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// Copyright 2015-2016 Espressif Systems (Shanghai) PTE LTD
//
// 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.
# include "catch.hpp"
# include "nvs.hpp"
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# include "nvs_test_api.h"
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# include "spi_flash_emulation.h"
# include <sstream>
# include <iostream>
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# include <unistd.h>
# include <sys/wait.h>
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# define TEST_ESP_ERR(rc, res) CHECK((rc) == (res))
# define TEST_ESP_OK(rc) CHECK((rc) == ESP_OK)
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using namespace std ;
using namespace nvs ;
stringstream s_perf ;
void dumpBytes ( const uint8_t * data , size_t count )
{
for ( uint32_t i = 0 ; i < count ; + + i ) {
if ( i % 32 = = 0 ) {
printf ( " %08x " , i ) ;
}
printf ( " %02x " , data [ i ] ) ;
if ( ( i + 1 ) % 32 = = 0 ) {
printf ( " \n " ) ;
}
}
}
TEST_CASE ( " crc32 behaves as expected " , " [nvs] " )
{
Item item1 ;
item1 . datatype = ItemType : : I32 ;
item1 . nsIndex = 1 ;
item1 . crc32 = 0 ;
item1 . reserved = 0xff ;
fill_n ( item1 . key , sizeof ( item1 . key ) , 0xbb ) ;
fill_n ( item1 . data , sizeof ( item1 . data ) , 0xaa ) ;
auto crc32_1 = item1 . calculateCrc32 ( ) ;
Item item2 = item1 ;
item2 . crc32 = crc32_1 ;
CHECK ( crc32_1 = = item2 . calculateCrc32 ( ) ) ;
item2 = item1 ;
item2 . nsIndex = 2 ;
CHECK ( crc32_1 ! = item2 . calculateCrc32 ( ) ) ;
item2 = item1 ;
item2 . datatype = ItemType : : U32 ;
CHECK ( crc32_1 ! = item2 . calculateCrc32 ( ) ) ;
item2 = item1 ;
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strncpy ( item2 . key , " foo " , Item : : MAX_KEY_LENGTH ) ;
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CHECK ( crc32_1 ! = item2 . calculateCrc32 ( ) ) ;
}
TEST_CASE ( " starting with empty flash, page is in uninitialized state " , " [nvs] " )
{
SpiFlashEmulator emu ( 1 ) ;
Page page ;
CHECK ( page . state ( ) = = Page : : PageState : : INVALID ) ;
CHECK ( page . load ( 0 ) = = ESP_OK ) ;
CHECK ( page . state ( ) = = Page : : PageState : : UNINITIALIZED ) ;
}
TEST_CASE ( " can distinguish namespaces " , " [nvs] " )
{
SpiFlashEmulator emu ( 1 ) ;
Page page ;
CHECK ( page . load ( 0 ) = = ESP_OK ) ;
int32_t val1 = 0x12345678 ;
CHECK ( page . writeItem ( 1 , ItemType : : I32 , " intval1 " , & val1 , sizeof ( val1 ) ) = = ESP_OK ) ;
int32_t val2 = 0x23456789 ;
CHECK ( page . writeItem ( 2 , ItemType : : I32 , " intval1 " , & val2 , sizeof ( val2 ) ) = = ESP_OK ) ;
int32_t readVal ;
CHECK ( page . readItem ( 2 , ItemType : : I32 , " intval1 " , & readVal , sizeof ( readVal ) ) = = ESP_OK ) ;
CHECK ( readVal = = val2 ) ;
}
TEST_CASE ( " reading with different type causes type mismatch error " , " [nvs] " )
{
SpiFlashEmulator emu ( 1 ) ;
Page page ;
CHECK ( page . load ( 0 ) = = ESP_OK ) ;
int32_t val = 0x12345678 ;
CHECK ( page . writeItem ( 1 , ItemType : : I32 , " intval1 " , & val , sizeof ( val ) ) = = ESP_OK ) ;
CHECK ( page . readItem ( 1 , ItemType : : U32 , " intval1 " , & val , sizeof ( val ) ) = = ESP_ERR_NVS_TYPE_MISMATCH ) ;
}
TEST_CASE ( " when page is erased, it's state becomes UNITIALIZED " , " [nvs] " )
{
SpiFlashEmulator emu ( 1 ) ;
Page page ;
CHECK ( page . load ( 0 ) = = ESP_OK ) ;
int32_t val = 0x12345678 ;
CHECK ( page . writeItem ( 1 , ItemType : : I32 , " intval1 " , & val , sizeof ( val ) ) = = ESP_OK ) ;
CHECK ( page . erase ( ) = = ESP_OK ) ;
CHECK ( page . state ( ) = = Page : : PageState : : UNINITIALIZED ) ;
}
TEST_CASE ( " when writing and erasing, used/erased counts are updated correctly " , " [nvs] " )
{
SpiFlashEmulator emu ( 1 ) ;
Page page ;
CHECK ( page . load ( 0 ) = = ESP_OK ) ;
CHECK ( page . getUsedEntryCount ( ) = = 0 ) ;
CHECK ( page . getErasedEntryCount ( ) = = 0 ) ;
uint32_t foo1 = 0 ;
CHECK ( page . writeItem ( 1 , " foo1 " , foo1 ) = = ESP_OK ) ;
CHECK ( page . getUsedEntryCount ( ) = = 1 ) ;
CHECK ( page . writeItem ( 2 , " foo1 " , foo1 ) = = ESP_OK ) ;
CHECK ( page . getUsedEntryCount ( ) = = 2 ) ;
CHECK ( page . eraseItem < uint32_t > ( 2 , " foo1 " ) = = ESP_OK ) ;
CHECK ( page . getUsedEntryCount ( ) = = 1 ) ;
CHECK ( page . getErasedEntryCount ( ) = = 1 ) ;
for ( size_t i = 0 ; i < Page : : ENTRY_COUNT - 2 ; + + i ) {
char name [ 16 ] ;
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snprintf ( name , sizeof ( name ) , " i%ld " , ( long int ) i ) ;
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CHECK ( page . writeItem ( 1 , name , i ) = = ESP_OK ) ;
}
CHECK ( page . getUsedEntryCount ( ) = = Page : : ENTRY_COUNT - 1 ) ;
CHECK ( page . getErasedEntryCount ( ) = = 1 ) ;
for ( size_t i = 0 ; i < Page : : ENTRY_COUNT - 2 ; + + i ) {
char name [ 16 ] ;
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snprintf ( name , sizeof ( name ) , " i%ld " , ( long int ) i ) ;
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CHECK ( page . eraseItem ( 1 , itemTypeOf < size_t > ( ) , name ) = = ESP_OK ) ;
}
CHECK ( page . getUsedEntryCount ( ) = = 1 ) ;
CHECK ( page . getErasedEntryCount ( ) = = Page : : ENTRY_COUNT - 1 ) ;
}
TEST_CASE ( " when page is full, adding an element fails " , " [nvs] " )
{
SpiFlashEmulator emu ( 1 ) ;
Page page ;
CHECK ( page . load ( 0 ) = = ESP_OK ) ;
for ( size_t i = 0 ; i < Page : : ENTRY_COUNT ; + + i ) {
char name [ 16 ] ;
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snprintf ( name , sizeof ( name ) , " i%ld " , ( long int ) i ) ;
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CHECK ( page . writeItem ( 1 , name , i ) = = ESP_OK ) ;
}
CHECK ( page . writeItem ( 1 , " foo " , 64UL ) = = ESP_ERR_NVS_PAGE_FULL ) ;
}
TEST_CASE ( " page maintains its seq number " )
{
SpiFlashEmulator emu ( 1 ) ;
{
Page page ;
CHECK ( page . load ( 0 ) = = ESP_OK ) ;
CHECK ( page . setSeqNumber ( 123 ) = = ESP_OK ) ;
int32_t val = 42 ;
CHECK ( page . writeItem ( 1 , ItemType : : I32 , " dummy " , & val , sizeof ( val ) ) = = ESP_OK ) ;
}
{
Page page ;
CHECK ( page . load ( 0 ) = = ESP_OK ) ;
uint32_t seqno ;
CHECK ( page . getSeqNumber ( seqno ) = = ESP_OK ) ;
CHECK ( seqno = = 123 ) ;
}
}
TEST_CASE ( " can write and read variable length data " , " [nvs] " )
{
SpiFlashEmulator emu ( 1 ) ;
Page page ;
CHECK ( page . load ( 0 ) = = ESP_OK ) ;
const char str [ ] = " foobar1234foobar1234foobar1234foobar1234foobar1234foobar1234foobar1234foobar1234 " ;
size_t len = strlen ( str ) ;
CHECK ( page . writeItem ( 1 , " stuff1 " , 42 ) = = ESP_OK ) ;
CHECK ( page . writeItem ( 1 , " stuff2 " , 1 ) = = ESP_OK ) ;
CHECK ( page . writeItem ( 1 , ItemType : : SZ , " foobaar " , str , len + 1 ) = = ESP_OK ) ;
CHECK ( page . writeItem ( 1 , " stuff3 " , 2 ) = = ESP_OK ) ;
CHECK ( page . writeItem ( 1 , ItemType : : BLOB , " baz " , str , len ) = = ESP_OK ) ;
CHECK ( page . writeItem ( 1 , " stuff4 " , 0x7abbccdd ) = = ESP_OK ) ;
char buf [ sizeof ( str ) + 16 ] ;
int32_t value ;
CHECK ( page . readItem ( 1 , " stuff1 " , value ) = = ESP_OK ) ;
CHECK ( value = = 42 ) ;
CHECK ( page . readItem ( 1 , " stuff2 " , value ) = = ESP_OK ) ;
CHECK ( value = = 1 ) ;
CHECK ( page . readItem ( 1 , " stuff3 " , value ) = = ESP_OK ) ;
CHECK ( value = = 2 ) ;
CHECK ( page . readItem ( 1 , " stuff4 " , value ) = = ESP_OK ) ;
CHECK ( value = = 0x7abbccdd ) ;
fill_n ( buf , sizeof ( buf ) , 0xff ) ;
CHECK ( page . readItem ( 1 , ItemType : : SZ , " foobaar " , buf , sizeof ( buf ) ) = = ESP_OK ) ;
CHECK ( memcmp ( buf , str , strlen ( str ) + 1 ) = = 0 ) ;
fill_n ( buf , sizeof ( buf ) , 0xff ) ;
CHECK ( page . readItem ( 1 , ItemType : : BLOB , " baz " , buf , sizeof ( buf ) ) = = ESP_OK ) ;
CHECK ( memcmp ( buf , str , strlen ( str ) ) = = 0 ) ;
}
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TEST_CASE ( " different key names are distinguished even if the pointer is the same " , " [nvs] " )
{
SpiFlashEmulator emu ( 1 ) ;
Page page ;
TEST_ESP_OK ( page . load ( 0 ) ) ;
TEST_ESP_OK ( page . writeItem ( 1 , " i1 " , 1 ) ) ;
TEST_ESP_OK ( page . writeItem ( 1 , " i2 " , 2 ) ) ;
int32_t value ;
char keyname [ 10 ] = { 0 } ;
for ( int i = 0 ; i < 2 ; + + i ) {
strncpy ( keyname , " i1 " , sizeof ( keyname ) - 1 ) ;
TEST_ESP_OK ( page . readItem ( 1 , keyname , value ) ) ;
CHECK ( value = = 1 ) ;
strncpy ( keyname , " i2 " , sizeof ( keyname ) - 1 ) ;
TEST_ESP_OK ( page . readItem ( 1 , keyname , value ) ) ;
CHECK ( value = = 2 ) ;
}
}
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TEST_CASE ( " Page validates key size " , " [nvs] " )
{
SpiFlashEmulator emu ( 4 ) ;
Page page ;
TEST_ESP_OK ( page . load ( 0 ) ) ;
// 16-character key fails
TEST_ESP_ERR ( page . writeItem ( 1 , " 0123456789123456 " , 1 ) , ESP_ERR_NVS_KEY_TOO_LONG ) ;
// 15-character key is okay
TEST_ESP_OK ( page . writeItem ( 1 , " 012345678912345 " , 1 ) ) ;
}
TEST_CASE ( " Page validates blob size " , " [nvs] " )
{
SpiFlashEmulator emu ( 4 ) ;
Page page ;
TEST_ESP_OK ( page . load ( 0 ) ) ;
char buf [ 2048 ] = { 0 } ;
// There are two potential errors here:
// - not enough space in the page (because one value has been written already)
// - value is too long
// Check that the second one is actually returned.
TEST_ESP_ERR ( page . writeItem ( 1 , ItemType : : BLOB , " 2 " , buf , Page : : ENTRY_COUNT * Page : : ENTRY_SIZE ) , ESP_ERR_NVS_VALUE_TOO_LONG ) ;
// Should fail as well
TEST_ESP_ERR ( page . writeItem ( 1 , ItemType : : BLOB , " 2 " , buf , Page : : BLOB_MAX_SIZE + 1 ) , ESP_ERR_NVS_VALUE_TOO_LONG ) ;
TEST_ESP_OK ( page . writeItem ( 1 , ItemType : : BLOB , " 2 " , buf , Page : : BLOB_MAX_SIZE ) ) ;
}
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TEST_CASE ( " Page handles invalid CRC of variable length items " , " [nvs][cur] " )
{
SpiFlashEmulator emu ( 4 ) ;
{
Page page ;
TEST_ESP_OK ( page . load ( 0 ) ) ;
char buf [ 128 ] = { 0 } ;
TEST_ESP_OK ( page . writeItem ( 1 , ItemType : : BLOB , " 1 " , buf , sizeof ( buf ) ) ) ;
}
// corrupt header of the item (64 is the offset of the first item in page)
uint32_t overwrite_buf = 0 ;
emu . write ( 64 , & overwrite_buf , 4 ) ;
// load page again
{
Page page ;
TEST_ESP_OK ( page . load ( 0 ) ) ;
}
}
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TEST_CASE ( " can init PageManager in empty flash " , " [nvs] " )
{
SpiFlashEmulator emu ( 4 ) ;
PageManager pm ;
CHECK ( pm . load ( 0 , 4 ) = = ESP_OK ) ;
}
TEST_CASE ( " PageManager adds page in the correct order " , " [nvs] " )
{
const size_t pageCount = 8 ;
SpiFlashEmulator emu ( pageCount ) ;
uint32_t pageNo [ pageCount ] = { - 1U , 50 , 11 , - 1U , 23 , 22 , 24 , 49 } ;
for ( uint32_t i = 0 ; i < pageCount ; + + i ) {
Page p ;
p . load ( i ) ;
if ( pageNo [ i ] ! = - 1U ) {
p . setSeqNumber ( pageNo [ i ] ) ;
p . writeItem ( 1 , " foo " , 10U ) ;
}
}
PageManager pageManager ;
CHECK ( pageManager . load ( 0 , pageCount ) = = ESP_OK ) ;
uint32_t lastSeqNo = 0 ;
for ( auto it = std : : begin ( pageManager ) ; it ! = std : : end ( pageManager ) ; + + it ) {
uint32_t seqNo ;
CHECK ( it - > getSeqNumber ( seqNo ) = = ESP_OK ) ;
CHECK ( seqNo > lastSeqNo ) ;
}
}
TEST_CASE ( " can init storage in empty flash " , " [nvs] " )
{
SpiFlashEmulator emu ( 8 ) ;
Storage storage ;
emu . setBounds ( 4 , 8 ) ;
CHECK ( storage . init ( 4 , 4 ) = = ESP_OK ) ;
s_perf < < " Time to init empty storage (4 sectors): " < < emu . getTotalTime ( ) < < " us " < < std : : endl ;
}
TEST_CASE ( " storage doesn't add duplicates within one page " , " [nvs] " )
{
SpiFlashEmulator emu ( 8 ) ;
Storage storage ;
emu . setBounds ( 4 , 8 ) ;
CHECK ( storage . init ( 4 , 4 ) = = ESP_OK ) ;
int bar = 0 ;
CHECK ( storage . writeItem ( 1 , " bar " , bar ) = = ESP_OK ) ;
CHECK ( storage . writeItem ( 1 , " bar " , bar ) = = ESP_OK ) ;
Page page ;
page . load ( 4 ) ;
CHECK ( page . getUsedEntryCount ( ) = = 1 ) ;
CHECK ( page . getErasedEntryCount ( ) = = 1 ) ;
}
TEST_CASE ( " can write one item a thousand times " , " [nvs] " )
{
SpiFlashEmulator emu ( 8 ) ;
Storage storage ;
emu . setBounds ( 4 , 8 ) ;
CHECK ( storage . init ( 4 , 4 ) = = ESP_OK ) ;
for ( size_t i = 0 ; i < Page : : ENTRY_COUNT * 4 * 2 ; + + i ) {
REQUIRE ( storage . writeItem ( 1 , " i " , static_cast < int > ( i ) ) = = ESP_OK ) ;
}
s_perf < < " Time to write one item a thousand times: " < < emu . getTotalTime ( ) < < " us ( " < < emu . getEraseOps ( ) < < " " < < emu . getWriteOps ( ) < < " " < < emu . getReadOps ( ) < < " " < < emu . getWriteBytes ( ) < < " " < < emu . getReadBytes ( ) < < " ) " < < std : : endl ;
}
TEST_CASE ( " storage doesn't add duplicates within multiple pages " , " [nvs] " )
{
SpiFlashEmulator emu ( 8 ) ;
Storage storage ;
emu . setBounds ( 4 , 8 ) ;
CHECK ( storage . init ( 4 , 4 ) = = ESP_OK ) ;
int bar = 0 ;
CHECK ( storage . writeItem ( 1 , " bar " , bar ) = = ESP_OK ) ;
for ( size_t i = 0 ; i < Page : : ENTRY_COUNT ; + + i ) {
CHECK ( storage . writeItem ( 1 , " foo " , static_cast < int > ( bar ) ) = = ESP_OK ) ;
}
CHECK ( storage . writeItem ( 1 , " bar " , bar ) = = ESP_OK ) ;
Page page ;
page . load ( 4 ) ;
CHECK ( page . findItem ( 1 , itemTypeOf < int > ( ) , " bar " ) = = ESP_ERR_NVS_NOT_FOUND ) ;
page . load ( 5 ) ;
CHECK ( page . findItem ( 1 , itemTypeOf < int > ( ) , " bar " ) = = ESP_OK ) ;
}
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TEST_CASE ( " storage can find items on second page if first is not fully written and has cached search data " , " [nvs] " )
{
SpiFlashEmulator emu ( 3 ) ;
Storage storage ;
CHECK ( storage . init ( 0 , 3 ) = = ESP_OK ) ;
int bar = 0 ;
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uint8_t bigdata [ Page : : BLOB_MAX_SIZE ] = { 0 } ;
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// write one big chunk of data
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ESP_ERROR_CHECK ( storage . writeItem ( 0 , ItemType : : BLOB , " 1 " , bigdata , sizeof ( bigdata ) ) ) ;
// write another big chunk of data
ESP_ERROR_CHECK ( storage . writeItem ( 0 , ItemType : : BLOB , " 2 " , bigdata , sizeof ( bigdata ) ) ) ;
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// write third one; it will not fit into the first page
ESP_ERROR_CHECK ( storage . writeItem ( 0 , ItemType : : BLOB , " 3 " , bigdata , sizeof ( bigdata ) ) ) ;
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size_t size ;
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ESP_ERROR_CHECK ( storage . getItemDataSize ( 0 , ItemType : : BLOB , " 1 " , size ) ) ;
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CHECK ( size = = sizeof ( bigdata ) ) ;
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ESP_ERROR_CHECK ( storage . getItemDataSize ( 0 , ItemType : : BLOB , " 3 " , size ) ) ;
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CHECK ( size = = sizeof ( bigdata ) ) ;
}
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TEST_CASE ( " can write and read variable length data lots of times " , " [nvs] " )
{
SpiFlashEmulator emu ( 8 ) ;
Storage storage ;
emu . setBounds ( 4 , 8 ) ;
CHECK ( storage . init ( 4 , 4 ) = = ESP_OK ) ;
const char str [ ] = " foobar1234foobar1234foobar1234foobar1234foobar1234foobar1234foobar1234foobar1234 " ;
char buf [ sizeof ( str ) + 16 ] ;
size_t len = strlen ( str ) ;
for ( size_t i = 0 ; i < Page : : ENTRY_COUNT * 4 * 2 ; + + i ) {
CAPTURE ( i ) ;
CHECK ( storage . writeItem ( 1 , ItemType : : SZ , " foobaar " , str , len + 1 ) = = ESP_OK ) ;
CHECK ( storage . writeItem ( 1 , " foo " , static_cast < uint32_t > ( i ) ) = = ESP_OK ) ;
uint32_t value ;
CHECK ( storage . readItem ( 1 , " foo " , value ) = = ESP_OK ) ;
CHECK ( value = = i ) ;
fill_n ( buf , sizeof ( buf ) , 0xff ) ;
CHECK ( storage . readItem ( 1 , ItemType : : SZ , " foobaar " , buf , sizeof ( buf ) ) = = ESP_OK ) ;
CHECK ( memcmp ( buf , str , strlen ( str ) + 1 ) = = 0 ) ;
}
s_perf < < " Time to write one string and one integer a thousand times: " < < emu . getTotalTime ( ) < < " us ( " < < emu . getEraseOps ( ) < < " " < < emu . getWriteOps ( ) < < " " < < emu . getReadOps ( ) < < " " < < emu . getWriteBytes ( ) < < " " < < emu . getReadBytes ( ) < < " ) " < < std : : endl ;
}
TEST_CASE ( " can get length of variable length data " , " [nvs] " )
{
SpiFlashEmulator emu ( 8 ) ;
emu . randomize ( 200 ) ;
Storage storage ;
emu . setBounds ( 4 , 8 ) ;
CHECK ( storage . init ( 4 , 4 ) = = ESP_OK ) ;
const char str [ ] = " foobar1234foobar1234foobar1234foobar1234foobar1234foobar1234foobar1234foobar1234 " ;
size_t len = strlen ( str ) ;
CHECK ( storage . writeItem ( 1 , ItemType : : SZ , " foobaar " , str , len + 1 ) = = ESP_OK ) ;
size_t dataSize ;
CHECK ( storage . getItemDataSize ( 1 , ItemType : : SZ , " foobaar " , dataSize ) = = ESP_OK ) ;
CHECK ( dataSize = = len + 1 ) ;
CHECK ( storage . writeItem ( 2 , ItemType : : BLOB , " foobaar " , str , len ) = = ESP_OK ) ;
CHECK ( storage . getItemDataSize ( 2 , ItemType : : BLOB , " foobaar " , dataSize ) = = ESP_OK ) ;
CHECK ( dataSize = = len ) ;
}
TEST_CASE ( " can create namespaces " , " [nvs] " )
{
SpiFlashEmulator emu ( 8 ) ;
Storage storage ;
emu . setBounds ( 4 , 8 ) ;
CHECK ( storage . init ( 4 , 4 ) = = ESP_OK ) ;
uint8_t nsi ;
CHECK ( storage . createOrOpenNamespace ( " wifi " , false , nsi ) = = ESP_ERR_NVS_NOT_FOUND ) ;
CHECK ( storage . createOrOpenNamespace ( " wifi " , true , nsi ) = = ESP_OK ) ;
Page page ;
page . load ( 4 ) ;
CHECK ( page . findItem ( Page : : NS_INDEX , ItemType : : U8 , " wifi " ) = = ESP_OK ) ;
}
TEST_CASE ( " storage may become full " , " [nvs] " )
{
SpiFlashEmulator emu ( 8 ) ;
Storage storage ;
emu . setBounds ( 4 , 8 ) ;
CHECK ( storage . init ( 4 , 4 ) = = ESP_OK ) ;
for ( size_t i = 0 ; i < Page : : ENTRY_COUNT * 3 ; + + i ) {
char name [ Item : : MAX_KEY_LENGTH + 1 ] ;
snprintf ( name , sizeof ( name ) , " key%05d " , static_cast < int > ( i ) ) ;
REQUIRE ( storage . writeItem ( 1 , name , static_cast < int > ( i ) ) = = ESP_OK ) ;
}
REQUIRE ( storage . writeItem ( 1 , " foo " , 10 ) = = ESP_ERR_NVS_NOT_ENOUGH_SPACE ) ;
}
TEST_CASE ( " can modify an item on a page which will be erased " , " [nvs] " )
{
SpiFlashEmulator emu ( 2 ) ;
Storage storage ;
CHECK ( storage . init ( 0 , 2 ) = = ESP_OK ) ;
for ( size_t i = 0 ; i < Page : : ENTRY_COUNT * 3 + 1 ; + + i ) {
REQUIRE ( storage . writeItem ( 1 , " foo " , 42U ) = = ESP_OK ) ;
}
}
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TEST_CASE ( " can erase items " , " [nvs] " )
{
SpiFlashEmulator emu ( 3 ) ;
Storage storage ;
CHECK ( storage . init ( 0 , 3 ) = = ESP_OK ) ;
for ( size_t i = 0 ; i < Page : : ENTRY_COUNT * 2 - 3 ; + + i ) {
char name [ Item : : MAX_KEY_LENGTH + 1 ] ;
snprintf ( name , sizeof ( name ) , " key%05d " , static_cast < int > ( i ) ) ;
REQUIRE ( storage . writeItem ( 3 , name , static_cast < int > ( i ) ) = = ESP_OK ) ;
}
CHECK ( storage . writeItem ( 1 , " foo " , 32 ) = = ESP_OK ) ;
CHECK ( storage . writeItem ( 2 , " foo " , 64 ) = = ESP_OK ) ;
CHECK ( storage . eraseItem ( 2 , " foo " ) = = ESP_OK ) ;
int val ;
CHECK ( storage . readItem ( 1 , " foo " , val ) = = ESP_OK ) ;
CHECK ( val = = 32 ) ;
CHECK ( storage . eraseNamespace ( 3 ) = = ESP_OK ) ;
CHECK ( storage . readItem ( 2 , " foo " , val ) = = ESP_ERR_NVS_NOT_FOUND ) ;
CHECK ( storage . readItem ( 3 , " key00222 " , val ) = = ESP_ERR_NVS_NOT_FOUND ) ;
}
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TEST_CASE ( " nvs api tests " , " [nvs] " )
{
SpiFlashEmulator emu ( 10 ) ;
emu . randomize ( 100 ) ;
nvs_handle handle_1 ;
const uint32_t NVS_FLASH_SECTOR = 6 ;
const uint32_t NVS_FLASH_SECTOR_COUNT_MIN = 3 ;
emu . setBounds ( NVS_FLASH_SECTOR , NVS_FLASH_SECTOR + NVS_FLASH_SECTOR_COUNT_MIN ) ;
TEST_ESP_ERR ( nvs_open ( " namespace1 " , NVS_READWRITE , & handle_1 ) , ESP_ERR_NVS_NOT_INITIALIZED ) ;
for ( uint16_t i = NVS_FLASH_SECTOR ; i < NVS_FLASH_SECTOR + NVS_FLASH_SECTOR_COUNT_MIN ; + + i ) {
spi_flash_erase_sector ( i ) ;
}
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TEST_ESP_OK ( nvs_flash_init_custom ( NVS_DEFAULT_PART_NAME , NVS_FLASH_SECTOR , NVS_FLASH_SECTOR_COUNT_MIN ) ) ;
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TEST_ESP_ERR ( nvs_open ( " namespace1 " , NVS_READONLY , & handle_1 ) , ESP_ERR_NVS_NOT_FOUND ) ;
// TEST_ESP_ERR(nvs_set_i32(handle_1, "foo", 0x12345678), ESP_ERR_NVS_READ_ONLY);
// nvs_close(handle_1);
TEST_ESP_OK ( nvs_open ( " namespace1 " , NVS_READWRITE , & handle_1 ) ) ;
TEST_ESP_OK ( nvs_set_i32 ( handle_1 , " foo " , 0x12345678 ) ) ;
TEST_ESP_OK ( nvs_set_i32 ( handle_1 , " foo " , 0x23456789 ) ) ;
nvs_handle handle_2 ;
TEST_ESP_OK ( nvs_open ( " namespace2 " , NVS_READWRITE , & handle_2 ) ) ;
TEST_ESP_OK ( nvs_set_i32 ( handle_2 , " foo " , 0x3456789a ) ) ;
const char * str = " value 0123456789abcdef0123456789abcdef " ;
TEST_ESP_OK ( nvs_set_str ( handle_2 , " key " , str ) ) ;
int32_t v1 ;
TEST_ESP_OK ( nvs_get_i32 ( handle_1 , " foo " , & v1 ) ) ;
CHECK ( 0x23456789 = = v1 ) ;
int32_t v2 ;
TEST_ESP_OK ( nvs_get_i32 ( handle_2 , " foo " , & v2 ) ) ;
CHECK ( 0x3456789a = = v2 ) ;
char buf [ strlen ( str ) + 1 ] ;
size_t buf_len = sizeof ( buf ) ;
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size_t buf_len_needed ;
TEST_ESP_OK ( nvs_get_str ( handle_2 , " key " , NULL , & buf_len_needed ) ) ;
CHECK ( buf_len_needed = = buf_len ) ;
size_t buf_len_short = buf_len - 1 ;
TEST_ESP_ERR ( ESP_ERR_NVS_INVALID_LENGTH , nvs_get_str ( handle_2 , " key " , buf , & buf_len_short ) ) ;
CHECK ( buf_len_short = = buf_len ) ;
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size_t buf_len_long = buf_len + 1 ;
TEST_ESP_OK ( nvs_get_str ( handle_2 , " key " , buf , & buf_len_long ) ) ;
CHECK ( buf_len_long = = buf_len ) ;
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TEST_ESP_OK ( nvs_get_str ( handle_2 , " key " , buf , & buf_len ) ) ;
CHECK ( 0 = = strcmp ( buf , str ) ) ;
}
TEST_CASE ( " wifi test " , " [nvs] " )
{
SpiFlashEmulator emu ( 10 ) ;
emu . randomize ( 10 ) ;
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const uint32_t NVS_FLASH_SECTOR = 5 ;
const uint32_t NVS_FLASH_SECTOR_COUNT_MIN = 3 ;
emu . setBounds ( NVS_FLASH_SECTOR , NVS_FLASH_SECTOR + NVS_FLASH_SECTOR_COUNT_MIN ) ;
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TEST_ESP_OK ( nvs_flash_init_custom ( NVS_DEFAULT_PART_NAME , NVS_FLASH_SECTOR , NVS_FLASH_SECTOR_COUNT_MIN ) ) ;
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nvs_handle misc_handle ;
TEST_ESP_OK ( nvs_open ( " nvs.net80211 " , NVS_READWRITE , & misc_handle ) ) ;
char log [ 33 ] ;
size_t log_size = sizeof ( log ) ;
TEST_ESP_ERR ( nvs_get_str ( misc_handle , " log " , log , & log_size ) , ESP_ERR_NVS_NOT_FOUND ) ;
strcpy ( log , " foobarbazfizzz " ) ;
TEST_ESP_OK ( nvs_set_str ( misc_handle , " log " , log ) ) ;
nvs_handle net80211_handle ;
TEST_ESP_OK ( nvs_open ( " nvs.net80211 " , NVS_READWRITE , & net80211_handle ) ) ;
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uint8_t opmode = 2 ;
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TEST_ESP_ERR ( nvs_get_u8 ( net80211_handle , " wifi.opmode " , & opmode ) , ESP_ERR_NVS_NOT_FOUND ) ;
TEST_ESP_OK ( nvs_set_u8 ( net80211_handle , " wifi.opmode " , opmode ) ) ;
uint8_t country = 0 ;
TEST_ESP_ERR ( nvs_get_u8 ( net80211_handle , " wifi.country " , & opmode ) , ESP_ERR_NVS_NOT_FOUND ) ;
TEST_ESP_OK ( nvs_set_u8 ( net80211_handle , " wifi.country " , opmode ) ) ;
char ssid [ 36 ] ;
size_t size = sizeof ( ssid ) ;
TEST_ESP_ERR ( nvs_get_blob ( net80211_handle , " sta.ssid " , ssid , & size ) , ESP_ERR_NVS_NOT_FOUND ) ;
strcpy ( ssid , " my android AP " ) ;
TEST_ESP_OK ( nvs_set_blob ( net80211_handle , " sta.ssid " , ssid , size ) ) ;
char mac [ 6 ] ;
size = sizeof ( mac ) ;
TEST_ESP_ERR ( nvs_get_blob ( net80211_handle , " sta.mac " , mac , & size ) , ESP_ERR_NVS_NOT_FOUND ) ;
memset ( mac , 0xab , 6 ) ;
TEST_ESP_OK ( nvs_set_blob ( net80211_handle , " sta.mac " , mac , size ) ) ;
uint8_t authmode = 1 ;
TEST_ESP_ERR ( nvs_get_u8 ( net80211_handle , " sta.authmode " , & authmode ) , ESP_ERR_NVS_NOT_FOUND ) ;
TEST_ESP_OK ( nvs_set_u8 ( net80211_handle , " sta.authmode " , authmode ) ) ;
char pswd [ 65 ] ;
size = sizeof ( pswd ) ;
TEST_ESP_ERR ( nvs_get_blob ( net80211_handle , " sta.pswd " , pswd , & size ) , ESP_ERR_NVS_NOT_FOUND ) ;
strcpy ( pswd , " `123456788990-= " ) ;
TEST_ESP_OK ( nvs_set_blob ( net80211_handle , " sta.pswd " , pswd , size ) ) ;
char pmk [ 32 ] ;
size = sizeof ( pmk ) ;
TEST_ESP_ERR ( nvs_get_blob ( net80211_handle , " sta.pmk " , pmk , & size ) , ESP_ERR_NVS_NOT_FOUND ) ;
memset ( pmk , 1 , size ) ;
TEST_ESP_OK ( nvs_set_blob ( net80211_handle , " sta.pmk " , pmk , size ) ) ;
uint8_t chan = 1 ;
TEST_ESP_ERR ( nvs_get_u8 ( net80211_handle , " sta.chan " , & chan ) , ESP_ERR_NVS_NOT_FOUND ) ;
TEST_ESP_OK ( nvs_set_u8 ( net80211_handle , " sta.chan " , chan ) ) ;
uint8_t autoconn = 1 ;
TEST_ESP_ERR ( nvs_get_u8 ( net80211_handle , " auto.conn " , & autoconn ) , ESP_ERR_NVS_NOT_FOUND ) ;
TEST_ESP_OK ( nvs_set_u8 ( net80211_handle , " auto.conn " , autoconn ) ) ;
uint8_t bssid_set = 1 ;
TEST_ESP_ERR ( nvs_get_u8 ( net80211_handle , " bssid.set " , & bssid_set ) , ESP_ERR_NVS_NOT_FOUND ) ;
TEST_ESP_OK ( nvs_set_u8 ( net80211_handle , " bssid.set " , bssid_set ) ) ;
char bssid [ 6 ] ;
size = sizeof ( bssid ) ;
TEST_ESP_ERR ( nvs_get_blob ( net80211_handle , " sta.bssid " , bssid , & size ) , ESP_ERR_NVS_NOT_FOUND ) ;
memset ( mac , 0xcd , 6 ) ;
TEST_ESP_OK ( nvs_set_blob ( net80211_handle , " sta.bssid " , bssid , size ) ) ;
uint8_t phym = 3 ;
TEST_ESP_ERR ( nvs_get_u8 ( net80211_handle , " sta.phym " , & phym ) , ESP_ERR_NVS_NOT_FOUND ) ;
TEST_ESP_OK ( nvs_set_u8 ( net80211_handle , " sta.phym " , phym ) ) ;
uint8_t phybw = 2 ;
TEST_ESP_ERR ( nvs_get_u8 ( net80211_handle , " sta.phybw " , & phybw ) , ESP_ERR_NVS_NOT_FOUND ) ;
TEST_ESP_OK ( nvs_set_u8 ( net80211_handle , " sta.phybw " , phybw ) ) ;
char apsw [ 2 ] ;
size = sizeof ( apsw ) ;
TEST_ESP_ERR ( nvs_get_blob ( net80211_handle , " sta.apsw " , apsw , & size ) , ESP_ERR_NVS_NOT_FOUND ) ;
memset ( apsw , 0x2 , size ) ;
TEST_ESP_OK ( nvs_set_blob ( net80211_handle , " sta.apsw " , apsw , size ) ) ;
char apinfo [ 700 ] ;
size = sizeof ( apinfo ) ;
TEST_ESP_ERR ( nvs_get_blob ( net80211_handle , " sta.apinfo " , apinfo , & size ) , ESP_ERR_NVS_NOT_FOUND ) ;
memset ( apinfo , 0 , size ) ;
TEST_ESP_OK ( nvs_set_blob ( net80211_handle , " sta.apinfo " , apinfo , size ) ) ;
size = sizeof ( ssid ) ;
TEST_ESP_ERR ( nvs_get_blob ( net80211_handle , " ap.ssid " , ssid , & size ) , ESP_ERR_NVS_NOT_FOUND ) ;
strcpy ( ssid , " ESP_A2F340 " ) ;
TEST_ESP_OK ( nvs_set_blob ( net80211_handle , " ap.ssid " , ssid , size ) ) ;
size = sizeof ( mac ) ;
TEST_ESP_ERR ( nvs_get_blob ( net80211_handle , " ap.mac " , mac , & size ) , ESP_ERR_NVS_NOT_FOUND ) ;
memset ( mac , 0xac , 6 ) ;
TEST_ESP_OK ( nvs_set_blob ( net80211_handle , " ap.mac " , mac , size ) ) ;
size = sizeof ( pswd ) ;
TEST_ESP_ERR ( nvs_get_blob ( net80211_handle , " ap.passwd " , pswd , & size ) , ESP_ERR_NVS_NOT_FOUND ) ;
strcpy ( pswd , " " ) ;
TEST_ESP_OK ( nvs_set_blob ( net80211_handle , " ap.passwd " , pswd , size ) ) ;
size = sizeof ( pmk ) ;
TEST_ESP_ERR ( nvs_get_blob ( net80211_handle , " ap.pmk " , pmk , & size ) , ESP_ERR_NVS_NOT_FOUND ) ;
memset ( pmk , 1 , size ) ;
TEST_ESP_OK ( nvs_set_blob ( net80211_handle , " ap.pmk " , pmk , size ) ) ;
chan = 6 ;
TEST_ESP_ERR ( nvs_get_u8 ( net80211_handle , " ap.chan " , & chan ) , ESP_ERR_NVS_NOT_FOUND ) ;
TEST_ESP_OK ( nvs_set_u8 ( net80211_handle , " ap.chan " , chan ) ) ;
authmode = 0 ;
TEST_ESP_ERR ( nvs_get_u8 ( net80211_handle , " ap.authmode " , & authmode ) , ESP_ERR_NVS_NOT_FOUND ) ;
TEST_ESP_OK ( nvs_set_u8 ( net80211_handle , " ap.authmode " , authmode ) ) ;
uint8_t hidden = 0 ;
TEST_ESP_ERR ( nvs_get_u8 ( net80211_handle , " ap.hidden " , & hidden ) , ESP_ERR_NVS_NOT_FOUND ) ;
TEST_ESP_OK ( nvs_set_u8 ( net80211_handle , " ap.hidden " , hidden ) ) ;
uint8_t max_conn = 4 ;
TEST_ESP_ERR ( nvs_get_u8 ( net80211_handle , " ap.max.conn " , & max_conn ) , ESP_ERR_NVS_NOT_FOUND ) ;
TEST_ESP_OK ( nvs_set_u8 ( net80211_handle , " ap.max.conn " , max_conn ) ) ;
uint8_t bcn_interval = 2 ;
TEST_ESP_ERR ( nvs_get_u8 ( net80211_handle , " bcn_interval " , & bcn_interval ) , ESP_ERR_NVS_NOT_FOUND ) ;
TEST_ESP_OK ( nvs_set_u8 ( net80211_handle , " bcn_interval " , bcn_interval ) ) ;
s_perf < < " Time to simulate nvs init with wifi libs: " < < emu . getTotalTime ( ) < < " us ( " < < emu . getEraseOps ( ) < < " E " < < emu . getWriteOps ( ) < < " W " < < emu . getReadOps ( ) < < " R " < < emu . getWriteBytes ( ) < < " Wb " < < emu . getReadBytes ( ) < < " Rb) " < < std : : endl ;
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}
TEST_CASE ( " can init storage from flash with random contents " , " [nvs] " )
{
SpiFlashEmulator emu ( 10 ) ;
emu . randomize ( 42 ) ;
nvs_handle handle ;
const uint32_t NVS_FLASH_SECTOR = 5 ;
const uint32_t NVS_FLASH_SECTOR_COUNT_MIN = 3 ;
emu . setBounds ( NVS_FLASH_SECTOR , NVS_FLASH_SECTOR + NVS_FLASH_SECTOR_COUNT_MIN ) ;
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TEST_ESP_OK ( nvs_flash_init_custom ( NVS_DEFAULT_PART_NAME , NVS_FLASH_SECTOR , NVS_FLASH_SECTOR_COUNT_MIN ) ) ;
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TEST_ESP_OK ( nvs_open ( " nvs.net80211 " , NVS_READWRITE , & handle ) ) ;
uint8_t opmode = 2 ;
if ( nvs_get_u8 ( handle , " wifi.opmode " , & opmode ) ! = ESP_OK ) {
TEST_ESP_OK ( nvs_set_u8 ( handle , " wifi.opmode " , opmode ) ) ;
}
}
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TEST_CASE ( " nvs api tests, starting with random data in flash " , " [nvs][long] " )
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{
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const size_t testIters = 3000 ;
int lastPercent = - 1 ;
for ( size_t count = 0 ; count < testIters ; + + count ) {
int percentDone = ( int ) ( count * 100 / testIters ) ;
if ( percentDone ! = lastPercent ) {
lastPercent = percentDone ;
printf ( " %d%% \n " , percentDone ) ;
}
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SpiFlashEmulator emu ( 10 ) ;
emu . randomize ( static_cast < uint32_t > ( count ) ) ;
const uint32_t NVS_FLASH_SECTOR = 6 ;
const uint32_t NVS_FLASH_SECTOR_COUNT_MIN = 3 ;
emu . setBounds ( NVS_FLASH_SECTOR , NVS_FLASH_SECTOR + NVS_FLASH_SECTOR_COUNT_MIN ) ;
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TEST_ESP_OK ( nvs_flash_init_custom ( NVS_DEFAULT_PART_NAME , NVS_FLASH_SECTOR , NVS_FLASH_SECTOR_COUNT_MIN ) ) ;
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nvs_handle handle_1 ;
TEST_ESP_ERR ( nvs_open ( " namespace1 " , NVS_READONLY , & handle_1 ) , ESP_ERR_NVS_NOT_FOUND ) ;
TEST_ESP_OK ( nvs_open ( " namespace1 " , NVS_READWRITE , & handle_1 ) ) ;
TEST_ESP_OK ( nvs_set_i32 ( handle_1 , " foo " , 0x12345678 ) ) ;
for ( size_t i = 0 ; i < 500 ; + + i ) {
nvs_handle handle_2 ;
TEST_ESP_OK ( nvs_open ( " namespace2 " , NVS_READWRITE , & handle_2 ) ) ;
TEST_ESP_OK ( nvs_set_i32 ( handle_1 , " foo " , 0x23456789 % ( i + 1 ) ) ) ;
TEST_ESP_OK ( nvs_set_i32 ( handle_2 , " foo " , static_cast < int32_t > ( i ) ) ) ;
const char * str = " value 0123456789abcdef0123456789abcdef %09d " ;
char str_buf [ 128 ] ;
snprintf ( str_buf , sizeof ( str_buf ) , str , i + count * 1024 ) ;
TEST_ESP_OK ( nvs_set_str ( handle_2 , " key " , str_buf ) ) ;
int32_t v1 ;
TEST_ESP_OK ( nvs_get_i32 ( handle_1 , " foo " , & v1 ) ) ;
CHECK ( 0x23456789 % ( i + 1 ) = = v1 ) ;
int32_t v2 ;
TEST_ESP_OK ( nvs_get_i32 ( handle_2 , " foo " , & v2 ) ) ;
CHECK ( static_cast < int32_t > ( i ) = = v2 ) ;
char buf [ 128 ] ;
size_t buf_len = sizeof ( buf ) ;
TEST_ESP_OK ( nvs_get_str ( handle_2 , " key " , buf , & buf_len ) ) ;
CHECK ( 0 = = strcmp ( buf , str_buf ) ) ;
nvs_close ( handle_2 ) ;
}
nvs_close ( handle_1 ) ;
}
}
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extern " C " void nvs_dump ( const char * partName ) ;
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class RandomTest {
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static const size_t nKeys = 9 ;
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int32_t v1 = 0 , v2 = 0 ;
uint64_t v3 = 0 , v4 = 0 ;
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static const size_t strBufLen = 1024 ;
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char v5 [ strBufLen ] , v6 [ strBufLen ] , v7 [ strBufLen ] , v8 [ strBufLen ] , v9 [ strBufLen ] ;
bool written [ nKeys ] ;
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public :
RandomTest ( )
{
std : : fill_n ( written , nKeys , false ) ;
}
template < typename TGen >
esp_err_t doRandomThings ( nvs_handle handle , TGen gen , size_t & count ) {
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const char * keys [ ] = { " foo " , " bar " , " longkey_0123456 " , " another key " , " param1 " , " param2 " , " param3 " , " param4 " , " param5 " } ;
const ItemType types [ ] = { ItemType : : I32 , ItemType : : I32 , ItemType : : U64 , ItemType : : U64 , ItemType : : SZ , ItemType : : SZ , ItemType : : SZ , ItemType : : SZ , ItemType : : SZ } ;
void * values [ ] = { & v1 , & v2 , & v3 , & v4 , & v5 , & v6 , & v7 , & v8 , & v9 } ;
const size_t nKeys = sizeof ( keys ) / sizeof ( keys [ 0 ] ) ;
static_assert ( nKeys = = sizeof ( types ) / sizeof ( types [ 0 ] ) , " " ) ;
static_assert ( nKeys = = sizeof ( values ) / sizeof ( values [ 0 ] ) , " " ) ;
auto randomRead = [ & ] ( size_t index ) - > esp_err_t {
switch ( types [ index ] ) {
case ItemType : : I32 :
{
int32_t val ;
auto err = nvs_get_i32 ( handle , keys [ index ] , & val ) ;
if ( err = = ESP_ERR_FLASH_OP_FAIL ) {
return err ;
}
if ( ! written [ index ] ) {
REQUIRE ( err = = ESP_ERR_NVS_NOT_FOUND ) ;
}
else {
REQUIRE ( err = = ESP_OK ) ;
REQUIRE ( val = = * reinterpret_cast < int32_t * > ( values [ index ] ) ) ;
}
break ;
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}
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case ItemType : : U64 :
{
uint64_t val ;
auto err = nvs_get_u64 ( handle , keys [ index ] , & val ) ;
if ( err = = ESP_ERR_FLASH_OP_FAIL ) {
return err ;
}
if ( ! written [ index ] ) {
REQUIRE ( err = = ESP_ERR_NVS_NOT_FOUND ) ;
}
else {
REQUIRE ( err = = ESP_OK ) ;
REQUIRE ( val = = * reinterpret_cast < uint64_t * > ( values [ index ] ) ) ;
}
break ;
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}
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case ItemType : : SZ :
{
char buf [ strBufLen ] ;
size_t len = strBufLen ;
auto err = nvs_get_str ( handle , keys [ index ] , buf , & len ) ;
if ( err = = ESP_ERR_FLASH_OP_FAIL ) {
return err ;
}
if ( ! written [ index ] ) {
REQUIRE ( err = = ESP_ERR_NVS_NOT_FOUND ) ;
}
else {
REQUIRE ( err = = ESP_OK ) ;
REQUIRE ( strncmp ( buf , reinterpret_cast < const char * > ( values [ index ] ) , strBufLen ) = = 0 ) ;
}
break ;
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}
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default :
assert ( 0 ) ;
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}
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return ESP_OK ;
} ;
auto randomWrite = [ & ] ( size_t index ) - > esp_err_t {
switch ( types [ index ] ) {
case ItemType : : I32 :
{
int32_t val = static_cast < int32_t > ( gen ( ) ) ;
auto err = nvs_set_i32 ( handle , keys [ index ] , val ) ;
if ( err = = ESP_ERR_FLASH_OP_FAIL ) {
return err ;
}
if ( err = = ESP_ERR_NVS_REMOVE_FAILED ) {
written [ index ] = true ;
* reinterpret_cast < int32_t * > ( values [ index ] ) = val ;
return ESP_ERR_FLASH_OP_FAIL ;
}
REQUIRE ( err = = ESP_OK ) ;
written [ index ] = true ;
* reinterpret_cast < int32_t * > ( values [ index ] ) = val ;
break ;
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}
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case ItemType : : U64 :
{
uint64_t val = static_cast < uint64_t > ( gen ( ) ) ;
auto err = nvs_set_u64 ( handle , keys [ index ] , val ) ;
if ( err = = ESP_ERR_FLASH_OP_FAIL ) {
return err ;
}
if ( err = = ESP_ERR_NVS_REMOVE_FAILED ) {
written [ index ] = true ;
* reinterpret_cast < uint64_t * > ( values [ index ] ) = val ;
return ESP_ERR_FLASH_OP_FAIL ;
}
REQUIRE ( err = = ESP_OK ) ;
written [ index ] = true ;
* reinterpret_cast < uint64_t * > ( values [ index ] ) = val ;
break ;
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}
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case ItemType : : SZ :
{
char buf [ strBufLen ] ;
size_t len = strBufLen ;
size_t strLen = gen ( ) % ( strBufLen - 1 ) ;
std : : generate_n ( buf , strLen , [ & ] ( ) - > char {
const char c = static_cast < char > ( gen ( ) % 127 ) ;
return ( c < 32 ) ? 32 : c ;
} ) ;
buf [ strLen ] = 0 ;
auto err = nvs_set_str ( handle , keys [ index ] , buf ) ;
if ( err = = ESP_ERR_FLASH_OP_FAIL ) {
return err ;
}
if ( err = = ESP_ERR_NVS_REMOVE_FAILED ) {
written [ index ] = true ;
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strncpy ( reinterpret_cast < char * > ( values [ index ] ) , buf , strBufLen ) ;
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return ESP_ERR_FLASH_OP_FAIL ;
}
REQUIRE ( err = = ESP_OK ) ;
written [ index ] = true ;
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strncpy ( reinterpret_cast < char * > ( values [ index ] ) , buf , strBufLen ) ;
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break ;
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}
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default :
assert ( 0 ) ;
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}
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return ESP_OK ;
} ;
for ( ; count ! = 0 ; - - count ) {
size_t index = gen ( ) % nKeys ;
switch ( gen ( ) % 3 ) {
case 0 : // read, 1/3
if ( randomRead ( index ) = = ESP_ERR_FLASH_OP_FAIL ) {
return ESP_ERR_FLASH_OP_FAIL ;
}
break ;
default : // write, 2/3
if ( randomWrite ( index ) = = ESP_ERR_FLASH_OP_FAIL ) {
return ESP_ERR_FLASH_OP_FAIL ;
}
break ;
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}
}
return ESP_OK ;
}
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} ;
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TEST_CASE ( " monkey test " , " [nvs][monkey] " )
{
std : : random_device rd ;
std : : mt19937 gen ( rd ( ) ) ;
uint32_t seed = 3 ;
gen . seed ( seed ) ;
SpiFlashEmulator emu ( 10 ) ;
emu . randomize ( seed ) ;
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emu . clearStats ( ) ;
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const uint32_t NVS_FLASH_SECTOR = 6 ;
const uint32_t NVS_FLASH_SECTOR_COUNT_MIN = 3 ;
emu . setBounds ( NVS_FLASH_SECTOR , NVS_FLASH_SECTOR + NVS_FLASH_SECTOR_COUNT_MIN ) ;
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TEST_ESP_OK ( nvs_flash_init_custom ( NVS_DEFAULT_PART_NAME , NVS_FLASH_SECTOR , NVS_FLASH_SECTOR_COUNT_MIN ) ) ;
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nvs_handle handle ;
TEST_ESP_OK ( nvs_open ( " namespace1 " , NVS_READWRITE , & handle ) ) ;
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RandomTest test ;
size_t count = 1000 ;
CHECK ( test . doRandomThings ( handle , gen , count ) = = ESP_OK ) ;
s_perf < < " Monkey test: nErase= " < < emu . getEraseOps ( ) < < " nWrite= " < < emu . getWriteOps ( ) < < std : : endl ;
}
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TEST_CASE ( " test recovery from sudden poweroff " , " [long][nvs][recovery][monkey] " )
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{
std : : random_device rd ;
std : : mt19937 gen ( rd ( ) ) ;
uint32_t seed = 3 ;
gen . seed ( seed ) ;
const size_t iter_count = 2000 ;
SpiFlashEmulator emu ( 10 ) ;
const uint32_t NVS_FLASH_SECTOR = 6 ;
const uint32_t NVS_FLASH_SECTOR_COUNT_MIN = 3 ;
emu . setBounds ( NVS_FLASH_SECTOR , NVS_FLASH_SECTOR + NVS_FLASH_SECTOR_COUNT_MIN ) ;
size_t totalOps = 0 ;
int lastPercent = - 1 ;
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for ( uint32_t errDelay = 0 ; ; + + errDelay ) {
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INFO ( errDelay ) ;
emu . randomize ( seed ) ;
emu . clearStats ( ) ;
emu . failAfter ( errDelay ) ;
RandomTest test ;
if ( totalOps ! = 0 ) {
int percent = errDelay * 100 / totalOps ;
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if ( percent > lastPercent ) {
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printf ( " %d/%d (%d%%) \r \n " , errDelay , static_cast < int > ( totalOps ) , percent ) ;
lastPercent = percent ;
}
}
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nvs_handle handle ;
size_t count = iter_count ;
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if ( nvs_flash_init_custom ( NVS_DEFAULT_PART_NAME , NVS_FLASH_SECTOR , NVS_FLASH_SECTOR_COUNT_MIN ) = = ESP_OK ) {
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if ( nvs_open ( " namespace1 " , NVS_READWRITE , & handle ) = = ESP_OK ) {
if ( test . doRandomThings ( handle , gen , count ) ! = ESP_ERR_FLASH_OP_FAIL ) {
nvs_close ( handle ) ;
break ;
}
nvs_close ( handle ) ;
}
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}
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TEST_ESP_OK ( nvs_flash_init_custom ( NVS_DEFAULT_PART_NAME , NVS_FLASH_SECTOR , NVS_FLASH_SECTOR_COUNT_MIN ) ) ;
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TEST_ESP_OK ( nvs_open ( " namespace1 " , NVS_READWRITE , & handle ) ) ;
auto res = test . doRandomThings ( handle , gen , count ) ;
if ( res ! = ESP_OK ) {
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nvs_dump ( NVS_DEFAULT_PART_NAME ) ;
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CHECK ( 0 ) ;
}
nvs_close ( handle ) ;
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totalOps = emu . getEraseOps ( ) + emu . getWriteBytes ( ) / 4 ;
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}
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}
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TEST_CASE ( " test for memory leaks in open/set " , " [leaks] " )
{
SpiFlashEmulator emu ( 10 ) ;
const uint32_t NVS_FLASH_SECTOR = 6 ;
const uint32_t NVS_FLASH_SECTOR_COUNT_MIN = 3 ;
emu . setBounds ( NVS_FLASH_SECTOR , NVS_FLASH_SECTOR + NVS_FLASH_SECTOR_COUNT_MIN ) ;
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TEST_ESP_OK ( nvs_flash_init_custom ( NVS_DEFAULT_PART_NAME , NVS_FLASH_SECTOR , NVS_FLASH_SECTOR_COUNT_MIN ) ) ;
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for ( int i = 0 ; i < 100000 ; + + i ) {
nvs_handle light_handle = 0 ;
char lightbulb [ 1024 ] = { 12 , 13 , 14 , 15 , 16 } ;
TEST_ESP_OK ( nvs_open ( " light " , NVS_READWRITE , & light_handle ) ) ;
TEST_ESP_OK ( nvs_set_blob ( light_handle , " key " , lightbulb , sizeof ( lightbulb ) ) ) ;
TEST_ESP_OK ( nvs_commit ( light_handle ) ) ;
nvs_close ( light_handle ) ;
}
}
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TEST_CASE ( " duplicate items are removed " , " [nvs][dupes] " )
{
SpiFlashEmulator emu ( 3 ) ;
{
// create one item
nvs : : Page p ;
p . load ( 0 ) ;
p . writeItem < uint8_t > ( 1 , " opmode " , 3 ) ;
}
{
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// add another two without deleting the first one
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nvs : : Item item ( 1 , ItemType : : U8 , 1 , " opmode " ) ;
item . data [ 0 ] = 2 ;
item . crc32 = item . calculateCrc32 ( ) ;
emu . write ( 3 * 32 , reinterpret_cast < const uint32_t * > ( & item ) , sizeof ( item ) ) ;
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emu . write ( 4 * 32 , reinterpret_cast < const uint32_t * > ( & item ) , sizeof ( item ) ) ;
uint32_t mask = 0xFFFFFFEA ;
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emu . write ( 32 , & mask , 4 ) ;
}
{
// load page and check that second item persists
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nvs : : Storage s ;
s . init ( 0 , 3 ) ;
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uint8_t val ;
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ESP_ERROR_CHECK ( s . readItem ( 1 , " opmode " , val ) ) ;
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CHECK ( val = = 2 ) ;
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}
{
Page p ;
p . load ( 0 ) ;
CHECK ( p . getErasedEntryCount ( ) = = 2 ) ;
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CHECK ( p . getUsedEntryCount ( ) = = 1 ) ;
}
}
TEST_CASE ( " recovery after failure to write data " , " [nvs] " )
{
SpiFlashEmulator emu ( 3 ) ;
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const char str [ ] = " value 0123456789abcdef012345678value 0123456789abcdef012345678 " ;
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// make flash write fail exactly in Page::writeEntryData
emu . failAfter ( 17 ) ;
{
Storage storage ;
TEST_ESP_OK ( storage . init ( 0 , 3 ) ) ;
TEST_ESP_ERR ( storage . writeItem ( 1 , ItemType : : SZ , " key " , str , strlen ( str ) ) , ESP_ERR_FLASH_OP_FAIL ) ;
// check that repeated operations cause an error
TEST_ESP_ERR ( storage . writeItem ( 1 , ItemType : : SZ , " key " , str , strlen ( str ) ) , ESP_ERR_NVS_INVALID_STATE ) ;
uint8_t val ;
TEST_ESP_ERR ( storage . readItem ( 1 , ItemType : : U8 , " key " , & val , sizeof ( val ) ) , ESP_ERR_NVS_NOT_FOUND ) ;
}
{
// load page and check that data was erased
Page p ;
p . load ( 0 ) ;
CHECK ( p . getErasedEntryCount ( ) = = 3 ) ;
CHECK ( p . getUsedEntryCount ( ) = = 0 ) ;
// try to write again
TEST_ESP_OK ( p . writeItem ( 1 , ItemType : : SZ , " key " , str , strlen ( str ) ) ) ;
}
}
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TEST_CASE ( " crc errors in item header are handled " , " [nvs] " )
{
SpiFlashEmulator emu ( 3 ) ;
Storage storage ;
// prepare some data
TEST_ESP_OK ( storage . init ( 0 , 3 ) ) ;
TEST_ESP_OK ( storage . writeItem ( 0 , " ns1 " , static_cast < uint8_t > ( 1 ) ) ) ;
TEST_ESP_OK ( storage . writeItem ( 1 , " value1 " , static_cast < uint32_t > ( 1 ) ) ) ;
TEST_ESP_OK ( storage . writeItem ( 1 , " value2 " , static_cast < uint32_t > ( 2 ) ) ) ;
// corrupt item header
uint32_t val = 0 ;
emu . write ( 32 * 3 , & val , 4 ) ;
// check that storage can recover
TEST_ESP_OK ( storage . init ( 0 , 3 ) ) ;
TEST_ESP_OK ( storage . readItem ( 1 , " value2 " , val ) ) ;
CHECK ( val = = 2 ) ;
// check that the corrupted item is no longer present
TEST_ESP_ERR ( ESP_ERR_NVS_NOT_FOUND , storage . readItem ( 1 , " value1 " , val ) ) ;
// add more items to make the page full
for ( size_t i = 0 ; i < Page : : ENTRY_COUNT ; + + i ) {
char item_name [ Item : : MAX_KEY_LENGTH + 1 ] ;
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snprintf ( item_name , sizeof ( item_name ) , " item_%ld " , ( long int ) i ) ;
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TEST_ESP_OK ( storage . writeItem ( 1 , item_name , static_cast < uint32_t > ( i ) ) ) ;
}
// corrupt another item on the full page
val = 0 ;
emu . write ( 32 * 4 , & val , 4 ) ;
// check that storage can recover
TEST_ESP_OK ( storage . init ( 0 , 3 ) ) ;
// check that the corrupted item is no longer present
TEST_ESP_ERR ( ESP_ERR_NVS_NOT_FOUND , storage . readItem ( 1 , " value2 " , val ) ) ;
}
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TEST_CASE ( " crc error in variable length item is handled " , " [nvs] " )
{
SpiFlashEmulator emu ( 3 ) ;
const uint64_t before_val = 0xbef04e ;
const uint64_t after_val = 0xaf7e4 ;
// write some data
{
Page p ;
p . load ( 0 ) ;
TEST_ESP_OK ( p . writeItem < uint64_t > ( 0 , " before " , before_val ) ) ;
const char * str = " foobar " ;
TEST_ESP_OK ( p . writeItem ( 0 , ItemType : : SZ , " key " , str , strlen ( str ) ) ) ;
TEST_ESP_OK ( p . writeItem < uint64_t > ( 0 , " after " , after_val ) ) ;
}
// corrupt some data
uint32_t w ;
CHECK ( emu . read ( & w , 32 * 3 + 8 , sizeof ( w ) ) ) ;
w & = 0xf000000f ;
CHECK ( emu . write ( 32 * 3 + 8 , & w , sizeof ( w ) ) ) ;
// load and check
{
Page p ;
p . load ( 0 ) ;
CHECK ( p . getUsedEntryCount ( ) = = 2 ) ;
CHECK ( p . getErasedEntryCount ( ) = = 2 ) ;
uint64_t val ;
TEST_ESP_OK ( p . readItem < uint64_t > ( 0 , " before " , val ) ) ;
CHECK ( val = = before_val ) ;
TEST_ESP_ERR ( p . findItem ( 0 , ItemType : : SZ , " key " ) , ESP_ERR_NVS_NOT_FOUND ) ;
TEST_ESP_OK ( p . readItem < uint64_t > ( 0 , " after " , val ) ) ;
CHECK ( val = = after_val ) ;
}
}
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TEST_CASE ( " read/write failure (TW8406) " , " [nvs] " )
{
SpiFlashEmulator emu ( 3 ) ;
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nvs_flash_init_custom ( NVS_DEFAULT_PART_NAME , 0 , 3 ) ;
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for ( int attempts = 0 ; attempts < 3 ; + + attempts ) {
int i = 0 ;
nvs_handle light_handle = 0 ;
char key [ 15 ] = { 0 } ;
char data [ 76 ] = { 12 , 13 , 14 , 15 , 16 } ;
uint8_t number = 20 ;
size_t data_len = sizeof ( data ) ;
ESP_ERROR_CHECK ( nvs_open ( " LIGHT " , NVS_READWRITE , & light_handle ) ) ;
ESP_ERROR_CHECK ( nvs_set_u8 ( light_handle , " RecordNum " , number ) ) ;
for ( i = 0 ; i < number ; + + i ) {
sprintf ( key , " light%d " , i ) ;
ESP_ERROR_CHECK ( nvs_set_blob ( light_handle , key , data , sizeof ( data ) ) ) ;
}
nvs_commit ( light_handle ) ;
uint8_t get_number = 0 ;
ESP_ERROR_CHECK ( nvs_get_u8 ( light_handle , " RecordNum " , & get_number ) ) ;
REQUIRE ( number = = get_number ) ;
for ( i = 0 ; i < number ; + + i ) {
char data [ 76 ] = { 0 } ;
sprintf ( key , " light%d " , i ) ;
ESP_ERROR_CHECK ( nvs_get_blob ( light_handle , key , data , & data_len ) ) ;
}
nvs_close ( light_handle ) ;
}
}
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TEST_CASE ( " nvs_flash_init checks for an empty page " , " [nvs] " )
{
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const size_t blob_size = Page : : BLOB_MAX_SIZE ;
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uint8_t blob [ blob_size ] = { 0 } ;
SpiFlashEmulator emu ( 5 ) ;
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TEST_ESP_OK ( nvs_flash_init_custom ( NVS_DEFAULT_PART_NAME , 0 , 5 ) ) ;
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nvs_handle handle ;
TEST_ESP_OK ( nvs_open ( " test " , NVS_READWRITE , & handle ) ) ;
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// Fill first page
TEST_ESP_OK ( nvs_set_blob ( handle , " 1a " , blob , blob_size ) ) ;
TEST_ESP_OK ( nvs_set_blob ( handle , " 1b " , blob , blob_size ) ) ;
// Fill second page
TEST_ESP_OK ( nvs_set_blob ( handle , " 2a " , blob , blob_size ) ) ;
TEST_ESP_OK ( nvs_set_blob ( handle , " 2b " , blob , blob_size ) ) ;
// Fill third page
TEST_ESP_OK ( nvs_set_blob ( handle , " 3a " , blob , blob_size ) ) ;
TEST_ESP_OK ( nvs_set_blob ( handle , " 3b " , blob , blob_size ) ) ;
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TEST_ESP_OK ( nvs_commit ( handle ) ) ;
nvs_close ( handle ) ;
// first two pages are now full, third one is writable, last two are empty
// init should fail
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TEST_ESP_ERR ( nvs_flash_init_custom ( NVS_DEFAULT_PART_NAME , 0 , 3 ) , ESP_ERR_NVS_NO_FREE_PAGES ) ;
}
TEST_CASE ( " multiple partitions access check " , " [nvs] " )
{
SpiFlashEmulator emu ( 10 ) ;
TEST_ESP_OK ( nvs_flash_init_custom ( " nvs1 " , 0 , 5 ) ) ;
TEST_ESP_OK ( nvs_flash_init_custom ( " nvs2 " , 5 , 5 ) ) ;
nvs_handle handle1 , handle2 ;
TEST_ESP_OK ( nvs_open_from_partition ( " nvs1 " , " test " , NVS_READWRITE , & handle1 ) ) ;
TEST_ESP_OK ( nvs_open_from_partition ( " nvs2 " , " test " , NVS_READWRITE , & handle2 ) ) ;
TEST_ESP_OK ( nvs_set_i32 ( handle1 , " foo " , 0xdeadbeef ) ) ;
TEST_ESP_OK ( nvs_set_i32 ( handle2 , " foo " , 0xcafebabe ) ) ;
int32_t v1 , v2 ;
TEST_ESP_OK ( nvs_get_i32 ( handle1 , " foo " , & v1 ) ) ;
TEST_ESP_OK ( nvs_get_i32 ( handle2 , " foo " , & v2 ) ) ;
CHECK ( v1 = = 0xdeadbeef ) ;
CHECK ( v2 = = 0xcafebabe ) ;
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}
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TEST_CASE ( " nvs page selection takes into account free entries also not just erased entries " , " [nvs] " )
{
const size_t blob_size = Page : : BLOB_MAX_SIZE ;
uint8_t blob [ blob_size ] = { 0 } ;
SpiFlashEmulator emu ( 3 ) ;
TEST_ESP_OK ( nvs_flash_init_custom ( NVS_DEFAULT_PART_NAME , 0 , 3 ) ) ;
nvs_handle handle ;
TEST_ESP_OK ( nvs_open ( " test " , NVS_READWRITE , & handle ) ) ;
// Fill first page
TEST_ESP_OK ( nvs_set_blob ( handle , " 1a " , blob , blob_size / 3 ) ) ;
TEST_ESP_OK ( nvs_set_blob ( handle , " 1b " , blob , blob_size ) ) ;
// Fill second page
TEST_ESP_OK ( nvs_set_blob ( handle , " 2a " , blob , blob_size ) ) ;
TEST_ESP_OK ( nvs_set_blob ( handle , " 2b " , blob , blob_size ) ) ;
// The item below should be able to fit the first page.
TEST_ESP_OK ( nvs_set_blob ( handle , " 3a " , blob , 4 ) ) ;
TEST_ESP_OK ( nvs_commit ( handle ) ) ;
nvs_close ( handle ) ;
}
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TEST_CASE ( " calculate used and free space " , " [nvs] " )
{
SpiFlashEmulator emu ( 6 ) ;
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nvs_flash_deinit ( ) ;
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TEST_ESP_ERR ( nvs_get_stats ( NULL , NULL ) , ESP_ERR_INVALID_ARG ) ;
nvs_stats_t stat1 ;
nvs_stats_t stat2 ;
TEST_ESP_ERR ( nvs_get_stats ( NULL , & stat1 ) , ESP_ERR_NVS_NOT_INITIALIZED ) ;
CHECK ( stat1 . free_entries = = 0 ) ;
CHECK ( stat1 . namespace_count = = 0 ) ;
CHECK ( stat1 . total_entries = = 0 ) ;
CHECK ( stat1 . used_entries = = 0 ) ;
nvs_handle handle = 0 ;
size_t h_count_entries ;
TEST_ESP_ERR ( nvs_get_used_entry_count ( handle , & h_count_entries ) , ESP_ERR_NVS_INVALID_HANDLE ) ;
CHECK ( h_count_entries = = 0 ) ;
// init nvs
TEST_ESP_OK ( nvs_flash_init_custom ( NVS_DEFAULT_PART_NAME , 0 , 6 ) ) ;
TEST_ESP_ERR ( nvs_get_used_entry_count ( handle , & h_count_entries ) , ESP_ERR_NVS_INVALID_HANDLE ) ;
CHECK ( h_count_entries = = 0 ) ;
Page p ;
// after erase. empty partition
TEST_ESP_OK ( nvs_get_stats ( NULL , & stat1 ) ) ;
CHECK ( stat1 . free_entries ! = 0 ) ;
CHECK ( stat1 . namespace_count = = 0 ) ;
CHECK ( stat1 . total_entries = = 6 * p . ENTRY_COUNT ) ;
CHECK ( stat1 . used_entries = = 0 ) ;
// create namespace test_k1
nvs_handle handle_1 ;
TEST_ESP_OK ( nvs_open ( " test_k1 " , NVS_READWRITE , & handle_1 ) ) ;
TEST_ESP_OK ( nvs_get_stats ( NULL , & stat2 ) ) ;
CHECK ( stat2 . free_entries + 1 = = stat1 . free_entries ) ;
CHECK ( stat2 . namespace_count = = 1 ) ;
CHECK ( stat2 . total_entries = = stat1 . total_entries ) ;
CHECK ( stat2 . used_entries = = 1 ) ;
// create pair key-value com
TEST_ESP_OK ( nvs_set_i32 ( handle_1 , " com " , 0x12345678 ) ) ;
TEST_ESP_OK ( nvs_get_stats ( NULL , & stat1 ) ) ;
CHECK ( stat1 . free_entries + 1 = = stat2 . free_entries ) ;
CHECK ( stat1 . namespace_count = = 1 ) ;
CHECK ( stat1 . total_entries = = stat2 . total_entries ) ;
CHECK ( stat1 . used_entries = = 2 ) ;
// change value in com
TEST_ESP_OK ( nvs_set_i32 ( handle_1 , " com " , 0x01234567 ) ) ;
TEST_ESP_OK ( nvs_get_stats ( NULL , & stat2 ) ) ;
CHECK ( stat2 . free_entries = = stat1 . free_entries ) ;
CHECK ( stat2 . namespace_count = = 1 ) ;
CHECK ( stat2 . total_entries ! = 0 ) ;
CHECK ( stat2 . used_entries = = 2 ) ;
// create pair key-value ru
TEST_ESP_OK ( nvs_set_i32 ( handle_1 , " ru " , 0x00FF00FF ) ) ;
TEST_ESP_OK ( nvs_get_stats ( NULL , & stat1 ) ) ;
CHECK ( stat1 . free_entries + 1 = = stat2 . free_entries ) ;
CHECK ( stat1 . namespace_count = = 1 ) ;
CHECK ( stat1 . total_entries ! = 0 ) ;
CHECK ( stat1 . used_entries = = 3 ) ;
// amount valid pair in namespace 1
size_t h1_count_entries ;
TEST_ESP_OK ( nvs_get_used_entry_count ( handle_1 , & h1_count_entries ) ) ;
CHECK ( h1_count_entries = = 2 ) ;
nvs_handle handle_2 ;
// create namespace test_k2
TEST_ESP_OK ( nvs_open ( " test_k2 " , NVS_READWRITE , & handle_2 ) ) ;
TEST_ESP_OK ( nvs_get_stats ( NULL , & stat2 ) ) ;
CHECK ( stat2 . free_entries + 1 = = stat1 . free_entries ) ;
CHECK ( stat2 . namespace_count = = 2 ) ;
CHECK ( stat2 . total_entries = = stat1 . total_entries ) ;
CHECK ( stat2 . used_entries = = 4 ) ;
// create pair key-value
TEST_ESP_OK ( nvs_set_i32 ( handle_2 , " su1 " , 0x00000001 ) ) ;
TEST_ESP_OK ( nvs_set_i32 ( handle_2 , " su2 " , 0x00000002 ) ) ;
TEST_ESP_OK ( nvs_set_i32 ( handle_2 , " sus " , 0x00000003 ) ) ;
TEST_ESP_OK ( nvs_get_stats ( NULL , & stat1 ) ) ;
CHECK ( stat1 . free_entries + 3 = = stat2 . free_entries ) ;
CHECK ( stat1 . namespace_count = = 2 ) ;
CHECK ( stat1 . total_entries = = stat2 . total_entries ) ;
CHECK ( stat1 . used_entries = = 7 ) ;
CHECK ( stat1 . total_entries = = ( stat1 . used_entries + stat1 . free_entries ) ) ;
// amount valid pair in namespace 2
size_t h2_count_entries ;
TEST_ESP_OK ( nvs_get_used_entry_count ( handle_2 , & h2_count_entries ) ) ;
CHECK ( h2_count_entries = = 3 ) ;
CHECK ( stat1 . used_entries = = ( h1_count_entries + h2_count_entries + stat1 . namespace_count ) ) ;
nvs_close ( handle_1 ) ;
nvs_close ( handle_2 ) ;
size_t temp = h2_count_entries ;
TEST_ESP_ERR ( nvs_get_used_entry_count ( handle_1 , & h2_count_entries ) , ESP_ERR_NVS_INVALID_HANDLE ) ;
CHECK ( h2_count_entries = = 0 ) ;
h2_count_entries = temp ;
TEST_ESP_ERR ( nvs_get_used_entry_count ( handle_1 , NULL ) , ESP_ERR_INVALID_ARG ) ;
nvs_handle handle_3 ;
// create namespace test_k3
TEST_ESP_OK ( nvs_open ( " test_k3 " , NVS_READWRITE , & handle_3 ) ) ;
TEST_ESP_OK ( nvs_get_stats ( NULL , & stat2 ) ) ;
CHECK ( stat2 . free_entries + 1 = = stat1 . free_entries ) ;
CHECK ( stat2 . namespace_count = = 3 ) ;
CHECK ( stat2 . total_entries = = stat1 . total_entries ) ;
CHECK ( stat2 . used_entries = = 8 ) ;
// create pair blobs
uint32_t blob [ 12 ] ;
TEST_ESP_OK ( nvs_set_blob ( handle_3 , " bl1 " , & blob , sizeof ( blob ) ) ) ;
TEST_ESP_OK ( nvs_get_stats ( NULL , & stat1 ) ) ;
CHECK ( stat1 . free_entries + 3 = = stat2 . free_entries ) ;
CHECK ( stat1 . namespace_count = = 3 ) ;
CHECK ( stat1 . total_entries = = stat2 . total_entries ) ;
CHECK ( stat1 . used_entries = = 11 ) ;
// amount valid pair in namespace 2
size_t h3_count_entries ;
TEST_ESP_OK ( nvs_get_used_entry_count ( handle_3 , & h3_count_entries ) ) ;
CHECK ( h3_count_entries = = 3 ) ;
CHECK ( stat1 . used_entries = = ( h1_count_entries + h2_count_entries + h3_count_entries + stat1 . namespace_count ) ) ;
nvs_close ( handle_3 ) ;
}
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TEST_CASE ( " Recovery from power-off when the entry being erased is not on active page " , " [nvs] " )
{
const size_t blob_size = Page : : BLOB_MAX_SIZE ;
size_t read_size = blob_size ;
uint8_t blob [ blob_size ] = { 0x11 } ;
SpiFlashEmulator emu ( 3 ) ;
TEST_ESP_OK ( nvs_flash_init_custom ( NVS_DEFAULT_PART_NAME , 0 , 3 ) ) ;
nvs_handle handle ;
TEST_ESP_OK ( nvs_open ( " test " , NVS_READWRITE , & handle ) ) ;
emu . clearStats ( ) ;
emu . failAfter ( 2 * Page : : BLOB_MAX_SIZE / 4 + 36 ) ;
TEST_ESP_OK ( nvs_set_blob ( handle , " 1a " , blob , blob_size ) ) ;
TEST_ESP_OK ( nvs_set_blob ( handle , " 1b " , blob , blob_size ) ) ;
TEST_ESP_ERR ( nvs_erase_key ( handle , " 1a " ) , ESP_ERR_FLASH_OP_FAIL ) ;
TEST_ESP_OK ( nvs_flash_init_custom ( NVS_DEFAULT_PART_NAME , 0 , 3 ) ) ;
/* Check 1a is erased fully*/
TEST_ESP_ERR ( nvs_get_blob ( handle , " 1a " , blob , & read_size ) , ESP_ERR_NVS_NOT_FOUND ) ;
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/* Check 2b is still accessible*/
TEST_ESP_OK ( nvs_get_blob ( handle , " 1b " , blob , & read_size ) ) ;
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nvs_close ( handle ) ;
}
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TEST_CASE ( " Recovery from power-off when page is being freed. " , " [nvs] " )
{
const size_t blob_size = ( Page : : ENTRY_COUNT - 3 ) * Page : : ENTRY_SIZE ;
size_t read_size = blob_size / 2 ;
uint8_t blob [ blob_size ] = { 0 } ;
SpiFlashEmulator emu ( 3 ) ;
TEST_ESP_OK ( nvs_flash_init_custom ( NVS_DEFAULT_PART_NAME , 0 , 3 ) ) ;
nvs_handle handle ;
TEST_ESP_OK ( nvs_open ( " test " , NVS_READWRITE , & handle ) ) ;
// Fill first page
TEST_ESP_OK ( nvs_set_blob ( handle , " 1a " , blob , blob_size / 3 ) ) ;
TEST_ESP_OK ( nvs_set_blob ( handle , " 1b " , blob , blob_size / 3 ) ) ;
TEST_ESP_OK ( nvs_set_blob ( handle , " 1c " , blob , blob_size / 4 ) ) ;
// Fill second page
TEST_ESP_OK ( nvs_set_blob ( handle , " 2a " , blob , blob_size / 2 ) ) ;
TEST_ESP_OK ( nvs_set_blob ( handle , " 2b " , blob , blob_size / 2 ) ) ;
TEST_ESP_OK ( nvs_erase_key ( handle , " 1c " ) ) ;
emu . clearStats ( ) ;
emu . failAfter ( 6 * Page : : ENTRY_COUNT ) ;
TEST_ESP_ERR ( nvs_set_blob ( handle , " 1d " , blob , blob_size / 4 ) , ESP_ERR_FLASH_OP_FAIL ) ;
TEST_ESP_OK ( nvs_flash_init_custom ( NVS_DEFAULT_PART_NAME , 0 , 3 ) ) ;
read_size = blob_size / 3 ;
TEST_ESP_OK ( nvs_get_blob ( handle , " 1a " , blob , & read_size ) ) ;
TEST_ESP_OK ( nvs_get_blob ( handle , " 1b " , blob , & read_size ) ) ;
read_size = blob_size / 4 ;
TEST_ESP_ERR ( nvs_get_blob ( handle , " 1c " , blob , & read_size ) , ESP_ERR_NVS_NOT_FOUND ) ;
TEST_ESP_ERR ( nvs_get_blob ( handle , " 1d " , blob , & read_size ) , ESP_ERR_NVS_NOT_FOUND ) ;
read_size = blob_size / 2 ;
TEST_ESP_OK ( nvs_get_blob ( handle , " 2a " , blob , & read_size ) ) ;
TEST_ESP_OK ( nvs_get_blob ( handle , " 2b " , blob , & read_size ) ) ;
TEST_ESP_OK ( nvs_commit ( handle ) ) ;
nvs_close ( handle ) ;
}
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/* Add new tests above */
/* This test has to be the final one */
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TEST_CASE ( " check partition generation utility " , " [nvs_part_gen] " )
{
int childpid = fork ( ) ;
if ( childpid = = 0 ) {
exit ( execlp ( " python " , " python " ,
" ../nvs_partition_generator/nvs_partition_gen.py " ,
" ../nvs_partition_generator/sample.csv " ,
" ../nvs_partition_generator/partition.bin " , NULL ) ) ;
} else {
CHECK ( childpid > 0 ) ;
int status ;
waitpid ( childpid , & status , 0 ) ;
CHECK ( WEXITSTATUS ( status ) ! = - 1 ) ;
}
}
TEST_CASE ( " read data from partition generated via partition generation utility " , " [nvs_part_gen] " )
{
SpiFlashEmulator emu ( " ../nvs_partition_generator/partition.bin " ) ;
nvs_handle handle ;
TEST_ESP_OK ( nvs_flash_init_custom ( " test " , 0 , 2 ) ) ;
TEST_ESP_OK ( nvs_open_from_partition ( " test " , " dummyNamespace " , NVS_READONLY , & handle ) ) ;
uint8_t u8v ;
TEST_ESP_OK ( nvs_get_u8 ( handle , " dummyU8Key " , & u8v ) ) ;
CHECK ( u8v = = 127 ) ;
int8_t i8v ;
TEST_ESP_OK ( nvs_get_i8 ( handle , " dummyI8Key " , & i8v ) ) ;
CHECK ( i8v = = - 128 ) ;
uint16_t u16v ;
TEST_ESP_OK ( nvs_get_u16 ( handle , " dummyU16Key " , & u16v ) ) ;
CHECK ( u16v = = 32768 ) ;
uint32_t u32v ;
TEST_ESP_OK ( nvs_get_u32 ( handle , " dummyU32Key " , & u32v ) ) ;
CHECK ( u32v = = 4294967295 ) ;
int32_t i32v ;
TEST_ESP_OK ( nvs_get_i32 ( handle , " dummyI32Key " , & i32v ) ) ;
CHECK ( i32v = = - 2147483648 ) ;
char buf [ 64 ] = { 0 } ;
size_t buflen = 64 ;
TEST_ESP_OK ( nvs_get_str ( handle , " dummyStringKey " , buf , & buflen ) ) ;
CHECK ( strncmp ( buf , " 0A:0B:0C:0D:0E:0F " , buflen ) = = 0 ) ;
buflen = 64 ;
uint8_t hexdata [ ] = { 0x01 , 0x02 , 0x03 , 0xab , 0xcd , 0xef } ;
TEST_ESP_OK ( nvs_get_blob ( handle , " dummyHex2BinKey " , buf , & buflen ) ) ;
CHECK ( memcmp ( buf , hexdata , buflen ) = = 0 ) ;
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uint8_t base64data [ ] = { ' 1 ' , ' 2 ' , ' 3 ' , ' a ' , ' b ' , ' c ' } ;
TEST_ESP_OK ( nvs_get_blob ( handle , " dummyBase64Key " , buf , & buflen ) ) ;
CHECK ( memcmp ( buf , base64data , buflen ) = = 0 ) ;
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}
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TEST_CASE ( " dump all performance data " , " [nvs] " )
{
std : : cout < < " ==================== " < < std : : endl < < " Dumping benchmarks " < < std : : endl ;
std : : cout < < s_perf . str ( ) < < std : : endl ;
std : : cout < < " ==================== " < < std : : endl ;
}