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trezor-firmware/micropython/trezorhal/main.c

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5.9 KiB
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2017-02-24 12:19:00 +00:00
#include <stdint.h>
#include <stdio.h>
#include <string.h>
#include "usbd_core.h"
#include "usbd_desc.h"
#include "usbd_cdc_msc_hid.h"
#include "usbd_cdc_interface.h"
#include "usbd_hid_interface.h"
#include "py/nlr.h"
#include "py/compile.h"
#include "py/runtime.h"
#include "py/stackctrl.h"
#include "py/repl.h"
#include "py/gc.h"
#include "lib/utils/pyexec.h"
#include "pendsv.h"
void SystemClock_Config(void);
extern uint32_t _etext;
extern uint32_t _sidata;
extern uint32_t _ram_start;
extern uint32_t _sdata;
extern uint32_t _edata;
extern uint32_t _sbss;
extern uint32_t _ebss;
extern uint32_t _heap_start;
extern uint32_t _heap_end;
extern uint32_t _estack;
extern uint32_t _ram_end;
void flash_init(void);
void usb_init(void);
int main(void) {
// STM32F4xx HAL library initialization:
// - configure the Flash prefetch, instruction and data caches
// - configure the Systick to generate an interrupt each 1 msec
// - set NVIC Group Priority to 4
// - global MSP (MCU Support Package) initialization
HAL_Init();
// Set the system clock to be HSE
SystemClock_Config();
// Enable GPIO clocks
__HAL_RCC_GPIOA_CLK_ENABLE();
__HAL_RCC_GPIOB_CLK_ENABLE();
__HAL_RCC_GPIOC_CLK_ENABLE();
__HAL_RCC_GPIOD_CLK_ENABLE();
// Enable the CCM RAM
__HAL_RCC_CCMDATARAMEN_CLK_ENABLE();
// machine_init
if (PWR->CSR & PWR_CSR_SBF) {
PWR->CR |= PWR_CR_CSBF;
}
RCC->CSR |= RCC_CSR_RMVF;
pendsv_init();
flash_init();
usb_init();
// TODO: sdcard
for (;;) {
// Stack limit should be less than real stack size, so we have a chance
// to recover from limit hit.
mp_stack_set_top(&_estack);
mp_stack_set_limit((char*)&_estack - (char*)&_heap_end - 1024);
// GC init
gc_init(&_heap_start, &_heap_end);
// Interpreter init
mp_init();
mp_obj_list_init(mp_sys_argv, 0);
mp_obj_list_init(mp_sys_path, 0);
mp_obj_list_append(mp_sys_path, MP_OBJ_NEW_QSTR(MP_QSTR_)); // current dir (or base dir of the script)
// Run the main script
pyexec_frozen_module("main.py");
// Clean up
mp_deinit();
}
return 0;
}
// Errors
void NORETURN nlr_jump_fail(void *val) {
for (;;) {}
}
void NORETURN __fatal_error(const char *msg) {
for (;;) {}
}
#ifndef NDEBUG
void MP_WEAK __assert_func(const char *file, int line, const char *func, const char *expr) {
printf("Assertion '%s' failed, at file %s:%d\n", expr, file, line);
__fatal_error("Assertion failed");
}
#endif
// Flash
void flash_init(void) {
// Enable the flash IRQ, which is used to also call our storage IRQ handler
// It needs to go at a higher priority than all those components that rely on
// the flash storage (eg higher than USB MSC).
HAL_NVIC_SetPriority(FLASH_IRQn, 2, 0);
HAL_NVIC_EnableIRQ(FLASH_IRQn);
}
// USB
USBD_HandleTypeDef hUSBDDevice;
void usb_init(void) {
const uint16_t vid = 0x1209;
const uint16_t pid = 0x53C1;
USBD_HID_ModeInfoTypeDef hid_info = {
.subclass = 0,
.protocol = 0,
.max_packet_len = 64,
.polling_interval = 1,
.report_desc = (const uint8_t*)"\x06\x00\xff\x09\x01\xa1\x01\x09\x20\x15\x00\x26\xff\x00\x75\x08\x95\x40\x81\x02\x09\x21\x15\x00\x26\xff\x00\x75\x08\x95\x40\x91\x02\xc0",
.report_desc_len = 34,
};
USBD_SetVIDPIDRelease(vid, pid, 0x0200, 0);
if (USBD_SelectMode(USBD_MODE_CDC_HID, &hid_info) != 0) {
for (;;) {
__fatal_error("USB init failed");
}
}
USBD_Init(&hUSBDDevice, (USBD_DescriptorsTypeDef*)&USBD_Descriptors, 0); // 0 == full speed
USBD_RegisterClass(&hUSBDDevice, &USBD_CDC_MSC_HID);
USBD_CDC_RegisterInterface(&hUSBDDevice, (USBD_CDC_ItfTypeDef*)&USBD_CDC_fops);
USBD_HID_RegisterInterface(&hUSBDDevice, (USBD_HID_ItfTypeDef*)&USBD_HID_fops);
USBD_Start(&hUSBDDevice);
}
// I2C
I2C_HandleTypeDef *I2CHandle1;
void i2c_init(I2C_HandleTypeDef *i2c) {
// Enable I2C clock
__HAL_RCC_I2C1_CLK_ENABLE();
// Init SCL and SDA GPIO lines (PB6 & PB7)
GPIO_InitTypeDef GPIO_InitStructure = {
.Pin = GPIO_PIN_6 | GPIO_PIN_7,
.Mode = GPIO_MODE_AF_OD,
.Pull = GPIO_NOPULL,
.Speed = GPIO_SPEED_FREQ_VERY_HIGH,
.Alternate = GPIO_AF4_I2C1,
};
HAL_GPIO_Init(GPIOB, &GPIO_InitStructure);
// Init I2C handle
if (HAL_I2C_Init(i2c) != HAL_OK) {
for (;;) {
__fatal_error("i2c_init failed");
}
}
// Enable IRQs
I2CHandle1 = i2c;
HAL_NVIC_EnableIRQ(I2C1_EV_IRQn);
HAL_NVIC_EnableIRQ(I2C1_ER_IRQn);
}
// RNG
STATIC RNG_HandleTypeDef rng_handle = {
.State = HAL_RNG_STATE_RESET,
.Instance = RNG,
};
void rng_init(RNG_HandleTypeDef *rng) {
// Enable RNG clock
__HAL_RCC_RNG_CLK_ENABLE();
// Init RNG handle
HAL_RNG_Init(rng);
}
uint32_t rng_get(void) {
if (rng_handle.State == HAL_RNG_STATE_RESET) {
rng_init(&rng_handle);
}
return HAL_RNG_GetRandomNumber(&rng_handle);
}
// I/O
mp_lexer_t *mp_lexer_new_from_file(const char *filename) {
return NULL;
}
mp_import_stat_t mp_import_stat(const char *path) {
return MP_IMPORT_STAT_NO_EXIST;
}
mp_obj_t mp_builtin_open(uint n_args, const mp_obj_t *args, mp_map_t *kwargs) {
return mp_const_none;
}
MP_DEFINE_CONST_FUN_OBJ_KW(mp_builtin_open_obj, 1, mp_builtin_open);
int mp_hal_stdin_rx_chr(void) {
for (;;) {
byte c;
if (USBD_CDC_Rx(&c, 1, 0) != 0) {
return c;
}
}
}
void mp_hal_stdout_tx_strn(const char *str, size_t len) {
USBD_CDC_TxAlways((const uint8_t*)str, len);
}
// Time
bool mp_hal_ticks_cpu_enabled;
void mp_hal_ticks_cpu_enable(void) {
if (!mp_hal_ticks_cpu_enabled) {
// CoreDebug->DEMCR |= CoreDebug_DEMCR_TRCENA_Msk;
// DWT->CYCCNT = 0;
// DWT->CTRL |= DWT_CTRL_CYCCNTENA_Msk;
mp_hal_ticks_cpu_enabled = true;
}
}