pw_boot_armv7m/core_init.c - pigweed/pigweed - Git at Google

 // Copyright 2020 The Pigweed Authors
 //
 // 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
 //
 //     https://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.

 //                               !!!WARNING!!!
 //
 // Some of the code in this file is run without static initialization expected
 // by C/C++. Any accesses to statically initialized objects/variables before
 // memory is initialized will result in undefined values and violates the C
 // specification. Only code run after memory initialization is complete will be
 // compliant and truly safe to run. In general, make early initialization code
 // run AFTER memory initialization has completed unless it is ABSOLUTELY
 // NECESSARY to modify the way memory is initialized.
 //
 // This file is similar to a traditional assembly startup file. It turns out
 // that everything typically done in ARMv7-M assembly startup can be done
 // straight from C code. This makes startup code easier to maintain, modify,
 // and read.
 //
 // When execution begins due to SoC power-on (or the device is reset), three
 // key things must happen to properly enter C++ execution context:
 //   1. Static variables must be loaded from flash to RAM.
 //   2. Zero-initialized variables must be zero-initialized.
 //   3. Statically allocated objects must have their constructors run.
 // The SoC doesn't inherently have a notion of how to do this, so this is
 // handled in StaticInit();
 //
 // Following this, execution is handed over to pw_PreMainInit() to facilitate
 // platform, project, or application pre-main initialization. When
 // pw_PreMainInit() returns, main() is executed.
 //
 // The simple flow is as follows:
 //   1. Power on
 //   2. PC and SP set (from vector_table by SoC, or by bootloader)
 //   3. pw_BootEntry()
 //     3.1. Static-init RAM (.data, .bss, C++ constructors)
 //     3.2. pw_PreMainInit()
 //     3.3. main()

 #include <stdbool.h>
 #include <stdint.h>
 #include <string.h>

 #include "pw_boot_armv7m/boot.h"
 #include "pw_preprocessor/compiler.h"

 // Extern symbols provided by linker script.
 // These symbols tell us where various memory sections start and end.
 extern uint8_t _pw_static_init_ram_start;
 extern uint8_t _pw_static_init_ram_end;
 extern uint8_t _pw_static_init_flash_start;
 extern uint8_t _pw_zero_init_ram_start;
 extern uint8_t _pw_zero_init_ram_end;

 // Functions called as part of firmware initialization.
 void __libc_init_array(void);

 // WARNING: Be EXTREMELY careful when running code before this function
 // completes. The context before this function violates the C spec
 // (Section 6.7.8, paragraph 10 for example, which requires uninitialized static
 // values to be zero-initialized).
 void StaticInit(void) {
   // Static-init RAM (load static values into ram, .data section init).
   memcpy(&_pw_static_init_ram_start,
          &_pw_static_init_flash_start,
          &_pw_static_init_ram_end - &_pw_static_init_ram_start);

   // Zero-init RAM (.bss section init).
   memset(&_pw_zero_init_ram_start,
          0,
          &_pw_zero_init_ram_end - &_pw_zero_init_ram_start);

   // Call static constructors.
   __libc_init_array();
 }

 // WARNING: This code is run immediately upon boot, and performs initialization
 // of RAM. Note that code running before this function finishes memory
 // initialization will violate the C spec (Section 6.7.8, paragraph 10 for
 // example, which requires uninitialized static values to be zero-initialized).
 // Be EXTREMELY careful when running code before this function finishes RAM
 // initialization.
 //
 // This function runs immediately at boot because it is at index 1 of the
 // interrupt vector table.
 void pw_BootEntry() {
   StaticInit();

   // This function is not provided by pw_boot_armv7m, a platform layer, project,
   // or application is expected to implement it.
   pw_PreMainInit();

   // Run main.
   main();

   // In case main() returns, just sit here until the device is reset.
   while (true) {
   }
 }
	// Copyright 2020 The Pigweed Authors
	//
	// 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
	//
	// https://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.

	// !!!WARNING!!!
	//
	// Some of the code in this file is run without static initialization expected
	// by C/C++. Any accesses to statically initialized objects/variables before
	// memory is initialized will result in undefined values and violates the C
	// specification. Only code run after memory initialization is complete will be
	// compliant and truly safe to run. In general, make early initialization code
	// run AFTER memory initialization has completed unless it is ABSOLUTELY
	// NECESSARY to modify the way memory is initialized.
	//
	// This file is similar to a traditional assembly startup file. It turns out
	// that everything typically done in ARMv7-M assembly startup can be done
	// straight from C code. This makes startup code easier to maintain, modify,
	// and read.
	//
	// When execution begins due to SoC power-on (or the device is reset), three
	// key things must happen to properly enter C++ execution context:
	// 1. Static variables must be loaded from flash to RAM.
	// 2. Zero-initialized variables must be zero-initialized.
	// 3. Statically allocated objects must have their constructors run.
	// The SoC doesn't inherently have a notion of how to do this, so this is
	// handled in StaticInit();
	//
	// Following this, execution is handed over to pw_PreMainInit() to facilitate
	// platform, project, or application pre-main initialization. When
	// pw_PreMainInit() returns, main() is executed.
	//
	// The simple flow is as follows:
	// 1. Power on
	// 2. PC and SP set (from vector_table by SoC, or by bootloader)
	// 3. pw_BootEntry()
	// 3.1. Static-init RAM (.data, .bss, C++ constructors)
	// 3.2. pw_PreMainInit()
	// 3.3. main()

	#include <stdbool.h>
	#include <stdint.h>
	#include <string.h>

	#include "pw_boot_armv7m/boot.h"
	#include "pw_preprocessor/compiler.h"

	// Extern symbols provided by linker script.
	// These symbols tell us where various memory sections start and end.
	extern uint8_t _pw_static_init_ram_start;
	extern uint8_t _pw_static_init_ram_end;
	extern uint8_t _pw_static_init_flash_start;
	extern uint8_t _pw_zero_init_ram_start;
	extern uint8_t _pw_zero_init_ram_end;

	// Functions called as part of firmware initialization.
	void __libc_init_array(void);

	// WARNING: Be EXTREMELY careful when running code before this function
	// completes. The context before this function violates the C spec
	// (Section 6.7.8, paragraph 10 for example, which requires uninitialized static
	// values to be zero-initialized).
	void StaticInit(void) {
	// Static-init RAM (load static values into ram, .data section init).
	memcpy(&_pw_static_init_ram_start,
	&_pw_static_init_flash_start,
	&_pw_static_init_ram_end - &_pw_static_init_ram_start);

	// Zero-init RAM (.bss section init).
	memset(&_pw_zero_init_ram_start,
	0,
	&_pw_zero_init_ram_end - &_pw_zero_init_ram_start);

	// Call static constructors.
	__libc_init_array();
	}

	// WARNING: This code is run immediately upon boot, and performs initialization
	// of RAM. Note that code running before this function finishes memory
	// initialization will violate the C spec (Section 6.7.8, paragraph 10 for
	// example, which requires uninitialized static values to be zero-initialized).
	// Be EXTREMELY careful when running code before this function finishes RAM
	// initialization.
	//
	// This function runs immediately at boot because it is at index 1 of the
	// interrupt vector table.
	void pw_BootEntry() {
	StaticInit();

	// This function is not provided by pw_boot_armv7m, a platform layer, project,
	// or application is expected to implement it.
	pw_PreMainInit();

	// Run main.
	main();

	// In case main() returns, just sit here until the device is reset.
	while (true) {
	}
	}