@@ -527,6 +527,15 @@ unit_test_gattrib_LDADD = lib/libbluetooth-internal.la \
src/libshared-glib.la \
$(GLIB_LIBS) $(DBUS_LIBS) -ldl -lrt
+unit_tests += unit/test-adv-monitor
+
+unit_test_adv_monitor_SOURCES = unit/test-adv-monitor.c \
+ src/adv_monitor.h src/adv_monitor.c \
+ src/device.h src/device.c \
+ src/log.h src/log.c
+unit_test_adv_monitor_LDADD = gdbus/libgdbus-internal.la \
+ src/libshared-glib.la $(GLIB_LIBS) $(DBUS_LIBS)
+
if MIDI
unit_tests += unit/test-midi
unit_test_midi_CPPFLAGS = $(AM_CPPFLAGS) $(ALSA_CFLAGS) -DMIDI_TEST
@@ -30,8 +30,9 @@ test-gobex-transfer 36 OBEX transfer handling
test-gdbus-client 13 D-Bus client handling
test-gatt 180 GATT qualification test cases
test-hog 6 HID Over GATT qualification test cases
+test-adv-monitor 5 Advertisement Monitor test cases
-----
- 761
+ 766
Automated end-to-end testing
@@ -1210,3 +1210,82 @@ static void adv_monitor_filter_rssi(struct adv_monitor *monitor,
handle_device_lost_timeout, dev);
}
}
+
+/* Creates the dummy adv_monitor object for unit tests */
+void *btd_adv_monitor_rssi_test_setup(int8_t high_rssi, uint16_t high_timeout,
+ int8_t low_rssi, uint16_t low_timeout)
+{
+ struct adv_monitor *test_monitor = NULL;
+
+ test_monitor = g_new0(struct adv_monitor, 1);
+ if (!test_monitor)
+ return NULL;
+
+ test_monitor->app = g_new0(struct adv_monitor_app, 1);
+ if (!test_monitor->app)
+ goto app_failed;
+
+ test_monitor->app->manager = g_new0(struct btd_adv_monitor_manager, 1);
+ if (!test_monitor->app->manager)
+ goto manager_failed;
+
+ test_monitor->high_rssi = high_rssi;
+ test_monitor->high_rssi_timeout = high_timeout;
+ test_monitor->low_rssi = low_rssi;
+ test_monitor->low_rssi_timeout = low_timeout;
+ test_monitor->devices = queue_new();
+
+ return test_monitor;
+
+manager_failed:
+ g_free(test_monitor->app);
+
+app_failed:
+ g_free(test_monitor);
+
+ return NULL;
+}
+
+/* Cleanup after unit test is done */
+void btd_adv_monitor_rssi_test_teardown(void *monitor_obj)
+{
+ struct adv_monitor *monitor = monitor_obj;
+
+ if (!monitor)
+ return;
+
+ queue_destroy(monitor->devices, monitor_device_free);
+ g_free(monitor);
+}
+
+/* Returns the current state of device - found/lost, used in unit tests */
+bool btd_adv_monitor_test_device_state(void *monitor_obj, void *device_obj)
+{
+ struct adv_monitor *monitor = monitor_obj;
+ struct btd_device *device = device_obj;
+ struct adv_monitor_device *dev = NULL;
+
+ if (!monitor || !device)
+ return false;
+
+ dev = queue_find(monitor->devices, monitor_device_match, device);
+ if (!dev)
+ return false;
+
+ return dev->device_found;
+}
+
+/* Helper function for the RSSI Filter unit tests */
+bool btd_adv_monitor_test_rssi(void *monitor_obj, void *device_obj,
+ int8_t adv_rssi)
+{
+ struct adv_monitor *monitor = monitor_obj;
+ struct btd_device *device = device_obj;
+
+ if (!monitor || !device)
+ return false;
+
+ adv_monitor_filter_rssi(monitor, device, adv_rssi);
+
+ return btd_adv_monitor_test_device_state(monitor, device);
+}
@@ -33,4 +33,14 @@ void btd_adv_monitor_manager_destroy(struct btd_adv_monitor_manager *manager);
void btd_adv_monitor_device_remove(struct btd_adv_monitor_manager *manager,
struct btd_device *device);
+/* Following functions are the helper functions used for RSSI Filter unit tests
+ * defined in unit/test-adv-monitor.c
+ */
+void *btd_adv_monitor_rssi_test_setup(int8_t high_rssi, uint16_t high_timeout,
+ int8_t low_rssi, uint16_t low_timeout);
+void btd_adv_monitor_rssi_test_teardown(void *monitor_obj);
+bool btd_adv_monitor_test_device_state(void *monitor_obj, void *device_obj);
+bool btd_adv_monitor_test_rssi(void *monitor_obj, void *device_obj,
+ int8_t adv_rssi);
+
#endif /* __ADV_MONITOR_H */
new file mode 100644
@@ -0,0 +1,391 @@
+/*
+ *
+ * BlueZ - Bluetooth protocol stack for Linux
+ *
+ * Copyright (C) 2020 Google LLC
+ *
+ *
+ * This program is free software; you can redistribute it and/or
+ * modify it under the terms of the GNU Lesser General Public
+ * License as published by the Free Software Foundation; either
+ * version 2.1 of the License, or (at your option) any later version.
+ *
+ * This program is distributed in the hope that it will be useful,
+ * but WITHOUT ANY WARRANTY; without even the implied warranty of
+ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
+ * Lesser General Public License for more details.
+ *
+ */
+
+#ifdef HAVE_CONFIG_H
+#include <config.h>
+#endif
+
+#define _GNU_SOURCE
+#include <glib.h>
+#include <stdbool.h>
+#include <stdint.h>
+#include <unistd.h>
+
+#include "src/log.h"
+#include "src/shared/tester.h"
+
+#include "src/adv_monitor.h"
+
+#define define_test(name, type, data, setup_fn, test_fn, teardown_fn) \
+ do { \
+ static struct test_data test; \
+ test.test_type = type; \
+ test.test_name = g_strdup(name); \
+ if (type == TEST_RSSI_FILTER) { \
+ test.rssi_filter_test_data = &data; \
+ test.rssi_filter_test_data->test_info = &test; \
+ } \
+ tester_add(name, &test, setup_fn, test_fn, teardown_fn);\
+ } while (0)
+
+#define ADV_INTERVAL 1 /* Advertisement interval in seconds */
+#define OUT_OF_RANGE -128
+#define END_OF_RSSI_TEST {0}
+
+#define RSSI_TEST_DONE(test_step) \
+ (!test_step.adv_rssi && !test_step.duration && !test_step.result)
+
+#define DUMMY_BTD_DEVICE_OBJ ((void *) 0xF00)
+
+enum test_type {
+ TEST_RSSI_FILTER = 0,
+ TEST_CONTENT_FILTER,
+};
+
+enum result {
+ RESULT_DEVICE_NOT_FOUND = false, /* Initial state of a device */
+ RESULT_DEVICE_FOUND = true, /* Device state when the
+ * Content/RSSI Filter match
+ */
+ RESULT_DEVICE_LOST = false, /* Device state when the Low
+ * RSSI Filter match or if it
+ * goes offline/out-of-range
+ */
+};
+
+struct rssi_filter_test {
+ void *adv_monitor_obj; /* struct adv_monitor object */
+ void *btd_device_obj; /* struct btd_device object */
+ struct test_data *test_info;
+
+ const struct {
+ int8_t high_rssi_threshold; /* High RSSI threshold */
+ uint16_t high_rssi_timeout; /* High RSSI threshold timeout*/
+ int8_t low_rssi_threshold; /* Low RSSI threshold */
+ uint16_t low_rssi_timeout; /* Low RSSI threshold timeout */
+ } rssi_filter;
+
+ time_t start_time; /* Start time of the test */
+ uint16_t resume_step; /* Store the current sub-step of the
+ * test before suspending that test
+ */
+ guint out_of_range_timer; /* Timer to simulate device offline */
+
+ const struct {
+ int8_t adv_rssi; /* Advertisement RSSI */
+ uint16_t duration; /* Advertisement duration in seconds */
+ enum result result; /* Device state after every step */
+ } test_steps[];
+};
+
+/* Parent data structure to hold the test data and information,
+ * used by tester_* functions and callbacks.
+ */
+struct test_data {
+ enum test_type test_type;
+ char *test_name;
+
+ union {
+ struct rssi_filter_test *rssi_filter_test_data;
+ };
+};
+
+/* RSSI Filter Test 1:
+ * - The Device Lost event should NOT get triggered even if the Adv RSSI is
+ * lower than LowRSSIThresh for more than LowRSSITimeout before finding
+ * the device first.
+ * - Similarly, the Device Found event should NOT get triggered if the Adv RSSI
+ * is greater than LowRSSIThresh but lower than HighRSSIThresh.
+ */
+static struct rssi_filter_test rssi_data_1 = {
+ .rssi_filter = {-40, 5, -60, 5},
+ .test_steps = {
+ {-70, 6, RESULT_DEVICE_NOT_FOUND},
+ {-50, 6, RESULT_DEVICE_NOT_FOUND},
+ END_OF_RSSI_TEST,
+ },
+};
+
+/* RSSI Filter Test 2:
+ * - The Device Found event should get triggered when the Adv RSSI is higher
+ * than HighRSSIThresh for more than HighRSSITimeout.
+ * - Once the device is found, the Device Lost event should NOT get triggered
+ * if the Adv RSSI drops below HighRSSIThresh but it is not lower than
+ * LowRSSIThresh.
+ * - When the Adv RSSI drops below LowRSSIThresh for more than LowRSSITimeout,
+ * the Device Lost event should get triggered.
+ */
+static struct rssi_filter_test rssi_data_2 = {
+ .rssi_filter = {-40, 5, -60, 5},
+ .test_steps = {
+ {-30, 6, RESULT_DEVICE_FOUND},
+ {-50, 6, RESULT_DEVICE_FOUND},
+ {-70, 6, RESULT_DEVICE_LOST},
+ END_OF_RSSI_TEST,
+ },
+};
+
+/* RSSI Filter Test 3:
+ * - The Device Found event should get triggered only when the Adv RSSI is
+ * higher than HighRSSIThresh for more than HighRSSITimeout.
+ * - If the Adv RSSI drops below HighRSSIThresh, timer should reset and start
+ * counting once the Adv RSSI is above HighRSSIThresh.
+ * - Similarly, when tracking the Low RSSI, timer should reset when the Adv RSSI
+ * goes above LowRSSIThresh. The Device Lost event should get triggered only
+ * when the Adv RSSI is lower than LowRSSIThresh for more than LowRSSITimeout.
+ */
+static struct rssi_filter_test rssi_data_3 = {
+ .rssi_filter = {-40, 5, -60, 5},
+ .test_steps = {
+ {-30, 2, RESULT_DEVICE_NOT_FOUND},
+ {-50, 6, RESULT_DEVICE_NOT_FOUND},
+ {-30, 4, RESULT_DEVICE_NOT_FOUND},
+ {-30, 2, RESULT_DEVICE_FOUND},
+ {-70, 2, RESULT_DEVICE_FOUND},
+ {-50, 6, RESULT_DEVICE_FOUND},
+ {-70, 4, RESULT_DEVICE_FOUND},
+ {-70, 2, RESULT_DEVICE_LOST},
+ END_OF_RSSI_TEST,
+ },
+};
+
+/* RSSI Filter Test 4:
+ * - While tracking the High RSSI, timer should reset if the device goes
+ * offline/out-of-range for more than HighRSSITimeout.
+ * - Once the device is found, if the device goes offline/out-of-range for
+ * more than LowRSSITimeout, the Device Lost event should get triggered.
+ */
+static struct rssi_filter_test rssi_data_4 = {
+ .rssi_filter = {-40, 5, -60, 5},
+ .test_steps = {
+ { -30, 2, RESULT_DEVICE_NOT_FOUND},
+ {OUT_OF_RANGE, 6, RESULT_DEVICE_NOT_FOUND},
+ { -30, 4, RESULT_DEVICE_NOT_FOUND},
+ { -30, 2, RESULT_DEVICE_FOUND},
+ { -70, 2, RESULT_DEVICE_FOUND},
+ {OUT_OF_RANGE, 6, RESULT_DEVICE_LOST},
+ END_OF_RSSI_TEST,
+ },
+};
+
+/* RSSI Filter Test 5:
+ * - The Device Found event should get triggered only once even if the Adv RSSI
+ * stays higher than HighRSSIThresh for a longer period of time.
+ * - Once the device is found, while tracking the Low RSSI, timer should reset
+ * when the Adv RSSI goes above LowRSSIThresh.
+ * - The timer should NOT reset if the device goes offline/out-of-range for
+ * a very short period of time and comes back online/in-range before
+ * the timeouts.
+ */
+static struct rssi_filter_test rssi_data_5 = {
+ .rssi_filter = {-40, 5, -60, 5},
+ .test_steps = {
+ { -30, 2, RESULT_DEVICE_NOT_FOUND},
+ {OUT_OF_RANGE, 2, RESULT_DEVICE_NOT_FOUND},
+ { -30, 2, RESULT_DEVICE_FOUND},
+ { -30, 3, RESULT_DEVICE_FOUND},
+ { -30, 3, RESULT_DEVICE_FOUND},
+ { -70, 2, RESULT_DEVICE_FOUND},
+ {OUT_OF_RANGE, 2, RESULT_DEVICE_FOUND},
+ { -50, 6, RESULT_DEVICE_FOUND},
+ { -70, 2, RESULT_DEVICE_FOUND},
+ {OUT_OF_RANGE, 2, RESULT_DEVICE_FOUND},
+ { -70, 2, RESULT_DEVICE_LOST},
+ END_OF_RSSI_TEST,
+ },
+};
+
+/* Initialize the data required for RSSI Filter test */
+static void setup_rssi_filter_test(gpointer data)
+{
+ struct rssi_filter_test *test = data;
+
+ test->adv_monitor_obj = btd_adv_monitor_rssi_test_setup(
+ test->rssi_filter.high_rssi_threshold,
+ test->rssi_filter.high_rssi_timeout,
+ test->rssi_filter.low_rssi_threshold,
+ test->rssi_filter.low_rssi_timeout);
+
+ /* The RSSI Filter logic uses btd_device object only as a key in the
+ * adv_monitor->devices list, it is never dereferenced nor used to
+ * perform any operations related to btd_device. So we can use any
+ * dummy address for unit testing.
+ */
+ test->btd_device_obj = DUMMY_BTD_DEVICE_OBJ;
+
+ tester_setup_complete();
+}
+
+/* Cleanup after the RSSI Filter test is done */
+static void teardown_rssi_filter_test(gpointer data)
+{
+ struct rssi_filter_test *test = data;
+
+ btd_adv_monitor_rssi_test_teardown(test->adv_monitor_obj);
+
+ tester_teardown_complete();
+}
+
+/* Execute the sub-steps of RSSI Filter test */
+static gboolean test_rssi_filter(gpointer data)
+{
+ struct rssi_filter_test *test = data;
+ time_t start_time = time(NULL);
+ bool ret = false;
+
+ uint16_t i = 0;
+ uint16_t j = 0;
+
+ /* If this is not the beginning of test, return to the sub-step
+ * before that test was suspended
+ */
+ if (test->resume_step) {
+ start_time = test->start_time;
+ i = test->resume_step;
+
+ /* Clear the test resume timer */
+ g_source_remove(test->out_of_range_timer);
+ test->out_of_range_timer = 0;
+
+ /* Check state of the device - found/lost, while device was
+ * offline/out-of-range
+ */
+ ret = btd_adv_monitor_test_device_state(test->adv_monitor_obj,
+ test->btd_device_obj);
+ tester_debug("%s: [t=%.0lf, step=%d] Test resume, "
+ "device_found = %s",
+ test->test_info->test_name,
+ difftime(time(NULL), start_time), i,
+ ret ? "true" : "false");
+ g_assert(ret == test->test_steps[i].result);
+
+ i++;
+ }
+
+ while (!RSSI_TEST_DONE(test->test_steps[i])) {
+ if (test->test_steps[i].adv_rssi == OUT_OF_RANGE) {
+ /* Simulate device offline/out-of-range by suspending
+ * the test.
+ *
+ * Note: All tester_* functions run sequentially by
+ * adding a next function to the main loop using
+ * g_idle_add(). If a timeout function is added using
+ * g_timeout_add_*(), it doesn't really get invoked as
+ * soon as the timer expires. Instead, it is invoked
+ * once the current function returns and the timer has
+ * expired. So, to give handle_device_lost_timeout()
+ * function a chance to run at the correct time, we
+ * must save the current state and exit from this
+ * function while we simulate the device offline. We can
+ * come back later to continue with the remaining steps.
+ */
+ test->resume_step = i;
+ test->start_time = start_time;
+ test->out_of_range_timer = g_timeout_add_seconds(
+ test->test_steps[i].duration,
+ test_rssi_filter, data);
+
+ /* Check the device state before suspending the test */
+ ret = btd_adv_monitor_test_device_state(
+ test->adv_monitor_obj,
+ test->btd_device_obj);
+ tester_debug("%s: [t=%.0lf, step=%d] Test suspend, "
+ "device_found = %s",
+ test->test_info->test_name,
+ difftime(time(NULL), start_time), i,
+ ret ? "true" : "false");
+ return FALSE;
+ }
+
+ for (j = 0; j < test->test_steps[i].duration; j++) {
+ ret = btd_adv_monitor_test_rssi(
+ test->adv_monitor_obj,
+ test->btd_device_obj,
+ test->test_steps[i].adv_rssi);
+ tester_debug("%s: [t=%.0lf, step=%d] Test "
+ "advertisement RSSI %d, device_found = %s",
+ test->test_info->test_name,
+ difftime(time(NULL), start_time), i,
+ test->test_steps[i].adv_rssi,
+ ret ? "true" : "false");
+
+ /* Sleep for a second to simulate receiving
+ * advertisement once every second
+ */
+ sleep(ADV_INTERVAL);
+ }
+ g_assert(ret == test->test_steps[i].result);
+
+ i++;
+ }
+
+ tester_debug("%s: [t=%.0lf] Test done", test->test_info->test_name,
+ difftime(time(NULL), start_time));
+
+ tester_test_passed();
+
+ return FALSE;
+}
+
+/* Handler function to prepare for a test */
+static void setup_handler(gconstpointer data)
+{
+ const struct test_data *test = data;
+
+ if (test->test_type == TEST_RSSI_FILTER)
+ setup_rssi_filter_test(test->rssi_filter_test_data);
+}
+
+/* Handler function to cleanup after the test is done */
+static void teardown_handler(gconstpointer data)
+{
+ const struct test_data *test = data;
+
+ if (test->test_type == TEST_RSSI_FILTER)
+ teardown_rssi_filter_test(test->rssi_filter_test_data);
+}
+
+/* Handler function to execute a test with the given data set */
+static void test_handler(gconstpointer data)
+{
+ const struct test_data *test = data;
+
+ if (test->test_type == TEST_RSSI_FILTER)
+ test_rssi_filter(test->rssi_filter_test_data);
+}
+
+int main(int argc, char *argv[])
+{
+ tester_init(&argc, &argv);
+
+ __btd_log_init("*", 0);
+
+ define_test("/advmon/rssi/1", TEST_RSSI_FILTER, rssi_data_1,
+ setup_handler, test_handler, teardown_handler);
+ define_test("/advmon/rssi/2", TEST_RSSI_FILTER, rssi_data_2,
+ setup_handler, test_handler, teardown_handler);
+ define_test("/advmon/rssi/3", TEST_RSSI_FILTER, rssi_data_3,
+ setup_handler, test_handler, teardown_handler);
+ define_test("/advmon/rssi/4", TEST_RSSI_FILTER, rssi_data_4,
+ setup_handler, test_handler, teardown_handler);
+ define_test("/advmon/rssi/5", TEST_RSSI_FILTER, rssi_data_5,
+ setup_handler, test_handler, teardown_handler);
+
+ return tester_run();
+}