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Remove obsolete target. Cleanup and update ReadMe. (#279)

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あく 2020-12-28 08:52:35 +03:00 committed by GitHub
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4
README.md → ReadMe.md
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@ -30,9 +30,9 @@ You can run firmware locally (with HAL stub):
* `docker-compose exec dev make -C firmware TARGET=local APP_TEST=1 run` for running tests
* `docker-compose exec dev make -C firmware TARGET=local APP_*=1 run` for running examples (see `applications/applications.mk` for list of applications/examples)
Or you can use your dev. board:
Or on your flipper:
`docker-compose exec dev make -C firmware TARGET=f2 APP_*=1 flash` for build and flash dev board (see `applications/applications.mk` for list of applications/examples)
`docker-compose exec dev make -C firmware TARGET=f4 APP_*=1 flash` for build and flash dev board (see `applications/applications.mk` for list of applications/examples)
# Links
* Task tracker: [Jira](https://flipperzero.atlassian.net/)

28
bootloader/ReadMe.md
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@ -3,20 +3,22 @@
What it does?
- [+] Hardware initialization
- [ ] Firmware CRC check
- [+] Firmware update
- [ ] Interactive UI
- [+] Boot process LED indicators
- [+] Firmware update
- [ ] Firmware CRC check
- [ ] Interactive UI
- [ ] FS check
- [ ] Recovery mode
- [ ] Errata crutches
# Targets
| Name | Bootloader | Firmware | Reset | DFU |
| | Address | Address | Combo | Combo |
---------------------------------------------------------------------
| f2 | 0x08000000 | 0x00008000 | L+R | L+R, hold R |
| Name | Bootloader | Firmware | Reset | DFU |
| | Address | Address | Combo | Combo |
-----------------------------------------------------------------------------
| f4 | 0x08000000 | 0x00008000 | L+Back | L+Back, hold L |
Also there is a ST bootloader combo available on empty device: L+Ok+Back, release Back,Left.
Target independend code and headers in `src`and `target/include` folders.
# Building
@ -27,21 +29,25 @@ Target independend code and headers in `src`and `target/include` folders.
## With toolchain installed in path:
`make`
`make -C bootloader `
## Build Options
- `DEBUG` - 0/1 - enable or disable debug build. Default is 1.
- `TARGET` - string - target to build. Default is `f2`.
- `TARGET` - string - target to build. Default is `f4`.
# Flashing
Using stlink(st-flash):
`make flash`
`make -C bootloader flash`
Or use ST bootloader:
`make -C bootloader upload`
# Debug
Using stlink (st-util + gdb):
`make debug`
`make -C bootloader debug`

204
bootloader/targets/f2/STM32L476RGTx_FLASH.ld
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@ -1,204 +0,0 @@
/*
******************************************************************************
**
** File : LinkerScript.ld
**
** Author : Auto-generated by System Workbench for STM32
**
** Abstract : Linker script for STM32L476RGTx series
** 1024Kbytes FLASH and 128Kbytes RAM
**
** Set heap size, stack size and stack location according
** to application requirements.
**
** Set memory bank area and size if external memory is used.
**
** Target : STMicroelectronics STM32
**
** Distribution: The file is distributed “as is,” without any warranty
** of any kind.
**
*****************************************************************************
** @attention
**
** <h2><center>&copy; COPYRIGHT(c) 2019 STMicroelectronics</center></h2>
**
** Redistribution and use in source and binary forms, with or without modification,
** are permitted provided that the following conditions are met:
** 1. Redistributions of source code must retain the above copyright notice,
** this list of conditions and the following disclaimer.
** 2. Redistributions in binary form must reproduce the above copyright notice,
** this list of conditions and the following disclaimer in the documentation
** and/or other materials provided with the distribution.
** 3. Neither the name of STMicroelectronics nor the names of its contributors
** may be used to endorse or promote products derived from this software
** without specific prior written permission.
**
** THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
** AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
** IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
** DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE
** FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
** DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
** SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
** CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
** OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
** OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
**
*****************************************************************************
*/
/* Entry Point */
ENTRY(Reset_Handler)
/* Highest address of the user mode stack */
_estack = 0x20018000; /* end of RAM */
/* Generate a link error if heap and stack don't fit into RAM */
_Min_Heap_Size = 0x200; /* required amount of heap */
_Min_Stack_Size = 0x400; /* required amount of stack */
/* Specify the memory areas */
MEMORY
{
RAM (xrw) : ORIGIN = 0x20000000, LENGTH = 96K
RAM2 (xrw) : ORIGIN = 0x10000000, LENGTH = 32K
FLASH (rx) : ORIGIN = 0x8000000, LENGTH = 1024K
}
/* Define output sections */
SECTIONS
{
/* The startup code goes first into FLASH */
.isr_vector :
{
. = ALIGN(8);
KEEP(*(.isr_vector)) /* Startup code */
. = ALIGN(8);
} >FLASH
/* The program code and other data goes into FLASH */
.text :
{
. = ALIGN(8);
*(.text) /* .text sections (code) */
*(.text*) /* .text* sections (code) */
*(.glue_7) /* glue arm to thumb code */
*(.glue_7t) /* glue thumb to arm code */
*(.eh_frame)
KEEP (*(.init))
KEEP (*(.fini))
. = ALIGN(8);
_etext = .; /* define a global symbols at end of code */
} >FLASH
/* Constant data goes into FLASH */
.rodata :
{
. = ALIGN(8);
*(.rodata) /* .rodata sections (constants, strings, etc.) */
*(.rodata*) /* .rodata* sections (constants, strings, etc.) */
. = ALIGN(8);
} >FLASH
.ARM.extab :
{
. = ALIGN(8);
*(.ARM.extab* .gnu.linkonce.armextab.*)
. = ALIGN(8);
} >FLASH
.ARM : {
. = ALIGN(8);
__exidx_start = .;
*(.ARM.exidx*)
__exidx_end = .;
. = ALIGN(8);
} >FLASH
.preinit_array :
{
. = ALIGN(8);
PROVIDE_HIDDEN (__preinit_array_start = .);
KEEP (*(.preinit_array*))
PROVIDE_HIDDEN (__preinit_array_end = .);
. = ALIGN(8);
} >FLASH
.init_array :
{
. = ALIGN(8);
PROVIDE_HIDDEN (__init_array_start = .);
KEEP (*(SORT(.init_array.*)))
KEEP (*(.init_array*))
PROVIDE_HIDDEN (__init_array_end = .);
. = ALIGN(8);
} >FLASH
.fini_array :
{
. = ALIGN(8);
PROVIDE_HIDDEN (__fini_array_start = .);
KEEP (*(SORT(.fini_array.*)))
KEEP (*(.fini_array*))
PROVIDE_HIDDEN (__fini_array_end = .);
. = ALIGN(8);
} >FLASH
/* used by the startup to initialize data */
_sidata = LOADADDR(.data);
/* Initialized data sections goes into RAM, load LMA copy after code */
.data :
{
. = ALIGN(8);
_sdata = .; /* create a global symbol at data start */
*(.data) /* .data sections */
*(.data*) /* .data* sections */
. = ALIGN(8);
_edata = .; /* define a global symbol at data end */
} >RAM AT> FLASH
/* Uninitialized data section */
. = ALIGN(4);
.bss :
{
/* This is used by the startup in order to initialize the .bss secion */
_sbss = .; /* define a global symbol at bss start */
__bss_start__ = _sbss;
*(.bss)
*(.bss*)
*(COMMON)
. = ALIGN(4);
_ebss = .; /* define a global symbol at bss end */
__bss_end__ = _ebss;
} >RAM
/* User_heap_stack section, used to check that there is enough RAM left */
._user_heap_stack :
{
. = ALIGN(8);
PROVIDE ( end = . );
PROVIDE ( _end = . );
. = . + _Min_Heap_Size;
. = . + _Min_Stack_Size;
. = ALIGN(8);
} >RAM
/* Remove information from the standard libraries */
/DISCARD/ :
{
libc.a ( * )
libm.a ( * )
libgcc.a ( * )
}
.ARM.attributes 0 : { *(.ARM.attributes) }
}

154
bootloader/targets/f2/target.c
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@ -1,154 +0,0 @@
#include <target.h>
#include <stm32l4xx.h>
#include <stm32l4xx_ll_system.h>
#include <stm32l4xx_ll_bus.h>
#include <stm32l4xx_ll_utils.h>
#include <stm32l4xx_ll_rcc.h>
#include <stm32l4xx_ll_rtc.h>
#include <stm32l4xx_ll_pwr.h>
#include <stm32l4xx_ll_gpio.h>
// Boot request enum
#define BOOT_REQUEST_NONE 0x00000000
#define BOOT_REQUEST_DFU 0xDF00B000
// Boot to DFU pin
#define BOOT_DFU_PORT GPIOB
#define BOOT_DFU_PIN LL_GPIO_PIN_8
// LCD backlight
#define BOOT_LCD_BL_PORT GPIOB
#define BOOT_LCD_BL_PIN LL_GPIO_PIN_6
// LEDs
#define LED_RED_PORT GPIOA
#define LED_RED_PIN LL_GPIO_PIN_8
#define LED_GREEN_PORT GPIOB
#define LED_GREEN_PIN LL_GPIO_PIN_14
#define LED_BLUE_PORT GPIOB
#define LED_BLUE_PIN LL_GPIO_PIN_1
// USB pins
#define BOOT_USB_PORT GPIOA
#define BOOT_USB_DM_PIN LL_GPIO_PIN_11
#define BOOT_USB_DP_PIN LL_GPIO_PIN_12
#define BOOT_USB_PIN (BOOT_USB_DM_PIN | BOOT_USB_DP_PIN)
void clock_init() {
LL_FLASH_SetLatency(LL_FLASH_LATENCY_4);
LL_RCC_MSI_Enable();
while(LL_RCC_MSI_IsReady() != 1) {
}
/* Main PLL configuration and activation */
LL_RCC_PLL_ConfigDomain_SYS(LL_RCC_PLLSOURCE_MSI, LL_RCC_PLLM_DIV_1, 40, LL_RCC_PLLR_DIV_2);
LL_RCC_PLL_Enable();
LL_RCC_PLL_EnableDomain_SYS();
while(LL_RCC_PLL_IsReady() != 1) {
}
/* Sysclk activation on the main PLL */
LL_RCC_SetAHBPrescaler(LL_RCC_SYSCLK_DIV_1);
LL_RCC_SetSysClkSource(LL_RCC_SYS_CLKSOURCE_PLL);
while(LL_RCC_GetSysClkSource() != LL_RCC_SYS_CLKSOURCE_STATUS_PLL) {
};
/* Set APB1 & APB2 prescaler*/
LL_RCC_SetAPB1Prescaler(LL_RCC_APB1_DIV_1);
LL_RCC_SetAPB2Prescaler(LL_RCC_APB2_DIV_1);
/* Set systick to 1ms in using frequency set to 80MHz */
/* This frequency can be calculated through LL RCC macro */
/* ex: __LL_RCC_CALC_PLLCLK_FREQ(__LL_RCC_CALC_MSI_FREQ(LL_RCC_MSIRANGESEL_RUN, LL_RCC_MSIRANGE_6),
LL_RCC_PLLM_DIV_1, 40, LL_RCC_PLLR_DIV_2)*/
LL_Init1msTick(80000000);
/* Update CMSIS variable (which can be updated also through SystemCoreClockUpdate function) */
LL_SetSystemCoreClock(80000000);
}
void gpio_init() {
LL_AHB2_GRP1_EnableClock(LL_AHB2_GRP1_PERIPH_GPIOA);
LL_AHB2_GRP1_EnableClock(LL_AHB2_GRP1_PERIPH_GPIOB);
// USB D+
LL_GPIO_SetPinMode(BOOT_USB_PORT, BOOT_USB_DP_PIN, LL_GPIO_MODE_OUTPUT);
LL_GPIO_SetPinSpeed(BOOT_USB_PORT, BOOT_USB_DP_PIN, LL_GPIO_SPEED_FREQ_VERY_HIGH);
LL_GPIO_SetPinOutputType(BOOT_USB_PORT, BOOT_USB_DP_PIN, LL_GPIO_OUTPUT_OPENDRAIN);
// USB D-
LL_GPIO_SetPinMode(BOOT_USB_PORT, BOOT_USB_DM_PIN, LL_GPIO_MODE_OUTPUT);
LL_GPIO_SetPinSpeed(BOOT_USB_PORT, BOOT_USB_DM_PIN, LL_GPIO_SPEED_FREQ_VERY_HIGH);
LL_GPIO_SetPinOutputType(BOOT_USB_PORT, BOOT_USB_DM_PIN, LL_GPIO_OUTPUT_OPENDRAIN);
// Button: back
LL_GPIO_SetPinMode(BOOT_DFU_PORT, BOOT_DFU_PIN, LL_GPIO_MODE_INPUT);
LL_GPIO_SetPinPull(BOOT_DFU_PORT, BOOT_DFU_PIN, LL_GPIO_PULL_DOWN);
// Display backlight
LL_GPIO_SetPinMode(BOOT_LCD_BL_PORT, BOOT_LCD_BL_PIN, LL_GPIO_MODE_OUTPUT);
LL_GPIO_SetPinSpeed(BOOT_LCD_BL_PORT, BOOT_LCD_BL_PIN, LL_GPIO_SPEED_FREQ_LOW);
LL_GPIO_SetPinOutputType(BOOT_LCD_BL_PORT, BOOT_LCD_BL_PIN, LL_GPIO_OUTPUT_PUSHPULL);
// LEDs
LL_GPIO_SetPinMode(LED_RED_PORT, LED_RED_PIN, LL_GPIO_MODE_OUTPUT);
LL_GPIO_SetPinOutputType(LED_RED_PORT, LED_RED_PIN, LL_GPIO_OUTPUT_OPENDRAIN);
LL_GPIO_SetOutputPin(LED_RED_PORT, LED_RED_PIN);
LL_GPIO_SetPinMode(LED_GREEN_PORT, LED_GREEN_PIN, LL_GPIO_MODE_OUTPUT);
LL_GPIO_SetPinOutputType(LED_GREEN_PORT, LED_GREEN_PIN, LL_GPIO_OUTPUT_OPENDRAIN);
LL_GPIO_SetOutputPin(LED_GREEN_PORT, LED_GREEN_PIN);
LL_GPIO_SetPinMode(LED_BLUE_PORT, LED_BLUE_PIN, LL_GPIO_MODE_OUTPUT);
LL_GPIO_SetPinOutputType(LED_BLUE_PORT, LED_BLUE_PIN, LL_GPIO_OUTPUT_OPENDRAIN);
LL_GPIO_SetOutputPin(LED_BLUE_PORT, LED_BLUE_PIN);
}
void rtc_init() {
LL_APB1_GRP1_EnableClock(LL_APB1_GRP1_PERIPH_PWR);
LL_PWR_EnableBkUpAccess();
LL_RCC_EnableRTC();
}
void lcd_backlight_on() {
LL_GPIO_SetOutputPin(BOOT_LCD_BL_PORT, BOOT_LCD_BL_PIN);
}
void usb_wire_reset() {
LL_GPIO_ResetOutputPin(BOOT_USB_PORT, BOOT_USB_PIN);
LL_mDelay(10);
LL_GPIO_SetOutputPin(BOOT_USB_PORT, BOOT_USB_PIN);
}
void target_init() {
clock_init();
rtc_init();
gpio_init();
usb_wire_reset();
}
int target_is_dfu_requested() {
if(LL_RTC_BAK_GetRegister(RTC, LL_RTC_BKP_DR0) == BOOT_REQUEST_DFU) {
LL_RTC_BAK_SetRegister(RTC, LL_RTC_BKP_DR0, BOOT_REQUEST_NONE);
return 1;
}
if(LL_GPIO_IsInputPinSet(BOOT_DFU_PORT, BOOT_DFU_PIN)) {
return 1;
}
return 0;
}
void target_switch(void* offset) {
asm volatile("ldr r3, [%0] \n"
"msr msp, r3 \n"
"ldr r3, [%1] \n"
"mov pc, r3 \n"
:
: "r"(offset), "r"(offset + 0x4)
: "r3");
}
void target_switch2dfu() {
LL_GPIO_ResetOutputPin(LED_BLUE_PORT, LED_BLUE_PIN);
// Remap memory to system bootloader
LL_SYSCFG_SetRemapMemory(LL_SYSCFG_REMAP_SYSTEMFLASH);
target_switch(0x0);
}
void target_switch2os() {
LL_GPIO_ResetOutputPin(LED_RED_PORT, LED_RED_PIN);
SCB->VTOR = BOOT_ADDRESS + OS_OFFSET;
target_switch((void*)(BOOT_ADDRESS + OS_OFFSET));
}

30
bootloader/targets/f2/target.mk
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@ -1,30 +0,0 @@
TOOLCHAIN = arm
BOOT_ADDRESS = 0x08000000
FW_ADDRESS = 0x08008000
OS_OFFSET = 0x00008000
FLASH_ADDRESS = 0x08000000
OPENOCD_OPTS = -f interface/stlink.cfg -c "transport select hla_swd" -f target/stm32l4x.cfg -c "init" -c "adapter speed 4000"
BOOT_CFLAGS = -DBOOT_ADDRESS=$(BOOT_ADDRESS) -DFW_ADDRESS=$(FW_ADDRESS) -DOS_OFFSET=$(OS_OFFSET)
MCU_FLAGS = -mcpu=cortex-m4 -mthumb -mfpu=fpv4-sp-d16 -mfloat-abi=hard
CFLAGS += $(MCU_FLAGS) $(BOOT_CFLAGS) -DSTM32L476xx -Wall -fdata-sections -ffunction-sections
LDFLAGS += $(MCU_FLAGS) -specs=nosys.specs -specs=nano.specs
CUBE_DIR = ../lib/STM32CubeL4
CUBE_CMSIS_DIR = $(CUBE_DIR)/Drivers/CMSIS
CUBE_HAL_DIR = $(CUBE_DIR)/Drivers/STM32L4xx_HAL_Driver
ASM_SOURCES += $(CUBE_CMSIS_DIR)/Device/ST/STM32L4xx/Source/Templates/gcc/startup_stm32l476xx.s
C_SOURCES += $(CUBE_CMSIS_DIR)/Device/ST/STM32L4xx/Source/Templates/system_stm32l4xx.c
C_SOURCES += $(CUBE_HAL_DIR)/Src/stm32l4xx_ll_utils.c
CFLAGS += -I$(CUBE_CMSIS_DIR)/Include
CFLAGS += -I$(CUBE_CMSIS_DIR)/Device/ST/STM32L4xx/Include
CFLAGS += -I$(CUBE_HAL_DIR)/Inc
LDFLAGS += -Ttargets/f2/STM32L476RGTx_FLASH.ld
ASM_SOURCES += $(wildcard $(TARGET_DIR)/*.s)
C_SOURCES += $(wildcard $(TARGET_DIR)/*.c)
CPP_SOURCES += $(wildcard $(TARGET_DIR)/*.cpp)

62032
debug/STM32L4x6.svd
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65
firmware/ReadMe.md
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@ -1,77 +1,52 @@
_Overview of Flipper firmware architecture:_
![FW arch](https://github.com/Flipper-Zero/flipperzero-firmware-community/raw/master/wiki_static/flipper_fw_arch.png)
# Project structure
```
.
├── applications # Flipper applications
├── assets # Assets: icons, animation
├── bootloader # Bootloader make project
├── core # Main feature like OS, HAL (target-independed)
├── core-rs # Rust code
├── debug # Debug helpers, configs and plugins
├── docker # Docker toolchain container
├── firmware # Firmware make project
├── lib # Libs and 3rd parties
├── make # Makefile scripts
├── wiki # Documentation (wiki) generates from this files
└── wiki_static # Static files for wiki
```
# HAL
We use STM32 HAL/LL. Description available here: [dm00105879.pdf](https://github.com/Flipper-Zero/flipperzero-firmware-community/raw/master/wiki_static/dm00105879-description-of-stm32f4-hal-and-ll-drivers-stmicroelectronics.pdf)
## Flipper HAL
Some flipper-specific implementation of gpio/HAL:
* Init gpio pin: `app_gpio_init`
* Fast write gpio (inline): `app_gpio_write`
* Fast read gpio (inline): `app_gpio_read`
* Microsecond delay `delay_us`
* Set PWM on timer's pin: `pwm_set`
Files location: `/app/app_hal.[ch]`
# Bootloader
For production targets('f2' and newer) bootloader must be flashed first.
Bootloader must be flashed first.
Detailed instruction on how to compile and flash it you can find in `bootloader` folder.
Production version is going to have following features:
- Hardware initialization
- Firmware CRC check
- Firmware update
- Interactive UI
- Boot process LED indicators
- FS check
- Recovery mode
# OS
CMSIS-RTOS2 over FreeRTOS
**[Timers map](Timers)**
# Platform code
## Platform code
CMSIS, Freertos and HAL files are generated by CubeMX.
You can find platform code for L476 version in `f2` folder:
You can find platform code for STM32WB55 version in `f4` folder:
* `Inc` `Src` — CubeMX generated headers & code
* `Middlewares/Third_Party/FreeRTOS/Source` — freeRTOS
* `deploy.sh` — flash firmware to device
* `STM32L476RGTx_FLASH.ld` — linker script
* `startup_stm32l476xx.s` — board startup/initialization assembler code
* `cube.ioc` — CubeMX project file
```
├── Inc # CubeMX generated headers
├── Src # CubeMX generated code
├── api-hal # Our HAL wrappers and platform specifics
├── ble-glue # BLE specific code(Glue for STMWPAN)
├── f4.ioc # CubeMX project file
├── startup_stm32wb55xx_cm4.s # Board startup/initialization assembler code
├── stm32wb55xx_flash_cm4*.ld # Linker scripts
├── target.mk # Makefile include
You can regenerate platform code:
```
Working with CubeMX:
1. Download CubeMX from [st.com](https://www.st.com/en/development-tools/stm32cubemx.html)
2. Open `*.ioc` file
3. Do whatever you want to
3. Click `generate code`
4. After regenerating, look at git status, regenerating may broke some files.
4. After regenerating, look at git status, regeneration may brake some files.
5. Check one more time that things that you've changes are not covered in platform api-hal. Because you know...
# Flipper Universal Registry Implementation (FURI)