/* * This file is part of the pl2303 project. * Copyright 2022 Edward V. Emelianov . * * 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 3 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, see . */ #include "proto.h" #include "usart.h" #include "usb.h" #include "version.inc" uint8_t starttest = 0; char *omit_spaces(const char *buf){ while(*buf){ if(*buf > ' ') break; ++buf; } return (char*)buf; } // In case of overflow return `buf` and N==0xffffffff // read decimal number & return pointer to next non-number symbol static char *getdec(const char *buf, uint32_t *N){ char *start = (char*)buf; uint32_t num = 0; while(*buf){ char c = *buf; if(c < '0' || c > '9'){ break; } if(num > 429496729 || (num == 429496729 && c > '5')){ // overflow *N = 0xffffff; return start; } num *= 10; num += c - '0'; ++buf; } *N = num; return (char*)buf; } // read hexadecimal number (without 0x prefix!) static char *gethex(const char *buf, uint32_t *N){ char *start = (char*)buf; uint32_t num = 0; while(*buf){ char c = *buf; uint8_t M = 0; if(c >= '0' && c <= '9'){ M = '0'; }else if(c >= 'A' && c <= 'F'){ M = 'A' - 10; }else if(c >= 'a' && c <= 'f'){ M = 'a' - 10; } if(M){ if(num & 0xf0000000){ // overflow *N = 0xffffff; return start; } num <<= 4; num += c - M; }else{ break; } ++buf; } *N = num; return (char*)buf; } // read octal number (without 0 prefix!) static char *getoct(const char *buf, uint32_t *N){ char *start = (char*)buf; uint32_t num = 0; while(*buf){ char c = *buf; if(c < '0' || c > '7'){ break; } if(num & 0xe0000000){ // overflow *N = 0xffffff; return start; } num <<= 3; num += c - '0'; ++buf; } *N = num; return (char*)buf; } // read binary number (without b prefix!) static char *getbin(const char *buf, uint32_t *N){ char *start = (char*)buf; uint32_t num = 0; while(*buf){ char c = *buf; if(c < '0' || c > '1'){ break; } if(num & 0x80000000){ // overflow *N = 0xffffff; return start; } num <<= 1; if(c == '1') num |= 1; ++buf; } *N = num; return (char*)buf; } /** * @brief getnum - read uint32_t from string (dec, hex or bin: 127, 0x7f, 0b1111111) * @param buf - buffer with number and so on * @param N - the number read * @return pointer to first non-number symbol in buf * (if it is == buf, there's no number or if *N==0xffffffff there was overflow) */ char *getnum(const char *txt, uint32_t *N){ char *nxt = NULL; char *s = omit_spaces(txt); if(*s == '0'){ // hex, oct or 0 if(s[1] == 'x' || s[1] == 'X'){ // hex nxt = gethex(s+2, N); if(nxt == s+2) nxt = (char*)txt; }else if(s[1] > '0'-1 && s[1] < '8'){ // oct nxt = getoct(s+1, N); if(nxt == s+1) nxt = (char*)txt; }else{ // 0 nxt = s+1; *N = 0; } }else if(*s == 'b' || *s == 'B'){ nxt = getbin(s+1, N); if(nxt == s+1) nxt = (char*)txt; }else{ nxt = getdec(s, N); if(nxt == s) nxt = (char*)txt; } return nxt; } const char* helpmsg = "https://github.com/eddyem/stm32samples/tree/master/F3:F303/PL2303 build#" BUILD_NUMBER " @ " BUILD_DATE "\n" "'i' - print USB->ISTR state\n" "'p' - toggle USB pullup\n" "'N' - read number (dec, 0xhex, 0oct, bbin) and show it in decimal\n" "'R' - software reset\n" "'T' - test usb sending a very large message\n" "'U' - get USB status\n" "'W' - test watchdog\n" ; static char stbuf[256], *bptr = NULL; static int blen = 0; static void initbuf(){bptr = stbuf; blen = 255; *bptr = 0;} static void add2buf(const char *s){ while(blen && *s){ *bptr++ = *s++; --blen; } *bptr = 0; } extern uint8_t usbON; const char *parse_cmd(const char *buf){ initbuf(); if(buf[1] == '\n' || !buf[1]){ // one symbol commands switch(*buf){ case 'i': add2buf("USB->ISTR="); add2buf(u2hexstr(USB->ISTR)); add2buf(", USB->CNTR="); add2buf(u2hexstr(USB->CNTR)); add2buf("\n"); break; case 'p': pin_toggle(USBPU_port, USBPU_pin); add2buf("USB pullup is "); if(pin_read(USBPU_port, USBPU_pin)) add2buf("off\n"); else add2buf("on\n"); break; case 'R': USB_sendstr("Soft reset\n"); usart_send("Soft reset\n"); NVIC_SystemReset(); break; case 'T': add2buf("STARTT="); add2buf(u2str(Tms)); add2buf("\n"); starttest = 10; break; case 'U': add2buf("USB status: "); if(usbON) add2buf("ON"); else add2buf("OFF"); add2buf("\n"); break; case 'W': USB_sendstr("Wait for reboot\n"); usart_send("Wait for reboot\n"); while(1){nop();}; break; default: return helpmsg; } return stbuf; } uint32_t Num = 0; char *nxt; switch(*buf){ // long messages case 'N': ++buf; nxt = getnum(buf, &Num); if(buf == nxt){ if(Num == 0) return "Wrong number\n"; return "Integer32 overflow\n"; } add2buf("You give: "); add2buf(u2str(Num)); if(*nxt && *nxt != '\n'){ add2buf(", the rest of string: "); add2buf(nxt); }else add2buf("\n"); break; default: return buf; } return stbuf; } // return string with number `val` char *u2str(uint32_t val){ static char strbuf[11]; char *bufptr = &strbuf[10]; *bufptr = 0; if(!val){ *(--bufptr) = '0'; }else{ while(val){ *(--bufptr) = val % 10 + '0'; val /= 10; } } return bufptr; } char *u2hexstr(uint32_t val){ static char strbuf[11] = "0x"; char *sptr = strbuf + 2; uint8_t *ptr = (uint8_t*)&val + 3; int8_t i, j, z=1; for(i = 0; i < 4; ++i, --ptr){ if(*ptr == 0){ // omit leading zeros if(i == 3) z = 0; if(z) continue; } else z = 0; for(j = 1; j > -1; --j){ uint8_t half = (*ptr >> (4*j)) & 0x0f; if(half < 10) *sptr++ = half + '0'; else *sptr++ = half - 10 + 'a'; } } *sptr = 0; return strbuf; }