mirror of
https://github.com/espressif/esp-idf.git
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6d0d2366f7
The commit fixes the case: If variables in RTC RAM have been moved around by the linker, they will be filled with garbage data. Any reset other than OTA would work fine because the variables would still be initialized from the initial bootup. So now system time will be valid even after OTA. Closes https://github.com/espressif/esp-idf/issues/9448
155 lines
8.1 KiB
C
155 lines
8.1 KiB
C
/*
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* SPDX-FileCopyrightText: 2010-2021 Espressif Systems (Shanghai) CO LTD
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*
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* SPDX-License-Identifier: Apache-2.0
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*/
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#include <stdlib.h>
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#include <stdint.h>
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#include "sdkconfig.h"
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#include "soc/soc.h"
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#include "soc/tracemem_config.h"
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#include "heap_memory_layout.h"
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#include "esp_heap_caps.h"
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/* Memory layout for ESP32 SoC */
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/*
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Memory type descriptors. These describe the capabilities of a type of memory in the SoC. Each type of memory
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map consist of one or more regions in the address space.
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Each type contains an array of prioritised capabilities; types with later entries are only taken if earlier
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ones can't fulfill the memory request.
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The prioritised capabilities work roughly like this:
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- For a normal malloc (MALLOC_CAP_DEFAULT), give away the DRAM-only memory first, then pass off any dual-use IRAM regions,
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finally eat into the application memory.
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- For a malloc where 32-bit-aligned-only access is okay, first allocate IRAM, then DRAM, finally application IRAM.
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- Application mallocs (PIDx) will allocate IRAM first, if possible, then DRAM.
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- Most other malloc caps only fit in one region anyway.
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*/
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const soc_memory_type_desc_t soc_memory_types[] = {
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//Type 0: DRAM
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{ "DRAM", { MALLOC_CAP_8BIT|MALLOC_CAP_DEFAULT, MALLOC_CAP_INTERNAL|MALLOC_CAP_DMA|MALLOC_CAP_32BIT, 0 }, false, false},
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// Type 1: DRAM used for startup stacks
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{ "DRAM", { MALLOC_CAP_8BIT|MALLOC_CAP_DEFAULT, MALLOC_CAP_INTERNAL|MALLOC_CAP_DMA|MALLOC_CAP_32BIT, 0 }, false, true},
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//Type 2: DRAM which has an alias on the I-port
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{ "D/IRAM", { 0, MALLOC_CAP_DMA|MALLOC_CAP_8BIT|MALLOC_CAP_INTERNAL|MALLOC_CAP_DEFAULT, MALLOC_CAP_32BIT|MALLOC_CAP_EXEC }, true, false},
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//Type 3: IRAM
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//In ESP32S2, All IRAM region are available by D-port (D/IRAM).
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{ "IRAM", { MALLOC_CAP_EXEC|MALLOC_CAP_32BIT|MALLOC_CAP_INTERNAL, 0, 0 }, false, false},
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//Type 4: SPI SRAM data
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//TODO, in fact, part of them support EDMA, to be supported.
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{ "SPIRAM", { MALLOC_CAP_SPIRAM|MALLOC_CAP_DEFAULT, 0, MALLOC_CAP_8BIT|MALLOC_CAP_32BIT}, false, false},
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//Type 5: RTC Fast RAM
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{ "RTCRAM", { MALLOC_CAP_RTCRAM, MALLOC_CAP_8BIT|MALLOC_CAP_DEFAULT, MALLOC_CAP_INTERNAL|MALLOC_CAP_32BIT }, false, false},
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};
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#ifdef CONFIG_ESP_SYSTEM_MEMPROT_FEATURE
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#define SOC_MEMORY_TYPE_DEFAULT 0
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#else
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#define SOC_MEMORY_TYPE_DEFAULT 2
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#endif
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const size_t soc_memory_type_count = sizeof(soc_memory_types)/sizeof(soc_memory_type_desc_t);
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/*
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Region descriptors. These describe all regions of memory available, and map them to a type in the above type.
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Because of requirements in the coalescing code which merges adjacent regions, this list should always be sorted
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from low to high start address.
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*/
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const soc_memory_region_t soc_memory_regions[] = {
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#ifdef CONFIG_SPIRAM
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{ SOC_EXTRAM_DATA_LOW, SOC_EXTRAM_DATA_SIZE, 4, 0}, //SPI SRAM, if available
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#endif
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#if CONFIG_ESP32S2_INSTRUCTION_CACHE_8KB
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#if CONFIG_ESP32S2_DATA_CACHE_0KB
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{ 0x3FFB2000, 0x2000, SOC_MEMORY_TYPE_DEFAULT, 0x40022000}, //Block 1, can be use as I/D cache memory
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{ 0x3FFB4000, 0x2000, SOC_MEMORY_TYPE_DEFAULT, 0x40024000}, //Block 2, can be use as D cache memory
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{ 0x3FFB6000, 0x2000, SOC_MEMORY_TYPE_DEFAULT, 0x40026000}, //Block 3, can be use as D cache memory
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#elif CONFIG_ESP32S2_DATA_CACHE_8KB
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{ 0x3FFB4000, 0x2000, SOC_MEMORY_TYPE_DEFAULT, 0x40024000}, //Block 2, can be use as D cache memory
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{ 0x3FFB6000, 0x2000, SOC_MEMORY_TYPE_DEFAULT, 0x40026000}, //Block 3, can be use as D cache memory
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#else
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{ 0x3FFB6000, 0x2000, SOC_MEMORY_TYPE_DEFAULT, 0x40026000}, //Block 3, can be use as D cache memory
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#endif
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#else
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#if CONFIG_ESP32S2_DATA_CACHE_0KB
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{ 0x3FFB4000, 0x2000, SOC_MEMORY_TYPE_DEFAULT, 0x40024000}, //Block SOC_MEMORY_TYPE_DEFAULT, can be use as D cache memory
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{ 0x3FFB6000, 0x2000, SOC_MEMORY_TYPE_DEFAULT, 0x40026000}, //Block 3, can be use as D cache memory
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#elif CONFIG_ESP32S2_DATA_CACHE_8KB
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{ 0x3FFB6000, 0x2000, SOC_MEMORY_TYPE_DEFAULT, 0x40026000}, //Block 3, can be use as D cache memory
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#endif
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#endif
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{ 0x3FFB8000, 0x4000, SOC_MEMORY_TYPE_DEFAULT, 0x40028000}, //Block 4, can be remapped to ROM, can be used as trace memory
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{ 0x3FFBC000, 0x4000, SOC_MEMORY_TYPE_DEFAULT, 0x4002C000}, //Block 5, can be remapped to ROM, can be used as trace memory
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{ 0x3FFC0000, 0x4000, SOC_MEMORY_TYPE_DEFAULT, 0x40030000}, //Block 6, can be used as trace memory
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{ 0x3FFC4000, 0x4000, SOC_MEMORY_TYPE_DEFAULT, 0x40034000}, //Block 7, can be used as trace memory
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{ 0x3FFC8000, 0x4000, SOC_MEMORY_TYPE_DEFAULT, 0x40038000}, //Block 8, can be used as trace memory
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{ 0x3FFCC000, 0x4000, SOC_MEMORY_TYPE_DEFAULT, 0x4003C000}, //Block 9, can be used as trace memory
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{ 0x3FFD0000, 0x4000, SOC_MEMORY_TYPE_DEFAULT, 0x40040000}, //Block 10, can be used as trace memory
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{ 0x3FFD4000, 0x4000, SOC_MEMORY_TYPE_DEFAULT, 0x40044000}, //Block 11, can be used as trace memory
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{ 0x3FFD8000, 0x4000, SOC_MEMORY_TYPE_DEFAULT, 0x40048000}, //Block 12, can be used as trace memory
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{ 0x3FFDC000, 0x4000, SOC_MEMORY_TYPE_DEFAULT, 0x4004C000}, //Block 13, can be used as trace memory
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{ 0x3FFE0000, 0x4000, SOC_MEMORY_TYPE_DEFAULT, 0x40050000}, //Block 14, can be used as trace memory
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{ 0x3FFE4000, 0x4000, SOC_MEMORY_TYPE_DEFAULT, 0x40054000}, //Block 15, can be used as trace memory
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{ 0x3FFE8000, 0x4000, SOC_MEMORY_TYPE_DEFAULT, 0x40058000}, //Block 16, can be used as trace memory
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{ 0x3FFEC000, 0x4000, SOC_MEMORY_TYPE_DEFAULT, 0x4005C000}, //Block 17, can be used as trace memory
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{ 0x3FFF0000, 0x4000, SOC_MEMORY_TYPE_DEFAULT, 0x40060000}, //Block 18, can be used for MAC dump, can be used as trace memory
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{ 0x3FFF4000, 0x4000, SOC_MEMORY_TYPE_DEFAULT, 0x40064000}, //Block 19, can be used for MAC dump, can be used as trace memory
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{ 0x3FFF8000, 0x4000, SOC_MEMORY_TYPE_DEFAULT, 0x40068000}, //Block 20, can be used for MAC dump, can be used as trace memory
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{ 0x3FFFC000, 0x4000, 1, 0x4006C000}, //Block 21, can be used for MAC dump, can be used as trace memory, used for startup stack
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#ifdef CONFIG_ESP_SYSTEM_ALLOW_RTC_FAST_MEM_AS_HEAP
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{ SOC_RTC_DRAM_LOW, 0x2000, 5, 0}, //RTC Fast Memory
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#endif
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};
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const size_t soc_memory_region_count = sizeof(soc_memory_regions)/sizeof(soc_memory_region_t);
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extern int _dram0_rtos_reserved_start;
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extern int _data_start, _heap_start, _iram_start, _iram_end, _rtc_force_fast_end, _rtc_noinit_end;
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extern int _rtc_reserved_start, _rtc_reserved_end;
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/* Reserved memory regions
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These are removed from the soc_memory_regions array when heaps are created.
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*/
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//ROM data region
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SOC_RESERVE_MEMORY_REGION((intptr_t)&_dram0_rtos_reserved_start, SOC_BYTE_ACCESSIBLE_HIGH, rom_data_region);
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// Static data region. DRAM used by data+bss and possibly rodata
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SOC_RESERVE_MEMORY_REGION((intptr_t)&_data_start, (intptr_t)&_heap_start, dram_data);
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// ESP32S2 has a big D/IRAM region, the part used by code is reserved
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// The address of the D/I bus are in the same order, directly shift IRAM address to get reserved DRAM address
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#define I_D_OFFSET (SOC_IRAM_LOW - SOC_DRAM_LOW)
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SOC_RESERVE_MEMORY_REGION((intptr_t)&_iram_start - I_D_OFFSET, (intptr_t)&_iram_end - I_D_OFFSET, iram_code);
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#ifdef CONFIG_SPIRAM
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/* Reserve the whole possible SPIRAM region here, spiram.c will add some or all of this
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* memory to heap depending on the actual SPIRAM chip size. */
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SOC_RESERVE_MEMORY_REGION( SOC_EXTRAM_DATA_LOW, SOC_EXTRAM_DATA_HIGH, extram_data_region);
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#endif
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// Blocks 19 and 20 may be reserved for the trace memory
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#if CONFIG_ESP32S2_TRACEMEM_RESERVE_DRAM > 0
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SOC_RESERVE_MEMORY_REGION(TRACEMEM_BLK0_ADDR, TRACEMEM_BLK0_ADDR + CONFIG_ESP32S2_TRACEMEM_RESERVE_DRAM / 2, trace_mem0);
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SOC_RESERVE_MEMORY_REGION(TRACEMEM_BLK1_ADDR, TRACEMEM_BLK1_ADDR + CONFIG_ESP32S2_TRACEMEM_RESERVE_DRAM / 2, trace_mem1);
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#endif
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// RTC Fast RAM region
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#ifdef CONFIG_ESP_SYSTEM_ALLOW_RTC_FAST_MEM_AS_HEAP
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#ifdef CONFIG_ESP32S2_RTCDATA_IN_FAST_MEM
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SOC_RESERVE_MEMORY_REGION(SOC_RTC_DRAM_LOW, (intptr_t)&_rtc_noinit_end, rtcram_data);
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#else
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SOC_RESERVE_MEMORY_REGION(SOC_RTC_DRAM_LOW, (intptr_t)&_rtc_force_fast_end, rtcram_data);
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#endif
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#endif
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SOC_RESERVE_MEMORY_REGION((intptr_t)&_rtc_reserved_start, (intptr_t)&_rtc_reserved_end, rtc_reserved_data);
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