mbed official / mbed

The official Mbed 2 C/C++ SDK provides the software platform and libraries to build your applications.

Dependents:   hello SerialTestv11 SerialTestv12 Sierpinski ... more

mbed 2

This is the mbed 2 library. If you'd like to learn about Mbed OS please see the mbed-os docs.

TARGET_K64F/TOOLCHAIN_GCC_ARM/MK64FN1M0xxx12.ld@125:2e9cc70d1897, 2016-08-31 (annotated)

Committer:
AnnaBridge
Date:
Wed Aug 31 18:09:46 2016 +0100
Revision:
125:2e9cc70d1897
Parent:
122:f9eeca106725
Child:
130:d75b3fe1f5cb
Release 125 of the mbed library



Changes:



New target - KL27Z_IAR

New target - MAX32620HSP_ARM_STD

New target - MAX32620HSP_GCC_ARM

New target - MAX32620HSP_IAR

New target - NCS36510_ARM_STD

New target - NCS36510_GCC_ARM

New target - NCS36510_IAR



Added support for NSAPI_REUSEADDR to the lwip interface.

STM32F3 family : Add and enable asynchronous serial, plus tests.

STM32L4 family : Add and enable asynchronous serial, plus tests.

Fixing issue where GCC fails to report compile errors when non-verbose.

Add ethernet and IPV4 support for: NUCLEO_F207ZG, NUCLEO_F429ZI, NUCLEO_F767ZI, DISCO_F746NG.

RZ_A1H - Enable SPI1 on pins P6_4 to P6_7.

KL27Z : SPI driver bug fixes and Improvements, ARM linker file update.

STM32F4, STM32F7 families : Add entropy functions, documentation, code improvements, fix build issues.

HEXIWEAR: Update I2C pin mapping, Add support to create KDS projects.

LWIP - fix recv blocking send on accepted sockets.

SingletonPtr bugfixes.

Beetle: Implement sleep API.

uVisor: Update to v0.20.1-alpha, minor documentation update.

STM32F3 : fix RTOS IAR test, RTOS GCC_ARM test.

nrf5x : Introduce uart hardware flow control configuration.

K64F/K22F: Implement HAL lp_timer API.

Ticker: Move ticker initialisation to object creation time.

STM32F4 : remove printf from pwmout

NXP : Fix multiple definition errors in GCC_CR build,  fix linker errors.

Add TOOLCHAIN_GCC_CR support.

STM32L1 family : Add and enable asynchronous serial, plus tests.

mbed-client : Fix Bootstrap and Connector functionality.

NUC472 : Fix Ethernet wrong INT status in RX_Action.

RTX_CM_lib.h : fix compiler warning.

NUCLEO : Use GCC small build for 64K flash STM32.

STM32F2 family : Add and enable asynchronous serial, plus tests.

uvisor : Move page heap after uVisor private data, update page allocator.

K64F: Revert to hardcoded stack pointer in RTX .

dns-query : Internal API change , documentation, Added support for multiple results and ipv6.

Add support for implementation-provided DNS servers.

Adopted netconn_gethostbyname in the lwip interface.

Restructured nsapi_dns.h to have clear separation between C/C++ .

Tool fixes.

Tests : New ones added and some updates to existing.

Who changed what in which revision?

UserRevisionLine numberNew contents of line
Kojto 120:7c328cabac7e 1 /*
Kojto 120:7c328cabac7e 2 ** ###################################################################
Kojto 120:7c328cabac7e 3 ** Processors: MK64FN1M0VDC12
Kojto 120:7c328cabac7e 4 ** MK64FN1M0VLL12
Kojto 120:7c328cabac7e 5 ** MK64FN1M0VLQ12
Kojto 120:7c328cabac7e 6 ** MK64FN1M0VMD12
Kojto 120:7c328cabac7e 7 **
Kojto 120:7c328cabac7e 8 ** Compiler: GNU C Compiler
Kojto 120:7c328cabac7e 9 ** Reference manual: K64P144M120SF5RM, Rev.2, January 2014
Kojto 120:7c328cabac7e 10 ** Version: rev. 2.8, 2015-02-19
Kojto 120:7c328cabac7e 11 ** Build: b151217
Kojto 120:7c328cabac7e 12 **
Kojto 120:7c328cabac7e 13 ** Abstract:
Kojto 120:7c328cabac7e 14 ** Linker file for the GNU C Compiler
Kojto 120:7c328cabac7e 15 **
Kojto 120:7c328cabac7e 16 ** Copyright (c) 2015 Freescale Semiconductor, Inc.
Kojto 120:7c328cabac7e 17 ** All rights reserved.
Kojto 120:7c328cabac7e 18 **
Kojto 120:7c328cabac7e 19 ** Redistribution and use in source and binary forms, with or without modification,
Kojto 120:7c328cabac7e 20 ** are permitted provided that the following conditions are met:
Kojto 120:7c328cabac7e 21 **
Kojto 120:7c328cabac7e 22 ** o Redistributions of source code must retain the above copyright notice, this list
Kojto 120:7c328cabac7e 23 ** of conditions and the following disclaimer.
Kojto 120:7c328cabac7e 24 **
Kojto 120:7c328cabac7e 25 ** o Redistributions in binary form must reproduce the above copyright notice, this
Kojto 120:7c328cabac7e 26 ** list of conditions and the following disclaimer in the documentation and/or
Kojto 120:7c328cabac7e 27 ** other materials provided with the distribution.
Kojto 120:7c328cabac7e 28 **
Kojto 120:7c328cabac7e 29 ** o Neither the name of Freescale Semiconductor, Inc. nor the names of its
Kojto 120:7c328cabac7e 30 ** contributors may be used to endorse or promote products derived from this
Kojto 120:7c328cabac7e 31 ** software without specific prior written permission.
Kojto 120:7c328cabac7e 32 **
Kojto 120:7c328cabac7e 33 ** THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND
Kojto 120:7c328cabac7e 34 ** ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
Kojto 120:7c328cabac7e 35 ** WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
Kojto 120:7c328cabac7e 36 ** DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR
Kojto 120:7c328cabac7e 37 ** ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
Kojto 120:7c328cabac7e 38 ** (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
Kojto 120:7c328cabac7e 39 ** LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON
Kojto 120:7c328cabac7e 40 ** ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
Kojto 120:7c328cabac7e 41 ** (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
Kojto 120:7c328cabac7e 42 ** SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
Kojto 120:7c328cabac7e 43 **
Kojto 120:7c328cabac7e 44 ** http: www.freescale.com
Kojto 120:7c328cabac7e 45 ** mail: support@freescale.com
Kojto 120:7c328cabac7e 46 **
Kojto 120:7c328cabac7e 47 ** ###################################################################
Kojto 120:7c328cabac7e 48 */
Kojto 120:7c328cabac7e 49
Kojto 120:7c328cabac7e 50 /* Entry Point */
Kojto 120:7c328cabac7e 51 ENTRY(Reset_Handler)
Kojto 120:7c328cabac7e 52
Kojto 120:7c328cabac7e 53 __ram_vector_table__ = 1;
Kojto 120:7c328cabac7e 54
Kojto 120:7c328cabac7e 55 /* Heap 1/4 of ram and stack 1/8 */
Kojto 120:7c328cabac7e 56 __stack_size__ = 0x8000;
Kojto 120:7c328cabac7e 57 __heap_size__ = 0x10000;
Kojto 120:7c328cabac7e 58
Kojto 120:7c328cabac7e 59 HEAP_SIZE = DEFINED(__heap_size__) ? __heap_size__ : 0x0400;
Kojto 120:7c328cabac7e 60 STACK_SIZE = DEFINED(__stack_size__) ? __stack_size__ : 0x0400;
Kojto 120:7c328cabac7e 61 M_VECTOR_RAM_SIZE = DEFINED(__ram_vector_table__) ? 0x0400 : 0x0;
Kojto 120:7c328cabac7e 62
Kojto 120:7c328cabac7e 63 /* Specify the memory areas */
Kojto 120:7c328cabac7e 64 MEMORY
Kojto 120:7c328cabac7e 65 {
Kojto 120:7c328cabac7e 66 m_interrupts (RX) : ORIGIN = 0x00000000, LENGTH = 0x00000400
Kojto 120:7c328cabac7e 67 m_flash_config (RX) : ORIGIN = 0x00000400, LENGTH = 0x00000010
Kojto 120:7c328cabac7e 68 m_text (RX) : ORIGIN = 0x00000410, LENGTH = 0x000FFBF0
Kojto 120:7c328cabac7e 69 m_data (RW) : ORIGIN = 0x1FFF0000, LENGTH = 0x00010000
Kojto 120:7c328cabac7e 70 m_data_2 (RW) : ORIGIN = 0x20000000, LENGTH = 0x00030000
Kojto 120:7c328cabac7e 71 }
Kojto 120:7c328cabac7e 72
Kojto 120:7c328cabac7e 73 /* Define output sections */
Kojto 120:7c328cabac7e 74 SECTIONS
Kojto 120:7c328cabac7e 75 {
Kojto 120:7c328cabac7e 76 /* The startup code goes first into internal flash */
Kojto 120:7c328cabac7e 77 .interrupts :
Kojto 120:7c328cabac7e 78 {
Kojto 120:7c328cabac7e 79 __VECTOR_TABLE = .;
Kojto 120:7c328cabac7e 80 . = ALIGN(4);
Kojto 120:7c328cabac7e 81 KEEP(*(.isr_vector)) /* Startup code */
Kojto 120:7c328cabac7e 82 . = ALIGN(4);
Kojto 120:7c328cabac7e 83 } > m_interrupts
Kojto 120:7c328cabac7e 84
Kojto 120:7c328cabac7e 85 .flash_config :
Kojto 120:7c328cabac7e 86 {
Kojto 120:7c328cabac7e 87 . = ALIGN(4);
Kojto 120:7c328cabac7e 88 KEEP(*(.FlashConfig)) /* Flash Configuration Field (FCF) */
Kojto 120:7c328cabac7e 89 . = ALIGN(4);
Kojto 120:7c328cabac7e 90 } > m_flash_config
Kojto 120:7c328cabac7e 91
Kojto 120:7c328cabac7e 92 /* The program code and other data goes into internal flash */
Kojto 122:f9eeca106725 93 /* Note: The uVisor expects this section at a fixed location, as specified by
Kojto 122:f9eeca106725 94 * the porting process configuration parameter: FLASH_OFFSET. */
Kojto 122:f9eeca106725 95 __UVISOR_TEXT_OFFSET = 0x410;
Kojto 122:f9eeca106725 96 __UVISOR_TEXT_START = ORIGIN(m_interrupts) + __UVISOR_TEXT_OFFSET;
Kojto 122:f9eeca106725 97 .text __UVISOR_TEXT_START :
Kojto 120:7c328cabac7e 98 {
Kojto 122:f9eeca106725 99 /* uVisor code and data */
Kojto 122:f9eeca106725 100 . = ALIGN(4);
Kojto 122:f9eeca106725 101 __uvisor_main_start = .;
Kojto 122:f9eeca106725 102 *(.uvisor.main)
Kojto 122:f9eeca106725 103 __uvisor_main_end = .;
Kojto 122:f9eeca106725 104
Kojto 120:7c328cabac7e 105 . = ALIGN(4);
Kojto 120:7c328cabac7e 106 *(.text) /* .text sections (code) */
Kojto 120:7c328cabac7e 107 *(.text*) /* .text* sections (code) */
Kojto 120:7c328cabac7e 108 *(.rodata) /* .rodata sections (constants, strings, etc.) */
Kojto 120:7c328cabac7e 109 *(.rodata*) /* .rodata* sections (constants, strings, etc.) */
Kojto 120:7c328cabac7e 110 *(.glue_7) /* glue arm to thumb code */
Kojto 120:7c328cabac7e 111 *(.glue_7t) /* glue thumb to arm code */
Kojto 120:7c328cabac7e 112 *(.eh_frame)
Kojto 120:7c328cabac7e 113 KEEP (*(.init))
Kojto 120:7c328cabac7e 114 KEEP (*(.fini))
Kojto 120:7c328cabac7e 115 . = ALIGN(4);
Kojto 120:7c328cabac7e 116 } > m_text
Kojto 120:7c328cabac7e 117
Kojto 120:7c328cabac7e 118 .ARM.extab :
Kojto 120:7c328cabac7e 119 {
Kojto 120:7c328cabac7e 120 *(.ARM.extab* .gnu.linkonce.armextab.*)
Kojto 120:7c328cabac7e 121 } > m_text
Kojto 120:7c328cabac7e 122
Kojto 120:7c328cabac7e 123 .ARM :
Kojto 120:7c328cabac7e 124 {
Kojto 120:7c328cabac7e 125 __exidx_start = .;
Kojto 120:7c328cabac7e 126 *(.ARM.exidx*)
Kojto 120:7c328cabac7e 127 __exidx_end = .;
Kojto 120:7c328cabac7e 128 } > m_text
Kojto 120:7c328cabac7e 129
Kojto 120:7c328cabac7e 130 .ctors :
Kojto 120:7c328cabac7e 131 {
Kojto 120:7c328cabac7e 132 __CTOR_LIST__ = .;
Kojto 120:7c328cabac7e 133 /* gcc uses crtbegin.o to find the start of
Kojto 120:7c328cabac7e 134 the constructors, so we make sure it is
Kojto 120:7c328cabac7e 135 first. Because this is a wildcard, it
Kojto 120:7c328cabac7e 136 doesn't matter if the user does not
Kojto 120:7c328cabac7e 137 actually link against crtbegin.o; the
Kojto 120:7c328cabac7e 138 linker won't look for a file to match a
Kojto 120:7c328cabac7e 139 wildcard. The wildcard also means that it
Kojto 120:7c328cabac7e 140 doesn't matter which directory crtbegin.o
Kojto 120:7c328cabac7e 141 is in. */
Kojto 120:7c328cabac7e 142 KEEP (*crtbegin.o(.ctors))
Kojto 120:7c328cabac7e 143 KEEP (*crtbegin?.o(.ctors))
Kojto 120:7c328cabac7e 144 /* We don't want to include the .ctor section from
Kojto 120:7c328cabac7e 145 from the crtend.o file until after the sorted ctors.
Kojto 120:7c328cabac7e 146 The .ctor section from the crtend file contains the
Kojto 120:7c328cabac7e 147 end of ctors marker and it must be last */
Kojto 120:7c328cabac7e 148 KEEP (*(EXCLUDE_FILE(*crtend?.o *crtend.o) .ctors))
Kojto 120:7c328cabac7e 149 KEEP (*(SORT(.ctors.*)))
Kojto 120:7c328cabac7e 150 KEEP (*(.ctors))
Kojto 120:7c328cabac7e 151 __CTOR_END__ = .;
Kojto 120:7c328cabac7e 152 } > m_text
Kojto 120:7c328cabac7e 153
Kojto 120:7c328cabac7e 154 .dtors :
Kojto 120:7c328cabac7e 155 {
Kojto 120:7c328cabac7e 156 __DTOR_LIST__ = .;
Kojto 120:7c328cabac7e 157 KEEP (*crtbegin.o(.dtors))
Kojto 120:7c328cabac7e 158 KEEP (*crtbegin?.o(.dtors))
Kojto 120:7c328cabac7e 159 KEEP (*(EXCLUDE_FILE(*crtend?.o *crtend.o) .dtors))
Kojto 120:7c328cabac7e 160 KEEP (*(SORT(.dtors.*)))
Kojto 120:7c328cabac7e 161 KEEP (*(.dtors))
Kojto 120:7c328cabac7e 162 __DTOR_END__ = .;
Kojto 120:7c328cabac7e 163 } > m_text
Kojto 120:7c328cabac7e 164
Kojto 120:7c328cabac7e 165 .preinit_array :
Kojto 120:7c328cabac7e 166 {
Kojto 120:7c328cabac7e 167 PROVIDE_HIDDEN (__preinit_array_start = .);
Kojto 120:7c328cabac7e 168 KEEP (*(.preinit_array*))
Kojto 120:7c328cabac7e 169 PROVIDE_HIDDEN (__preinit_array_end = .);
Kojto 120:7c328cabac7e 170 } > m_text
Kojto 120:7c328cabac7e 171
Kojto 120:7c328cabac7e 172 .init_array :
Kojto 120:7c328cabac7e 173 {
Kojto 120:7c328cabac7e 174 PROVIDE_HIDDEN (__init_array_start = .);
Kojto 120:7c328cabac7e 175 KEEP (*(SORT(.init_array.*)))
Kojto 120:7c328cabac7e 176 KEEP (*(.init_array*))
Kojto 120:7c328cabac7e 177 PROVIDE_HIDDEN (__init_array_end = .);
Kojto 120:7c328cabac7e 178 } > m_text
Kojto 120:7c328cabac7e 179
Kojto 120:7c328cabac7e 180 .fini_array :
Kojto 120:7c328cabac7e 181 {
Kojto 120:7c328cabac7e 182 PROVIDE_HIDDEN (__fini_array_start = .);
Kojto 120:7c328cabac7e 183 KEEP (*(SORT(.fini_array.*)))
Kojto 120:7c328cabac7e 184 KEEP (*(.fini_array*))
Kojto 120:7c328cabac7e 185 PROVIDE_HIDDEN (__fini_array_end = .);
Kojto 120:7c328cabac7e 186 } > m_text
Kojto 120:7c328cabac7e 187
Kojto 120:7c328cabac7e 188 .interrupts_ram :
Kojto 120:7c328cabac7e 189 {
Kojto 120:7c328cabac7e 190 . = ALIGN(4);
Kojto 120:7c328cabac7e 191 __VECTOR_RAM__ = .;
Kojto 120:7c328cabac7e 192 __interrupts_ram_start__ = .; /* Create a global symbol at data start */
Kojto 120:7c328cabac7e 193 *(.m_interrupts_ram) /* This is a user defined section */
Kojto 120:7c328cabac7e 194 . += M_VECTOR_RAM_SIZE;
Kojto 120:7c328cabac7e 195 . = ALIGN(4);
Kojto 120:7c328cabac7e 196 __interrupts_ram_end__ = .; /* Define a global symbol at data end */
Kojto 120:7c328cabac7e 197 } > m_data
Kojto 120:7c328cabac7e 198
Kojto 122:f9eeca106725 199 /* Ensure that the uVisor BSS section is put first after the relocated
Kojto 122:f9eeca106725 200 * interrupt table in SRAM. */
Kojto 122:f9eeca106725 201 /* Note: The uVisor expects this section at a fixed location, as specified by
Kojto 122:f9eeca106725 202 * the porting process configuration parameter: SRAM_OFFSET. */
Kojto 122:f9eeca106725 203 __UVISOR_SRAM_OFFSET = 0x400;
Kojto 122:f9eeca106725 204 __UVISOR_BSS_START = ORIGIN(m_data) + __UVISOR_SRAM_OFFSET;
Kojto 122:f9eeca106725 205 ASSERT(__interrupts_ram_end__ <= __UVISOR_BSS_START,
Kojto 122:f9eeca106725 206 "The ISR relocation region overlaps with the uVisor BSS section.")
Kojto 122:f9eeca106725 207 .uvisor.bss __UVISOR_BSS_START (NOLOAD):
Kojto 122:f9eeca106725 208 {
Kojto 122:f9eeca106725 209 . = ALIGN(32);
Kojto 122:f9eeca106725 210 __uvisor_bss_start = .;
Kojto 122:f9eeca106725 211
Kojto 122:f9eeca106725 212 /* protected uvisor main bss */
Kojto 122:f9eeca106725 213 . = ALIGN(32);
Kojto 122:f9eeca106725 214 __uvisor_bss_main_start = .;
Kojto 122:f9eeca106725 215 KEEP(*(.keep.uvisor.bss.main))
Kojto 122:f9eeca106725 216 . = ALIGN(32);
Kojto 122:f9eeca106725 217 __uvisor_bss_main_end = .;
Kojto 122:f9eeca106725 218
Kojto 122:f9eeca106725 219 /* protected uvisor secure boxes bss */
Kojto 122:f9eeca106725 220 . = ALIGN(32);
Kojto 122:f9eeca106725 221 __uvisor_bss_boxes_start = .;
Kojto 122:f9eeca106725 222 KEEP(*(.keep.uvisor.bss.boxes))
Kojto 122:f9eeca106725 223 . = ALIGN(32);
Kojto 122:f9eeca106725 224 __uvisor_bss_boxes_end = .;
Kojto 122:f9eeca106725 225
Kojto 122:f9eeca106725 226 . = ALIGN(32);
Kojto 122:f9eeca106725 227 __uvisor_bss_end = .;
Kojto 122:f9eeca106725 228 } > m_data
Kojto 122:f9eeca106725 229
AnnaBridge 125:2e9cc70d1897 230 /* Heap space for the page allocator */
AnnaBridge 125:2e9cc70d1897 231 .page_heap (NOLOAD) :
AnnaBridge 125:2e9cc70d1897 232 {
AnnaBridge 125:2e9cc70d1897 233 . = ALIGN(32);
AnnaBridge 125:2e9cc70d1897 234 __uvisor_page_start = .;
AnnaBridge 125:2e9cc70d1897 235 KEEP(*(.keep.uvisor.page_heap))
AnnaBridge 125:2e9cc70d1897 236 . = ALIGN(32);
AnnaBridge 125:2e9cc70d1897 237 __uvisor_page_end = .;
AnnaBridge 125:2e9cc70d1897 238 } > m_data_2
AnnaBridge 125:2e9cc70d1897 239
Kojto 120:7c328cabac7e 240 __VECTOR_RAM = DEFINED(__ram_vector_table__) ? __VECTOR_RAM__ : ORIGIN(m_interrupts);
Kojto 120:7c328cabac7e 241 __RAM_VECTOR_TABLE_SIZE_BYTES = DEFINED(__ram_vector_table__) ? (__interrupts_ram_end__ - __interrupts_ram_start__) : 0x0;
Kojto 120:7c328cabac7e 242
Kojto 122:f9eeca106725 243 .data :
Kojto 120:7c328cabac7e 244 {
Kojto 122:f9eeca106725 245 PROVIDE(__etext = LOADADDR(.data)); /* Define a global symbol at end of code, */
Kojto 122:f9eeca106725 246 PROVIDE(__DATA_ROM = LOADADDR(.data)); /* Symbol is used by startup for data initialization. */
Kojto 120:7c328cabac7e 247 . = ALIGN(4);
Kojto 120:7c328cabac7e 248 __DATA_RAM = .;
Kojto 120:7c328cabac7e 249 __data_start__ = .; /* create a global symbol at data start */
Kojto 120:7c328cabac7e 250 *(.data) /* .data sections */
Kojto 120:7c328cabac7e 251 *(.data*) /* .data* sections */
Kojto 120:7c328cabac7e 252 KEEP(*(.jcr*))
Kojto 120:7c328cabac7e 253 . = ALIGN(4);
Kojto 120:7c328cabac7e 254 __data_end__ = .; /* define a global symbol at data end */
Kojto 122:f9eeca106725 255 } > m_data_2 AT > m_text
Kojto 120:7c328cabac7e 256
Kojto 120:7c328cabac7e 257 __DATA_END = __DATA_ROM + (__data_end__ - __data_start__);
Kojto 120:7c328cabac7e 258 text_end = ORIGIN(m_text) + LENGTH(m_text);
Kojto 120:7c328cabac7e 259 ASSERT(__DATA_END <= text_end, "region m_text overflowed with text and data")
Kojto 120:7c328cabac7e 260
Kojto 122:f9eeca106725 261 /* uVisor configuration section
Kojto 122:f9eeca106725 262 * This section must be located after all other flash regions. */
Kojto 122:f9eeca106725 263 .uvisor.secure :
Kojto 122:f9eeca106725 264 {
Kojto 122:f9eeca106725 265 . = ALIGN(32);
Kojto 122:f9eeca106725 266 __uvisor_secure_start = .;
Kojto 122:f9eeca106725 267
Kojto 122:f9eeca106725 268 /* uVisor secure boxes configuration tables */
Kojto 122:f9eeca106725 269 . = ALIGN(32);
Kojto 122:f9eeca106725 270 __uvisor_cfgtbl_start = .;
Kojto 122:f9eeca106725 271 KEEP(*(.keep.uvisor.cfgtbl))
Kojto 122:f9eeca106725 272 . = ALIGN(32);
Kojto 122:f9eeca106725 273 __uvisor_cfgtbl_end = .;
Kojto 122:f9eeca106725 274
Kojto 122:f9eeca106725 275 /* Pointers to the uVisor secure boxes configuration tables */
Kojto 122:f9eeca106725 276 /* Note: Do not add any further alignment here, as uVisor will need to have
Kojto 122:f9eeca106725 277 * access to the exact list of pointers. */
Kojto 122:f9eeca106725 278 __uvisor_cfgtbl_ptr_start = .;
Kojto 122:f9eeca106725 279 KEEP(*(.keep.uvisor.cfgtbl_ptr_first))
Kojto 122:f9eeca106725 280 KEEP(*(.keep.uvisor.cfgtbl_ptr))
Kojto 122:f9eeca106725 281 __uvisor_cfgtbl_ptr_end = .;
Kojto 122:f9eeca106725 282
Kojto 122:f9eeca106725 283 /* Pointers to all boxes register gateways. These are grouped here to allow
Kojto 122:f9eeca106725 284 * discoverability and firmware verification. */
Kojto 122:f9eeca106725 285 __uvisor_register_gateway_ptr_start = .;
Kojto 122:f9eeca106725 286 KEEP(*(.keep.uvisor.register_gateway_ptr))
Kojto 122:f9eeca106725 287 __uvisor_register_gateway_ptr_end = .;
Kojto 122:f9eeca106725 288
Kojto 122:f9eeca106725 289 . = ALIGN(32);
Kojto 122:f9eeca106725 290 __uvisor_secure_end = .;
Kojto 122:f9eeca106725 291 } > m_text
Kojto 122:f9eeca106725 292
Kojto 122:f9eeca106725 293 /* Uninitialized data section
Kojto 122:f9eeca106725 294 * This region is not initialized by the C/C++ library and can be used to
Kojto 122:f9eeca106725 295 * store state across soft reboots. */
Kojto 122:f9eeca106725 296 .uninitialized (NOLOAD):
Kojto 122:f9eeca106725 297 {
Kojto 122:f9eeca106725 298 . = ALIGN(32);
Kojto 122:f9eeca106725 299 __uninitialized_start = .;
Kojto 122:f9eeca106725 300 *(.uninitialized)
Kojto 122:f9eeca106725 301 KEEP(*(.keep.uninitialized))
Kojto 122:f9eeca106725 302 . = ALIGN(32);
Kojto 122:f9eeca106725 303 __uninitialized_end = .;
Kojto 122:f9eeca106725 304 } > m_data_2
Kojto 122:f9eeca106725 305
Kojto 120:7c328cabac7e 306 USB_RAM_GAP = DEFINED(__usb_ram_size__) ? __usb_ram_size__ : 0x800;
Kojto 120:7c328cabac7e 307 /* Uninitialized data section */
Kojto 120:7c328cabac7e 308 .bss :
Kojto 120:7c328cabac7e 309 {
Kojto 120:7c328cabac7e 310 /* This is used by the startup in order to initialize the .bss section */
Kojto 120:7c328cabac7e 311 . = ALIGN(4);
Kojto 120:7c328cabac7e 312 __START_BSS = .;
Kojto 120:7c328cabac7e 313 __bss_start__ = .;
Kojto 120:7c328cabac7e 314 *(.bss)
Kojto 120:7c328cabac7e 315 *(.bss*)
Kojto 120:7c328cabac7e 316 . = ALIGN(512);
Kojto 120:7c328cabac7e 317 USB_RAM_START = .;
Kojto 120:7c328cabac7e 318 . += USB_RAM_GAP;
Kojto 120:7c328cabac7e 319 *(COMMON)
Kojto 120:7c328cabac7e 320 . = ALIGN(4);
Kojto 120:7c328cabac7e 321 __bss_end__ = .;
Kojto 120:7c328cabac7e 322 __END_BSS = .;
Kojto 122:f9eeca106725 323 } > m_data_2
Kojto 120:7c328cabac7e 324
Kojto 120:7c328cabac7e 325 .heap :
Kojto 120:7c328cabac7e 326 {
Kojto 120:7c328cabac7e 327 . = ALIGN(8);
Kojto 122:f9eeca106725 328 __uvisor_heap_start = .;
Kojto 120:7c328cabac7e 329 __end__ = .;
Kojto 120:7c328cabac7e 330 PROVIDE(end = .);
Kojto 120:7c328cabac7e 331 __HeapBase = .;
Kojto 120:7c328cabac7e 332 . += HEAP_SIZE;
Kojto 120:7c328cabac7e 333 __HeapLimit = .;
Kojto 120:7c328cabac7e 334 __heap_limit = .; /* Add for _sbrk */
Kojto 122:f9eeca106725 335 __uvisor_heap_end = .;
Kojto 120:7c328cabac7e 336 } > m_data_2
Kojto 120:7c328cabac7e 337
Kojto 120:7c328cabac7e 338 m_usb_bdt USB_RAM_START (NOLOAD) :
Kojto 120:7c328cabac7e 339 {
Kojto 120:7c328cabac7e 340 *(m_usb_bdt)
Kojto 120:7c328cabac7e 341 USB_RAM_BDT_END = .;
Kojto 120:7c328cabac7e 342 }
Kojto 120:7c328cabac7e 343
Kojto 120:7c328cabac7e 344 m_usb_global USB_RAM_BDT_END (NOLOAD) :
Kojto 120:7c328cabac7e 345 {
Kojto 120:7c328cabac7e 346 *(m_usb_global)
Kojto 120:7c328cabac7e 347 }
Kojto 120:7c328cabac7e 348
Kojto 120:7c328cabac7e 349 /* Initializes stack on the end of block */
AnnaBridge 125:2e9cc70d1897 350 __StackTop = ORIGIN(m_data_2) + LENGTH(m_data_2);
Kojto 120:7c328cabac7e 351 __StackLimit = __StackTop - STACK_SIZE;
Kojto 120:7c328cabac7e 352 PROVIDE(__stack = __StackTop);
Kojto 120:7c328cabac7e 353
Kojto 120:7c328cabac7e 354 .ARM.attributes 0 : { *(.ARM.attributes) }
Kojto 120:7c328cabac7e 355
Kojto 120:7c328cabac7e 356 ASSERT(__StackLimit >= __HeapLimit, "region m_data_2 overflowed with stack and heap")
Kojto 122:f9eeca106725 357
Kojto 122:f9eeca106725 358 /* Provide the physical memory boundaries for uVisor. */
Kojto 122:f9eeca106725 359 __uvisor_flash_start = ORIGIN(m_interrupts);
Kojto 122:f9eeca106725 360 __uvisor_flash_end = ORIGIN(m_text) + LENGTH(m_text);
Kojto 122:f9eeca106725 361 __uvisor_sram_start = ORIGIN(m_data);
Kojto 122:f9eeca106725 362 __uvisor_sram_end = ORIGIN(m_data_2) + LENGTH(m_data_2);
Kojto 120:7c328cabac7e 363 }