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#include <stdbool.h>
#include <stdint.h>
#include <assert.h>
#include <string.h>
#include <math.h>
#include <stm32f407xx.h>
#include <stm32f4_isr.h>
#include "sr_global.h"
#include "adc.h"
#include "spi_flash.h"
#include "freq_meas.h"
#include "dsss_demod.h"
#include "con_usart.h"
#include "mspdebug_wrapper.h"
#include "crypto.h"
static struct spi_flash_if spif;
unsigned int sysclk_speed = 0;
unsigned int apb1_speed = 0;
unsigned int apb2_speed = 0;
unsigned int auxclk_speed = 0;
unsigned int apb1_timer_speed = 0;
unsigned int apb2_timer_speed = 0;
struct leds leds;
ssize_t jt_spi_flash_read_block(void *usr, int addr, size_t len, uint8_t *out);
static void update_image_flash_counter(void);
void __libc_init_array(void) { /* we don't need this. */ }
void __assert_func (unused_a const char *file, unused_a int line, unused_a const char *function, unused_a const char *expr) {
asm volatile ("bkpt");
while(1) {}
}
static void clock_setup(void)
{
/* 8MHz HSE clock as PLL source. */
#define HSE_SPEED 8000000
/* Divide by 8 -> 1 MHz */
#define PLL_M 8
/* Multiply by 336 -> 336 MHz VCO frequency */
#define PLL_N 336
/* Divide by 4 -> 84 MHz (max freq for our chip) */
#define PLL_P 2
/* Aux clock for USB OTG, SDIO, RNG: divide VCO frequency (336 MHz) by 7 -> 48 MHz (required by USB OTG) */
#define PLL_Q 7
if (((RCC->CFGR & RCC_CFGR_SWS_Msk) >> RCC_CFGR_SW_Pos) != 0)
asm volatile ("bkpt");
if (RCC->CR & RCC_CR_HSEON)
asm volatile ("bkpt");
RCC->CR |= RCC_CR_HSEON;
while(!(RCC->CR & RCC_CR_HSERDY))
;
RCC->APB1ENR |= RCC_APB1ENR_PWREN;
/* set voltage scale to 1 for max frequency
* (0b0) scale 2 for fCLK <= 144 Mhz
* (0b1) scale 1 for 144 Mhz < fCLK <= 168 Mhz
*/
PWR->CR |= PWR_CR_VOS;
/* set AHB prescaler to /1 (CFGR:bits 7:4) */
RCC->CFGR |= (0 << RCC_CFGR_HPRE_Pos);
/* set ABP1 prescaler to 4 -> 42MHz */
RCC->CFGR |= (5 << RCC_CFGR_PPRE1_Pos);
/* set ABP2 prescaler to 2 -> 84MHz */
RCC->CFGR |= (4 << RCC_CFGR_PPRE2_Pos);
if (RCC->CR & RCC_CR_PLLON)
asm volatile ("bkpt");
/* Configure PLL */
static_assert(PLL_P % 2 == 0);
static_assert(PLL_P >= 2 && PLL_P <= 8);
static_assert(PLL_N >= 50 && PLL_N <= 432);
static_assert(PLL_M >= 2 && PLL_M <= 63);
static_assert(PLL_Q >= 2 && PLL_Q <= 15);
uint32_t old = RCC->PLLCFGR & ~(RCC_PLLCFGR_PLLM_Msk
| RCC_PLLCFGR_PLLN_Msk
| RCC_PLLCFGR_PLLP_Msk
| RCC_PLLCFGR_PLLQ_Msk
| RCC_PLLCFGR_PLLSRC);
RCC->PLLCFGR = old | (PLL_M<<RCC_PLLCFGR_PLLM_Pos)
| (PLL_N << RCC_PLLCFGR_PLLN_Pos)
| ((PLL_P/2 - 1) << RCC_PLLCFGR_PLLP_Pos)
| (PLL_Q << RCC_PLLCFGR_PLLQ_Pos)
| RCC_PLLCFGR_PLLSRC; /* select HSE as PLL source */
RCC->CR |= RCC_CR_PLLON;
sysclk_speed = HSE_SPEED / PLL_M * PLL_N / PLL_P;
auxclk_speed = HSE_SPEED / PLL_M * PLL_N / PLL_Q;
apb1_speed = sysclk_speed / 4;
apb1_timer_speed = apb1_speed * 2;
apb2_speed = sysclk_speed / 2;
apb2_timer_speed = apb2_speed * 2;
/* Wait for main PLL */
while(!(RCC->CR & RCC_CR_PLLRDY))
;
/* Configure Flash: enable prefetch, insn cache, data cache; set latency = 5 wait states
* See reference manual (RM0090), Section 3.5.1, Table 10 (p. 80)
*/
FLASH->ACR = FLASH_ACR_PRFTEN | FLASH_ACR_ICEN | FLASH_ACR_DCEN | (5<<FLASH_ACR_LATENCY_Pos);
/* Select PLL as system clock source */
RCC->CFGR &= ~RCC_CFGR_SW_Msk;
RCC->CFGR |= 2 << RCC_CFGR_SW_Pos;
/* Wait for clock to switch over */
while ((RCC->CFGR & RCC_CFGR_SWS_Msk)>>RCC_CFGR_SWS_Pos != 2)
;
}
static void led_setup(void)
{
RCC->AHB1ENR |= RCC_AHB1ENR_GPIOAEN | RCC_AHB1ENR_GPIOBEN;
/* onboard leds */
GPIOA->MODER |= (1<<GPIO_MODER_MODER6_Pos) | (1<<GPIO_MODER_MODER7_Pos);
GPIOB->MODER |= (1<<GPIO_MODER_MODER11_Pos) | (1<<GPIO_MODER_MODER12_Pos) | (1<<GPIO_MODER_MODER13_Pos)| (1<<GPIO_MODER_MODER14_Pos);
GPIOB->BSRR = 0xf << 11;
}
static void spi_flash_if_set_cs(bool val) {
if (val)
GPIOB->BSRR = 1<<0;
else
GPIOB->BSRR = 1<<16;
}
static void spi_flash_setup(void)
{
RCC->AHB1ENR |= RCC_AHB1ENR_GPIOBEN;
GPIOB->MODER &= ~GPIO_MODER_MODER3_Msk & ~GPIO_MODER_MODER4_Msk & ~GPIO_MODER_MODER5_Msk & ~GPIO_MODER_MODER0_Msk;
GPIOB->MODER |= (2<<GPIO_MODER_MODER3_Pos) /* SCK */
| (2<<GPIO_MODER_MODER4_Pos) /* MISO */
| (2<<GPIO_MODER_MODER5_Pos) /* MOSI */
| (1<<GPIO_MODER_MODER0_Pos); /* CS */
GPIOB->OSPEEDR &= ~GPIO_OSPEEDR_OSPEED3_Msk & ~GPIO_OSPEEDR_OSPEED4_Msk
& ~GPIO_OSPEEDR_OSPEED5_Msk & ~GPIO_OSPEEDR_OSPEED0_Msk;
GPIOB->OSPEEDR |= (2<<GPIO_OSPEEDR_OSPEED3_Pos) /* SCK */
| (2<<GPIO_OSPEEDR_OSPEED4_Pos) /* MISO */
| (2<<GPIO_OSPEEDR_OSPEED5_Pos) /* MOSI */
| (2<<GPIO_OSPEEDR_OSPEED0_Pos); /* CS */
GPIOB->AFR[0] &= ~GPIO_AFRL_AFSEL3_Msk & ~GPIO_AFRL_AFSEL4_Msk & ~GPIO_AFRL_AFSEL5_Msk;
GPIOB->AFR[0] |= (5<<GPIO_AFRL_AFSEL3_Pos) | (5<<GPIO_AFRL_AFSEL4_Pos) | (5<<GPIO_AFRL_AFSEL5_Pos);
RCC->APB2ENR |= RCC_APB2ENR_SPI1EN;
RCC->APB2RSTR |= RCC_APB2RSTR_SPI1RST;
RCC->APB2RSTR &= ~RCC_APB2RSTR_SPI1RST;
spif_init(&spif, 256, SPI1, &spi_flash_if_set_cs);
}
/* SPI flash test routine to be called from gdb */
#ifdef SPI_FLASH_TEST
void spi_flash_test(void) {
spif_clear_mem(&spif);
uint32_t buf[1024];
for (size_t addr=0; addr<0x10000; addr += sizeof(buf)) {
for (size_t i=0; i<sizeof(buf); i+= sizeof(buf[0]))
buf[i/sizeof(buf[0])] = addr + i;
spif_write(&spif, addr, sizeof(buf), (char *)buf);
}
for (size_t i=0; i<sizeof(buf)/sizeof(buf[0]); i++)
buf[i] = 0;
spif_read(&spif, 0x1030, sizeof(buf), (char *)buf);
asm volatile ("bkpt");
}
#endif
static struct jtag_img_descriptor {
size_t devmem_img_start;
size_t spiflash_img_start;
size_t img_len;
} jtag_img = {
.devmem_img_start = 0x00c000,
.spiflash_img_start = 0x000000,
.img_len = 0x004000,
};
char fw_dump[0x4000] = {
#include "EasyMeter_Q3DA1002_V3.03_fw_dump_0xc000.h"
};
const int fw_dump_offx = 0xc000;
const int row2_offx = 0xf438 - fw_dump_offx;
ssize_t jt_spi_flash_read_block(void *usr, int addr, size_t len, uint8_t *out) {
/*
struct jtag_img_descriptor *desc = (struct jtag_img_descriptor *)usr;
return spif_read(&spif, desc->spiflash_img_start + addr, len, (char *)out);
*/
for (size_t i=0; i<len; i++)
out[i] = fw_dump[addr - fw_dump_offx + i];
return len;
}
void update_image_flash_counter() {
static int flash_counter = 0;
flash_counter ++;
fw_dump[row2_offx + 0] = flash_counter/10000 + '0';
flash_counter %= 10000;
fw_dump[row2_offx + 1] = flash_counter/1000 + '0';
flash_counter %= 1000;
fw_dump[row2_offx + 2] = flash_counter/100 + '0';
flash_counter %= 100;
fw_dump[row2_offx + 3] = flash_counter/10 + '0';
flash_counter %= 10;
fw_dump[row2_offx + 4] = flash_counter + '0';
}
/* Callback from crypto.c:oob_message_received */
void oob_trigger_activated(enum trigger_domain domain, int serial) {
con_printf("oob_trigger_activated(%d, %d)\r\n", domain, serial);
con_printf("Attempting to flash meter...\r\n");
update_image_flash_counter();
int flash_tries = 0;
while (flash_tries++ < 25) {
mspd_jtag_init();
if (!mspd_jtag_flash_and_reset(jtag_img.devmem_img_start, jtag_img.img_len, jt_spi_flash_read_block, &jtag_img))
break;
for (int j=0; j<168*1000*5; j++)
asm volatile ("nop");
}
if (flash_tries == 25)
con_printf("Giving up.\r\n");
}
static unsigned int measurement_errors = 0;
static struct dsss_demod_state demod_state;
static uint32_t freq_sample_ts = 0;
static float debug_last_freq = 0;
int main(void)
{
#if DEBUG
/* PLL clock on MCO2 (pin C9) */
RCC->AHB1ENR |= RCC_AHB1ENR_GPIOCEN;
GPIOC->MODER &= ~GPIO_MODER_MODER9_Msk;
GPIOC->MODER |= (2<<GPIO_MODER_MODER9_Pos);
GPIOC->AFR[1] &= ~GPIO_AFRH_AFSEL9_Msk;
GPIOC->OSPEEDR |= (3<<GPIO_OSPEEDR_OSPEED9_Pos);
RCC->CFGR |= (6<<RCC_CFGR_MCO2PRE_Pos) | (3<<RCC_CFGR_MCO2_Pos);
#endif
if (((SCB->CPACR>>20) & 0xf) != 0xf) {
asm volatile ("bkpt");
}
clock_setup();
con_usart_init();
con_printf("\033[0m\033[2J\033[HBooting...\r\n");
led_setup();
spi_flash_setup();
adc_init();
#if DEBUG
/* TIM1 CC1 (ADC trigger) on pin A8 */
GPIOA->MODER &= ~GPIO_MODER_MODER8_Msk;
GPIOA->MODER |= (2<<GPIO_MODER_MODER8_Pos);
GPIOA->AFR[1] &= ~GPIO_AFRH_AFSEL8_Msk;
GPIOA->AFR[1] |= 1<<GPIO_AFRH_AFSEL8_Pos;
GPIOA->MODER |= (1<<GPIO_MODER_MODER11_Pos) | (1<<GPIO_MODER_MODER12_Pos) | (1<<GPIO_MODER_MODER15_Pos);
#endif
dsss_demod_init(&demod_state);
con_printf("Booted.\r\n");
/* FIXME DEBUG */
#if 0
uint8_t test_data[TRANSMISSION_SYMBOLS] = {
0
};
con_printf("Test 0\r\n");
handle_dsss_received(test_data);
uint8_t test_data2[TRANSMISSION_SYMBOLS] = {
0x24, 0x0f, 0x3b, 0x10, 0x27, 0x0e, 0x22, 0x30, 0x01, 0x2c, 0x1c, 0x0b, 0x35, 0x0a, 0x12, 0x27, 0x11, 0x20,
0x0c, 0x10, 0xc0, 0x08, 0xa4, 0x72, 0xa9, 0x9b, 0x7b, 0x27, 0xee, 0xcd
};
con_printf("Test 1\r\n");
handle_dsss_received(test_data2);
#endif
/* END DEBUG */
while (23) {
if (adc_fft_buf_ready_idx != -1) {
for (int j=0; j<168*1000*2; j++)
asm volatile ("nop");
GPIOA->BSRR = 1<<11;
memcpy(adc_fft_buf[!adc_fft_buf_ready_idx], adc_fft_buf[adc_fft_buf_ready_idx] + FMEAS_FFT_LEN/2, sizeof(adc_fft_buf[0][0]) * FMEAS_FFT_LEN/2);
GPIOA->BSRR = 1<<11<<16;
GPIOB->ODR ^= 1<<14;
bool clip_low=false, clip_high=false;
const int clip_thresh = 100;
for (size_t j=FMEAS_FFT_LEN/2; j<FMEAS_FFT_LEN; j++) {
int val = adc_fft_buf[adc_fft_buf_ready_idx][j];
if (val < clip_thresh)
clip_low = true;
if (val > FMEAS_ADC_MAX-clip_thresh)
clip_high = true;
}
GPIOB->ODR = (GPIOB->ODR & ~(3<<11)) | (!clip_low<<11) | (!clip_high<<12);
for (int j=0; j<168*1000*2; j++)
asm volatile ("nop");
GPIOA->BSRR = 1<<11;
float out;
if (adc_buf_measure_freq(adc_fft_buf[adc_fft_buf_ready_idx], &out)) {
con_printf("%012d: measurement error\r\n", freq_sample_ts);
measurement_errors++;
GPIOB->BSRR = 1<<13;
debug_last_freq = NAN;
} else {
debug_last_freq = out;
con_printf("%012d: %2d.%03d Hz\r\n", freq_sample_ts, (int)out, (int)(out * 1000) % 1000);
/* frequency ok led */
if (48 < out && out < 52)
GPIOB->BSRR = 1<<13<<16;
else
GPIOB->BSRR = 1<<13;
GPIOA->BSRR = 1<<12;
dsss_demod_step(&demod_state, out, freq_sample_ts);
GPIOA->BSRR = 1<<12<<16;
}
GPIOA->BSRR = 1<<11<<16;
freq_sample_ts++; /* TODO: also increase in case of freq measurement error? */
adc_fft_buf_ready_idx = -1;
}
}
return 0;
}
void NMI_Handler(void) {
asm volatile ("bkpt #1");
}
void HardFault_Handler(void) {
asm volatile ("bkpt #2");
}
void MemManage_Handler(void) {
asm volatile ("bkpt #3");
}
void BusFault_Handler(void) {
asm volatile ("bkpt #4");
}
void UsageFault_Handler(void) {
asm volatile ("bkpt #5");
}
void SVC_Handler(void) {
asm volatile ("bkpt #6");
}
void DebugMon_Handler(void) {
asm volatile ("bkpt #7");
}
void PendSV_Handler(void) {
asm volatile ("bkpt #8");
}
void SysTick_Handler(void) {
asm volatile ("bkpt #9");
}
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