OVMS3-idf/components/esp32/ld/esp32.project.ld.in

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/* Default entry point: */
ENTRY(call_start_cpu0);
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SECTIONS
{
/* RTC fast memory holds RTC wake stub code,
including from any source file named rtc_wake_stub*.c
*/
.rtc.text :
{
. = ALIGN(4);
mapping[rtc_text]
*rtc_wake_stub*.*(.literal .text .literal.* .text.*)
_rtc_text_end = ABSOLUTE(.);
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} > rtc_iram_seg
/*
This section is required to skip rtc.text area because rtc_iram_seg and
rtc_data_seg are reflect the same address space on different buses.
*/
.rtc.dummy :
{
_rtc_dummy_start = ABSOLUTE(.);
_rtc_fast_start = ABSOLUTE(.);
. = SIZEOF(.rtc.text);
_rtc_dummy_end = ABSOLUTE(.);
} > rtc_data_seg
/* This section located in RTC FAST Memory area.
It holds data marked with RTC_FAST_ATTR attribute.
See the file "esp_attr.h" for more information.
*/
.rtc.force_fast :
{
. = ALIGN(4);
_rtc_force_fast_start = ABSOLUTE(.);
*(.rtc.force_fast .rtc.force_fast.*)
. = ALIGN(4) ;
_rtc_force_fast_end = ABSOLUTE(.);
} > rtc_data_seg
/* RTC data section holds RTC wake stub
data/rodata, including from any source file
named rtc_wake_stub*.c and the data marked with
RTC_DATA_ATTR, RTC_RODATA_ATTR attributes.
The memory location of the data is dependent on
CONFIG_ESP32_RTCDATA_IN_FAST_MEM option.
*/
.rtc.data :
{
_rtc_data_start = ABSOLUTE(.);
mapping[rtc_data]
*rtc_wake_stub*.*(.data .rodata .data.* .rodata.* .bss .bss.*)
_rtc_data_end = ABSOLUTE(.);
} > rtc_data_location
/* RTC bss, from any source file named rtc_wake_stub*.c */
.rtc.bss (NOLOAD) :
{
_rtc_bss_start = ABSOLUTE(.);
*rtc_wake_stub*.*(.bss .bss.*)
*rtc_wake_stub*.*(COMMON)
mapping[rtc_bss]
_rtc_bss_end = ABSOLUTE(.);
} > rtc_data_location
/* This section holds data that should not be initialized at power up
and will be retained during deep sleep.
User data marked with RTC_NOINIT_ATTR will be placed
into this section. See the file "esp_attr.h" for more information.
The memory location of the data is dependent on
CONFIG_ESP32_RTCDATA_IN_FAST_MEM option.
*/
.rtc_noinit (NOLOAD):
{
. = ALIGN(4);
_rtc_noinit_start = ABSOLUTE(.);
*(.rtc_noinit .rtc_noinit.*)
. = ALIGN(4) ;
_rtc_noinit_end = ABSOLUTE(.);
} > rtc_data_location
/* This section located in RTC SLOW Memory area.
It holds data marked with RTC_SLOW_ATTR attribute.
See the file "esp_attr.h" for more information.
*/
.rtc.force_slow :
{
. = ALIGN(4);
_rtc_force_slow_start = ABSOLUTE(.);
*(.rtc.force_slow .rtc.force_slow.*)
. = ALIGN(4) ;
_rtc_force_slow_end = ABSOLUTE(.);
} > rtc_slow_seg
/* Get size of rtc slow data based on rtc_data_location alias */
_rtc_slow_length = (ORIGIN(rtc_slow_seg) == ORIGIN(rtc_data_location))
? (_rtc_force_slow_end - _rtc_data_start)
: (_rtc_force_slow_end - _rtc_force_slow_start);
_rtc_fast_length = (ORIGIN(rtc_slow_seg) == ORIGIN(rtc_data_location))
? (_rtc_force_fast_end - _rtc_fast_start)
: (_rtc_noinit_end - _rtc_fast_start);
ASSERT((_rtc_slow_length <= LENGTH(rtc_slow_seg)),
"RTC_SLOW segment data does not fit.")
ASSERT((_rtc_fast_length <= LENGTH(rtc_data_seg)),
"RTC_FAST segment data does not fit.")
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/* Send .iram0 code to iram */
.iram0.vectors :
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{
_iram_start = ABSOLUTE(.);
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/* Vectors go to IRAM */
_init_start = ABSOLUTE(.);
/* Vectors according to builds/RF-2015.2-win32/esp108_v1_2_s5_512int_2/config.html */
. = 0x0;
KEEP(*(.WindowVectors.text));
. = 0x180;
KEEP(*(.Level2InterruptVector.text));
. = 0x1c0;
KEEP(*(.Level3InterruptVector.text));
. = 0x200;
KEEP(*(.Level4InterruptVector.text));
. = 0x240;
KEEP(*(.Level5InterruptVector.text));
. = 0x280;
KEEP(*(.DebugExceptionVector.text));
. = 0x2c0;
KEEP(*(.NMIExceptionVector.text));
. = 0x300;
KEEP(*(.KernelExceptionVector.text));
. = 0x340;
KEEP(*(.UserExceptionVector.text));
. = 0x3C0;
KEEP(*(.DoubleExceptionVector.text));
. = 0x400;
*(.*Vector.literal)
*(.UserEnter.literal);
*(.UserEnter.text);
. = ALIGN (16);
*(.entry.text)
*(.init.literal)
*(.init)
_init_end = ABSOLUTE(.);
} > iram0_0_seg
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.iram0.text :
{
/* Code marked as runnning out of IRAM */
_iram_text_start = ABSOLUTE(.);
mapping[iram0_text]
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_iram_text_end = ABSOLUTE(.);
_iram_end = ABSOLUTE(.);
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} > iram0_0_seg
ASSERT(((_iram_text_end - ORIGIN(iram0_0_seg)) <= LENGTH(iram0_0_seg)),
"IRAM0 segment data does not fit.")
.dram0.data :
{
_data_start = ABSOLUTE(.);
Reclaim BT/BTDM BSS and Data in bluetooth memory release function 1. Modify esp_bt_controller_mem_release() to release BTDM BSS and Data to heap if ESP_BT_MODE_BTDM mode is passed to it 2. Add a new API esp_bt_mem_release() which internally calls esp_bt_controller_mem_release() with the provided mode and then if mode is ESP_BT_MODE_BTDM, releases BT BSS and Data to heap. Background: For Wi-Fi and BT/BLE applications, for e.g. the usecase is like when Bluetooth is used for provisioning and once the device is connected to the Wi-Fi AP, we can turn off Bluetooth completely. In such scenarios, it should be possible to reclaim all the memory of Bluetooth. Although, currently this does not happen. Experiment: Made the following modifications to examples/bluetooth/gatt_server : 1. Added support of simple_wifi to it 2. Moved all the bluetooth related code under CONFIG_BT_ENABLED config option 3. Calculated the free heap in 2 similar scenarios: i. Disabled BT (CONFIG_BT_ENABLED undefined) and checked the free heap after STA connected ii. Kept BT enabled and disabled it after STA connected and checked the free heap Ideally, the numbers for i., ii. above should have been similar. But there was a delta of almost 30-31K. (i. > ii.) 4. Through make size-components checked the common BSS for libbta.a and libbtdm_app.a and found it to be almost 30K. Data is around 1K Solution: 1. Modified the linker script to mark the BSS and Data for these libraries and free it when ESP_BT_MODE_BTDM mode is passed to mem release APIs. 2. Verified that the free heap is comparable for i. and ii. above. Note: It is known that once this is done, Bluetooth can only be used again post reboot. Signed-off-by: Hrishikesh Dhayagude <hrishi@espressif.com>
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_bt_data_start = ABSOLUTE(.);
*libbt.a:(.data .data.*)
. = ALIGN (4);
_bt_data_end = ABSOLUTE(.);
_btdm_data_start = ABSOLUTE(.);
*libbtdm_app.a:(.data .data.*)
. = ALIGN (4);
_btdm_data_end = ABSOLUTE(.);
*(.gnu.linkonce.d.*)
*(.data1)
*(.sdata)
*(.sdata.*)
*(.gnu.linkonce.s.*)
*(.sdata2)
*(.sdata2.*)
*(.gnu.linkonce.s2.*)
*(.jcr)
mapping[dram0_data]
_data_end = ABSOLUTE(.);
. = ALIGN(4);
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} > dram0_0_seg
/*This section holds data that should not be initialized at power up.
The section located in Internal SRAM memory region. The macro _NOINIT
can be used as attribute to place data into this section.
See the esp_attr.h file for more information.
*/
.noinit (NOLOAD):
{
. = ALIGN(4);
_noinit_start = ABSOLUTE(.);
*(.noinit .noinit.*)
. = ALIGN(4) ;
_noinit_end = ABSOLUTE(.);
} > dram0_0_seg
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/* Shared RAM */
.dram0.bss (NOLOAD) :
{
. = ALIGN (8);
_bss_start = ABSOLUTE(.);
*(.ext_ram.bss*)
Reclaim BT/BTDM BSS and Data in bluetooth memory release function 1. Modify esp_bt_controller_mem_release() to release BTDM BSS and Data to heap if ESP_BT_MODE_BTDM mode is passed to it 2. Add a new API esp_bt_mem_release() which internally calls esp_bt_controller_mem_release() with the provided mode and then if mode is ESP_BT_MODE_BTDM, releases BT BSS and Data to heap. Background: For Wi-Fi and BT/BLE applications, for e.g. the usecase is like when Bluetooth is used for provisioning and once the device is connected to the Wi-Fi AP, we can turn off Bluetooth completely. In such scenarios, it should be possible to reclaim all the memory of Bluetooth. Although, currently this does not happen. Experiment: Made the following modifications to examples/bluetooth/gatt_server : 1. Added support of simple_wifi to it 2. Moved all the bluetooth related code under CONFIG_BT_ENABLED config option 3. Calculated the free heap in 2 similar scenarios: i. Disabled BT (CONFIG_BT_ENABLED undefined) and checked the free heap after STA connected ii. Kept BT enabled and disabled it after STA connected and checked the free heap Ideally, the numbers for i., ii. above should have been similar. But there was a delta of almost 30-31K. (i. > ii.) 4. Through make size-components checked the common BSS for libbta.a and libbtdm_app.a and found it to be almost 30K. Data is around 1K Solution: 1. Modified the linker script to mark the BSS and Data for these libraries and free it when ESP_BT_MODE_BTDM mode is passed to mem release APIs. 2. Verified that the free heap is comparable for i. and ii. above. Note: It is known that once this is done, Bluetooth can only be used again post reboot. Signed-off-by: Hrishikesh Dhayagude <hrishi@espressif.com>
2018-07-11 06:22:32 +00:00
_bt_bss_start = ABSOLUTE(.);
*libbt.a:(.bss .bss.* COMMON)
. = ALIGN (4);
_bt_bss_end = ABSOLUTE(.);
_btdm_bss_start = ABSOLUTE(.);
*libbtdm_app.a:(.bss .bss.* COMMON)
. = ALIGN (4);
_btdm_bss_end = ABSOLUTE(.);
mapping[dram0_bss]
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*(.dynsbss)
*(.sbss)
*(.sbss.*)
*(.gnu.linkonce.sb.*)
*(.scommon)
*(.sbss2)
*(.sbss2.*)
*(.gnu.linkonce.sb2.*)
*(.dynbss)
*(.share.mem)
*(.gnu.linkonce.b.*)
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. = ALIGN (8);
_bss_end = ABSOLUTE(.);
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/* The heap starts right after end of this section */
_heap_start = ABSOLUTE(.);
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} > dram0_0_seg
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ASSERT(((_bss_end - ORIGIN(dram0_0_seg)) <= LENGTH(dram0_0_seg)),
"DRAM segment data does not fit.")
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.flash.rodata :
{
_rodata_start = ABSOLUTE(.);
*(.rodata_desc .rodata_desc.*) /* Should be the first. App version info. DO NOT PUT ANYTHING BEFORE IT! */
*(.rodata_custom_desc .rodata_custom_desc.*) /* Should be the second. Custom app version info. DO NOT PUT ANYTHING BEFORE IT! */
mapping[flash_rodata]
*(.irom1.text) /* catch stray ICACHE_RODATA_ATTR */
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*(.gnu.linkonce.r.*)
*(.rodata1)
__XT_EXCEPTION_TABLE_ = ABSOLUTE(.);
*(.xt_except_table)
*(.gcc_except_table .gcc_except_table.*)
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*(.gnu.linkonce.e.*)
*(.gnu.version_r)
. = (. + 3) & ~ 3;
__eh_frame = ABSOLUTE(.);
KEEP(*(.eh_frame))
. = (. + 7) & ~ 3;
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/* C++ constructor and destructor tables, properly ordered: */
__init_array_start = ABSOLUTE(.);
KEEP (*crtbegin.*(.ctors))
KEEP (*(EXCLUDE_FILE (*crtend.*) .ctors))
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KEEP (*(SORT(.ctors.*)))
KEEP (*(.ctors))
__init_array_end = ABSOLUTE(.);
KEEP (*crtbegin.*(.dtors))
KEEP (*(EXCLUDE_FILE (*crtend.*) .dtors))
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KEEP (*(SORT(.dtors.*)))
KEEP (*(.dtors))
/* C++ exception handlers table: */
__XT_EXCEPTION_DESCS_ = ABSOLUTE(.);
*(.xt_except_desc)
*(.gnu.linkonce.h.*)
__XT_EXCEPTION_DESCS_END__ = ABSOLUTE(.);
*(.xt_except_desc_end)
*(.dynamic)
*(.gnu.version_d)
/* Addresses of memory regions reserved via
SOC_RESERVE_MEMORY_REGION() */
soc_reserved_memory_region_start = ABSOLUTE(.);
KEEP (*(.reserved_memory_address))
soc_reserved_memory_region_end = ABSOLUTE(.);
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_rodata_end = ABSOLUTE(.);
/* Literals are also RO data. */
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_lit4_start = ABSOLUTE(.);
*(*.lit4)
*(.lit4.*)
*(.gnu.linkonce.lit4.*)
_lit4_end = ABSOLUTE(.);
. = ALIGN(4);
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_thread_local_start = ABSOLUTE(.);
*(.tdata)
*(.tdata.*)
*(.tbss)
*(.tbss.*)
_thread_local_end = ABSOLUTE(.);
. = ALIGN(4);
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} >drom0_0_seg
.flash.text :
{
_stext = .;
_text_start = ABSOLUTE(.);
mapping[flash_text]
*(.stub .gnu.warning .gnu.linkonce.literal.* .gnu.linkonce.t.*.literal .gnu.linkonce.t.*)
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*(.irom0.text) /* catch stray ICACHE_RODATA_ATTR */
*(.fini.literal)
*(.fini)
*(.gnu.version)
_text_end = ABSOLUTE(.);
_etext = .;
/* Similar to _iram_start, this symbol goes here so it is
resolved by addr2line in preference to the first symbol in
the flash.text segment.
*/
_flash_cache_start = ABSOLUTE(0);
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} >iram0_2_seg
}