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// Copyright 2015-2016 Espressif Systems (Shanghai) PTE LTD
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//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
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# include <string.h>
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# include "unity.h"
# include "test_utils.h"
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# include "esp32/rom/ets_sys.h"
# include "esp32/rom/uart.h"
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# include "freertos/FreeRTOS.h"
# include "freertos/task.h"
# include "tcpip_adapter.h"
# include "lwip/sockets.h"
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const esp_partition_t * get_test_data_partition ( )
{
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/* This finds "flash_test" partition defined in partition_table_unit_test_app.csv */
const esp_partition_t * result = esp_partition_find_first ( ESP_PARTITION_TYPE_DATA ,
ESP_PARTITION_SUBTYPE_ANY , " flash_test " ) ;
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TEST_ASSERT_NOT_NULL ( result ) ; /* means partition table set wrong */
return result ;
}
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void test_case_uses_tcpip ( )
{
// Can be called more than once, does nothing on subsequent calls
tcpip_adapter_init ( ) ;
// Allocate all sockets then free them
// (First time each socket is allocated some one-time allocations happen.)
int sockets [ CONFIG_LWIP_MAX_SOCKETS ] ;
for ( int i = 0 ; i < CONFIG_LWIP_MAX_SOCKETS ; i + + ) {
int type = ( i % 2 = = 0 ) ? SOCK_DGRAM : SOCK_STREAM ;
int family = ( i % 3 = = 0 ) ? PF_INET6 : PF_INET ;
sockets [ i ] = socket ( family , type , IPPROTO_IP ) ;
}
for ( int i = 0 ; i < CONFIG_LWIP_MAX_SOCKETS ; i + + ) {
close ( sockets [ i ] ) ;
}
// Allow LWIP tasks to finish initialising themselves
vTaskDelay ( 25 / portTICK_RATE_MS ) ;
printf ( " Note: tcpip_adapter_init() has been called. Until next reset, TCP/IP task will periodicially allocate memory and consume CPU time. \n " ) ;
// Reset the leak checker as LWIP allocates a lot of memory on first run
unity_reset_leak_checks ( ) ;
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test_utils_set_leak_level ( 0 , TYPE_LEAK_CRITICAL , COMP_LEAK_GENERAL ) ;
test_utils_set_leak_level ( CONFIG_UNITY_CRITICAL_LEAK_LEVEL_LWIP , TYPE_LEAK_CRITICAL , COMP_LEAK_LWIP ) ;
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}
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// wait user to send "Enter" key or input parameter
static void wait_user_control ( char * parameter_buf , uint8_t buf_len )
{
char * buffer = parameter_buf ;
char sign [ 5 ] ;
uint8_t buffer_len = buf_len - 1 ;
if ( parameter_buf = = NULL ) {
buffer = sign ;
buffer_len = sizeof ( sign ) - 1 ;
}
// workaround that unity_gets (UartRxString) will not set '\0' correctly
bzero ( buffer , buffer_len ) ;
unity_gets ( buffer , buffer_len ) ;
}
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// signal functions, used for sync between unity DUTs for multiple devices cases
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void unity_wait_for_signal_param ( const char * signal_name , char * parameter_buf , uint8_t buf_len )
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{
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printf ( " Waiting for signal: [%s]! \n " , signal_name ) ;
if ( parameter_buf = = NULL ) {
printf ( " Please press \" Enter \" key once any board send this signal. \n " ) ;
} else {
printf ( " Please input parameter value from any board send this signal and press \" Enter \" key. \n " ) ;
}
wait_user_control ( parameter_buf , buf_len ) ;
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}
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void unity_send_signal_param ( const char * signal_name , const char * parameter )
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{
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if ( parameter = = NULL ) {
printf ( " Send signal: [%s]! \n " , signal_name ) ;
} else {
printf ( " Send signal: [%s][%s]! \n " , signal_name , parameter ) ;
}
}
bool unity_util_convert_mac_from_string ( const char * mac_str , uint8_t * mac_addr )
{
uint8_t loop = 0 ;
uint8_t tmp = 0 ;
const char * start ;
char * stop ;
for ( loop = 0 ; loop < 6 ; loop + + ) {
start = mac_str + loop * 3 ;
tmp = strtol ( start , & stop , 16 ) ;
if ( stop - start = = 2 & & ( * stop = = ' : ' | | ( * stop = = 0 & & loop = = 5 ) ) ) {
mac_addr [ loop ] = tmp ;
} else {
return false ;
}
}
return true ;
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}
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static size_t test_unity_leak_level [ TYPE_LEAK_MAX ] [ COMP_LEAK_ALL ] = { 0 } ;
esp_err_t test_utils_set_leak_level ( size_t leak_level , esp_type_leak_t type_of_leak , esp_comp_leak_t component )
{
if ( type_of_leak > = TYPE_LEAK_MAX | | component > = COMP_LEAK_ALL ) {
return ESP_ERR_INVALID_ARG ;
}
test_unity_leak_level [ type_of_leak ] [ component ] = leak_level ;
return ESP_OK ;
}
size_t test_utils_get_leak_level ( esp_type_leak_t type_of_leak , esp_comp_leak_t component )
{
size_t leak_level = 0 ;
if ( type_of_leak > = TYPE_LEAK_MAX | | component > COMP_LEAK_ALL ) {
leak_level = 0 ;
} else {
if ( component = = COMP_LEAK_ALL ) {
for ( int comp = 0 ; comp < COMP_LEAK_ALL ; + + comp ) {
leak_level + = test_unity_leak_level [ type_of_leak ] [ comp ] ;
}
} else {
leak_level = test_unity_leak_level [ type_of_leak ] [ component ] ;
}
}
return leak_level ;
}
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# define EXHAUST_MEMORY_ENTRIES 100
struct test_utils_exhaust_memory_record_s {
int * entries [ EXHAUST_MEMORY_ENTRIES ] ;
} ;
test_utils_exhaust_memory_rec test_utils_exhaust_memory ( uint32_t caps , size_t limit )
{
int idx = 0 ;
test_utils_exhaust_memory_rec rec = calloc ( 1 , sizeof ( struct test_utils_exhaust_memory_record_s ) ) ;
TEST_ASSERT_NOT_NULL_MESSAGE ( rec , " test_utils_exhaust_memory: not enough free memory to allocate record structure! " ) ;
while ( idx < EXHAUST_MEMORY_ENTRIES ) {
size_t free_caps = heap_caps_get_largest_free_block ( caps ) ;
if ( free_caps < = limit ) {
return rec ; // done!
}
rec - > entries [ idx ] = heap_caps_malloc ( free_caps - limit , caps ) ;
TEST_ASSERT_NOT_NULL_MESSAGE ( rec - > entries [ idx ] ,
" test_utils_exhaust_memory: something went wrong while freeing up memory, is another task using heap? " ) ;
heap_caps_check_integrity_all ( true ) ;
idx + + ;
}
TEST_FAIL_MESSAGE ( " test_utils_exhaust_memory: The heap with the requested caps is too fragmented, increase EXHAUST_MEMORY_ENTRIES or defrag the heap! " ) ;
abort ( ) ;
}
void test_utils_free_exhausted_memory ( test_utils_exhaust_memory_rec rec )
{
for ( int i = 0 ; i < EXHAUST_MEMORY_ENTRIES ; i + + ) {
free ( rec - > entries [ i ] ) ;
}
free ( rec ) ;
}