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stm32samples/F1:F103/chronometer_v3/usb.c
Edward Emelianov 733dbd75d2 restructuring
2022-03-10 11:04:14 +03:00

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6.3 KiB
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/*
* geany_encoding=koi8-r
* usb.c - base functions for different USB types
*
* Copyright 2018 Edward V. Emelianov <eddy@sao.ru, edward.emelianoff@gmail.com>
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston,
* MA 02110-1301, USA.
*
*/
#include "flash.h"
#include "usb.h"
#include "usb_lib.h"
#include "usart.h"
// incoming buffer size
#define IDATASZ (256)
static uint8_t incoming_data[IDATASZ];
static uint8_t ovfl = 0;
static uint16_t idatalen = 0;
static volatile uint8_t tx_succesfull = 0;
static int8_t usbON = 0; // ==1 when USB fully configured
// interrupt IN handler (never used?)
static uint16_t EP1_Handler(ep_t ep){
if (ep.rx_flag){
ep.status = SET_VALID_TX(ep.status);
ep.status = KEEP_STAT_RX(ep.status);
}else if (ep.tx_flag){
ep.status = SET_VALID_RX(ep.status);
ep.status = SET_STALL_TX(ep.status);
}
return ep.status;
}
// data IN/OUT handler
static uint16_t EP23_Handler(ep_t ep){
if(ep.rx_flag){
int rd = ep.rx_cnt, rest = IDATASZ - idatalen;
if(rd){
if(rd <= rest){
idatalen += EP_Read(2, (uint16_t*)&incoming_data[idatalen]);
ovfl = 0;
}else{
ep.status = SET_NAK_RX(ep.status);
ovfl = 1;
return ep.status;
}
}
// end of transaction: clear DTOGs
ep.status = CLEAR_DTOG_RX(ep.status);
ep.status = CLEAR_DTOG_TX(ep.status);
ep.status = SET_STALL_TX(ep.status);
}else if (ep.tx_flag){
ep.status = KEEP_STAT_TX(ep.status);
tx_succesfull = 1;
}
ep.status = SET_VALID_RX(ep.status);
return ep.status;
}
void USB_setup(){
NVIC_DisableIRQ(USB_LP_CAN1_RX0_IRQn);
NVIC_DisableIRQ(USB_HP_CAN1_TX_IRQn);
RCC->APB1ENR |= RCC_APB1ENR_USBEN;
USB->CNTR = USB_CNTR_FRES; // Force USB Reset
for(uint32_t ctr = 0; ctr < 72000; ++ctr) nop(); // wait >1ms
//uint32_t ctr = 0;
USB->CNTR = 0;
USB->BTABLE = 0;
USB->DADDR = 0;
USB->ISTR = 0;
USB->CNTR = USB_CNTR_RESETM | USB_CNTR_WKUPM; // allow only wakeup & reset interrupts
NVIC_EnableIRQ(USB_LP_CAN1_RX0_IRQn);
NVIC_EnableIRQ(USB_HP_CAN1_TX_IRQn );
}
void usb_proc(){
if(USB_GetState() == USB_CONFIGURE_STATE){ // USB configured - activate other endpoints
if(!usbON){ // endpoints not activated
// make new BULK endpoint
// Buffer have 1024 bytes, but last 256 we use for CAN bus (30.2 of RM: USB main features)
EP_Init(1, EP_TYPE_INTERRUPT, 10, 0, EP1_Handler); // IN1 - transmit
EP_Init(2, EP_TYPE_BULK, 0, USB_RXBUFSZ, EP23_Handler); // OUT2 - receive data
EP_Init(3, EP_TYPE_BULK, USB_TXBUFSZ, 0, EP23_Handler); // IN3 - transmit data
usbON = 1;
}
}else{
usbON = 0;
}
}
extern uint8_t USB_connected;
void USB_send(const char *buf){
if(!USB_configured()){
DBG("USB not configured");
return;
}
if(!USB_connected) return; // no connection -> no need to send data into nothing
char tmpbuf[USB_TXBUFSZ];
uint16_t l = 0, ctr = 0;
const char *p = buf;
while(*p++) ++l;
while(l){
uint16_t proc = 0, s = (l > USB_TXBUFSZ - 1) ? USB_TXBUFSZ - 1: l;
for(int i = 0; i < s; ++i, ++proc){
char c = buf[ctr+proc];
if(c == '\n' && the_conf.defflags & FLAG_STRENDRN){ // add '\r' before '\n'
tmpbuf[i++] = '\r';
if(i == s) ++s;
}
if(c == 0x1B) tmpbuf[i] = 'E'; // ESC
else if(c == 0x7F) tmpbuf[i] = 'B'; // Backspace
else tmpbuf[i] = c;
}
tx_succesfull = 0;
EP_Write(3, (uint8_t*)tmpbuf, s);
uint32_t ctra = 1000000;
while(--ctra && tx_succesfull == 0);
l -= proc;
ctr += proc;
}
}
/**
* @brief USB_receive
* @param buf (i) - buffer for received data
* @param bufsize - its size
* @return amount of received bytes
*/
int USB_receive(char *buf, int bufsize){
if(!bufsize || !idatalen) return 0;
USB->CNTR = 0;
int sz = (idatalen > bufsize) ? bufsize : idatalen, rest = idatalen - sz;
for(int i = 0; i < sz; ++i) buf[i] = incoming_data[i];
if(rest > 0){
uint8_t *ptr = &incoming_data[sz];
for(int i = 0; i < rest; ++i) incoming_data[i] = *ptr++;
idatalen = rest;
}else idatalen = 0;
if(ovfl){
EP23_Handler(endpoints[2]);
uint16_t epstatus = USB->EPnR[2];
epstatus = CLEAR_DTOG_RX(epstatus);
epstatus = SET_VALID_RX(epstatus);
USB->EPnR[2] = epstatus;
}
USB->CNTR = USB_CNTR_RESETM | USB_CNTR_CTRM;
return sz;
}
/**
* @brief USB_configured
* @return 1 if USB is in configured state
*/
int USB_configured(){
return usbON;
}
/*
* default handlers
*
// SET_LINE_CODING
void WEAK linecoding_handler(usb_LineCoding __attribute__((unused)) *lc){
DBG("WEAK LH");
}
// SET_CONTROL_LINE_STATE
void WEAK clstate_handler(uint16_t __attribute__((unused)) val){
DBG("WEAK CLSH");
}
// SEND_BREAK
void WEAK break_handler(){
DBG("WEAK BH");
}*/
// handler of vendor requests
void WEAK vendor_handler(config_pack_t *packet){
if(packet->bmRequestType & 0x80){ // read
uint8_t c;
switch(packet->wValue){
case 0x8484:
c = 2;
break;
case 0x0080:
c = 1;
break;
case 0x8686:
c = 0xaa;
break;
default:
c = 0;
}
EP_WriteIRQ(0, &c, 1);
}else{ // write ZLP
EP_WriteIRQ(0, (uint8_t *)0, 0);
}
}
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