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android / platform / external / adhd / bcf1f249f11b6865cff3f0d3f0ae5801e67e0e7e / . / cras / src / tests / cras_dsp_pipeline_unittest.cc
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// Copyright (c) 2012 The Chromium OS Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "cras_dsp_pipeline.h"
#include <gtest/gtest.h>
#include "cras_config.h"
#include "cras_dsp_module.h"
#define MAX_MODULES 10
#define MAX_MOCK_PORTS 30
#define FILENAME_TEMPLATE "DspIniTest.XXXXXX"
static void fill_test_data(int16_t* data, size_t size) {
for (size_t i = 0; i < size; i++)
data[i] = i;
}
static void verify_processed_data(int16_t* data, size_t size, int times) {
/* Each time the audio data flow through the mock plugin, the data
* will be multiplied by 2 in module->run() below, so if there are n
* plugins, the data will be multiplied by (1 << n). */
int multiples = (1 << times);
for (size_t i = 0; i < size; i++) {
EXPECT_EQ(i * multiples, data[i]);
if ((int16_t)i * multiples != data[i])
return;
}
}
struct data {
const char* title;
int nr_ports;
port_direction port_dir[MAX_MOCK_PORTS];
int nr_in_audio;
int nr_in_control;
int nr_out_audio;
int nr_out_control;
int in_audio[MAX_MOCK_PORTS];
int in_control[MAX_MOCK_PORTS];
int out_audio[MAX_MOCK_PORTS];
int out_control[MAX_MOCK_PORTS];
int properties;
int instantiate_called;
int sample_rate;
int connect_port_called[MAX_MOCK_PORTS];
float* data_location[MAX_MOCK_PORTS];
int run_called;
float input[MAX_MOCK_PORTS];
float output[MAX_MOCK_PORTS];
int sample_count;
int get_delay_called;
int deinstantiate_called;
int free_module_called;
int get_properties_called;
};
static int instantiate(struct dsp_module* module, unsigned long sample_rate) {
struct data* data = (struct data*)module->data;
data->instantiate_called++;
data->sample_rate = sample_rate;
return 0;
}
static void connect_port(struct dsp_module* module,
unsigned long port,
float* data_location) {
struct data* data = (struct data*)module->data;
data->connect_port_called[port]++;
data->data_location[port] = data_location;
}
static int get_delay(struct dsp_module* module) {
struct data* data = (struct data*)module->data;
data->get_delay_called++;
/* If the module title is "mN", then use N as the delay. */
int delay = 0;
sscanf(data->title, "m%d", &delay);
return delay;
}
static void run(struct dsp_module* module, unsigned long sample_count) {
struct data* data = (struct data*)module->data;
data->run_called++;
data->sample_count = sample_count;
for (int i = 0; i < data->nr_ports; i++) {
if (data->port_dir[i] == PORT_INPUT)
data->input[i] = *data->data_location[i];
}
/* copy the control port data */
for (int i = 0; i < std::min(data->nr_in_control, data->nr_out_control);
i++) {
int from = data->in_control[i];
int to = data->out_control[i];
data->data_location[to][0] = data->data_location[from][0];
}
/* multiply the audio port data by 2 */
for (int i = 0; i < std::min(data->nr_in_audio, data->nr_out_audio); i++) {
int from = data->in_audio[i];
int to = data->out_audio[i];
for (unsigned int j = 0; j < sample_count; j++)
data->data_location[to][j] = data->data_location[from][j] * 2;
}
}
static void deinstantiate(struct dsp_module* module) {
struct data* data = (struct data*)module->data;
data->deinstantiate_called++;
}
static void free_module(struct dsp_module* module) {
struct data* data = (struct data*)module->data;
data->free_module_called++;
}
static void really_free_module(struct dsp_module* module) {
struct data* data = (struct data*)module->data;
free(data);
free(module);
}
static int get_properties(struct dsp_module* module) {
struct data* data = (struct data*)module->data;
data->get_properties_called++;
return data->properties;
}
static void dump(struct dsp_module* module, struct dumper* d) {}
static struct dsp_module* create_mock_module(struct plugin* plugin) {
struct data* data;
struct dsp_module* module;
data = (struct data*)calloc(1, sizeof(struct data));
data->title = plugin->title;
data->nr_ports = ARRAY_COUNT(&plugin->ports);
for (int i = 0; i < data->nr_ports; i++) {
struct port* port = ARRAY_ELEMENT(&plugin->ports, i);
data->port_dir[i] = port->direction;
if (port->direction == PORT_INPUT) {
if (port->type == PORT_AUDIO)
data->in_audio[data->nr_in_audio++] = i;
else
data->in_control[data->nr_in_control++] = i;
} else {
if (port->type == PORT_AUDIO)
data->out_audio[data->nr_out_audio++] = i;
else
data->out_control[data->nr_out_control++] = i;
}
}
if (strcmp(plugin->label, "inplace_broken") == 0) {
data->properties = MODULE_INPLACE_BROKEN;
} else {
data->properties = 0;
}
module = (struct dsp_module*)calloc(1, sizeof(struct dsp_module));
module->data = data;
module->instantiate = &instantiate;
module->connect_port = &connect_port;
module->get_delay = &get_delay;
module->run = &run;
module->deinstantiate = &deinstantiate;
module->free_module = &free_module;
module->get_properties = &get_properties;
module->dump = &dump;
return module;
}
static struct dsp_module* modules[MAX_MODULES];
static struct dsp_module* cras_dsp_module_set_sink_ext_module_val;
static int num_modules;
static struct dsp_module* find_module(const char* name) {
for (int i = 0; i < num_modules; i++) {
struct data* data = (struct data*)modules[i]->data;
if (strcmp(name, data->title) == 0)
return modules[i];
}
return NULL;
}
extern "C" {
struct dsp_module* cras_dsp_module_load_ladspa(struct plugin* plugin) {
return NULL;
}
struct dsp_module* cras_dsp_module_load_builtin(struct plugin* plugin) {
struct dsp_module* module = create_mock_module(plugin);
modules[num_modules++] = module;
return module;
}
void cras_dsp_module_set_sink_ext_module(struct dsp_module* module,
struct ext_dsp_module* ext_module) {
cras_dsp_module_set_sink_ext_module_val = module;
}
}
namespace {
class DspPipelineTestSuite : public testing::Test {
protected:
virtual void SetUp() {
num_modules = 0;
strcpy(filename, FILENAME_TEMPLATE);
int fd = mkstemp(filename);
fp = fdopen(fd, "w");
}
virtual void TearDown() {
CloseFile();
unlink(filename);
}
virtual void CloseFile() {
if (fp) {
fclose(fp);
fp = NULL;
}
}
char filename[sizeof(FILENAME_TEMPLATE) + 1];
FILE* fp;
struct ext_dsp_module ext_mod;
};
TEST_F(DspPipelineTestSuite, Simple) {
const char* content =
"[M1]\n"
"library=builtin\n"
"label=source\n"
"purpose=capture\n"
"output_0={audio}\n"
"output_1=<control>\n"
"input_2=3.0\n"
"[M2]\n"
"library=builtin\n"
"label=sink\n"
"purpose=capture\n"
"input_0=<control>\n"
"input_1={audio}\n"
"\n";
fprintf(fp, "%s", content);
CloseFile();
struct cras_expr_env env = CRAS_EXPR_ENV_INIT;
struct ini* ini = cras_dsp_ini_create(filename);
ASSERT_TRUE(ini);
struct pipeline* p = cras_dsp_pipeline_create(ini, &env, "capture");
ASSERT_TRUE(p);
ASSERT_EQ(0, cras_dsp_pipeline_load(p));
ASSERT_EQ(2, num_modules);
struct dsp_module* m1 = find_module("m1");
struct dsp_module* m2 = find_module("m2");
ASSERT_TRUE(m1);
ASSERT_TRUE(m2);
ASSERT_EQ(1, cras_dsp_pipeline_get_num_input_channels(p));
ASSERT_EQ(0, cras_dsp_pipeline_instantiate(p, 48000));
struct data* d1 = (struct data*)m1->data;
struct data* d2 = (struct data*)m2->data;
/* check m1 */
ASSERT_STREQ("m1", d1->title);
ASSERT_EQ(3, d1->nr_ports);
ASSERT_EQ(PORT_OUTPUT, d1->port_dir[0]);
ASSERT_EQ(PORT_OUTPUT, d1->port_dir[1]);
ASSERT_EQ(PORT_INPUT, d1->port_dir[2]);
ASSERT_EQ(1, d1->instantiate_called);
ASSERT_EQ(1, d1->get_delay_called);
ASSERT_EQ(48000, d1->sample_rate);
ASSERT_EQ(1, d1->connect_port_called[0]);
ASSERT_EQ(1, d1->connect_port_called[1]);
ASSERT_EQ(1, d1->connect_port_called[2]);
ASSERT_TRUE(d1->data_location[0]);
ASSERT_TRUE(d1->data_location[1]);
ASSERT_TRUE(d1->data_location[2]);
ASSERT_EQ(0, d1->run_called);
ASSERT_EQ(0, d1->deinstantiate_called);
ASSERT_EQ(0, d1->free_module_called);
ASSERT_EQ(1, d1->get_properties_called);
/* check m2 */
ASSERT_STREQ("m2", d2->title);
ASSERT_EQ(2, d2->nr_ports);
ASSERT_EQ(PORT_INPUT, d2->port_dir[0]);
ASSERT_EQ(PORT_INPUT, d2->port_dir[1]);
ASSERT_EQ(1, d2->instantiate_called);
ASSERT_EQ(1, d2->get_delay_called);
ASSERT_EQ(48000, d2->sample_rate);
ASSERT_EQ(1, d2->connect_port_called[0]);
ASSERT_EQ(1, d2->connect_port_called[1]);
ASSERT_TRUE(d2->data_location[0]);
ASSERT_TRUE(d2->data_location[1]);
ASSERT_EQ(0, d2->run_called);
ASSERT_EQ(0, d2->deinstantiate_called);
ASSERT_EQ(0, d2->free_module_called);
ASSERT_EQ(1, d2->get_properties_called);
/* check the buffer is shared */
ASSERT_EQ(d1->data_location[0], d2->data_location[1]);
ASSERT_EQ(d1->data_location[1], d2->data_location[0]);
ASSERT_EQ(1, cras_dsp_pipeline_get_peak_audio_buffers(p));
d1->data_location[0][0] = 100;
cras_dsp_pipeline_run(p, DSP_BUFFER_SIZE);
ASSERT_EQ(1, d1->run_called);
ASSERT_EQ(1, d2->run_called);
ASSERT_EQ(3, d1->input[2]);
ASSERT_EQ(3, d2->input[0]);
ASSERT_EQ(100, d2->input[1]);
d1->data_location[0][0] = 1000;
cras_dsp_pipeline_run(p, DSP_BUFFER_SIZE);
ASSERT_EQ(2, d1->run_called);
ASSERT_EQ(2, d2->run_called);
ASSERT_EQ(3, d1->input[2]);
ASSERT_EQ(3, d2->input[0]);
ASSERT_EQ(1000, d2->input[1]);
/* Expect the sink module "m2" is set. */
cras_dsp_pipeline_set_sink_ext_module(p, &ext_mod);
struct data* d = (struct data*)cras_dsp_module_set_sink_ext_module_val->data;
ASSERT_STREQ("m2", d->title);
cras_dsp_pipeline_deinstantiate(p);
ASSERT_EQ(1, d1->deinstantiate_called);
ASSERT_EQ(1, d2->deinstantiate_called);
cras_dsp_pipeline_free(p);
ASSERT_EQ(1, d1->free_module_called);
ASSERT_EQ(1, d2->free_module_called);
cras_dsp_ini_free(ini);
cras_expr_env_free(&env);
really_free_module(m1);
really_free_module(m2);
}
TEST_F(DspPipelineTestSuite, Complex) {
/*
* / --(b)-- 2 --(c)-- \
* 0 ==(a0, a1)== 1 4 ==(f0,f1)== 5
* \ --(d)-- 3 --(e)-- /
*
*
* --(g)-- 6 --(h)--
*/
const char* content =
"[M6]\n"
"library=builtin\n"
"label=foo\n"
"input_0={g}\n"
"output_1={h}\n"
"[M5]\n"
"library=builtin\n"
"label=sink\n"
"purpose=playback\n"
"input_0={f0}\n"
"input_1={f1}\n"
"[M4]\n"
"library=builtin\n"
"label=foo\n"
"disable=(equal? output_device \"HDMI\")\n"
"input_0=3.14\n"
"input_1={c}\n"
"output_2={f0}\n"
"input_3={e}\n"
"output_4={f1}\n"
"[M3]\n"
"library=builtin\n"
"label=foo\n"
"input_0={d}\n"
"output_1={e}\n"
"[M2]\n"
"library=builtin\n"
"label=inplace_broken\n"
"input_0={b}\n"
"output_1={c}\n"
"[M1]\n"
"library=builtin\n"
"label=foo\n"
"disable=(equal? output_device \"USB\")\n"
"input_0={a0}\n"
"input_1={a1}\n"
"output_2={b}\n"
"output_3={d}\n"
"[M0]\n"
"library=builtin\n"
"label=source\n"
"purpose=playback\n"
"output_0={a0}\n"
"output_1={a1}\n";
fprintf(fp, "%s", content);
CloseFile();
struct cras_expr_env env = CRAS_EXPR_ENV_INIT;
cras_expr_env_install_builtins(&env);
cras_expr_env_set_variable_string(&env, "output_device", "HDMI");
cras_expr_env_set_variable_boolean(&env, "swap_lr_disabled", 1);
struct ini* ini = cras_dsp_ini_create(filename);
ASSERT_TRUE(ini);
struct pipeline* p = cras_dsp_pipeline_create(ini, &env, "playback");
ASSERT_TRUE(p);
ASSERT_EQ(0, cras_dsp_pipeline_load(p));
ASSERT_EQ(5, num_modules); /* one not connected, one disabled */
struct dsp_module* m0 = find_module("m0");
struct dsp_module* m1 = find_module("m1");
struct dsp_module* m2 = find_module("m2");
struct dsp_module* m3 = find_module("m3");
struct dsp_module* m5 = find_module("m5");
ASSERT_TRUE(m0);
ASSERT_TRUE(m1);
ASSERT_TRUE(m2);
ASSERT_TRUE(m3);
ASSERT_FALSE(find_module("m4"));
ASSERT_TRUE(m5);
ASSERT_FALSE(find_module("m6"));
ASSERT_EQ(2, cras_dsp_pipeline_get_num_input_channels(p));
ASSERT_EQ(0, cras_dsp_pipeline_instantiate(p, 48000));
struct data* d0 = (struct data*)m0->data;
struct data* d1 = (struct data*)m1->data;
struct data* d2 = (struct data*)m2->data;
struct data* d3 = (struct data*)m3->data;
struct data* d5 = (struct data*)m5->data;
/*
* / --(b)-- 2 --(c)-- \
* 0 ==(a0, a1)== 1 4 ==(f0,f1)== 5
* \ --(d)-- 3 --(e)-- /
*
*
* --(g)-- 6 --(h)--
*/
ASSERT_EQ(d0->data_location[0], d1->data_location[0]);
ASSERT_EQ(d0->data_location[1], d1->data_location[1]);
ASSERT_EQ(d1->data_location[2], d2->data_location[0]);
ASSERT_EQ(d1->data_location[3], d3->data_location[0]);
ASSERT_NE(d2->data_location[0], d2->data_location[1]); /* inplace-broken */
ASSERT_EQ(d2->data_location[1], d5->data_location[0]); /* m4 is disabled */
ASSERT_EQ(d3->data_location[1], d5->data_location[1]);
/* need 3 buffers because m2 has inplace-broken flag */
ASSERT_EQ(3, cras_dsp_pipeline_get_peak_audio_buffers(p));
int16_t* samples = new int16_t[DSP_BUFFER_SIZE];
fill_test_data(samples, DSP_BUFFER_SIZE);
cras_dsp_pipeline_apply(p, (uint8_t*)samples, SND_PCM_FORMAT_S16_LE, 100);
/* the data flow through 2 plugins because m4 is disabled. */
verify_processed_data(samples, 100, 2);
delete[] samples;
ASSERT_EQ(1, d1->run_called);
ASSERT_EQ(1, d3->run_called);
/* check m5 */
ASSERT_EQ(1, d5->run_called);
ASSERT_EQ(100, d5->sample_count);
/* Expect the sink module "m5" is set. */
cras_dsp_pipeline_set_sink_ext_module(p, &ext_mod);
struct data* d = (struct data*)cras_dsp_module_set_sink_ext_module_val->data;
ASSERT_STREQ("m5", d->title);
/* re-instantiate */
ASSERT_EQ(1, d5->instantiate_called);
ASSERT_EQ(1, d5->get_delay_called);
ASSERT_EQ(1 + 3 + 5, cras_dsp_pipeline_get_delay(p));
cras_dsp_pipeline_deinstantiate(p);
cras_dsp_pipeline_instantiate(p, 44100);
ASSERT_EQ(1, d5->deinstantiate_called);
ASSERT_EQ(2, d5->instantiate_called);
ASSERT_EQ(2, d5->get_delay_called);
ASSERT_EQ(1 + 3 + 5, cras_dsp_pipeline_get_delay(p));
ASSERT_EQ(0, d5->free_module_called);
ASSERT_EQ(44100, d5->sample_rate);
ASSERT_EQ(2, d5->connect_port_called[0]);
ASSERT_EQ(2, d5->connect_port_called[1]);
cras_dsp_pipeline_free(p);
cras_dsp_ini_free(ini);
cras_expr_env_free(&env);
really_free_module(m0);
really_free_module(m1);
really_free_module(m2);
really_free_module(m3);
really_free_module(m5);
}
} // namespace
int main(int argc, char** argv) {
::testing::InitGoogleTest(&argc, argv);
return RUN_ALL_TESTS();
}