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f9bda68ef8
flipperzero-firmware/applications/tests/furi_record_test.c
coreglitch 942bbfaefe
Core api concept (#144) 
* add input debounce code from old fw

* exampl of input api

* change input API to get/release

* revert input API to read

* pointer instead of instance

* add input API description

* add display API

* rewrite display names

* migrate to valuemanager

* add LED API

* add closing brakets

* add sound api

* fix led api

* basic api

* rename API pages

* change pubsub implementation

* move FURI AC -> flapp, add valuemutex example, add valuemanager implementation

* pubsub usage example

* user led example

* update example

* simplify input

* add composed display

* add SPI/GPIO and CC1101 bus

* change cc1101 api

* spi api and devices

* spi api and devices

* move SPI to page, add GPIO

* not block pin open

* backlight API and more

* add minunit tests

* fix logging

* ignore unexisting time service on embedded targets

* fix warning, issue with printf

* Deprecate furi_open and furi_close (#167)

Rename existing furi_open and furi_close to deprecated version

* add exitcode

* migrate to printf

* indicate test by leds

* add testing description

* rename furi.h

* wip basic api

* add valuemutex, pubsub, split files

* add value expanders

* value mutex realization and tests

* valuemutex test added to makefile

* do not build unimplemented files

* fix build furmware target f2

* redesigned minunit tests to allow testing in separate files

* test file for valuemutex minunit testing

* minunit partial test valuemutex

* local cmsis_os2 mutex bindings

* implement furi open/create, tests

* migrate concurrent_access to ValueMutex

* add spi header

* Lib: add mlib submodule.

Co-authored-by: rusdacent <rusdacentx0x08@gmail.com>
Co-authored-by: DrZlo13 <who.just.the.doctor@gmail.com>
2020-10-13 11:22:43 +03:00

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#include <stdio.h>
#include <string.h>
#include "flipper.h"
#include "flipper_v2.h"
#include "log.h"
#include "minunit.h"
void test_furi_create_open() {
// 1. Create record
uint8_t test_data = 0;
mu_check(furi_create("test/holding", (void*)&test_data));
// 2. Open it
void* record = furi_open("test/holding");
mu_assert_pointers_eq(record, &test_data);
}
/*
TEST: non-existent data
1. Try to open non-existent record
2. Check for NULL handler
3. Try to write/read, get error
TODO: implement this test
*/
bool test_furi_nonexistent_data() {
return true;
}
/*
TEST: mute algorithm
1. Create "parent" application:
1. Create pipe record
2. Open watch handler: no_mute=false, solo=false, subscribe to data.
2. Open handler A: no_mute=false, solo=false, NULL subscriber. Subscribe to state.
Try to write data to A and check subscriber.
3. Open handler B: no_mute=true, solo=true, NULL subscriber.
Check A state cb get FlipperRecordStateMute.
Try to write data to A and check that subscriber get no data. (muted)
Try to write data to B and check that subscriber get data.
TODO: test 3 not pass beacuse state callback not implemented
4. Open hadler C: no_mute=false, solo=true, NULL subscriber.
Try to write data to A and check that subscriber get no data. (muted)
Try to write data to B and check that subscriber get data. (not muted because open with no_mute)
Try to write data to C and check that subscriber get data.
5. Open handler D: no_mute=false, solo=false, NULL subscriber.
Try to write data to A and check that subscriber get no data. (muted)
Try to write data to B and check that subscriber get data. (not muted because open with no_mute)
Try to write data to C and check that subscriber get data. (not muted because D open without solo)
Try to write data to D and check that subscriber get data.
6. Close C, close B.
Check A state cb get FlipperRecordStateUnmute
Try to write data to A and check that subscriber get data. (unmuted)
Try to write data to D and check that subscriber get data.
TODO: test 6 not pass beacuse cleanup is not implemented
TODO: test 6 not pass because mute algorithm is unfinished.
7. Exit "parent application"
Check A state cb get FlipperRecordStateDeleted
TODO: test 7 not pass beacuse cleanup is not implemented
*/
static uint8_t mute_last_value = 0;
static FlipperRecordState mute_last_state = 255;
void mute_record_cb(const void* value, size_t size, void* ctx) {
// hold value to static var
mute_last_value = *((uint8_t*)value);
}
void mute_record_state_cb(FlipperRecordState state, void* ctx) {
mute_last_state = state;
}
void furi_mute_parent_app(void* p) {
// 1. Create pipe record
if(!furi_create_deprecated("test/mute", NULL, 0)) {
printf("cannot create record\n");
furiac_exit(NULL);
}
// 2. Open watch handler: solo=false, no_mute=false, subscribe to data
FuriRecordSubscriber* watch_handler =
furi_open_deprecated("test/mute", false, false, mute_record_cb, NULL, NULL);
if(watch_handler == NULL) {
printf("cannot open watch handler\n");
furiac_exit(NULL);
}
while(1) {
// TODO we don't have thread sleep
delay(100000);
}
}
bool test_furi_mute_algorithm() {
// 1. Create "parent" application:
FuriApp* parent_app = furiac_start(furi_mute_parent_app, "parent app", NULL);
delay(2); // wait creating record
// 2. Open handler A: solo=false, no_mute=false, NULL subscriber. Subscribe to state.
FuriRecordSubscriber* handler_a =
furi_open_deprecated("test/mute", false, false, NULL, mute_record_state_cb, NULL);
if(handler_a == NULL) {
printf("cannot open handler A\n");
return false;
}
uint8_t test_counter = 1;
// Try to write data to A and check subscriber
if(!furi_write(handler_a, &test_counter, sizeof(uint8_t))) {
printf("write to A failed\n");
return false;
}
if(mute_last_value != test_counter) {
printf("value A mismatch: %d vs %d\n", mute_last_value, test_counter);
return false;
}
// 3. Open handler B: solo=true, no_mute=true, NULL subscriber.
FuriRecordSubscriber* handler_b =
furi_open_deprecated("test/mute", true, true, NULL, NULL, NULL);
if(handler_b == NULL) {
printf("cannot open handler B\n");
return false;
}
// Check A state cb get FlipperRecordStateMute.
if(mute_last_state != FlipperRecordStateMute) {
printf("A state is not FlipperRecordStateMute: %d\n", mute_last_state);
return false;
}
test_counter = 2;
// Try to write data to A and check that subscriber get no data. (muted)
if(furi_write(handler_a, &test_counter, sizeof(uint8_t))) {
printf("A not muted\n");
return false;
}
if(mute_last_value == test_counter) {
printf("value A must be muted\n");
return false;
}
test_counter = 3;
// Try to write data to B and check that subscriber get data.
if(!furi_write(handler_b, &test_counter, sizeof(uint8_t))) {
printf("write to B failed\n");
return false;
}
if(mute_last_value != test_counter) {
printf("value B mismatch: %d vs %d\n", mute_last_value, test_counter);
return false;
}
// 4. Open hadler C: solo=true, no_mute=false, NULL subscriber.
FuriRecordSubscriber* handler_c =
furi_open_deprecated("test/mute", true, false, NULL, NULL, NULL);
if(handler_c == NULL) {
printf("cannot open handler C\n");
return false;
}
// TODO: Try to write data to A and check that subscriber get no data. (muted)
// TODO: Try to write data to B and check that subscriber get data. (not muted because open with no_mute)
// TODO: Try to write data to C and check that subscriber get data.
// 5. Open handler D: solo=false, no_mute=false, NULL subscriber.
FuriRecordSubscriber* handler_d =
furi_open_deprecated("test/mute", false, false, NULL, NULL, NULL);
if(handler_d == NULL) {
printf("cannot open handler D\n");
return false;
}
// TODO: Try to write data to A and check that subscriber get no data. (muted)
// TODO: Try to write data to B and check that subscriber get data. (not muted because open with no_mute)
// TODO: Try to write data to C and check that subscriber get data. (not muted because D open without solo)
// TODO: Try to write data to D and check that subscriber get data.
// 6. Close C, close B.
// TODO: Check A state cb get FlipperRecordStateUnmute
// TODO: Try to write data to A and check that subscriber get data. (unmuted)
// TODO: Try to write data to D and check that subscriber get data.
// 7. Exit "parent application"
if(!furiac_kill(parent_app)) {
printf("kill parent_app fail\n");
return false;
}
// TODO: Check A state cb get FlipperRecordStateDeleted
return true;
}
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