/* xdrv_10_scripter.ino - script support for Tasmota Copyright (C) 2020 Gerhard Mutz and Theo Arends 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 . */ #ifdef USE_SCRIPT #ifndef USE_RULES /*********************************************************************************************\ for documentation see up to date docs in file SCRIPTER.md uses about 17 k of flash to do optimize code for space remarks goal is fast execution time, minimal use of ram and intuitive syntax therefore => case sensitive cmds and vars (lowercase uses time and code) no math hierarchy (costs ram and execution time, better group with brackets, anyhow better readable for beginners) (will probably make math hierarchy an ifdefed option) keywords if then else endif, or, and are better readable for beginners (others may use {}) \*********************************************************************************************/ #define XDRV_10 10 #define XI2C_37 37 // See I2CDEVICES.md #define SCRIPT_DEBUG 0 #ifndef MAXVARS #define MAXVARS 50 #endif #ifndef MAXSVARS #define MAXSVARS 5 #endif #define MAXNVARS MAXVARS-MAXSVARS #define MAXFILT 5 #define SCRIPT_SVARSIZE 20 #define SCRIPT_MAXSSIZE 48 #define SCRIPT_EOL '\n' #define SCRIPT_FLOAT_PRECISION 2 #define PMEM_SIZE sizeof(Settings.script_pram) #define SCRIPT_MAXPERM (PMEM_SIZE)-4/sizeof(float) #define MAX_SCRIPT_SIZE MAX_RULE_SIZE*MAX_RULE_SETS uint32_t EncodeLightId(uint8_t relay_id); uint32_t DecodeLightId(uint32_t hue_id); #if defined(ESP32) && defined(ESP32_SCRIPT_SIZE) && !defined(USE_24C256) && !defined(USE_SCRIPT_FATFS) #include "FS.h" #include "SPIFFS.h" void SaveFile(const char *name,const uint8_t *buf,uint32_t len) { File file = SPIFFS.open(name, FILE_WRITE); if (!file) return; file.write(buf, len); file.close(); } #define FORMAT_SPIFFS_IF_FAILED true uint8_t spiffs_mounted=0; void LoadFile(const char *name,uint8_t *buf,uint32_t len) { if (!spiffs_mounted) { if(!SPIFFS.begin(FORMAT_SPIFFS_IF_FAILED)){ //Serial.println("SPIFFS Mount Failed"); return; } spiffs_mounted=1; } File file = SPIFFS.open(name); if (!file) return; file.read(buf, len); file.close(); } #endif // offsets epoch readings by 1.1.2019 00:00:00 to fit into float with second resolution #define EPOCH_OFFSET 1546300800 enum {OPER_EQU=1,OPER_PLS,OPER_MIN,OPER_MUL,OPER_DIV,OPER_PLSEQU,OPER_MINEQU,OPER_MULEQU,OPER_DIVEQU,OPER_EQUEQU,OPER_NOTEQU,OPER_GRTEQU,OPER_LOWEQU,OPER_GRT,OPER_LOW,OPER_PERC,OPER_XOR,OPER_AND,OPER_OR,OPER_ANDEQU,OPER_OREQU,OPER_XOREQU,OPER_PERCEQU}; enum {SCRIPT_LOGLEVEL=1,SCRIPT_TELEPERIOD}; #ifdef USE_SCRIPT_FATFS #include //#define USE_MMC #ifdef USE_MMC #include #undef FS_USED #define FS_USED SD_MMC #else #include #undef FS_USED #define FS_USED SD #endif #ifndef ESP32 #undef FILE_WRITE #define FILE_WRITE (sdfat::O_READ | sdfat::O_WRITE | sdfat::O_CREAT) #define FILE_APPEND (sdfat::O_READ | sdfat::O_WRITE | sdfat::O_CREAT | sdfat::O_APPEND) #endif #ifndef FAT_SCRIPT_SIZE #define FAT_SCRIPT_SIZE 4096 #endif #ifdef ESP32 #undef FAT_SCRIPT_NAME #define FAT_SCRIPT_NAME "/script.txt" #else #undef FAT_SCRIPT_NAME #define FAT_SCRIPT_NAME "script.txt" #endif #if USE_STANDARD_SPI_LIBRARY==0 #warning ("FATFS standard spi should be used"); #endif #endif #ifdef SUPPORT_MQTT_EVENT #include // Import LinkedList library typedef struct { String Event; String Topic; String Key; } MQTT_Subscription; LinkedList subscriptions; #endif //SUPPORT_MQTT_EVENT #ifdef USE_DISPLAY #ifdef USE_TOUCH_BUTTONS #include extern VButton *buttons[MAXBUTTONS]; #endif #endif typedef union { uint8_t data; struct { uint8_t is_string : 1; // string or number uint8_t is_permanent : 1; uint8_t is_timer : 1; uint8_t is_autoinc : 1; uint8_t changed : 1; uint8_t settable : 1; uint8_t is_filter : 1; uint8_t constant : 1; }; } SCRIPT_TYPE; struct T_INDEX { uint8_t index; SCRIPT_TYPE bits; }; struct M_FILT { uint8_t numvals; uint8_t index; float maccu; float rbuff[1]; }; typedef union { uint8_t data; struct { uint8_t nutu8 : 1; uint8_t nutu7 : 1; uint8_t nutu6 : 1; uint8_t nutu5 : 1; uint8_t nutu4 : 1; uint8_t nutu3 : 1; uint8_t is_dir : 1; uint8_t is_open : 1; }; } FILE_FLAGS; #define SFS_MAX 4 // global memory struct SCRIPT_MEM { float *fvars; // number var pointer float *s_fvars; // shadow var pointer struct T_INDEX *type; // type and index pointer struct M_FILT *mfilt; char *glob_vnp; // var name pointer uint8_t *vnp_offset; char *glob_snp; // string vars pointer char *scriptptr; char *section_ptr; char *scriptptr_bu; char *script_ram; uint16_t script_size; uint8_t *script_pram; uint16_t script_pram_size; uint8_t numvars; void *script_mem; uint16_t script_mem_size; uint8_t script_dprec; uint8_t var_not_found; uint8_t glob_error; uint8_t max_ssize; uint8_t script_loglevel; uint8_t flags; #ifdef USE_SCRIPT_FATFS File files[SFS_MAX]; FILE_FLAGS file_flags[SFS_MAX]; uint8_t script_sd_found; char flink[2][14]; #endif } glob_script_mem; int16_t last_findex; uint8_t tasm_cmd_activ=0; uint8_t fast_script=0; uint32_t script_lastmillis; #ifdef USE_BUTTON_EVENT int8_t script_button[MAX_KEYS]; #endif char *GetNumericResult(char *lp,uint8_t lastop,float *fp,JsonObject *jo); char *GetStringResult(char *lp,uint8_t lastop,char *cp,JsonObject *jo); char *ForceStringVar(char *lp,char *dstr); void send_download(void); uint8_t reject(char *name); void ScriptEverySecond(void) { if (bitRead(Settings.rule_enabled, 0)) { struct T_INDEX *vtp=glob_script_mem.type; float delta=(millis()-script_lastmillis)/1000; script_lastmillis=millis(); for (uint8_t count=0; count0) { // decrement *fp-=delta; if (*fp<0) *fp=0; } } if (vtp[count].bits.is_autoinc) { // increments timers float *fp=&glob_script_mem.fvars[vtp[count].index]; if (*fp>=0) { *fp+=delta; } } } Run_Scripter(">S",2,0); } } void RulesTeleperiod(void) { if (bitRead(Settings.rule_enabled, 0) && mqtt_data[0]) Run_Scripter(">T",2, mqtt_data); } // EEPROM MACROS #ifdef USE_24C256 #ifndef USE_SCRIPT_FATFS // i2c eeprom #include #define EEPROM_ADDRESS 0x50 // strange bug, crashes with powers of 2 ??? 4096 crashes #ifndef EEP_SCRIPT_SIZE #define EEP_SCRIPT_SIZE 4095 #endif static Eeprom24C128_256 eeprom(EEPROM_ADDRESS); // eeprom.writeBytes(address, length, buffer); #define EEP_WRITE(A,B,C) eeprom.writeBytes(A,B,(uint8_t*)C); // eeprom.readBytes(address, length, buffer); #define EEP_READ(A,B,C) eeprom.readBytes(A,B,(uint8_t*)C); #endif #endif #define SCRIPT_SKIP_SPACES while (*lp==' ' || *lp=='\t') lp++; #define SCRIPT_SKIP_EOL while (*lp==SCRIPT_EOL) lp++; // allocates all variables and presets them int16_t Init_Scripter(void) { char *script; script=glob_script_mem.script_ram; // scan lines for >DEF uint16_t lines=0,nvars=0,svars=0,vars=0; char *lp=script; char vnames[MAXVARS*10]; char *vnames_p=vnames; char *vnp[MAXVARS]; char **vnp_p=vnp; char strings[MAXSVARS*SCRIPT_MAXSSIZE]; struct M_FILT mfilt[MAXFILT]; char *strings_p=strings; char *snp[MAXSVARS]; char **snp_p=snp; uint8_t numperm=0,numflt=0,count; glob_script_mem.max_ssize=SCRIPT_SVARSIZE; glob_script_mem.scriptptr=0; if (!*script) return -999; float fvalues[MAXVARS]; struct T_INDEX vtypes[MAXVARS]; char init=0; while (1) { // check line // skip leading spaces SCRIPT_SKIP_SPACES // skip empty line if (*lp=='\n' || *lp=='\r') goto next_line; // skip comment if (*lp==';') goto next_line; if (init) { // init section if (*lp=='>') { init=0; break; } char *op=strchr(lp,'='); if (op) { vtypes[vars].bits.data=0; // found variable definition if (*lp=='p' && *(lp+1)==':') { lp+=2; if (numpermMAXFILT) { return -6; } } else { vtypes[vars].bits.is_filter=0; } *vnp_p++=vnames_p; while (lpMAXNVARS) { return -1; } if (vtypes[vars].bits.is_filter) { while (isdigit(*op) || *op=='.' || *op=='-') { op++; } while (*op==' ') op++; if (isdigit(*op)) { // lenght define follows uint8_t flen=atoi(op); mfilt[numflt-1].numvals&=0x80; mfilt[numflt-1].numvals|=flen&0x7f; } } } else { // string vars op++; *snp_p++=strings_p; while (*op!='\"') { if (*op==SCRIPT_EOL) break; *strings_p++=*op++; } *strings_p++=0; vtypes[vars].bits.is_string=1; vtypes[vars].index=svars; svars++; if (svars>MAXSVARS) { return -2; } } vars++; if (vars>MAXVARS) { return -3; } } } else { if (!strncmp(lp,">D",2)) { lp+=2; SCRIPT_SKIP_SPACES if (isdigit(*lp)) { uint8_t ssize=atoi(lp)+1; if (ssize<10 || ssize>SCRIPT_MAXSSIZE) ssize=SCRIPT_MAXSSIZE; glob_script_mem.max_ssize=ssize; } init=1; } } // next line next_line: lp = strchr(lp, SCRIPT_EOL); if (!lp) break; lp++; } uint16_t fsize=0; for (count=0; count255) { free(glob_script_mem.script_mem); return -5; } } // variables usage info AddLog_P2(LOG_LEVEL_INFO, PSTR("Script: nv=%d, tv=%d, vns=%d, ram=%d"), nvars, svars, index, glob_script_mem.script_mem_size); // copy string variables char *cp1=glob_script_mem.glob_snp; char *sp=strings; for (count=0; countnumvals=mfilt[count].numvals; mp+=sizeof(struct M_FILT)+((mfilt[count].numvals&0x7f)-1)*sizeof(float); } glob_script_mem.numvars=vars; glob_script_mem.script_dprec=SCRIPT_FLOAT_PRECISION; glob_script_mem.script_loglevel=LOG_LEVEL_INFO; #if SCRIPT_DEBUG>2 struct T_INDEX *dvtp=glob_script_mem.type; for (uint8_t count=0; count0 ClaimSerial(); SetSerialBaudrate(9600); #endif // store start of actual program here glob_script_mem.scriptptr=lp-1; glob_script_mem.scriptptr_bu=glob_script_mem.scriptptr; return 0; } #ifdef USE_LIGHT #ifdef USE_WS2812 void ws2812_set_array(float *array ,uint32_t len, uint32_t offset) { Ws2812ForceSuspend(); for (uint32_t cnt=0;cntSettings.light_pixels) break; uint32_t col=array[cnt]; Ws2812SetColor(index+1,col>>16,col>>8,col,0); } Ws2812ForceUpdate(); } #endif #endif #define NUM_RES 0xfe #define STR_RES 0xfd #define VAR_NV 0xff #define NTYPE 0 #define STYPE 0x80 #ifndef FLT_MAX #define FLT_MAX 99999999 #endif float median_array(float *array,uint8_t len) { uint8_t ind[len]; uint8_t mind=0,index=0,flg; float min=FLT_MAX; for (uint8_t hcnt=0; hcntnumvals&0x7f; return mflp->rbuff; } mp+=sizeof(struct M_FILT)+((mflp->numvals&0x7f)-1)*sizeof(float); } return 0; } float Get_MFVal(uint8_t index,uint8_t bind) { uint8_t *mp=(uint8_t*)glob_script_mem.mfilt; for (uint8_t count=0; countnumvals&0x7f; if (!bind) { return mflp->index; } if (bind<1 || bind>maxind) bind=maxind; return mflp->rbuff[bind-1]; } mp+=sizeof(struct M_FILT)+((mflp->numvals&0x7f)-1)*sizeof(float); } return 0; } void Set_MFVal(uint8_t index,uint8_t bind,float val) { uint8_t *mp=(uint8_t*)glob_script_mem.mfilt; for (uint8_t count=0; countnumvals&0x7f; if (!bind) { mflp->index=val; } else { if (bind<1 || bind>maxind) bind=maxind; mflp->rbuff[bind-1]=val; } return; } mp+=sizeof(struct M_FILT)+((mflp->numvals&0x7f)-1)*sizeof(float); } } float Get_MFilter(uint8_t index) { uint8_t *mp=(uint8_t*)glob_script_mem.mfilt; for (uint8_t count=0; countnumvals&0x80) { // moving average return mflp->maccu/(mflp->numvals&0x7f); } else { // median, sort array indices return median_array(mflp->rbuff,mflp->numvals); } } mp+=sizeof(struct M_FILT)+((mflp->numvals&0x7f)-1)*sizeof(float); } return 0; } void Set_MFilter(uint8_t index, float invar) { uint8_t *mp=(uint8_t*)glob_script_mem.mfilt; for (uint8_t count=0; countnumvals&0x80) { // moving average mflp->maccu-=mflp->rbuff[mflp->index]; mflp->maccu+=invar; mflp->rbuff[mflp->index]=invar; mflp->index++; if (mflp->index>=(mflp->numvals&0x7f)) mflp->index=0; } else { // median mflp->rbuff[mflp->index]=invar; mflp->index++; if (mflp->index>=mflp->numvals) mflp->index=0; } break; } mp+=sizeof(struct M_FILT)+((mflp->numvals&0x7f)-1)*sizeof(float); } } #define MEDIAN_SIZE 5 #define MEDIAN_FILTER_NUM 2 struct MEDIAN_FILTER { float buffer[MEDIAN_SIZE]; int8_t index; } script_mf[MEDIAN_FILTER_NUM]; float DoMedian5(uint8_t index, float in) { if (index>=MEDIAN_FILTER_NUM) index=0; struct MEDIAN_FILTER* mf=&script_mf[index]; mf->buffer[mf->index]=in; mf->index++; if (mf->index>=MEDIAN_SIZE) mf->index=0; return median_array(mf->buffer,MEDIAN_SIZE); } #ifdef USE_LIGHT //#ifdef USE_WS2812 uint32_t HSVToRGB(uint16_t hue, uint8_t saturation, uint8_t value) { float r = 0, g = 0, b = 0; struct HSV { float H; float S; float V; } hsv; hsv.H=hue; hsv.S=(float)saturation/100.0; hsv.V=(float)value/100.0; if (hsv.S == 0) { r = hsv.V; g = hsv.V; b = hsv.V; } else { int i; float f, p, q, t; if (hsv.H == 360) hsv.H = 0; else hsv.H = hsv.H / 60; i = (int)trunc(hsv.H); f = hsv.H - i; p = hsv.V * (1.0 - hsv.S); q = hsv.V * (1.0 - (hsv.S * f)); t = hsv.V * (1.0 - (hsv.S * (1.0 - f))); switch (i) { case 0: r = hsv.V; g = t; b = p; break; case 1: r = q; g = hsv.V; b = p; break; case 2: r = p; g = hsv.V; b = t; break; case 3: r = p; g = q; b = hsv.V; break; case 4: r = t; g = p; b = hsv.V; break; default: r = hsv.V; g = p; b = q; break; } } uint8_t ir,ig,ib; ir=r*255; ig=g*255; ib=b*255; uint32_t rgb=(ir<<16)|(ig<<8)|ib; return rgb; } #endif //#endif // vtype => ff=nothing found, fe=constant number,fd = constant string else bit 7 => 80 = string, 0 = number // no flash strings here for performance reasons!!! char *isvar(char *lp, uint8_t *vtype,struct T_INDEX *tind,float *fp,char *sp,JsonObject *jo) { uint16_t count,len=0; uint8_t nres=0; char vname[32]; float fvar=0; tind->index=0; tind->bits.data=0; if (isdigit(*lp) || (*lp=='-' && isdigit(*(lp+1))) || *lp=='.') { // isnumber if (fp) { if (*lp=='0' && *(lp+1)=='x') { lp+=2; *fp=strtol(lp,0,16); } else { *fp=CharToFloat(lp); } } if (*lp=='-') lp++; while (isdigit(*lp) || *lp=='.') { if (*lp==0 || *lp==SCRIPT_EOL) break; lp++; } tind->bits.constant=1; tind->bits.is_string=0; *vtype=NUM_RES; return lp; } if (*lp=='"') { lp++; while (*lp!='"') { if (*lp==0 || *lp==SCRIPT_EOL) break; uint8_t iob=*lp; if (iob=='\\') { lp++; if (*lp=='t') { iob='\t'; } else if (*lp=='n') { iob='\n'; } else if (*lp=='r') { iob='\r'; } else if (*lp=='\\') { iob='\\'; } else { lp--; } if (sp) *sp++=iob; } else { if (sp) *sp++=iob; } lp++; } if (sp) *sp=0; *vtype=STR_RES; tind->bits.constant=1; tind->bits.is_string=1; return lp+1; } if (*lp=='-') { // inverted var nres=1; lp++; } const char *term="\n\r ])=+-/*%>index=VAR_NV; glob_script_mem.var_not_found=1; return lp; } struct T_INDEX *vtp=glob_script_mem.type; char dvnam[32]; strcpy (dvnam,vname); uint8_t olen=len; last_findex=-1; char *ja=strchr(dvnam,'['); if (ja) { *ja=0; ja++; olen=strlen(dvnam); } for (count=0; countindex=count; // overwrite with global var index if (vtp[count].bits.is_string==0) { *vtype=NTYPE|index; if (vtp[count].bits.is_filter) { if (ja) { lp+=olen+1; lp=GetNumericResult(lp,OPER_EQU,&fvar,0); last_findex=fvar; fvar=Get_MFVal(index,fvar); len=1; } else { fvar=Get_MFilter(index); } } else { fvar=glob_script_mem.fvars[index]; } if (nres) fvar=-fvar; if (fp) *fp=fvar; } else { *vtype=STYPE|index; if (sp) strlcpy(sp,glob_script_mem.glob_snp+(index*glob_script_mem.max_ssize),SCRIPT_MAXSSIZE); } return lp+len; } } } if (jo) { // look for json input const char* str_value; uint8_t aindex; String vn; char *ja=strchr(vname,'['); if (ja) { // json array *ja=0; ja++; // fetch array index float fvar; GetNumericResult(ja,OPER_EQU,&fvar,0); aindex=fvar; if (aindex<1 || aindex>6) aindex=1; aindex--; } if (jo->success()) { char *subtype=strchr(vname,'#'); char *subtype2; if (subtype) { *subtype=0; subtype++; subtype2=strchr(subtype,'#'); if (subtype2) { *subtype2=0; *subtype2++; } } vn=vname; str_value = (*jo)[vn]; if ((*jo)[vn].success()) { if (subtype) { JsonObject &jobj1=(*jo)[vn]; if (jobj1.success()) { vn=subtype; jo=&jobj1; str_value = (*jo)[vn]; if ((*jo)[vn].success()) { // 2. stage if (subtype2) { JsonObject &jobj2=(*jo)[vn]; if ((*jo)[vn].success()) { vn=subtype2; jo=&jobj2; str_value = (*jo)[vn]; if ((*jo)[vn].success()) { goto skip; } else { goto chknext; } } else { goto chknext; } } // end goto skip; } } else { goto chknext; } } skip: if (ja) { // json array str_value = (*jo)[vn][aindex]; } if (str_value && *str_value) { if ((*jo).is(vn)) { if (!strncmp(str_value,"ON",2)) { if (fp) *fp=1; goto nexit; } else if (!strncmp(str_value,"OFF",3)) { if (fp) *fp=0; goto nexit; } else { *vtype=STR_RES; tind->bits.constant=1; tind->bits.is_string=1; if (sp) strlcpy(sp,str_value,SCRIPT_MAXSSIZE); return lp+len; } } else { if (fp) { if (!strncmp(vn.c_str(),"Epoch",5)) { *fp=atoi(str_value)-(uint32_t)EPOCH_OFFSET; } else { *fp=CharToFloat((char*)str_value); } } nexit: *vtype=NUM_RES; tind->bits.constant=1; tind->bits.is_string=0; return lp+len; } } } } } chknext: switch (vname[0]) { case 'a': #ifdef USE_ANGLE_FUNC if (!strncmp(vname,"acos(",5)) { lp+=5; lp=GetNumericResult(lp,OPER_EQU,&fvar,0); fvar=acosf(fvar); lp++; len=0; goto exit; } #endif break; case 'b': if (!strncmp(vname,"boot",4)) { if (rules_flag.system_boot) { rules_flag.system_boot=0; fvar=1; } goto exit; } #ifdef USE_BUTTON_EVENT if (!strncmp(vname,"bt[",3)) { // tasmota button state GetNumericResult(vname+3,OPER_EQU,&fvar,0); uint32_t index=fvar; if (index<1 || index>MAX_KEYS) index=1; fvar=script_button[index-1]; script_button[index-1]|=0x80; len++; goto exit; } #endif break; case 'c': if (!strncmp(vname,"chg[",4)) { // var changed struct T_INDEX ind; uint8_t vtype; isvar(vname+4,&vtype,&ind,0,0,0); if (!ind.bits.constant) { uint8_t index=glob_script_mem.type[ind.index].index; if (glob_script_mem.fvars[index]!=glob_script_mem.s_fvars[index]) { // var has changed glob_script_mem.s_fvars[index]=glob_script_mem.fvars[index]; fvar=1; len++; goto exit; } else { fvar=0; len++; goto exit; } } } #ifdef ESP32 if (!strncmp(vname,"core",4)) { fvar=xPortGetCoreID(); goto exit; } #ifdef USE_SCRIPT_TASK if (!strncmp(vname,"ct(",3)) { lp+=3; lp=GetNumericResult(lp,OPER_EQU,&fvar,0); while (*lp==' ') lp++; float fvar1; lp=GetNumericResult(lp,OPER_EQU,&fvar1,0); while (*lp==' ') lp++; float fvar2; lp=GetNumericResult(lp,OPER_EQU,&fvar2,0); lp++; fvar=scripter_create_task(fvar,fvar1,fvar2); len=0; goto exit; } #endif #endif break; case 'd': if (!strncmp(vname,"day",3)) { fvar=RtcTime.day_of_month; goto exit; } break; case 'e': if (!strncmp(vname,"epoch",5)) { fvar=UtcTime()-(uint32_t)EPOCH_OFFSET; goto exit; } break; case 'f': #ifdef USE_SCRIPT_FATFS if (!strncmp(vname,"fo(",3)) { lp+=3; char str[SCRIPT_MAXSSIZE]; lp=GetStringResult(lp,OPER_EQU,str,0); while (*lp==' ') lp++; uint8_t mode=0; if ((*lp=='r') || (*lp=='w') || (*lp=='a')) { switch (*lp) { case 'r': mode=0; break; case 'w': mode=1; break; case 'a': mode=2; break; } lp++; } else { lp=GetNumericResult(lp,OPER_EQU,&fvar,0); mode=fvar; } fvar=-1; for (uint8_t cnt=0;cnt=SFS_MAX) ind=SFS_MAX-1; glob_script_mem.files[ind].close(); glob_script_mem.file_flags[ind].is_open=0; fvar=0; lp++; len=0; goto exit; } if (!strncmp(vname,"ff(",3)) { lp+=3; lp=GetNumericResult(lp,OPER_EQU,&fvar,0); uint8_t ind=fvar; if (ind>=SFS_MAX) ind=SFS_MAX-1; glob_script_mem.files[ind].flush(); fvar=0; lp++; len=0; goto exit; } if (!strncmp(vname,"fw(",3)) { lp+=3; char str[SCRIPT_MAXSSIZE]; lp=ForceStringVar(lp,str); while (*lp==' ') lp++; lp=GetNumericResult(lp,OPER_EQU,&fvar,0); uint8_t ind=fvar; if (ind>=SFS_MAX) ind=SFS_MAX-1; if (glob_script_mem.file_flags[ind].is_open) { fvar=glob_script_mem.files[ind].print(str); } else { fvar=0; } lp++; len=0; goto exit; } if (!strncmp(vname,"fr(",3)) { lp+=3; struct T_INDEX ind; uint8_t vtype; uint8_t sindex=0; lp=isvar(lp,&vtype,&ind,0,0,0); if (vtype!=VAR_NV) { // found variable as result if ((vtype&STYPE)==0) { // error fvar=0; goto exit; } else { // string result sindex=glob_script_mem.type[ind.index].index; } } else { // error fvar=0; goto exit; } while (*lp==' ') lp++; lp=GetNumericResult(lp,OPER_EQU,&fvar,0); uint8_t find=fvar; if (find>=SFS_MAX) find=SFS_MAX-1; uint8_t index=0; char str[glob_script_mem.max_ssize+1]; char *cp=str; if (glob_script_mem.file_flags[find].is_open) { if (glob_script_mem.file_flags[find].is_dir) { while (true) { File entry=glob_script_mem.files[find].openNextFile(); if (entry) { if (!reject((char*)entry.name())) { char *ep=(char*)entry.name(); if (*ep=='/') ep++; char *lcp = strrchr(ep,'/'); if (lcp) { ep=lcp+1; } strcpy(str,ep); entry.close(); break; } } else { *cp=0; break; } entry.close(); } index=strlen(str); } else { while (glob_script_mem.files[find].available()) { uint8_t buf[1]; glob_script_mem.files[find].read(buf,1); if (buf[0]=='\t' || buf[0]==',' || buf[0]=='\n' || buf[0]=='\r') { break; } else { *cp++=buf[0]; index++; if (index>=glob_script_mem.max_ssize-1) break; } } *cp=0; } } else { strcpy(str,"file error"); } lp++; strlcpy(glob_script_mem.glob_snp+(sindex*glob_script_mem.max_ssize),str,glob_script_mem.max_ssize); fvar=index; len=0; goto exit; } if (!strncmp(vname,"fd(",3)) { lp+=3; char str[glob_script_mem.max_ssize+1]; lp=GetStringResult(lp,OPER_EQU,str,0); FS_USED.remove(str); lp++; len=0; goto exit; } #if defined(ESP32) && defined(USE_WEBCAM) if (!strncmp(vname,"fwp(",4)) { lp+=4; lp=GetNumericResult(lp,OPER_EQU,&fvar,0); while (*lp==' ') lp++; float fvar1; lp=GetNumericResult(lp,OPER_EQU,&fvar1,0); uint8_t ind=fvar1; if (ind>=SFS_MAX) ind=SFS_MAX-1; if (glob_script_mem.file_flags[ind].is_open) { uint8_t *buff; float maxps=WcGetPicstore(-1,0); if (fvar<1 || fvar>maxps) fvar=1; uint32_t len=WcGetPicstore(fvar-1, &buff); if (len) { //glob_script_mem.files[ind].seek(0,SeekEnd); fvar=glob_script_mem.files[ind].write(buff,len); } else { fvar=0; } //AddLog_P2(LOG_LEVEL_INFO, PSTR("picture save: %d"), len); } else { fvar=0; } lp++; len=0; goto exit; } #endif #ifdef USE_SCRIPT_FATFS_EXT if (!strncmp(vname,"fe(",3)) { lp+=3; char str[glob_script_mem.max_ssize+1]; lp=GetStringResult(lp,OPER_EQU,str,0); // execute script File ef=FS_USED.open(str); if (ef) { uint16_t fsiz=ef.size(); if (fsiz<2048) { char *script=(char*)calloc(fsiz+16,1); if (script) { ef.read((uint8_t*)script,fsiz); execute_script(script); free(script); fvar=1; } } ef.close(); } lp++; len=0; goto exit; } if (!strncmp(vname,"fmd(",4)) { lp+=4; char str[glob_script_mem.max_ssize+1]; lp=GetStringResult(lp,OPER_EQU,str,0); fvar=FS_USED.mkdir(str); lp++; len=0; goto exit; } if (!strncmp(vname,"frd(",4)) { lp+=4; char str[glob_script_mem.max_ssize+1]; lp=GetStringResult(lp,OPER_EQU,str,0); fvar=FS_USED.rmdir(str); lp++; len=0; goto exit; } if (!strncmp(vname,"fx(",3)) { lp+=3; char str[glob_script_mem.max_ssize+1]; lp=GetStringResult(lp,OPER_EQU,str,0); if (FS_USED.exists(str)) fvar=1; else fvar=0; lp++; len=0; goto exit; } #endif // USE_SCRIPT_FATFS_EXT if (!strncmp(vname,"fl1(",4) || !strncmp(vname,"fl2(",4) ) { uint8_t lknum=*(lp+2)&3; lp+=4; char str[glob_script_mem.max_ssize+1]; lp=GetStringResult(lp,OPER_EQU,str,0); if (lknum<1 || lknum>2) lknum=1; strlcpy(glob_script_mem.flink[lknum-1],str,14); lp++; fvar=0; len=0; goto exit; } if (!strncmp(vname,"fsm",3)) { fvar=glob_script_mem.script_sd_found; //card_init(); goto exit; } #endif //USE_SCRIPT_FATFS if (!strncmp(vname,"freq",4)) { #ifdef ESP32 fvar=getCpuFrequencyMhz(); #else fvar=ESP.getCpuFreqMHz(); #endif goto exit; } break; case 'g': if (!strncmp(vname,"gtmp",4)) { fvar=global_temperature; goto exit; } if (!strncmp(vname,"ghum",4)) { fvar=global_humidity; goto exit; } if (!strncmp(vname,"gprs",4)) { fvar=global_pressure; goto exit; } if (!strncmp(vname,"gtopic",6)) { if (sp) strlcpy(sp,SettingsText(SET_MQTT_GRP_TOPIC),glob_script_mem.max_ssize); goto strexit; } break; case 'h': if (!strncmp(vname,"hours",5)) { fvar=RtcTime.hour; goto exit; } if (!strncmp(vname,"heap",4)) { fvar=ESP_getFreeHeap(); goto exit; } if (!strncmp(vname,"hn(",3)) { lp=GetNumericResult(lp+3,OPER_EQU,&fvar,0); if (fvar<0 || fvar>255) fvar=0; lp++; len=0; if (sp) { sprintf(sp,"%02x",(uint8_t)fvar); } goto strexit; } if (!strncmp(vname,"hx(",3)) { lp=GetNumericResult(lp+3,OPER_EQU,&fvar,0); lp++; len=0; if (sp) { sprintf(sp,"%08x",(uint32_t)fvar); } goto strexit; } #ifdef USE_LIGHT //#ifdef USE_WS2812 if (!strncmp(vname,"hsvrgb(",7)) { lp=GetNumericResult(lp+7,OPER_EQU,&fvar,0); if (fvar<0 || fvar>360) fvar=0; SCRIPT_SKIP_SPACES // arg2 float fvar2; lp=GetNumericResult(lp,OPER_EQU,&fvar2,0); if (fvar2<0 || fvar2>100) fvar2=0; SCRIPT_SKIP_SPACES // arg3 float fvar3; lp=GetNumericResult(lp,OPER_EQU,&fvar3,0); if (fvar3<0 || fvar3>100) fvar3=0; fvar=HSVToRGB(fvar,fvar2,fvar3); lp++; len=0; goto exit; } //#endif #endif break; case 'i': if (!strncmp(vname,"int(",4)) { lp=GetNumericResult(lp+4,OPER_EQU,&fvar,0); fvar=floor(fvar); lp++; len=0; goto exit; } break; case 'l': if (!strncmp(vname,"lip",3)) { if (sp) strlcpy(sp,(const char*)WiFi.localIP().toString().c_str(),glob_script_mem.max_ssize); goto strexit; } if (!strncmp(vname,"loglvl",6)) { fvar=glob_script_mem.script_loglevel; tind->index=SCRIPT_LOGLEVEL; exit_settable: if (fp) *fp=fvar; *vtype=NTYPE; tind->bits.settable=1; tind->bits.is_string=0; return lp+len; } break; case 'm': if (!strncmp(vname,"med(",4)) { float fvar1; lp=GetNumericResult(lp+4,OPER_EQU,&fvar1,0); SCRIPT_SKIP_SPACES // arg2 float fvar2; lp=GetNumericResult(lp,OPER_EQU,&fvar2,0); fvar=DoMedian5(fvar1,fvar2); lp++; len=0; goto exit; } if (!strncmp(vname,"micros",6)) { fvar=micros(); goto exit; } if (!strncmp(vname,"millis",6)) { fvar=millis(); goto exit; } if (!strncmp(vname,"mins",4)) { fvar=RtcTime.minute; goto exit; } if (!strncmp(vname,"month",5)) { fvar=RtcTime.month; goto exit; } if (!strncmp(vname,"mqttc",5)) { if (rules_flag.mqtt_connected) { rules_flag.mqtt_connected=0; fvar=1; } goto exit; } if (!strncmp(vname,"mqttd",5)) { if (rules_flag.mqtt_disconnected) { rules_flag.mqtt_disconnected=0; fvar=1; } goto exit; } if (!strncmp(vname,"mqtts",5)) { fvar=!global_state.mqtt_down; goto exit; } if (!strncmp(vname,"mp(",3)) { lp+=3; float fvar1; lp=GetNumericResult(lp,OPER_EQU,&fvar1,0); SCRIPT_SKIP_SPACES while (*lp!=')') { char *opp=lp; lp++; float fvar2; lp=GetNumericResult(lp,OPER_EQU,&fvar2,0); SCRIPT_SKIP_SPACES fvar=fvar1; if ((*opp=='<' && fvar1' && fvar1>fvar2) || (*opp=='=' && fvar1==fvar2)) { if (*lp!='<' && *lp!='>' && *lp!='=' && *lp!=')' && *lp!=SCRIPT_EOL) { float fvar3; lp=GetNumericResult(lp,OPER_EQU,&fvar3,0); SCRIPT_SKIP_SPACES fvar=fvar3; } else { fvar=fvar2; } break; } while (*lp!='<' && *lp!='>' && *lp!='=' && *lp!=')' && *lp!=SCRIPT_EOL) lp++; } len=0; goto exit; } break; case 'p': if (!strncmp(vname,"pin[",4)) { // raw pin level GetNumericResult(vname+4,OPER_EQU,&fvar,0); fvar=digitalRead((uint8_t)fvar); // skip ] bracket len++; goto exit; } if (!strncmp(vname,"pn[",3)) { GetNumericResult(vname+3,OPER_EQU,&fvar,0); fvar=Pin(fvar); // skip ] bracket len++; goto exit; } if (!strncmp(vname,"pn[",3)) { GetNumericResult(vname+3,OPER_EQU,&fvar,0); // fvar=pin_gpio[(uint8_t)fvar]; fvar=Pin(fvar); // skip ] bracket len++; goto exit; } if (!strncmp(vname,"pd[",3)) { GetNumericResult(vname+3,OPER_EQU,&fvar,0); uint8_t gpiopin=fvar; /* for (uint8_t i=0;i 0)) { fvar = gpio_pin[gpiopin]; // skip ] bracket len++; goto exit; } fvar=999; goto exit; } #ifdef ESP32 if (!strncmp(vname,"pheap",5)) { fvar=ESP.getFreePsram(); goto exit; } #endif if (!strncmp(vname,"prefix1",7)) { if (sp) strlcpy(sp,SettingsText(SET_MQTTPREFIX1),glob_script_mem.max_ssize); goto strexit; } if (!strncmp(vname,"prefix2",7)) { if (sp) strlcpy(sp,SettingsText(SET_MQTTPREFIX2),glob_script_mem.max_ssize); goto strexit; } if (!strncmp(vname,"prefix3",7)) { if (sp) strlcpy(sp,SettingsText(SET_MQTTPREFIX3),glob_script_mem.max_ssize); goto strexit; } if (!strncmp(vname,"pow(",4)) { // arg1 float fvar1; lp=GetNumericResult(lp+4,OPER_EQU,&fvar1,0); SCRIPT_SKIP_SPACES // arg2 float fvar2; lp=GetNumericResult(lp,OPER_EQU,&fvar2,0); lp++; //fvar=pow(fvar1,fvar2); fvar=FastPrecisePow(fvar1,fvar2); len=0; goto exit; } if (!strncmp(vname,"pwr[",4)) { GetNumericResult(vname+4,OPER_EQU,&fvar,0); uint8_t index=fvar; if (index<=devices_present) { fvar=bitRead(power,index-1); } else { fvar=-1; } len+=1; goto exit; } if (!strncmp(vname,"pc[",3)) { GetNumericResult(vname+3,OPER_EQU,&fvar,0); uint8_t index=fvar; if (index<1 || index>MAX_COUNTERS) index=1; fvar=RtcSettings.pulse_counter[index-1]; len+=1; goto exit; } break; case 'r': if (!strncmp(vname,"ram",3)) { fvar=glob_script_mem.script_mem_size+(glob_script_mem.script_size)+(PMEM_SIZE); goto exit; } break; case 's': if (!strncmp(vname,"secs",4)) { fvar=RtcTime.second; goto exit; } if (!strncmp(vname,"sw[",3)) { // tasmota switch state GetNumericResult(vname+3,OPER_EQU,&fvar,0); fvar=SwitchLastState((uint32_t)fvar); // skip ] bracket len++; goto exit; } if (!strncmp(vname,"stack",5)) { fvar=GetStack(); goto exit; } if (!strncmp(vname,"slen",4)) { fvar=strlen(glob_script_mem.script_ram); goto exit; } if (!strncmp(vname,"sl(",3)) { lp+=3; char str[SCRIPT_MAXSSIZE]; lp=GetStringResult(lp,OPER_EQU,str,0); lp++; len=0; fvar=strlen(str); goto exit; } if (!strncmp(vname,"sb(",3)) { lp+=3; char str[SCRIPT_MAXSSIZE]; lp=GetStringResult(lp,OPER_EQU,str,0); SCRIPT_SKIP_SPACES float fvar1; lp=GetNumericResult(lp,OPER_EQU,&fvar1,0); SCRIPT_SKIP_SPACES float fvar2; lp=GetNumericResult(lp,OPER_EQU,&fvar2,0); lp++; len=0; if (fvar1<0) { fvar1=strlen(str)+fvar1; } memcpy(sp,&str[(uint8_t)fvar1],(uint8_t)fvar2); sp[(uint8_t)fvar2] = '\0'; goto strexit; } if (!strncmp(vname,"st(",3)) { lp+=3; char str[SCRIPT_MAXSSIZE]; lp=GetStringResult(lp,OPER_EQU,str,0); while (*lp==' ') lp++; char token[2]; token[0]=*lp++; token[1]=0; while (*lp==' ') lp++; lp=GetNumericResult(lp,OPER_EQU,&fvar,0); // skip ) bracket lp++; len=0; if (sp) { // get stringtoken char *st=strtok(str,token); if (!st) { *sp=0; } else { for (uint8_t cnt=1; cnt<=fvar; cnt++) { if (cnt==fvar) { strcpy(sp,st); break; } st=strtok(NULL,token); if (!st) { *sp=0; break; } } } } goto strexit; } if (!strncmp(vname,"s(",2)) { lp+=2; lp=GetNumericResult(lp,OPER_EQU,&fvar,0); char str[glob_script_mem.max_ssize+1]; dtostrfd(fvar,glob_script_mem.script_dprec,str); if (sp) strlcpy(sp,str,glob_script_mem.max_ssize); lp++; len=0; goto strexit; } #ifdef ESP32 if (!strncmp(vname,"sf(",3)) { lp+=2; lp=GetNumericResult(lp,OPER_EQU,&fvar,0); if (fvar<80) fvar=80; if (fvar>240) fvar=240; setCpuFrequencyMhz(fvar); fvar=getCpuFrequencyMhz(); lp++; len=0; goto exit; } #endif #if defined(USE_TIMERS) && defined(USE_SUNRISE) if (!strncmp(vname,"sunrise",7)) { fvar=SunMinutes(0); goto exit; } if (!strncmp(vname,"sunset",6)) { fvar=SunMinutes(1); goto exit; } #endif #ifdef USE_SHUTTER if (!strncmp(vname,"sht[",4)) { GetNumericResult(vname+4,OPER_EQU,&fvar,0); uint8_t index=fvar; if (index<=shutters_present) { fvar=Settings.shutter_position[index-1]; } else { fvar=-1; } len+=1; goto exit; } #endif #ifdef USE_ANGLE_FUNC if (!strncmp(vname,"sin(",4)) { lp+=4; lp=GetNumericResult(lp,OPER_EQU,&fvar,0); fvar=sinf(fvar); lp++; len=0; goto exit; } if (!strncmp(vname,"sqrt(",5)) { lp+=5; lp=GetNumericResult(lp,OPER_EQU,&fvar,0); fvar=sqrtf(fvar); lp++; len=0; goto exit; } #endif #if defined(USE_SML_M) && defined (USE_SML_SCRIPT_CMD) if (!strncmp(vname,"sml(",4)) { lp+=4; float fvar1; lp=GetNumericResult(lp,OPER_EQU,&fvar1,0); SCRIPT_SKIP_SPACES float fvar2; lp=GetNumericResult(lp,OPER_EQU,&fvar2,0); SCRIPT_SKIP_SPACES if (fvar2==0) { float fvar3; lp=GetNumericResult(lp,OPER_EQU,&fvar3,0); fvar=SML_SetBaud(fvar1,fvar3); } else if (fvar2==1) { char str[SCRIPT_MAXSSIZE]; lp=GetStringResult(lp,OPER_EQU,str,0); fvar=SML_Write(fvar1,str); } else { #ifdef ED300L fvar=SML_Status(fvar1); #else fvar=0; #endif } lp++; len=0; goto exit; } #endif break; case 't': if (!strncmp(vname,"time",4)) { fvar=MinutesPastMidnight(); goto exit; } if (!strncmp(vname,"tper",4)) { fvar=Settings.tele_period; tind->index=SCRIPT_TELEPERIOD; goto exit_settable; } if (!strncmp(vname,"tinit",5)) { if (rules_flag.time_init) { rules_flag.time_init=0; fvar=1; } goto exit; } if (!strncmp(vname,"tset",4)) { if (rules_flag.time_set) { rules_flag.time_set=0; fvar=1; } goto exit; } if (!strncmp(vname,"tstamp",6)) { if (sp) strlcpy(sp,GetDateAndTime(DT_LOCAL).c_str(),glob_script_mem.max_ssize); goto strexit; } if (!strncmp(vname,"topic",5)) { if (sp) strlcpy(sp,SettingsText(SET_MQTT_TOPIC),glob_script_mem.max_ssize); goto strexit; } #ifdef USE_DISPLAY #ifdef USE_TOUCH_BUTTONS if (!strncmp(vname,"tbut[",5)) { GetNumericResult(vname+5,OPER_EQU,&fvar,0); uint8_t index=fvar; if (index<1 || index>MAXBUTTONS) index=1; index--; if (buttons[index]) { fvar=buttons[index]->vpower&0x80; } else { fvar=-1; } len+=1; goto exit; } #endif #endif break; case 'u': if (!strncmp(vname,"uptime",6)) { fvar=MinutesUptime(); goto exit; } if (!strncmp(vname,"upsecs",6)) { fvar=uptime; goto exit; } if (!strncmp(vname,"upd[",4)) { // var was updated struct T_INDEX ind; uint8_t vtype; isvar(vname+4,&vtype,&ind,0,0,0); if (!ind.bits.constant) { if (!ind.bits.changed) { fvar=0; len++; goto exit; } else { glob_script_mem.type[ind.index].bits.changed=0; fvar=1; len++; goto exit; } } goto notfound; } break; case 'w': #if defined(ESP32) && defined(USE_WEBCAM) if (!strncmp(vname,"wc(",3)) { lp+=3; float fvar1; lp=GetNumericResult(lp,OPER_EQU,&fvar1,0); SCRIPT_SKIP_SPACES switch ((uint32)fvar1) { case 0: { float fvar2; lp=GetNumericResult(lp,OPER_EQU,&fvar2,0); fvar=WcSetup(fvar2); } break; case 1: { float fvar2; lp=GetNumericResult(lp,OPER_EQU,&fvar2,0); fvar=WcGetFrame(fvar2); } break; case 2: { float fvar2,fvar3; lp=GetNumericResult(lp,OPER_EQU,&fvar2,0); SCRIPT_SKIP_SPACES lp=GetNumericResult(lp,OPER_EQU,&fvar3,0); fvar=WcSetOptions(fvar2,fvar3); } break; case 3: fvar=WcGetWidth(); break; case 4: fvar=WcGetHeight(); break; case 5: { float fvar2; lp=GetNumericResult(lp,OPER_EQU,&fvar2,0); fvar=WcSetStreamserver(fvar2); } break; case 6: { float fvar2; lp=GetNumericResult(lp,OPER_EQU,&fvar2,0); fvar=WcSetMotionDetect(fvar2); } break; #ifdef USE_FACE_DETECT case 7: { float fvar2; lp=GetNumericResult(lp,OPER_EQU,&fvar2,0); fvar=WcSetFaceDetect(fvar2); } break; #endif default: fvar=0; } lp++; len=0; goto exit; } #endif //ESP32, USE_WEBCAM if (!strncmp(vname,"wday",4)) { fvar=RtcTime.day_of_week; goto exit; } if (!strncmp(vname,"wific",5)) { if (rules_flag.wifi_connected) { rules_flag.wifi_connected=0; fvar=1; } goto exit; } if (!strncmp(vname,"wifid",5)) { if (rules_flag.wifi_disconnected) { rules_flag.wifi_disconnected=0; fvar=1; } goto exit; } if (!strncmp(vname,"wifis",5)) { fvar=!global_state.wifi_down; goto exit; } break; case 'y': if (!strncmp(vname,"year",4)) { fvar=RtcTime.year; goto exit; } break; default: break; } // nothing valid found notfound: if (fp) *fp=0; *vtype=VAR_NV; tind->index=VAR_NV; glob_script_mem.var_not_found=1; return lp; // return constant numbers exit: if (fp) *fp=fvar; *vtype=NUM_RES; tind->bits.constant=1; tind->bits.is_string=0; return lp+len; // return constant strings strexit: *vtype=STYPE; tind->bits.constant=1; tind->bits.is_string=1; return lp+len; } char *getop(char *lp, uint8_t *operand) { switch (*lp) { case '=': if (*(lp+1)=='=') { *operand=OPER_EQUEQU; return lp+2; } else { *operand=OPER_EQU; return lp+1; } break; case '+': if (*(lp+1)=='=') { *operand=OPER_PLSEQU; return lp+2; } else { *operand=OPER_PLS; return lp+1; } break; case '-': if (*(lp+1)=='=') { *operand=OPER_MINEQU; return lp+2; } else { *operand=OPER_MIN; return lp+1; } break; case '*': if (*(lp+1)=='=') { *operand=OPER_MULEQU; return lp+2; } else { *operand=OPER_MUL; return lp+1; } break; case '/': if (*(lp+1)=='=') { *operand=OPER_DIVEQU; return lp+2; } else { *operand=OPER_DIV; return lp+1; } break; case '!': if (*(lp+1)=='=') { *operand=OPER_NOTEQU; return lp+2; } break; case '>': if (*(lp+1)=='=') { *operand=OPER_GRTEQU; return lp+2; } else { *operand=OPER_GRT; return lp+1; } break; case '<': if (*(lp+1)=='=') { *operand=OPER_LOWEQU; return lp+2; } else { *operand=OPER_LOW; return lp+1; } break; case '%': if (*(lp+1)=='=') { *operand=OPER_PERCEQU; return lp+2; } else { *operand=OPER_PERC; return lp+1; } break; case '^': if (*(lp+1)=='=') { *operand=OPER_XOREQU; return lp+2; } else { *operand=OPER_XOR; return lp+1; } break; case '&': if (*(lp+1)=='=') { *operand=OPER_ANDEQU; return lp+2; } else { *operand=OPER_AND; return lp+1; } break; case '|': if (*(lp+1)=='=') { *operand=OPER_OREQU; return lp+2; } else { *operand=OPER_OR; return lp+1; } break; } *operand=0; return lp; } #ifdef ESP8266 #if defined(ARDUINO_ESP8266_RELEASE_2_3_0) || defined(ARDUINO_ESP8266_RELEASE_2_4_0) || defined(ARDUINO_ESP8266_RELEASE_2_4_1) // All version before core 2.4.2 // https://github.com/esp8266/Arduino/issues/2557 extern "C" { #include extern cont_t g_cont; } uint16_t GetStack(void) { register uint32_t *sp asm("a1"); return (4 * (sp - g_cont.stack)); } #else extern "C" { #include extern cont_t* g_pcont; } uint16_t GetStack(void) { register uint32_t *sp asm("a1"); return (4 * (sp - g_pcont->stack)); } #endif #else uint16_t GetStack(void) { register uint8_t *sp asm("a1"); return (sp - pxTaskGetStackStart(NULL)); } #endif char *GetStringResult(char *lp,uint8_t lastop,char *cp,JsonObject *jo) { uint8_t operand=0; uint8_t vtype; char *slp; struct T_INDEX ind; char str[SCRIPT_MAXSSIZE],str1[SCRIPT_MAXSSIZE]; while (1) { lp=isvar(lp,&vtype,&ind,0,str1,jo); if (vtype!=STR_RES && !(vtype&STYPE)) { // numeric type glob_script_mem.glob_error=1; return lp; } switch (lastop) { case OPER_EQU: strlcpy(str,str1,sizeof(str)); break; case OPER_PLS: strncat(str,str1,sizeof(str)); break; } slp=lp; lp=getop(lp,&operand); switch (operand) { case OPER_EQUEQU: case OPER_NOTEQU: case OPER_LOW: case OPER_LOWEQU: case OPER_GRT: case OPER_GRTEQU: lp=slp; strcpy(cp,str); return lp; break; default: break; } lastop=operand; if (!operand) { strcpy(cp,str); return lp; } } } char *GetNumericResult(char *lp,uint8_t lastop,float *fp,JsonObject *jo) { uint8_t operand=0; float fvar1,fvar; char *slp; uint8_t vtype; struct T_INDEX ind; while (1) { // get 1. value if (*lp=='(') { lp++; lp=GetNumericResult(lp,OPER_EQU,&fvar1,jo); lp++; //if (*lp==')') lp++; } else { lp=isvar(lp,&vtype,&ind,&fvar1,0,jo); if (vtype!=NUM_RES && vtype&STYPE) { // string type glob_script_mem.glob_error=1; } } switch (lastop) { case OPER_EQU: fvar=fvar1; break; case OPER_PLS: fvar+=fvar1; break; case OPER_MIN: fvar-=fvar1; break; case OPER_MUL: fvar*=fvar1; break; case OPER_DIV: fvar/=fvar1; break; case OPER_PERC: fvar=fmodf(fvar,fvar1); break; case OPER_XOR: fvar=(uint32_t)fvar^(uint32_t)fvar1; break; case OPER_AND: fvar=(uint32_t)fvar&(uint32_t)fvar1; break; case OPER_OR: fvar=(uint32_t)fvar|(uint32_t)fvar1; break; default: break; } slp=lp; lp=getop(lp,&operand); switch (operand) { case OPER_EQUEQU: case OPER_NOTEQU: case OPER_LOW: case OPER_LOWEQU: case OPER_GRT: case OPER_GRTEQU: lp=slp; *fp=fvar; return lp; break; default: break; } lastop=operand; if (!operand) { *fp=fvar; return lp; } } } char *ForceStringVar(char *lp,char *dstr) { float fvar; char *slp=lp; glob_script_mem.glob_error=0; lp=GetStringResult(lp,OPER_EQU,dstr,0); if (glob_script_mem.glob_error) { // mismatch lp=GetNumericResult(slp,OPER_EQU,&fvar,0); dtostrfd(fvar,6,dstr); glob_script_mem.glob_error=0; } return lp; } // replace vars in cmd %var% void Replace_Cmd_Vars(char *srcbuf,uint32_t srcsize, char *dstbuf,uint32_t dstsize) { char *cp; uint16_t count; uint8_t vtype; uint8_t dprec=glob_script_mem.script_dprec; float fvar; cp=srcbuf; struct T_INDEX ind; char string[SCRIPT_MAXSSIZE]; dstsize-=2; for (count=0;count=sizeof(str)) len=len>=sizeof(str); strlcpy(str,cp,len); toSLog(str); } void toLogEOL(const char *s1,const char *str) { if (!str) return; uint8_t index=0; char *cp=log_data; strcpy(cp,s1); cp+=strlen(s1); while (*str) { if (*str==SCRIPT_EOL) break; *cp++=*str++; } *cp=0; AddLog(LOG_LEVEL_INFO); } void toSLog(const char *str) { if (!str) return; #if SCRIPT_DEBUG>0 while (*str) { Serial.write(*str); str++; } #endif } char *Evaluate_expression(char *lp,uint8_t and_or, uint8_t *result,JsonObject *jo) { float fvar,*dfvar,fvar1; uint8_t numeric; struct T_INDEX ind; uint8_t vtype=0,lastop; uint8_t res=0; char *llp=lp; char *slp; SCRIPT_SKIP_SPACES if (*lp=='(') { uint8_t res=0; uint8_t xand_or=0; lp++; loop: SCRIPT_SKIP_SPACES lp=Evaluate_expression(lp,xand_or,&res,jo); if (*lp==')') { lp++; goto exit0; } // check for next and or SCRIPT_SKIP_SPACES if (!strncmp(lp,"or",2)) { lp+=2; xand_or=1; goto loop; } else if (!strncmp(lp,"and",3)) { lp+=3; xand_or=2; goto loop; } exit0: if (!and_or) { *result=res; } else if (and_or==1) { *result|=res; } else { *result&=res; } goto exit10; } llp=lp; // compare dfvar=&fvar; glob_script_mem.glob_error=0; slp=lp; numeric=1; lp=GetNumericResult(lp,OPER_EQU,dfvar,0); if (glob_script_mem.glob_error==1) { // was string, not number char cmpstr[SCRIPT_MAXSSIZE]; lp=slp; numeric=0; // get the string lp=isvar(lp,&vtype,&ind,0,cmpstr,0); lp=getop(lp,&lastop); // compare string char str[SCRIPT_MAXSSIZE]; lp=GetStringResult(lp,OPER_EQU,str,jo); if (lastop==OPER_EQUEQU || lastop==OPER_NOTEQU) { res=strcmp(cmpstr,str); if (lastop==OPER_EQUEQU) res=!res; goto exit; } } else { // numeric // evaluate operand lp=getop(lp,&lastop); lp=GetNumericResult(lp,OPER_EQU,&fvar1,jo); switch (lastop) { case OPER_EQUEQU: res=(*dfvar==fvar1); break; case OPER_NOTEQU: res=(*dfvar!=fvar1); break; case OPER_LOW: res=(*dfvarfvar1); break; case OPER_GRTEQU: res=(*dfvar>=fvar1); break; default: // error break; } exit: if (!and_or) { *result=res; } else if (and_or==1) { *result|=res; } else { *result&=res; } } exit10: #if SCRIPT_DEBUG>0 char tbuff[128]; sprintf(tbuff,"p1=%d,p2=%d,cmpres=%d,and_or=%d line: ",(int32_t)*dfvar,(int32_t)fvar1,*result,and_or); toLogEOL(tbuff,llp); #endif return lp; } #ifdef ESP32 TimerHandle_t beep_th; void StopBeep( TimerHandle_t xTimer ); void StopBeep( TimerHandle_t xTimer ) { ledcWriteTone(7,0); xTimerStop(xTimer, 0); } void esp32_beep(int32_t freq ,uint32_t len) { if (freq<0) { ledcSetup(7,500,10); ledcAttachPin(-freq,7); ledcWriteTone(7,0); if (!beep_th) { beep_th = xTimerCreate("beep",100,pdFALSE,( void * ) 0,StopBeep); } } else { if (!beep_th) return; if (!freq) { ledcWriteTone(7,0); xTimerStop(beep_th, 10); return; } if (len < 10) return; if (xTimerIsTimerActive(beep_th)) return; ledcWriteTone(7,freq); uint32_t ticks = pdMS_TO_TICKS(len); xTimerChangePeriod( beep_th, ticks, 10); } } #endif // ESP32 //#define IFTHEN_DEBUG #define IF_NEST 8 // execute section of scripter int16_t Run_Scripter(const char *type, int8_t tlen, char *js) { if (tasm_cmd_activ && tlen>0) return 0; uint8_t vtype=0,sindex,xflg,floop=0,globvindex,fromscriptcmd=0; int8_t globaindex; struct T_INDEX ind; uint8_t operand,lastop,numeric=1,if_state[IF_NEST],if_exe[IF_NEST],if_result[IF_NEST],and_or,ifstck=0; if_state[ifstck]=0; if_result[ifstck]=0; if_exe[ifstck]=1; char cmpstr[SCRIPT_MAXSSIZE]; uint8_t check=0; if (tlen<0) { tlen=abs(tlen); check=1; } float *dfvar,*cv_count,cv_max,cv_inc; char *cv_ptr; float fvar=0,fvar1,sysvar,swvar; uint8_t section=0,sysv_type=0,swflg=0; if (!glob_script_mem.scriptptr) { return -99; } JsonObject *jo=0; DynamicJsonBuffer jsonBuffer; // on heap JsonObject &jobj=jsonBuffer.parseObject(js); if (js) { jo=&jobj; } else { jo=0; } char *lp=glob_script_mem.scriptptr; while (1) { // check line // skip leading spaces startline: SCRIPT_SKIP_SPACES // skip empty line SCRIPT_SKIP_EOL // skip comment if (*lp==';') goto next_line; if (!*lp) break; if (section) { // we are in section if (*lp=='>') { return 0; } if (*lp=='#') { return 0; } glob_script_mem.var_not_found=0; //#if SCRIPT_DEBUG>0 #ifdef IFTHEN_DEBUG char tbuff[128]; sprintf(tbuff,"stack=%d,exe=%d,state=%d,cmpres=%d line: ",ifstck,if_exe[ifstck],if_state[ifstck],if_result[ifstck]); toLogEOL(tbuff,lp); #endif //if (if_state[s_ifstck]==3 && if_result[s_ifstck]) goto next_line; //if (if_state[s_ifstck]==2 && !if_result[s_ifstck]) goto next_line; if (!strncmp(lp,"if",2)) { lp+=2; if (ifstck=2) { lp+=5; if (ifstck>0) { if_state[ifstck]=0; ifstck--; } goto next_line; } else if (!strncmp(lp,"or",2) && if_state[ifstck]==1) { lp+=2; and_or=1; } else if (!strncmp(lp,"and",3) && if_state[ifstck]==1) { lp+=3; and_or=2; } if (*lp=='{' && if_state[ifstck]==1) { lp+=1; // then if_state[ifstck]=2; if (if_exe[ifstck-1]) if_exe[ifstck]=if_result[ifstck]; } else if (*lp=='{' && if_state[ifstck]==3) { lp+=1; // after else //if_state[ifstck]=3; } else if (*lp=='}' && if_state[ifstck]>=2) { lp++; // must check for else char *slp=lp; uint8_t iselse=0; for (uint8_t count=0; count<8;count++) { if (*lp=='}') { // must be endif break; } if (!strncmp(lp,"else",4)) { // is before else, no endif if_state[ifstck]=3; if (if_exe[ifstck-1]) if_exe[ifstck]=!if_result[ifstck]; lp+=4; iselse=1; SCRIPT_SKIP_SPACES if (*lp=='{') lp++; break; } lp++; } if (!iselse) { lp=slp; // endif if (ifstck>0) { if_state[ifstck]=0; ifstck--; } goto next_line; } } if (!strncmp(lp,"for",3)) { // start for next loop, fetch 3 params // simple implementation, zero loop count not supported lp+=3; SCRIPT_SKIP_SPACES lp=isvar(lp,&vtype,&ind,0,0,0); if ((vtype!=VAR_NV) && (vtype&STYPE)==0) { // numeric var uint8_t index=glob_script_mem.type[ind.index].index; cv_count=&glob_script_mem.fvars[index]; SCRIPT_SKIP_SPACES lp=GetNumericResult(lp,OPER_EQU,cv_count,0); SCRIPT_SKIP_SPACES lp=GetNumericResult(lp,OPER_EQU,&cv_max,0); SCRIPT_SKIP_SPACES lp=GetNumericResult(lp,OPER_EQU,&cv_inc,0); //SCRIPT_SKIP_EOL cv_ptr=lp; if (*cv_count0) { // for next loop *cv_count+=cv_inc; if (floop==1) { if (*cv_count<=cv_max) { lp=cv_ptr; } else { lp+=4; floop=0; } } else { if (*cv_count>=cv_max) { lp=cv_ptr; } else { lp+=4; floop=0; } } } if (!strncmp(lp,"switch",6)) { lp+=6; SCRIPT_SKIP_SPACES char *slp=lp; lp=GetNumericResult(lp,OPER_EQU,&swvar,0); if (glob_script_mem.glob_error==1) { // was string, not number lp=slp; // get the string lp=isvar(lp,&vtype,&ind,0,cmpstr,0); swflg=0x81; } else { swflg=1; } } else if (!strncmp(lp,"case",4) && swflg>0) { lp+=4; SCRIPT_SKIP_SPACES float cvar; if (!(swflg&0x80)) { lp=GetNumericResult(lp,OPER_EQU,&cvar,0); if (swvar!=cvar) { swflg=2; } else { swflg=1; } } else { char str[SCRIPT_MAXSSIZE]; lp=GetStringResult(lp,OPER_EQU,str,0); if (!strcmp(cmpstr,str)) { swflg=0x81; } else { swflg=0x82; } } } else if (!strncmp(lp,"ends",4) && swflg>0) { lp+=4; swflg=0; } if ((swflg&3)==2) goto next_line; SCRIPT_SKIP_SPACES //SCRIPT_SKIP_EOL if (*lp==SCRIPT_EOL) { goto next_line; } //toLogN(lp,16); if (!if_exe[ifstck] && if_state[ifstck]!=1) goto next_line; #ifdef IFTHEN_DEBUG sprintf(tbuff,"stack=%d,exe=%d,state=%d,cmpres=%d execute line: ",ifstck,if_exe[ifstck],if_state[ifstck],if_result[ifstck]); toLogEOL(tbuff,lp); #endif if (!strncmp(lp,"break",5)) { if (floop) { // should break loop floop=0; } else { section=0; } break; } else if (!strncmp(lp,"dp",2) && isdigit(*(lp+2))) { lp+=2; // number precision glob_script_mem.script_dprec=atoi(lp); goto next_line; } else if (!strncmp(lp,"delay(",6)) { lp+=5; // delay lp=GetNumericResult(lp,OPER_EQU,&fvar,0); delay(fvar); goto next_line; } else if (!strncmp(lp,"spinm(",6)) { lp+=6; // set pin mode lp=GetNumericResult(lp,OPER_EQU,&fvar,0); int8_t pinnr=fvar; SCRIPT_SKIP_SPACES uint8_t mode=0; if ((*lp=='I') || (*lp=='O') || (*lp=='P')) { switch (*lp) { case 'I': mode=0; break; case 'O': mode=1; break; case 'P': mode=2; break; } lp++; } else { lp=GetNumericResult(lp,OPER_EQU,&fvar,0); mode=fvar; } uint8_t pm=0; if (mode==0) pm=INPUT; if (mode==1) pm=OUTPUT; if (mode==2) pm=INPUT_PULLUP; pinMode(pinnr,pm); goto next_line; } else if (!strncmp(lp,"spin(",5)) { lp+=5; // set pin lp=GetNumericResult(lp,OPER_EQU,&fvar,0); int8_t pinnr=fvar; SCRIPT_SKIP_SPACES lp=GetNumericResult(lp,OPER_EQU,&fvar,0); int8_t mode=fvar; digitalWrite(pinnr,mode&1); goto next_line; } else if (!strncmp(lp,"svars(",5)) { lp+=5; // save vars Scripter_save_pvars(); goto next_line; } #ifdef USE_LIGHT #ifdef USE_WS2812 else if (!strncmp(lp,"ws2812(",7)) { lp+=7; lp=isvar(lp,&vtype,&ind,0,0,0); if (vtype!=VAR_NV) { SCRIPT_SKIP_SPACES if (*lp!=')') { lp=GetNumericResult(lp,OPER_EQU,&fvar,0); } else { fvar=0; } // found variable as result uint8_t index=glob_script_mem.type[ind.index].index; if ((vtype&STYPE)==0) { // numeric result if (glob_script_mem.type[index].bits.is_filter) { uint8_t len=0; float *fa=Get_MFAddr(index,&len); //Serial.printf(">> 2 %d\n",(uint32_t)*fa); if (fa && len) ws2812_set_array(fa,len,fvar); } } } goto next_line; } #endif #endif #ifdef ESP32 else if (!strncmp(lp,"beep(",5)) { lp+=5; lp=GetNumericResult(lp,OPER_EQU,&fvar,0); SCRIPT_SKIP_SPACES float fvar1; lp=GetNumericResult(lp,OPER_EQU,&fvar1,0); esp32_beep(fvar,fvar1); lp++; goto next_line; } #endif else if (!strncmp(lp,"=>",2) || !strncmp(lp,"->",2) || !strncmp(lp,"+>",2) || !strncmp(lp,"print",5)) { // execute cmd uint8_t sflag=0,pflg=0,svmqtt,swll; if (*lp=='p') { pflg=1; lp+=5; } else { if (*lp=='-') sflag=1; if (*lp=='+') sflag=2; lp+=2; } char *slp=lp; SCRIPT_SKIP_SPACES #define SCRIPT_CMDMEM 512 char *cmdmem=(char*)malloc(SCRIPT_CMDMEM); if (cmdmem) { char *cmd=cmdmem; uint16_t count; for (count=0; count=0) { Set_MFVal(glob_script_mem.type[globvindex].index,globaindex,*dfvar); } else { Set_MFilter(glob_script_mem.type[globvindex].index,*dfvar); } } if (sysv_type) { switch (sysv_type) { case SCRIPT_LOGLEVEL: glob_script_mem.script_loglevel=*dfvar; break; case SCRIPT_TELEPERIOD: if (*dfvar<10) *dfvar=10; if (*dfvar>300) *dfvar=300; Settings.tele_period=*dfvar; break; } sysv_type=0; } } else { // string result numeric=0; sindex=index; // string result char str[SCRIPT_MAXSSIZE]; lp=getop(lp,&lastop); char *slp=lp; glob_script_mem.glob_error=0; lp=GetStringResult(lp,OPER_EQU,str,jo); if (!js && glob_script_mem.glob_error) { // mismatch lp=GetNumericResult(slp,OPER_EQU,&fvar,0); dtostrfd(fvar,6,str); glob_script_mem.glob_error=0; } if (!glob_script_mem.var_not_found) { // var was changed glob_script_mem.type[globvindex].bits.changed=1; if (lastop==OPER_EQU) { strlcpy(glob_script_mem.glob_snp+(sindex*glob_script_mem.max_ssize),str,glob_script_mem.max_ssize); } else if (lastop==OPER_PLSEQU) { strncat(glob_script_mem.glob_snp+(sindex*glob_script_mem.max_ssize),str,glob_script_mem.max_ssize); } } } } SCRIPT_SKIP_SPACES if (*lp=='{' && if_state[ifstck]==3) { lp+=1; // else //if_state[ifstck]=3; } goto next_line; } } else { // decode line if (*lp=='>' && tlen==1) { // called from cmdline lp++; section=1; fromscriptcmd=1; goto startline; } if (!strncmp(lp,type,tlen)) { // found section section=1; glob_script_mem.section_ptr=lp; if (check) { return 99; } // check for subroutine char *ctype=(char*)type; if (*ctype=='#') { // check for parameter ctype+=tlen; if (*ctype=='(' && *(lp+tlen)=='(') { float fparam; numeric=1; glob_script_mem.glob_error=0; GetNumericResult((char*)ctype,OPER_EQU,&fparam,0); if (glob_script_mem.glob_error==1) { // was string, not number numeric=0; // get the string GetStringResult((char*)ctype+1,OPER_EQU,cmpstr,0); } lp+=tlen; if (*lp=='(') { // fetch destination lp++; lp=isvar(lp,&vtype,&ind,0,0,0); if (vtype!=VAR_NV) { // found variable as result uint8_t index=glob_script_mem.type[ind.index].index; if ((vtype&STYPE)==0) { // numeric result dfvar=&glob_script_mem.fvars[index]; if (numeric) { *dfvar=fparam; } else { // mismatch *dfvar=CharToFloat(cmpstr); } } else { // string result sindex=index; if (!numeric) { strlcpy(glob_script_mem.glob_snp+(sindex*glob_script_mem.max_ssize),cmpstr,glob_script_mem.max_ssize); } else { // mismatch dtostrfd(fparam,6,glob_script_mem.glob_snp+(sindex*glob_script_mem.max_ssize)); } } } } } else { lp+=tlen; if (*ctype=='(' || (*lp!=SCRIPT_EOL && *lp!='?')) { // revert section=0; } } } } } // next line next_line: if (*lp==SCRIPT_EOL) { lp++; } else { lp = strchr(lp, SCRIPT_EOL); if (!lp) { if (section) { return 0; } else { return -1; } } lp++; } } return -1; } uint8_t script_xsns_index = 0; void ScripterEvery100ms(void) { if (Settings.rule_enabled && (uptime > 4)) { mqtt_data[0] = '\0'; uint16_t script_tele_period_save = tele_period; tele_period = 2; XsnsNextCall(FUNC_JSON_APPEND, script_xsns_index); tele_period = script_tele_period_save; if (strlen(mqtt_data)) { mqtt_data[0] = '{'; snprintf_P(mqtt_data, sizeof(mqtt_data), PSTR("%s}"), mqtt_data); Run_Scripter(">T",2, mqtt_data); } } if (fast_script==99) Run_Scripter(">F",2,0); } //mems[5] is 50 bytes in 6.5 // can hold 11 floats or floats + strings // should report overflow later void Scripter_save_pvars(void) { int16_t mlen=0; float *fp=(float*)glob_script_mem.script_pram; mlen+=sizeof(float); struct T_INDEX *vtp=glob_script_mem.type; for (uint8_t count=0; countPMEM_SIZE) { vtp[count].bits.is_permanent=0; return; } *fp++=glob_script_mem.fvars[index]; } } char *cp=(char*)fp; for (uint8_t count=0; countPMEM_SIZE) { vtp[count].bits.is_permanent=0; return; } strcpy(cp,sp); cp+=slen+1; } } } // works only with webserver #ifdef USE_WEBSERVER #define WEB_HANDLE_SCRIPT "s10" const char S_CONFIGURE_SCRIPT[] PROGMEM = D_CONFIGURE_SCRIPT; const char HTTP_BTN_MENU_RULES[] PROGMEM = "

"; const char HTTP_FORM_SCRIPT[] PROGMEM = "
 " D_SCRIPT " " "
"; const char HTTP_FORM_SCRIPT1[] PROGMEM = "
" "
" "
" ""; const char HTTP_SCRIPT_FORM_END[] PROGMEM = "
" "" "
"; #ifdef USE_SCRIPT_FATFS const char HTTP_FORM_SCRIPT1c[] PROGMEM = ""; #ifdef SDCARD_DIR const char HTTP_FORM_SCRIPT1d[] PROGMEM = ""; #else const char HTTP_FORM_SCRIPT1d[] PROGMEM = ""; #endif #ifdef SDCARD_DIR const char S_SCRIPT_FILE_UPLOAD[] PROGMEM = D_SDCARD_DIR; #else const char S_SCRIPT_FILE_UPLOAD[] PROGMEM = D_SDCARD_UPLOAD; #endif const char HTTP_FORM_FILE_UPLOAD[] PROGMEM = "
" "
 %s" " "; const char HTTP_FORM_FILE_UPG[] PROGMEM = "
" "

" "
"; const char HTTP_FORM_FILE_UPGb[] PROGMEM = "
" "
" ""; const char HTTP_FORM_SDC_DIRa[] PROGMEM = "
"; const char HTTP_FORM_SDC_DIRb[] PROGMEM = "
%s     %s : %8d
"; const char HTTP_FORM_SDC_DIRd[] PROGMEM = "
%s
"; const char HTTP_FORM_SDC_DIRc[] PROGMEM = "
"; const char HTTP_FORM_SDC_HREF[] PROGMEM = "http://%s/upl?download=%s/%s"; #endif #ifdef USE_SCRIPT_FATFS #if USE_LONG_FILE_NAMES>0 #undef REJCMPL #define REJCMPL 6 #else #undef REJCMPL #define REJCMPL 8 #endif uint8_t reject(char *name) { while (*name=='/') name++; if (*name=='_') return 1; if (*name=='.') return 1; #ifndef ARDUINO_ESP8266_RELEASE_2_3_0 if (!strncasecmp(name,"SPOTLI~1",REJCMPL)) return 1; if (!strncasecmp(name,"TRASHE~1",REJCMPL)) return 1; if (!strncasecmp(name,"FSEVEN~1",REJCMPL)) return 1; if (!strncasecmp(name,"SYSTEM~1",REJCMPL)) return 1; #else if (!strcasecmp(name,"SPOTLI~1")) return 1; if (!strcasecmp(name,"TRASHE~1")) return 1; if (!strcasecmp(name,"FSEVEN~1")) return 1; if (!strcasecmp(name,"SYSTEM~1")) return 1; #endif if (!strncasecmp(name,"System Volume",13)) return 1; return 0; } void ListDir(char *path, uint8_t depth) { char name[32]; char npath[128]; char format[12]; sprintf(format,"%%-%ds",24-depth); File dir=FS_USED.open(path); if (dir) { dir.rewindDirectory(); if (strlen(path)>1) { snprintf_P(npath,sizeof(npath),PSTR("http://%s/upl?download=%s"),WiFi.localIP().toString().c_str(),path); for (uint8_t cnt=strlen(npath)-1;cnt>0;cnt--) { if (npath[cnt]=='/') { if (npath[cnt-1]=='=') npath[cnt+1]=0; else npath[cnt]=0; break; } } WSContentSend_P(HTTP_FORM_SDC_DIRd,npath,path,".."); } char *ep; while (true) { File entry=dir.openNextFile(); if (!entry) { break; } // esp32 returns path here, shorten to filename ep=(char*)entry.name(); if (*ep=='/') ep++; char *lcp = strrchr(ep,'/'); if (lcp) { ep=lcp+1; } //AddLog_P2(LOG_LEVEL_INFO, PSTR("entry: %s"),ep); time_t tm=entry.getLastWrite(); char tstr[24]; strftime(tstr, 22, "%d-%m-%Y - %H:%M:%S ", localtime(&tm)); char *pp=path; if (!*(pp+1)) pp++; char *cp=name; // osx formatted disks contain a lot of stuff we dont want if (reject((char*)ep)) goto fclose; for (uint8_t cnt=0;cnt1) { strcat(path,"/"); } strcat(path,ep); ListDir(path,depth+4); path[plen]=0; } else { snprintf_P(npath,sizeof(npath),HTTP_FORM_SDC_HREF,WiFi.localIP().toString().c_str(),pp,ep); WSContentSend_P(HTTP_FORM_SDC_DIRb,npath,ep,name,tstr,entry.size()); } fclose: entry.close(); } dir.close(); } } char path[48]; void Script_FileUploadConfiguration(void) { uint8_t depth=0; strcpy(path,"/"); if (!HttpCheckPriviledgedAccess()) { return; } if (Webserver->hasArg("download")) { String stmp = Webserver->arg("download"); char *cp=(char*)stmp.c_str(); if (DownloadFile(cp)) { // is directory strcpy(path,cp); } } WSContentStart_P(S_SCRIPT_FILE_UPLOAD); WSContentSendStyle(); WSContentSend_P(HTTP_FORM_FILE_UPLOAD,D_SDCARD_DIR); WSContentSend_P(HTTP_FORM_FILE_UPG, D_SCRIPT_UPLOAD); #ifdef SDCARD_DIR WSContentSend_P(HTTP_FORM_SDC_DIRa); if (glob_script_mem.script_sd_found) { ListDir(path,depth); } WSContentSend_P(HTTP_FORM_SDC_DIRc); #endif WSContentSend_P(HTTP_FORM_FILE_UPGb); WSContentSpaceButton(BUTTON_CONFIGURATION); WSContentStop(); Web.upload_error = 0; } File upload_file; void ScriptFileUploadSuccess(void) { WSContentStart_P(S_INFORMATION); WSContentSendStyle(); WSContentSend_P(PSTR("
" D_UPLOAD " " D_SUCCESSFUL "
"), WebColor(COL_TEXT_SUCCESS)); WSContentSend_P(PSTR("

")); WSContentSend_P(PSTR("

"),"/upl",D_UPL_DONE); //WSContentSpaceButton(BUTTON_MAIN); WSContentStop(); } void script_upload(void) { //AddLog_P(LOG_LEVEL_INFO, PSTR("HTP: file upload")); HTTPUpload& upload = Webserver->upload(); if (upload.status == UPLOAD_FILE_START) { char npath[48]; sprintf(npath,"%s/%s",path,upload.filename.c_str()); FS_USED.remove(npath); upload_file=FS_USED.open(npath,FILE_WRITE); if (!upload_file) Web.upload_error=1; } else if(upload.status == UPLOAD_FILE_WRITE) { if (upload_file) upload_file.write(upload.buf,upload.currentSize); } else if(upload.status == UPLOAD_FILE_END) { if (upload_file) upload_file.close(); if (Web.upload_error) { AddLog_P(LOG_LEVEL_INFO, PSTR("HTP: upload error")); } } else { Web.upload_error=1; Webserver->send(500, "text/plain", "500: couldn't create file"); } } uint8_t DownloadFile(char *file) { File download_file; WiFiClient download_Client; if (!FS_USED.exists(file)) { AddLog_P(LOG_LEVEL_INFO,PSTR("file not found")); return 0; } download_file=FS_USED.open(file,FILE_READ); if (!download_file) { AddLog_P(LOG_LEVEL_INFO,PSTR("could not open file")); return 0; } if (download_file.isDirectory()) { download_file.close(); return 1; } uint32_t flen=download_file.size(); download_Client = Webserver->client(); Webserver->setContentLength(flen); char attachment[100]; char *cp; for (uint8_t cnt=strlen(file); cnt>=0; cnt--) { if (file[cnt]=='/') { cp=&file[cnt+1]; break; } } snprintf_P(attachment, sizeof(attachment), PSTR("attachment; filename=%s"),cp); Webserver->sendHeader(F("Content-Disposition"), attachment); WSSend(200, CT_STREAM, ""); uint8_t buff[512]; uint16_t bread; // transfer is about 150kb/s uint8_t cnt=0; while (download_file.available()) { bread=download_file.read(buff,sizeof(buff)); uint16_t bw=download_Client.write((const char*)buff,bread); if (!bw) break; cnt++; if (cnt>7) { cnt=0; if (glob_script_mem.script_loglevel&0x80) { // this indeed multitasks, but is slower 50 kB/s loop(); } } } download_file.close(); download_Client.stop(); return 0; } #endif void HandleScriptTextareaConfiguration(void) { if (!HttpCheckPriviledgedAccess()) { return; } if (Webserver->hasArg("save")) { ScriptSaveSettings(); HandleConfiguration(); return; } } void HandleScriptConfiguration(void) { if (!HttpCheckPriviledgedAccess()) { return; } AddLog_P(LOG_LEVEL_DEBUG, S_LOG_HTTP, S_CONFIGURE_SCRIPT); #ifdef USE_SCRIPT_FATFS if (Webserver->hasArg("d1")) { DownloadFile(glob_script_mem.flink[0]); } if (Webserver->hasArg("d2")) { DownloadFile(glob_script_mem.flink[1]); } if (Webserver->hasArg("upl")) { Script_FileUploadConfiguration(); } #endif WSContentStart_P(S_CONFIGURE_SCRIPT); WSContentSendStyle(); WSContentSend_P(HTTP_FORM_SCRIPT); #ifdef xSCRIPT_STRIP_COMMENTS uint16_t ssize=glob_script_mem.script_size; if (bitRead(Settings.rule_enabled, 1)) ssize*=2; WSContentSend_P(HTTP_FORM_SCRIPT1,1,1,bitRead(Settings.rule_enabled,0) ? " checked" : "",ssize); #else WSContentSend_P(HTTP_FORM_SCRIPT1,1,1,bitRead(Settings.rule_enabled,0) ? " checked" : "",glob_script_mem.script_size); #endif // script is to larg for WSContentSend_P if (glob_script_mem.script_ram[0]) { _WSContentSend(glob_script_mem.script_ram); } WSContentSend_P(HTTP_FORM_SCRIPT1b); #ifdef USE_SCRIPT_FATFS if (glob_script_mem.script_sd_found) { WSContentSend_P(HTTP_FORM_SCRIPT1d); if (glob_script_mem.flink[0][0]) WSContentSend_P(HTTP_FORM_SCRIPT1c,1,glob_script_mem.flink[0]); if (glob_script_mem.flink[1][0]) WSContentSend_P(HTTP_FORM_SCRIPT1c,2,glob_script_mem.flink[1]); } #endif WSContentSend_P(HTTP_SCRIPT_FORM_END); WSContentSpaceButton(BUTTON_CONFIGURATION); WSContentStop(); } void ScriptSaveSettings(void) { if (Webserver->hasArg("c1")) { bitWrite(Settings.rule_enabled,0,1); } else { bitWrite(Settings.rule_enabled,0,0); } String str = Webserver->arg("t1"); if (*str.c_str()) { str.replace("\r\n","\n"); str.replace("\r","\n"); #ifdef xSCRIPT_STRIP_COMMENTS if (bitRead(Settings.rule_enabled, 1)) { char *sp=(char*)str.c_str(); char *sp1=sp; char *dp=sp; uint8_t flg=0; while (*sp) { while (*sp==' ') sp++; sp1=sp; sp=strchr(sp,'\n'); if (!sp) { flg=1; } else { *sp=0; } if (*sp1!=';') { uint8_t slen=strlen(sp1); if (slen) { strcpy(dp,sp1); dp+=slen; *dp++='\n'; } } if (flg) { *dp=0; break; } sp++; } } #endif strlcpy(glob_script_mem.script_ram,str.c_str(), glob_script_mem.script_size); #if defined(USE_24C256) && !defined(USE_SCRIPT_FATFS) if (glob_script_mem.flags&1) { EEP_WRITE(0,EEP_SCRIPT_SIZE,glob_script_mem.script_ram); } #endif #if !defined(USE_24C256) && defined(USE_SCRIPT_FATFS) if (glob_script_mem.flags&1) { FS_USED.remove(FAT_SCRIPT_NAME); File file=FS_USED.open(FAT_SCRIPT_NAME,FILE_WRITE); file.write((const uint8_t*)glob_script_mem.script_ram,FAT_SCRIPT_SIZE); file.close(); } #endif #if defined(ESP32) && defined(ESP32_SCRIPT_SIZE) && !defined(USE_24C256) && !defined(USE_SCRIPT_FATFS) if (glob_script_mem.flags&1) { SaveFile("/script.txt",(uint8_t*)glob_script_mem.script_ram,ESP32_SCRIPT_SIZE); } #endif } if (glob_script_mem.script_mem) { Scripter_save_pvars(); free(glob_script_mem.script_mem); glob_script_mem.script_mem=0; glob_script_mem.script_mem_size=0; } if (bitRead(Settings.rule_enabled, 0)) { int16_t res=Init_Scripter(); if (res) { AddLog_P2(LOG_LEVEL_INFO, PSTR("script init error: %d"), res); return; } Run_Scripter(">B",2,0); fast_script=Run_Scripter(">F",-2,0); } } #endif #if defined(USE_SCRIPT_HUE) && defined(USE_WEBSERVER) && defined(USE_EMULATION) && defined(USE_EMULATION_HUE) && defined(USE_LIGHT) #define HUE_DEV_MVNUM 5 #define HUE_DEV_NSIZE 16 struct HUE_SCRIPT { char name[HUE_DEV_NSIZE]; uint8_t type; uint8_t index[HUE_DEV_MVNUM]; uint8_t vindex[HUE_DEV_MVNUM]; } hue_script[32]; const char SCRIPT_HUE_LIGHTS_STATUS_JSON1[] PROGMEM = "{\"state\":" "{\"on\":{state}," "{light_status}" "\"alert\":\"none\"," "\"effect\":\"none\"," "\"reachable\":true}" ",\"type\":\"{type}\"," "\"name\":\"{j1\"," "\"modelid\":\"{m1}\"," "\"uniqueid\":\"{j2\"," "\"swversion\":\"5.50.1.19085\"}"; /* const char SCRIPT_HUE_LIGHTS_STATUS_JSON2[] PROGMEM = "{\"state\":" "{\"temperature\": 2674," "\"lastupdated\": \"2019-08-04T12:13:04\"}," "\"config\": {" "\"on\": true," "\"battery\": 100," "\"reachable\": true," "\"alert\": \"none\"," "\"ledindication\": false," "\"usertest\": false," "\"pending\": []" "}," "\"name\": \"{j1\"," "\"type\": \"ZLLTemperature\"," "\"modelid\": \"SML001\"," "\"manufacturername\": \"Philips\"," "\"swversion\": \"6.1.0.18912\"," "\"uniqueid\": \"{j2\"}"; */ const char SCRIPT_HUE_LIGHTS_STATUS_JSON2[] PROGMEM = "{\"state\":{" "\"presence\":{state}," "\"lastupdated\":\"2017-10-01T12:37:30\"" "}," "\"swupdate\":{" "\"state\":\"noupdates\"," "\"lastinstall\": null" "}," "\"config\":{" "\"on\":true," "\"battery\":100," "\"reachable\":true," "\"alert\":\"none\"," "\"ledindication\":false," "\"usertest\":false," "\"sensitivity\":2," "\"sensitivitymax\":2," "\"pending\":[]" "}," "\"name\":\"{j1\"," "\"type\":\"ZLLPresence\"," "\"modelid\":\"SML001\"," "\"manufacturername\":\"Philips\"," "\"swversion\":\"6.1.0.18912\"," "\"uniqueid\":\"{j2\"" "}"; /* Color Ligh Dimmable Light Color Temperature Light Extended Color Light On/Off light ZGPSwitch ZLLSwitch CLIPSwitch CLIPOpenClose CLIPPresence CLIPTemperature CLIPHumidity Daylight CLIPLightlevel temperature ZLLTemperature lightlevel ZLLLightLevel presence ZLLPresence */ /* case 'T': response->replace("{type}","ZLLTemperature"); temp=glob_script_mem.fvars[hue_script[hue_devs].index[2]-1]; light_status += "\"temperature\":"; light_status += String(temp*100); light_status += ","; break; case 'L': response->replace("{type}","ZLLLightLevel"); temp=glob_script_mem.fvars[hue_script[hue_devs].index[2]-1]; light_status += "\"lightlevel\":"; light_status += String(temp); light_status += ","; break; case 'P': response->replace("{type}","ZLLPresence"); temp=glob_script_mem.fvars[hue_script[hue_devs].index[0]-1]; light_status += "\"presence\":"; if (temp==0)light_status += "false"; else light_status += "true"; light_status += ","; break; */ void Script_HueStatus(String *response, uint16_t hue_devs) { if (hue_script[hue_devs].type=='p') { *response+=FPSTR(SCRIPT_HUE_LIGHTS_STATUS_JSON2); response->replace("{j1",hue_script[hue_devs].name); response->replace("{j2", GetHueDeviceId(hue_devs)); uint8_t pwr=glob_script_mem.fvars[hue_script[hue_devs].index[0]-1]; response->replace("{state}", (pwr ? "true" : "false")); return; } *response+=FPSTR(SCRIPT_HUE_LIGHTS_STATUS_JSON1); uint8_t pwr=glob_script_mem.fvars[hue_script[hue_devs].index[0]-1]; response->replace("{state}", (pwr ? "true" : "false")); String light_status = ""; if (hue_script[hue_devs].index[1]>0) { // bri light_status += "\"bri\":"; uint32_t bri=glob_script_mem.fvars[hue_script[hue_devs].index[1]-1]; if (bri > 254) bri = 254; if (bri < 1) bri = 1; light_status += String(bri); light_status += ","; } if (hue_script[hue_devs].index[2]>0) { // hue uint32_t hue=glob_script_mem.fvars[hue_script[hue_devs].index[2]-1]; //hue = changeUIntScale(hue, 0, 359, 0, 65535); light_status += "\"hue\":"; light_status += String(hue); light_status += ","; } if (hue_script[hue_devs].index[3]>0) { // sat uint32_t sat=glob_script_mem.fvars[hue_script[hue_devs].index[3]-1] ; if (sat > 254) sat = 254; if (sat < 1) sat = 1; light_status += "\"sat\":"; light_status += String(sat); light_status += ","; } if (hue_script[hue_devs].index[4]>0) { // ct uint32_t ct=glob_script_mem.fvars[hue_script[hue_devs].index[4]-1]; light_status += "\"ct\":"; light_status += String(ct); light_status += ","; } float temp; switch (hue_script[hue_devs].type) { case 'C': response->replace("{type}","Color Ligh"); // alexa ok response->replace("{m1","LST001"); break; case 'D': response->replace("{type}","Dimmable Light"); // alexa NO response->replace("{m1","LWB004"); break; case 'T': response->replace("{type}","Color Temperature Light"); // alexa NO response->replace("{m1","LTW011"); break; case 'E': response->replace("{type}","Extended color light"); // alexa ok response->replace("{m1","LCT007"); break; case 'S': response->replace("{type}","On/Off light"); // alexa ok response->replace("{m1","LCT007"); break; default: response->replace("{type}","color light"); response->replace("{m1","LST001"); break; } response->replace("{light_status}", light_status); response->replace("{j1",hue_script[hue_devs].name); response->replace("{j2", GetHueDeviceId(hue_devs)); } void Script_Check_Hue(String *response) { if (!bitRead(Settings.rule_enabled, 0)) return; uint8_t hue_script_found=Run_Scripter(">H",-2,0); if (hue_script_found!=99) return; char line[128]; char tmp[128]; uint8_t hue_devs=0; uint8_t vindex=0; char *cp; char *lp=glob_script_mem.section_ptr+2; while (lp) { SCRIPT_SKIP_SPACES while (*lp==SCRIPT_EOL) { lp++; } if (!*lp || *lp=='#' || *lp=='>') { break; } if (*lp!=';') { // check this line memcpy(line,lp,sizeof(line)); line[sizeof(line)-1]=0; cp=line; for (uint32_t i=0; i0) *response+=",\""; } *response+=String(EncodeLightId(hue_devs+devices_present+1))+"\":"; Script_HueStatus(response,hue_devs); } hue_devs++; } if (*lp==SCRIPT_EOL) { lp++; } else { lp = strchr(lp, SCRIPT_EOL); if (!lp) break; lp++; } } #if 0 if (response) { AddLog_P2(LOG_LEVEL_DEBUG, PSTR("Hue: %d"), hue_devs); toLog(">>>>"); toLog(response->c_str()); toLog(response->c_str()+LOGSZ); } #endif } const char sHUE_LIGHT_RESPONSE_JSON[] PROGMEM = "{\"success\":{\"/lights/{id/state/{cm\":{re}}"; const char sHUE_SENSOR_RESPONSE_JSON[] PROGMEM = "{\"success\":{\"/lights/{id/state/{cm\":{re}}"; const char sHUE_ERROR_JSON[] PROGMEM = "[{\"error\":{\"type\":901,\"address\":\"/\",\"description\":\"Internal Error\"}}]"; // get alexa arguments void Script_Handle_Hue(String *path) { String response; int code = 200; uint16_t tmp = 0; uint16_t hue = 0; uint8_t sat = 0; uint8_t bri = 254; uint16_t ct = 0; bool resp = false; uint8_t device = DecodeLightId(atoi(path->c_str())); uint8_t index = device-devices_present-1; if (Webserver->args()) { response = "["; StaticJsonBuffer<400> jsonBuffer; JsonObject &hue_json = jsonBuffer.parseObject(Webserver->arg((Webserver->args())-1)); if (hue_json.containsKey("on")) { response += FPSTR(sHUE_LIGHT_RESPONSE_JSON); response.replace("{id", String(EncodeLightId(device))); response.replace("{cm", "on"); bool on = hue_json["on"]; switch(on) { case false : glob_script_mem.fvars[hue_script[index].index[0]-1]=0; response.replace("{re", "false"); break; case true : glob_script_mem.fvars[hue_script[index].index[0]-1]=1; response.replace("{re", "true"); break; } glob_script_mem.type[hue_script[index].vindex[0]].bits.changed=1; resp = true; } if (hue_json.containsKey("bri")) { // Brightness is a scale from 1 (the minimum the light is capable of) to 254 (the maximum). Note: a brightness of 1 is not off. tmp = hue_json["bri"]; bri=tmp; if (254 <= bri) { bri = 255; } if (resp) { response += ","; } response += FPSTR(sHUE_LIGHT_RESPONSE_JSON); response.replace("{id", String(EncodeLightId(device))); response.replace("{cm", "bri"); response.replace("{re", String(tmp)); glob_script_mem.fvars[hue_script[index].index[1]-1]=bri; glob_script_mem.type[hue_script[index].vindex[1]].bits.changed=1; resp = true; } if (hue_json.containsKey("xy")) { // Saturation of the light. 254 is the most saturated (colored) and 0 is the least saturated (white). float x, y; x = hue_json["xy"][0]; y = hue_json["xy"][1]; const String &x_str = hue_json["xy"][0]; const String &y_str = hue_json["xy"][1]; uint8_t rr,gg,bb; LightStateClass::XyToRgb(x, y, &rr, &gg, &bb); LightStateClass::RgbToHsb(rr, gg, bb, &hue, &sat, nullptr); if (resp) { response += ","; } response += FPSTR(sHUE_LIGHT_RESPONSE_JSON); response.replace("{id", String(device)); response.replace("{cm", "xy"); response.replace("{re", "[" + x_str + "," + y_str + "]"); glob_script_mem.fvars[hue_script[index].index[2]-1]=hue; glob_script_mem.type[hue_script[index].vindex[2]].bits.changed=1; glob_script_mem.fvars[hue_script[index].index[3]-1]=sat; glob_script_mem.type[hue_script[index].vindex[3]].bits.changed=1; resp = true; } if (hue_json.containsKey("hue")) { // The hue value is a wrapping value between 0 and 65535. Both 0 and 65535 are red, 25500 is green and 46920 is blue. tmp = hue_json["hue"]; //hue = changeUIntScale(tmp, 0, 65535, 0, 359); //tmp = changeUIntScale(hue, 0, 359, 0, 65535); hue=tmp; if (resp) { response += ","; } response += FPSTR(sHUE_LIGHT_RESPONSE_JSON); response.replace("{id", String(EncodeLightId(device))); response.replace("{cm", "hue"); response.replace("{re", String(tmp)); glob_script_mem.fvars[hue_script[index].index[2]-1]=hue; glob_script_mem.type[hue_script[index].vindex[2]].bits.changed=1; resp = true; } if (hue_json.containsKey("sat")) { // Saturation of the light. 254 is the most saturated (colored) and 0 is the least saturated (white). tmp = hue_json["sat"]; sat=tmp; if (254 <= sat) { sat = 255; } if (resp) { response += ","; } response += FPSTR(sHUE_LIGHT_RESPONSE_JSON); response.replace("{id", String(EncodeLightId(device))); response.replace("{cm", "sat"); response.replace("{re", String(tmp)); glob_script_mem.fvars[hue_script[index].index[3]-1]=sat; glob_script_mem.type[hue_script[index].vindex[3]].bits.changed=1; resp = true; } if (hue_json.containsKey("ct")) { // Color temperature 153 (Cold) to 500 (Warm) ct = hue_json["ct"]; if (resp) { response += ","; } response += FPSTR(sHUE_LIGHT_RESPONSE_JSON); response.replace("{id", String(EncodeLightId(device))); response.replace("{cm", "ct"); response.replace("{re", String(ct)); glob_script_mem.fvars[hue_script[index].index[4]-1]=ct; glob_script_mem.type[hue_script[index].vindex[4]].bits.changed=1; resp = true; } response += "]"; } else { response = FPSTR(sHUE_ERROR_JSON); } AddLog_P2(LOG_LEVEL_DEBUG_MORE, PSTR(D_LOG_HTTP D_HUE " Result (%s)"), response.c_str()); WSSend(code, CT_JSON, response); if (resp) { Run_Scripter(">E",2,0); } } #endif // hue interface #ifdef USE_SCRIPT_SUB_COMMAND bool Script_SubCmd(void) { if (!bitRead(Settings.rule_enabled, 0)) return false; if (tasm_cmd_activ) return false; char command[CMDSZ]; strlcpy(command,XdrvMailbox.topic,CMDSZ); uint32_t pl=XdrvMailbox.payload; char pld[64]; strlcpy(pld,XdrvMailbox.data,sizeof(pld)); char cmdbuff[128]; char *cp=cmdbuff; *cp++='#'; strcpy(cp,XdrvMailbox.topic); uint8_t tlen=strlen(XdrvMailbox.topic); cp+=tlen; if (XdrvMailbox.index > 0) { *cp++=XdrvMailbox.index|0x30; tlen++; } if ((XdrvMailbox.payload>0) || (XdrvMailbox.data_len>0)) { *cp++='('; strncpy(cp,XdrvMailbox.data,XdrvMailbox.data_len); cp+=XdrvMailbox.data_len; *cp++=')'; *cp=0; } //toLog(cmdbuff); uint32_t res=Run_Scripter(cmdbuff,tlen+1,0); //AddLog_P2(LOG_LEVEL_INFO,">>%d",res); if (res) return false; else { if (pl>=0) { Response_P(S_JSON_COMMAND_NVALUE, command, pl); } else { Response_P(S_JSON_COMMAND_SVALUE, command, pld); } } return true; } #endif void execute_script(char *script) { char *svd_sp=glob_script_mem.scriptptr; strcat(script,"\n#"); glob_script_mem.scriptptr=script; Run_Scripter(">",1,0); glob_script_mem.scriptptr=svd_sp; } #define D_CMND_SCRIPT "Script" #define D_CMND_SUBSCRIBE "Subscribe" #define D_CMND_UNSUBSCRIBE "Unsubscribe" enum ScriptCommands { CMND_SCRIPT,CMND_SUBSCRIBE, CMND_UNSUBSCRIBE }; const char kScriptCommands[] PROGMEM = D_CMND_SCRIPT "|" D_CMND_SUBSCRIBE "|" D_CMND_UNSUBSCRIBE; bool ScriptCommand(void) { char command[CMDSZ]; bool serviced = true; uint8_t index = XdrvMailbox.index; if (tasm_cmd_activ) return false; int command_code = GetCommandCode(command, sizeof(command), XdrvMailbox.topic, kScriptCommands); if (-1 == command_code) { serviced = false; // Unknown command } else if ((CMND_SCRIPT == command_code) && (index > 0)) { if ((XdrvMailbox.payload >= 0) && (XdrvMailbox.payload < 4)) { switch (XdrvMailbox.payload) { case 0: // Off case 1: // On bitWrite(Settings.rule_enabled, index -1, XdrvMailbox.payload); break; #ifdef xSCRIPT_STRIP_COMMENTS case 2: bitWrite(Settings.rule_enabled, 1,0); break; case 3: bitWrite(Settings.rule_enabled, 1,1); break; #endif } } else { if ('>' == XdrvMailbox.data[0]) { // execute script snprintf_P (mqtt_data, sizeof(mqtt_data), PSTR("{\"%s\":\"%s\"}"),command,XdrvMailbox.data); if (bitRead(Settings.rule_enabled, 0)) { for (uint8_t count=0; count, [, ] String result = ScriptSubscribe(XdrvMailbox.data, XdrvMailbox.data_len); Response_P(S_JSON_COMMAND_SVALUE, command, result.c_str()); } else if (CMND_UNSUBSCRIBE == command_code) { //MQTT Un-subscribe command. UnSubscribe String result = ScriptUnsubscribe(XdrvMailbox.data, XdrvMailbox.data_len); Response_P(S_JSON_COMMAND_SVALUE, command, result.c_str()); #endif //SUPPORT_MQTT_EVENT } return serviced; } #ifdef USE_SCRIPT_FATFS uint16_t xFAT_DATE(uint16_t year, uint8_t month, uint8_t day) { return (year - 1980) << 9 | month << 5 | day; } uint16_t xFAT_TIME(uint8_t hour, uint8_t minute, uint8_t second) { return hour << 11 | minute << 5 | second >> 1; } void dateTime(uint16_t* date, uint16_t* time) { // return date using FAT_DATE macro to format fields *date = xFAT_DATE(RtcTime.year,RtcTime.month, RtcTime.day_of_month); // return time using FAT_TIME macro to format fields *time = xFAT_TIME(RtcTime.hour,RtcTime.minute,RtcTime.second); } #endif #ifdef SUPPORT_MQTT_EVENT #ifndef MQTT_EVENT_MSIZE #define MQTT_EVENT_MSIZE 256 #endif #ifndef MQTT_EVENT_JSIZE #define MQTT_EVENT_JSIZE 400 #endif /********************************************************************************************/ /* * Script: Process received MQTT message. * If the message is in our subscription list, trigger an event with the value parsed from MQTT data * Input: * void - We are going to access XdrvMailbox data directly. * Return: * true - The message is consumed. * false - The message is not in our list. */ bool ScriptMqttData(void) { bool serviced = false; //toLog(">>> 1"); //toLog(XdrvMailbox.data); if (XdrvMailbox.data_len < 1 || XdrvMailbox.data_len > MQTT_EVENT_MSIZE) { return false; } String sTopic = XdrvMailbox.topic; String sData = XdrvMailbox.data; //AddLog_P2(LOG_LEVEL_DEBUG, PSTR("Script: MQTT Topic %s, Event %s"), XdrvMailbox.topic, XdrvMailbox.data); MQTT_Subscription event_item; //Looking for matched topic for (uint32_t index = 0; index < subscriptions.size(); index++) { event_item = subscriptions.get(index); //AddLog_P2(LOG_LEVEL_DEBUG, PSTR("Script: Match MQTT message Topic %s with subscription topic %s"), sTopic.c_str(), event_item.Topic.c_str()); if (sTopic.startsWith(event_item.Topic)) { //This topic is subscribed by us, so serve it serviced = true; String value; String lkey; if (event_item.Key.length() == 0) { //If did not specify Key value = sData; } else { //If specified Key, need to parse Key/Value from JSON data StaticJsonBuffer jsonBuf; JsonObject& jsonData = jsonBuf.parseObject(sData); String key1 = event_item.Key; String key2; if (!jsonData.success()) break; //Failed to parse JSON data, ignore this message. int dot; if ((dot = key1.indexOf('.')) > 0) { key2 = key1.substring(dot+1); key1 = key1.substring(0, dot); lkey=key2; if (!jsonData[key1][key2].success()) break; //Failed to get the key/value, ignore this message. value = (const char *)jsonData[key1][key2]; } else { if (!jsonData[key1].success()) break; value = (const char *)jsonData[key1]; lkey=key1; } } value.trim(); char sbuffer[128]; if (!strncmp(lkey.c_str(),"Epoch",5)) { uint32_t ep=atoi(value.c_str())-(uint32_t)EPOCH_OFFSET; snprintf_P(sbuffer, sizeof(sbuffer), PSTR(">%s=%d\n"), event_item.Event.c_str(),ep); } else { snprintf_P(sbuffer, sizeof(sbuffer), PSTR(">%s=\"%s\"\n"), event_item.Event.c_str(), value.c_str()); } //toLog(sbuffer); execute_script(sbuffer); } } return serviced; } /********************************************************************************************/ /* * Subscribe a MQTT topic (with or without key) and assign an event name to it * Command Subscribe format: * Subscribe , [, ] * This command will subscribe a and give it an event name . * The optional parameter is for parse the specified key/value from MQTT message * payload with JSON format. * Subscribe * Subscribe command without any parameter will list all topics currently subscribed. * Input: * data - A char buffer with all the parameters * data_len - Length of the parameters * Return: * A string include subscribed event, topic and key. */ String ScriptSubscribe(const char *data, int data_len) { MQTT_Subscription subscription_item; String events; if (data_len > 0) { char parameters[data_len+1]; memcpy(parameters, data, data_len); parameters[data_len] = '\0'; String event_name, topic, key; char * pos = strtok(parameters, ","); if (pos) { event_name = Trim(pos); pos = strtok(nullptr, ","); if (pos) { topic = Trim(pos); pos = strtok(nullptr, ","); if (pos) { key = Trim(pos); } } } //AddLog_P2(LOG_LEVEL_DEBUG, PSTR("Script: Subscribe command with parameters: %s, %s, %s."), event_name.c_str(), topic.c_str(), key.c_str()); //event_name.toUpperCase(); if (event_name.length() > 0 && topic.length() > 0) { //Search all subscriptions for (uint32_t index=0; index < subscriptions.size(); index++) { if (subscriptions.get(index).Event.equals(event_name)) { //If find exists one, remove it. String stopic = subscriptions.get(index).Topic + "/#"; MqttUnsubscribe(stopic.c_str()); subscriptions.remove(index); break; } } //Add "/#" to the topic if (!topic.endsWith("#")) { if (topic.endsWith("/")) { topic.concat("#"); } else { topic.concat("/#"); } } //AddLog_P2(LOG_LEVEL_DEBUG, PSTR("Script: New topic: %s."), topic.c_str()); //MQTT Subscribe subscription_item.Event = event_name; subscription_item.Topic = topic.substring(0, topic.length() - 2); //Remove "/#" so easy to match subscription_item.Key = key; subscriptions.add(subscription_item); MqttSubscribe(topic.c_str()); events.concat(event_name + "," + topic + (key.length()>0 ? "," : "") + key); } else { events = D_JSON_WRONG_PARAMETERS; } } else { //If did not specify the event name, list all subscribed event for (uint32_t index=0; index < subscriptions.size(); index++) { subscription_item = subscriptions.get(index); events.concat(subscription_item.Event + "," + subscription_item.Topic + (subscription_item.Key.length()>0 ? "," : "") + subscription_item.Key + "; "); } } return events; } /********************************************************************************************/ /* * Unsubscribe specified MQTT event. If no event specified, Unsubscribe all. * Command Unsubscribe format: * Unsubscribe [] * Input: * data - Event name * data_len - Length of the parameters * Return: * list all the events unsubscribed. */ String ScriptUnsubscribe(const char * data, int data_len) { MQTT_Subscription subscription_item; String events; if (data_len > 0) { for (uint32_t index = 0; index < subscriptions.size(); index++) { subscription_item = subscriptions.get(index); if (subscription_item.Event.equalsIgnoreCase(data)) { String stopic = subscription_item.Topic + "/#"; MqttUnsubscribe(stopic.c_str()); events = subscription_item.Event; subscriptions.remove(index); break; } } } else { //If did not specify the event name, unsubscribe all event String stopic; while (subscriptions.size() > 0) { events.concat(subscriptions.get(0).Event + "; "); stopic = subscriptions.get(0).Topic + "/#"; MqttUnsubscribe(stopic.c_str()); subscriptions.remove(0); } } return events; } #endif // SUPPORT_MQTT_EVENT #ifdef USE_SCRIPT_WEB_DISPLAY void Script_Check_HTML_Setvars(void) { if (!HttpCheckPriviledgedAccess()) { return; } if (Webserver->hasArg("sv")) { String stmp = Webserver->arg("sv"); char cmdbuf[64]; memset(cmdbuf,0,sizeof(cmdbuf)); char *cp=cmdbuf; *cp++='>'; strncpy(cp,stmp.c_str(),sizeof(cmdbuf)-1); char *cp1=strchr(cp,'_'); if (!cp1) return; *cp1=0; char vname[32]; strncpy(vname,cp,sizeof(vname)); *cp1='='; cp1++; struct T_INDEX ind; uint8_t vtype; isvar(vname,&vtype,&ind,0,0,0); if (vtype!=NUM_RES && vtype&STYPE) { // string type must insert quotes uint8_t tlen=strlen(cp1); memmove(cp1+1,cp1,tlen); *cp1='\"'; *(cp1+tlen+1)='\"'; } //toLog(cmdbuf); execute_script(cmdbuf); Run_Scripter(">E",2,0); } } const char SCRIPT_MSG_BUTTONa[] PROGMEM = ""; const char SCRIPT_MSG_BUTTONa_TBL[] PROGMEM = ""; const char SCRIPT_MSG_BUTTONb[] PROGMEM = ""; const char SCRIPT_MSG_BUT_START[] PROGMEM = "
"; const char SCRIPT_MSG_BUT_START_TBL[] PROGMEM = ""; const char SCRIPT_MSG_BUT_STOP[] PROGMEM = ""; const char SCRIPT_MSG_BUT_STOP_TBL[] PROGMEM = "
"; const char SCRIPT_MSG_SLIDER[] PROGMEM = "
%s
%s%s
" "
"; const char SCRIPT_MSG_CHKBOX[] PROGMEM = "
"; const char SCRIPT_MSG_TEXTINP[] PROGMEM = "
"; const char SCRIPT_MSG_NUMINP[] PROGMEM = "
"; void ScriptGetVarname(char *nbuf,char *sp, uint32_t blen) { uint32_t cnt; for (cnt=0;cntW",-2,0); if (web_script==99) { char line[128]; char tmp[128]; uint8_t optflg=0; char *lp=glob_script_mem.section_ptr+2; while (lp) { while (*lp==SCRIPT_EOL) { lp++; } if (!*lp || *lp=='#' || *lp=='>') { break; } if (*lp!=';') { // send this line to web memcpy(line,lp,sizeof(line)); line[sizeof(line)-1]=0; char *cp=line; for (uint32_t i=0; i0) { cp="checked='checked'"; uval=0; } else { cp=""; uval=1; } WSContentSend_PD(SCRIPT_MSG_CHKBOX,label,(char*)cp,uval,vname); } else if (!strncmp(lin,"bu(",3)) { char *lp=lin+3; uint8_t bcnt=0; char *found=lin; while (bcnt<4) { found=strstr(found,"bu("); if (!found) break; found+=3; bcnt++; } uint8_t proz=100/bcnt; if (!optflg && bcnt>1) proz-=2; if (optflg) WSContentSend_PD(SCRIPT_MSG_BUT_START_TBL); else WSContentSend_PD(SCRIPT_MSG_BUT_START); for (uint32_t cnt=0;cnt0) { cp=ontxt; uval=0; } else { cp=offtxt; uval=1; } if (bcnt>1 && cnt==bcnt-1) { if (!optflg) proz+=2; } if (!optflg) { WSContentSend_PD(SCRIPT_MSG_BUTTONa,proz,uval,vname,cp); } else { WSContentSend_PD(SCRIPT_MSG_BUTTONa_TBL,proz,uval,vname,cp); } if (bcnt>1 && cnt%s
"),tmp); } else { WSContentSend_PD(PSTR("{s}%s{e}"),tmp); } } } else { if (*lin==mc) { Replace_Cmd_Vars(lin+1,0,tmp,sizeof(tmp)); WSContentSend_PD(PSTR("%s"),tmp); } } } if (*lp==SCRIPT_EOL) { lp++; } else { lp = strchr(lp, SCRIPT_EOL); if (!lp) break; lp++; } } } } #endif //USE_SCRIPT_WEB_DISPLAY #ifdef USE_SENDMAIL void script_send_email_body(void(*func)(char *)) { uint8_t msect=Run_Scripter(">m",-2,0); if (msect==99) { char line[128]; char tmp[128]; char *lp=glob_script_mem.section_ptr+2; while (lp) { while (*lp==SCRIPT_EOL) { lp++; } if (!*lp || *lp=='#' || *lp=='>') { break; } if (*lp!=';') { // send this line to smtp memcpy(line,lp,sizeof(line)); line[sizeof(line)-1]=0; char *cp=line; for (uint32_t i=0; iprintln(tmp); func(tmp); } if (*lp==SCRIPT_EOL) { lp++; } else { lp = strchr(lp, SCRIPT_EOL); if (!lp) break; lp++; } } } else { //client->println("*"); func((char*)"*"); } } #endif #ifdef USE_SCRIPT_JSON_EXPORT void ScriptJsonAppend(void) { uint8_t web_script=Run_Scripter(">J",-2,0); if (web_script==99) { char line[128]; char tmp[128]; char *lp=glob_script_mem.section_ptr+2; while (lp) { while (*lp==SCRIPT_EOL) { lp++; } if (!*lp || *lp=='#' || *lp=='>') { break; } if (*lp!=';') { // send this line to mqtt memcpy(line,lp,sizeof(line)); line[sizeof(line)-1]=0; char *cp=line; for (uint32_t i=0; iE",2,json_event); } #ifdef ESP32 #ifdef USE_SCRIPT_TASK uint16_t task_timer1; uint16_t task_timer2; TaskHandle_t task_t1; TaskHandle_t task_t2; void script_task1(void *arg) { while (1) { delay(task_timer1); Run_Scripter(">t1",3,0); } } void script_task2(void *arg) { while (1) { delay(task_timer2); Run_Scripter(">t2",3,0); } } #ifndef STASK_STACK #define STASK_STACK 4096 #endif #ifndef STASK_PRIO #define STASK_PRIO 5 #endif uint32_t scripter_create_task(uint32_t num, uint32_t time, uint32_t core) { //return 0; BaseType_t res = 0; if (core > 1) { core = 1; } if (num == 1) { if (task_t1) { vTaskDelete(task_t1); } res = xTaskCreatePinnedToCore(script_task1, "T1", STASK_STACK, NULL, STASK_PRIO, &task_t1, core); task_timer1 = time; } else { if (task_t2) { vTaskDelete(task_t2); } res = xTaskCreatePinnedToCore(script_task2, "T2", STASK_STACK, NULL, STASK_PRIO, &task_t2, core); task_timer2 = time; } return res; } #endif // USE_SCRIPT_TASK #endif // ESP32 /*********************************************************************************************\ * Interface \*********************************************************************************************/ bool Xdrv10(uint8_t function) { bool result = false; switch (function) { case FUNC_PRE_INIT: // set defaults to rules memory //bitWrite(Settings.rule_enabled,0,0); glob_script_mem.script_ram=Settings.rules[0]; glob_script_mem.script_size=MAX_SCRIPT_SIZE; glob_script_mem.flags=0; glob_script_mem.script_pram=(uint8_t*)Settings.script_pram[0]; glob_script_mem.script_pram_size=PMEM_SIZE; #ifdef USE_BUTTON_EVENT for (uint32_t cnt=0;cntB",2,0); fast_script=Run_Scripter(">F",-2,0); #if defined(USE_SCRIPT_HUE) && defined(USE_WEBSERVER) && defined(USE_EMULATION) && defined(USE_EMULATION_HUE) && defined(USE_LIGHT) Script_Check_Hue(0); #endif } break; case FUNC_EVERY_100_MSECOND: ScripterEvery100ms(); break; case FUNC_EVERY_SECOND: ScriptEverySecond(); break; case FUNC_COMMAND: result = ScriptCommand(); break; case FUNC_SET_POWER: #ifdef SCRIPT_POWER_SECTION if (bitRead(Settings.rule_enabled, 0)) Run_Scripter(">P",2,0); #else if (bitRead(Settings.rule_enabled, 0)) Run_Scripter(">E",2,0); #endif break; case FUNC_RULES_PROCESS: if (bitRead(Settings.rule_enabled, 0)) Run_Scripter(">E",2,mqtt_data); break; #ifdef USE_WEBSERVER case FUNC_WEB_ADD_BUTTON: WSContentSend_P(HTTP_BTN_MENU_RULES); break; #ifdef USE_SCRIPT_WEB_DISPLAY case FUNC_WEB_ADD_MAIN_BUTTON: if (bitRead(Settings.rule_enabled, 0)) { ScriptWebShow('&'); } break; #endif // USE_SCRIPT_WEB_DISPLAY case FUNC_WEB_ADD_HANDLER: Webserver->on("/" WEB_HANDLE_SCRIPT, HandleScriptConfiguration); Webserver->on("/ta",HTTP_POST, HandleScriptTextareaConfiguration); #ifdef USE_SCRIPT_FATFS Webserver->on("/u3", HTTP_POST,[]() { Webserver->sendHeader("Location","/u3");Webserver->send(303);},script_upload); Webserver->on("/u3", HTTP_GET,ScriptFileUploadSuccess); Webserver->on("/upl", HTTP_GET,Script_FileUploadConfiguration); #endif break; #endif // USE_WEBSERVER case FUNC_SAVE_BEFORE_RESTART: if (bitRead(Settings.rule_enabled, 0)) { Run_Scripter(">R",2,0); Scripter_save_pvars(); } break; #ifdef SUPPORT_MQTT_EVENT case FUNC_MQTT_DATA: if (bitRead(Settings.rule_enabled, 0)) { result = ScriptMqttData(); } break; #endif //SUPPORT_MQTT_EVENT #ifdef USE_SCRIPT_WEB_DISPLAY case FUNC_WEB_SENSOR: if (bitRead(Settings.rule_enabled, 0)) { ScriptWebShow(0); } break; #endif //USE_SCRIPT_WEB_DISPLAY #ifdef USE_SCRIPT_JSON_EXPORT case FUNC_JSON_APPEND: if (bitRead(Settings.rule_enabled, 0)) { ScriptJsonAppend(); } break; #endif //USE_SCRIPT_JSON_EXPORT #ifdef USE_BUTTON_EVENT case FUNC_BUTTON_PRESSED: if (bitRead(Settings.rule_enabled, 0)) { if ((script_button[XdrvMailbox.index]&1)!=(XdrvMailbox.payload&1)) { script_button[XdrvMailbox.index]=XdrvMailbox.payload; Run_Scripter(">b",2,0); } } break; #endif } return result; } #endif // Do not USE_RULES #endif // USE_SCRIPT