_get_dsp_name_for_dev_values[jack_name] = "override_dsp";
836   // Add the jack node.
837   cras_alsa_jack_list_create_cb(jack, 1, cras_alsa_jack_list_create_cb_data);
838   EXPECT_EQ(2, cras_alsa_jack_get_name_called);
839   EXPECT_EQ(2, ucm_get_dsp_name_for_dev_called);
840 
841   // Mark the jack node as active.
842   alsa_iodev_set_active_node(&aio->base, aio->base.nodes->next, 1);
843   EXPECT_EQ(2, ucm_get_dsp_name_for_dev_called);
844   EXPECT_EQ(2, cras_iodev_update_dsp_called);
845   EXPECT_STREQ("override_dsp", cras_iodev_update_dsp_name);
846 
847   // Mark the default node as active.
848   alsa_iodev_set_active_node(&aio->base, aio->base.nodes, 1);
849   EXPECT_EQ(2, ucm_get_dsp_name_for_dev_called);
850   EXPECT_EQ(3, cras_iodev_update_dsp_called);
851   EXPECT_STREQ("", cras_iodev_update_dsp_name);
852 
853   alsa_iodev_destroy((struct cras_iodev*)aio);
854 }
855 
TEST(AlsaIoInit,NodeTypeOverride)856 TEST(AlsaIoInit, NodeTypeOverride) {
857   struct alsa_io* aio;
858   struct cras_alsa_mixer* const fake_mixer = (struct cras_alsa_mixer*)2;
859   struct cras_use_case_mgr* const fake_ucm = (struct cras_use_case_mgr*)3;
860   const struct cras_alsa_jack* jack = (struct cras_alsa_jack*)4;
861 
862   ResetStubData();
863   aio = (struct alsa_io*)alsa_iodev_create_with_default_parameters(
864       0, NULL, ALSA_CARD_TYPE_INTERNAL, 0, fake_mixer, fake_config, fake_ucm,
865       CRAS_STREAM_OUTPUT);
866   ASSERT_EQ(0, alsa_iodev_legacy_complete_init((struct cras_iodev*)aio));
867   // Add the jack node.
868   cras_alsa_jack_list_create_cb(jack, 1, cras_alsa_jack_list_create_cb_data);
869   // Verify that cras_alsa_jack_update_node_type is called when an output device
870   // is created.
871   EXPECT_EQ(1, cras_alsa_jack_update_node_type_called);
872 
873   alsa_iodev_destroy((struct cras_iodev*)aio);
874 }
875 
TEST(AlsaIoInit,SwapMode)876 TEST(AlsaIoInit, SwapMode) {
877   struct alsa_io* aio;
878   struct cras_alsa_mixer* const fake_mixer = (struct cras_alsa_mixer*)2;
879   struct cras_use_case_mgr* const fake_ucm = (struct cras_use_case_mgr*)3;
880   struct cras_ionode* const fake_node =
881       (cras_ionode*)calloc(1, sizeof(struct cras_ionode));
882   ResetStubData();
883   // Stub replies that swap mode does not exist.
884   ucm_swap_mode_exists_ret_value = 0;
885 
886   aio = (struct alsa_io*)alsa_iodev_create_with_default_parameters(
887       0, NULL, ALSA_CARD_TYPE_INTERNAL, 0, fake_mixer, fake_config, fake_ucm,
888       CRAS_STREAM_OUTPUT);
889   ASSERT_EQ(0, alsa_iodev_legacy_complete_init((struct cras_iodev*)aio));
890 
891   aio->base.set_swap_mode_for_node((cras_iodev*)aio, fake_node, 1);
892   /* Swap mode is implemented by dsp. */
893   EXPECT_EQ(1, cras_iodev_dsp_set_swap_mode_for_node_called);
894 
895   // Stub replies that swap mode exists.
896   ucm_swap_mode_exists_ret_value = 1;
897   alsa_iodev_destroy((struct cras_iodev*)aio);
898 
899   aio = (struct alsa_io*)alsa_iodev_create_with_default_parameters(
900       0, NULL, ALSA_CARD_TYPE_INTERNAL, 0, fake_mixer, fake_config, fake_ucm,
901       CRAS_STREAM_OUTPUT);
902   ASSERT_EQ(0, alsa_iodev_legacy_complete_init((struct cras_iodev*)aio));
903   // Enable swap mode.
904   aio->base.set_swap_mode_for_node((cras_iodev*)aio, fake_node, 1);
905 
906   // Verify that ucm_enable_swap_mode is called when callback to enable
907   // swap mode is called.
908   EXPECT_EQ(1, ucm_enable_swap_mode_called);
909 
910   alsa_iodev_destroy((struct cras_iodev*)aio);
911   free(fake_node);
912 }
913 
TEST(AlsaIoInit,MaxSupportedChannels)914 TEST(AlsaIoInit, MaxSupportedChannels) {
915   struct alsa_io* aio;
916   struct cras_alsa_mixer* const fake_mixer = (struct cras_alsa_mixer*)2;
917   int i;
918 
919   // i = 0: cras_alsa_support_8_channels is false, support 2 channels only.
920   // i = 1: cras_alsa_support_8_channels is true, support up to 8 channels.
921   for (i = 0; i < 2; i++) {
922     ResetStubData();
923     cras_alsa_support_8_channels = (bool)i;
924 
925     aio = (struct alsa_io*)alsa_iodev_create_with_default_parameters(
926         0, test_dev_id, ALSA_CARD_TYPE_INTERNAL, 1, fake_mixer, fake_config,
927         NULL, CRAS_STREAM_OUTPUT);
928     ASSERT_EQ(0, alsa_iodev_legacy_complete_init((struct cras_iodev*)aio));
929     /* Call cras_alsa_fill_properties once on update_max_supported_channels. */
930     EXPECT_EQ(1, cras_alsa_fill_properties_called);
931     uint32_t max_channels = (cras_alsa_support_8_channels) ? 8 : 2;
932     EXPECT_EQ(max_channels, aio->base.info.max_supported_channels);
933     alsa_iodev_destroy((struct cras_iodev*)aio);
934     EXPECT_EQ(1, cras_iodev_free_resources_called);
935   }
936 }
937 
938 // Test that system settins aren't touched if no streams active.
TEST(AlsaOutputNode,SystemSettingsWhenInactive)939 TEST(AlsaOutputNode, SystemSettingsWhenInactive) {
940   int rc;
941   struct alsa_io* aio;
942   struct cras_alsa_mixer* const fake_mixer = (struct cras_alsa_mixer*)2;
943   struct mixer_control* outputs[2];
944 
945   ResetStubData();
946   outputs[0] = reinterpret_cast<struct mixer_control*>(3);
947   outputs[1] = reinterpret_cast<struct mixer_control*>(4);
948   cras_alsa_mixer_list_outputs_outputs = outputs;
949   cras_alsa_mixer_list_outputs_outputs_length = ARRAY_SIZE(outputs);
950   aio = (struct alsa_io*)alsa_iodev_create_with_default_parameters(
951       0, NULL, ALSA_CARD_TYPE_INTERNAL, 1, fake_mixer, fake_config, NULL,
952       CRAS_STREAM_OUTPUT);
953   ASSERT_EQ(0, alsa_iodev_legacy_complete_init((struct cras_iodev*)aio));
954   /* Two mixer controls calls get volume curve. */
955   EXPECT_EQ(4, cras_card_config_get_volume_curve_for_control_called);
956   EXPECT_EQ(SND_PCM_STREAM_PLAYBACK, aio->alsa_stream);
957   EXPECT_EQ(1, cras_alsa_mixer_list_outputs_called);
958 
959   ResetStubData();
960   rc = alsa_iodev_set_active_node((struct cras_iodev*)aio,
961                                   aio->base.nodes->next, 1);
962   EXPECT_EQ(0, rc);
963   EXPECT_EQ(0, alsa_mixer_set_mute_called);
964   EXPECT_EQ(0, alsa_mixer_set_dBFS_called);
965   ASSERT_EQ(2, cras_alsa_mixer_set_output_active_state_called);
966   EXPECT_EQ(outputs[0], cras_alsa_mixer_set_output_active_state_outputs[0]);
967   EXPECT_EQ(0, cras_alsa_mixer_set_output_active_state_values[0]);
968   EXPECT_EQ(outputs[1], cras_alsa_mixer_set_output_active_state_outputs[1]);
969   EXPECT_EQ(1, cras_alsa_mixer_set_output_active_state_values[1]);
970   EXPECT_EQ(1, cras_iodev_update_dsp_called);
971   // No jack is defined, and UCM is not used.
972   EXPECT_EQ(0, cras_alsa_jack_enable_ucm_called);
973   EXPECT_EQ(0, ucm_set_enabled_called);
974 
975   alsa_iodev_destroy((struct cras_iodev*)aio);
976 }
977 
978 //  Test handling of different amounts of outputs.
TEST(AlsaOutputNode,TwoOutputs)979 TEST(AlsaOutputNode, TwoOutputs) {
980   int rc;
981   struct alsa_io* aio;
982   struct cras_alsa_mixer* const fake_mixer = (struct cras_alsa_mixer*)2;
983   struct mixer_control* outputs[2];
984 
985   ResetStubData();
986   outputs[0] = reinterpret_cast<struct mixer_control*>(3);
987   outputs[1] = reinterpret_cast<struct mixer_control*>(4);
988   cras_alsa_mixer_list_outputs_outputs = outputs;
989   cras_alsa_mixer_list_outputs_outputs_length = ARRAY_SIZE(outputs);
990   aio = (struct alsa_io*)alsa_iodev_create_with_default_parameters(
991       0, NULL, ALSA_CARD_TYPE_INTERNAL, 1, fake_mixer, fake_config, NULL,
992       CRAS_STREAM_OUTPUT);
993   ASSERT_EQ(0, alsa_iodev_legacy_complete_init((struct cras_iodev*)aio));
994   EXPECT_EQ(4, cras_card_config_get_volume_curve_for_control_called);
995   EXPECT_EQ(SND_PCM_STREAM_PLAYBACK, aio->alsa_stream);
996   EXPECT_EQ(1, cras_alsa_mixer_list_outputs_called);
997 
998   aio->handle = (snd_pcm_t*)0x24;
999 
1000   ResetStubData();
1001   rc = alsa_iodev_set_active_node((struct cras_iodev*)aio,
1002                                   aio->base.nodes->next, 1);
1003   EXPECT_EQ(0, rc);
1004   EXPECT_EQ(1, alsa_mixer_set_mute_called);
1005   EXPECT_EQ(outputs[1], alsa_mixer_set_mute_output);
1006   EXPECT_EQ(1, alsa_mixer_set_dBFS_called);
1007   EXPECT_EQ(outputs[1], alsa_mixer_set_dBFS_output);
1008   ASSERT_EQ(2, cras_alsa_mixer_set_output_active_state_called);
1009   EXPECT_EQ(outputs[0], cras_alsa_mixer_set_output_active_state_outputs[0]);
1010   EXPECT_EQ(0, cras_alsa_mixer_set_output_active_state_values[0]);
1011   EXPECT_EQ(outputs[1], cras_alsa_mixer_set_output_active_state_outputs[1]);
1012   EXPECT_EQ(1, cras_alsa_mixer_set_output_active_state_values[1]);
1013   EXPECT_EQ(1, cras_iodev_update_dsp_called);
1014   // No jacks defined, and UCM is not used.
1015   EXPECT_EQ(0, cras_alsa_jack_enable_ucm_called);
1016   EXPECT_EQ(0, ucm_set_enabled_called);
1017 
1018   alsa_iodev_destroy((struct cras_iodev*)aio);
1019 }
1020 
TEST(AlsaOutputNode,TwoJacksHeadphoneLineout)1021 TEST(AlsaOutputNode, TwoJacksHeadphoneLineout) {
1022   struct alsa_io* aio;
1023   struct cras_alsa_mixer* const fake_mixer = (struct cras_alsa_mixer*)2;
1024   struct cras_use_case_mgr* const fake_ucm = (struct cras_use_case_mgr*)3;
1025   struct cras_iodev* iodev;
1026   struct mixer_control* output;
1027   struct ucm_section* section;
1028 
1029   ResetStubData();
1030   output = reinterpret_cast<struct mixer_control*>(3);
1031   cras_alsa_mixer_get_control_name_values[output] = HEADPHONE;
1032 
1033   // Create the iodev
1034   iodev = alsa_iodev_create_with_default_parameters(
1035       0, NULL, ALSA_CARD_TYPE_INTERNAL, 1, fake_mixer, fake_config, fake_ucm,
1036       CRAS_STREAM_OUTPUT);
1037   ASSERT_NE(iodev, (void*)NULL);
1038   aio = reinterpret_cast<struct alsa_io*>(iodev);
1039   EXPECT_EQ(1, cras_card_config_get_volume_curve_for_control_called);
1040 
1041   // First node 'Headphone'
1042   section = ucm_section_create(HEADPHONE, "hw:0,1", 0, -1, CRAS_STREAM_OUTPUT,
1043                                "fake-jack", "gpio");
1044   ucm_section_set_mixer_name(section, HEADPHONE);
1045   cras_alsa_jack_list_add_jack_for_section_result_jack =
1046       reinterpret_cast<struct cras_alsa_jack*>(10);
1047   cras_alsa_mixer_get_control_for_section_return_value = output;
1048   ASSERT_EQ(0, alsa_iodev_ucm_add_nodes_and_jacks(iodev, section));
1049   EXPECT_EQ(4, cras_card_config_get_volume_curve_for_control_called);
1050   ucm_section_free_list(section);
1051 
1052   // Second node 'Line Out'
1053   section = ucm_section_create("Line Out", "hw:0.1", 0, -1, CRAS_STREAM_OUTPUT,
1054                                "fake-jack", "gpio");
1055   ucm_section_set_mixer_name(section, HEADPHONE);
1056   cras_alsa_jack_list_add_jack_for_section_result_jack =
1057       reinterpret_cast<struct cras_alsa_jack*>(20);
1058   cras_alsa_mixer_get_control_for_section_return_value = output;
1059   ASSERT_EQ(0, alsa_iodev_ucm_add_nodes_and_jacks(iodev, section));
1060   EXPECT_EQ(7, cras_card_config_get_volume_curve_for_control_called);
1061   ucm_section_free_list(section);
1062 
1063   // Both nodes are associated with the same mixer output. Different jack plug
1064   // report should trigger different node attribute change.
1065   cras_alsa_jack_get_mixer_output_ret = output;
1066   jack_output_plug_event(reinterpret_cast<struct cras_alsa_jack*>(10), 0, aio);
1067   EXPECT_STREQ(cras_iodev_set_node_plugged_ionode->name, HEADPHONE);
1068 
1069   jack_output_plug_event(reinterpret_cast<struct cras_alsa_jack*>(20), 0, aio);
1070   EXPECT_STREQ(cras_iodev_set_node_plugged_ionode->name, "Line Out");
1071 
1072   alsa_iodev_destroy(iodev);
1073 }
1074 
TEST(AlsaOutputNode,MaxSupportedChannels)1075 TEST(AlsaOutputNode, MaxSupportedChannels) {
1076   struct cras_use_case_mgr* const fake_ucm = (struct cras_use_case_mgr*)3;
1077   struct cras_iodev* iodev;
1078   struct ucm_section* section;
1079   int i;
1080 
1081   // i = 0: cras_alsa_support_8_channels is false, support 2 channels only.
1082   // i = 1: cras_alsa_support_8_channels is true, support up to 8 channels.
1083   for (i = 0; i < 2; i++) {
1084     ResetStubData();
1085     cras_alsa_support_8_channels = (bool)i;
1086 
1087     // Create the IO device.
1088     iodev = alsa_iodev_create_with_default_parameters(
1089         1, NULL, ALSA_CARD_TYPE_INTERNAL, 1, fake_mixer, fake_config, fake_ucm,
1090         CRAS_STREAM_OUTPUT);
1091     ASSERT_NE(iodev, (void*)NULL);
1092 
1093     // Node without controls or jacks.
1094     section = ucm_section_create(INTERNAL_SPEAKER, "hw:0,1", 1, -1,
1095                                  CRAS_STREAM_OUTPUT, NULL, NULL);
1096     // Device index doesn't match.
1097     EXPECT_EQ(-22, alsa_iodev_ucm_add_nodes_and_jacks(iodev, section));
1098     section->dev_idx = 0;
1099     ASSERT_EQ(0, alsa_iodev_ucm_add_nodes_and_jacks(iodev, section));
1100     ucm_section_free_list(section);
1101 
1102     // Complete initialization, and make first node active.
1103     alsa_iodev_ucm_complete_init(iodev);
1104     /* Call cras_alsa_fill_properties once on update_max_supported_channels. */
1105     EXPECT_EQ(1, cras_alsa_fill_properties_called);
1106     uint32_t max_channels = (cras_alsa_support_8_channels) ? 8 : 2;
1107     EXPECT_EQ(max_channels, iodev->info.max_supported_channels);
1108     alsa_iodev_destroy(iodev);
1109   }
1110 }
1111 
TEST(AlsaOutputNode,OutputsFromUCM)1112 TEST(AlsaOutputNode, OutputsFromUCM) {
1113   struct alsa_io* aio;
1114   struct cras_alsa_mixer* const fake_mixer = (struct cras_alsa_mixer*)2;
1115   struct cras_use_case_mgr* const fake_ucm = (struct cras_use_case_mgr*)3;
1116   struct cras_iodev* iodev;
1117   static const char* jack_name = "TestCard - Headset Jack";
1118   struct mixer_control* outputs[2];
1119   int rc;
1120   struct ucm_section* section;
1121 
1122   ResetStubData();
1123   outputs[0] = reinterpret_cast<struct mixer_control*>(3);
1124   outputs[1] = reinterpret_cast<struct mixer_control*>(4);
1125   cras_alsa_mixer_list_outputs_outputs = outputs;
1126   cras_alsa_mixer_list_outputs_outputs_length = ARRAY_SIZE(outputs);
1127   cras_alsa_mixer_get_control_name_values[outputs[0]] = INTERNAL_SPEAKER;
1128   cras_alsa_mixer_get_control_name_values[outputs[1]] = HEADPHONE;
1129   ucm_get_dma_period_for_dev_ret = 1000;
1130 
1131   // Create the IO device.
1132   iodev = alsa_iodev_create_with_default_parameters(
1133       0, NULL, ALSA_CARD_TYPE_INTERNAL, 1, fake_mixer, fake_config, fake_ucm,
1134       CRAS_STREAM_OUTPUT);
1135   ASSERT_NE(iodev, (void*)NULL);
1136   aio = reinterpret_cast<struct alsa_io*>(iodev);
1137   EXPECT_EQ(1, cras_card_config_get_volume_curve_for_control_called);
1138 
1139   // First node.
1140   section = ucm_section_create(INTERNAL_SPEAKER, "hw:0,1", 0, -1,
1141                                CRAS_STREAM_OUTPUT, NULL, NULL);
1142   ucm_section_set_mixer_name(section, INTERNAL_SPEAKER);
1143   cras_alsa_jack_list_add_jack_for_section_result_jack =
1144       reinterpret_cast<struct cras_alsa_jack*>(1);
1145   cras_alsa_mixer_get_control_for_section_return_value = outputs[0];
1146   ASSERT_EQ(0, alsa_iodev_ucm_add_nodes_and_jacks(iodev, section));
1147   ucm_section_free_list(section);
1148   EXPECT_EQ(4, cras_card_config_get_volume_curve_for_control_called);
1149 
1150   // Add a second node (will use the same iodev).
1151   section = ucm_section_create(HEADPHONE, "hw:0,2", 0, -1, CRAS_STREAM_OUTPUT,
1152                                jack_name, "hctl");
1153   ucm_section_add_coupled(section, "HP-L", MIXER_NAME_VOLUME);
1154   ucm_section_add_coupled(section, "HP-R", MIXER_NAME_VOLUME);
1155   cras_alsa_jack_list_add_jack_for_section_result_jack = NULL;
1156   cras_alsa_mixer_get_control_for_section_return_value = outputs[1];
1157   ASSERT_EQ(0, alsa_iodev_ucm_add_nodes_and_jacks(iodev, section));
1158   ucm_section_free_list(section);
1159   /* New nodes creation calls get volume curve once, NULL jack doesn't make
1160    * more calls. */
1161   EXPECT_EQ(5, cras_card_config_get_volume_curve_for_control_called);
1162 
1163   // Jack plug of an unkonwn device should do nothing.
1164   cras_alsa_jack_get_mixer_output_ret = NULL;
1165   cras_alsa_jack_get_name_ret_value = "Some other jack";
1166   jack_output_plug_event(reinterpret_cast<struct cras_alsa_jack*>(4), 0, aio);
1167   EXPECT_EQ(0, cras_iodev_set_node_plugged_called);
1168 
1169   // Complete initialization, and make first node active.
1170   cras_alsa_support_8_channels = false;  // Support 2 channels only.
1171   alsa_iodev_ucm_complete_init(iodev);
1172   EXPECT_EQ(SND_PCM_STREAM_PLAYBACK, aio->alsa_stream);
1173   EXPECT_EQ(2, cras_alsa_jack_list_add_jack_for_section_called);
1174   EXPECT_EQ(2, cras_alsa_mixer_get_control_for_section_called);
1175   EXPECT_EQ(1, ucm_get_dma_period_for_dev_called);
1176   EXPECT_EQ(ucm_get_dma_period_for_dev_ret, aio->dma_period_set_microsecs);
1177   /* Call cras_alsa_fill_properties once on update_max_supported_channels. */
1178   EXPECT_EQ(1, cras_alsa_fill_properties_called);
1179   EXPECT_EQ(2, iodev->info.max_supported_channels);
1180 
1181   aio->handle = (snd_pcm_t*)0x24;
1182 
1183   ResetStubData();
1184   rc = alsa_iodev_set_active_node(iodev, aio->base.nodes->next, 1);
1185   EXPECT_EQ(0, rc);
1186   EXPECT_EQ(1, alsa_mixer_set_mute_called);
1187   EXPECT_EQ(outputs[1], alsa_mixer_set_mute_output);
1188   EXPECT_EQ(1, alsa_mixer_set_dBFS_called);
1189   EXPECT_EQ(outputs[1], alsa_mixer_set_dBFS_output);
1190   ASSERT_EQ(2, cras_alsa_mixer_set_output_active_state_called);
1191   EXPECT_EQ(outputs[0], cras_alsa_mixer_set_output_active_state_outputs[0]);
1192   EXPECT_EQ(0, cras_alsa_mixer_set_output_active_state_values[0]);
1193   EXPECT_EQ(outputs[1], cras_alsa_mixer_set_output_active_state_outputs[1]);
1194   EXPECT_EQ(1, cras_alsa_mixer_set_output_active_state_values[1]);
1195   EXPECT_EQ(1, cras_iodev_update_dsp_called);
1196   EXPECT_EQ(1, cras_alsa_jack_enable_ucm_called);
1197   EXPECT_EQ(1, ucm_set_enabled_called);
1198 
1199   // Simulate jack plug event.
1200   cras_alsa_support_8_channels = true;  // Support up to 8 channels.
1201   cras_alsa_jack_get_mixer_output_ret = outputs[1];
1202   cras_alsa_jack_get_name_ret_value = jack_name;
1203   jack_output_plug_event(reinterpret_cast<struct cras_alsa_jack*>(4), 0, aio);
1204   EXPECT_EQ(1, cras_iodev_set_node_plugged_called);
1205   /* Headphone plug event shouldn't trigger update_max_supported_channels. */
1206   EXPECT_EQ(0, cras_alsa_fill_properties_called);
1207   EXPECT_EQ(2, iodev->info.max_supported_channels);
1208 
1209   alsa_iodev_destroy(iodev);
1210 }
1211 
TEST(AlsaOutputNode,OutputNoControlsUCM)1212 TEST(AlsaOutputNode, OutputNoControlsUCM) {
1213   struct alsa_io* aio;
1214   struct cras_use_case_mgr* const fake_ucm = (struct cras_use_case_mgr*)3;
1215   struct cras_iodev* iodev;
1216   struct ucm_section* section;
1217 
1218   ResetStubData();
1219 
1220   // Create the IO device.
1221   iodev = alsa_iodev_create_with_default_parameters(
1222       1, NULL, ALSA_CARD_TYPE_INTERNAL, 1, fake_mixer, fake_config, fake_ucm,
1223       CRAS_STREAM_OUTPUT);
1224   ASSERT_NE(iodev, (void*)NULL);
1225   aio = reinterpret_cast<struct alsa_io*>(iodev);
1226   EXPECT_EQ(1, cras_card_config_get_volume_curve_for_control_called);
1227 
1228   // Node without controls or jacks.
1229   section = ucm_section_create(INTERNAL_SPEAKER, "hw:0,1", 1, -1,
1230                                CRAS_STREAM_OUTPUT, NULL, NULL);
1231   // Device index doesn't match.
1232   EXPECT_EQ(-22, alsa_iodev_ucm_add_nodes_and_jacks(iodev, section));
1233   section->dev_idx = 0;
1234   ASSERT_EQ(0, alsa_iodev_ucm_add_nodes_and_jacks(iodev, section));
1235   EXPECT_EQ(2, cras_card_config_get_volume_curve_for_control_called);
1236   EXPECT_EQ(1, cras_alsa_mixer_get_control_for_section_called);
1237   EXPECT_EQ(1, cras_iodev_add_node_called);
1238   ucm_section_free_list(section);
1239 
1240   // Complete initialization, and make first node active.
1241   alsa_iodev_ucm_complete_init(iodev);
1242   EXPECT_EQ(SND_PCM_STREAM_PLAYBACK, aio->alsa_stream);
1243   EXPECT_EQ(0, cras_alsa_mixer_get_control_name_called);
1244   EXPECT_EQ(1, cras_iodev_update_dsp_called);
1245   EXPECT_EQ(0, cras_alsa_jack_enable_ucm_called);
1246   EXPECT_EQ(1, ucm_set_enabled_called);
1247 
1248   alsa_iodev_destroy(iodev);
1249 }
1250 
TEST(AlsaOutputNode,OutputFromJackUCM)1251 TEST(AlsaOutputNode, OutputFromJackUCM) {
1252   struct alsa_io* aio;
1253   struct cras_use_case_mgr* const fake_ucm = (struct cras_use_case_mgr*)3;
1254   struct cras_iodev* iodev;
1255   static const char* jack_name = "TestCard - Headset Jack";
1256   struct ucm_section* section;
1257 
1258   ResetStubData();
1259 
1260   // Create the IO device.
1261   iodev = alsa_iodev_create_with_default_parameters(
1262       1, NULL, ALSA_CARD_TYPE_INTERNAL, 1, fake_mixer, fake_config, fake_ucm,
1263       CRAS_STREAM_OUTPUT);
1264   ASSERT_NE(iodev, (void*)NULL);
1265   aio = reinterpret_cast<struct alsa_io*>(iodev);
1266   EXPECT_EQ(1, cras_card_config_get_volume_curve_for_control_called);
1267 
1268   // Node without controls or jacks.
1269   cras_alsa_jack_list_add_jack_for_section_result_jack =
1270       reinterpret_cast<struct cras_alsa_jack*>(1);
1271   section = ucm_section_create(HEADPHONE, "hw:0,1", 0, -1, CRAS_STREAM_OUTPUT,
1272                                jack_name, "hctl");
1273   ASSERT_EQ(0, alsa_iodev_ucm_add_nodes_and_jacks(iodev, section));
1274   EXPECT_EQ(4, cras_card_config_get_volume_curve_for_control_called);
1275   EXPECT_EQ(1, cras_alsa_mixer_get_control_for_section_called);
1276   EXPECT_EQ(1, cras_iodev_add_node_called);
1277   EXPECT_EQ(1, cras_alsa_jack_list_add_jack_for_section_called);
1278   ucm_section_free_list(section);
1279 
1280   // Complete initialization, and make first node active.
1281   alsa_iodev_ucm_complete_init(iodev);
1282   EXPECT_EQ(SND_PCM_STREAM_PLAYBACK, aio->alsa_stream);
1283   EXPECT_EQ(0, cras_alsa_mixer_get_control_name_called);
1284   EXPECT_EQ(1, cras_iodev_update_dsp_called);
1285   EXPECT_EQ(1, cras_alsa_jack_enable_ucm_called);
1286   EXPECT_EQ(0, ucm_set_enabled_called);
1287 
1288   alsa_iodev_destroy(iodev);
1289 }
1290 
TEST(AlsaOutputNode,InputsFromUCM)1291 TEST(AlsaOutputNode, InputsFromUCM) {
1292   struct alsa_io* aio;
1293   struct cras_alsa_mixer* const fake_mixer = (struct cras_alsa_mixer*)2;
1294   struct cras_use_case_mgr* const fake_ucm = (struct cras_use_case_mgr*)3;
1295   struct mixer_control* inputs[2];
1296   struct cras_iodev* iodev;
1297   static const char* jack_name = "TestCard - Headset Jack";
1298   int rc;
1299   struct ucm_section* section;
1300   long intrinsic_sensitivity = -2700;
1301 
1302   ResetStubData();
1303   inputs[0] = reinterpret_cast<struct mixer_control*>(3);
1304   inputs[1] = reinterpret_cast<struct mixer_control*>(4);
1305   cras_alsa_mixer_list_inputs_outputs = inputs;
1306   cras_alsa_mixer_list_inputs_outputs_length = ARRAY_SIZE(inputs);
1307   cras_alsa_mixer_get_control_name_values[inputs[0]] = INTERNAL_MICROPHONE;
1308   cras_alsa_mixer_get_control_name_values[inputs[1]] = MIC;
1309 
1310   // Create the IO device.
1311   iodev = alsa_iodev_create_with_default_parameters(
1312       0, NULL, ALSA_CARD_TYPE_INTERNAL, 1, fake_mixer, fake_config, fake_ucm,
1313       CRAS_STREAM_INPUT);
1314   ASSERT_NE(iodev, (void*)NULL);
1315   aio = reinterpret_cast<struct alsa_io*>(iodev);
1316 
1317   // First node.
1318   cras_alsa_mixer_get_control_for_section_return_value = inputs[0];
1319   section = ucm_section_create(INTERNAL_MICROPHONE, "hw:0,1", 0, -1,
1320                                CRAS_STREAM_INPUT, NULL, NULL);
1321   ucm_section_add_coupled(section, "MIC-L", MIXER_NAME_VOLUME);
1322   ucm_section_add_coupled(section, "MIC-R", MIXER_NAME_VOLUME);
1323   ASSERT_EQ(0, alsa_iodev_ucm_add_nodes_and_jacks(iodev, section));
1324   ucm_section_free_list(section);
1325 
1326   // Add a second node (will use the same iodev).
1327   cras_alsa_mixer_get_control_name_called = 0;
1328   // Set intrinsic sensitivity to enable software gain.
1329   ucm_get_intrinsic_sensitivity_values[MIC] = intrinsic_sensitivity;
1330   cras_alsa_jack_list_add_jack_for_section_result_jack =
1331       reinterpret_cast<struct cras_alsa_jack*>(1);
1332   cras_alsa_mixer_get_control_for_section_return_value = inputs[1];
1333   section = ucm_section_create(MIC, "hw:0,2", 0, -1, CRAS_STREAM_INPUT,
1334                                jack_name, "hctl");
1335   ucm_section_set_mixer_name(section, MIC);
1336   ASSERT_EQ(0, alsa_iodev_ucm_add_nodes_and_jacks(iodev, section));
1337   ucm_section_free_list(section);
1338 
1339   // Jack plug of an unknown device should do nothing.
1340   cras_alsa_jack_get_mixer_input_ret = NULL;
1341   cras_alsa_jack_get_name_ret_value = "Some other jack";
1342   jack_input_plug_event(reinterpret_cast<struct cras_alsa_jack*>(4), 0, aio);
1343   EXPECT_EQ(0, cras_iodev_set_node_plugged_called);
1344 
1345   // Simulate jack plug event.
1346   cras_alsa_jack_get_mixer_input_ret = inputs[1];
1347   cras_alsa_jack_get_name_ret_value = jack_name;
1348   jack_input_plug_event(reinterpret_cast<struct cras_alsa_jack*>(4), 0, aio);
1349   EXPECT_EQ(1, cras_iodev_set_node_plugged_called);
1350 
1351   // Complete initialization, and make first node active.
1352   alsa_iodev_ucm_complete_init(iodev);
1353   EXPECT_EQ(SND_PCM_STREAM_CAPTURE, aio->alsa_stream);
1354   EXPECT_EQ(2, cras_alsa_jack_list_add_jack_for_section_called);
1355   EXPECT_EQ(2, cras_alsa_mixer_get_control_for_section_called);
1356   EXPECT_EQ(1, cras_alsa_mixer_get_control_name_called);
1357   EXPECT_EQ(2, cras_iodev_add_node_called);
1358   EXPECT_EQ(2, ucm_get_dma_period_for_dev_called);
1359   EXPECT_EQ(0, aio->dma_period_set_microsecs);
1360 
1361   aio->handle = (snd_pcm_t*)0x24;
1362 
1363   ResetStubData();
1364   rc = alsa_iodev_set_active_node(iodev, aio->base.nodes->next, 1);
1365   EXPECT_EQ(0, rc);
1366   EXPECT_EQ(1, alsa_mixer_set_capture_dBFS_called);
1367   EXPECT_EQ(inputs[1], alsa_mixer_set_capture_dBFS_input);
1368   EXPECT_EQ(0, alsa_mixer_set_capture_dBFS_value);
1369   EXPECT_EQ(1, cras_iodev_update_dsp_called);
1370   EXPECT_EQ(1, cras_alsa_jack_enable_ucm_called);
1371   EXPECT_EQ(1, ucm_set_enabled_called);
1372   EXPECT_EQ(1, alsa_mixer_set_capture_mute_called);
1373   ASSERT_EQ(DEFAULT_CAPTURE_VOLUME_DBFS - intrinsic_sensitivity,
1374             iodev->active_node->capture_gain);
1375 
1376   alsa_iodev_destroy(iodev);
1377 }
1378 
TEST(AlsaOutputNode,InputNoControlsUCM)1379 TEST(AlsaOutputNode, InputNoControlsUCM) {
1380   struct alsa_io* aio;
1381   struct cras_use_case_mgr* const fake_ucm = (struct cras_use_case_mgr*)3;
1382   struct cras_iodev* iodev;
1383   struct ucm_section* section;
1384 
1385   ResetStubData();
1386 
1387   // Create the IO device.
1388   iodev = alsa_iodev_create_with_default_parameters(
1389       1, NULL, ALSA_CARD_TYPE_INTERNAL, 1, fake_mixer, fake_config, fake_ucm,
1390       CRAS_STREAM_INPUT);
1391   ASSERT_NE(iodev, (void*)NULL);
1392   aio = reinterpret_cast<struct alsa_io*>(iodev);
1393 
1394   // Node without controls or jacks.
1395   section = ucm_section_create(INTERNAL_MICROPHONE, "hw:0,1", 1, -1,
1396                                CRAS_STREAM_INPUT, NULL, NULL);
1397   // Device index doesn't match.
1398   EXPECT_EQ(-22, alsa_iodev_ucm_add_nodes_and_jacks(iodev, section));
1399   section->dev_idx = 0;
1400   ASSERT_EQ(0, alsa_iodev_ucm_add_nodes_and_jacks(iodev, section));
1401   EXPECT_EQ(1, cras_alsa_jack_list_add_jack_for_section_called);
1402   EXPECT_EQ(1, cras_alsa_mixer_get_control_for_section_called);
1403   EXPECT_EQ(0, cras_alsa_mixer_get_control_name_called);
1404   EXPECT_EQ(1, cras_iodev_add_node_called);
1405   ucm_section_free_list(section);
1406 
1407   // Complete initialization, and make first node active.
1408   alsa_iodev_ucm_complete_init(iodev);
1409   EXPECT_EQ(SND_PCM_STREAM_CAPTURE, aio->alsa_stream);
1410   EXPECT_EQ(0, cras_alsa_mixer_get_control_name_called);
1411   EXPECT_EQ(1, cras_iodev_update_dsp_called);
1412   EXPECT_EQ(0, cras_alsa_jack_enable_ucm_called);
1413   EXPECT_EQ(1, ucm_set_enabled_called);
1414 
1415   alsa_iodev_destroy(iodev);
1416 }
1417 
TEST(AlsaOutputNode,InputFromJackUCM)1418 TEST(AlsaOutputNode, InputFromJackUCM) {
1419   struct alsa_io* aio;
1420   struct cras_use_case_mgr* const fake_ucm = (struct cras_use_case_mgr*)3;
1421   struct cras_iodev* iodev;
1422   static const char* jack_name = "TestCard - Headset Jack";
1423   struct ucm_section* section;
1424 
1425   ResetStubData();
1426 
1427   // Create the IO device.
1428   iodev = alsa_iodev_create_with_default_parameters(
1429       1, NULL, ALSA_CARD_TYPE_INTERNAL, 1, fake_mixer, fake_config, fake_ucm,
1430       CRAS_STREAM_INPUT);
1431   ASSERT_NE(iodev, (void*)NULL);
1432   aio = reinterpret_cast<struct alsa_io*>(iodev);
1433 
1434   // Node without controls or jacks.
1435   cras_alsa_jack_list_add_jack_for_section_result_jack =
1436       reinterpret_cast<struct cras_alsa_jack*>(1);
1437   section = ucm_section_create(MIC, "hw:0,1", 0, -1, CRAS_STREAM_INPUT,
1438                                jack_name, "hctl");
1439   ASSERT_EQ(0, alsa_iodev_ucm_add_nodes_and_jacks(iodev, section));
1440   EXPECT_EQ(1, cras_alsa_mixer_get_control_for_section_called);
1441   EXPECT_EQ(1, cras_iodev_add_node_called);
1442   EXPECT_EQ(1, cras_alsa_jack_list_add_jack_for_section_called);
1443   ucm_section_free_list(section);
1444 
1445   // Complete initialization, and make first node active.
1446   alsa_iodev_ucm_complete_init(iodev);
1447   EXPECT_EQ(SND_PCM_STREAM_CAPTURE, aio->alsa_stream);
1448   EXPECT_EQ(0, cras_alsa_mixer_get_control_name_called);
1449   EXPECT_EQ(1, cras_iodev_update_dsp_called);
1450   EXPECT_EQ(1, cras_alsa_jack_enable_ucm_called);
1451   EXPECT_EQ(0, ucm_set_enabled_called);
1452 
1453   alsa_iodev_destroy(iodev);
1454 }
1455 
TEST(AlsaOutputNode,AutoUnplugOutputNode)1456 TEST(AlsaOutputNode, AutoUnplugOutputNode) {
1457   struct alsa_io* aio;
1458   struct cras_alsa_mixer* const fake_mixer = (struct cras_alsa_mixer*)2;
1459   struct cras_use_case_mgr* const fake_ucm = (struct cras_use_case_mgr*)3;
1460   struct mixer_control* outputs[2];
1461   const struct cras_alsa_jack* jack = (struct cras_alsa_jack*)4;
1462 
1463   ResetStubData();
1464   outputs[0] = reinterpret_cast<struct mixer_control*>(5);
1465   outputs[1] = reinterpret_cast<struct mixer_control*>(6);
1466 
1467   cras_alsa_mixer_list_outputs_outputs = outputs;
1468   cras_alsa_mixer_list_outputs_outputs_length = ARRAY_SIZE(outputs);
1469 
1470   cras_alsa_mixer_get_control_name_values[outputs[0]] = INTERNAL_SPEAKER;
1471   cras_alsa_mixer_get_control_name_values[outputs[1]] = HEADPHONE;
1472   auto_unplug_output_node_ret = 1;
1473 
1474   aio = (struct alsa_io*)alsa_iodev_create_with_default_parameters(
1475       0, NULL, ALSA_CARD_TYPE_INTERNAL, 1, fake_mixer, fake_config, fake_ucm,
1476       CRAS_STREAM_OUTPUT);
1477 
1478   ASSERT_EQ(0, alsa_iodev_legacy_complete_init((struct cras_iodev*)aio));
1479   EXPECT_EQ(3, cras_card_config_get_volume_curve_for_control_called);
1480   EXPECT_EQ(1, cras_alsa_mixer_list_outputs_called);
1481   EXPECT_EQ(2, cras_alsa_mixer_get_control_name_called);
1482 
1483   // Assert that the the internal speaker is plugged and other nodes aren't.
1484   ASSERT_NE(aio->base.nodes, (void*)NULL);
1485   EXPECT_EQ(aio->base.nodes->plugged, 1);
1486   ASSERT_NE(aio->base.nodes->next, (void*)NULL);
1487   EXPECT_EQ(aio->base.nodes->next->plugged, 0);
1488 
1489   // Plug headphone jack
1490   cras_alsa_jack_get_name_ret_value = "Headphone Jack";
1491   is_utf8_string_ret_value = 1;
1492   cras_alsa_jack_get_mixer_output_ret = outputs[1];
1493   cras_alsa_jack_list_create_cb(jack, 1, cras_alsa_jack_list_create_cb_data);
1494 
1495   // Assert internal speaker is auto unplugged
1496   EXPECT_EQ(aio->base.nodes->plugged, 0);
1497   EXPECT_EQ(aio->base.nodes->next->plugged, 1);
1498 
1499   alsa_iodev_destroy((struct cras_iodev*)aio);
1500 }
1501 
TEST(AlsaOutputNode,AutoUnplugInputNode)1502 TEST(AlsaOutputNode, AutoUnplugInputNode) {
1503   struct alsa_io* aio;
1504   struct cras_alsa_mixer* const fake_mixer = (struct cras_alsa_mixer*)2;
1505   struct cras_use_case_mgr* const fake_ucm = (struct cras_use_case_mgr*)3;
1506   struct mixer_control* inputs[2];
1507   const struct cras_alsa_jack* jack = (struct cras_alsa_jack*)4;
1508 
1509   ResetStubData();
1510   inputs[0] = reinterpret_cast<struct mixer_control*>(5);
1511   inputs[1] = reinterpret_cast<struct mixer_control*>(6);
1512 
1513   cras_alsa_mixer_list_inputs_outputs = inputs;
1514   cras_alsa_mixer_list_inputs_outputs_length = ARRAY_SIZE(inputs);
1515 
1516   cras_alsa_mixer_get_control_name_values[inputs[0]] = INTERNAL_MICROPHONE;
1517   cras_alsa_mixer_get_control_name_values[inputs[1]] = MIC;
1518   auto_unplug_input_node_ret = 1;
1519 
1520   aio = (struct alsa_io*)alsa_iodev_create_with_default_parameters(
1521       0, NULL, ALSA_CARD_TYPE_INTERNAL, 1, fake_mixer, fake_config, fake_ucm,
1522       CRAS_STREAM_INPUT);
1523   ASSERT_EQ(0, alsa_iodev_legacy_complete_init((struct cras_iodev*)aio));
1524   EXPECT_EQ(1, cras_alsa_mixer_list_inputs_called);
1525   EXPECT_EQ(2, cras_alsa_mixer_get_control_name_called);
1526 
1527   // Assert that the the internal speaker is plugged and other nodes aren't.
1528   ASSERT_NE(aio->base.nodes, (void*)NULL);
1529   EXPECT_EQ(aio->base.nodes->plugged, 1);
1530   ASSERT_NE(aio->base.nodes->next, (void*)NULL);
1531   EXPECT_EQ(aio->base.nodes->next->plugged, 0);
1532 
1533   // Plug headphone jack
1534   cras_alsa_jack_get_name_ret_value = "Mic Jack";
1535   is_utf8_string_ret_value = 1;
1536   cras_alsa_jack_get_mixer_input_ret = inputs[1];
1537   cras_alsa_jack_list_create_cb(jack, 1, cras_alsa_jack_list_create_cb_data);
1538 
1539   // Assert internal speaker is auto unplugged
1540   EXPECT_EQ(aio->base.nodes->plugged, 0);
1541   EXPECT_EQ(aio->base.nodes->next->plugged, 1);
1542 
1543   alsa_iodev_destroy((struct cras_iodev*)aio);
1544 }
1545 
TEST(AlsaLoopback,InitializePlayback)1546 TEST(AlsaLoopback, InitializePlayback) {
1547   struct alsa_io* aio;
1548   struct cras_alsa_mixer* const fake_mixer = (struct cras_alsa_mixer*)2;
1549   struct cras_use_case_mgr* const fake_ucm = (struct cras_use_case_mgr*)3;
1550   struct cras_iodev* iodev;
1551   static const char* jack_name = "TestCard - Alsa Loopback";
1552   struct mixer_control* outputs[1];
1553   struct ucm_section* section;
1554 
1555   ResetStubData();
1556   outputs[0] = reinterpret_cast<struct mixer_control*>(3);
1557   cras_alsa_mixer_list_outputs_outputs = outputs;
1558   cras_alsa_mixer_list_outputs_outputs_length = ARRAY_SIZE(outputs);
1559   cras_alsa_mixer_get_control_name_values[outputs[0]] = LOOPBACK_PLAYBACK;
1560 
1561   // Create the IO device.
1562   iodev = alsa_iodev_create_with_default_parameters(
1563       0, NULL, ALSA_CARD_TYPE_INTERNAL, 1, fake_mixer, fake_config, fake_ucm,
1564       CRAS_STREAM_OUTPUT);
1565   ASSERT_NE(iodev, (void*)NULL);
1566   aio = reinterpret_cast<struct alsa_io*>(iodev);
1567 
1568   // Add node.
1569   section = ucm_section_create(LOOPBACK_PLAYBACK, "hw:0,1", 0, -1,
1570                                CRAS_STREAM_OUTPUT, jack_name, NULL);
1571   ucm_section_set_mixer_name(section, LOOPBACK_PLAYBACK);
1572   cras_alsa_jack_list_add_jack_for_section_result_jack = NULL;
1573   cras_alsa_mixer_get_control_for_section_return_value = outputs[0];
1574   ASSERT_EQ(0, alsa_iodev_ucm_add_nodes_and_jacks(iodev, section));
1575   ucm_section_free_list(section);
1576 
1577   // Complete initialization, and check the loopback playback node is plugged as
1578   // the active node.
1579   alsa_iodev_ucm_complete_init(iodev);
1580   EXPECT_EQ(SND_PCM_STREAM_PLAYBACK, aio->alsa_stream);
1581   ASSERT_NE(aio->base.active_node, (void*)NULL);
1582   EXPECT_STREQ(LOOPBACK_PLAYBACK, aio->base.active_node->name);
1583   EXPECT_EQ(1, aio->base.active_node->plugged);
1584 
1585   alsa_iodev_destroy(iodev);
1586 }
1587 
TEST(AlsaLoopback,InitializeCapture)1588 TEST(AlsaLoopback, InitializeCapture) {
1589   struct alsa_io* aio;
1590   struct cras_use_case_mgr* const fake_ucm = (struct cras_use_case_mgr*)3;
1591   struct cras_iodev* iodev;
1592   static const char* jack_name = "TestCard - Alsa Loopback";
1593   struct ucm_section* section;
1594 
1595   ResetStubData();
1596 
1597   // Create the IO device.
1598   iodev = alsa_iodev_create_with_default_parameters(
1599       1, NULL, ALSA_CARD_TYPE_INTERNAL, 1, fake_mixer, fake_config, fake_ucm,
1600       CRAS_STREAM_INPUT);
1601   ASSERT_NE(iodev, (void*)NULL);
1602   aio = reinterpret_cast<struct alsa_io*>(iodev);
1603 
1604   // Node without controls or jacks.
1605   cras_alsa_jack_list_add_jack_for_section_result_jack =
1606       reinterpret_cast<struct cras_alsa_jack*>(1);
1607   section = ucm_section_create(LOOPBACK_CAPTURE, "hw:0,1", 0, -1,
1608                                CRAS_STREAM_INPUT, jack_name, NULL);
1609   ASSERT_EQ(0, alsa_iodev_ucm_add_nodes_and_jacks(iodev, section));
1610   ucm_section_free_list(section);
1611 
1612   // Complete initialization, and check the loopback capture node is plugged as
1613   // the active node.
1614   alsa_iodev_ucm_complete_init(iodev);
1615   EXPECT_EQ(SND_PCM_STREAM_CAPTURE, aio->alsa_stream);
1616   ASSERT_NE(aio->base.active_node, (void*)NULL);
1617   EXPECT_STREQ(LOOPBACK_CAPTURE, aio->base.active_node->name);
1618   EXPECT_EQ(1, aio->base.active_node->plugged);
1619 
1620   alsa_iodev_destroy(iodev);
1621 }
1622 
TEST(AlsaInitNode,SetNodeInitialState)1623 TEST(AlsaInitNode, SetNodeInitialState) {
1624   struct cras_ionode node;
1625   struct cras_iodev dev;
1626 
1627   memset(&dev, 0, sizeof(dev));
1628   memset(&node, 0, sizeof(node));
1629   node.dev = &dev;
1630   strcpy(node.name, "Unknown");
1631   dev.direction = CRAS_STREAM_OUTPUT;
1632   set_node_initial_state(&node, ALSA_CARD_TYPE_INTERNAL);
1633   ASSERT_EQ(0, node.plugged);
1634   ASSERT_EQ(0, node.plugged_time.tv_sec);
1635   ASSERT_EQ(CRAS_NODE_TYPE_UNKNOWN, node.type);
1636   ASSERT_EQ(NODE_POSITION_EXTERNAL, node.position);
1637 
1638   memset(&node, 0, sizeof(node));
1639   node.dev = &dev;
1640   strcpy(node.name, INTERNAL_SPEAKER);
1641   dev.direction = CRAS_STREAM_OUTPUT;
1642   set_node_initial_state(&node, ALSA_CARD_TYPE_INTERNAL);
1643   ASSERT_EQ(1, node.plugged);
1644   ASSERT_GT(node.plugged_time.tv_sec, 0);
1645   ASSERT_EQ(CRAS_NODE_TYPE_INTERNAL_SPEAKER, node.type);
1646   ASSERT_EQ(NODE_POSITION_INTERNAL, node.position);
1647 
1648   memset(&node, 0, sizeof(node));
1649   node.dev = &dev;
1650   strcpy(node.name, INTERNAL_MICROPHONE);
1651   dev.direction = CRAS_STREAM_INPUT;
1652   set_node_initial_state(&node, ALSA_CARD_TYPE_INTERNAL);
1653   ASSERT_EQ(1, node.plugged);
1654   ASSERT_GT(node.plugged_time.tv_sec, 0);
1655   ASSERT_EQ(CRAS_NODE_TYPE_MIC, node.type);
1656   ASSERT_EQ(NODE_POSITION_INTERNAL, node.position);
1657 
1658   memset(&node, 0, sizeof(node));
1659   node.dev = &dev;
1660   strcpy(node.name, HDMI);
1661   dev.direction = CRAS_STREAM_OUTPUT;
1662   set_node_initial_state(&node, ALSA_CARD_TYPE_INTERNAL);
1663   ASSERT_EQ(0, node.plugged);
1664   ASSERT_EQ(0, node.plugged_time.tv_sec);
1665   ASSERT_EQ(CRAS_NODE_TYPE_HDMI, node.type);
1666   ASSERT_EQ(NODE_POSITION_EXTERNAL, node.position);
1667 
1668   memset(&node, 0, sizeof(node));
1669   node.dev = &dev;
1670   strcpy(node.name, "IEC958");
1671   dev.direction = CRAS_STREAM_OUTPUT;
1672   set_node_initial_state(&node, ALSA_CARD_TYPE_INTERNAL);
1673   ASSERT_EQ(0, node.plugged);
1674   ASSERT_EQ(CRAS_NODE_TYPE_HDMI, node.type);
1675   ASSERT_EQ(NODE_POSITION_EXTERNAL, node.position);
1676 
1677   memset(&node, 0, sizeof(node));
1678   node.dev = &dev;
1679   strcpy(node.name, "HDMI Jack");
1680   dev.direction = CRAS_STREAM_OUTPUT;
1681   set_node_initial_state(&node, ALSA_CARD_TYPE_INTERNAL);
1682   ASSERT_EQ(0, node.plugged);
1683   ASSERT_EQ(CRAS_NODE_TYPE_HDMI, node.type);
1684   ASSERT_EQ(NODE_POSITION_EXTERNAL, node.position);
1685 
1686   memset(&node, 0, sizeof(node));
1687   node.dev = &dev;
1688   strcpy(node.name, "Something HDMI Jack");
1689   dev.direction = CRAS_STREAM_OUTPUT;
1690   set_node_initial_state(&node, ALSA_CARD_TYPE_INTERNAL);
1691   ASSERT_EQ(0, node.plugged);
1692   ASSERT_EQ(CRAS_NODE_TYPE_HDMI, node.type);
1693   ASSERT_EQ(NODE_POSITION_EXTERNAL, node.position);
1694 
1695   memset(&node, 0, sizeof(node));
1696   node.dev = &dev;
1697   strcpy(node.name, HEADPHONE);
1698   dev.direction = CRAS_STREAM_OUTPUT;
1699   set_node_initial_state(&node, ALSA_CARD_TYPE_INTERNAL);
1700   ASSERT_EQ(0, node.plugged);
1701   ASSERT_EQ(CRAS_NODE_TYPE_HEADPHONE, node.type);
1702   ASSERT_EQ(NODE_POSITION_EXTERNAL, node.position);
1703 
1704   memset(&node, 0, sizeof(node));
1705   node.dev = &dev;
1706   strcpy(node.name, "Headphone Jack");
1707   dev.direction = CRAS_STREAM_OUTPUT;
1708   set_node_initial_state(&node, ALSA_CARD_TYPE_INTERNAL);
1709   ASSERT_EQ(0, node.plugged);
1710   ASSERT_EQ(CRAS_NODE_TYPE_HEADPHONE, node.type);
1711   ASSERT_EQ(NODE_POSITION_EXTERNAL, node.position);
1712 
1713   memset(&node, 0, sizeof(node));
1714   node.dev = &dev;
1715   strcpy(node.name, MIC);
1716   dev.direction = CRAS_STREAM_INPUT;
1717   set_node_initial_state(&node, ALSA_CARD_TYPE_INTERNAL);
1718   ASSERT_EQ(0, node.plugged);
1719   ASSERT_EQ(CRAS_NODE_TYPE_MIC, node.type);
1720   ASSERT_EQ(NODE_POSITION_EXTERNAL, node.position);
1721 
1722   memset(&node, 0, sizeof(node));
1723   node.dev = &dev;
1724   strcpy(node.name, "Front Mic");
1725   dev.direction = CRAS_STREAM_INPUT;
1726   set_node_initial_state(&node, ALSA_CARD_TYPE_INTERNAL);
1727   ASSERT_EQ(1, node.plugged);
1728   ASSERT_EQ(CRAS_NODE_TYPE_MIC, node.type);
1729   ASSERT_EQ(NODE_POSITION_FRONT, node.position);
1730 
1731   memset(&node, 0, sizeof(node));
1732   node.dev = &dev;
1733   strcpy(node.name, "Rear Mic");
1734   dev.direction = CRAS_STREAM_INPUT;
1735   set_node_initial_state(&node, ALSA_CARD_TYPE_INTERNAL);
1736   ASSERT_EQ(1, node.plugged);
1737   ASSERT_EQ(CRAS_NODE_TYPE_MIC, node.type);
1738   ASSERT_EQ(NODE_POSITION_REAR, node.position);
1739 
1740   memset(&node, 0, sizeof(node));
1741   node.dev = &dev;
1742   strcpy(node.name, "Mic Jack");
1743   dev.direction = CRAS_STREAM_INPUT;
1744   set_node_initial_state(&node, ALSA_CARD_TYPE_INTERNAL);
1745   ASSERT_EQ(0, node.plugged);
1746   ASSERT_EQ(CRAS_NODE_TYPE_MIC, node.type);
1747   ASSERT_EQ(NODE_POSITION_EXTERNAL, node.position);
1748 
1749   memset(&node, 0, sizeof(node));
1750   node.dev = &dev;
1751   strcpy(node.name, "Unknown");
1752   dev.direction = CRAS_STREAM_OUTPUT;
1753   set_node_initial_state(&node, ALSA_CARD_TYPE_USB);
1754   ASSERT_EQ(0, node.plugged);
1755   ASSERT_EQ(CRAS_NODE_TYPE_USB, node.type);
1756   ASSERT_EQ(NODE_POSITION_EXTERNAL, node.position);
1757 
1758   memset(&node, 0, sizeof(node));
1759   node.dev = &dev;
1760   dev.direction = CRAS_STREAM_INPUT;
1761   strcpy(node.name, "DAISY-I2S Mic Jack");
1762   set_node_initial_state(&node, ALSA_CARD_TYPE_INTERNAL);
1763   ASSERT_EQ(0, node.plugged);
1764   ASSERT_EQ(CRAS_NODE_TYPE_MIC, node.type);
1765   ASSERT_EQ(NODE_POSITION_EXTERNAL, node.position);
1766   // Node name is changed to "MIC".
1767   ASSERT_EQ(0, strcmp(node.name, MIC));
1768 
1769   memset(&node, 0, sizeof(node));
1770   node.dev = &dev;
1771   dev.direction = CRAS_STREAM_OUTPUT;
1772   strcpy(node.name, "DAISY-I2S Headphone Jack");
1773   set_node_initial_state(&node, ALSA_CARD_TYPE_INTERNAL);
1774   ASSERT_EQ(0, node.plugged);
1775   ASSERT_EQ(CRAS_NODE_TYPE_HEADPHONE, node.type);
1776   ASSERT_EQ(NODE_POSITION_EXTERNAL, node.position);
1777   // Node name is changed to "Headphone".
1778   ASSERT_EQ(0, strcmp(node.name, HEADPHONE));
1779 
1780   memset(&node, 0, sizeof(node));
1781   node.dev = &dev;
1782   strcpy(node.name, INTERNAL_SPEAKER);
1783   dev.direction = CRAS_STREAM_OUTPUT;
1784   set_node_initial_state(&node, ALSA_CARD_TYPE_USB);
1785   ASSERT_EQ(1, node.plugged);
1786   ASSERT_GT(node.plugged_time.tv_sec, 0);
1787   ASSERT_EQ(CRAS_NODE_TYPE_USB, node.type);
1788   ASSERT_EQ(NODE_POSITION_EXTERNAL, node.position);
1789 
1790   memset(&node, 0, sizeof(node));
1791   node.dev = &dev;
1792   strcpy(node.name, "Haptic");
1793   dev.direction = CRAS_STREAM_OUTPUT;
1794   set_node_initial_state(&node, ALSA_CARD_TYPE_INTERNAL);
1795   ASSERT_EQ(1, node.plugged);
1796   ASSERT_GT(node.plugged_time.tv_sec, 0);
1797   ASSERT_EQ(CRAS_NODE_TYPE_HAPTIC, node.type);
1798   ASSERT_EQ(NODE_POSITION_INTERNAL, node.position);
1799 
1800   memset(&node, 0, sizeof(node));
1801   node.dev = &dev;
1802   strcpy(node.name, "Rumbler");
1803   dev.direction = CRAS_STREAM_OUTPUT;
1804   set_node_initial_state(&node, ALSA_CARD_TYPE_INTERNAL);
1805   ASSERT_EQ(1, node.plugged);
1806   ASSERT_GT(node.plugged_time.tv_sec, 0);
1807   ASSERT_EQ(CRAS_NODE_TYPE_HAPTIC, node.type);
1808   ASSERT_EQ(NODE_POSITION_INTERNAL, node.position);
1809 }
1810 
TEST(AlsaInitNode,SetNodeInitialStateDropInvalidUTF8NodeName)1811 TEST(AlsaInitNode, SetNodeInitialStateDropInvalidUTF8NodeName) {
1812   struct cras_ionode node;
1813   struct cras_iodev dev;
1814 
1815   memset(&dev, 0, sizeof(dev));
1816   memset(&node, 0, sizeof(node));
1817   node.dev = &dev;
1818 
1819   memset(&node, 0, sizeof(node));
1820   node.dev = &dev;
1821   strcpy(node.name, "Something USB");
1822   // 0xfe can not appear in a valid UTF-8 string.
1823   node.name[0] = 0xfe;
1824   is_utf8_string_ret_value = 0;
1825   dev.direction = CRAS_STREAM_OUTPUT;
1826   set_node_initial_state(&node, ALSA_CARD_TYPE_USB);
1827   ASSERT_EQ(CRAS_NODE_TYPE_USB, node.type);
1828   ASSERT_STREQ(USB, node.name);
1829 
1830   memset(&node, 0, sizeof(node));
1831   node.dev = &dev;
1832   strcpy(node.name, "Something HDMI Jack");
1833   // 0xfe can not appear in a valid UTF-8 string.
1834   node.name[0] = 0xfe;
1835   is_utf8_string_ret_value = 0;
1836   dev.direction = CRAS_STREAM_OUTPUT;
1837   set_node_initial_state(&node, ALSA_CARD_TYPE_INTERNAL);
1838   ASSERT_EQ(CRAS_NODE_TYPE_HDMI, node.type);
1839   ASSERT_STREQ(HDMI, node.name);
1840 }
1841 
TEST(AlsaIoInit,HDMIJackUpdateInvalidUTF8MonitorName)1842 TEST(AlsaIoInit, HDMIJackUpdateInvalidUTF8MonitorName) {
1843   struct alsa_io* aio;
1844   struct cras_alsa_mixer* const fake_mixer = (struct cras_alsa_mixer*)2;
1845   struct cras_use_case_mgr* const fake_ucm = (struct cras_use_case_mgr*)3;
1846   const struct cras_alsa_jack* jack = (struct cras_alsa_jack*)4;
1847 
1848   ResetStubData();
1849   aio = (struct alsa_io*)alsa_iodev_create_with_default_parameters(
1850       0, NULL, ALSA_CARD_TYPE_INTERNAL, 0, fake_mixer, fake_config, fake_ucm,
1851       CRAS_STREAM_OUTPUT);
1852   ASSERT_EQ(0, alsa_iodev_legacy_complete_init((struct cras_iodev*)aio));
1853 
1854   // Prepare the stub data such that the jack will be identified as an
1855   // HDMI jack, and thus the callback creates an HDMI node.
1856   cras_alsa_jack_get_name_ret_value = "HDMI Jack";
1857   // Set the jack name updated from monitor to be an invalid UTF8 string.
1858   cras_alsa_jack_update_monitor_fake_name = "\xfeomething";
1859   is_utf8_string_ret_value = 0;
1860 
1861   // Add the jack node.
1862   cras_alsa_jack_list_create_cb(jack, 1, cras_alsa_jack_list_create_cb_data);
1863 
1864   EXPECT_EQ(2, cras_alsa_jack_get_name_called);
1865   ASSERT_EQ(CRAS_NODE_TYPE_HDMI, aio->base.nodes->next->type);
1866   // The node name should be "HDMI".
1867   ASSERT_STREQ(HDMI, aio->base.nodes->next->name);
1868 
1869   alsa_iodev_destroy((struct cras_iodev*)aio);
1870 }
1871 
1872 //  Test thread add/rm stream, open_alsa, and iodev config.
1873 class AlsaVolumeMuteSuite : public testing::Test {
1874  protected:
SetUp()1875   virtual void SetUp() {
1876     ResetStubData();
1877     output_control_ = reinterpret_cast<struct mixer_control*>(10);
1878     cras_alsa_mixer_list_outputs_outputs = &output_control_;
1879     cras_alsa_mixer_list_outputs_outputs_length = 1;
1880     cras_alsa_mixer_get_control_name_values[output_control_] = INTERNAL_SPEAKER;
1881     cras_alsa_mixer_list_outputs_outputs_length = 1;
1882     aio_output_ = (struct alsa_io*)alsa_iodev_create_with_default_parameters(
1883         0, NULL, ALSA_CARD_TYPE_INTERNAL, 1, fake_mixer, fake_config, NULL,
1884         CRAS_STREAM_OUTPUT);
1885     alsa_iodev_legacy_complete_init((struct cras_iodev*)aio_output_);
1886     EXPECT_EQ(2, cras_card_config_get_volume_curve_for_control_called);
1887 
1888     struct cras_ionode* node;
1889     int count = 0;
1890     DL_FOREACH (aio_output_->base.nodes, node) { printf("node %d \n", count); }
1891     aio_output_->base.direction = CRAS_STREAM_OUTPUT;
1892     fmt_.frame_rate = 44100;
1893     fmt_.num_channels = 2;
1894     fmt_.format = SND_PCM_FORMAT_S16_LE;
1895     aio_output_->base.format = &fmt_;
1896     cras_alsa_get_avail_frames_ret = -1;
1897   }
1898 
TearDown()1899   virtual void TearDown() {
1900     alsa_iodev_destroy((struct cras_iodev*)aio_output_);
1901     cras_alsa_get_avail_frames_ret = 0;
1902   }
1903 
1904   struct mixer_control* output_control_;
1905   struct alsa_io* aio_output_;
1906   struct cras_audio_format fmt_;
1907 };
1908 
TEST_F(AlsaVolumeMuteSuite,GetDefaultVolumeCurve)1909 TEST_F(AlsaVolumeMuteSuite, GetDefaultVolumeCurve) {
1910   int rc;
1911   struct cras_audio_format* fmt;
1912 
1913   fmt = (struct cras_audio_format*)malloc(sizeof(*fmt));
1914   memcpy(fmt, &fmt_, sizeof(fmt_));
1915   aio_output_->base.format = fmt;
1916   aio_output_->handle = (snd_pcm_t*)0x24;
1917 
1918   rc = aio_output_->base.configure_dev(&aio_output_->base);
1919   ASSERT_EQ(0, rc);
1920   EXPECT_EQ(&default_curve, fake_get_dBFS_volume_curve_val);
1921 
1922   aio_output_->base.set_volume(&aio_output_->base);
1923   EXPECT_EQ(&default_curve, fake_get_dBFS_volume_curve_val);
1924   free(fmt);
1925 }
1926 
TEST_F(AlsaVolumeMuteSuite,GetVolumeCurveFromNode)1927 TEST_F(AlsaVolumeMuteSuite, GetVolumeCurveFromNode) {
1928   int rc;
1929   struct cras_audio_format* fmt;
1930   struct cras_alsa_jack* jack = (struct cras_alsa_jack*)4;
1931   struct cras_ionode* node;
1932   struct cras_volume_curve hp_curve = {
1933       .get_dBFS = fake_get_dBFS,
1934   };
1935 
1936   // Headphone jack plugged and has its own volume curve.
1937   cras_alsa_jack_get_mixer_output_ret = NULL;
1938   cras_alsa_jack_get_name_ret_value = HEADPHONE;
1939   cras_card_config_get_volume_curve_vals[HEADPHONE] = &hp_curve;
1940   cras_alsa_jack_list_create_cb(jack, 1, cras_alsa_jack_list_create_cb_data);
1941   EXPECT_EQ(1, cras_alsa_jack_update_node_type_called);
1942   EXPECT_EQ(3, cras_card_config_get_volume_curve_for_control_called);
1943 
1944   // These settings should be placed after plugging jacks to make it safer.
1945   // If is HDMI jack, plug event will trigger update_max_supported_channels()
1946   // and do open_dev() and close_dev() once. close_dev() will perform alsa_io
1947   // cleanup.
1948   // Headphone jack won't trigger, but we still place here due to coherence.
1949   fmt = (struct cras_audio_format*)malloc(sizeof(*fmt));
1950   memcpy(fmt, &fmt_, sizeof(fmt_));
1951   aio_output_->base.format = fmt;
1952   aio_output_->handle = (snd_pcm_t*)0x24;
1953 
1954   // Switch to node 'Headphone'.
1955   node = aio_output_->base.nodes->next;
1956   aio_output_->base.active_node = node;
1957 
1958   rc = aio_output_->base.configure_dev(&aio_output_->base);
1959   ASSERT_EQ(0, rc);
1960   EXPECT_EQ(&hp_curve, fake_get_dBFS_volume_curve_val);
1961 
1962   aio_output_->base.set_volume(&aio_output_->base);
1963   EXPECT_EQ(&hp_curve, fake_get_dBFS_volume_curve_val);
1964   free(fmt);
1965 }
1966 
TEST_F(AlsaVolumeMuteSuite,SetVolume)1967 TEST_F(AlsaVolumeMuteSuite, SetVolume) {
1968   int rc;
1969   struct cras_audio_format* fmt;
1970   const size_t fake_system_volume = 55;
1971   const size_t fake_system_volume_dB = (fake_system_volume - 100) * 100;
1972 
1973   fmt = (struct cras_audio_format*)malloc(sizeof(*fmt));
1974   memcpy(fmt, &fmt_, sizeof(fmt_));
1975   aio_output_->base.format = fmt;
1976   aio_output_->handle = (snd_pcm_t*)0x24;
1977 
1978   sys_get_volume_return_value = fake_system_volume;
1979   rc = aio_output_->base.configure_dev(&aio_output_->base);
1980   ASSERT_EQ(0, rc);
1981   EXPECT_EQ(1, alsa_mixer_set_dBFS_called);
1982   EXPECT_EQ(fake_system_volume_dB, alsa_mixer_set_dBFS_value);
1983 
1984   alsa_mixer_set_dBFS_called = 0;
1985   alsa_mixer_set_dBFS_value = 0;
1986   sys_get_volume_return_value = 50;
1987   sys_get_volume_called = 0;
1988   aio_output_->base.set_volume(&aio_output_->base);
1989   EXPECT_EQ(1, sys_get_volume_called);
1990   EXPECT_EQ(1, alsa_mixer_set_dBFS_called);
1991   EXPECT_EQ(-5000, alsa_mixer_set_dBFS_value);
1992   EXPECT_EQ(output_control_, alsa_mixer_set_dBFS_output);
1993 
1994   alsa_mixer_set_dBFS_called = 0;
1995   alsa_mixer_set_dBFS_value = 0;
1996   sys_get_volume_return_value = 0;
1997   sys_get_volume_called = 0;
1998   aio_output_->base.set_volume(&aio_output_->base);
1999   EXPECT_EQ(1, sys_get_volume_called);
2000   EXPECT_EQ(1, alsa_mixer_set_dBFS_called);
2001   EXPECT_EQ(-10000, alsa_mixer_set_dBFS_value);
2002 
2003   sys_get_volume_return_value = 80;
2004   aio_output_->base.active_node->volume = 90;
2005   aio_output_->base.set_volume(&aio_output_->base);
2006   EXPECT_EQ(-3000, alsa_mixer_set_dBFS_value);
2007 
2008   // close the dev.
2009   rc = aio_output_->base.close_dev(&aio_output_->base);
2010   EXPECT_EQ(0, rc);
2011   EXPECT_EQ((void*)NULL, aio_output_->handle);
2012 
2013   free(fmt);
2014 }
2015 
TEST_F(AlsaVolumeMuteSuite,SetMute)2016 TEST_F(AlsaVolumeMuteSuite, SetMute) {
2017   int muted;
2018 
2019   aio_output_->handle = (snd_pcm_t*)0x24;
2020 
2021   // Test mute.
2022   ResetStubData();
2023   muted = 1;
2024 
2025   sys_get_mute_return_value = muted;
2026 
2027   aio_output_->base.set_mute(&aio_output_->base);
2028 
2029   EXPECT_EQ(1, sys_get_mute_called);
2030   EXPECT_EQ(1, alsa_mixer_set_mute_called);
2031   EXPECT_EQ(muted, alsa_mixer_set_mute_value);
2032   EXPECT_EQ(output_control_, alsa_mixer_set_mute_output);
2033 
2034   // Test unmute.
2035   ResetStubData();
2036   muted = 0;
2037 
2038   sys_get_mute_return_value = muted;
2039 
2040   aio_output_->base.set_mute(&aio_output_->base);
2041 
2042   EXPECT_EQ(1, sys_get_mute_called);
2043   EXPECT_EQ(1, alsa_mixer_set_mute_called);
2044   EXPECT_EQ(muted, alsa_mixer_set_mute_value);
2045   EXPECT_EQ(output_control_, alsa_mixer_set_mute_output);
2046 }
2047 
2048 //  Test free run.
2049 class AlsaFreeRunTestSuite : public testing::Test {
2050  protected:
SetUp()2051   virtual void SetUp() {
2052     ResetStubData();
2053     memset(&aio, 0, sizeof(aio));
2054     fmt_.format = SND_PCM_FORMAT_S16_LE;
2055     fmt_.frame_rate = 48000;
2056     fmt_.num_channels = 2;
2057     aio.base.frames_queued = frames_queued;
2058     aio.base.output_underrun = alsa_output_underrun;
2059     aio.base.direction = CRAS_STREAM_OUTPUT;
2060     aio.base.format = &fmt_;
2061     aio.base.buffer_size = BUFFER_SIZE;
2062     aio.base.min_cb_level = 240;
2063     aio.base.min_buffer_level = 0;
2064     aio.filled_zeros_for_draining = 0;
2065     cras_alsa_mmap_begin_buffer = (uint8_t*)calloc(
2066         BUFFER_SIZE * 2 * 2, sizeof(*cras_alsa_mmap_begin_buffer));
2067     memset(cras_alsa_mmap_begin_buffer, 0xff,
2068            sizeof(*cras_alsa_mmap_begin_buffer));
2069   }
2070 
TearDown()2071   virtual void TearDown() { free(cras_alsa_mmap_begin_buffer); }
2072 
2073   struct alsa_io aio;
2074   struct cras_audio_format fmt_;
2075 };
2076 
TEST_F(AlsaFreeRunTestSuite,FillWholeBufferWithZeros)2077 TEST_F(AlsaFreeRunTestSuite, FillWholeBufferWithZeros) {
2078   int rc;
2079   int16_t* zeros;
2080 
2081   rc = fill_whole_buffer_with_zeros(&aio.base);
2082 
2083   EXPECT_EQ(0, rc);
2084   zeros = (int16_t*)calloc(BUFFER_SIZE * 2, sizeof(*zeros));
2085   EXPECT_EQ(0, memcmp(zeros, cras_alsa_mmap_begin_buffer, BUFFER_SIZE * 2 * 2));
2086 
2087   free(zeros);
2088 }
2089 
TEST_F(AlsaFreeRunTestSuite,EnterFreeRunAlreadyFreeRunning)2090 TEST_F(AlsaFreeRunTestSuite, EnterFreeRunAlreadyFreeRunning) {
2091   int rc;
2092 
2093   // Device is in free run state, no need to fill zeros or fill whole buffer.
2094   aio.free_running = 1;
2095 
2096   rc = no_stream(&aio.base, 1);
2097 
2098   EXPECT_EQ(0, rc);
2099   EXPECT_EQ(0, cras_alsa_mmap_get_whole_buffer_called);
2100   EXPECT_EQ(0, cras_iodev_fill_odev_zeros_called);
2101   EXPECT_EQ(0, cras_iodev_fill_odev_zeros_frames);
2102 }
2103 
TEST_F(AlsaFreeRunTestSuite,EnterFreeRunNotDrainedYetNeedToFillZeros)2104 TEST_F(AlsaFreeRunTestSuite, EnterFreeRunNotDrainedYetNeedToFillZeros) {
2105   int rc, real_hw_level;
2106   struct timespec hw_tstamp;
2107   int fill_zeros_duration = 50;
2108   // Device is not in free run state. There are still valid samples to play.
2109   // In cras_alsa_io.c, we defined there are 50ms zeros to be filled.
2110   real_hw_level = 200;
2111   cras_alsa_get_avail_frames_avail = BUFFER_SIZE - real_hw_level;
2112 
2113   rc = aio.base.frames_queued(&aio.base, &hw_tstamp);
2114   EXPECT_EQ(200, rc);
2115 
2116   rc = no_stream(&aio.base, 1);
2117 
2118   EXPECT_EQ(0, rc);
2119   EXPECT_EQ(0, cras_alsa_mmap_get_whole_buffer_called);
2120   EXPECT_EQ(1, cras_iodev_fill_odev_zeros_called);
2121   EXPECT_EQ(fmt_.frame_rate / 1000 * fill_zeros_duration,
2122             cras_iodev_fill_odev_zeros_frames);
2123   EXPECT_EQ(fmt_.frame_rate / 1000 * fill_zeros_duration,
2124             aio.filled_zeros_for_draining);
2125   EXPECT_EQ(0, aio.free_running);
2126 }
2127 
TEST_F(AlsaFreeRunTestSuite,EnterFreeRunNotDrainedYetFillZerosExceedBuffer)2128 TEST_F(AlsaFreeRunTestSuite, EnterFreeRunNotDrainedYetFillZerosExceedBuffer) {
2129   int rc, real_hw_level;
2130 
2131   // Device is not in free run state. There are still valid samples to play.
2132   // If frames avail is smaller than 50ms(48 * 50 = 2400 zeros), only fill
2133   // zeros until buffer size.
2134   real_hw_level = 7000;
2135   cras_alsa_get_avail_frames_avail = BUFFER_SIZE - real_hw_level;
2136 
2137   rc = no_stream(&aio.base, 1);
2138 
2139   EXPECT_EQ(0, rc);
2140   EXPECT_EQ(0, cras_alsa_mmap_get_whole_buffer_called);
2141   EXPECT_EQ(1, cras_iodev_fill_odev_zeros_called);
2142   EXPECT_EQ(cras_alsa_get_avail_frames_avail,
2143             cras_iodev_fill_odev_zeros_frames);
2144   EXPECT_EQ(cras_alsa_get_avail_frames_avail, aio.filled_zeros_for_draining);
2145   EXPECT_EQ(0, aio.free_running);
2146 }
2147 
TEST_F(AlsaFreeRunTestSuite,EnterFreeRunDrained)2148 TEST_F(AlsaFreeRunTestSuite, EnterFreeRunDrained) {
2149   int rc, real_hw_level;
2150 
2151   // Device is not in free run state. There are still valid samples to play.
2152   // The number of valid samples is less than filled zeros.
2153   // Should enter free run state and fill whole buffer with zeros.
2154   real_hw_level = 40;
2155   cras_alsa_get_avail_frames_avail = BUFFER_SIZE - real_hw_level;
2156   aio.filled_zeros_for_draining = 100;
2157 
2158   rc = no_stream(&aio.base, 1);
2159 
2160   EXPECT_EQ(0, rc);
2161   EXPECT_EQ(1, cras_alsa_mmap_get_whole_buffer_called);
2162   EXPECT_EQ(0, cras_iodev_fill_odev_zeros_called);
2163   EXPECT_EQ(1, aio.free_running);
2164 }
2165 
TEST_F(AlsaFreeRunTestSuite,EnterFreeRunNoSamples)2166 TEST_F(AlsaFreeRunTestSuite, EnterFreeRunNoSamples) {
2167   int rc, real_hw_level;
2168 
2169   // Device is not in free run state. There is no sample to play.
2170   // Should enter free run state and fill whole buffer with zeros.
2171   real_hw_level = 0;
2172   cras_alsa_get_avail_frames_avail = BUFFER_SIZE - real_hw_level;
2173 
2174   rc = no_stream(&aio.base, 1);
2175 
2176   EXPECT_EQ(0, rc);
2177   EXPECT_EQ(1, cras_alsa_mmap_get_whole_buffer_called);
2178   EXPECT_EQ(0, cras_iodev_fill_odev_zeros_called);
2179   EXPECT_EQ(1, aio.free_running);
2180 }
2181 
TEST_F(AlsaFreeRunTestSuite,IsFreeRunning)2182 TEST_F(AlsaFreeRunTestSuite, IsFreeRunning) {
2183   aio.free_running = 1;
2184   EXPECT_EQ(1, is_free_running(&aio.base));
2185 
2186   aio.free_running = 0;
2187   EXPECT_EQ(0, is_free_running(&aio.base));
2188 }
2189 
TEST_F(AlsaFreeRunTestSuite,LeaveFreeRunNotInFreeRunMoreRemain)2190 TEST_F(AlsaFreeRunTestSuite, LeaveFreeRunNotInFreeRunMoreRemain) {
2191   int rc, real_hw_level;
2192 
2193   // Compare min_buffer_level + min_cb_level with valid samples left.
2194   // 240 + 512 < 900 - 100, so we will get 900 - 100 in appl_ptr_ahead.
2195 
2196   aio.free_running = 0;
2197   aio.filled_zeros_for_draining = 100;
2198   aio.base.min_buffer_level = 512;
2199   real_hw_level = 900;
2200   cras_alsa_get_avail_frames_avail = BUFFER_SIZE - real_hw_level;
2201 
2202   rc = no_stream(&aio.base, 0);
2203 
2204   EXPECT_EQ(0, rc);
2205   EXPECT_EQ(1, cras_alsa_resume_appl_ptr_called);
2206   EXPECT_EQ(800, cras_alsa_resume_appl_ptr_ahead);
2207   EXPECT_EQ(0, cras_iodev_fill_odev_zeros_frames);
2208   EXPECT_EQ(0, aio.free_running);
2209   EXPECT_EQ(0, aio.filled_zeros_for_draining);
2210   EXPECT_EQ(1, cras_iodev_reset_rate_estimator_called);
2211 }
2212 
TEST_F(AlsaFreeRunTestSuite,LeaveFreeRunNotInFreeRunLessRemain)2213 TEST_F(AlsaFreeRunTestSuite, LeaveFreeRunNotInFreeRunLessRemain) {
2214   int rc, real_hw_level;
2215 
2216   // Compare min_buffer_level + min_cb_level with valid samples left.
2217   // 240 + 256 > 400 - 500, so we will get 240 + 256 in appl_ptr_ahead.
2218   // And it will fill 240 + 256 - 400 = 96 zeros frames into device.
2219 
2220   aio.free_running = 0;
2221   aio.filled_zeros_for_draining = 500;
2222   aio.base.min_buffer_level = 256;
2223   real_hw_level = 400;
2224   cras_alsa_get_avail_frames_avail = BUFFER_SIZE - real_hw_level;
2225 
2226   rc = no_stream(&aio.base, 0);
2227 
2228   EXPECT_EQ(0, rc);
2229   EXPECT_EQ(1, cras_alsa_resume_appl_ptr_called);
2230   EXPECT_EQ(aio.base.min_buffer_level + aio.base.min_cb_level,
2231             cras_alsa_resume_appl_ptr_ahead);
2232   EXPECT_EQ(96, cras_iodev_fill_odev_zeros_frames);
2233   EXPECT_EQ(0, aio.free_running);
2234   EXPECT_EQ(0, aio.filled_zeros_for_draining);
2235   EXPECT_EQ(1, cras_iodev_reset_rate_estimator_called);
2236 }
2237 
TEST_F(AlsaFreeRunTestSuite,LeaveFreeRunInFreeRun)2238 TEST_F(AlsaFreeRunTestSuite, LeaveFreeRunInFreeRun) {
2239   int rc;
2240 
2241   aio.free_running = 1;
2242   aio.filled_zeros_for_draining = 100;
2243   aio.base.min_buffer_level = 512;
2244 
2245   rc = no_stream(&aio.base, 0);
2246 
2247   EXPECT_EQ(0, rc);
2248   EXPECT_EQ(1, cras_alsa_resume_appl_ptr_called);
2249   EXPECT_EQ(aio.base.min_buffer_level + aio.base.min_cb_level,
2250             cras_alsa_resume_appl_ptr_ahead);
2251   EXPECT_EQ(0, aio.free_running);
2252   EXPECT_EQ(0, aio.filled_zeros_for_draining);
2253   EXPECT_EQ(1, cras_iodev_reset_rate_estimator_called);
2254 }
2255 
2256 // Reuse AlsaFreeRunTestSuite for output underrun handling because they are
2257 // similar.
TEST_F(AlsaFreeRunTestSuite,OutputUnderrun)2258 TEST_F(AlsaFreeRunTestSuite, OutputUnderrun) {
2259   int rc;
2260   int16_t* zeros;
2261   snd_pcm_uframes_t offset;
2262 
2263   // Ask alsa_io to handle output underrun.
2264   rc = alsa_output_underrun(&aio.base);
2265   EXPECT_EQ(0, rc);
2266 
2267   // mmap buffer should be filled with zeros.
2268   zeros = (int16_t*)calloc(BUFFER_SIZE * 2, sizeof(*zeros));
2269   EXPECT_EQ(0, memcmp(zeros, cras_alsa_mmap_begin_buffer, BUFFER_SIZE * 2 * 2));
2270 
2271   // appl_ptr should be moved to min_buffer_level + 1.5 * min_cb_level ahead of
2272   // hw_ptr.
2273   offset = aio.base.min_buffer_level + aio.base.min_cb_level +
2274            aio.base.min_cb_level / 2;
2275   EXPECT_EQ(1, cras_alsa_resume_appl_ptr_called);
2276   EXPECT_EQ(offset, cras_alsa_resume_appl_ptr_ahead);
2277 
2278   free(zeros);
2279 }
2280 
TEST(AlsaHotwordNode,HotwordTriggeredSendMessage)2281 TEST(AlsaHotwordNode, HotwordTriggeredSendMessage) {
2282   struct cras_iodev* iodev;
2283   struct cras_audio_format format;
2284   struct alsa_input_node alsa_node;
2285   struct cras_ionode* node = &alsa_node.base;
2286   int rc;
2287 
2288   ResetStubData();
2289   iodev = alsa_iodev_create_with_default_parameters(
2290       0, NULL, ALSA_CARD_TYPE_INTERNAL, 0, fake_mixer, fake_config, NULL,
2291       CRAS_STREAM_INPUT);
2292   format.frame_rate = 16000;
2293   format.num_channels = 1;
2294   cras_iodev_set_format(iodev, &format);
2295 
2296   memset(&alsa_node, 0, sizeof(alsa_node));
2297   node->dev = iodev;
2298   strcpy(node->name, HOTWORD_DEV);
2299   set_node_initial_state(node, ALSA_CARD_TYPE_INTERNAL);
2300   EXPECT_EQ(CRAS_NODE_TYPE_HOTWORD, node->type);
2301 
2302   iodev->active_node = node;
2303   iodev->open_dev(iodev);
2304   rc = iodev->configure_dev(iodev);
2305   free(fake_format);
2306   ASSERT_EQ(0, rc);
2307 
2308   ASSERT_NE(reinterpret_cast<thread_callback>(NULL), audio_thread_cb);
2309   audio_thread_cb(audio_thread_cb_data, POLLIN);
2310   EXPECT_EQ(1, hotword_send_triggered_msg_called);
2311   alsa_iodev_destroy(iodev);
2312 }
2313 
TEST(AlsaGetValidFrames,GetValidFramesNormalState)2314 TEST(AlsaGetValidFrames, GetValidFramesNormalState) {
2315   struct cras_iodev* iodev;
2316   struct alsa_io* aio;
2317   struct timespec tstamp;
2318   int rc;
2319 
2320   ResetStubData();
2321   iodev = alsa_iodev_create_with_default_parameters(
2322       0, NULL, ALSA_CARD_TYPE_INTERNAL, 0, fake_mixer, fake_config, NULL,
2323       CRAS_STREAM_OUTPUT);
2324   aio = (struct alsa_io*)iodev;
2325 
2326   aio->free_running = 0;
2327   aio->filled_zeros_for_draining = 200;
2328   cras_alsa_get_avail_frames_avail = iodev->buffer_size - 500;
2329   cras_alsa_get_avail_frames_ret = 0;
2330   clock_gettime_retspec.tv_sec = 123;
2331   clock_gettime_retspec.tv_nsec = 321;
2332   rc = iodev->get_valid_frames(iodev, &tstamp);
2333   EXPECT_EQ(rc, 300);
2334   EXPECT_EQ(tstamp.tv_sec, clock_gettime_retspec.tv_sec);
2335   EXPECT_EQ(tstamp.tv_nsec, clock_gettime_retspec.tv_nsec);
2336 
2337   alsa_iodev_destroy(iodev);
2338 }
2339 
TEST(AlsaGetValidFrames,GetValidFramesFreeRunning)2340 TEST(AlsaGetValidFrames, GetValidFramesFreeRunning) {
2341   struct cras_iodev* iodev;
2342   struct alsa_io* aio;
2343   struct timespec tstamp;
2344   int rc;
2345 
2346   ResetStubData();
2347   iodev = alsa_iodev_create_with_default_parameters(
2348       0, NULL, ALSA_CARD_TYPE_INTERNAL, 0, fake_mixer, fake_config, NULL,
2349       CRAS_STREAM_OUTPUT);
2350   aio = (struct alsa_io*)iodev;
2351 
2352   aio->free_running = 1;
2353   clock_gettime_retspec.tv_sec = 123;
2354   clock_gettime_retspec.tv_nsec = 321;
2355   rc = iodev->get_valid_frames(iodev, &tstamp);
2356   EXPECT_EQ(rc, 0);
2357   EXPECT_EQ(tstamp.tv_sec, clock_gettime_retspec.tv_sec);
2358   EXPECT_EQ(tstamp.tv_nsec, clock_gettime_retspec.tv_nsec);
2359 
2360   alsa_iodev_destroy(iodev);
2361 }
2362 
2363 }  //  namespace
2364 
main(int argc,char ** argv)2365 int main(int argc, char** argv) {
2366   ::testing::InitGoogleTest(&argc, argv);
2367   openlog(NULL, LOG_PERROR, LOG_USER);
2368   return RUN_ALL_TESTS();
2369 }
2370 
2371 //  Stubs
2372 
2373 extern "C" {
2374 
2375 //  From iodev.
cras_iodev_list_add_output(struct cras_iodev * output)2376 int cras_iodev_list_add_output(struct cras_iodev* output) {
2377   return 0;
2378 }
cras_iodev_list_rm_output(struct cras_iodev * dev)2379 int cras_iodev_list_rm_output(struct cras_iodev* dev) {
2380   return 0;
2381 }
2382 
cras_iodev_list_add_input(struct cras_iodev * input)2383 int cras_iodev_list_add_input(struct cras_iodev* input) {
2384   return 0;
2385 }
cras_iodev_list_rm_input(struct cras_iodev * dev)2386 int cras_iodev_list_rm_input(struct cras_iodev* dev) {
2387   return 0;
2388 }
2389 
cras_iodev_list_get_hotword_models(cras_node_id_t node_id)2390 char* cras_iodev_list_get_hotword_models(cras_node_id_t node_id) {
2391   return NULL;
2392 }
2393 
cras_iodev_list_set_hotword_model(cras_node_id_t node_id,const char * model_name)2394 int cras_iodev_list_set_hotword_model(cras_node_id_t node_id,
2395                                       const char* model_name) {
2396   return 0;
2397 }
2398 
cras_iodev_list_suspend_hotword_streams()2399 int cras_iodev_list_suspend_hotword_streams() {
2400   return 0;
2401 }
2402 
cras_iodev_list_resume_hotword_stream()2403 int cras_iodev_list_resume_hotword_stream() {
2404   return 0;
2405 }
2406 
cras_iodev_list_get_audio_thread()2407 struct audio_thread* cras_iodev_list_get_audio_thread() {
2408   return NULL;
2409 }
2410 
2411 //  From alsa helper.
cras_alsa_set_channel_map(snd_pcm_t * handle,struct cras_audio_format * fmt)2412 int cras_alsa_set_channel_map(snd_pcm_t* handle,
2413                               struct cras_audio_format* fmt) {
2414   return 0;
2415 }
cras_alsa_get_channel_map(snd_pcm_t * handle,struct cras_audio_format * fmt)2416 int cras_alsa_get_channel_map(snd_pcm_t* handle,
2417                               struct cras_audio_format* fmt) {
2418   return 0;
2419 }
cras_alsa_pcm_open(snd_pcm_t ** handle,const char * dev,snd_pcm_stream_t stream)2420 int cras_alsa_pcm_open(snd_pcm_t** handle,
2421                        const char* dev,
2422                        snd_pcm_stream_t stream) {
2423   *handle = (snd_pcm_t*)0x24;
2424   cras_alsa_open_called++;
2425   return 0;
2426 }
cras_alsa_pcm_close(snd_pcm_t * handle)2427 int cras_alsa_pcm_close(snd_pcm_t* handle) {
2428   return 0;
2429 }
cras_alsa_pcm_start(snd_pcm_t * handle)2430 int cras_alsa_pcm_start(snd_pcm_t* handle) {
2431   cras_alsa_start_called++;
2432   return 0;
2433 }
cras_alsa_pcm_drain(snd_pcm_t * handle)2434 int cras_alsa_pcm_drain(snd_pcm_t* handle) {
2435   return 0;
2436 }
cras_alsa_fill_properties(snd_pcm_t * handle,size_t ** rates,size_t ** channel_counts,snd_pcm_format_t ** formats)2437 int cras_alsa_fill_properties(snd_pcm_t* handle,
2438                               size_t** rates,
2439                               size_t** channel_counts,
2440                               snd_pcm_format_t** formats) {
2441   *rates = (size_t*)malloc(sizeof(**rates) * 3);
2442   (*rates)[0] = 44100;
2443   (*rates)[1] = 48000;
2444   (*rates)[2] = 0;
2445 
2446   if (cras_alsa_support_8_channels) {  // Support up to 8 channels.
2447     *channel_counts = (size_t*)malloc(sizeof(**channel_counts) * 6);
2448     (*channel_counts)[0] = 6;
2449     (*channel_counts)[1] = 4;
2450     (*channel_counts)[2] = 2;
2451     (*channel_counts)[3] = 1;
2452     (*channel_counts)[4] = 8;
2453     (*channel_counts)[5] = 0;
2454   } else {  // Support 2 channels only.
2455     *channel_counts = (size_t*)malloc(sizeof(**channel_counts) * 2);
2456     (*channel_counts)[0] = 2;
2457     (*channel_counts)[1] = 0;
2458   }
2459 
2460   *formats = (snd_pcm_format_t*)malloc(sizeof(**formats) * 2);
2461   (*formats)[0] = SND_PCM_FORMAT_S16_LE;
2462   (*formats)[1] = (snd_pcm_format_t)0;
2463 
2464   cras_alsa_fill_properties_called++;
2465   return 0;
2466 }
cras_alsa_set_hwparams(snd_pcm_t * handle,struct cras_audio_format * format,snd_pcm_uframes_t * buffer_size,int period_wakeup,unsigned int dma_period_time)2467 int cras_alsa_set_hwparams(snd_pcm_t* handle,
2468                            struct cras_audio_format* format,
2469                            snd_pcm_uframes_t* buffer_size,
2470                            int period_wakeup,
2471                            unsigned int dma_period_time) {
2472   return 0;
2473 }
cras_alsa_set_swparams(snd_pcm_t * handle)2474 int cras_alsa_set_swparams(snd_pcm_t* handle) {
2475   return 0;
2476 }
cras_alsa_get_avail_frames(snd_pcm_t * handle,snd_pcm_uframes_t buf_size,snd_pcm_uframes_t severe_underrun_frames,const char * dev_name,snd_pcm_uframes_t * used,struct timespec * tstamp)2477 int cras_alsa_get_avail_frames(snd_pcm_t* handle,
2478                                snd_pcm_uframes_t buf_size,
2479                                snd_pcm_uframes_t severe_underrun_frames,
2480                                const char* dev_name,
2481                                snd_pcm_uframes_t* used,
2482                                struct timespec* tstamp) {
2483   *used = cras_alsa_get_avail_frames_avail;
2484   clock_gettime(CLOCK_MONOTONIC_RAW, tstamp);
2485   return cras_alsa_get_avail_frames_ret;
2486 }
cras_alsa_get_delay_frames(snd_pcm_t * handle,snd_pcm_uframes_t buf_size,snd_pcm_sframes_t * delay)2487 int cras_alsa_get_delay_frames(snd_pcm_t* handle,
2488                                snd_pcm_uframes_t buf_size,
2489                                snd_pcm_sframes_t* delay) {
2490   *delay = 0;
2491   return 0;
2492 }
cras_alsa_mmap_begin(snd_pcm_t * handle,unsigned int format_bytes,uint8_t ** dst,snd_pcm_uframes_t * offset,snd_pcm_uframes_t * frames)2493 int cras_alsa_mmap_begin(snd_pcm_t* handle,
2494                          unsigned int format_bytes,
2495                          uint8_t** dst,
2496                          snd_pcm_uframes_t* offset,
2497                          snd_pcm_uframes_t* frames) {
2498   *dst = cras_alsa_mmap_begin_buffer;
2499   *frames = cras_alsa_mmap_begin_frames;
2500   return 0;
2501 }
cras_alsa_mmap_commit(snd_pcm_t * handle,snd_pcm_uframes_t offset,snd_pcm_uframes_t frames)2502 int cras_alsa_mmap_commit(snd_pcm_t* handle,
2503                           snd_pcm_uframes_t offset,
2504                           snd_pcm_uframes_t frames) {
2505   return 0;
2506 }
cras_alsa_attempt_resume(snd_pcm_t * handle)2507 int cras_alsa_attempt_resume(snd_pcm_t* handle) {
2508   cras_alsa_attempt_resume_called++;
2509   return 0;
2510 }
2511 
2512 //  ALSA stubs.
snd_pcm_format_physical_width(snd_pcm_format_t format)2513 int snd_pcm_format_physical_width(snd_pcm_format_t format) {
2514   return 16;
2515 }
2516 
snd_pcm_state(snd_pcm_t * handle)2517 snd_pcm_state_t snd_pcm_state(snd_pcm_t* handle) {
2518   return snd_pcm_state_ret;
2519 }
2520 
snd_strerror(int errnum)2521 const char* snd_strerror(int errnum) {
2522   return "Alsa Error in UT";
2523 }
2524 
cras_alsa_mixer_get_control_for_section(struct cras_alsa_mixer * cras_mixer,const struct ucm_section * section)2525 struct mixer_control* cras_alsa_mixer_get_control_for_section(
2526     struct cras_alsa_mixer* cras_mixer,
2527     const struct ucm_section* section) {
2528   cras_alsa_mixer_get_control_for_section_called++;
2529   return cras_alsa_mixer_get_control_for_section_return_value;
2530 }
2531 
cras_alsa_mixer_get_control_name(const struct mixer_control * control)2532 const char* cras_alsa_mixer_get_control_name(
2533     const struct mixer_control* control) {
2534   ControlNameMap::iterator it;
2535   cras_alsa_mixer_get_control_name_called++;
2536   it = cras_alsa_mixer_get_control_name_values.find(control);
2537   if (it == cras_alsa_mixer_get_control_name_values.end())
2538     return "";
2539   return it->second.c_str();
2540 }
2541 
2542 //  From system_state.
cras_system_get_volume()2543 size_t cras_system_get_volume() {
2544   sys_get_volume_called++;
2545   return sys_get_volume_return_value;
2546 }
2547 
cras_system_get_mute()2548 int cras_system_get_mute() {
2549   sys_get_mute_called++;
2550   return sys_get_mute_return_value;
2551 }
2552 
cras_system_get_capture_mute()2553 int cras_system_get_capture_mute() {
2554   sys_get_capture_mute_called++;
2555   return sys_get_capture_mute_return_value;
2556 }
2557 
cras_system_set_volume_limits(long min,long max)2558 void cras_system_set_volume_limits(long min, long max) {
2559   sys_set_volume_limits_called++;
2560 }
2561 
cras_system_get_noise_cancellation_enabled()2562 bool cras_system_get_noise_cancellation_enabled() {
2563   return false;
2564 }
2565 
2566 //  From cras_alsa_mixer.
cras_alsa_mixer_set_dBFS(struct cras_alsa_mixer * m,long dB_level,struct mixer_control * output)2567 void cras_alsa_mixer_set_dBFS(struct cras_alsa_mixer* m,
2568                               long dB_level,
2569                               struct mixer_control* output) {
2570   alsa_mixer_set_dBFS_called++;
2571   alsa_mixer_set_dBFS_value = dB_level;
2572   alsa_mixer_set_dBFS_output = output;
2573 }
2574 
cras_alsa_mixer_set_mute(struct cras_alsa_mixer * cras_mixer,int muted,struct mixer_control * mixer_output)2575 void cras_alsa_mixer_set_mute(struct cras_alsa_mixer* cras_mixer,
2576                               int muted,
2577                               struct mixer_control* mixer_output) {
2578   alsa_mixer_set_mute_called++;
2579   alsa_mixer_set_mute_value = muted;
2580   alsa_mixer_set_mute_output = mixer_output;
2581 }
2582 
cras_alsa_mixer_get_dB_range(struct cras_alsa_mixer * cras_mixer)2583 long cras_alsa_mixer_get_dB_range(struct cras_alsa_mixer* cras_mixer) {
2584   alsa_mixer_get_dB_range_called++;
2585   return alsa_mixer_get_dB_range_value;
2586 }
2587 
cras_alsa_mixer_get_output_dB_range(struct mixer_control * mixer_output)2588 long cras_alsa_mixer_get_output_dB_range(struct mixer_control* mixer_output) {
2589   alsa_mixer_get_output_dB_range_called++;
2590   return alsa_mixer_get_output_dB_range_value;
2591 }
2592 
cras_alsa_mixer_set_capture_dBFS(struct cras_alsa_mixer * m,long dB_level,struct mixer_control * mixer_input)2593 void cras_alsa_mixer_set_capture_dBFS(struct cras_alsa_mixer* m,
2594                                       long dB_level,
2595                                       struct mixer_control* mixer_input) {
2596   alsa_mixer_set_capture_dBFS_called++;
2597   alsa_mixer_set_capture_dBFS_value = dB_level;
2598   alsa_mixer_set_capture_dBFS_input = mixer_input;
2599 }
2600 
cras_alsa_mixer_set_capture_mute(struct cras_alsa_mixer * m,int mute,struct mixer_control * mixer_input)2601 void cras_alsa_mixer_set_capture_mute(struct cras_alsa_mixer* m,
2602                                       int mute,
2603                                       struct mixer_control* mixer_input) {
2604   alsa_mixer_set_capture_mute_called++;
2605   alsa_mixer_set_capture_mute_value = mute;
2606   alsa_mixer_set_capture_mute_input = mixer_input;
2607 }
2608 
cras_alsa_mixer_list_outputs(struct cras_alsa_mixer * cras_mixer,cras_alsa_mixer_control_callback cb,void * callback_arg)2609 void cras_alsa_mixer_list_outputs(struct cras_alsa_mixer* cras_mixer,
2610                                   cras_alsa_mixer_control_callback cb,
2611                                   void* callback_arg) {
2612   cras_alsa_mixer_list_outputs_called++;
2613   for (size_t i = 0; i < cras_alsa_mixer_list_outputs_outputs_length; i++) {
2614     cb(cras_alsa_mixer_list_outputs_outputs[i], callback_arg);
2615   }
2616 }
2617 
cras_alsa_mixer_list_inputs(struct cras_alsa_mixer * cras_mixer,cras_alsa_mixer_control_callback cb,void * callback_arg)2618 void cras_alsa_mixer_list_inputs(struct cras_alsa_mixer* cras_mixer,
2619                                  cras_alsa_mixer_control_callback cb,
2620                                  void* callback_arg) {
2621   cras_alsa_mixer_list_inputs_called++;
2622   for (size_t i = 0; i < cras_alsa_mixer_list_inputs_outputs_length; i++) {
2623     cb(cras_alsa_mixer_list_inputs_outputs[i], callback_arg);
2624   }
2625 }
2626 
cras_alsa_mixer_set_output_active_state(struct mixer_control * output,int active)2627 int cras_alsa_mixer_set_output_active_state(struct mixer_control* output,
2628                                             int active) {
2629   cras_alsa_mixer_set_output_active_state_called++;
2630   cras_alsa_mixer_set_output_active_state_outputs.push_back(output);
2631   cras_alsa_mixer_set_output_active_state_values.push_back(active);
2632   return 0;
2633 }
2634 
cras_volume_curve_destroy(struct cras_volume_curve * curve)2635 void cras_volume_curve_destroy(struct cras_volume_curve* curve) {}
2636 
cras_alsa_mixer_get_minimum_capture_gain(struct cras_alsa_mixer * cmix,struct mixer_control * mixer_input)2637 long cras_alsa_mixer_get_minimum_capture_gain(
2638     struct cras_alsa_mixer* cmix,
2639     struct mixer_control* mixer_input) {
2640   cras_alsa_mixer_get_minimum_capture_gain_called++;
2641   cras_alsa_mixer_get_minimum_capture_gain_mixer_input = mixer_input;
2642   return cras_alsa_mixer_get_minimum_capture_gain_ret_value;
2643 }
2644 
cras_alsa_mixer_get_maximum_capture_gain(struct cras_alsa_mixer * cmix,struct mixer_control * mixer_input)2645 long cras_alsa_mixer_get_maximum_capture_gain(
2646     struct cras_alsa_mixer* cmix,
2647     struct mixer_control* mixer_input) {
2648   cras_alsa_mixer_get_maximum_capture_gain_called++;
2649   cras_alsa_mixer_get_maximum_capture_gain_mixer_input = mixer_input;
2650   return cras_alsa_mixer_get_maximum_capture_gain_ret_value;
2651 }
2652 
cras_alsa_mixer_has_main_volume(const struct cras_alsa_mixer * cras_mixer)2653 int cras_alsa_mixer_has_main_volume(const struct cras_alsa_mixer* cras_mixer) {
2654   return 1;
2655 }
2656 
cras_alsa_mixer_has_volume(const struct mixer_control * mixer_control)2657 int cras_alsa_mixer_has_volume(const struct mixer_control* mixer_control) {
2658   return 1;
2659 }
2660 
2661 // From cras_alsa_jack
cras_alsa_jack_list_create(unsigned int card_index,const char * card_name,unsigned int device_index,int check_gpio_jack,struct cras_alsa_mixer * mixer,struct cras_use_case_mgr * ucm,snd_hctl_t * hctl,enum CRAS_STREAM_DIRECTION direction,jack_state_change_callback * cb,void * cb_data)2662 struct cras_alsa_jack_list* cras_alsa_jack_list_create(
2663     unsigned int card_index,
2664     const char* card_name,
2665     unsigned int device_index,
2666     int check_gpio_jack,
2667     struct cras_alsa_mixer* mixer,
2668     struct cras_use_case_mgr* ucm,
2669     snd_hctl_t* hctl,
2670     enum CRAS_STREAM_DIRECTION direction,
2671     jack_state_change_callback* cb,
2672     void* cb_data) {
2673   cras_alsa_jack_list_create_called++;
2674   cras_alsa_jack_list_create_cb = cb;
2675   cras_alsa_jack_list_create_cb_data = cb_data;
2676   return (struct cras_alsa_jack_list*)0xfee;
2677 }
2678 
cras_alsa_jack_list_find_jacks_by_name_matching(struct cras_alsa_jack_list * jack_list)2679 int cras_alsa_jack_list_find_jacks_by_name_matching(
2680     struct cras_alsa_jack_list* jack_list) {
2681   cras_alsa_jack_list_find_jacks_by_name_matching_called++;
2682   return 0;
2683 }
2684 
cras_alsa_jack_list_add_jack_for_section(struct cras_alsa_jack_list * jack_list,struct ucm_section * ucm_section,struct cras_alsa_jack ** result_jack)2685 int cras_alsa_jack_list_add_jack_for_section(
2686     struct cras_alsa_jack_list* jack_list,
2687     struct ucm_section* ucm_section,
2688     struct cras_alsa_jack** result_jack) {
2689   cras_alsa_jack_list_add_jack_for_section_called++;
2690   if (result_jack)
2691     *result_jack = cras_alsa_jack_list_add_jack_for_section_result_jack;
2692   return 0;
2693 }
2694 
cras_alsa_jack_list_destroy(struct cras_alsa_jack_list * jack_list)2695 void cras_alsa_jack_list_destroy(struct cras_alsa_jack_list* jack_list) {
2696   cras_alsa_jack_list_destroy_called++;
2697 }
2698 
cras_alsa_jack_list_has_hctl_jacks(struct cras_alsa_jack_list * jack_list)2699 int cras_alsa_jack_list_has_hctl_jacks(struct cras_alsa_jack_list* jack_list) {
2700   return cras_alsa_jack_list_has_hctl_jacks_return_val;
2701 }
2702 
cras_alsa_jack_list_report(const struct cras_alsa_jack_list * jack_list)2703 void cras_alsa_jack_list_report(const struct cras_alsa_jack_list* jack_list) {}
2704 
cras_alsa_jack_enable_ucm(const struct cras_alsa_jack * jack,int enable)2705 void cras_alsa_jack_enable_ucm(const struct cras_alsa_jack* jack, int enable) {
2706   cras_alsa_jack_enable_ucm_called++;
2707 }
2708 
cras_alsa_jack_get_name(const struct cras_alsa_jack * jack)2709 const char* cras_alsa_jack_get_name(const struct cras_alsa_jack* jack) {
2710   cras_alsa_jack_get_name_called++;
2711   return cras_alsa_jack_get_name_ret_value;
2712 }
2713 
ucm_get_dsp_name_for_dev(struct cras_use_case_mgr * mgr,const char * dev)2714 const char* ucm_get_dsp_name_for_dev(struct cras_use_case_mgr* mgr,
2715                                      const char* dev) {
2716   DspNameMap::iterator it;
2717   ucm_get_dsp_name_for_dev_called++;
2718   if (!dev)
2719     return NULL;
2720   it = ucm_get_dsp_name_for_dev_values.find(dev);
2721   if (it == ucm_get_dsp_name_for_dev_values.end())
2722     return NULL;
2723   return strdup(it->second.c_str());
2724 }
2725 
cras_alsa_jack_get_mixer_output(const struct cras_alsa_jack * jack)2726 struct mixer_control* cras_alsa_jack_get_mixer_output(
2727     const struct cras_alsa_jack* jack) {
2728   return cras_alsa_jack_get_mixer_output_ret;
2729 }
2730 
cras_alsa_jack_get_mixer_input(const struct cras_alsa_jack * jack)2731 struct mixer_control* cras_alsa_jack_get_mixer_input(
2732     const struct cras_alsa_jack* jack) {
2733   return cras_alsa_jack_get_mixer_input_ret;
2734 }
2735 
ucm_set_enabled(struct cras_use_case_mgr * mgr,const char * dev,int enabled)2736 int ucm_set_enabled(struct cras_use_case_mgr* mgr,
2737                     const char* dev,
2738                     int enabled) {
2739   ucm_set_enabled_called++;
2740   return 0;
2741 }
2742 
ucm_get_flag(struct cras_use_case_mgr * mgr,const char * flag_name)2743 char* ucm_get_flag(struct cras_use_case_mgr* mgr, const char* flag_name) {
2744   if ((!strcmp(flag_name, "AutoUnplugInputNode") &&
2745        auto_unplug_input_node_ret) ||
2746       (!strcmp(flag_name, "AutoUnplugOutputNode") &&
2747        auto_unplug_output_node_ret)) {
2748     char* ret = (char*)malloc(8);
2749     snprintf(ret, 8, "%s", "1");
2750     return ret;
2751   }
2752 
2753   return NULL;
2754 }
2755 
ucm_swap_mode_exists(struct cras_use_case_mgr * mgr)2756 int ucm_swap_mode_exists(struct cras_use_case_mgr* mgr) {
2757   return ucm_swap_mode_exists_ret_value;
2758 }
2759 
ucm_enable_swap_mode(struct cras_use_case_mgr * mgr,const char * node_name,int enable)2760 int ucm_enable_swap_mode(struct cras_use_case_mgr* mgr,
2761                          const char* node_name,
2762                          int enable) {
2763   ucm_enable_swap_mode_called++;
2764   return ucm_enable_swap_mode_ret_value;
2765 }
2766 
ucm_get_min_buffer_level(struct cras_use_case_mgr * mgr,unsigned int * level)2767 int ucm_get_min_buffer_level(struct cras_use_case_mgr* mgr,
2768                              unsigned int* level) {
2769   *level = 0;
2770   return 0;
2771 }
2772 
ucm_get_disable_software_volume(struct cras_use_case_mgr * mgr)2773 unsigned int ucm_get_disable_software_volume(struct cras_use_case_mgr* mgr) {
2774   return 0;
2775 }
2776 
ucm_get_hotword_models(struct cras_use_case_mgr * mgr)2777 char* ucm_get_hotword_models(struct cras_use_case_mgr* mgr) {
2778   return NULL;
2779 }
2780 
ucm_set_hotword_model(struct cras_use_case_mgr * mgr,const char * model)2781 int ucm_set_hotword_model(struct cras_use_case_mgr* mgr, const char* model) {
2782   return 0;
2783 }
2784 
ucm_get_dma_period_for_dev(struct cras_use_case_mgr * mgr,const char * dev)2785 unsigned int ucm_get_dma_period_for_dev(struct cras_use_case_mgr* mgr,
2786                                         const char* dev) {
2787   ucm_get_dma_period_for_dev_called++;
2788   return ucm_get_dma_period_for_dev_ret;
2789 }
2790 
ucm_get_sample_rate_for_dev(struct cras_use_case_mgr * mgr,const char * dev,enum CRAS_STREAM_DIRECTION direction)2791 int ucm_get_sample_rate_for_dev(struct cras_use_case_mgr* mgr,
2792                                 const char* dev,
2793                                 enum CRAS_STREAM_DIRECTION direction) {
2794   return -EINVAL;
2795 }
2796 
ucm_get_capture_chmap_for_dev(struct cras_use_case_mgr * mgr,const char * dev,int8_t * channel_layout)2797 int ucm_get_capture_chmap_for_dev(struct cras_use_case_mgr* mgr,
2798                                   const char* dev,
2799                                   int8_t* channel_layout) {
2800   return -EINVAL;
2801 }
2802 
ucm_get_preempt_hotword(struct cras_use_case_mgr * mgr,const char * dev)2803 int ucm_get_preempt_hotword(struct cras_use_case_mgr* mgr, const char* dev) {
2804   return 0;
2805 }
2806 
ucm_get_channels_for_dev(struct cras_use_case_mgr * mgr,const char * dev,enum CRAS_STREAM_DIRECTION direction,size_t * channels)2807 int ucm_get_channels_for_dev(struct cras_use_case_mgr* mgr,
2808                              const char* dev,
2809                              enum CRAS_STREAM_DIRECTION direction,
2810                              size_t* channels) {
2811   return -EINVAL;
2812 }
2813 
ucm_node_noise_cancellation_exists(struct cras_use_case_mgr * mgr,const char * node_name)2814 int ucm_node_noise_cancellation_exists(struct cras_use_case_mgr* mgr,
2815                                        const char* node_name) {
2816   return 0;
2817 }
2818 
ucm_enable_node_noise_cancellation(struct cras_use_case_mgr * mgr,const char * node_name,int enable)2819 int ucm_enable_node_noise_cancellation(struct cras_use_case_mgr* mgr,
2820                                        const char* node_name,
2821                                        int enable) {
2822   return 0;
2823 }
2824 
cras_volume_curve_create_default()2825 struct cras_volume_curve* cras_volume_curve_create_default() {
2826   return &default_curve;
2827 }
2828 
cras_card_config_get_volume_curve_for_control(const struct cras_card_config * card_config,const char * control_name)2829 struct cras_volume_curve* cras_card_config_get_volume_curve_for_control(
2830     const struct cras_card_config* card_config,
2831     const char* control_name) {
2832   VolCurveMap::iterator it;
2833   cras_card_config_get_volume_curve_for_control_called++;
2834   if (!control_name)
2835     return NULL;
2836   it = cras_card_config_get_volume_curve_vals.find(control_name);
2837   if (it == cras_card_config_get_volume_curve_vals.end())
2838     return NULL;
2839   return it->second;
2840 }
2841 
cras_iodev_free_format(struct cras_iodev * iodev)2842 void cras_iodev_free_format(struct cras_iodev* iodev) {}
2843 
cras_iodev_set_format(struct cras_iodev * iodev,const struct cras_audio_format * fmt)2844 int cras_iodev_set_format(struct cras_iodev* iodev,
2845                           const struct cras_audio_format* fmt) {
2846   fake_format = (struct cras_audio_format*)calloc(1, sizeof(cras_audio_format));
2847   // Copy the content of format from fmt into format of iodev.
2848   memcpy(fake_format, fmt, sizeof(cras_audio_format));
2849   iodev->format = fake_format;
2850   return 0;
2851 }
2852 
audio_thread_create()2853 struct audio_thread* audio_thread_create() {
2854   return reinterpret_cast<audio_thread*>(0x323);
2855 }
2856 
audio_thread_destroy(audio_thread * thread)2857 void audio_thread_destroy(audio_thread* thread) {}
2858 
cras_iodev_update_dsp(struct cras_iodev * iodev)2859 void cras_iodev_update_dsp(struct cras_iodev* iodev) {
2860   cras_iodev_update_dsp_called++;
2861   cras_iodev_update_dsp_name = iodev->dsp_name ?: "";
2862 }
2863 
cras_iodev_set_node_plugged(struct cras_ionode * ionode,int plugged)2864 void cras_iodev_set_node_plugged(struct cras_ionode* ionode, int plugged) {
2865   cras_iodev_set_node_plugged_called++;
2866   cras_iodev_set_node_plugged_ionode = ionode;
2867   cras_iodev_set_node_plugged_value = plugged;
2868   if (ionode)
2869     ionode->plugged = plugged;
2870 }
2871 
cras_iodev_add_node(struct cras_iodev * iodev,struct cras_ionode * node)2872 void cras_iodev_add_node(struct cras_iodev* iodev, struct cras_ionode* node) {
2873   cras_iodev_add_node_called++;
2874   DL_APPEND(iodev->nodes, node);
2875 }
2876 
cras_iodev_rm_node(struct cras_iodev * iodev,struct cras_ionode * node)2877 void cras_iodev_rm_node(struct cras_iodev* iodev, struct cras_ionode* node) {
2878   DL_DELETE(iodev->nodes, node);
2879 }
2880 
cras_iodev_set_active_node(struct cras_iodev * iodev,struct cras_ionode * node)2881 void cras_iodev_set_active_node(struct cras_iodev* iodev,
2882                                 struct cras_ionode* node) {
2883   iodev->active_node = node;
2884 }
2885 
cras_iodev_free_resources(struct cras_iodev * iodev)2886 void cras_iodev_free_resources(struct cras_iodev* iodev) {
2887   cras_iodev_free_resources_called++;
2888 }
2889 
cras_alsa_jack_update_monitor_name(const struct cras_alsa_jack * jack,char * name_buf,unsigned int buf_size)2890 void cras_alsa_jack_update_monitor_name(const struct cras_alsa_jack* jack,
2891                                         char* name_buf,
2892                                         unsigned int buf_size) {
2893   if (cras_alsa_jack_update_monitor_fake_name)
2894     strcpy(name_buf, cras_alsa_jack_update_monitor_fake_name);
2895 }
2896 
cras_alsa_jack_update_node_type(const struct cras_alsa_jack * jack,enum CRAS_NODE_TYPE * type)2897 void cras_alsa_jack_update_node_type(const struct cras_alsa_jack* jack,
2898                                      enum CRAS_NODE_TYPE* type) {
2899   cras_alsa_jack_update_node_type_called++;
2900 }
2901 
cras_alsa_jack_get_ucm_device(const struct cras_alsa_jack * jack)2902 const char* cras_alsa_jack_get_ucm_device(const struct cras_alsa_jack* jack) {
2903   return NULL;
2904 }
2905 
ucm_disable_all_hotword_models(struct cras_use_case_mgr * mgr)2906 void ucm_disable_all_hotword_models(struct cras_use_case_mgr* mgr) {}
2907 
ucm_enable_hotword_model(struct cras_use_case_mgr * mgr)2908 int ucm_enable_hotword_model(struct cras_use_case_mgr* mgr) {
2909   return 0;
2910 }
2911 
ucm_get_default_node_gain(struct cras_use_case_mgr * mgr,const char * dev,long * gain)2912 int ucm_get_default_node_gain(struct cras_use_case_mgr* mgr,
2913                               const char* dev,
2914                               long* gain) {
2915   if (ucm_get_default_node_gain_values.find(dev) ==
2916       ucm_get_default_node_gain_values.end())
2917     return 1;
2918 
2919   *gain = ucm_get_default_node_gain_values[dev];
2920   return 0;
2921 }
2922 
ucm_get_intrinsic_sensitivity(struct cras_use_case_mgr * mgr,const char * dev,long * vol)2923 int ucm_get_intrinsic_sensitivity(struct cras_use_case_mgr* mgr,
2924                                   const char* dev,
2925                                   long* vol) {
2926   if (ucm_get_intrinsic_sensitivity_values.find(dev) ==
2927       ucm_get_intrinsic_sensitivity_values.end())
2928     return 1;
2929 
2930   *vol = ucm_get_intrinsic_sensitivity_values[dev];
2931   return 0;
2932 }
2933 
cras_iodev_init_audio_area(struct cras_iodev * iodev,int num_channels)2934 void cras_iodev_init_audio_area(struct cras_iodev* iodev, int num_channels) {}
2935 
cras_iodev_free_audio_area(struct cras_iodev * iodev)2936 void cras_iodev_free_audio_area(struct cras_iodev* iodev) {}
2937 
cras_iodev_reset_rate_estimator(const struct cras_iodev * iodev)2938 int cras_iodev_reset_rate_estimator(const struct cras_iodev* iodev) {
2939   cras_iodev_reset_rate_estimator_called++;
2940   return 0;
2941 }
2942 
cras_iodev_frames_queued(struct cras_iodev * iodev,struct timespec * tstamp)2943 int cras_iodev_frames_queued(struct cras_iodev* iodev,
2944                              struct timespec* tstamp) {
2945   clock_gettime(CLOCK_MONOTONIC_RAW, tstamp);
2946   return cras_iodev_frames_queued_ret;
2947 }
2948 
cras_iodev_buffer_avail(struct cras_iodev * iodev,unsigned hw_level)2949 int cras_iodev_buffer_avail(struct cras_iodev* iodev, unsigned hw_level) {
2950   return cras_iodev_buffer_avail_ret;
2951 }
2952 
cras_iodev_fill_odev_zeros(struct cras_iodev * odev,unsigned int frames)2953 int cras_iodev_fill_odev_zeros(struct cras_iodev* odev, unsigned int frames) {
2954   cras_iodev_fill_odev_zeros_called++;
2955   cras_iodev_fill_odev_zeros_frames = frames;
2956   return 0;
2957 }
2958 
cras_audio_area_config_buf_pointers(struct cras_audio_area * area,const struct cras_audio_format * fmt,uint8_t * base_buffer)2959 void cras_audio_area_config_buf_pointers(struct cras_audio_area* area,
2960                                          const struct cras_audio_format* fmt,
2961                                          uint8_t* base_buffer) {}
2962 
audio_thread_add_events_callback(int fd,thread_callback cb,void * data,int events)2963 void audio_thread_add_events_callback(int fd,
2964                                       thread_callback cb,
2965                                       void* data,
2966                                       int events) {
2967   audio_thread_cb = cb;
2968   audio_thread_cb_data = data;
2969 }
2970 
audio_thread_rm_callback(int fd)2971 void audio_thread_rm_callback(int fd) {}
2972 
audio_thread_rm_callback_sync(struct audio_thread * thread,int fd)2973 int audio_thread_rm_callback_sync(struct audio_thread* thread, int fd) {
2974   return 0;
2975 }
2976 
cras_hotword_send_triggered_msg()2977 int cras_hotword_send_triggered_msg() {
2978   hotword_send_triggered_msg_called++;
2979   return 0;
2980 }
2981 
snd_pcm_poll_descriptors_count(snd_pcm_t * pcm)2982 int snd_pcm_poll_descriptors_count(snd_pcm_t* pcm) {
2983   return 1;
2984 }
2985 
snd_pcm_poll_descriptors(snd_pcm_t * pcm,struct pollfd * pfds,unsigned int space)2986 int snd_pcm_poll_descriptors(snd_pcm_t* pcm,
2987                              struct pollfd* pfds,
2988                              unsigned int space) {
2989   if (space >= 1) {
2990     pfds[0].events = POLLIN;
2991     pfds[0].fd = 99;
2992   }
2993   return 0;
2994 }
2995 
is_utf8_string(const char * string)2996 int is_utf8_string(const char* string) {
2997   return is_utf8_string_ret_value;
2998 }
2999 
cras_alsa_mmap_get_whole_buffer(snd_pcm_t * handle,uint8_t ** dst)3000 int cras_alsa_mmap_get_whole_buffer(snd_pcm_t* handle, uint8_t** dst) {
3001   snd_pcm_uframes_t offset, frames;
3002 
3003   cras_alsa_mmap_get_whole_buffer_called++;
3004   return cras_alsa_mmap_begin(handle, 0, dst, &offset, &frames);
3005 }
3006 
cras_alsa_resume_appl_ptr(snd_pcm_t * handle,snd_pcm_uframes_t ahead)3007 int cras_alsa_resume_appl_ptr(snd_pcm_t* handle, snd_pcm_uframes_t ahead) {
3008   cras_alsa_resume_appl_ptr_called++;
3009   cras_alsa_resume_appl_ptr_ahead = ahead;
3010   return 0;
3011 }
3012 
cras_iodev_default_no_stream_playback(struct cras_iodev * odev,int enable)3013 int cras_iodev_default_no_stream_playback(struct cras_iodev* odev, int enable) {
3014   return 0;
3015 }
3016 
cras_iodev_output_underrun(struct cras_iodev * odev,unsigned int hw_level,unsigned int frames_written)3017 int cras_iodev_output_underrun(struct cras_iodev* odev,
3018                                unsigned int hw_level,
3019                                unsigned int frames_written) {
3020   return odev->output_underrun(odev);
3021 }
3022 
cras_iodev_state(const struct cras_iodev * iodev)3023 enum CRAS_IODEV_STATE cras_iodev_state(const struct cras_iodev* iodev) {
3024   return iodev->state;
3025 }
3026 
cras_iodev_dsp_set_swap_mode_for_node(struct cras_iodev * iodev,struct cras_ionode * node,int enable)3027 int cras_iodev_dsp_set_swap_mode_for_node(struct cras_iodev* iodev,
3028                                           struct cras_ionode* node,
3029                                           int enable) {
3030   cras_iodev_dsp_set_swap_mode_for_node_called++;
3031   return 0;
3032 }
3033 
cras_ramp_create()3034 struct cras_ramp* cras_ramp_create() {
3035   return (struct cras_ramp*)0x1;
3036 }
3037 
3038 //  From librt.
clock_gettime(clockid_t clk_id,struct timespec * tp)3039 int clock_gettime(clockid_t clk_id, struct timespec* tp) {
3040   tp->tv_sec = clock_gettime_retspec.tv_sec;
3041   tp->tv_nsec = clock_gettime_retspec.tv_nsec;
3042   return 0;
3043 }
3044 
3045 }  // extern "C"
3046