/*
xdrv_10_scripter.ino - script support for Tasmota
Copyright (C) 2021 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 {})
// to doo
\*********************************************************************************************/
#define XDRV_10 10
#ifndef TS_FLOAT
#define TS_FLOAT float
#endif
// float = 4, double = 8 bytes
const uint8_t SCRIPT_VERS[2] = {5, 3};
#define SCRIPT_DEBUG 0
#ifndef MAXVARS
#define MAXVARS 50
#endif
#ifndef MAXSVARS
#define MAXSVARS 5
#endif
#define MAXNVARS MAXVARS-MAXSVARS
#if (defined(USE_SML_M) || defined(USE_BINPLUGINS))
#ifndef NO_USE_SML_SCRIPT_CMD
// allows several sml cmds from scripts, as well as access to sml registers
#undef USE_SML_SCRIPT_CMD
#define USE_SML_SCRIPT_CMD
#endif
#endif // USE_SML_M
#ifndef MAXFILT
#define MAXFILT 10
#endif
#ifndef SCRIPT_SVARSIZE
#define SCRIPT_SVARSIZE 20
#endif
#ifndef SCRIPT_MAXSSIZE
#define SCRIPT_MAXSSIZE 48
#endif
//#define SCRIPT_MAX_SBSIZE SCRIPT_MAXSSIZE
#define SCRIPT_MAX_SBSIZE glob_script_mem.max_ssize
#ifndef SCRIPT_GC_OPTIONS_SIZE
#define SCRIPT_GC_OPTIONS_SIZE 320
#endif
#ifndef SCRIPT_WS_LINE_SIZE
#define SCRIPT_WS_LINE_SIZE 256
#endif
#ifndef SCRIPT_CMDMEM
#define SCRIPT_CMDMEM 512
#endif
#define MAX_SCRIPT_CMDBUFFER 4096
#define SPI_FLASH_2SEC_SIZE SPI_FLASH_SEC_SIZE*2
#define SCRIPT_EOL '\n'
#define SCRIPT_FLOAT_PRECISION 2
#define PMEM_SIZE sizeof(Settings->script_pram)
#define SCRIPT_MAXPERM (PMEM_SIZE)-4/sizeof(TS_FLOAT)
#define MAX_SCRIPT_SIZE MAX_RULE_SIZE*MAX_RULE_SETS
#ifndef MAX_SARRAY_NUM
#define MAX_SARRAY_NUM 32
#endif
int32_t fast_mux(uint32_t flag, uint32_t time, TS_FLOAT *buf, uint32_t len);
void Draw_jpeg(uint8_t *mem, uint16_t jpgsize, uint16_t xp, uint16_t yp, uint8_t scale);
uint32_t EncodeLightId(uint8_t relay_id);
uint32_t DecodeLightId(uint32_t hue_id);
char *web_send_line(char mc, char *lp);
int32_t web_send_file(char mc, char *file);
char *Get_esc_char(char *cp, char *esc_chr);
#define SPECIAL_EEPMODE_SIZE 6200
#ifndef STASK_STACK
#define STASK_STACK 8192-2048
#endif
#ifdef USE_UFILESYS
#undef USE_SCRIPT_FATFS
#define USE_SCRIPT_FATFS -1
#else // USE_UFILESYS
// eeprom script
#ifdef EEP_SCRIPT_SIZE
#ifdef ESP32
#error "unsupported option for ESP32"
#endif
#ifdef USE_24C256
#pragma message "script 24c256 file option used"
#else
#if EEP_SCRIPT_SIZE==SPECIAL_EEPMODE_SIZE || EEP_SCRIPT_SIZE==SPI_FLASH_2SEC_SIZE || EEP_SCRIPT_SIZE==SPI_FLASH_SEC_SIZE
#if EEP_SCRIPT_SIZE==SPI_FLASH_2SEC_SIZE || EEP_SCRIPT_SIZE==SPI_FLASH_SEC_SIZE
#pragma message "internal special flash script buffer used"
#else
#pragma message "internal compressed eeprom script buffer used"
#endif
#else
#error "unsupported eeprom option used"
#endif
#endif // USE_24C256
#else // EEP_SCRIPT_SIZE
// default
#pragma message "script compression option used"
#endif // EEP_SCRIPT_SIZE
#endif // USE_UFILESYS
#include
#define SCRIPT_COMPRESS compressor.unishox_compress
#define SCRIPT_DECOMPRESS compressor.unishox_decompress
#ifndef UNISHOXRSIZE
#define UNISHOXRSIZE 2560
#endif
#ifndef MAX_EXT_ARRAYS
#define MAX_EXT_ARRAYS 5
#endif
#ifndef STASK_PRIO
#define STASK_PRIO 1
#endif
#ifdef ESP32
#if !defined(ESP_IDF_VERSION) || (ESP_IDF_VERSION < ESP_IDF_VERSION_VAL(5,0,0))
#include
#else
#include
#include
#endif
#endif // ESP32
#ifdef ESP32
#include "driver/i2s_std.h"
#include "driver/i2s_pdm.h"
#endif
#ifdef SCRIPT_FULL_OPTIONS
#undef USE_BUTTON_EVENT
#define USE_BUTTON_EVENT
#undef USE_SCRIPT_JSON_EXPORT
#define USE_SCRIPT_JSON_EXPORT
#undef USE_SCRIPT_SUB_COMMAND
#define USE_SCRIPT_SUB_COMMAND
#undef USE_SCRIPT_STATUS
#define USE_SCRIPT_STATUS
#undef SCRIPT_POWER_SECTION
#define SCRIPT_POWER_SECTION
#undef SUPPORT_MQTT_EVENT
#define SUPPORT_MQTT_EVENT
#undef USE_SCRIPT_WEB_DISPLAY
#define USE_SCRIPT_WEB_DISPLAY
#undef SCRIPT_FULL_WEBPAGE
#define SCRIPT_FULL_WEBPAGE
#undef USE_WEBSEND_RESPONSE
#define USE_WEBSEND_RESPONSE
#undef USE_ANGLE_FUNC
#define USE_ANGLE_FUNC
#undef USE_SCRIPT_FATFS_EXT
#define USE_SCRIPT_FATFS_EXT
#undef USE_SCRIPT_TASK
#define USE_SCRIPT_TASK
#undef USE_SCRIPT_GLOBVARS
#define USE_SCRIPT_GLOBVARS
#undef USE_SCRIPT_I2C
#define USE_SCRIPT_I2C
#undef USE_SCRIPT_SERIAL
#define USE_SCRIPT_SERIAL
#undef USE_SCRIPT_TIMER
#define USE_SCRIPT_TIMER
#undef LARGE_ARRAYS
#define LARGE_ARRAYS
#undef SCRIPT_LARGE_VNBUFF
#define SCRIPT_LARGE_VNBUFF
#undef USE_GOOGLE_CHARTS
#define USE_GOOGLE_CHARTS
#undef USE_FEXTRACT
#define USE_FEXTRACT
#undef USE_SCRIPT_SPI
#define USE_SCRIPT_SPI
#undef USE_SCRIPT_TCP_SERVER
#define USE_SCRIPT_TCP_SERVER
#undef USE_SCRIPT_ONEWIRE
#define USE_SCRIPT_ONEWIRE
#undef USE_SCRIPT_INT
#define USE_SCRIPT_INT
#undef USE_SCRIPT_FULL_JSON_PARSER
#define USE_SCRIPT_FULL_JSON_PARSER
#undef USE_HTML_CALLBACK
#define USE_HTML_CALLBACK
#endif
#ifdef USE_SCRIPT_TIMER
#include
Ticker Script_ticker1;
Ticker Script_ticker2;
Ticker Script_ticker3;
Ticker Script_ticker4;
void Script_ticker1_end(void) {
Script_ticker1.detach();
Run_Scripter1(">ti1", 4, 0);
}
void Script_ticker2_end(void) {
Script_ticker2.detach();
Run_Scripter1(">ti2", 4, 0);
}
void Script_ticker3_end(void) {
Script_ticker3.detach();
Run_Scripter1(">ti3", 4, 0);
}
void Script_ticker4_end(void) {
Script_ticker4.detach();
Run_Scripter1(">ti4", 4, 0);
}
#endif
#ifndef HARDWARE_FALLBACK
#define HARDWARE_FALLBACK 2
#endif
// EEPROM MACROS
// i2c eeprom
#define EEP_WRITE(A,B,C) eeprom_writeBytes(A, B, (uint8_t*)C);
#define EEP_READ(A,B,C) eeprom_readBytes(A, B, (uint8_t*)C);
#ifdef ESP8266
#ifdef USE_24C256
#undef EEP_INIT
#define EEP_INIT(A) eeprom_init(A)
#else
#undef EEP_INIT
#define EEP_INIT(A) alt_eeprom_init(A)
#endif
#endif
//#if defined(USE_SML_M) && defined (USE_SML_SCRIPT_CMD)
//extern uint8_t sml_options;
//#endif
#if defined(EEP_SCRIPT_SIZE) && !defined(ESP32)
// seems to be the last untouched sector, beside OTA and serial Flash
#define SPEC_SCRIPT_FLASH 0x000F2000
uint32_t eeprom_block;
// these support only one 4 k block below EEPROM (eeprom @0x402FB000) this steals 4k of application area
uint32_t alt_eeprom_init(uint32_t size) {
//EEPROM.begin(size);
//eeprom_block = (uint32_t)&_EEPROM_start - 0x40200000 - SPI_FLASH_SEC_SIZE;
#if EEP_SCRIPT_SIZE==SPI_FLASH_2SEC_SIZE
eeprom_block = SPEC_SCRIPT_FLASH - SPI_FLASH_SEC_SIZE;
//eeprom_block = SPEC_SCRIPT_FLASH;
#else
eeprom_block = SPEC_SCRIPT_FLASH;
#endif
return 1;
}
void alt_eeprom_writeBytes(uint32_t adr, uint32_t len, uint8_t *buf) {
uint32_t *lwp = (uint32_t*)buf;
#if EEP_SCRIPT_SIZE==SPI_FLASH_2SEC_SIZE
ESP.flashEraseSector(eeprom_block / SPI_FLASH_SEC_SIZE);
ESP.flashEraseSector((eeprom_block + SPI_FLASH_SEC_SIZE) / SPI_FLASH_SEC_SIZE);
#else
ESP.flashEraseSector(eeprom_block / SPI_FLASH_SEC_SIZE);
#endif
ESP.flashWrite(eeprom_block , lwp, len);
}
void alt_eeprom_readBytes(uint32_t adr, uint32_t len, uint8_t *buf) {
uint32_t *lwp = (uint32_t*)buf;
ESP.flashRead(eeprom_block, lwp, len);
}
#endif // EEP_SCRIPT_SIZE
#include "FS.h"
#if USE_SCRIPT_FATFS==-1
#ifdef ESP32
//#include "FS.h"
//#include "FFat.h"
#else
//#include
#endif
#endif // LITTLEFS_SCRIPT_SIZE
#include
#include
#ifdef TESLA_POWERWALL
#include "include/powerwall.h"
#endif
#ifdef USE_DISPLAY_DUMP
#include
extern Renderer *renderer;
#endif
// offsets epoch readings by 1.1.2019 00:00:00 to fit into float with second resolution
#ifndef EPOCH_OFFSET
#define EPOCH_OFFSET 1546300800
#endif
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,OPER_SHLEQU,OPER_SHREQU,OPER_SHL,OPER_SHR};
enum {SCRIPT_LOGLEVEL=1,SCRIPT_TELEPERIOD,SCRIPT_EVENT_HANDLED,SML_JSON_ENABLE,SCRIPT_EPOFFS,SCRIPT_CBSIZE};
#ifdef USE_UFILESYS
extern uint8_t ufs_type;
extern FS *ufsp;
extern FS *ffsp;
#ifndef UFSYS_SIZE
#define UFSYS_SIZE 8192
#endif
#define SSIZE_PSTORE (uint16_t *) (glob_script_mem.script_pram + glob_script_mem.script_pram_size - 2)
#define FAT_SCRIPT_NAME "/script.txt"
#endif // USE_UFILESYS
extern "C" int32_t homekit_main(char *, uint32_t);
#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
#ifndef MAX_TOUCH_BUTTONS
#define MAX_TOUCH_BUTTONS 16
#endif
extern VButton *buttons[MAX_TOUCH_BUTTONS];
#endif
#endif
typedef union {
uint16_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;
uint8_t global : 1;
uint8_t hchanged : 1;
uint8_t integer : 1;
};
} SCRIPT_TYPE;
struct T_INDEX {
uint16_t index;
SCRIPT_TYPE bits;
};
struct M_FILT {
#ifdef LARGE_ARRAYS
uint16_t numvals;
uint16_t index;
#else
uint8_t numvals;
uint8_t index;
#endif // LARGE_ARRAYS
TS_FLOAT maccu;
TS_FLOAT rbuff[1];
};
#ifdef LARGE_ARRAYS
#undef AND_FILT_MASK
#undef OR_FILT_MASK
#define AND_FILT_MASK 0x7fff
#define OR_FILT_MASK 0x8000
#undef MAX_ARRAY_SIZE
#define MAX_ARRAY_SIZE 1000
#else
#undef AND_FILT_MASK
#undef OR_FILT_MASK
#define AND_FILT_MASK 0x7f
#define OR_FILT_MASK 0x80
#undef MAX_ARRAY_SIZE
#define MAX_ARRAY_SIZE 127
#endif
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;
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 udp_connected : 1;
uint8_t udp_used : 1;
};
} UDP_FLAGS;
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;
bool fsys : 1;
bool eeprom : 1;
};
} FS_FLAGS;
struct GVARS {
JsonParserObject *jo;
int16_t numind;
int16_t strind;
};
#ifdef USE_SCRIPT_SPI
struct SCRIPT_SPI {
int8_t sclk;
int8_t mosi;
int8_t miso;
int8_t cs[4];
SPIClass *spip;
SPISettings settings;
};
#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
uint32_t SML_SetBaud(uint32_t meter, uint32_t br);
uint32_t sml_status(uint32_t meter);
uint32_t SML_Write(int32_t meter, char *hstr);
uint32_t SML_Read(int32_t meter, char *str, uint32_t slen);
uint32_t sml_getv(uint32_t sel);
uint32_t SML_Shift_Num(uint32_t meter, uint32_t shift);
double SML_GetVal(uint32_t index);
char *SML_GetSVal(uint32_t index);
int32_t SML_Set_WStr(uint32_t meter, char *hstr);
void SML_Decode(uint8_t index);
uint32_t SML_SetOptions(uint32_t in);
typedef struct {
uint32_t (*SML_SetBaud)(uint32_t,uint32_t);
uint32_t (*sml_status)(uint32_t);
uint32_t (*SML_Write)(int32_t,char*);
uint32_t (*SML_Read)(int32_t,char*,uint32_t);
uint32_t (*sml_getv)(uint32_t);
uint32_t (*SML_Shift_Num)(uint32_t,uint32_t);
double (*SML_GetVal)(uint32_t);
char * (*SML_GetSVal)(uint32_t);
int32_t (*SML_Set_WStr)(uint32_t,char*);
void (*SML_Decode)(uint8_t);
uint32_t (*SML_SetOptions)(uint32_t);
} SML_TABLE;
#ifdef USE_SML_M
SML_TABLE smltab PROGMEM = {&SML_SetBaud,&sml_status,&SML_Write,&SML_Read,&sml_getv,&SML_Shift_Num,&SML_GetVal,&SML_GetSVal,&SML_Set_WStr,&SML_Decode,&SML_SetOptions};
#endif
#ifdef USE_SCRIPT_ONEWIRE
#include
#include
#ifndef MAX_DS_SENSORS
#define MAX_DS_SENSORS 20
#endif
typedef struct {
OneWire *ds;
DS2480B *dsh;
TasmotaSerial *ts;
uint8_t ds_address[MAX_DS_SENSORS][8];
} ScriptOneWire;
#endif // USE_SCRIPT_ONEWIRE
#define SFS_MAX 4
// global memory
typedef struct {
TS_FLOAT *fvars; // number var pointer
TS_FLOAT *s_fvars; // shadow var pointer
struct T_INDEX *type; // type and index pointer
struct M_FILT *mfilt;
char *glob_vnp; // var name pointer
#ifdef SCRIPT_LARGE_VNBUFF
uint16_t *vnp_offset;
#else
uint8_t *vnp_offset;
#endif
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;
uint16_t numvars;
uint8_t arres;
void *script_mem;
uint16_t script_mem_size;
uint8_t script_dprec;
char script_sepc;
uint8_t script_lzero;
uint8_t var_not_found;
uint8_t glob_error;
uint8_t max_ssize;
uint8_t script_loglevel;
FS_FLAGS FLAGS;
uint8_t si_num[3];
uint8_t siro_num[3];
uint8_t sind_num;
char *last_index_string[3];
uint16_t cmdbuffer_size = SCRIPT_CMDMEM / 2;
#ifdef USE_SCRIPT_FATFS
File files[SFS_MAX];
FILE_FLAGS file_flags[SFS_MAX];
uint8_t script_sd_found;
char flink[2][14];
#endif //USE_SCRIPT_FATFS
#ifdef USE_SCRIPT_GLOBVARS
UDP_FLAGS udp_flags;
IPAddress last_udp_ip;
WiFiUDP Script_PortUdp;
IPAddress script_udp_remote_ip;
#endif // USE_SCRIPT_GLOBVARS
char web_mode;
char *glob_script = 0;
char *fast_script = 0;
char *event_script = 0;
char *html_script = 0;
char *teleperiod = 0;
char *web_pages[10];
uint32_t script_lastmillis;
bool event_handeled = false;
bool res_ivar = false;
#ifdef USE_BUTTON_EVENT
int8_t script_button[MAX_KEYS];
#endif //USE_BUTTON_EVENT
#ifdef USE_HOMEKIT
bool homekit_running = false;
#endif // USE_HOMEKIT
uint32_t epoch_offset = EPOCH_OFFSET;
#ifdef USE_SCRIPT_SERIAL
TasmotaSerial *sp;
#endif
TS_FLOAT retval;
char *retstr;
#ifdef USE_SCRIPT_SPI
struct SCRIPT_SPI spi;
#endif
#ifdef USE_FEXTRACT
uint32_t from_time;
uint32_t to_time;
#endif
#if (defined(USE_SML_M) || defined(USE_BINPLUGINS)) && defined(USE_SML_SCRIPT_CMD) && defined(USE_SCRIPT_SERIAL)
char *hstr;
#endif
#ifdef USE_SCRIPT_I2C
uint8_t script_i2c_addr;
TwoWire *script_i2c_wire;
#endif
#ifdef USE_SCRIPT_ONEWIRE
ScriptOneWire ow;
#endif
#ifdef USE_SCRIPT_TCP_SERVER
WiFiServer *tcp_server;
WiFiClient tcp_client;
#endif
#ifdef SCRIPT_FULL_WEBPAGE
uint8_t wsp;
#endif
#ifdef ESP8266
uint8_t pwmpin[5];
#endif
#ifdef ESP32
uint8_t pwmpin[8];
uint8 esp32_beep_pin;
TimerHandle_t beep_th;
#endif
#ifdef USE_ANGLE_FUNC
uint32_t pulse_time_hl;
uint32_t pulse_time_lh;
uint32_t pulse_ltime_hl;
uint32_t pulse_ltime_lh;
uint8_t pt_pin;
#endif
uint8_t specopt;
#ifdef USE_GOOGLE_CHARTS
uint8_t chartindex;
uint8_t google_libs;
char gs_ctype;
#endif
#if defined(ESP32) && defined(JPEG_PICTS) && defined(STREAM_JPEG_PICTS)
struct JPG_TASK {
char boundary[40];
bool draw;
uint8_t scale;
uint16_t xp;
uint16_t yp;
WiFiClient stream;
HTTPClient http;
} jpg_task;
#endif
#if defined(ESP32) && defined(USE_UFILESYS) && defined(USE_SCRIPT_ALT_DOWNLOAD)
ESP8266WebServer *http82_Server;
bool download82_busy;
#endif
#if defined(ESP32) && defined(USE_DLTASK)
bool script_download_busy;
#endif
#if defined(ESP32) && defined(ESP32_FAST_MUX)
#define MUX_SIZE 128
struct FAST_PIN_MUX {
volatile uint8_t scan_cnt;
uint8_t scan_buff[MUX_SIZE];
uint8_t scan_buff_size;
uint8_t time;
uint32_t low_pins;
uint32_t high_pins;
hw_timer_t * scan_timer = NULL;
portMUX_TYPE scan_timerMux = portMUX_INITIALIZER_UNLOCKED;
} fast_pin_mux;
#endif
#if defined(ESP32) && defined(USE_SCRIPT_TASK)
struct ESP32_Task {
uint16_t task_timer;
TaskHandle_t task_t;
char *tstart;
} esp32_tasks[2];
#endif
uint8_t *script_ex_ptr;
uint16_t uplsize;
uint8_t sc_state;
uint8_t tasm_cmd_activ = 0;
uint16_t ufs_script_size;
#ifdef USE_PLAY_WAVE
#ifdef ESP32
i2s_chan_handle_t tx_handle;
#endif
#endif
#if defined(USE_SML_M) || defined (USE_BINPLUGINS)
SML_TABLE *smlptr;
#endif
} SCRIPT_MEM;
SCRIPT_MEM glob_script_mem;
uint32_t Plugin_Query(uint16_t, uint8_t);
void script_setaflg(uint8_t flg) {
glob_script_mem.tasm_cmd_activ = flg;
}
void flt2char(TS_FLOAT num, char *nbuff);
void flt2char(TS_FLOAT num, char *nbuff) {
dtostrfd(num, glob_script_mem.script_dprec, nbuff);
}
void f2char(double num, uint32_t dprec, uint32_t lzeros, char *nbuff, char dsep);
// convert float to char with leading zeros
void f2char(double num, uint32_t dprec, uint32_t lzeros, char *nbuff, char dsep) {
dtostrfd(num, dprec, nbuff);
if (lzeros > 1) {
// check leading zeros
uint32_t nd = strlen(nbuff);
for (uint8_t cnt = 0; cnt < nd; cnt++) {
if (nbuff[cnt] == '.') {
nd = cnt;
break;
}
}
if (lzeros > nd) {
// insert zeros
char cpbuf[24];
char *cp = cpbuf;
for (uint32_t cnt = 0; cnt < lzeros - nd; cnt++) {
*cp++='0';
}
*cp=0;
strcat(cpbuf,nbuff);
strcpy(nbuff,cpbuf);
}
}
if (dsep != '.') {
for (uint16_t cnt = 0; cnt < strlen(nbuff); cnt++) {
if (nbuff[cnt] == '.') {
nbuff[cnt] = dsep;
}
}
}
}
uint32_t match_vars(char *dvnam, TS_FLOAT **fp, char **sp, uint32_t *ind);
uint32_t script_sspi_trans(int32_t cs_index, TS_FLOAT *array, uint32_t len, uint32_t size);
char *scripter_sub(char *lp, uint8_t fromscriptcmd);
char *GetNumericArgument(char *lp,uint8_t lastop,TS_FLOAT *fp, struct GVARS *gv);
char *GetStringArgument(char *lp,uint8_t lastop,char *cp, struct GVARS *gv);
char *ForceStringVar(char *lp,char *dstr);
char *GetLongIString(char *lp, char **dstr);
void send_download(void);
uint8_t UfsReject(char *name);
#ifdef USE_UFILESYS
void fread_str_fp(File *fp, char *sp, uint16_t slen, uint16_t flg);
int32_t script_copy_file(File *source, File *dest, uint32_t sf_from, uint32_t sf_to, uint32_t flag, WiFiClient *client);
int32_t opt_fext(File *fp, char *ts_from, char *ts_to, uint32_t flg);
int32_t extract_from_file(File *fp, char *ts_from, char *ts_to, int8_t coffs, TS_FLOAT **a_ptr, uint16_t *a_len, uint8_t numa, int16_t accum);
#endif
char *eval_sub(char *lp, TS_FLOAT *fvar, char *rstr);
int32_t script_ow(uint8_t sel, uint32_t val);
int32_t script_logfile_write(char *path, char *payload, uint32_t size);
void script_sort_array(TS_FLOAT *array, uint16_t size);
uint32_t Touch_Status(int32_t sel);
int32_t play_wave(char *path);
#if defined(USE_BINPLUGINS) && !defined(USE_SML_M)
SML_TABLE *get_sml_table(void) {
if (Plugin_Query(53, 0)) {
return (SML_TABLE*)Plugin_Query(53, 1);
} else {
return 0;
}
}
#endif
#ifdef USE_SML_M
SML_TABLE *get_sml_table(void) {
return glob_script_mem.smlptr;
}
#endif
void ScriptEverySecond(void) {
if (bitRead(Settings->rule_enabled, 0)) {
struct T_INDEX *vtp = glob_script_mem.type;
TS_FLOAT delta = (millis() - glob_script_mem.script_lastmillis) / 1000.0;
glob_script_mem.script_lastmillis = millis();
for (uint16_t count = 0; count < glob_script_mem.numvars; count++) {
if (vtp[count].bits.is_timer) {
// decrements timers
TS_FLOAT *fp = &glob_script_mem.fvars[vtp[count].index];
if (*fp>0) {
// decrement
*fp -= delta;
if (*fp<0) *fp = 0;
}
}
if (vtp[count].bits.is_autoinc) {
// increments timers
TS_FLOAT *fp = &glob_script_mem.fvars[vtp[count].index];
if (*fp>=0) {
*fp += delta;
}
}
}
Run_Scripter1(">S", 2, 0);
#ifdef USE_HOMEKIT
if (glob_script_mem.homekit_running == false) {
uint8_t homekit_found = Run_Scripter1(">h", -2, 0);
if (homekit_found == 99) {
if (!TasmotaGlobal.global_state.wifi_down) {
homekit_main(glob_script_mem.section_ptr, 0);
glob_script_mem.homekit_running = true;
}
}
}
#endif // USE_HOMEKIT
}
}
void SetChanged(uint32_t index) {
glob_script_mem.type[index].bits.changed = 1;
#ifdef USE_SCRIPT_GLOBVARS
#ifdef USE_HOMEKIT
glob_script_mem.type[index].bits.hchanged = 1;
#endif
#endif
//AddLog(LOG_LEVEL_INFO, PSTR("Change: %d"), index);
}
#define SCRIPT_SKIP_SPACES while (*lp==' ' || *lp=='\t') lp++;
#define SCRIPT_SKIP_EOL while (*lp == SCRIPT_EOL) lp++;
TS_FLOAT *Get_MFAddr(uint8_t index, uint16_t *len, uint16_t *ipos);
uint32_t Script_Find_Vars(char *sp) {
uint16_t numvars = 0;
uint16_t svars = 0;
while (*sp) {
if (*sp == '\n' || *sp == '\r') {
sp++;
while (*sp == '=') {
sp++;
}
if (*sp == '#' || *sp == '>') {
break;
}
char *cp = strchr(sp, '=');
if (cp) {
cp++;
while (*cp == ' ') {
cp++;
}
if (*cp == '"') {
svars += 1;
} else if (isdigit(*cp) || *cp == '-') {
numvars += 1;
}
sp = cp;
}
}
sp++;
}
return (svars << 16) | numvars;
}
// allocates all variables and presets them
int16_t Init_Scripter(void) {
char *script;
int16_t err = 0;
script = glob_script_mem.script_ram;
if (!*script) return -999;
uint32_t xvars = Script_Find_Vars(script + 1);
uint16_t maxnvars = xvars & 0xffff;
if (maxnvars < 1) {
maxnvars = 1;
}
uint16_t maxsvars = xvars >> 16;
if (maxsvars < 1) {
maxsvars = 1;
}
uint16_t maxvars = maxsvars + maxnvars;
//AddLog(LOG_LEVEL_INFO, PSTR("SCR: svar = %d, nvars = %d"), maxsvars, maxnvars);
#ifdef USE_SML_M
glob_script_mem.smlptr = &smltab;
#endif
// scan lines for >DEF
uint16_t lines = 0;
uint16_t nvars = 0;
uint16_t svars = 0;
uint16_t vars = 0;
char *lp = script;
uint16_t imemsize = (maxvars * 10) + 4;
uint8_t *imemptr = (uint8_t*)calloc(imemsize, 1);
if (!imemptr) {
return -7;
}
#ifdef SCRIPT_FULL_WEBPAGE
// glob_script_mem.wsp = 0;
#endif
char *vnames = (char*)imemptr;
char *vnp[maxvars];
TS_FLOAT fvalues[maxvars];
struct T_INDEX vtypes[maxvars];
//char strings[MAXSVARS*SCRIPT_MAXSSIZE];
//char *strings_p = strings;
char *strings_op = (char*)calloc(maxsvars * SCRIPT_MAXSSIZE, 1);
char *strings_p = strings_op;
if (!strings_op) {
free(imemptr);
return -8;
}
/*
uint32_t imemp = (uint32_t)imemptr;
imemp += (MAXVARS*10);
imemp = (imemp & 0xfffc) + 4;
Serial.printf(">1 %x\n",imemp);
char *vnp[MAXVARS];
//char **vnp = (char**)imemp;
imemp += (sizeof(char*)*MAXVARS);
imemp = (imemp & 0xfffc) + 4;
Serial.printf(">2 %x\n",imemp);
TS_FLOAT fvalues[MAXVARS];
//TS_FLOAT *fvalues = (TS_FLOAT*)imemp;
imemp += (sizeof(TS_FLOAT*)*MAXVARS);
imemp = (imemp & 0xfffc) + 4;
Serial.printf(">3 %x\n",imemp);
struct T_INDEX vtypes[MAXVARS];
//struct T_INDEX *vtypes = (struct T_INDEX*)imemp;
*/
char *vnames_p = vnames;
char **vnp_p = vnp;
char *snp[maxsvars];
struct M_FILT mfilt[MAXFILT];
char **snp_p = snp;
uint8_t numperm = 0;
uint8_t numflt = 0;
uint16_t count;
glob_script_mem.max_ssize = SCRIPT_SVARSIZE;
glob_script_mem.scriptptr = 0;
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 == '>' || !*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 (numperm < SCRIPT_MAXPERM) {
vtypes[vars].bits.is_permanent = 1;
numperm++;
}
} else {
vtypes[vars].bits.is_permanent = 0;
}
if (*lp == 't' && *(lp + 1) == ':') {
lp += 2;
vtypes[vars].bits.is_timer = 1;
} else {
vtypes[vars].bits.is_timer = 0;
}
if (*lp == 'i' && *(lp + 1) == ':') {
lp += 2;
vtypes[vars].bits.is_autoinc = 1;
} else {
vtypes[vars].bits.is_autoinc = 0;
}
#ifdef USE_SCRIPT_GLOBVARS
if (*lp == 'g' && *(lp + 1) == ':') {
lp += 2;
vtypes[vars].bits.global = 1;
glob_script_mem.udp_flags.udp_used = 1;
} else {
vtypes[vars].bits.global = 0;
}
#endif //USE_SCRIPT_GLOBVARS
if (*lp == 'I' && *(lp + 1) == ':') {
lp += 2;
vtypes[vars].bits.integer = 1;
} else {
vtypes[vars].bits.integer = 0;
}
if ((*lp == 'm' || *lp == 'M') && *(lp + 1) == ':') {
uint8_t flg = *lp;
lp += 2;
if (*lp == 'p' && *(lp + 1) == ':') {
vtypes[vars].bits.is_permanent = 1;
lp += 2;
}
if (flg == 'M') mfilt[numflt].numvals = 8;
else mfilt[numflt].numvals = 5;
vtypes[vars].bits.is_filter = 1;
mfilt[numflt].index = 0;
if (flg == 'M') {
mfilt[numflt].numvals |= OR_FILT_MASK;
}
vtypes[vars].index = numflt;
numflt++;
if (numflt > MAXFILT) {
if (imemptr) free(imemptr);
if (strings_op) free(strings_op);
return -6;
}
} else {
vtypes[vars].bits.is_filter = 0;
}
*vnp_p++ = vnames_p;
while (lp < op) {
if (*lp == ' ') {
// no spaces
lp++;
} else {
*vnames_p++ = *lp++;
}
}
*vnames_p++ = 0;
// init variable
op++;
while (*op == ' ') {
// skip spaces
op++;
}
if (*op != '"') {
TS_FLOAT fv;
if (*op == '0' && *(op + 1) == 'x') {
op += 2;
if (vtypes[vars].bits.integer) {
*(uint32_t*)&fv = strtoll(op, &op, 16);
} else {
fv = strtol(op, &op, 16);
}
} else {
if (vtypes[vars].bits.integer) {
*(int32_t*)&fv = strtol(op, &op, 10);
} else {
fv=CharToFloat(op);
}
}
fvalues[nvars] = fv;
vtypes[vars].bits.is_string = 0;
if (!vtypes[vars].bits.is_filter) vtypes[vars].index = nvars;
nvars++;
if (nvars > maxnvars) {
if (imemptr) free(imemptr);
if (strings_op) free(strings_op);
return -1;
}
if (vtypes[vars].bits.is_filter) {
while (isdigit(*op) || *op == '.' || *op == '-') {
op++;
}
while (*op == ' ') op++;
if (isdigit(*op)) {
// lenght define follows
uint16_t flen = atoi(op);
if (flen > MAX_ARRAY_SIZE) {
// limit array size
flen = MAX_ARRAY_SIZE;
}
mfilt[numflt - 1].numvals &= OR_FILT_MASK;
mfilt[numflt - 1].numvals |= flen & AND_FILT_MASK;
}
}
} else {
// string vars
op++;
*snp_p ++= strings_p;
while (*op != '\"') {
if (*op == SCRIPT_EOL) break;
char iob;
op = Get_esc_char(op, &iob);
//*strings_p++ = *op++;
*strings_p++ = iob;
}
*strings_p++ = 0;
vtypes[vars].bits.is_string = 1;
vtypes[vars].index = svars;
svars++;
if (svars > maxsvars) {
if (imemptr) free(imemptr);
if (strings_op) free(strings_op);
return -2;
}
}
vars++;
if (vars > maxvars) {
if (imemptr) free(imemptr);
if (strings_op) free(strings_op);
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; count < numflt; count++) {
fsize += sizeof(struct M_FILT) + ((mfilt[count].numvals & AND_FILT_MASK) - 1) * sizeof(TS_FLOAT);
}
// now copy vars to memory
uint32_t script_mem_size =
// number and number shadow vars
(sizeof(TS_FLOAT)*nvars) +
(sizeof(TS_FLOAT)*nvars) +
// var names
(vnames_p-vnames) +
// vars offsets
#ifdef SCRIPT_LARGE_VNBUFF
(sizeof(uint16_t)*vars) +
#else
(sizeof(uint8_t)*vars) +
#endif
// strings
(glob_script_mem.max_ssize*svars) +
// type array
(sizeof(struct T_INDEX)*vars) +
fsize;
script_mem_size += 16;
uint8_t *script_mem;
script_mem = (uint8_t*)special_malloc(script_mem_size);
if (!script_mem) {
if (imemptr) free(imemptr);
if (strings_op) free(strings_op);
return -4;
}
memset(script_mem, 0, script_mem_size);
glob_script_mem.script_mem = script_mem;
glob_script_mem.script_mem_size = script_mem_size;
// now copy all vars
// numbers
glob_script_mem.fvars = (TS_FLOAT*)script_mem;
uint16_t size = sizeof(TS_FLOAT) * nvars;
memcpy(script_mem, fvalues, size);
script_mem += size;
glob_script_mem.s_fvars = (TS_FLOAT*)script_mem;
size = sizeof(TS_FLOAT) * nvars;
memcpy(script_mem, fvalues, size);
script_mem += size;
glob_script_mem.mfilt = (struct M_FILT*)script_mem;
script_mem += fsize;
// memory types
glob_script_mem.type = (struct T_INDEX*)script_mem;
size = sizeof(struct T_INDEX)*vars;
memcpy(script_mem, vtypes, size);
script_mem += size;
// var name strings
char *namep = (char*)script_mem;
glob_script_mem.glob_vnp = (char*)script_mem;
size = vnames_p - vnames;
memcpy(script_mem, vnames, size);
script_mem += size;
#ifdef SCRIPT_LARGE_VNBUFF
uint32_t alignedmem = (uint32_t)script_mem;
if (alignedmem&1) {
alignedmem++;
size = vars*sizeof(uint16_t)+1;
} else {
size = vars*sizeof(uint16_t);
}
glob_script_mem.vnp_offset = (uint16_t*)alignedmem;
#else
glob_script_mem.vnp_offset = (uint8_t*)script_mem;
size = vars*sizeof(uint8_t);
#endif
script_mem += size;
// strings
char *snamep = (char*)script_mem;
glob_script_mem.glob_snp = (char*)script_mem;
size = glob_script_mem.max_ssize * svars;
//memcpy(script_mem,strings,size);
script_mem += size;
// now must recalc memory offsets
uint16_t index = 0;
#ifdef SCRIPT_LARGE_VNBUFF
#ifndef MAXVNSIZ
#define MAXVNSIZ 4096
#endif
uint16_t *cp = glob_script_mem.vnp_offset;
#else
#undef MAXVNSIZ
#define MAXVNSIZ 255
uint8_t *cp = glob_script_mem.vnp_offset;
#endif
for (count = 0; count < vars; count++) {
*cp++ = index;
while (*namep) {
index++;
namep++;
}
namep++;
index++;
if (index > MAXVNSIZ) {
free(glob_script_mem.script_mem);
if (imemptr) free(imemptr);
if (strings_op) free(strings_op);
return -5;
}
}
// variables usage info
uint32_t tot_mem = sizeof(glob_script_mem) + glob_script_mem.script_mem_size + glob_script_mem.script_size + index;
AddLog(LOG_LEVEL_INFO, PSTR("SCR: nv=%d, tv=%d, vns=%d, vmem=%d, smem=%d, gmem=%d, tmem=%d "), nvars, svars, index, glob_script_mem.script_mem_size, glob_script_mem.script_size, sizeof(glob_script_mem), tot_mem);
// copy string variables
char *cp1 = glob_script_mem.glob_snp;
//char *sp = strings;
char *sp = strings_op;
for (count = 0; count < svars; count++) {
strcpy(cp1,sp);
sp += strlen(sp) + 1;
cp1 += glob_script_mem.max_ssize;
}
// setup filter vars
uint8_t *mp = (uint8_t*)glob_script_mem.mfilt;
for (count = 0; countnumvals = mfilt[count].numvals;
mp += sizeof(struct M_FILT) + ((mfilt[count].numvals & AND_FILT_MASK) - 1) * sizeof(TS_FLOAT);
}
glob_script_mem.numvars = vars;
glob_script_mem.script_dprec = SCRIPT_FLOAT_PRECISION;
glob_script_mem.script_lzero = 0;
glob_script_mem.script_sepc = '.';
glob_script_mem.script_loglevel = LOG_LEVEL_INFO;
#if SCRIPT_DEBUG>2
struct T_INDEX *dvtp = glob_script_mem.type;
char out[128];
char string[32];
for (uint16_t count = 0; count < glob_script_mem.numvars; count++) {
char *cp = glob_script_mem.glob_vnp + glob_script_mem.vnp_offset[count];
if (dvtp[count].bits.is_string) {
strlcpy(string, glob_script_mem.glob_snp + (dvtp[count].index * glob_script_mem.max_ssize), SCRIPT_MAX_SBSIZE);
} else {
f2char(glob_script_mem.fvars[dvtp[count].index], glob_script_mem.script_dprec, glob_script_mem.script_lzero, string, '.');
}
sprintf(out, "%d : %s = %s", count, cp, string);
toLog(out);
}
#endif //SCRIPT_DEBUG
// now preset permanent vars
TS_FLOAT *fp = (TS_FLOAT*)glob_script_mem.script_pram;
struct T_INDEX *vtp = glob_script_mem.type;
for (uint16_t count = 0; count < glob_script_mem.numvars; count++) {
if (vtp[count].bits.is_permanent && !vtp[count].bits.is_string) {
uint8_t index = vtp[count].index;
if (vtp[count].bits.is_filter) {
// preset array
uint16_t len = 0;
TS_FLOAT *fa = Get_MFAddr(index, &len, 0);
while (len--) {
*fa++ = *fp++;
}
} else {
if (!isnan(*fp)) {
glob_script_mem.fvars[index] = *fp;
} else {
*fp = glob_script_mem.fvars[index];
}
fp++;
}
}
}
sp = (char*)fp;
for (uint16_t count = 0; count < glob_script_mem.numvars; count++) {
if (vtp[count].bits.is_permanent && vtp[count].bits.is_string) {
uint8_t index = vtp[count].index;
char *dp = glob_script_mem.glob_snp + (index * glob_script_mem.max_ssize);
uint8_t slen = strlen(sp);
strlcpy(dp, sp, glob_script_mem.max_ssize);
sp += slen + 1;
}
}
#if SCRIPT_DEBUG>0
ClaimSerial();
SetSerialBaudrate(9600);
#endif //SCRIPT_DEBUG
// store start of actual program here
glob_script_mem.scriptptr = lp - 1;
glob_script_mem.scriptptr_bu = glob_script_mem.scriptptr;
#ifdef USE_SCRIPT_GLOBVARS
if (glob_script_mem.udp_flags.udp_used) {
Script_Init_UDP();
if (Run_Scripter1(">G", -2, 0) == 99) {glob_script_mem.glob_script = glob_script_mem.section_ptr + 2;} else {glob_script_mem.glob_script = 0;}
}
#endif //USE_SCRIPT_GLOBVARS
if (imemptr) {
free(imemptr);
if (strings_op) free(strings_op);
}
glob_script_mem.script_lastmillis = millis();
return err;
}
int32_t udp_call(char *url, uint32_t port, char *sbuf) {
WiFiUDP udp;
IPAddress adr;
adr.fromString(url);
udp.begin(port);
udp.beginPacket(adr, port);
udp.write((const uint8_t*)sbuf, strlen(sbuf));
udp.endPacket();
udp.flush();
udp.stop();
return 0;
}
#ifdef USE_SCRIPT_GLOBVARS
#define SCRIPT_UDP_BUFFER_SIZE 128
#define SCRIPT_UDP_PORT 1999
//#define SCRIPT_DEBUG_UDP
void Restart_globvars(void) {
Script_Stop_UDP();
Script_Init_UDP();
}
void Script_Stop_UDP(void) {
if (!glob_script_mem.udp_flags.udp_used) return;
if (glob_script_mem.udp_flags.udp_connected) {
glob_script_mem.Script_PortUdp.flush();
glob_script_mem.Script_PortUdp.stop();
glob_script_mem.udp_flags.udp_connected = 0;
}
}
void Script_Init_UDP() {
if (TasmotaGlobal.global_state.network_down) return;
if (!glob_script_mem.udp_flags.udp_used) return;
if (glob_script_mem.udp_flags.udp_connected) return;
//if (glob_script_mem.Script_PortUdp.beginMulticast(WiFi.localIP(), IPAddress(239,255,255,250), SCRIPT_UDP_PORT)) {
#ifdef ESP8266
if (glob_script_mem.Script_PortUdp.beginMulticast(WiFi.localIP(), IPAddress(239,255,255,250), SCRIPT_UDP_PORT)) {
#else
if (glob_script_mem.Script_PortUdp.beginMulticast(IPAddress(239,255,255,250), SCRIPT_UDP_PORT)) {
#endif
#ifdef SCRIPT_DEBUG_UDP
AddLog(LOG_LEVEL_DEBUG, PSTR(D_LOG_UPNP "SCR: UDP started"));
#endif
glob_script_mem.udp_flags.udp_connected = 1;
} else {
#ifdef SCRIPT_DEBUG_UDP
AddLog(LOG_LEVEL_DEBUG, PSTR(D_LOG_UPNP "SCR: UDP failed"));
#endif
glob_script_mem.udp_flags.udp_connected = 0;
}
}
void Script_PollUdp(void) {
if (TasmotaGlobal.global_state.network_down) return;
if (!glob_script_mem.udp_flags.udp_used) return;
if (glob_script_mem.udp_flags.udp_connected ) {
uint32_t timeout = millis();
while (glob_script_mem.Script_PortUdp.parsePacket()) {
// not more then 500 ms
if (millis() - timeout > 500) { break;}
char packet_buffer[SCRIPT_UDP_BUFFER_SIZE];
int32_t len = glob_script_mem.Script_PortUdp.read(packet_buffer, SCRIPT_UDP_BUFFER_SIZE - 1);
packet_buffer[len] = 0;
glob_script_mem.script_udp_remote_ip = glob_script_mem.Script_PortUdp.remoteIP();
#ifdef SCRIPT_DEBUG_UDP
//AddLog(LOG_LEVEL_DEBUG, PSTR("UDP: Packet %s - %d - %s"), packet_buffer, len, script_udp_remote_ip.toString().c_str());
AddLog(LOG_LEVEL_DEBUG, PSTR("UDP: Packet %s - %d - %_I"), packet_buffer, len, (uint32_t)glob_script_mem.script_udp_remote_ip);
#endif
char *lp = packet_buffer;
if (!strncmp(lp,"=>", 2)) {
lp += 2;
char *cp=strchr(lp, '=');
if (cp) {
char vnam[32];
for (uint32_t count = 0; count");
strcat(sbuf, vname);
strcat(sbuf, "=");
if (fp) {
char flstr[16];
dtostrfd(*fp, 8, flstr);
strcat(sbuf, flstr);
#ifdef SCRIPT_DEBUG_UDP
AddLog(LOG_LEVEL_DEBUG, PSTR("SCR: num var updated - %s"), sbuf);
#endif
} else {
strcat(sbuf, sp);
#ifdef SCRIPT_DEBUG_UDP
AddLog(LOG_LEVEL_DEBUG, PSTR("SCR: string var updated - %s"), sbuf);
#endif
}
glob_script_mem.Script_PortUdp.beginPacket(IPAddress(239, 255, 255, 250), SCRIPT_UDP_PORT);
// Udp.print(String("RET UC: ") + String(recv_Packet));
glob_script_mem.Script_PortUdp.write((const uint8_t*)sbuf, strlen(sbuf));
glob_script_mem.Script_PortUdp.endPacket();
}
#endif //USE_SCRIPT_GLOBVARS
#ifdef USE_LIGHT
#ifdef USE_WS2812
void ws2812_set_array(TS_FLOAT *array ,uint32_t len, uint32_t offset);
void ws2812_set_array(TS_FLOAT *array ,uint32_t len, uint32_t offset) {
Ws2812ForceSuspend();
for (uint32_t cnt = 0; cnt < len; cnt++) {
uint32_t index;
if (! (offset & 0x1000)) {
index = cnt + (offset & 0x7ff);
} else {
index = cnt/2 + (offset & 0x7ff);
}
if (index > Settings->light_pixels) break;
if (! (offset & 0x1000)) {
uint32_t col = array[cnt];
Ws2812SetColor(index + 1, col>>16, col>>8, col, 0);
} else {
uint32_t hcol = array[cnt];
cnt++;
uint32_t lcol = array[cnt];
Ws2812SetColor(index + 1, hcol>>8, hcol, lcol>>8, lcol);
}
}
Ws2812ForceUpdate();
}
#endif //USE_WS2812
#endif //USE_LIGHT
TS_FLOAT median_array(TS_FLOAT *array, uint16_t len);
TS_FLOAT median_array(TS_FLOAT *array, uint16_t len) {
uint8_t ind[len];
uint8_t mind = 0;
uint8_t index = 0;
uint8_t flg;
TS_FLOAT min = FLT_MAX;
for (uint16_t hcnt = 0; hcnt < len / 2 + 1; hcnt++) {
for (uint16_t mcnt = 0; mcnt < len; mcnt++) {
flg = 0;
for (uint16_t icnt = 0; icnt < index; icnt++) {
if (ind[icnt] == mcnt) {
flg = 1;
}
}
if (!flg) {
if (array[mcnt] < min) {
min = array[mcnt];
mind = mcnt;
}
}
}
ind[index] = mind;
index++;
min = FLT_MAX;
}
return array[ind[len / 2]];
}
TS_FLOAT *Get_MFAddr(uint8_t index, uint16_t *len, uint16_t *ipos);
TS_FLOAT *Get_MFAddr(uint8_t index, uint16_t *len, uint16_t *ipos) {
*len = 0;
uint8_t *mp = (uint8_t*)glob_script_mem.mfilt;
for (uint8_t count = 0; count < MAXFILT; count++) {
struct M_FILT *mflp = (struct M_FILT*)mp;
if (count == index) {
*len = mflp->numvals & AND_FILT_MASK;
if (ipos) *ipos = mflp->index;
return mflp->rbuff;
}
mp += sizeof(struct M_FILT) + ((mflp->numvals & AND_FILT_MASK) - 1) * sizeof(TS_FLOAT);
}
return 0;
}
#ifdef USE_UFILESYS
FS *script_file_path(char *path) {
if (!strncmp_P(path, PSTR("/ffs/"), 5)) {
memmove(path, path + 4, strlen(path) + 1);
return ffsp;
}
if (!strncmp_P(path, PSTR("/sdfs/"), 6)) {
memmove(path, path + 5, strlen(path) + 1);
return ufsp;
}
if (path[0] != '/') {
memmove(path + 1, path, strlen(path) + 1);
path[0] = '/';
}
return ufsp;
}
#endif
char *isvar(char *lp, uint8_t *vtype, struct T_INDEX *tind, TS_FLOAT *fp, char *sp, struct GVARS *gv);
char *get_array_by_name(char *lp, TS_FLOAT **fp, uint16_t *alen, uint16_t *ipos);
char *get_array_by_name(char *lp, TS_FLOAT **fp, uint16_t *alen, uint16_t *ipos) {
struct T_INDEX ind;
uint8_t vtype;
while (*lp == ' ') lp++;
lp = isvar(lp, &vtype, &ind, 0, 0, 0);
if (vtype == VAR_NV) return 0;
if (vtype & STYPE) return 0;
uint16_t index = glob_script_mem.type[ind.index].index;
if (glob_script_mem.type[ind.index].bits.is_filter) {
TS_FLOAT *fa = Get_MFAddr(index, alen, ipos);
*fp = fa;
return lp;
}
*fp = 0;
return lp;
}
TS_FLOAT *get_array_by_name(char *name, uint16_t *alen);
TS_FLOAT *get_array_by_name(char *name, uint16_t *alen) {
struct T_INDEX ind;
uint8_t vtype;
isvar(name, &vtype, &ind, 0, 0, 0);
if (vtype == VAR_NV) return 0;
if (vtype & STYPE) return 0;
uint16_t index = glob_script_mem.type[ind.index].index;
if (glob_script_mem.type[ind.index].bits.is_filter) {
TS_FLOAT *fa = Get_MFAddr(index, alen, 0);
return fa;
}
return 0;
}
TS_FLOAT Get_MFVal(uint8_t index, int16_t bind);
TS_FLOAT Get_MFVal(uint8_t index, int16_t bind) {
uint8_t *mp = (uint8_t*)glob_script_mem.mfilt;
for (uint8_t count = 0; count < MAXFILT; count++) {
struct M_FILT *mflp = (struct M_FILT*)mp;
if (count == index) {
uint16_t maxind = mflp->numvals & AND_FILT_MASK;
if (!bind) {
return mflp->index;
}
if (bind == -1) {
return maxind;
}
if (bind == -2) {
TS_FLOAT summ = 0;
for (uint32_t cnt = 0; cnt < maxind; cnt++) {
summ += mflp->rbuff[cnt];
}
return summ / maxind;
}
if (bind == -3) {
TS_FLOAT summ = 0;
for (uint32_t cnt = 0; cnt < maxind; cnt++) {
summ += mflp->rbuff[cnt];
}
return summ;
}
if (bind < -2 || bind > maxind ) bind = 1;
return mflp->rbuff[bind - 1];
}
mp += sizeof(struct M_FILT) + ((mflp->numvals & AND_FILT_MASK) - 1) * sizeof(TS_FLOAT);
}
return 0;
}
void Set_MFVal(uint8_t index, uint16_t bind, TS_FLOAT val);
void Set_MFVal(uint8_t index, uint16_t bind, TS_FLOAT val) {
uint8_t *mp = (uint8_t*)glob_script_mem.mfilt;
for (uint8_t count = 0; count < MAXFILT; count++) {
struct M_FILT *mflp = (struct M_FILT*)mp;
if (count == index) {
uint16_t maxind = mflp->numvals & AND_FILT_MASK;
if (!bind) {
if (val < 0) {
// shift whole array by value
} else {
// set array index value
if (val < 0 || val >= maxind) val = 0;
mflp->index = val;
}
} else {
if (bind >= 1 && bind <= maxind) {
mflp->rbuff[bind - 1] = val;
}
}
return;
}
mp += sizeof(struct M_FILT) + ((mflp->numvals & AND_FILT_MASK) - 1) * sizeof(TS_FLOAT);
}
}
TS_FLOAT Get_MFilter(uint8_t index);
TS_FLOAT Get_MFilter(uint8_t index) {
uint8_t *mp = (uint8_t*)glob_script_mem.mfilt;
for (uint8_t count = 0; count < MAXFILT; count++) {
struct M_FILT *mflp = (struct M_FILT*)mp;
if (count == index) {
if (mflp->numvals & OR_FILT_MASK) {
// moving average
return mflp->maccu / (mflp->numvals & AND_FILT_MASK);
} else {
// median, sort array indices
return median_array(mflp->rbuff, mflp->numvals);
}
}
mp += sizeof(struct M_FILT) + ((mflp->numvals & AND_FILT_MASK) - 1) * sizeof(TS_FLOAT);
}
return 0;
}
void Set_MFilter(uint8_t index, TS_FLOAT invar);
void Set_MFilter(uint8_t index, TS_FLOAT invar) {
uint8_t *mp = (uint8_t*)glob_script_mem.mfilt;
for (uint8_t count = 0; count < MAXFILT; count++) {
struct M_FILT *mflp = (struct M_FILT*)mp;
if (count == index) {
if (mflp->numvals & OR_FILT_MASK) {
// moving average
mflp->maccu -= mflp->rbuff[mflp->index];
mflp->maccu += invar;
mflp->rbuff[mflp->index] = invar;
mflp->index++;
if (mflp->index >= (mflp->numvals & AND_FILT_MASK)) 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 & AND_FILT_MASK) - 1) * sizeof(TS_FLOAT);
}
}
#define MEDIAN_SIZE 5
#define MEDIAN_FILTER_NUM 2
struct MEDIAN_FILTER {
TS_FLOAT buffer[MEDIAN_SIZE];
int8_t index;
} script_mf[MEDIAN_FILTER_NUM];
TS_FLOAT DoMedian5(uint8_t index, TS_FLOAT in);
TS_FLOAT DoMedian5(uint8_t index, TS_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_UFILESYS
void fread_str_fp(File *fp, char *sp, uint16_t slen, uint16_t flg) {
uint16_t index = 0;
while (fp->available()) {
uint8_t buf[1], iob;
fp->read(buf, 1);
iob = buf[0];
if (flg) {
if (iob == '\n') {
break;
}
} else {
if (iob == '\t' || iob == ',' || iob == '\n' || iob == '\r') {
break;
}
}
*sp++ = iob;
index++;
if (index >= slen - 1) break;
}
*sp = 0;
}
int32_t script_copy_file(File *source, File *dest, uint32_t sf_from, uint32_t sf_to, uint32_t flag, WiFiClient *client) {
int32_t res = 0;
uint32_t fsize = sf_to - sf_from;
uint8_t *fbuff = (uint8_t*)malloc(512);
uint16_t rsize = 512;
if (fbuff) {
if (flag) {
// flag > 0 copy header
source->seek(0, SeekSet);
fread_str_fp(source, (char*)fbuff, rsize, 1);
uint16_t ssize = strlen((char*)fbuff);
fbuff[ssize++] = '\n';
fbuff[ssize] = 0;
if (dest) {
dest->write(fbuff, ssize);
}
if (client) {
client->write(fbuff, ssize);
}
}
// seek to start
source->seek(sf_from, SeekSet);
while (fsize) {
if (fsize < rsize) {
rsize = fsize;
}
source->read(fbuff, rsize);
if (dest) {
dest->write(fbuff, rsize);
}
if (client) {
client->write(fbuff, rsize);
}
fsize -= rsize;
}
free(fbuff);
} else {
return -3;
}
return res;
}
#ifdef USE_FEXTRACT
struct FE_TM {
uint16_t year;
uint8_t month;
uint8_t day;
uint8_t hour;
uint8_t mins;
uint8_t secs;
};
// timestamp math add days
int32_t tso(char *src, int32_t days, int32_t flg) {
struct tm tmx;
struct tm *tmp;
struct FE_TM tm;
uint8_t mode = ts2ts(&tm, src);
tmx.tm_sec = tm.secs;
tmx.tm_min = tm.mins;
tmx.tm_hour = tm.hour;
tmx.tm_mon = tm.month - 1;
tmx.tm_year = tm.year + 100;
tmx.tm_mday = tm.day;
time_t tmd = mktime(&tmx);
tmd += days * (24 * 3600);
tmp = gmtime(&tmd);
if (!flg) {
tm.secs = tmp->tm_sec;
tm.mins = tmp->tm_min;
tm.hour = tmp->tm_hour;
} else {
tm.secs = 0;
tm.mins = 0;
tm.hour = 0;
}
tm.month = tmp->tm_mon + 1;
tm.year = tmp->tm_year - 100;
tm.day = tmp->tm_mday;
tss2ts(&tm, src, mode);
return 0;
}
uint32_t ts2ts(struct FE_TM *tm, char *ts) {
if (strchr(ts, 'T')) {
// 2020-12-16T15:36:41
tm->year = strtol(ts, &ts, 10);
if (tm->year < 2020 || tm->year > 2040) {
tm->year = 2020;
}
tm->year -= 2000;
ts++;
tm->month = strtol(ts, &ts, 10);
ts++;
tm->day = strtol(ts, &ts, 10);
ts++;
tm->hour = strtol(ts, &ts, 10);
ts++;
tm->mins = strtol(ts, &ts, 10);
ts++;
tm->secs = strtol(ts, &ts, 10);
return 0;
} else {
// german excel format 16.12.20 15:36
tm->day = strtol(ts, &ts, 10);
ts++;
tm->month = strtol(ts, &ts, 10);
ts++;
tm->year = strtol(ts, &ts, 10);
ts++;
tm->hour = strtol(ts, &ts, 10);
ts++;
tm->mins = strtol(ts, &ts, 10);
tm->secs = 0;
return 1;
}
return 0;
}
void tss2ts(struct FE_TM *tm, char *dst, uint8_t mode) {
if (mode & 1 == 1) {
// was tsm format go to 16.12.20 15:36
char c = ' ';
if (mode & 0x80) {
c = '-';
}
sprintf(dst, "%01d.%01d.%01d%c%01d:%02d", tm->day, tm->month, tm->year, c, tm->hour, tm->mins);
} else {
// 2020-12-16T15:36:41
sprintf(dst, "%04d-%02d-%02dT%02d:%02d:%02d", tm->year + 2000, tm->month, tm->day, tm->hour, tm->mins, tm->secs);
}
}
// convert time stamp format
void cnvts(char *dst, char *src, uint8_t flg ) {
struct FE_TM tm;
uint8_t mode = ts2ts(&tm, src);
tss2ts(&tm, dst, flg);
}
// convert tasmota time stamp to ul seconds
uint32_t tstamp2l(char *ts) {
struct FE_TM tm;
struct tm tmx;
uint8_t mode = ts2ts(&tm, ts);
tmx.tm_sec = tm.secs;
tmx.tm_min = tm.mins;
tmx.tm_hour = tm.hour;
tmx.tm_mon = tm.month - 1;
tmx.tm_year = tm.year + 100;
tmx.tm_mday = tm.day;
time_t tmd = mktime(&tmx);
return tmd;
}
// convert seconds to tasmota time stamp
uint32_t s2tstamp(char *ts, uint32_t tsize, uint32_t seconds, uint32_t flg) {
time_t tmd = seconds;
struct tm *tmp;
struct FE_TM tm;
tmp = gmtime(&tmd);
if (!flg) {
tm.secs = tmp->tm_sec;
tm.mins = tmp->tm_min;
tm.hour = tmp->tm_hour;
} else {
tm.secs = 0;
tm.mins = 0;
tm.hour = 0;
}
tm.month = tmp->tm_mon + 1;
tm.year = tmp->tm_year - 100;
tm.day = tmp->tm_mday;
tss2ts(&tm, ts, 0);
return 0;
}
// optimized access, estimate entry point
int32_t opt_fext(File *fp, char *ts_from, char *ts_to, uint32_t flg) {
// seek to start
int32_t fres = extract_from_file(fp, ts_from, ts_to, -2, 0, 0, 0, 0);
int32_t start = fres;
char tsf[32];
fread_str_fp(fp, tsf, sizeof(tsf), 0);
uint32_t ltsf = tstamp2l(tsf);
fres = extract_from_file(fp, ts_from, ts_to, -1, 0, 0, 0, 0);
int32_t end = fres;
fread_str_fp(fp, tsf, sizeof(tsf), 0);
uint32_t tssiz = tstamp2l(tsf) - ltsf;
uint32_t tspos = tstamp2l(ts_from) - ltsf;
TS_FLOAT perc = (TS_FLOAT)tspos / (TS_FLOAT)tssiz * 0.8;
if (perc < 0) perc = 0;
if (perc > 1) perc = 1;
TS_FLOAT fsize = fp->size();
uint32_t spos = perc * fsize;
//AddLog(LOG_LEVEL_INFO,PSTR(">>> 1 %d, %d"), (uint32_t)perc, spos);
fp->seek(spos, SeekSet);
fres = extract_from_file(fp, ts_from, ts_to, -3, 0, 0, 0, 0);
if (fres < 0) {
if (flg) {
if (flg == 1) {
fres = start;
} else {
fres = end;
}
}
}
return fres;
}
#ifndef FEXT_MAX_LINE_LENGTH
#define FEXT_MAX_LINE_LENGTH 256
#endif
// assume 1. entry is timestamp, others are tab delimited values until LF
// file reference, from timestamp, to timestampm, column offset, array pointers, array lenght, number of arrays
int32_t extract_from_file(File *fp, char *ts_from, char *ts_to, int8_t coffs, TS_FLOAT **a_ptr, uint16_t *a_len, uint8_t numa, int16_t accum) {
char rstr[32];
uint8_t sindex = 0;
uint8_t colpos = 0;
uint8_t range = 0;
if (coffs < 0) {
uint32_t cpos = fp->size();
if (coffs == -1) {
// seek to last entry
if (cpos > 1) cpos -= 2;
// now seek back to last line
uint8_t lbuff[FEXT_MAX_LINE_LENGTH];
uint8_t iob;
uint16_t index = sizeof(lbuff) -1;
fp->seek(cpos - sizeof(lbuff), SeekSet);
fp->read(lbuff, sizeof(lbuff));
while (cpos) {
iob = lbuff[index];
if (iob == '\n' || iob == '\r') {
break;
}
cpos--;
index--;
}
fp->seek(cpos, SeekSet);
} else if (coffs == -2) {
// seek to line 2
fp->seek(0, SeekSet);
for (uint32_t cp = 0; cp < cpos; cp++) {
uint8_t buff[2], iob;
fp->read(buff, 1);
iob = buff[0];
if (iob == '\n' || iob == '\r') {
cpos = cp + 1;
break;
}
}
} else {
// seek to pos of ts_from
cpos = fp->position();
uint32_t tsfrom = tstamp2l(ts_from);
while (fp->available()) {
uint8_t buff[2], iob;
fp->read(buff, 1);
cpos++;
iob = buff[0];
if (iob == '\n' || iob == '\r') {
// read time stamp
char ts[22];
fp->read((uint8_t*)ts, sizeof(ts));
char *cp = strchr(ts, '\t');
if (cp) {
*cp = 0;
uint32_t tstc = tstamp2l(ts);
//Serial.printf(">>> %s - %d - %d\n",ts, tstc, cpos );
if (tstc >= tsfrom) {
fp->seek(cpos, SeekSet);
return cpos;
}
}
cpos += sizeof(ts);
}
}
return -1;
}
return cpos;
}
uint32_t ipos = fp->position();
fp->seek(0, SeekSet);
uint32_t tsfrom = tstamp2l(ts_from);
uint32_t tsto = tstamp2l(ts_to);
//AddLog(LOG_LEVEL_INFO, PSTR("from: %d to: %d"),tsfrom, tsto);
uint16_t lines = 0;
uint16_t rlines = 0;
TS_FLOAT summs[numa];
TS_FLOAT lastv[numa];
uint16_t accnt[numa];
uint8_t mflg[numa];
uint32_t lastpos = 0;
for (uint8_t cnt = 0; cnt < numa; cnt++) {
summs[cnt] = 0;
accnt[cnt] = 0;
mflg[cnt] = 0;
lastv[cnt] = 0;
}
uint8_t dflg = 0;
if (accum < 0) {
dflg = 1;
accum = -accum;
}
if (accum == 0) accum = 1;
while (fp->available()) {
// scan through file
uint8_t buff[2], iob;
fp->read(buff, 1);
iob = buff[0];
TS_FLOAT fval;
uint16_t curpos;
if (iob == '\t' || iob == ',' || iob == '\n' || iob == '\r') {
rstr[sindex] = 0;
sindex = 0;
if (lines == 0) {
// header line, analye column names
if (colpos >= 1 && colpos >= coffs) {
uint8_t curpos = colpos - coffs;
if (curpos < numa) {
mflg[curpos] = dflg;
char *tp = strstr(rstr, "_a");
if (tp) {
// mark average values
mflg[curpos] |= 2;
}
}
}
} else {
if (colpos == 0) {
// timestamp 2020-12-16T15:36:41
// decompose timestamps
uint32_t cts = tstamp2l(rstr);
if (cts > tsto) {
// end of range must seek back to last LF, for next scan
fp->seek(lastpos, SeekSet);
break;
}
if (cts >= tsfrom && cts <= tsto) {
// we want this range
range = 1;
rlines++;
} else {
range = 0;
}
} else {
// data columns
if (range) {
curpos = colpos - coffs;
if (colpos >= coffs && curpos < numa) {
if (a_len[curpos]) {
fval = CharToFloat(rstr);
nextcol:
uint8_t flg = 1;
if ((mflg[curpos] & 1) == 1) {
// absolute values, build diffs
if (!(mflg[curpos] & 0x80)) {
lastv[curpos] = fval;
mflg[curpos] |= 0x80;
flg = 0;
} else {
if (!(mflg[curpos] & 2)) {
TS_FLOAT tmp = fval;
fval -= lastv[curpos];
// must be positive value
#ifndef EXTRACT_DIFF_NOCHK
if (fval < 0) fval = 0;
#endif
lastv[curpos] = tmp;
}
}
}
// average values
//AddLog(LOG_LEVEL_INFO, PSTR("cpos %d colp %d numa %d - %s %d - %d"),curpos, colpos, a_len[curpos], rstr, (uint32_t)fval, flg);
if (flg) {
summs[curpos] += fval;
accnt[curpos] += 1;
if (accnt[curpos] == accum) {
*a_ptr[curpos]++ = summs[curpos] / accum;
summs[curpos] = 0;
accnt[curpos] = 0;
a_len[curpos]--;
}
}
} else {
break;
}
}
}
}
}
colpos++;
if (iob == '\n' || iob == '\r') {
// end of line
if (colpos <= numa) {
// empty column
curpos = colpos - coffs;
fval = 0;
goto nextcol;
} else {
lastpos = fp->position();
colpos = 0;
lines ++;
if (lines == 1) {
if (ipos) {
fp->seek(ipos, SeekSet);
}
}
}
}
}
rstr[sindex] = iob;
sindex++;
}
return rlines;
}
#endif // USE_FEXTRACT
#endif // USE_UFILESYS
uint32_t script_bcd(uint8_t sel, uint32_t val) {
uint32_t res = 0;
if (sel) {
// to bcd
uint32_t mfac = 1;
for (uint32_t cnt = 0; cnt < 6; cnt++) {
res |= (val % 10) << 24;
val /= 10;
res >>= 4;
}
} else {
// from bcd
uint32_t mfac = 1;
for (uint32_t cnt = 0; cnt < 6; cnt++) {
res += (val & 0xf) * mfac;
val >>= 4;
mfac *= 10;
}
}
return res;
}
uint8_t script_hexnibble(char chr) {
uint8_t rVal = 0;
if (isdigit(chr)) {
rVal = chr - '0';
} else {
if (chr >= 'A' && chr <= 'F') rVal = chr + 10 - 'A';
if (chr >= 'a' && chr <= 'f') rVal = chr + 10 - 'a';
}
return rVal;
}
#ifdef USE_LIGHT
uint32_t HSVToRGB(uint16_t hue, uint8_t saturation, uint8_t value) {
TS_FLOAT r = 0, g = 0, b = 0;
struct HSV {
TS_FLOAT H;
TS_FLOAT S;
TS_FLOAT V;
} hsv;
hsv.H = hue;
hsv.S = (TS_FLOAT)saturation / 100.0;
hsv.V = (TS_FLOAT)value / 100.0;
if (hsv.S == 0) {
r = hsv.V;
g = hsv.V;
b = hsv.V;
} else {
int i;
TS_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 //USE_LIGHT
#ifdef ESP32
#ifdef JPEG_PICTS
#ifdef STREAM_JPEG_PICTS
// "e8b8c539-047d-4777-a985-fbba6edff11e"
int32_t fetch_jpg(uint32_t sel, char *url, uint32_t xp, uint32_t yp, uint32_t scale) {
char hbuff[64];
int32_t httpCode = 0;
const char * headerKeys[] = {"Content-Type", "Content-Length"} ;
const size_t numberOfHeaders = 2;
switch (sel) {
case 0:
// open
glob_script_mem.jpg_task.boundary[0] = 0;
glob_script_mem.jpg_task.draw = false;
glob_script_mem.jpg_task.xp = xp;
glob_script_mem.jpg_task.yp = yp;
glob_script_mem.jpg_task.scale = scale;
sprintf(hbuff,"http://%s", url);
glob_script_mem.jpg_task.http.begin(glob_script_mem.jpg_task.stream, hbuff);
glob_script_mem.jpg_task.http.collectHeaders(headerKeys, numberOfHeaders);
httpCode = glob_script_mem.jpg_task.http.GET();
if (httpCode == HTTP_CODE_OK || httpCode == HTTP_CODE_MOVED_PERMANENTLY) {
String boundary = glob_script_mem.jpg_task.http.header(headerKeys[0]);
char *cp = strchr(boundary.c_str(), '=');
if (cp) {
strcpy(glob_script_mem.jpg_task.boundary,cp + 1);
}
} else {
AddLog(LOG_LEVEL_INFO,PSTR("SCR: HTTP error %d = %s"), httpCode, glob_script_mem.jpg_task.http.errorToString(httpCode).c_str());
}
return httpCode;
break;
case 1:
// close
glob_script_mem.jpg_task.stream.stop();
glob_script_mem.jpg_task.http.end();
break;
case 2:
// get next frame
/*Wc.client.print("--" BOUNDARY "\r\n");
Wc.client.printf("Content-Type: image/jpeg\r\n"
"Content-Length: %d\r\n"
"\r\n", static_cast(_jpg_buf_len));
*/
{
if (glob_script_mem.jpg_task.http.connected()) {
char inbuff[64];
memset(inbuff, 0, sizeof(inbuff));
glob_script_mem.jpg_task.stream.readBytesUntil('\n', inbuff, sizeof(inbuff));
if (inbuff[0] == '\r') {
memset(inbuff, 0, sizeof(inbuff));
glob_script_mem.jpg_task.stream.readBytesUntil('\n', inbuff, sizeof(inbuff));
}
//AddLog(LOG_LEVEL_INFO, PSTR("boundary = %s"), inbuff);
memset(inbuff, 0, sizeof(inbuff));
glob_script_mem.jpg_task.stream.readBytesUntil('\n', inbuff, sizeof(inbuff));
//AddLog(LOG_LEVEL_INFO, PSTR("type = %s"), inbuff);
memset(inbuff, 0, sizeof(inbuff));
glob_script_mem.jpg_task.stream.readBytesUntil('\n', inbuff, sizeof(inbuff));
//AddLog(LOG_LEVEL_INFO, PSTR("size = %s"), inbuff);
char *cp = strchr(inbuff, ':');
uint16_t size = 0;
if (cp) {
size = atoi(cp + 1);
}
glob_script_mem.jpg_task.stream.readBytesUntil('\n', inbuff, sizeof(inbuff));
if (size > 0) {
//AddLog(LOG_LEVEL_INFO, PSTR("size = %d"), size);
uint8_t *buff = (uint8_t *)special_malloc(size);
if (buff) {
glob_script_mem.jpg_task.stream.readBytes(buff, size);
}
if (glob_script_mem.jpg_task.draw) {
Draw_jpeg(buff, size, glob_script_mem.jpg_task.xp, glob_script_mem.jpg_task.yp, glob_script_mem.jpg_task.scale);
}
if (buff) {
free(buff);
}
}
return size;
}
}
break;
case 3:
// stop drawing
glob_script_mem.jpg_task.draw = false;
break;
case 4:
// resume drawing
glob_script_mem.jpg_task.draw = true;
break;
}
return 0;
}
#endif // STREAM_JPEG_PICTS
#endif // JPEG_PICTS
#endif // ESP32
#ifdef USE_ANGLE_FUNC
#define MPT_DEBOUNCE 10
static void IRAM_ATTR MP_Timer(void) {
uint32_t level = digitalRead(glob_script_mem.pt_pin&0x3f);
uint32_t ms = millis();
uint32_t time;
if (level) {
// rising edge
glob_script_mem.pulse_ltime_lh = ms;
time = ms - glob_script_mem.pulse_ltime_hl;
if (time > MPT_DEBOUNCE) glob_script_mem.pulse_time_hl = time;
} else {
// falling edge
glob_script_mem.pulse_ltime_hl = ms;
time = ms - glob_script_mem.pulse_ltime_lh;
if (time > MPT_DEBOUNCE) glob_script_mem.pulse_time_lh = time;
}
}
uint32_t MeasurePulseTime(int32_t in) {
if (in >= 0) {
// define pin;
glob_script_mem.pt_pin = in;
pinMode(glob_script_mem.pt_pin & 0x3f, INPUT_PULLUP);
attachInterrupt(glob_script_mem.pt_pin & 0x3f, MP_Timer, CHANGE);
glob_script_mem.pulse_ltime_lh = millis();
glob_script_mem.pulse_ltime_hl = millis();
return 0;
}
uint32_t ptime;
if (in==-1) {
ptime = glob_script_mem.pulse_time_lh;
glob_script_mem.pulse_time_lh = 0;
} else {
ptime = glob_script_mem.pulse_time_hl;
glob_script_mem.pulse_time_hl = 0;
}
return ptime;
}
#endif // USE_ANGLE_FUNC
#ifdef USE_SCRIPT_GLOBVARS
uint32_t match_vars(char *dvnam, TS_FLOAT **fp, char **sp, uint32_t *ind) {
uint16_t olen = strlen(dvnam);
struct T_INDEX *vtp = glob_script_mem.type;
for (uint32_t count = 0; count < glob_script_mem.numvars; count++) {
char *cp = glob_script_mem.glob_vnp + glob_script_mem.vnp_offset[count];
uint8_t slen = strlen(cp);
if (slen == olen && *cp == dvnam[0]) {
if (!strncmp(cp, dvnam, olen)) {
uint16_t index = vtp[count].index;
if (vtp[count].bits.is_string == 0) {
if (vtp[count].bits.is_filter) {
// error
return 0;
} else {
*fp = &glob_script_mem.fvars[index];
*ind = count;
return NUM_RES;
}
} else {
*sp = glob_script_mem.glob_snp + (index * glob_script_mem.max_ssize);
*ind = count;
return STR_RES;
}
}
}
}
return 0;
}
#endif //USE_SCRIPT_GLOBVARS
#ifndef SCRIPT_IS_STRING_MAXSIZE
#define SCRIPT_IS_STRING_MAXSIZE 256
#endif
void script_sort_string_array(uint8_t num) {
uint16_t sasize = glob_script_mem.si_num[num];
char *sa = glob_script_mem.last_index_string[num];
if (!sa) {
return;
}
char temp[SCRIPT_MAX_SBSIZE];
bool swapped;
do {
swapped = false;
for (uint16_t i = 0; i < sasize - 1; ++i) {
char *s1 = sa + (i * glob_script_mem.max_ssize);
char *s2 = sa + ((i + 1) * glob_script_mem.max_ssize);
if (strcmp(s1, s2) > 0) {
// swap
strcpy(temp, s1);
strcpy(s1, s2);
strcpy(s2, temp);
swapped = true;
}
}
sasize -= 1;
} while (swapped);
}
char *isargs(char *lp, uint32_t isind) {
TS_FLOAT fvar;
lp = GetNumericArgument(lp, OPER_EQU, &fvar, 0);
SCRIPT_SKIP_SPACES
if (*lp != '"') {
return lp;
}
lp++;
if (glob_script_mem.si_num[isind] > 0 && glob_script_mem.last_index_string[isind]) {
free(glob_script_mem.last_index_string[isind]);
}
char *sstart = lp;
uint8_t slen = 0;
for (uint32_t cnt = 0; cnt < SCRIPT_IS_STRING_MAXSIZE; cnt++) {
if (*lp == '\n' || *lp == '"' || *lp == 0) {
lp++;
if (cnt > 0 && !slen) {
slen++;
}
glob_script_mem.siro_num[isind] = slen;
break;
}
if (*lp == '|') {
slen++;
}
lp++;
}
glob_script_mem.si_num[isind] = fvar;
if (glob_script_mem.si_num[isind] > 0) {
if (glob_script_mem.si_num[isind] > MAX_SARRAY_NUM) {
glob_script_mem.si_num[isind] = MAX_SARRAY_NUM;
}
//glob_script_mem.last_index_string[isind] = (char*)calloc(glob_script_mem.max_ssize * glob_script_mem.si_num[isind], 1);
uint32_t sasize = glob_script_mem.max_ssize * glob_script_mem.si_num[isind];
glob_script_mem.last_index_string[isind] = (char*)special_malloc(sasize);
if (glob_script_mem.last_index_string[isind]) {
memset(glob_script_mem.last_index_string[isind], 0, sasize);
for (uint32_t cnt = 0; cnt < glob_script_mem.siro_num[isind]; cnt++) {
char str[SCRIPT_MAX_SBSIZE];
GetTextIndexed(str, sizeof(str), cnt, sstart);
strlcpy(glob_script_mem.last_index_string[isind] + (cnt * glob_script_mem.max_ssize), str, glob_script_mem.max_ssize);
}
} else {
// memory error
}
} else {
glob_script_mem.last_index_string[isind] = sstart;
}
lp++;
return lp;
}
char *Get_esc_char(char *cp, char *esc_chr) {
char iob = *cp;
if (iob == '\\') {
cp++;
if (*cp == 't') {
iob = '\t';
} else if (*cp == 'n') {
iob = '\n';
} else if (*cp == 'r') {
iob = '\r';
} else if (*cp == '"') {
iob = '"';
} else if (*cp == '0' && *(cp + 1) == 'x') {
cp += 2;
iob = strtol(cp, 0, 16);
cp++;
} else if (*cp == '\\') {
iob = '\\';
}
else {
cp--;
}
}
*esc_chr = iob;
cp++;
return cp;
}
char *isget(char *lp, char *sp, uint32_t isind, struct GVARS *gv) {
TS_FLOAT fvar;
lp = GetNumericArgument(lp, OPER_EQU, &fvar, 0);
uint8_t index = fvar;
SCRIPT_SKIP_SPACES
char str[SCRIPT_MAX_SBSIZE];
str[0] = 0;
if (index < 1) index = 1;
index--;
if (gv) gv->strind = index;
glob_script_mem.sind_num = isind;
if (glob_script_mem.last_index_string[isind]) {
if (!glob_script_mem.si_num[isind]) {
if (index <= glob_script_mem.siro_num[isind]) {
GetTextIndexed(str, sizeof(str), index , glob_script_mem.last_index_string[isind]);
}
} else {
if (index >= glob_script_mem.si_num[isind]) {
index = glob_script_mem.si_num[isind] - 1;
}
strlcpy(str,glob_script_mem.last_index_string[isind] + (index * glob_script_mem.max_ssize), glob_script_mem.max_ssize);
}
}
lp++;
if (sp) strlcpy(sp, str, glob_script_mem.max_ssize);
return lp;
}
#ifdef SCRIPT_SAVE_RAM
#undef strncmp_XP
#define strncmp_XP strncmp_P
#undef XPSTR
#define XPSTR(A) PSTR(A)
#else
#undef strncmp_XP
#define strncmp_XP strncmp
#undef XPSTR
#define XPSTR(A) A
#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, TS_FLOAT *fp, char *sp, struct GVARS *gv);
char *isvar(char *lp, uint8_t *vtype, struct T_INDEX *tind, TS_FLOAT *fp, char *sp, struct GVARS *gv) {
uint16_t count, len = 0;
uint8_t nres = 0;
char vname[64];
TS_FLOAT fvar = 0;
tind->index = 0;
tind->bits.data = 0;
//Serial.printf("Stack 2: %d\n",GetStack());
if ( (*lp == '#') && (*(lp + 1) == '-' || isdigit(*(lp + 1))) ) {
// 32 bit integer
lp++;
if (fp) {
if (*lp == '0' && *(lp + 1) == 'x') {
lp += 2;
*(uint32_t*)fp = strtoll(lp, &lp, 16);
} else {
*(int32_t*)fp = strtoll(lp, &lp, 10);
}
}
tind->bits.constant = 1;
tind->bits.is_string = 0;
tind->bits.integer = 1;
*vtype = NUM_RES;
return lp;
}
if (isdigit(*lp) || (*lp == '-' && isdigit(*(lp + 1))) || *lp == '.') {
// isnumber
if (fp) {
if (*lp == '0' && *(lp + 1) == 'x') {
lp += 2;
*fp = strtoll(lp, &lp, 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;
char iob;
lp = Get_esc_char(lp, &iob);
if (sp) *sp++ = iob;
}
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;
if (gv) {
gv->numind = -1;
gv->strind = -1;
}
char *ja = strchr(dvnam, '[');
if (ja) {
*ja = 0;
ja++;
olen = strlen(dvnam);
}
glob_script_mem.arres = 0;
for (count = 0; count < glob_script_mem.numvars; count++) {
char *cp = glob_script_mem.glob_vnp + glob_script_mem.vnp_offset[count];
uint8_t slen = strlen(cp);
if (slen == olen && *cp == dvnam[0]) {
if (!strncmp(cp, dvnam, olen)) {
uint16_t index = vtp[count].index;
*tind = vtp[count];
tind->index = 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 = GetNumericArgument(lp, OPER_EQU, &fvar, gv);
if (gv) gv->numind = fvar;
fvar = Get_MFVal(index, fvar);
len = 1;
} else {
fvar = Get_MFilter(index);
glob_script_mem.arres = 1;
}
} else {
if (ja) continue;
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_MAX_SBSIZE);
}
return lp + len;
}
}
}
#define USE_SCRIPT_JSON
//#define USE_SCRIPT_FULL_JSON_PARSER
#ifdef USE_SCRIPT_JSON
if (gv && gv->jo) {
// look for json input
#ifdef USE_SCRIPT_FULL_JSON_PARSER
// epoch offset missing in this version
char str_value[SCRIPT_MAX_SBSIZE];
str_value[0]=0;
TS_FLOAT fv;
#if 0
uint32_t res = JsonParsePath(gv->jo, vname, '#', &fv, str_value, sizeof(str_value));
#else
// replace vars allows for looped queries
char vname_buff[64];
Replace_Cmd_Vars(lp, sizeof(vname), vname_buff , sizeof(vname_buff));
uint32_t res = JsonParsePath(gv->jo, vname_buff, '#', &fv, str_value, sizeof(str_value));
#endif
if (!res) {
goto chknext;
}
if (res == 1) {
// numeric
nexit:
if (fp) *fp = fv;
*vtype = NUM_RES;
tind->bits.constant = 1;
tind->bits.is_string = 0;
return lp + len;
} else {
// string
if (!strncmp_XP(str_value, XPSTR("ON"), 2)) {
fv = 1;
goto nexit;
} else if (!strncmp_XP(str_value, XPSTR("OFF"), 3)) {
fv = 0;
goto nexit;
} else {
*vtype = STR_RES;
tind->bits.constant = 1;
tind->bits.is_string = 1;
if (sp) strlcpy(sp, str_value, SCRIPT_MAX_SBSIZE);
return lp + len;
}
}
#else
// normal json parser
JsonParserObject *jpo = gv->jo;
char jvname[64];
strcpy(jvname, vname);
const char* str_value;
uint8_t aindex;
String vn;
char *ja=strchr(jvname, '[');
if (ja) {
// json array
*ja = 0;
ja++;
// fetch array index
TS_FLOAT fvar;
GetNumericArgument(ja, OPER_EQU, &fvar, 0);
aindex = fvar;
if (aindex<1 || aindex>6) aindex = 1;
aindex--;
}
if (jpo->isValid()) {
char *subtype = strchr(jvname, '#');
char *subtype2;
if (subtype) {
*subtype = 0;
subtype++;
subtype2 = strchr(subtype, '#');
if (subtype2) {
*subtype2 = 0;
*subtype2++;
}
}
vn = jvname;
str_value = (*jpo)[vn].getStr();
if ((*jpo)[vn].isValid()) {
if (subtype) {
JsonParserObject jobj1 = (*jpo)[vn];
if (jobj1.isValid()) {
vn = subtype;
jpo = &jobj1;
str_value = (*jpo)[vn].getStr();
if ((*jpo)[vn].isValid()) {
// 2. stage
if (subtype2) {
JsonParserObject jobj2 = (*jpo)[vn];
if ((*jpo)[vn].isValid()) {
vn = subtype2;
jpo = &jobj2;
str_value = (*jpo)[vn].getStr();
if ((*jpo)[vn].isValid()) {
goto skip;
} else {
goto chknext;
}
} else {
goto chknext;
}
}
// end
goto skip;
}
} else {
goto chknext;
}
}
skip:
if (ja) {
// json array
str_value = (*jpo)[vn].getArray()[aindex].getStr();
}
if (str_value && *str_value) {
if ((*jpo)[vn].isStr()) {
if (!strncmp_XP(str_value, XPSTR("ON"), 2)) {
if (fp) *fp = 1;
goto nexit;
} else if (!strncmp_XP(str_value, XPSTR("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_MAX_SBSIZE);
return lp + len;
}
} else {
if (fp) {
if (!strncmp_XP(vn.c_str(), XPSTR("Epoch"), 5)) {
*fp = atoi(str_value) - (uint32_t)glob_script_mem.epoch_offset;
} else {
*fp = CharToFloat((char*)str_value);
}
}
nexit:
*vtype = NUM_RES;
tind->bits.constant = 1;
tind->bits.is_string = 0;
return lp + len;
}
}
}
}
#endif
}
#endif
chknext:
switch (vname[0]) {
case 'a':
#ifdef USE_ANGLE_FUNC
if (!strncmp_XP(lp, XPSTR("acos("), 5)) {
lp = GetNumericArgument(lp + 5, OPER_EQU, &fvar, gv);
fvar = acosf(fvar);
goto nfuncexit;
}
#endif
if (!strncmp_XP(lp, XPSTR("abs("), 4)) {
lp = GetNumericArgument(lp + 4, OPER_EQU, &fvar, gv);
fvar = fabs(fvar);
goto nfuncexit;
}
if (!strncmp_XP(lp, XPSTR("asc("), 4)) {
char str[SCRIPT_MAX_SBSIZE];
lp = GetStringArgument(lp + 4, OPER_EQU, str, gv);
fvar = str[0];
goto nfuncexit;
}
if (!strncmp_XP(lp, XPSTR("adc("), 4)) {
lp = GetNumericArgument(lp + 4, OPER_EQU, &fvar, gv);
while (*lp==' ') lp++;
TS_FLOAT pin = 1;
if (*lp!=')') {
lp = GetNumericArgument(lp, OPER_EQU, &pin, gv);
#ifdef CONFIG_IDF_TARGET_ESP32S3
if (pin<1 || pin>20) pin = 1;
#else
if (pin<32 || pin>39) pin = 32;
#endif
}
lp++;
if (fvar > 7) fvar = 7;
#ifdef ESP32
// ESP32
#ifdef USE_ADC
fvar = AdcRead(pin, fvar);
#else
fvar = 999.999;
#endif // USE_ADC
#else
// ESP8266
#ifndef USE_ADC_VCC
fvar = AdcRead(17, fvar);
#else
fvar = (TS_FLOAT)ESP.getVcc() / 1000.0;
#endif // USE_ADC_VCC
#endif // ESP32
len = 0;
goto exit;
}
if (!strncmp_XP(lp, XPSTR("acp("), 4)) {
lp += 4;
SCRIPT_SKIP_SPACES
uint16_t alend;
fvar = -1;
TS_FLOAT *fpd;
lp = get_array_by_name(lp, &fpd, &alend, 0);
SCRIPT_SKIP_SPACES
uint16_t alens;
TS_FLOAT *fps;
char *slp = lp;
lp = get_array_by_name(lp, &fps, &alens, 0);
if (lp == 0 || fps == 0) {
lp = slp;
lp = GetNumericArgument(lp, OPER_EQU, &fvar, 0);
for (uint32_t cnt = 0; cnt < alend; cnt++ ) {
fpd[cnt] = fvar;
}
fvar = alend;
goto nfuncexit;
}
SCRIPT_SKIP_SPACES
if (alens < alend) {
alend = alens;
}
memcpy(fpd, fps, alend * sizeof(TS_FLOAT));
fvar = alend;
goto nfuncexit;
}
if (!strncmp_XP(lp, XPSTR("as("), 3)) {
uint16_t alen;
TS_FLOAT *fa;
lp = get_array_by_name(lp + 3, &fa, &alen, 0);
if (!fa) {
fvar = -1;
goto exit;
}
script_sort_array(fa, alen);
fvar = 0;
goto nfuncexit;
}
if (!strncmp_XP(lp, XPSTR("af("), 3)) {
// array to float
uint16_t alend;
TS_FLOAT *fpd;
lp = get_array_by_name(lp + 3, &fpd, &alend, 0);
SCRIPT_SKIP_SPACES
if (*lp != ')') {
lp = GetNumericArgument(lp, OPER_EQU, &fvar, 0);
uint16_t offset = 0;
offset = fvar;
if (offset > (alend - 4)) {
offset = alend - 4;
}
fpd += offset;
}
if (fpd) {
uint8_t fbytes[4];
fbytes[0] = *fpd++;
fbytes[1] = *fpd++;
fbytes[2] = *fpd++;
fbytes[3] = *fpd++;
fpd = (TS_FLOAT*)fbytes;
fvar = *fpd;
} else {
fvar = 0;
}
goto nfuncexit;
}
if (!strncmp_XP(lp, XPSTR("ap("), 3)) {
//TasmotaGlobal.restart_flag = 216;
lp = GetNumericArgument(lp + 3, OPER_EQU, &fvar, gv);
switch ((uint8_t)fvar) {
case 0:
{ char ssid[SCRIPT_MAX_SBSIZE];
lp = GetStringArgument(lp, OPER_EQU, ssid, 0);
char pw[SCRIPT_MAX_SBSIZE];
lp = GetStringArgument(lp, OPER_EQU, pw, 0);
IPAddress local_IP(192,168,189,1);
IPAddress gateway(192,168,189,1);
IPAddress subnet(255,255,255,0);
// Begin Access Point
WiFi.softAPConfig(local_IP, gateway, subnet);
fvar = WiFi.softAP(ssid, pw);
}
break;
case 1:
fvar = WiFi.softAPdisconnect(true);
break;
case 2:
fvar = WiFi.disconnect(true);
break;
}
//Web.state = HTTP_ADMIN;
// 192.168.4.1
// WiFi.softAPIP();
goto nfuncexit;
}
break;
case 'b':
if (!strncmp_XP(vname, XPSTR("boot"), 4)) {
if (TasmotaGlobal.rules_flag.system_boot) {
TasmotaGlobal.rules_flag.system_boot = 0;
fvar = 1;
}
goto exit;
}
#ifdef USE_BUTTON_EVENT
if (!strncmp_XP(lp, XPSTR("bt["), 3)) {
// tasmota button state
lp = GetNumericArgument(lp + 3, OPER_EQU, &fvar, gv);
uint32_t index = fvar;
if (index<1 || index>MAX_KEYS) index = 1;
fvar = glob_script_mem.script_button[index - 1];
glob_script_mem.script_button[index - 1] |= 0x80;
goto nfuncexit;
}
#endif //USE_BUTTON_EVENT
if (!strncmp_XP(lp, XPSTR("bcd("), 4)) {
lp = GetNumericArgument(lp + 4, OPER_EQU, &fvar, gv);
uint32_t sel = fvar;
while (*lp==' ') lp++;
lp = GetNumericArgument(lp, OPER_EQU, &fvar, gv);
fvar = script_bcd(sel, fvar);
goto nfuncexit;
}
#ifdef USE_FLASH_BDIR
if (!strncmp_XP(lp, XPSTR("bdir("), 5)) {
lp = GetNumericArgument(lp + 5, OPER_EQU, &fvar, gv);
char str[SCRIPT_MAX_SBSIZE];
if (fvar > 1) {
lp = GetStringArgument(lp, OPER_EQU, str, 0);
}
fvar = flash_bindir(fvar, str);
goto nfuncexit;
}
#endif // USE_FLASH_BDIR
break;
case 'c':
if (!strncmp_XP(lp, XPSTR("chg["), 4)) {
// var changed
struct T_INDEX ind;
uint8_t vtype;
lp = isvar(lp + 4, &vtype, &ind, 0, 0, gv);
if (!ind.bits.constant) {
uint16_t index = glob_script_mem.type[ind.index].index;
fvar = glob_script_mem.fvars[index] != glob_script_mem.s_fvars[index];
glob_script_mem.s_fvars[index] = glob_script_mem.fvars[index];
} else {
fvar = 0;
}
goto nfuncexit;
}
#ifdef ESP32
if (!strncmp_XP(vname, XPSTR("core"), 4)) {
fvar = xPortGetCoreID();
goto exit;
}
#ifdef USE_M5STACK_CORE2
if (!strncmp_XP(lp, XPSTR("c2ps("), 5)) {
lp = GetNumericArgument(lp + 5, OPER_EQU, &fvar, gv);
while (*lp==' ') lp++;
TS_FLOAT fvar1;
lp = GetNumericArgument(lp, OPER_EQU, &fvar1, gv);
fvar = Core2SetAxpPin(fvar, fvar1);
goto nfuncexit;
}
#endif // USE_M5STACK_CORE2
#ifdef USE_SCRIPT_TASK
if (!strncmp_XP(lp, XPSTR("ct("), 3)) {
lp = GetNumericArgument(lp + 3, OPER_EQU, &fvar, gv);
while (*lp==' ') lp++;
TS_FLOAT fvar1;
lp = GetNumericArgument(lp, OPER_EQU, &fvar1, gv);
while (*lp==' ') lp++;
TS_FLOAT fvar2;
lp = GetNumericArgument(lp, OPER_EQU, &fvar2, gv);
SCRIPT_SKIP_SPACES
TS_FLOAT prio = STASK_PRIO;
if (*lp!=')') {
lp = GetNumericArgument(lp, OPER_EQU, &prio, gv);
}
SCRIPT_SKIP_SPACES
TS_FLOAT stack = STASK_STACK;
if (*lp!=')') {
lp = GetNumericArgument(lp, OPER_EQU, &stack, gv);
}
fvar = scripter_create_task(fvar, fvar1, fvar2, prio, stack);
goto nfuncexit;
}
#endif //USE_SCRIPT_TASK
#endif //ESP32
#ifdef USE_ANGLE_FUNC
if (!strncmp_XP(lp, XPSTR("cos("), 4)) {
lp = GetNumericArgument(lp + 4, OPER_EQU, &fvar, gv);
fvar = cosf(fvar);
goto nfuncexit;
}
if (!strncmp_XP(lp, XPSTR("ceil("), 5)) {
lp = GetNumericArgument(lp + 5, OPER_EQU, &fvar, gv);
fvar = ceilf(fvar);
goto nfuncexit;
}
#endif
#ifdef USE_FEXTRACT
if (!strncmp_XP(lp, XPSTR("cts("), 4)) {
char tsin[SCRIPT_MAX_SBSIZE];
lp = GetStringArgument(lp + 4, OPER_EQU, tsin, 0);
SCRIPT_SKIP_SPACES
int8_t flg = -1;
if (*lp != ')') {
lp = GetNumericArgument(lp, OPER_EQU, &fvar, gv);
flg = fvar;
}
char tsout[SCRIPT_MAX_SBSIZE];
cnvts(tsout, tsin, flg);
if (sp) strlcpy(sp, tsout, glob_script_mem.max_ssize);
lp++;
len = 0;
goto strexit;
}
#endif // USE_FEXTRACT
if (!strncmp_XP(lp, XPSTR("cbs"), 3)) {
fvar = glob_script_mem.cmdbuffer_size;
tind->index = SCRIPT_CBSIZE;
goto exit_settable;
}
#ifdef USE_W8960
extern void W8960_SetGain(uint8_t sel, uint16_t value);
if (!strncmp_XP(lp, XPSTR("codec("), 6)) {
TS_FLOAT sel;
lp = GetNumericArgument(lp + 6, OPER_EQU, &sel, gv);
lp = GetNumericArgument(lp, OPER_EQU, &fvar, gv);
W8960_SetGain(sel, fvar);
fvar = 0;
goto nfuncexit;
}
#endif
#ifdef USE_UFILESYS
if (!strncmp_XP(lp, XPSTR("cpf("), 4)) {
// copy file with offsets sfd, sfstart, sfstop, df
TS_FLOAT sfd, sf_from, sf_to, dfd;
lp = GetNumericArgument(lp + 4, OPER_EQU, &sfd, 0);
lp = GetNumericArgument(lp, OPER_EQU, &sf_from, 0);
lp = GetNumericArgument(lp, OPER_EQU, &sf_to, 0);
lp = GetNumericArgument(lp, OPER_EQU, &dfd, 0);
if (*lp != ')') {
lp = GetNumericArgument(lp, OPER_EQU, &fvar, 0);
} else {
fvar = 0;
}
uint8_t source = sfd;
uint8_t dest = dfd;
if (!glob_script_mem.file_flags[source].is_open) {
fvar -1;
goto nfuncexit;
}
if (!glob_script_mem.file_flags[dest].is_open) {
fvar -2;
goto nfuncexit;
}
fvar = script_copy_file(&glob_script_mem.files[source], &glob_script_mem.files[dest], sf_from, sf_to, fvar, 0);
glob_script_mem.files[source].close();
glob_script_mem.file_flags[source].is_open = 0;
glob_script_mem.files[dest].close();
glob_script_mem.file_flags[dest].is_open = 0;
goto nfuncexit;
}
#endif
if (!strncmp_XP(vname, XPSTR("ctper"), 5)) {
fvar = TasmotaGlobal.tele_period;
goto exit;
}
break;
case 'd':
if (!strncmp_XP(vname, XPSTR("day"), 3)) {
fvar = RtcTime.day_of_month;
goto exit;
}
if (!strncmp_XP(vname, XPSTR("dvnm"), 4)) {
if (sp) strlcpy(sp, SettingsText(SET_DEVICENAME), glob_script_mem.max_ssize);
goto strexit;
}
if (!strncmp_XP(lp, XPSTR("dp("), 3)) {
lp = GetNumericArgument(lp + 3, OPER_EQU, &fvar, gv);
while (*lp == ' ') lp++;
glob_script_mem.script_lzero = fvar;
if (*lp == ',' || *lp == '.') {
glob_script_mem.script_sepc = *lp;
lp++;
}
lp = GetNumericArgument(lp , OPER_EQU, &fvar, gv);
while (*lp == ' ') lp++;
glob_script_mem.script_dprec = fvar;
fvar = 0;
goto nfuncexit;
}
if (!strncmp_XP(lp, XPSTR("diff["), 5)) {
struct T_INDEX ind;
uint8_t vtype;
lp = isvar(lp + 5, &vtype, &ind, 0, 0, gv);
if (!ind.bits.constant) {
uint16_t index = glob_script_mem.type[ind.index].index;
fvar = glob_script_mem.fvars[index] - glob_script_mem.s_fvars[index];
glob_script_mem.s_fvars[index] = glob_script_mem.fvars[index];
} else {
fvar = 0;
}
goto nfuncexit;
}
break;
case 'e':
if (!strncmp_XP(vname, XPSTR("epoch"), 5)) {
fvar = UtcTime() - (uint32_t)glob_script_mem.epoch_offset;
goto exit;
}
if (!strncmp_XP(vname, XPSTR("epoffs"), 6)) {
fvar = (uint32_t)glob_script_mem.epoch_offset;
tind->index = SCRIPT_EPOFFS;
goto exit_settable;
}
if (!strncmp_XP(vname, XPSTR("eres"), 4)) {
fvar = glob_script_mem.event_handeled;
tind->index = SCRIPT_EVENT_HANDLED;
goto exit_settable;
}
#ifdef USE_ENERGY_SENSOR
if (!strncmp_XP(lp, XPSTR("enrg["), 5)) {
lp = GetNumericArgument(lp + 5, OPER_EQU, &fvar, gv);
while (*lp == ' ') lp++;
switch ((uint32_t)fvar) {
case 0:
fvar = Energy->total_sum;
break;
case 1:
fvar = Energy->voltage[0];
break;
case 2:
fvar = Energy->voltage[1];
break;
case 3:
fvar = Energy->voltage[2];
break;
case 4:
fvar = Energy->current[0];
break;
case 5:
fvar = Energy->current[1];
break;
case 6:
fvar = Energy->current[2];
break;
case 7:
fvar = Energy->active_power[0];
break;
case 8:
fvar = Energy->active_power[1];
break;
case 9:
fvar = Energy->active_power[2];
break;
case 10:
fvar = Energy->start_energy[0];
break;
case 11:
fvar = Energy->daily_sum;
break;
case 12:
fvar = Energy->yesterday_sum;
break;
default:
fvar = 99999;
break;
}
goto nfuncexit;
}
#endif //USE_ENERGY_SENSOR
break;
case 'f':
//#define DEBUG_FS
#ifdef USE_SCRIPT_FATFS
if (!strncmp_XP(lp, XPSTR("fo("), 3)) {
char str[SCRIPT_MAX_SBSIZE];
lp = GetStringArgument(lp + 3, OPER_EQU, str, 0);
FS *cfp = script_file_path(str);
while (*lp == ' ') lp++;
uint8_t mode = 0;
if ((*lp == 'r') || (*lp == 'w') || (*lp == 'a') || (*lp == 'u')) {
switch (*lp) {
case 'r':
mode = 0;
break;
case 'w':
mode = 1;
break;
case 'a':
mode = 2;
break;
case 'u':
mode = 3;
break;
case 'U':
mode = 4;
break;
}
lp++;
} else {
lp = GetNumericArgument(lp, OPER_EQU, &fvar, gv);
mode = fvar;
}
fvar = -1;
for (uint8_t cnt = 0;cntopen(str, FS_FILE_READ);
if (glob_script_mem.files[cnt].isDirectory()) {
glob_script_mem.files[cnt].rewindDirectory();
glob_script_mem.file_flags[cnt].is_dir = 1;
} else {
glob_script_mem.file_flags[cnt].is_dir = 0;
}
}
else {
if (mode == 1) {
glob_script_mem.files[cnt] = cfp->open(str,FS_FILE_WRITE);
#ifdef DEBUG_FS
AddLog(LOG_LEVEL_INFO, PSTR("SCR: open file for write %d"), cnt);
#endif
} else if (mode == 2) {
glob_script_mem.files[cnt] = cfp->open(str,FS_FILE_APPEND);
#ifdef DEBUG_FS
AddLog(LOG_LEVEL_INFO, PSTR("SCR: open file for append %d"), cnt);
#endif
} else if (mode == 3) {
glob_script_mem.files[cnt] = cfp->open(str, "w+");
#ifdef DEBUG_FS
AddLog(LOG_LEVEL_INFO, PSTR("SCR: open file for write update %d"), cnt);
#endif
} else {
glob_script_mem.files[cnt] = cfp->open(str, "r+");
#ifdef DEBUG_FS
AddLog(LOG_LEVEL_INFO, PSTR("SCR: open file for read update %d"), cnt);
#endif
}
}
if (glob_script_mem.files[cnt]) {
fvar = cnt;
glob_script_mem.file_flags[cnt].is_open = 1;
} else {
AddLog(LOG_LEVEL_INFO, PSTR("SCR: file open failed"));
}
break;
}
}
goto nfuncexit;
}
if (!strncmp_XP(lp, XPSTR("fc("), 3)) {
lp = GetNumericArgument(lp + 3, OPER_EQU, &fvar, gv);
if (fvar >= 0) {
uint8_t ind = fvar;
if (ind >= SFS_MAX) ind = SFS_MAX - 1;
#ifdef DEBUG_FS
AddLog(LOG_LEVEL_INFO, PSTR("SCR: closing file %d"), ind);
#endif
glob_script_mem.files[ind].close();
glob_script_mem.file_flags[ind].is_open = 0;
}
fvar = 0;
goto nfuncexit;
}
if (!strncmp_XP(lp, XPSTR("ff("), 3)) {
lp = GetNumericArgument(lp + 3, OPER_EQU, &fvar, gv);
uint8_t ind = fvar;
if (ind >= SFS_MAX) ind = SFS_MAX - 1;
glob_script_mem.files[ind].flush();
fvar = 0;
goto nfuncexit;
}
if (!strncmp_XP(lp, XPSTR("fw("), 3)) {
char str[SCRIPT_MAX_SBSIZE];
lp = ForceStringVar(lp + 3, str);
while (*lp == ' ') lp++;
lp = GetNumericArgument(lp, OPER_EQU, &fvar, gv);
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;
}
goto nfuncexit;
}
if (!strncmp_XP(lp, XPSTR("fwb("), 4)) {
lp = GetNumericArgument(lp + 4, OPER_EQU, &fvar, gv);
uint8_t buf[2];
buf[0] = fvar;
SCRIPT_SKIP_SPACES
lp = GetNumericArgument(lp, OPER_EQU, &fvar, gv);
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].write(buf, 1);
} else {
fvar = 0;
}
goto nfuncexit;
}
if (!strncmp_XP(lp, XPSTR("fr("), 3)) {
struct T_INDEX ind;
uint8_t vtype;
uint16_t sindex = 0;
lp = isvar(lp + 3, &vtype, &ind, 0, 0, gv);
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 = GetNumericArgument(lp, OPER_EQU, &fvar, gv);
uint8_t find = fvar;
if (find >= SFS_MAX) find = SFS_MAX - 1;
while (*lp == ' ') lp++;
uint8_t options = 0;
if (*lp != ')') {
// options
lp = GetNumericArgument(lp, OPER_EQU, &fvar, gv);
options = fvar;
}
uint8_t index = 0;
char str[SCRIPT_MAX_SBSIZE];
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 (!UfsReject((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 (!options && (buf[0] == '\t' || buf[0] == ',' || buf[0] == '\n' || buf[0] == '\r')) {
break;
} else {
if (options && (buf[0] == '\n' || buf[0] == '\r')) {
break;
}
*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_XP(lp, XPSTR("frb("), 4)) {
lp = GetNumericArgument(lp, OPER_EQU, &fvar, gv);
uint8_t ind = fvar;
if (ind >= SFS_MAX) ind = SFS_MAX - 1;
if (glob_script_mem.file_flags[ind].is_open) {
uint8_t buf[2];
buf[0] = 0;
glob_script_mem.files[ind].read(buf, 1);
fvar = buf[0];
} else {
fvar = 0;
}
goto nfuncexit;
}
if (!strncmp_XP(lp, XPSTR("fa("), 3)) {
lp = GetNumericArgument(lp + 3, OPER_EQU, &fvar, gv);
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].available();
} else {
fvar = -1;
}
goto nfuncexit;
}
if (!strncmp_XP(lp, XPSTR("fs("), 3)) {
lp = GetNumericArgument(lp + 3, OPER_EQU, &fvar, gv);
uint8_t ind = fvar;
SCRIPT_SKIP_SPACES
lp = GetNumericArgument(lp, OPER_EQU, &fvar, gv);
SCRIPT_SKIP_SPACES
if (ind >= SFS_MAX) ind = SFS_MAX - 1;
if (glob_script_mem.file_flags[ind].is_open) {
fvar = glob_script_mem.files[ind].seek(fvar, SeekSet);
} else {
fvar = -1;
}
goto nfuncexit;
}
if (!strncmp_XP(lp, XPSTR("fz("), 3)) {
lp = GetNumericArgument(lp + 3, OPER_EQU, &fvar, gv);
SCRIPT_SKIP_SPACES
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].size();
} else {
fvar = -1;
}
goto nfuncexit;
}
if (!strncmp_XP(lp, XPSTR("fd("), 3)) {
char str[SCRIPT_MAX_SBSIZE];
lp = GetStringArgument(lp + 3, OPER_EQU, str, 0);
FS *cfp = script_file_path(str);
cfp->remove(str);
goto nfuncexit;
}
#ifdef USE_UFILESYS
if (!strncmp_XP(lp, XPSTR("frw("), 4)) {
// read file from web
lp = GetNumericArgument(lp + 4, OPER_EQU, &fvar, gv);
SCRIPT_SKIP_SPACES
char *url;
lp = GetLongIString(lp, &url);
if (url) {
fvar = url2file(fvar, url);
}
if (url) free(url);
goto nfuncexit;
}
#endif
#if defined(ESP32) && defined(USE_WEBCAM)
if (!strncmp_XP(lp, XPSTR("fwp("), 4)) {
lp = GetNumericArgument(lp + 4, OPER_EQU, &fvar, gv);
while (*lp == ' ') lp++;
TS_FLOAT fvar1;
lp = GetNumericArgument(lp, OPER_EQU, &fvar1, gv);
uint8_t ind = fvar1;
if (ind >= SFS_MAX) ind = SFS_MAX - 1;
if (glob_script_mem.file_flags[ind].is_open) {
uint8_t *buff;
TS_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(LOG_LEVEL_INFO, PSTR("picture save: %d"), len);
} else {
fvar = 0;
}
goto nfuncexit;
}
#endif //ESP32 && USE_WEBCAM
#ifdef USE_SCRIPT_FATFS_EXT
if (!strncmp_XP(lp, XPSTR("fe("), 3)) {
char str[SCRIPT_MAX_SBSIZE];
lp = GetStringArgument(lp + 3, OPER_EQU, str, 0);
// execute script
File ef = ufsp->open(str, FS_FILE_READ);
if (ef) {
uint16_t fsiz = ef.size();
if (fsiz < 2048) {
char *script = (char*)special_malloc(fsiz + 16);
if (script) {
memset(script, 0, fsiz + 16);
ef.read((uint8_t*)script, fsiz);
execute_script(script);
free(script);
fvar = 1;
}
}
ef.close();
}
goto nfuncexit;
}
if (!strncmp_XP(lp, XPSTR("fmd("), 4)) {
char str[SCRIPT_MAX_SBSIZE];
lp = GetStringArgument(lp + 4, OPER_EQU, str, 0);
FS *cfp = script_file_path(str);
fvar = cfp->mkdir(str);
goto nfuncexit;
}
if (!strncmp_XP(lp, XPSTR("fmt("), 4)) {
lp = GetNumericArgument(lp + 4, OPER_EQU, &fvar, gv);
if (!fvar) {
LittleFS.format();
} else {
//SD.format();
}
goto nfuncexit;
}
if (!strncmp_XP(lp, XPSTR("frd("), 4)) {
char str[SCRIPT_MAX_SBSIZE];
lp = GetStringArgument(lp + 4, OPER_EQU, str, 0);
FS *cfp = script_file_path(str);
fvar = cfp->rmdir(str);
goto nfuncexit;
}
if (!strncmp_XP(lp, XPSTR("fx("), 3)) {
char str[SCRIPT_MAX_SBSIZE];
lp = GetStringArgument(lp + 3, OPER_EQU, str, 0);
FS *cfp = script_file_path(str);
if (cfp->exists(str)) fvar = 1;
else fvar = 0;
goto nfuncexit;
}
if (!strncmp_XP(lp, XPSTR("fsi("), 4)) {
lp = GetNumericArgument(lp + 4, OPER_EQU, &fvar, gv);
fvar = UfsInfo(fvar, 0);
goto nfuncexit;
}
if (!strncmp_XP(lp, XPSTR("frn("), 4)) {
// rename a file
char fn_from[SCRIPT_MAX_SBSIZE];
lp = GetStringArgument(lp + 4, OPER_EQU, fn_from, 0);
SCRIPT_SKIP_SPACES
char fn_to[SCRIPT_MAX_SBSIZE];
lp = GetStringArgument(lp, OPER_EQU, fn_to, 0);
SCRIPT_SKIP_SPACES
FS *cfp = script_file_path(fn_from);
fvar = cfp->rename(fn_from, fn_to);
goto nfuncexit;
}
#ifdef USE_FEXTRACT
if (!strncmp_XP(lp, XPSTR("fxt"), 3)) {
lp += 3;
uint8_t oflg = 0;
if (*lp == 'o') {
oflg = 1;
lp++;
}
if (*lp == '(') {
lp++;
} else {
break;
}
// extract from file
lp = GetNumericArgument(lp, OPER_EQU, &fvar, gv);
SCRIPT_SKIP_SPACES
uint8_t fref = fvar;
//2020-12-16T14:30:00
char ts_from[24];
lp = GetStringArgument(lp, OPER_EQU, ts_from, 0);
SCRIPT_SKIP_SPACES
char ts_to[24];
lp = GetStringArgument(lp, OPER_EQU, ts_to, 0);
SCRIPT_SKIP_SPACES
lp = GetNumericArgument(lp, OPER_EQU, &fvar, gv);
SCRIPT_SKIP_SPACES
int8_t coffs = fvar;
if (coffs >= 0) {
lp = GetNumericArgument(lp, OPER_EQU, &fvar, gv);
SCRIPT_SKIP_SPACES
int16_t accum = fvar;
uint16_t a_len[MAX_EXT_ARRAYS];
TS_FLOAT *a_ptr[MAX_EXT_ARRAYS];
uint8_t index = 0;
while (index < MAX_EXT_ARRAYS) {
lp = get_array_by_name(lp, &a_ptr[index], &a_len[index], 0);
SCRIPT_SKIP_SPACES
index++;
if (*lp == ')' || *lp == '\n') {
break;
}
}
if (!glob_script_mem.file_flags[fref].is_open) {
fvar = -1;
goto nfuncexit;
}
if (oflg) {
// optimized access
int32_t fres = opt_fext(&glob_script_mem.files[fref], ts_from, ts_to, 1);
//AddLog(LOG_LEVEL_INFO,PSTR(">>> 2 %s - %d - %d"), ts_from, fres, (uint32_t)(perc*100));
if (fres > 0) {
fvar = extract_from_file(&glob_script_mem.files[fref], ts_from, ts_to, coffs, a_ptr, a_len, index, accum);
} else {
// fatal error time stamp out of range
fvar = -2;
}
} else {
fvar = extract_from_file(&glob_script_mem.files[fref], ts_from, ts_to, coffs, a_ptr, a_len, index, accum);
}
} else {
if (oflg) {
fvar = opt_fext(&glob_script_mem.files[fref], ts_from, ts_to, 0);
if (coffs == -4) {
goto nfuncexit;
}
}
fvar = extract_from_file(&glob_script_mem.files[fref], ts_from, ts_to, coffs, 0, 0, 0, 0);
}
goto nfuncexit;
}
#endif // USE_FEXTRACT
if (!strncmp_XP(lp, XPSTR("fwa("), 4)) {
uint16_t alen;
TS_FLOAT *fa;
lp = get_array_by_name(lp + 4, &fa, &alen, 0);
if (!fa) {
fvar = 0;
goto exit;
}
SCRIPT_SKIP_SPACES
lp = GetNumericArgument(lp, OPER_EQU, &fvar, gv);
SCRIPT_SKIP_SPACES
uint8_t append = 0;
if (*lp == 'a') {
lp++;
append = 1;
}
uint8_t index = fvar;
if (index >= SFS_MAX) index = SFS_MAX - 1;
if (glob_script_mem.file_flags[index].is_open) {
char dstr[24];
for (uint32_t cnt = 0; cnt < alen; cnt++) {
//dtostrfd(*fa, glob_script_mem.script_dprec, dstr);
ext_snprintf_P(dstr, sizeof(dstr), PSTR("%*_f"), -glob_script_mem.script_dprec, fa);
fa++;
if (cnt < (alen - 1)) {
strcat(dstr,"\t");
} else {
if (!append) {
strcat(dstr,"\n");
} else {
strcat(dstr,"\t");
}
}
glob_script_mem.files[index].print(dstr);
}
} else {
fvar = 0;
}
goto nfuncexit;
}
if (!strncmp_XP(lp, XPSTR("fra("), 4)) {
uint16_t alen;
TS_FLOAT *fa;
lp = get_array_by_name(lp + 4, &fa, &alen, 0);
if (!fa) {
fvar = 0;
goto exit;
}
SCRIPT_SKIP_SPACES
lp = GetNumericArgument(lp, OPER_EQU, &fvar, gv);
uint8_t find = fvar;
SCRIPT_SKIP_SPACES
if (find >= SFS_MAX) find = SFS_MAX - 1;
char str[SCRIPT_MAX_SBSIZE];
if (glob_script_mem.file_flags[find].is_open) {
uint8_t first = 0;
for (uint32_t cnt = 0; cnt < alen; cnt++) {
uint8_t slen = 0;
char *cp = str;
*cp = 0;
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') {
// skip leading TAB
if (first) {
break;
}
} else {
*cp++ = buf[0];
first = 1;
slen++;
if (slen >= glob_script_mem.max_ssize - 1) break;
}
}
*cp = 0;
*fa++=CharToFloat(str);
}
} else {
fvar = 0;
}
goto nfuncexit;
}
if (!strncmp_XP(lp, XPSTR("frln("), 5)) {
lp = GetNumericArgument(lp + 5, OPER_EQU, &fvar, gv);
uint8_t find = fvar;
lp = GetNumericArgument(lp, OPER_EQU, &fvar, gv);
if (glob_script_mem.file_flags[find].is_open) {
// read line
char instr[SCRIPT_MAX_SBSIZE];
fread_str_fp(&glob_script_mem.files[find], instr, sizeof(instr), fvar);
if (sp) strlcpy(sp, instr, glob_script_mem.max_ssize);
}
len = 0;
lp++;
goto strexit;
}
if (!strncmp_XP(lp, XPSTR("ft("), 3)) {
lp = GetNumericArgument(lp + 3, OPER_EQU, &fvar, gv);
uint8_t find = fvar;
if (glob_script_mem.file_flags[find].is_open) {
fvar = glob_script_mem.files[find].position();
}
goto nfuncexit;
}
if (!strncmp_XP(lp, XPSTR("fcs("), 4)) {
lp = GetNumericArgument(lp + 4, OPER_EQU, &fvar, gv);
uint8_t find = fvar;
SCRIPT_SKIP_SPACES
char delim[SCRIPT_MAX_SBSIZE];
lp = GetStringArgument(lp, OPER_EQU, delim, 0);
SCRIPT_SKIP_SPACES
lp = GetNumericArgument(lp, OPER_EQU, &fvar, gv);
SCRIPT_SKIP_SPACES
uint8_t index = fvar;
if (!index) index = 1;
char delimc = 0;
if (*lp != ')') {
// get delimiter
delimc = *lp;
lp++;
}
char fstr[SCRIPT_MAX_SBSIZE];
fstr[0] = 0;
bool match = false;
uint8_t dstrlen = strlen(delim);
if (glob_script_mem.file_flags[find].is_open) {
glob_script_mem.files[find].seek(0, SeekSet);
uint8_t first = 0;
uint8_t clen = 0;
while (glob_script_mem.files[find].available()) {
uint8_t buf[1];
glob_script_mem.files[find].read(buf, 1);
// shift string
memmove(&fstr[0], &fstr[1], dstrlen - 1);
fstr[dstrlen - 1] = buf[0];
if (!strncmp(delim, fstr, dstrlen)) {
// match
//AddLog(LOG_LEVEL_INFO, PSTR(">>: %s - %s - %d - %d"), delim, fstr, dstrlen, index);
index--;
if (!index) {
match = true;
break;
}
}
}
if (match == true) {
clen = 0;
while (glob_script_mem.files[find].available()) {
uint8_t buf[1];
glob_script_mem.files[find].read(buf, 1);
if (buf[0] == delimc) {
break;
}
fstr[clen] = buf[0];
clen++;
if (clen >= sizeof(fstr)) {
break;
}
}
fstr[clen] = 0;
}
if (sp) strlcpy(sp, fstr, glob_script_mem.max_ssize);
}
len = 0;
lp++;
goto strexit;
}
#endif // USE_SCRIPT_FATFS_EXT
if (!strncmp_XP(lp, XPSTR("fl1("), 4) || !strncmp_XP(lp, XPSTR("fl2("), 4) ) {
uint8_t lknum = *(lp + 2) & 3;
char str[SCRIPT_MAX_SBSIZE];
lp = GetStringArgument(lp + 4, OPER_EQU, str, 0);
if (lknum < 1 || lknum > 2) lknum = 1;
strlcpy(glob_script_mem.flink[lknum - 1], str, 14);
fvar = 0;
goto nfuncexit;
}
if (!strncmp_XP(lp, XPSTR("fsm"), 3)) {
fvar = (uint32_t)ufsp;
goto exit;
}
#endif //USE_SCRIPT_FATFS
if (!strncmp_XP(lp, XPSTR("freq"), 4)) {
#ifdef ESP32
fvar = getCpuFrequencyMhz();
#else
fvar = ESP.getCpuFreqMHz();
#endif
goto exit;
}
if (!strncmp_XP(lp, XPSTR("frnm"), 4)) {
if (sp) strlcpy(sp, SettingsText(SET_FRIENDLYNAME1), glob_script_mem.max_ssize);
goto strexit;
}
#ifdef USE_ANGLE_FUNC
if (!strncmp_XP(lp, XPSTR("floor("), 6)) {
lp = GetNumericArgument(lp + 6, OPER_EQU, &fvar, gv);
fvar = floorf(fvar);
goto nfuncexit;
}
#endif
if (!strncmp_XP(lp, XPSTR("f("), 2)) {
// convert to float var
lp = GetNumericArgument(lp + 2, OPER_EQU, &fvar, gv);
fvar = *(uint32_t*)&fvar;
goto nfuncexit;
}
break;
case 'g':
if (!strncmp_XP(vname, XPSTR("gtmp"), 4)) {
fvar = TasmotaGlobal.temperature_celsius;
goto exit;
}
if (!strncmp_XP(vname, XPSTR("ghum"), 4)) {
fvar = TasmotaGlobal.humidity;
goto exit;
}
if (!strncmp_XP(vname, XPSTR("gprs"), 4)) {
fvar = TasmotaGlobal.pressure_hpa;
goto exit;
}
if (!strncmp_XP(vname, XPSTR("gtopic"), 6)) {
if (sp) strlcpy(sp, SettingsText(SET_MQTT_GRP_TOPIC), glob_script_mem.max_ssize);
goto strexit;
}
#ifdef USE_WEBSEND_RESPONSE
if (!strncmp_XP(lp, XPSTR("gwr("), 4)) {
char delim[SCRIPT_MAX_SBSIZE];
lp = GetStringArgument(lp + 4, OPER_EQU, delim, 0);
SCRIPT_SKIP_SPACES
lp = GetNumericArgument(lp, OPER_EQU, &fvar, gv);
SCRIPT_SKIP_SPACES
char delimc = 0;
if (*lp != ')') {
// get delimiter
delimc = *lp;
lp++;
}
char rstring[SCRIPT_MAX_SBSIZE];
rstring[0] = 0;
int8_t index = fvar;
char *wd = ResponseData();
strlcpy(rstring, wd, glob_script_mem.max_ssize);
if (index) {
if (strlen(wd) && index) {
if (index < 0) {
// assume val=xxx
rstring[0] = 0;
char *cp = strstr(wd, delim);
if (cp) {
cp = strchr(cp, '=');
if (cp) {
cp++;
for (uint32_t cnt = 0; cnt < glob_script_mem.max_ssize; cnt++) {
if (*cp == ',' || *cp == ':' || *cp == 0) {
rstring[cnt] = 0;
break;
}
rstring[cnt] = *cp++;
}
}
}
} else {
// preserve mqtt_data
char *mqd = (char*)malloc(ResponseSize() + 2);
if (mqd) {
strlcpy(mqd, ResponseData(), ResponseSize());
wd = mqd;
char *lwd = wd;
while (index) {
char *cp = strstr(wd, delim);
if (cp) {
index--;
if (!index) {
// take this substring
*cp = 0;
strlcpy(rstring, lwd, glob_script_mem.max_ssize);
} else {
wd = cp + strlen(delim);
lwd = wd;
}
} else {
// fail or last string
strlcpy(rstring, lwd, glob_script_mem.max_ssize);
break;
}
}
if (delimc) {
char *xp = strchr(rstring, delimc);
if (xp) {
*xp = 0;
}
}
free(mqd);
}
}
}
}
if (sp) strlcpy(sp, rstring, glob_script_mem.max_ssize);
lp++;
len = 0;
goto strexit;
}
#endif
#ifdef SCRIPT_GET_HTTPS_JP
if (!strncmp_XP(lp, XPSTR("gjp("), 4)) {
char host[SCRIPT_MAX_SBSIZE];
lp = GetStringArgument(lp + 4, OPER_EQU, host, 0);
SCRIPT_SKIP_SPACES
char path[SCRIPT_MAX_SBSIZE];
lp = GetStringArgument(lp, OPER_EQU, path, 0);
fvar = call2https(host, path);
goto nfuncexit;
}
#endif //SCRIPT_GET_HTTPS_JP
#ifdef TESLA_POWERWALL
if (!strncmp_XP(lp, XPSTR("gpwl("), 5)) {
char path[SCRIPT_MAX_SBSIZE];
lp = GetStringArgument(lp + 5, OPER_EQU, path, 0);
fvar = call2pwl(path);
goto nfuncexit;
}
#endif
if (!strncmp_XP(lp, XPSTR("gi("), 3)) {
lp += 3;
if (!strncmp_XP(lp, XPSTR("epoch"), 5)) {
lp += 5;
*(uint32_t*)&fvar = UtcTime();
} else if (*lp == '0' && *(lp + 1) == 'x') {
lp += 2;
*(uint32_t*)&fvar = strtoll(lp, &lp, 16);
} else {
*(int32_t*)&fvar = strtol(lp, &lp, 10);
}
goto nfuncexit;
}
break;
case 'h':
if (!strncmp_XP(vname, XPSTR("hours"), 5)) {
fvar = RtcTime.hour;
goto exit;
}
if (!strncmp_XP(vname, XPSTR("heap"), 4)) {
fvar = ESP_getFreeHeap();
goto exit;
}
if (!strncmp_XP(lp, XPSTR("hni("), 4)) {
lp = GetNumericArgument(lp + 4, OPER_EQU, &fvar, gv);
uint8_t iob = *(uint32_t*)&fvar;
lp++;
len = 0;
if (sp) {
sprintf(sp, "%02x", iob);
}
goto strexit;
}
if (!strncmp_XP(lp, XPSTR("hn("), 3)) {
lp = GetNumericArgument(lp + 3, OPER_EQU, &fvar, gv);
if (fvar < 0 || fvar > 255) fvar = 0;
lp++;
len = 0;
if (sp) {
sprintf(sp, "%02x", (uint8_t)fvar);
}
goto strexit;
}
if (!strncmp_XP(lp, XPSTR("hxi("), 4)) {
lp = GetNumericArgument(lp + 4, OPER_EQU, &fvar, gv);
lp++;
len = 0;
if (sp) {
sprintf(sp, "%08x", *(uint32_t*)&fvar);
}
goto strexit;
}
if (!strncmp_XP(lp, XPSTR("hx("), 3)) {
lp = GetNumericArgument(lp + 3, OPER_EQU, &fvar, gv);
lp++;
len = 0;
if (sp) {
sprintf(sp, "%08x", (uint32_t)fvar);
}
goto strexit;
}
if (!strncmp_XP(lp, XPSTR("hd("), 3)) {
char str[SCRIPT_MAX_SBSIZE];
lp = GetStringArgument(lp + 3, OPER_EQU, str, 0);
fvar = strtol(str, NULL, 16);
goto nfuncexit;
}
if (!strncmp_XP(lp, XPSTR("hf("), 3)) {
char str[SCRIPT_MAX_SBSIZE];
lp = GetStringArgument(lp + 3, OPER_EQU, str, 0);
SCRIPT_SKIP_SPACES
if (strlen(str) != 8) {
fvar = -1;
} else {
uint8_t *ucp = (uint8_t*)&fvar;
uint8_t rflg = 0;
if (*lp == 'r') {
rflg = 1;
ucp += sizeof(TS_FLOAT);
lp++;
}
char substr[3];
char *cp = str;
for (uint32_t cnt = 0; cnt < 4; cnt++) {
substr[0] = *cp++;
substr[1] = *cp++;
substr[2] = 0;
if (!rflg) {
*ucp++ = strtol(substr, NULL, 16);
} else {
*--ucp = strtol(substr, NULL, 16);
}
}
}
goto nfuncexit;
}
if (!strncmp_XP(lp, XPSTR("http("), 5)) {
char *host;
lp = GetLongIString(lp + 5, &host);
if (host) {
char *request;
SCRIPT_SKIP_SPACES
lp = GetLongIString(lp, &request);
if (request) {
SCRIPT_SKIP_SPACES
char header[SCRIPT_MAX_SBSIZE];
header[0] = 0;
if (*lp != ')') {
lp = GetStringArgument(lp, OPER_EQU, header, 0);
}
fvar = http_req(host, header, request);
free(host);
free(request);
} else {
free(host);
}
}
goto nfuncexit;
}
#ifdef USE_LIGHT
if (!strncmp_XP(lp, XPSTR("hsvrgb("), 7)) {
lp = GetNumericArgument(lp + 7, OPER_EQU, &fvar, gv);
if (fvar < 0 || fvar > 360) fvar = 0;
SCRIPT_SKIP_SPACES
// arg2
TS_FLOAT fvar2;
lp = GetNumericArgument(lp, OPER_EQU, &fvar2, gv);
if (fvar2 < 0 || fvar2 > 100) fvar2 = 0;
SCRIPT_SKIP_SPACES
// arg3
TS_FLOAT fvar3;
lp = GetNumericArgument(lp, OPER_EQU, &fvar3, gv);
if (fvar3 < 0 || fvar3 > 100) fvar3 = 0;
fvar = HSVToRGB(fvar, fvar2, fvar3);
goto nfuncexit;
}
#endif //USE_LIGHT
#ifdef USE_HOMEKIT
if (!strncmp_XP(lp, XPSTR("hki("), 4)) {
if (!TasmotaGlobal.global_state.wifi_down) {
// erase nvs
lp = GetNumericArgument(lp + 4, OPER_EQU, &fvar, gv);
int32_t sel = fvar;
fvar = homekit_main(0, sel);
if (sel >= 98) {
glob_script_mem.homekit_running == false;
}
}
goto nfuncexit;
}
#endif
if (!strncmp_XP(lp, XPSTR("hstr("), 5)) {
char hstr[SCRIPT_MAX_SBSIZE];
lp = GetStringArgument(lp + 5, OPER_EQU, hstr, 0);
uint16_t cnt;
uint16_t slen = strlen(hstr);
slen &= 0xfffe;
for (cnt = 0; cnt < slen; cnt += 2) {
hstr[cnt / 2] = (script_hexnibble(hstr[cnt]) << 4) | script_hexnibble(hstr[cnt + 1] );
}
hstr[cnt / 2 + 1] = 0;
if (sp) strlcpy(sp, hstr, strlen(hstr));
len = 0;
lp++;
goto strexit;
}
break;
case 'i':
if (!strncmp_XP(lp, XPSTR("ins("), 4)) {
char s1[SCRIPT_MAX_SBSIZE];
lp = GetStringArgument(lp + 4, OPER_EQU, s1, 0);
SCRIPT_SKIP_SPACES
char s2[SCRIPT_MAX_SBSIZE];
lp = GetStringArgument(lp, OPER_EQU, s2, 0);
SCRIPT_SKIP_SPACES
char *cp = strstr(s1, s2);
if (cp) {
fvar = ((uint32_t)cp - (uint32_t)s1);
} else {
fvar = -1;
}
goto nfuncexit;
}
if (!strncmp_XP(lp, XPSTR("int("), 4)) {
lp = GetNumericArgument(lp + 4, OPER_EQU, &fvar, gv);
fvar = floor(fvar);
goto nfuncexit;
}
if (!strncmp_XP(lp, XPSTR("is("), 3)) {
lp = isargs(lp + 3, 0);
fvar = 0;
len = 0;
goto exit;
}
if (!strncmp_XP(lp, XPSTR("is1("), 4)) {
lp = isargs(lp + 4, 1);
fvar = 0;
len = 0;
goto exit;
}
if (!strncmp_XP(lp, XPSTR("is2("), 4)) {
lp = isargs(lp + 4, 2);
fvar = 0;
len = 0;
goto exit;
}
if (!strncmp_XP(lp, XPSTR("is["), 3)) {
lp = isget(lp + 3, sp, 0, gv);
len = 0;
goto strexit;
}
if (!strncmp_XP(lp, XPSTR("is1["), 4)) {
lp = isget(lp + 4, sp, 1, gv);
len = 0;
goto strexit;
}
if (!strncmp_XP(lp, XPSTR("is2["), 4)) {
lp = isget(lp + 4, sp, 2, gv);
len = 0;
goto strexit;
}
#ifdef USE_SCRIPT_I2C
if (!strncmp_XP(lp, XPSTR("ia"), 2)) {
uint8_t bus = 0;
lp += 2;
if (*lp == '2') {
lp++;
bus = 1;
}
lp = GetNumericArgument(lp + 1, OPER_EQU, &fvar, gv);
fvar = script_i2c(0, fvar, bus);
goto nfuncexit;
}
if (!strncmp_XP(lp, XPSTR("iw"), 2)) {
uint8_t bytes = 1;
lp += 2;
if (*lp != '(') {
bytes = *lp & 0xf;
if (bytes < 1) bytes = 1;
if (bytes > 4) bytes = 4;
lp++;
}
lp = GetNumericArgument(lp + 1, OPER_EQU, &fvar, gv);
SCRIPT_SKIP_SPACES
// arg2
TS_FLOAT fvar2;
lp = GetNumericArgument(lp, OPER_EQU, &fvar2, gv);
if (glob_script_mem.res_ivar) {
fvar = script_i2c(9 + bytes, fvar, *(uint32_t*)&fvar2);
} else {
fvar = script_i2c(9 + bytes, fvar, fvar2);
}
goto nfuncexit;
}
if (!strncmp_XP(lp, XPSTR("ir"), 2)) {
uint8_t bytes = 1;
lp += 2;
if (*lp != '(') {
bytes = *lp & 0xf;
if (bytes < 1) bytes = 1;
if (bytes > 4) bytes = 4;
lp++;
}
lp = GetNumericArgument(lp + 1, OPER_EQU, &fvar, gv);
if (glob_script_mem.res_ivar) {
uint32_t intres = script_i2c(2, fvar, bytes);
(*(uint32_t*)&fvar) = intres;
} else {
fvar = script_i2c(2, fvar, bytes);
}
goto nfuncexit;
}
if (!strncmp_XP(lp, XPSTR("in2("), 4)) {
// create new i2c port on bus 2
uint8_t sda;
uint8_t scl;
lp = GetNumericArgument(lp + 4, OPER_EQU, &fvar, gv);
sda = fvar;
lp = GetNumericArgument(lp, OPER_EQU, &fvar, gv);
scl = fvar;
fvar = script_i2c(14, sda, scl);
goto nfuncexit;
}
#endif // USE_SCRIPT_I2C
#ifdef ESP32
#ifdef USE_I2S_AUDIO
#if !defined(ESP_IDF_VERSION) || (ESP_IDF_VERSION < ESP_IDF_VERSION_VAL(5,0,0))
if (!strncmp_XP(lp, XPSTR("i2sw("), 5)) {
TS_FLOAT port;
lp = GetNumericArgument(lp + 5, OPER_EQU, &port, gv);
uint16_t alen = 0;
TS_FLOAT *fa = 0;
lp = get_array_by_name(lp, &fa, &alen, 0);
if (!fa) {
fvar = -1;
goto nfuncexit;
}
lp = GetNumericArgument(lp, OPER_EQU, &fvar, gv);
uint32_t bytes_written;
int16_t *wp = (int16_t*)special_malloc(alen * 2);
if (wp) {
for (uint16_t cnt = 0; cnt < alen; cnt++) {
wp[cnt] = fa[cnt];
}
i2s_write((i2s_port_t)port, (const uint8_t*)wp, fvar, &bytes_written, 0);
free(wp);
fvar = bytes_written;
}
goto nfuncexit;
}
#endif
#endif // USE_I2S_AUDIO
#endif // ESP32
if (!strncmp_XP(lp, XPSTR("i("), 2)) {
// convert to integer var
lp = GetNumericArgument(lp + 2, OPER_EQU, &fvar, gv);
*(uint32_t*)&fvar = fvar;
goto nfuncexit;
}
break;
#ifdef ESP32
#ifdef JPEG_PICTS
#ifdef STREAM_JPEG_PICTS
case 'j':
if (!strncmp_XP(lp, XPSTR("jpg("), 4)) {
lp = GetNumericArgument(lp + 4, OPER_EQU, &fvar, 0);
uint8_t selector = fvar;
switch (selector) {
case 0:
{
// start streaming
char url[SCRIPT_MAX_SBSIZE];
lp = GetStringArgument(lp, OPER_EQU, url, 0);
TS_FLOAT xp, yp, scale ;
lp = GetNumericArgument(lp, OPER_EQU, &xp, 0);
lp = GetNumericArgument(lp, OPER_EQU, &yp, 0);
lp = GetNumericArgument(lp, OPER_EQU, &scale, 0);
fvar = fetch_jpg(0, url, xp, yp, scale);
}
break;
case 1:
{
char file[SCRIPT_MAX_SBSIZE];
lp = GetStringArgument(lp, OPER_EQU, file, 0);
File fp;
FS *cfp = script_file_path(file);
fp = cfp->open(file, FS_FILE_READ);
if (fp) {
uint32_t size = fp.size();
uint8_t *mem = (uint8_t *)special_malloc(size);
if (mem) {
uint8_t res = fp.read(mem, size);
uint16_t xsize;
uint16_t ysize;
get_jpeg_size(mem, size, &xsize, &ysize);
xsize &= 0x7ff;
ysize &= 0x7ff;
fvar = (xsize << 11) | ysize;
free(mem);
fp.close();
}
}
}
break;
default:
// other cmds
fvar = fetch_jpg(selector, 0, 0, 0, 0);
break;
}
goto nfuncexit;
}
break;
#endif // STREAM_JPEG_PICTS
#endif // JPEG_PICTS
#endif // ESP32
#ifdef USE_KNX
case 'k':
if (!strncmp_XP(lp, XPSTR("knx("), 4)) {
TS_FLOAT type;
lp = GetNumericArgument(lp + 4, OPER_EQU, &type, gv);
lp = GetNumericArgument(lp, OPER_EQU, &fvar, gv);
SCRIPT_SKIP_SPACES
KnxSensor(type, fvar);
goto nfuncexit;
}
break;
#endif
case 'l':
if (!strncmp_XP(lp, XPSTR("lip"), 3)) {
if (sp) strlcpy(sp, (const char*)WiFi.localIP().toString().c_str(), glob_script_mem.max_ssize);
goto strexit;
}
#ifdef USE_SCRIPT_GLOBVARS
if (!strncmp_XP(vname, XPSTR("luip"), 4)) {
if (sp) strlcpy(sp, glob_script_mem.last_udp_ip.toString().c_str(), glob_script_mem.max_ssize);
goto strexit;
}
#endif //USE_SCRIPT_GLOBVARS
if (!strncmp_XP(vname, XPSTR("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;
}
#ifdef xUSE_LVGL
if (!strncmp_XP(lp, XPSTR("lvgl("), 5)) {
lp = GetNumericArgument(lp + 5, OPER_EQU, &fvar, gv);
SCRIPT_SKIP_SPACES
fvar = lvgl_test(&lp, fvar);
goto nfuncexit;
}
#endif // USE_LVGL
#ifdef USE_UFILESYS
#ifdef USE_SCRIPT_FATFS_EXT
if (!strncmp_XP(lp, XPSTR("lfw("), 4)) {
char path[SCRIPT_MAX_SBSIZE];
lp = GetStringArgument(lp + 4, OPER_EQU, path, 0);
char payload[SCRIPT_MAX_SBSIZE];
lp = GetStringArgument(lp, OPER_EQU, payload, 0);
lp = GetNumericArgument(lp, OPER_EQU, &fvar, 0);
// write to logfile
fvar = script_logfile_write(path, payload, fvar);
goto nfuncexit;
}
#endif // USE_SCRIPT_FATFS_EXT
#endif
#ifdef USE_ANGLE_FUNC
if (!strncmp_XP(lp, XPSTR("log("), 4)) {
lp = GetNumericArgument(lp + 4, OPER_EQU, &fvar, gv);
SCRIPT_SKIP_SPACES
fvar = log(fvar);
goto nfuncexit;
}
#endif
break;
case 'm':
if (!strncmp_XP(lp, XPSTR("med("), 4)) {
TS_FLOAT fvar1;
lp = GetNumericArgument(lp + 4, OPER_EQU, &fvar1, gv);
SCRIPT_SKIP_SPACES
// arg2
TS_FLOAT fvar2;
lp = GetNumericArgument(lp, OPER_EQU, &fvar2, gv);
fvar = DoMedian5(fvar1, fvar2);
goto nfuncexit;
}
#ifdef USE_ANGLE_FUNC
if (!strncmp_XP(lp, XPSTR("mpt("), 4)) {
lp = GetNumericArgument(lp + 4, OPER_EQU, &fvar, gv);
fvar = MeasurePulseTime(fvar);
goto nfuncexit;
}
#endif //USE_ANGLE_FUNC
if (!strncmp_XP(vname, XPSTR("micros"), 6)) {
fvar = micros();
goto exit;
}
if (!strncmp_XP(vname, XPSTR("millis"), 6)) {
fvar = millis();
goto exit;
}
if (!strncmp_XP(vname, XPSTR("mins"), 4)) {
fvar = RtcTime.minute;
goto exit;
}
if (!strncmp_XP(vname, XPSTR("month"), 5)) {
fvar = RtcTime.month;
goto exit;
}
if (!strncmp_XP(vname, XPSTR("mqttc"), 5)) {
if (TasmotaGlobal.rules_flag.mqtt_connected) {
TasmotaGlobal.rules_flag.mqtt_connected = 0;
fvar = 1;
}
goto exit;
}
if (!strncmp_XP(vname, XPSTR("mqttd"), 5)) {
if (TasmotaGlobal.rules_flag.mqtt_disconnected) {
TasmotaGlobal.rules_flag.mqtt_disconnected = 0;
fvar = 1;
}
goto exit;
}
if (!strncmp_XP(vname, XPSTR("mqtts"), 5)) {
fvar = !TasmotaGlobal.global_state.mqtt_down;
goto exit;
}
if (!strncmp_XP(lp, XPSTR("mp("), 3)) {
TS_FLOAT fvar1;
lp = GetNumericArgument(lp + 3, OPER_EQU, &fvar1, gv);
SCRIPT_SKIP_SPACES
while (*lp != ')') {
char *opp = lp;
lp++;
TS_FLOAT fvar2;
lp = GetNumericArgument(lp, OPER_EQU, &fvar2, gv);
SCRIPT_SKIP_SPACES
fvar = fvar1;
if ((*opp == '<' && fvar1 < fvar2) ||
(*opp == '>' && fvar1 > fvar2) ||
(*opp == '=' && fvar1 == fvar2)) {
if (*lp !='<' && *lp != '>' && *lp != '=' && *lp != ')' && *lp != SCRIPT_EOL) {
TS_FLOAT fvar3;
lp = GetNumericArgument(lp, OPER_EQU, &fvar3, gv);
SCRIPT_SKIP_SPACES
fvar = fvar3;
} else {
fvar = fvar2;
}
break;
}
while (*lp != '<' && *lp != '>' && *lp != '=' && *lp != ')' && *lp != SCRIPT_EOL) lp++;
}
len = 0;
goto exit;
}
#ifdef USE_BINPLUGINS
if (!strncmp_XP(lp, XPSTR("mo("), 3)) {
TS_FLOAT fvar1;
lp = GetNumericArgument(lp + 3, OPER_EQU, &fvar1, gv);
SCRIPT_SKIP_SPACES
char *rbuff = (char*)Plugin_Query(126, fvar1);
if (rbuff) {
if (sp) strlcpy(sp, rbuff, glob_script_mem.max_ssize);
free (rbuff);
} else {
if (sp) {
strcpy_P(sp, PSTR("not found"));
}
}
lp++;
len = 0;
goto strexit;
}
#endif //USE_BINPLUGINS
#ifdef ESP32_FAST_MUX
if (!strncmp_XP(lp, XPSTR("mux("), 4)) {
lp = GetNumericArgument(lp + 4, OPER_EQU, &fvar, gv);
if (fvar == 0) {
// start
lp = GetNumericArgument(lp, OPER_EQU, &fvar, gv);
uint16_t alen;
TS_FLOAT *fa;
lp = get_array_by_name(lp, &fa, &alen, 0);
if (!fa) {
fvar = -1;
goto nfuncexit;
}
TS_FLOAT falen;
lp = GetNumericArgument(lp, OPER_EQU, &falen, gv);
if (falen > alen) {
falen = alen;
}
fvar = fast_mux(0, fvar, fa, falen);
} else if (fvar == 1) {
// stop
fvar = fast_mux(1, 0, 0, 0);
} else if (fvar == 2) {
// set array
uint16_t alen;
TS_FLOAT *fa;
lp = get_array_by_name(lp, &fa, &alen, 0);
if (!fa) {
fvar = -1;
goto nfuncexit;
}
lp = GetNumericArgument(lp, OPER_EQU, &fvar, gv);
if (fvar > alen) {
fvar = alen;
}
fvar = fast_mux(2, 0, fa, fvar);
} else {
fvar = fast_mux(3, 0, 0, 0);
}
goto nfuncexit;
}
#endif
if (!strncmp_XP(vname, XPSTR("maca"), 4)) {
if (sp) strlcpy(sp, NetworkUniqueId().c_str(), glob_script_mem.max_ssize);
goto strexit;
}
break;
case 'n':
if (!strncmp_XP(vname, XPSTR("npwr"), 4)) {
fvar = TasmotaGlobal.devices_present;
goto exit;
}
break;
#ifdef USE_SCRIPT_ONEWIRE
case 'o':
if (!strncmp_XP(vname, XPSTR("ow("), 3)) {
lp = GetNumericArgument(lp + 3, OPER_EQU, &fvar, 0);
uint8_t sel = fvar;
SCRIPT_SKIP_SPACES
if (*lp != ')') {
lp = GetNumericArgument(lp, OPER_EQU, &fvar, 0);
}
fvar = script_ow(sel, fvar);
goto nfuncexit;
}
break;
#endif // USE_SCRIPT_ONEWIRE
case 'p':
if (!strncmp_XP(lp, XPSTR("pin["), 4)) {
// raw pin level
GetNumericArgument(lp + 4, OPER_EQU, &fvar, gv);
fvar = digitalRead((uint8_t)fvar);
// skip ] bracket
len++;
goto exit;
}
if (!strncmp_XP(lp, XPSTR("pn["), 3)) {
GetNumericArgument(lp + 3, OPER_EQU, &fvar, gv);
fvar = Pin(fvar);
// skip ] bracket
len++;
goto exit;
}
#if defined(ESP32) && defined(USE_I2S_AUDIO)
if (!strncmp_XP(lp, XPSTR("pl("), 3)) {
char path[SCRIPT_MAX_SBSIZE];
lp = GetStringArgument(lp + 3, OPER_EQU, path, 0);
#if !defined(ESP_IDF_VERSION) || (ESP_IDF_VERSION < ESP_IDF_VERSION_VAL(5,0,0))
Play_mp3(path);
#else
I2SPlayMp3(path);
#endif
len++;
len = 0;
goto exit;
}
#endif // USE_I2S_AUDIO
if (!strncmp_XP(lp, XPSTR("pd["), 3)) {
GetNumericArgument(lp + 3, OPER_EQU, &fvar, gv);
uint8_t gpiopin = fvar;
if ((gpiopin < nitems(TasmotaGlobal.gpio_pin)) && (TasmotaGlobal.gpio_pin[gpiopin] > 0)) {
fvar = TasmotaGlobal.gpio_pin[gpiopin];
// skip ] bracket
len++;
goto exit;
}
fvar = 999;
goto exit;
}
#ifdef ESP32
if (!strncmp_XP(vname, XPSTR("pheap"), 5)) {
fvar = ESP.getFreePsram();
goto exit;
}
#endif //ESP32
if (!strncmp_XP(vname, XPSTR("prefix1"), 7)) {
if (sp) strlcpy(sp, SettingsText(SET_MQTTPREFIX1), glob_script_mem.max_ssize);
goto strexit;
}
if (!strncmp_XP(vname, XPSTR("prefix2"), 7)) {
if (sp) strlcpy(sp, SettingsText(SET_MQTTPREFIX2), glob_script_mem.max_ssize);
goto strexit;
}
if (!strncmp_XP(vname, XPSTR("prefix3"), 7)) {
if (sp) strlcpy(sp, SettingsText(SET_MQTTPREFIX3), glob_script_mem.max_ssize);
goto strexit;
}
if (!strncmp_XP(lp, XPSTR("pow("), 4)) {
// arg1
TS_FLOAT fvar1;
lp = GetNumericArgument(lp + 4, OPER_EQU, &fvar1, gv);
SCRIPT_SKIP_SPACES
// arg2
TS_FLOAT fvar2;
lp = GetNumericArgument(lp, OPER_EQU, &fvar2, gv);
fvar = FastPrecisePowf(fvar1, fvar2);
goto nfuncexit;
}
if (!strncmp_XP(lp, XPSTR("pwr["), 4)) {
GetNumericArgument(lp + 4, OPER_EQU, &fvar, gv);
uint8_t index = fvar;
if (index <= TasmotaGlobal.devices_present) {
fvar = bitRead(TasmotaGlobal.power, index - 1);
} else {
fvar = -1;
}
len += 1;
goto exit;
}
if (!strncmp_XP(lp, XPSTR("pc["), 3)) {
GetNumericArgument(lp + 3, OPER_EQU, &fvar, gv);
uint8_t index = fvar;
if (index < 1 || index > MAX_COUNTERS) index = 1;
fvar = RtcSettings.pulse_counter[index - 1];
len += 1;
goto exit;
}
#if defined(USE_PLAY_WAVE) && defined(USE_UFILESYS)
if (!strncmp_XP(lp, XPSTR("pwav("), 5)) {
char str[SCRIPT_MAX_SBSIZE];
lp = GetStringArgument(lp + 5, OPER_EQU, str, 0);
fvar = play_wave(str);
goto nfuncexit;
}
#endif // USE_PLAY_WAVE
break;
case 'r':
if (!strncmp_XP(vname, XPSTR("ram"), 3)) {
fvar = glob_script_mem.script_mem_size + (glob_script_mem.script_size) + (PMEM_SIZE);
goto exit;
}
if (!strncmp_XP(lp, XPSTR("rnd("), 4)) {
// tasmota switch state
GetNumericArgument(lp + 4, OPER_EQU, &fvar, gv);
if (fvar<0) {
randomSeed(-fvar);
fvar = 0;
} else {
fvar = random(fvar);
}
// skip ] bracket
len++;
goto exit;
}
if (!strncmp_XP(lp, XPSTR("rma("), 4)) {
uint16_t alen;
TS_FLOAT *array;
lp = get_array_by_name(lp + 4, &array, &alen, 0);
char str[SCRIPT_MAX_SBSIZE];
lp = GetStringArgument(lp, OPER_EQU, str, 0);
uint32_t raddr = strtol(str, NULL, 16);
raddr &= 0xfffffffc;
const uint32_t *addr = (const uint32_t*)raddr;
lp = GetNumericArgument(lp, OPER_EQU, &fvar, gv);
uint32_t mlen = fvar;
mlen &= 0xfffffffc;
uint32_t *lp = (uint32_t*)special_malloc(mlen);
if (lp) {
for (uint32_t cnt = 0; cnt < mlen/4; cnt++) {
lp[cnt] = addr[cnt];
}
//esp_flash_read();
uint8_t *ucp = (uint8_t*)lp;
for (uint32_t cnt = 0; cnt < mlen; cnt++) {
array[cnt] = ucp[cnt];
}
free(lp);
fvar = 0;
} else {
fvar = -1;
}
goto nfuncexit;
}
/*
#if defined(ESP32) && (defined(USE_I2S_AUDIO) || defined(USE_M5STACK_CORE2) || defined(ESP32S3_BOX) || defined(USE_I2S_MIC))
if (!strncmp_XP(lp, XPSTR("rec("), 4)) {
char str[SCRIPT_MAX_SBSIZE];
lp = GetStringArgument(lp + 4, OPER_EQU, str, 0);
//SCRIPT_SKIP_SPACES
//lp = GetNumericArgument(lp, OPER_EQU, &fvar, gv);
fvar = i2s_record_shine(str);
len++;
goto exit;
}
#endif
*/
if (!strncmp_XP(lp, XPSTR("rr("), 3)) {
lp += 4;
len = 0;
const char *cp = GetResetReason().c_str();
if (sp) {
if (cp) {
strlcpy(sp, cp, glob_script_mem.max_ssize);
} else {
strlcpy(sp, "-", glob_script_mem.max_ssize);
}
}
goto strexit;
}
if (!strncmp_XP(lp, XPSTR("rrsn"), 4)) {
fvar = ESP_ResetInfoReason();
goto exit;
}
if (!strncmp_XP(lp, XPSTR("rax"), 3)) {
TasmotaGlobal.no_autoexec = 0;
goto exit;
}
#ifdef USE_ANGLE_FUNC
if (!strncmp_XP(lp, XPSTR("rad("), 4)) {
GetNumericArgument(lp + 4, OPER_EQU, &fvar, gv);
fvar = fvar * 3.1415916535f / 180.0f;
goto nfuncexit;
}
if (!strncmp_XP(lp, XPSTR("round("), 6)) {
lp = GetNumericArgument(lp + 6, OPER_EQU, &fvar, gv);
fvar = floorf(fvar);
goto nfuncexit;
}
#endif
if (!strncmp_XP(lp, XPSTR("rwd("), 4)) {
// get and return integer
lp = GetNumericArgument(lp + 4, OPER_EQU, &fvar, gv);
uint32_t ivar = *(uint32_t*)&fvar;
ivar = *(uint32_t*)ivar;
*(uint32_t*)&fvar = ivar;
goto nfuncexit;
}
break;
case 's':
if (!strncmp_XP(vname, XPSTR("secs"), 4)) {
fvar = RtcTime.second;
goto exit;
}
if (!strncmp_XP(lp, XPSTR("sw["), 3)) {
// tasmota switch state
GetNumericArgument(lp + 3, OPER_EQU, &fvar, gv);
fvar = SwitchLastState((uint32_t)fvar);
// skip ] bracket
len++;
goto exit;
}
if (!strncmp_XP(vname, XPSTR("stack"), 5)) {
fvar = GetStack();
goto exit;
}
#ifdef ESP32
if (!strncmp_XP(vname, XPSTR("stkwm"), 5)) {
fvar = uxTaskGetStackHighWaterMark(NULL);
goto exit;
}
#endif // ESP32
if (!strncmp_XP(vname, XPSTR("slen"), 4)) {
fvar = strlen(glob_script_mem.script_ram);
goto exit;
}
if (!strncmp_XP(lp, XPSTR("sl("), 3)) {
char str[SCRIPT_MAX_SBSIZE];
lp = GetStringArgument(lp + 3, OPER_EQU, str, 0);
fvar = strlen(str);
goto nfuncexit;
}
if (!strncmp_XP(lp, XPSTR("sb("), 3)) {
char str[SCRIPT_MAX_SBSIZE];
lp = GetStringArgument(lp + 3, OPER_EQU, str, 0);
SCRIPT_SKIP_SPACES
TS_FLOAT fvar1;
lp = GetNumericArgument(lp, OPER_EQU, &fvar1, gv);
SCRIPT_SKIP_SPACES
TS_FLOAT fvar2;
lp = GetNumericArgument(lp, OPER_EQU, &fvar2, gv);
lp++;
len = 0;
if (fvar1 < 0) {
fvar1 = strlen(str) + fvar1;
}
if (sp) {
memcpy(sp, &str[(uint8_t)fvar1], (uint8_t)fvar2);
sp[(uint8_t)fvar2] = '\0';
}
goto strexit;
}
if (!strncmp_XP(lp, XPSTR("st("), 3)) {
char str[SCRIPT_MAX_SBSIZE];
lp = GetStringArgument(lp + 3, OPER_EQU, str, 0);
SCRIPT_SKIP_SPACES
char token[2];
if (*lp == '\'') {
lp++;
lp = Get_esc_char(lp, token);
lp++;
} else {
token[0] = *lp++;
}
token[1] = 0;
SCRIPT_SKIP_SPACES
lp = GetNumericArgument(lp, OPER_EQU, &fvar, gv);
SCRIPT_SKIP_SPACES
// skip ) bracket
lp++;
len = 0;
if (sp) {
// get stringtoken
char *st = strtok(str, token);
if (!st) {
*sp = 0;
} else {
if (fvar > 0) {
for (uint8_t cnt = 1; cnt <= fvar; cnt++) {
if (cnt == fvar) {
strcpy(sp, st);
break;
}
st = strtok(NULL, token);
if (!st) {
*sp = 0;
break;
}
}
} else {
// get string before token
fvar = -fvar;
char cstr[SCRIPT_MAX_SBSIZE];
strcpy(cstr, str);
for (uint8_t cnt = 1; cnt <= fvar; cnt++) {
if (cnt == fvar - 1) {
*st = 0;
strcpy(sp, cstr);
break;
}
st = strtok(NULL, token);
if (!st) {
*sp = 0;
break;
}
strcat(cstr, token);
strcat(cstr, st);
}
}
}
}
goto strexit;
}
if (!strncmp_XP(lp, XPSTR("s("), 2)) {
lp += 2;
uint8_t dprec = glob_script_mem.script_dprec;
uint8_t lzero = glob_script_mem.script_lzero;
char dsep = glob_script_mem.script_sepc;
if (isdigit(*lp)) {
if (*(lp + 1) == '.' || *(lp + 1) == ',') {
dsep = *(lp + 1);
lzero = *lp & 0xf;
lp += 2;
dprec = *lp & 0xf;
lp++;
} else {
dprec = *lp & 0xf;
lp++;
}
}
bool isint = false;
if (*lp != '(') {
isint = is_int_var(lp);
}
lp = GetNumericArgument(lp, OPER_EQU, &fvar, gv);
char str[SCRIPT_MAX_SBSIZE];
if (isint) {
double dvar = *(int32_t*)&fvar;
f2char(dvar, dprec, lzero, str, dsep);
} else {
f2char(fvar, dprec, lzero, str, dsep);
}
if (sp) strlcpy(sp, str, glob_script_mem.max_ssize);
lp++;
len = 0;
goto strexit;
}
#if defined(ESP32) && (defined(USE_I2S_AUDIO) || defined(USE_TTGO_WATCH) || defined(USE_M5STACK_CORE2))
if (!strncmp_XP(lp, XPSTR("say("), 4)) {
char text[SCRIPT_MAX_SBSIZE];
lp = GetStringArgument(lp + 4, OPER_EQU, text, 0);
#if !defined(ESP_IDF_VERSION) || (ESP_IDF_VERSION < ESP_IDF_VERSION_VAL(5,0,0))
Say(text);
#else
//CmndI2SSay(text);
#endif
len++;
len = 0;
goto exit;
}
#endif // USE_I2S_AUDIO
#ifdef ESP32
if (!strncmp_XP(lp, XPSTR("sf("), 3)) {
lp = GetNumericArgument(lp + 3, OPER_EQU, &fvar, gv);
if (fvar < 80) fvar = 80;
if (fvar > 240) fvar = 240;
setCpuFrequencyMhz(fvar);
fvar = getCpuFrequencyMhz();
goto nfuncexit;
}
#endif //ESP32
#ifdef USE_TTGO_WATCH
if (!strncmp_XP(lp, XPSTR("slp("), 4)) {
lp = GetNumericArgument(lp + 4, OPER_EQU, &fvar, gv);
SCRIPT_SKIP_SPACES
TTGO_Sleep(fvar);
goto nfuncexit;
}
#endif //USE_TTGO_WATCH
#if defined(USE_TIMERS) && defined(USE_SUNRISE)
if (!strncmp_XP(vname, XPSTR("sunrise"), 7)) {
fvar = SunMinutes(0);
goto exit;
}
if (!strncmp_XP(vname, XPSTR("sunset"), 6)) {
fvar = SunMinutes(1);
goto exit;
}
#endif //USE_TIMERS
#ifdef USE_SHUTTER
if (!strncmp_XP(lp, XPSTR("sht["), 4)) {
GetNumericArgument(lp + 4, OPER_EQU, &fvar, gv);
uint8_t index = fvar;
if (index <= TasmotaGlobal.shutters_present) {
fvar = Settings->shutter_position[index - 1];
} else {
fvar = -1;
}
len += 1;
goto exit;
}
#endif //USE_SHUTTER
#ifdef USE_ANGLE_FUNC
if (!strncmp_XP(lp, XPSTR("sin("), 4)) {
lp = GetNumericArgument(lp + 4, OPER_EQU, &fvar, gv);
fvar = sinf(fvar);
goto nfuncexit;
}
if (!strncmp_XP(lp, XPSTR("sqrt("), 5)) {
lp = GetNumericArgument(lp + 5, OPER_EQU, &fvar, gv);
fvar = sqrtf(fvar);
goto nfuncexit;
}
#endif //USE_ANGLE_FUNC
#if (defined(USE_SML_M) || defined(USE_BINPLUGINS)) && defined(USE_SML_SCRIPT_CMD)
if (!strncmp_XP(lp, XPSTR("sml["), 4)) {
lp = GetNumericArgument(lp + 4, OPER_EQU, &fvar, gv);
SCRIPT_SKIP_SPACES
SML_TABLE *smlp = get_sml_table();
if (smlp) {
fvar = smlp->SML_GetVal(fvar);
} else {
fvar = 0;
}
goto nfuncexit;
}
if (!strncmp_XP(lp, XPSTR("smls["), 5)) {
lp = GetNumericArgument(lp + 5, OPER_EQU, &fvar, gv);
SCRIPT_SKIP_SPACES
lp++;
len = 0;
SML_TABLE *smlp = get_sml_table();
if (smlp) {
if (fvar > 0) {
if (sp) strlcpy(sp, smlp->SML_GetSVal(fvar), glob_script_mem.max_ssize);
} else {
char sbuff[SCRIPT_MAX_SBSIZE];
fvar = fabs(fvar);
if (fvar < 1) {
fvar = 1;
}
dtostrfd(smlp->SML_GetVal(fvar), glob_script_mem.script_dprec, sbuff);
if (sp) strlcpy(sp, sbuff, glob_script_mem.max_ssize);
}
}
goto strexit;
}
if (!strncmp_XP(lp, XPSTR("sml("), 4)) {
TS_FLOAT fvar1;
lp = GetNumericArgument(lp + 4, OPER_EQU, &fvar1, gv);
SCRIPT_SKIP_SPACES
TS_FLOAT fvar2;
lp = GetNumericArgument(lp, OPER_EQU, &fvar2, gv);
SCRIPT_SKIP_SPACES
SML_TABLE *smlp = get_sml_table();
if (smlp) {
if (fvar2 == 0) {
TS_FLOAT fvar3;
lp = GetNumericArgument(lp, OPER_EQU, &fvar3, gv);
fvar = smlp->SML_SetBaud(fvar1, fvar3);
} else if (fvar2 == 1) {
char str[SCRIPT_MAX_SBSIZE];
lp = GetStringArgument(lp, OPER_EQU, str, 0);
fvar = smlp->SML_Write(fvar1, str);
} else if (fvar2 == 2) {
char str[SCRIPT_MAX_SBSIZE];
str[0] = 0;
fvar = smlp->SML_Read(fvar1, str, SCRIPT_MAX_SBSIZE);
if (sp) strlcpy(sp, str, glob_script_mem.max_ssize);
lp++;
len = 0;
goto strexit;
} else if (fvar2 == 3) {
uint8_t vtype;
struct T_INDEX ind;
lp = isvar(lp, &vtype, &ind, 0, 0, 0);
if (vtype != VAR_NV) {
// found variable as result
if (vtype == NUM_RES || (vtype & STYPE) == 0) {
// numeric result
fvar = -1;
} else {
// string result
uint16_t sindex = glob_script_mem.type[ind.index].index;
char *cp = glob_script_mem.glob_snp + (sindex * glob_script_mem.max_ssize);
fvar = smlp->SML_Set_WStr(fvar1, cp);
}
} else {
fvar = -99;
}
} else {
fvar = smlp->sml_status(fvar1);
}
}
goto nfuncexit;
}
if (!strncmp_XP(vname, XPSTR("smlj"), 4)) {
SML_TABLE *smlp = get_sml_table();
if (smlp) {
fvar = smlp->SML_SetOptions(0); // sml_options;
}
tind->index = SML_JSON_ENABLE;
goto exit_settable;
}
if (!strncmp_XP(lp, XPSTR("smld("), 5)) {
lp = GetNumericArgument(lp + 5, OPER_EQU, &fvar, gv);
if (fvar < 1) fvar = 1;
SML_TABLE *smlp = get_sml_table();
if (smlp) {
smlp->SML_Decode(fvar - 1);
}
goto nfuncexit;
}
if (!strncmp_XP(lp, XPSTR("smls("), 5)) {
TS_FLOAT meter;
lp = GetNumericArgument(lp + 5, OPER_EQU, &meter, gv);
if (meter < 1) meter = 1;
lp = GetNumericArgument(lp, OPER_EQU, &fvar, gv);
SML_TABLE *smlp = get_sml_table();
if (smlp) {
smlp->SML_Shift_Num(meter - 1, fvar);
}
goto nfuncexit;
}
if (!strncmp_XP(lp, XPSTR("smlv["), 5)) {
lp = GetNumericArgument(lp + 5, OPER_EQU, &fvar, gv);
SML_TABLE *smlp = get_sml_table();
if (smlp) {
fvar = smlp->sml_getv(fvar);
}
goto nfuncexit;
}
#endif //USE_SML_M
#ifdef USE_SCRIPT_SERIAL
if (!strncmp_XP(lp, XPSTR("so("), 3)) {
TS_FLOAT rxpin, txpin, br;
lp = GetNumericArgument(lp + 3, OPER_EQU, &rxpin, gv);
SCRIPT_SKIP_SPACES
lp = GetNumericArgument(lp, OPER_EQU, &txpin, gv);
SCRIPT_SKIP_SPACES
lp = GetNumericArgument(lp, OPER_EQU, &br, gv);
SCRIPT_SKIP_SPACES
uint32_t sconfig = TS_SERIAL_8N1;
if (*lp != ')') {
// serial options, must be 3 chars 8N1, 7E2 etc
uint8_t bits = *lp++ & 0xf;
uint8_t parity = 0;
if (*lp == 'E') parity = 1;
if (*lp == 'O') parity = 2;
lp++;
uint8_t stopb = (*lp++ & 0x3) - 1;
sconfig = (bits - 5) + (parity * 8) + stopb * 4;
}
SCRIPT_SKIP_SPACES
// check for rec buffer
TS_FLOAT rxbsiz = 128;
if (*lp != ')') {
lp = GetNumericArgument(lp, OPER_EQU, &rxbsiz, gv);
}
fvar = -1;
if (glob_script_mem.sp) {
fvar == -1;
} else {
if (Is_gpio_used(rxpin) || Is_gpio_used(txpin)) {
AddLog(LOG_LEVEL_INFO, PSTR("SCR: warning, pins already used"));
}
glob_script_mem.sp = new TasmotaSerial(rxpin, txpin, HARDWARE_FALLBACK, 0, rxbsiz);
if (glob_script_mem.sp) {
fvar = glob_script_mem.sp->begin(br, ConvertSerialConfig(sconfig));
uint32_t savc = Settings->serial_config;
//setRxBufferSize(TMSBSIZ);
Settings->serial_config = sconfig;
uint8_t uart = 0;
#ifdef ESP32
uart = glob_script_mem.sp->getUart();
#endif
AddLog(LOG_LEVEL_INFO, PSTR("SCR: Serial port set to %s %d bit/s at rx=%d tx=%d rbu=%d uart=%d"), GetSerialConfig().c_str(), (uint32_t)br, (uint32_t)rxpin, (uint32_t)txpin, (uint32_t)rxbsiz, uart);
Settings->serial_config = savc;
if (glob_script_mem.sp->hardwareSerial()) {
ClaimSerial();
}
} else {
fvar = -2;
}
}
goto nfuncexit;
}
if (!strncmp_XP(lp, XPSTR("sw("), 3)) {
char str[SCRIPT_MAX_SBSIZE];
lp = GetStringArgument(lp + 3, OPER_EQU, str, 0);
fvar = -1;
if (glob_script_mem.sp) {
glob_script_mem.sp->write(str, strlen(str));
fvar = 0;
}
goto nfuncexit;
}
if (!strncmp_XP(lp, XPSTR("swb("), 4)) {
lp = GetNumericArgument(lp + 4, OPER_EQU, &fvar, 0);
if (glob_script_mem.sp) {
glob_script_mem.sp->write((uint8_t)fvar);
fvar = 0;
}
goto nfuncexit;
}
if (!strncmp_XP(lp, XPSTR("sa("), 3)) {
fvar = -1;
if (glob_script_mem.sp) {
fvar = glob_script_mem.sp->available();
}
goto nfuncexit;
}
if (!strncmp_XP(lp, XPSTR("srb("), 3)) {
fvar = -1;
if (glob_script_mem.sp) {
fvar = glob_script_mem.sp->available();
if (fvar > 0) {
fvar = glob_script_mem.sp->read();
}
}
goto nfuncexit;
}
if (!strncmp_XP(lp, XPSTR("sp("), 3)) {
fvar = -1;
if (glob_script_mem.sp) {
fvar = glob_script_mem.sp->available();
if (fvar > 0) {
fvar = glob_script_mem.sp->peek();
}
}
goto nfuncexit;
}
if (!strncmp_XP(lp, XPSTR("sr("), 3)) {
uint16_t size = glob_script_mem.max_ssize;
char str[SCRIPT_MAX_SBSIZE];
memset(str, 0, size);
lp += 3;
uint8_t runt = 0;
if (*lp != ')') {
// read until
lp = GetNumericArgument(lp, OPER_EQU, &fvar, 0);
runt = fvar;
}
fvar = -1;
uint8_t flg = 0;
if (glob_script_mem.sp) {
for (uint16_t index = 0; index < (size - 1); index++) {
if (!glob_script_mem.sp->available()) {
flg = 1;
break;
}
uint8_t iob = glob_script_mem.sp->read();
if (iob == runt) {
flg = 2;
break;
}
str[index] = iob;
}
}
//AddLog(LOG_LEVEL_INFO, PSTR(">>: %d - %d - %d - %s"), runt, flg, index, str);
lp++;
len = 0;
if (sp) strlcpy(sp, str, size);
goto strexit;;
}
if (!strncmp_XP(lp, XPSTR("sc("), 3)) {
fvar = -1;
if (Script_Close_Serial()) {
fvar = 0;
}
lp += 4;
len = 0;
goto exit;
}
// serial write array
if (!strncmp_XP(lp, XPSTR("swa("), 4)) {
fvar = -1;
uint8_t modbus_buffer[64];
uint16_t alen;
TS_FLOAT *array;
lp = get_array_by_name(lp + 4, &array, &alen, 0);
SCRIPT_SKIP_SPACES
if (!array) {
goto exit;
}
TS_FLOAT len;
lp = GetNumericArgument(lp, OPER_EQU, &len, 0);
SCRIPT_SKIP_SPACES
if (len > alen) len = alen;
if (len < 1) len = 1;
if (*lp != ')') {
TS_FLOAT opt;
lp = GetNumericArgument(lp, OPER_EQU, &opt, 0);
SCRIPT_SKIP_SPACES
uint16_t opts = opt;
// calc modbus checksum
uint16_t meter = opts >> 4;
opts &= 3;
#ifdef USE_SML_M
// calc modbus checksum
if (len > sizeof(modbus_buffer)) len = sizeof(modbus_buffer);
for (uint32_t cnt = 0; cnt < len; cnt++) {
modbus_buffer[cnt] = *array++;
}
uint16_t crc = 0xffff;
uint8_t *mbp = modbus_buffer;
if (opts == 1) {
mbp++;
crc = 0;
}
uint8_t index = 6;
crc = MBUS_calculateCRC(mbp, index, crc);
if (opts == 1) {
mbp[index] = highByte(crc);
mbp[index + 1] = lowByte(crc);
} else {
mbp[index] = lowByte(crc);
mbp[index + 1] = highByte(crc);
}
#define SCRIPT_HSTR_LEN 32
#ifdef USE_SML_SCRIPT_CMD
if (meter) {
if (!glob_script_mem.hstr) {
glob_script_mem.hstr = (char*)malloc(SCRIPT_HSTR_LEN);
}
if (len > SCRIPT_HSTR_LEN/2) {
len = SCRIPT_HSTR_LEN/2;
}
char *cp = glob_script_mem.hstr;
*cp++ = 'r';
uint8_t *mbp = modbus_buffer;
for (uint32_t cnt = 0; cnt < len; cnt++) {
sprintf(cp,"%02x",*mbp++);
cp += 2;
}
//01 06 00 03 00 20 78 12 00 02 81 c1
SML_Set_WStr(meter, glob_script_mem.hstr);
}
#endif
#endif
if (!meter) {
uint8_t *ucp = modbus_buffer;
if (glob_script_mem.sp) {
while (len) {
glob_script_mem.sp->write(*ucp);
//AddLog(LOG_LEVEL_INFO,PSTR(">> %02x"),*ucp);
ucp++;
len--;
}
}
}
} else {
if (glob_script_mem.sp) {
while (len) {
glob_script_mem.sp->write((uint8_t)*array++);
len--;
}
}
}
goto nfuncexit;
}
// serial read array
if (!strncmp_XP(lp, XPSTR("sra("), 4)) {
fvar = -1;
if (glob_script_mem.sp) {
uint16_t alen;
TS_FLOAT *array = 0;
lp = get_array_by_name(lp + 4, &array, &alen, 0);
SCRIPT_SKIP_SPACES
if (!array) {
goto exit;
}
TS_FLOAT opts = -1;
if (*lp != ')') {
lp = GetNumericArgument(lp, OPER_EQU, &opts, 0);
SCRIPT_SKIP_SPACES
// calc modbus checksum
}
uint16_t index = 0;
for (index = 0; index < alen; index++) {
if (!glob_script_mem.sp->available()) {
break;
}
array[index] = glob_script_mem.sp->read();
}
fvar = index;
#ifdef USE_SML_M
if (index == 8 || opts >= 0) {
uint8_t *modbus_response = (uint8_t*)special_malloc(alen);
if (modbus_response) {
for (uint8_t cnt = 0; cnt < alen; cnt++) {
modbus_response[cnt] = array[cnt];
}
uint16_t crc = 0xffff;
uint8_t *mbp = modbus_response;
if (opts == 1) {
mbp++;
crc = 0;
}
crc = MBUS_calculateCRC(mbp, mbp[2] + 3, crc);
if (opts == 1) {
if ((mbp[mbp[2] + 3] != highByte(crc)) || (mbp[mbp[2] + 4] != lowByte(crc))) {
fvar = -2;
}
} else {
if ((mbp[mbp[2] + 3] != lowByte(crc)) || (mbp[mbp[2] + 4] != highByte(crc))) {
fvar = -2;
}
}
free(modbus_response);
}
}
#endif
}
goto nfuncexit;
}
#ifdef USE_SML_M
// serial modbus write float, 010404ffffffffxxxx
if (!strncmp_XP(lp, XPSTR("smw("), 4)) {
fvar = -1;
if (glob_script_mem.sp) {
TS_FLOAT addr;
lp = GetNumericArgument(lp + 4, OPER_EQU, &addr, 0);
SCRIPT_SKIP_SPACES
TS_FLOAT mode;
lp = GetNumericArgument(lp, OPER_EQU, &mode, 0);
SCRIPT_SKIP_SPACES
uint16_t alend;
TS_FLOAT *fpd;
lp = get_array_by_name(lp, &fpd, &alend, 0);
SCRIPT_SKIP_SPACES
TS_FLOAT nvals;
lp = GetNumericArgument(lp, OPER_EQU, &nvals, 0);
SCRIPT_SKIP_SPACES
if (nvals > alend) {
nvals = alend;
}
uint8_t modbus_response[128];
uint8_t mb_index = 0;
modbus_response[mb_index] = addr;
mb_index++;
modbus_response[mb_index] = 4;
mb_index++;
if (mode == 0) {
modbus_response[mb_index] = 2 * nvals;
} else {
modbus_response[mb_index] = 4 * nvals;
}
mb_index++;
for (uint16_t cnt = 0; cnt < nvals; cnt++) {
TS_FLOAT fpval = *fpd++;
uint32_t ui32 = fpval;
uint32_t uval, *uvp;
uvp = &uval;
*(uvp) = *(uint32_t*)&fpval;
switch ((uint8_t)mode) {
case 0:
// UINT16
modbus_response[mb_index] = (ui32 >> 16);
mb_index++;
modbus_response[mb_index] = (ui32 >> 0);
mb_index++;
break;
case 1:
// UINT32
modbus_response[mb_index] = (ui32 >> 24);
mb_index++;
modbus_response[mb_index] = (ui32 >> 16);
mb_index++;
modbus_response[mb_index] = (ui32 >> 8);
mb_index++;
modbus_response[mb_index] = (ui32 >> 0);
mb_index++;
break;
default:
// float
modbus_response[mb_index] = (uval >> 24);
mb_index++;
modbus_response[mb_index] = (uval >> 16);
mb_index++;
modbus_response[mb_index] = (uval >> 8);
mb_index++;
modbus_response[mb_index] = (uval >> 0);
mb_index++;
break;
}
}
// calc modbus checksum
uint16_t crc = MBUS_calculateCRC(modbus_response, modbus_response[2] + 3, 0xFFFF);
modbus_response[modbus_response[2] + 3] = lowByte(crc);
modbus_response[modbus_response[2] + 4] = highByte(crc);
glob_script_mem.sp->write(modbus_response, mb_index + 2);
fvar = 0;
#if 0
// show response
char hexbuff[256];
sprintf(hexbuff,"%02x%02x%02x - ",modbus_response[0],modbus_response[1],modbus_response[2]);
for (uint16_t cnt = 3; cnt < mb_index; cnt+=4) {
char cbuff[32];
sprintf(cbuff," %02x%02x%02x%02x",modbus_response[cnt],modbus_response[cnt+1],modbus_response[cnt+2],modbus_response[cnt+3]);
strcat(hexbuff,cbuff);
}
char cbuff[32];
sprintf(cbuff," - %02x%02x",modbus_response[mb_index],modbus_response[mb_index+1]);
strcat(hexbuff,cbuff);
AddLog(LOG_LEVEL_INFO,PSTR("SCR: >> %s"),hexbuff);
#endif
}
lp++;
len = 0;
goto exit;
}
#endif
#endif //USE_SCRIPT_SERIAL
if (!strncmp_XP(lp, XPSTR("sas("), 4)) {
lp = GetNumericArgument(lp + 4, OPER_EQU, &fvar, 0);
if (fvar < 1 || fvar > 3) {
fvar = 1;
}
script_sort_string_array(fvar - 1);
goto nfuncexit;
}
#ifdef USE_SCRIPT_SPI
if (!strncmp_XP(lp, XPSTR("spi("), 4)) {
lp = GetNumericArgument(lp + 4, OPER_EQU, &fvar, 0);
uint8_t sel = fvar;
uint8_t index;
switch (sel) {
case 0:
// set bus pins
lp = GetNumericArgument(lp , OPER_EQU, &fvar, 0);
glob_script_mem.spi.sclk = fvar;
if (glob_script_mem.spi.sclk < 0) {
// attach to existing Tasmota SPI
lp = GetNumericArgument(lp , OPER_EQU, &fvar, 0);
fvar *= 1000000;
glob_script_mem.spi.settings = SPISettings(fvar, MSBFIRST, SPI_MODE0);
if (TasmotaGlobal.spi_enabled) {
#ifdef ESP8266
SPI.begin();
glob_script_mem.spi.spip = &SPI;
#endif // ESP8266
#ifdef ESP32
if (glob_script_mem.spi.sclk == -1) {
SPI.begin(Pin(GPIO_SPI_CLK), Pin(GPIO_SPI_MISO), Pin(GPIO_SPI_MOSI), -1);
glob_script_mem.spi.spip = &SPI;
} else {
glob_script_mem.spi.spip = new SPIClass(HSPI);
glob_script_mem.spi.spip->begin(Pin(GPIO_SPI_CLK, 1), Pin(GPIO_SPI_MISO, 1), Pin(GPIO_SPI_MOSI, 1), -1);
}
#endif // ESP32
} else {
AddLog(LOG_LEVEL_INFO, PSTR("SCR: error, spi pins not defined"));
}
break;
}
pinMode(glob_script_mem.spi.sclk , OUTPUT);
digitalWrite(glob_script_mem.spi.sclk , 0);
lp = GetNumericArgument(lp , OPER_EQU, &fvar, 0);
glob_script_mem.spi.mosi = fvar;
if (glob_script_mem.spi.mosi >= 0) {
pinMode(glob_script_mem.spi.mosi , OUTPUT);
digitalWrite(glob_script_mem.spi.mosi , 0);
}
lp = GetNumericArgument(lp , OPER_EQU, &fvar, 0);
glob_script_mem.spi.miso = fvar;
if (glob_script_mem.spi.miso >= 0) {
pinMode(glob_script_mem.spi.miso , INPUT_PULLUP);
}
if (Is_gpio_used(glob_script_mem.spi.mosi) || Is_gpio_used(glob_script_mem.spi.miso)
|| Is_gpio_used(glob_script_mem.spi.sclk) ) {
AddLog(LOG_LEVEL_INFO, PSTR("SCR: warning, pins already used"));
}
break;
case 1:
// set cs
lp = GetNumericArgument(lp , OPER_EQU, &fvar, 0);
index = fvar - 1;
index &= 3;
lp = GetNumericArgument(lp , OPER_EQU, &fvar, 0);
glob_script_mem.spi.cs[index] = fvar;
pinMode(glob_script_mem.spi.cs[index] , OUTPUT);
digitalWrite(glob_script_mem.spi.cs[index] , 1);
if (Is_gpio_used(glob_script_mem.spi.cs[index])) {
AddLog(LOG_LEVEL_INFO, PSTR("SCR: warning, pins already used"));
}
break;
case 2:
// transfer bytes
lp = GetNumericArgument(lp , OPER_EQU, &fvar, 0);
int8_t index = fvar - 1;
TS_FLOAT *fpd = 0;
uint16_t alend;
lp = get_array_by_name(lp, &fpd, &alend, 0);
// len
TS_FLOAT len = alend;
lp = GetNumericArgument(lp , OPER_EQU, &len, 0);
if (len > alend) {
len = alend;
}
// type
lp = GetNumericArgument(lp , OPER_EQU, &fvar, 0);
script_sspi_trans(index, fpd, len, fvar);
break;
}
lp++;
len = 0;
goto exit;
}
#endif // USE_SCRIPT_SPI
if (!strncmp_XP(lp, XPSTR("s2hms("), 6)) {
lp = GetNumericArgument(lp + 6, OPER_EQU, &fvar, 0);
lp++;
char tbuff[16];
uint8_t hours = (uint32_t)fvar / 3600;
fvar -= (hours * 3600);
uint8_t mins = (uint32_t)fvar / 60;
uint8_t secs = (uint32_t)fvar % 60;
sprintf_P(tbuff,PSTR("%02d:%02d:%02d"), hours, mins, secs);
if (sp) strlcpy(sp, tbuff, glob_script_mem.max_ssize);
len = 0;
goto strexit;
}
#ifdef USE_FEXTRACT
if (!strncmp_XP(lp, XPSTR("s2t("), 4)) {
lp = GetNumericArgument(lp + 4, OPER_EQU, &fvar, 0);
char str[SCRIPT_MAX_SBSIZE];
s2tstamp(str, SCRIPT_MAX_SBSIZE, fvar, 0);
if (sp) strlcpy(sp, str, glob_script_mem.max_ssize);
len = 0;
goto strexit;
}
#endif // USE_FEXTRACT
break;
case 't':
if (!strncmp_XP(vname, XPSTR("time"), 4)) {
fvar = MinutesPastMidnight();
goto exit;
}
if (!strncmp_XP(vname, XPSTR("tper"), 4)) {
fvar = Settings->tele_period;
tind->index = SCRIPT_TELEPERIOD;
goto exit_settable;
}
if (!strncmp_XP(vname, XPSTR("tinit"), 5)) {
fvar = TasmotaGlobal.rules_flag.time_init;
goto exit;
}
if (!strncmp_XP(vname, XPSTR("tset"), 4)) {
fvar = TasmotaGlobal.rules_flag.time_set;
goto exit;
}
if (!strncmp_XP(vname, XPSTR("tstamp"), 6)) {
if (sp) strlcpy(sp, GetDateAndTime(DT_LOCAL).c_str(), glob_script_mem.max_ssize);
goto strexit;
}
if (!strncmp_XP(vname, XPSTR("topic"), 5)) {
if (sp) strlcpy(sp, TasmotaGlobal.mqtt_topic, glob_script_mem.max_ssize);
goto strexit;
}
#ifdef USE_SCRIPT_TIMER
if (!strncmp_XP(lp, XPSTR("ts1("), 4)) {
lp = GetNumericArgument(lp + 4, OPER_EQU, &fvar, gv);
if (fvar < 10) fvar = 10;
Script_ticker1.attach_ms(fvar, Script_ticker1_end);
goto nfuncexit;
}
if (!strncmp_XP(lp, XPSTR("ts2("), 4)) {
lp = GetNumericArgument(lp + 4, OPER_EQU, &fvar, gv);
if (fvar < 10) fvar = 10;
Script_ticker2.attach_ms(fvar, Script_ticker2_end);
goto nfuncexit;
}
if (!strncmp_XP(lp, XPSTR("ts3("), 4)) {
lp = GetNumericArgument(lp + 4, OPER_EQU, &fvar, gv);
if (fvar < 10) fvar = 10;
Script_ticker3.attach_ms(fvar, Script_ticker3_end);
goto nfuncexit;
}
if (!strncmp_XP(lp, XPSTR("ts4("), 4)) {
lp = GetNumericArgument(lp + 4, OPER_EQU, &fvar, gv);
if (fvar < 10) fvar = 10;
Script_ticker4.attach_ms(fvar, Script_ticker4_end);
goto nfuncexit;
}
#endif // USE_SCRIPT_TIMER
#ifdef USE_DISPLAY
#ifdef USE_TOUCH_BUTTONS
if (!strncmp_XP(lp, XPSTR("tbut["), 5)) {
GetNumericArgument(lp + 5, OPER_EQU, &fvar, gv);
uint8_t index = fvar;
if (index < 1 || index > MAX_TOUCH_BUTTONS) index = 1;
index--;
if (buttons[index]) {
fvar = buttons[index]->vpower.on_off;
} else {
fvar = -1;
}
len += 1;
goto exit;
}
#endif //USE_TOUCH_BUTTONS
#endif //USE_DISPLAY
#if 0
/*
uint32_t tmod_directRead(uint32_t pin);
void tmod_directWriteLow(uint32_t pin);
void tmod_directWriteHigh(uint32_t pin);
void tmod_directModeInput(uint32_t pin);
void tmod_directModeOutput(uint32_t pin);
*/
if (!strncmp_XP(lp, XPSTR("test("), 5)) {
lp = GetNumericArgument(lp + 5, OPER_EQU, &fvar, gv);
uint32_t sel = fvar;
lp = GetNumericArgument(lp, OPER_EQU, &fvar, gv);
uint32_t pin = fvar;
switch (sel) {
case 0:
fvar = tmod_directRead(pin);
break;
case 1:
tmod_directWriteLow(pin);
break;
case 2:
tmod_directWriteHigh(pin);
break;
case 3:
tmod_directModeInput(pin);
break;
case 4:
tmod_directModeOutput(pin);
break;
}
/*
uint32_t cycles;
uint64_t accu = 0;
char sbuffer[32];
// PSTR performance test
// this is best case since everything will be in cache
// PSTR at least 3 times slower here, will be much slower if cache missed
for (uint16 cnt=0; cnt<1000; cnt++) {
cycles=ESP.getCycleCount();
if (fvar>0) {
snprintf_P(sbuffer, sizeof(sbuffer), PSTR("1234"));
} else {
snprintf(sbuffer, sizeof(sbuffer), "1234");
}
accu += ESP.getCycleCount()-cycles;
}
fvar = accu / 1000;
*/
goto nfuncexit;
}
#endif
#ifdef USE_TIMERS
if (!strncmp_XP(lp, XPSTR("ttget("), 6)) {
lp = GetNumericArgument(lp + 6, OPER_EQU, &fvar, gv);
SCRIPT_SKIP_SPACES
uint8_t index = fvar;
if (index < 1 || index > MAX_TIMERS) index = 1;
lp = GetNumericArgument(lp, OPER_EQU, &fvar, gv);
SCRIPT_SKIP_SPACES
fvar = get_tpars(index - 1, fvar);
goto nfuncexit;
}
#endif
#ifdef USE_FEXTRACT
if (!strncmp_XP(lp, XPSTR("tso("), 4)) {
char str[SCRIPT_MAX_SBSIZE];
lp = GetStringArgument(lp + 4, OPER_EQU, str, 0);
fvar = -1;
SCRIPT_SKIP_SPACES
lp = GetNumericArgument(lp, OPER_EQU, &fvar, gv);
SCRIPT_SKIP_SPACES
uint8_t flg = 0;
if (*lp =='0') {
lp++;
flg = 1;
}
tso(str, fvar, flg);
if (sp) strlcpy(sp, str, glob_script_mem.max_ssize);
lp++;
len = 0;
goto strexit;
}
if (!strncmp_XP(lp, XPSTR("tsn("), 4)) {
char str[SCRIPT_MAX_SBSIZE];
lp = GetStringArgument(lp + 4, OPER_EQU, str, 0);
fvar = tstamp2l(str);
goto nfuncexit;
}
#endif
if (!strncmp_XP(lp, XPSTR("tc("), 3)) {
lp = GetNumericArgument(lp + 3, OPER_EQU, &fvar, gv);
lp++;
if (sp) {
sp[0] = fvar;
sp[1] = 0;
}
len = 0;
goto strexit;
}
break;
case 'u':
if (!strncmp_XP(vname, XPSTR("uptime"), 6)) {
fvar = MinutesUptime();
goto exit;
}
if (!strncmp_XP(vname, XPSTR("upsecs"), 6)) {
fvar = TasmotaGlobal.uptime;
goto exit;
}
if (!strncmp_XP(lp, XPSTR("upd["), 4)) {
// var was updated
struct T_INDEX ind;
uint8_t vtype;
isvar(lp + 4, &vtype, &ind, 0, 0, gv);
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;
}
if (!strncmp_XP(lp, XPSTR("udp("), 4)) {
char url[SCRIPT_MAX_SBSIZE];
lp = GetStringArgument(lp + 4, OPER_EQU, url, 0);
TS_FLOAT port;
lp = GetNumericArgument(lp, OPER_EQU, &port, gv);
char payload[SCRIPT_MAX_SBSIZE];
lp = GetStringArgument(lp, OPER_EQU, payload, 0);
fvar = udp_call(url, port, payload);
goto nfuncexit;
}
break;
case 'w':
#if defined(ESP32) && defined(USE_WEBCAM)
if (!strncmp_XP(lp, XPSTR("wc("), 3)) {
TS_FLOAT fvar1;
lp = GetNumericArgument(lp + 3, OPER_EQU, &fvar1, gv);
SCRIPT_SKIP_SPACES
switch ((uint32)fvar1) {
case 0:
{ TS_FLOAT fvar2;
lp = GetNumericArgument(lp, OPER_EQU, &fvar2, gv);
fvar = WcSetup(fvar2);
}
break;
case 1:
{ TS_FLOAT fvar2;
lp = GetNumericArgument(lp, OPER_EQU, &fvar2, gv);
fvar = WcGetFrame(fvar2);
}
break;
case 2:
{ TS_FLOAT fvar2,fvar3;
lp = GetNumericArgument(lp, OPER_EQU, &fvar2, gv);
SCRIPT_SKIP_SPACES
lp = GetNumericArgument(lp, OPER_EQU, &fvar3, gv);
fvar = WcSetOptions(fvar2, fvar3);
}
break;
case 3:
fvar = WcGetWidth();
break;
case 4:
fvar = WcGetHeight();
break;
case 5:
{ TS_FLOAT fvar2;
lp = GetNumericArgument(lp, OPER_EQU, &fvar2, gv);
fvar = WcSetStreamserver(fvar2);
}
break;
case 6:
{ TS_FLOAT fvar2;
lp = GetNumericArgument(lp, OPER_EQU, &fvar2, gv);
fvar = WcSetMotionDetect(fvar2);
}
break;
/*
#ifdef USE_FACE_DETECT
case 7:
{ TS_FLOAT fvar2;
lp = GetNumericArgument(lp, OPER_EQU, &fvar2, gv);
fvar = WcSetFaceDetect(fvar2);
}
break;
#endif //USE_FACE_DETECT
*/
default:
fvar = 0;
}
goto nfuncexit;
}
#endif //ESP32, USE_WEBCAM
#if defined(USE_TTGO_WATCH) && defined(USE_BMA423)
if (!strncmp_XP(vname, XPSTR("wdclk"), 5)) {
fvar = TTGO_doubleclick();
goto exit;
}
if (!strncmp_XP(vname, XPSTR("wbut"), 4)) {
fvar = TTGO_button();
goto exit;
}
#endif // USE_TTGO_WATCH
#if defined(USE_FT5206) || defined(USE_XPT2046) || defined(USE_LILYGO47) || defined(USE_UNIVERSAL_TOUCH) || defined(USE_CST816S) || defined(SIMPLE_RES_TOUCH) || defined(USE_GT911)
if (!strncmp_XP(lp, XPSTR("wtch("), 5)) {
lp = GetNumericArgument(lp + 5, OPER_EQU, &fvar, gv);
fvar = Touch_Status(fvar);
goto nfuncexit;
}
#endif // USE_FT5206
if (!strncmp_XP(vname, XPSTR("wm"), 2)) {
fvar = glob_script_mem.web_mode;
goto exit;
}
if (!strncmp_XP(vname, XPSTR("wday"), 4)) {
fvar = RtcTime.day_of_week;
goto exit;
}
if (!strncmp_XP(vname, XPSTR("wific"), 5)) {
if (TasmotaGlobal.rules_flag.wifi_connected) {
TasmotaGlobal.rules_flag.wifi_connected = 0;
fvar = 1;
}
goto exit;
}
if (!strncmp_XP(vname, XPSTR("wifid"), 5)) {
if (TasmotaGlobal.rules_flag.wifi_disconnected) {
TasmotaGlobal.rules_flag.wifi_disconnected = 0;
fvar = 1;
}
goto exit;
}
if (!strncmp_XP(vname, XPSTR("wifis"), 5)) {
fvar = !TasmotaGlobal.global_state.wifi_down;
goto exit;
}
if (!strncmp_XP(vname, XPSTR("wlp"), 3)) {
OsWatchLoop();
fvar = 0;
goto exit;
}
#ifdef xUSE_SHINE
if (!strncmp_XP(vname, XPSTR("wav2mp3("), 8)) {
char path[SCRIPT_MAX_SBSIZE];
lp = GetStringArgument(lp + 8, OPER_EQU, path, 0);
fvar = wav2mp3(path);
goto nfuncexit;
}
#endif
#ifdef USE_SCRIPT_TCP_SERVER
if (!strncmp_XP(lp, XPSTR("wso("), 4)) {
TS_FLOAT port;
lp = GetNumericArgument(lp + 4, OPER_EQU, &port, gv);
if (TasmotaGlobal.global_state.wifi_down) {
fvar = - 2;
} else {
if (glob_script_mem.tcp_server) {
glob_script_mem.tcp_client.stop();
glob_script_mem.tcp_server->stop();
delete glob_script_mem.tcp_server;
}
glob_script_mem.tcp_server = new WiFiServer(port);
fvar = 0;
if (!glob_script_mem.tcp_server) {
fvar = -1;
} else {
glob_script_mem.tcp_server->begin();
glob_script_mem.tcp_server->setNoDelay(true);
AddLog(LOG_LEVEL_INFO, PSTR("tcp server started"));
}
}
goto nfuncexit;
}
if (!strncmp_XP(lp, XPSTR("wsc("), 4)) {
if (glob_script_mem.tcp_server) {
glob_script_mem.tcp_client.stop();
glob_script_mem.tcp_server->stop();
delete glob_script_mem.tcp_server;
glob_script_mem.tcp_server = 0;
}
fvar = 0;
goto nfuncexit;
}
if (!strncmp_XP(lp, XPSTR("wsa("), 4)) {
fvar = 0;
if (glob_script_mem.tcp_server) {
if (glob_script_mem.tcp_server->hasClient()) {
glob_script_mem.tcp_client = glob_script_mem.tcp_server->available();
AddLog(LOG_LEVEL_DEBUG, PSTR("tcp client connected"));
}
if (glob_script_mem.tcp_client && glob_script_mem.tcp_client.connected()) {
fvar = glob_script_mem.tcp_client.available();
} else {
AddLog(LOG_LEVEL_DEBUG, PSTR("tcp client not connected"));
}
} else {
AddLog(LOG_LEVEL_DEBUG, PSTR("tcp server not active"));
}
goto nfuncexit;
}
if (!strncmp_XP(lp, XPSTR("wsrs("), 5)) {
fvar = 0;
char buff[SCRIPT_MAX_SBSIZE];
if (glob_script_mem.tcp_server) {
if (glob_script_mem.tcp_client.connected()) {
uint16_t slen = glob_script_mem.tcp_client.available();
if (slen > sizeof(buff)) {
slen = sizeof(buff);
}
for (uint16_t cnt = 0; cnt < slen; cnt++) {
buff[cnt] = glob_script_mem.tcp_client.read();
}
buff[slen] = 0;
if (sp) strlcpy(sp, buff, glob_script_mem.max_ssize);
}
}
goto strexit;
}
if (!strncmp_XP(lp, XPSTR("wsws("), 5)) {
fvar = 0;
char buff[SCRIPT_MAX_SBSIZE];
lp = GetStringArgument(lp + 5, OPER_EQU, buff, 0);
if (glob_script_mem.tcp_server) {
if (glob_script_mem.tcp_client.connected()) {
glob_script_mem.tcp_client.write(buff, strlen(buff));
}
}
goto nfuncexit;
}
if (!strncmp_XP(lp, XPSTR("wsra("), 5)) {
TS_FLOAT *fpd = 0;
uint16_t alend;
uint16_t ipos;
lp = get_array_by_name(lp + 5, &fpd, &alend, &ipos);
SCRIPT_SKIP_SPACES
if (glob_script_mem.tcp_server) {
if (glob_script_mem.tcp_client.connected()) {
uint16_t slen = glob_script_mem.tcp_client.available();
if (slen > alend) {
slen = alend;
}
for (uint16_t cnt = 0; cnt < slen; cnt++) {
*fpd++ = glob_script_mem.tcp_client.read();
}
fvar = slen;
}
}
goto nfuncexit;
}
if (!strncmp_XP(lp, XPSTR("wswa("), 5)) {
TS_FLOAT *fpd = 0;
uint16_t alend;
uint16_t ipos;
lp = get_array_by_name(lp + 5, &fpd, &alend, &ipos);
SCRIPT_SKIP_SPACES
lp = GetNumericArgument(lp, OPER_EQU, &fvar, gv);
uint16_t al = fvar;
if (al > alend) {
al = alend;
}
SCRIPT_SKIP_SPACES
uint16_t opts = 0;
if (*lp != ')') {
lp = GetNumericArgument(lp, OPER_EQU, &fvar, gv);
opts = fvar;
}
if (glob_script_mem.tcp_server) {
if (glob_script_mem.tcp_client.connected()) {
uint8_t *abf = (uint8_t*)malloc(al * 4);
uint8_t *oabf = abf;
uint16_t dlen = 0;
if (abf) {
for (uint16_t cnt = 0; cnt < al; cnt++) {
switch (opts) {
case 0:
//glob_script_mem.tcp_client.write((uint8_t)*fpd++);
*abf++ = (uint8_t)*fpd++;
dlen++;
break;
case 1:
{
uint16_t wval = *fpd++;
//glob_script_mem.tcp_client.write(wval >> 8);
//glob_script_mem.tcp_client.write(wval);
*abf++ = (wval >> 8);
*abf++ = wval;
dlen += 2;
}
break;
case 2:
{
int16_t swval = *fpd++;
//glob_script_mem.tcp_client.write(swval >> 8);
//glob_script_mem.tcp_client.write(swval);
*abf++ = (swval >> 8);
*abf++ = swval;
dlen += 2;
}
break;
case 3:
{
uint32_t lval = *(uint32_t*)fpd;
fpd++;
//glob_script_mem.tcp_client.write(lval >> 24);
//glob_script_mem.tcp_client.write(lval >> 16);
//glob_script_mem.tcp_client.write(lval >> 8);
//glob_script_mem.tcp_client.write(lval);
*abf++ = (lval >> 24);
*abf++ = (lval >> 16);
*abf++ = (lval >> 8);
*abf++ = lval;
dlen += 4;
}
break;
}
}
glob_script_mem.tcp_client.write(oabf, dlen);
free(oabf);
}
}
}
goto nfuncexit;
}
if (!strncmp_XP(lp, XPSTR("wsf("), 4)) {
fvar = -1;
if (glob_script_mem.tcp_server) {
if (glob_script_mem.tcp_client.connected()) {
glob_script_mem.tcp_client.flush();
fvar = 0;
}
}
goto nfuncexit;
}
#endif
if (!strncmp_XP(lp, XPSTR("wwd("), 4)) {
// write integer
lp = GetNumericArgument(lp + 4, OPER_EQU, &fvar, gv);
uint32_t ivar = *(uint32_t*)&fvar;
lp = GetNumericArgument(lp, OPER_EQU, &fvar, gv);
uint32_t lval = *(uint32_t*)&fvar;
*(uint32_t*)ivar = lval;
goto nfuncexit;
}
break;
case 'y':
if (!strncmp_XP(vname, XPSTR("year"), 4)) {
fvar = RtcTime.year;
goto exit;
}
break;
case '#':
len = 0;
lp = eval_sub(lp, &fvar, sp);
if (glob_script_mem.retstr) {
goto strexit;
} else {
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
nfuncexit:
lp++;
len = 0;
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)=='>') {
if (*(lp + 2) == '=') {
*operand = OPER_SHREQU;
return lp + 3;
} else {
*operand = OPER_SHR;
return lp + 2;
}
} else {
if (*(lp + 1)=='=') {
*operand = OPER_GRTEQU;
return lp + 2;
} else {
*operand = OPER_GRT;
return lp + 1;
}
}
break;
case '<':
if (*(lp + 1)=='<') {
if (*(lp + 2) == '=') {
*operand = OPER_SHLEQU;
return lp + 3;
} else {
*operand = OPER_SHL;
return lp + 2;
}
} else {
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;
}
#if defined(USE_PLAY_WAVE) && defined(USE_UFILESYS)
#ifdef ESP8266
#include
#include
/*
i2S on ESP8266
dout = 3 (RX)
clk = 15 (D8)
ws = 2 (D4)
*/
#endif // ESP8266
// RIFF header
typedef struct {
uint32_t ChunkID; //"RIFF"
uint32_t ChunkSize; //"36 + sizeof(wav_data_t) + data"
uint32_t Format; // "WAV"
} wav_riff_t;
// FMT header
typedef struct {
uint32_t Subchunk1ID; //"fmt "
uint32_t Subchunk1Size; //16 (PCM)
uint16_t AudioFormat; // 1 'cause PCM
uint16_t NumChannels; // mono = 1; stereo = 2
uint32_t SampleRate; // 8000, 44100, etc.
uint32_t ByteRate; //== SampleRate * NumChannels * byte
uint16_t BlockAlign; //== NumChannels * bytePerSample
uint16_t BytesPerSample; //8 byte = 8, 16 byte = 16, etc.
} wav_fmt_t;
// Data header
typedef struct {
uint32_t Subchunk2ID; //"data"
uint32_t Subchunk2Size; //== NumSamples * NumChannels * bytePerSample/8
} wav_data_t;
// complete header
typedef struct {
wav_riff_t Riff;
wav_fmt_t Fmt;
wav_data_t Data;
} wav_header_t;
// we assume 1 channel with 8khz
int32_t play_wave(char *path) {
#ifdef ESP32
if (path[0] == 'i' && path[1] == ':') {
// get esp32 i2s pins
char *cp = &path[2];
uint8_t bck = strtol(cp, &cp, 10);
cp++;
uint8_t ws = strtol(cp, &cp, 10);
cp++;
uint8_t dout = strtol(cp, &cp, 10);
cp++;
uint8_t mode = strtol(cp, &cp, 10);
i2s_chan_config_t chan_cfg = I2S_CHANNEL_DEFAULT_CONFIG(I2S_NUM_AUTO, I2S_ROLE_MASTER);
i2s_new_channel(&chan_cfg, &glob_script_mem.tx_handle, NULL);
i2s_std_slot_config_t slot_cfg;
switch (mode) {
case 0:
slot_cfg = I2S_STD_PHILIPS_SLOT_DEFAULT_CONFIG(I2S_DATA_BIT_WIDTH_16BIT, I2S_SLOT_MODE_MONO);
break;
case 1:
slot_cfg = I2S_STD_MSB_SLOT_DEFAULT_CONFIG(I2S_DATA_BIT_WIDTH_16BIT, I2S_SLOT_MODE_MONO);
break;
default:
slot_cfg = I2S_STD_PCM_SLOT_DEFAULT_CONFIG(I2S_DATA_BIT_WIDTH_16BIT, I2S_SLOT_MODE_MONO);
break;
}
i2s_std_config_t std_cfg = {
.clk_cfg = I2S_STD_CLK_DEFAULT_CONFIG(8000),
.slot_cfg = slot_cfg,
.gpio_cfg = {
.mclk = I2S_GPIO_UNUSED,
.bclk = (gpio_num_t)bck,
.ws = (gpio_num_t)ws,
.dout = (gpio_num_t)dout,
.din = I2S_GPIO_UNUSED,
.invert_flags = {
.mclk_inv = false,
.bclk_inv = false,
.ws_inv = false,
},
},
};
/* Initialize the channel */
i2s_channel_init_std_mode(glob_script_mem.tx_handle, &std_cfg);
return 0;
}
#endif
File wf = ufsp->open(path, FS_FILE_READ);
if (!wf) {
return -1;
}
int16_t buffer[512];
uint32_t fsize = wf.size();
// check for RIFF
wf.readBytes((char*)buffer, sizeof(wav_header_t));
wav_header_t *wh = (wav_header_t *)buffer;
// 0x52494646
if (wh->Riff.ChunkID != 0x46464952 && wh->Fmt.NumChannels != 1) {
wf.close();
return -2;
}
fsize -= sizeof(wav_header_t);
#ifdef ESP8266
i2s_begin();
i2s_set_rate(wh->Fmt.SampleRate);
while (wf.position() < fsize) {
int numBytes = _min(sizeof(buffer), fsize - wf.position() - 1);
int bytesread = wf.readBytes((char*)buffer, numBytes);
if (!bytesread) {
break;
}
for (int i = 0; i < numBytes / 2; i++) {
i2s_write_sample(buffer[i]);
OsWatchLoop();
}
}
i2s_end();
#endif // ESP8266
#ifdef ESP32
i2s_channel_enable(glob_script_mem.tx_handle);
while (wf.position() < fsize) {
int numBytes = _min(sizeof(buffer), fsize - wf.position() - 1);
int bytesread = wf.readBytes((char*)buffer, numBytes);
if (!bytesread) {
break;
}
i2s_channel_write(glob_script_mem.tx_handle, buffer, numBytes, nullptr, 100);
OsWatchLoop();
}
i2s_channel_disable(glob_script_mem.tx_handle);
#endif // ESP32
wf.close();
return 0;
}
#endif // USE_PLAY_WAVE
#ifdef USE_SCRIPT_FATFS_EXT
#ifdef USE_UFILESYS
int32_t script_logfile_write(char *path, char *payload, uint32_t size) {
File rfd = ufsp->open(path, FS_FILE_APPEND);
if (rfd == 0) {
return -1;
}
uint32_t fsize = rfd.size();
// append string
rfd.write((uint8_t*)payload, strlen(payload));
rfd.write((uint8_t*)"\n", 1);
if (fsize < size) {
rfd.close();
return fsize;
}
rfd.seek(0, SeekSet);
String line = rfd.readStringUntil('\n');
File wfd = ufsp->open("/ltmp", FS_FILE_WRITE);
if (!wfd) {
return -2;
}
while (rfd.available()) {
line = rfd.readStringUntil('\n');
wfd.write((uint8_t*)line.c_str(), line.length());
wfd.write((uint8_t*)"\n", 1);
}
rfd.close();
wfd.close();
ufsp->remove(path);
ufsp->rename("/ltmp", path);
return fsize;
}
#endif // USE_UFILESYS
#endif // USE_SCRIPT_FATFS_EXT
#ifdef ESP8266
extern "C" {
#include
extern cont_t* g_pcont;
}
uint16_t GetStack(void) {
register uint32_t *sp asm("a1");
return (4 * (sp - g_pcont->stack));
}
#else
uint16_t GetStack(void) {
register uint8_t *sp asm("a1");
return (sp - pxTaskGetStackStart(NULL));
}
#endif //ESP8266
char *GetStringArgument(char *lp, uint8_t lastop, char *cp, struct GVARS *gv) {
uint8_t operand = 0;
uint8_t vtype;
char *slp;
struct T_INDEX ind;
char str[SCRIPT_MAX_SBSIZE],str1[SCRIPT_MAX_SBSIZE];
while (*lp == ' ') { lp++; } // skip leading spaces
while (1) {
lp = isvar(lp, &vtype, &ind, 0, str1, gv);
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) - strlen(str1));
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;
}
}
return lp;
}
char *GetNumericArgument(char *lp, uint8_t lastop, TS_FLOAT *fp, struct GVARS *gv);
char *GetNumericArgument(char *lp, uint8_t lastop, TS_FLOAT *fp, struct GVARS *gv) {
uint8_t operand = 0;
TS_FLOAT fvar1,fvar;
char *slp;
uint8_t vtype;
while (*lp == ' ') { lp++; } // skip leading spaces
struct T_INDEX ind;
ind.bits.integer = 0;
while (1) {
// get 1. value
if (*lp=='(') {
lp++;
lp = GetNumericArgument(lp, OPER_EQU, &fvar1, gv);
lp++;
//if (*lp==')') lp++;
} else {
lp = isvar(lp, &vtype, &ind, &fvar1, 0, gv);
if ((vtype != NUM_RES) && (vtype & STYPE)) {
// string type
glob_script_mem.glob_error = 1;
}
}
if (ind.bits.integer) {
switch (lastop) {
case OPER_EQU:
fvar = fvar1;
break;
case OPER_PLS:
*(int32_t*)&fvar += *(int32_t*)&fvar1;
break;
case OPER_MIN:
*(int32_t*)&fvar -= *(int32_t*)&fvar1;
break;
case OPER_MUL:
*(int32_t*)&fvar *= *(int32_t*)&fvar1;
break;
case OPER_DIV:
*(int32_t*)&fvar /= *(int32_t*)&fvar1;
break;
case OPER_PERC:
*(int32_t*)&fvar %= *(int32_t*)&fvar1;
break;
case OPER_XOR:
*(uint32_t*)&fvar ^= *(uint32_t*)&fvar1;
break;
case OPER_AND:
*(uint32_t*)&fvar &= *(uint32_t*)&fvar1;
break;
case OPER_OR:
*(uint32_t*)&fvar |= *(uint32_t*)&fvar1;
break;
case OPER_SHL:
*(uint32_t*)&fvar <<= *(uint32_t*)&fvar1;
break;
case OPER_SHR:
*(uint32_t*)&fvar >>= *(uint32_t*)&fvar1;
break;
default:
break;
}
} else {
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;
case OPER_SHL:
fvar = (uint32_t)fvar << (uint32_t)fvar1;
break;
case OPER_SHR:
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 *GetLongIString(char *lp, char **dstr) {
while (*lp == ' ') lp++;
if (*lp != '"') {
*dstr = (char*)malloc(SCRIPT_MAX_SBSIZE);
if (!*dstr) return lp;
lp = GetStringArgument(lp, OPER_EQU, *dstr, 0);
} else {
lp++;
char *cp;
#if 0
cp = strchr(lp, '"');
if (cp) {
uint16_t slen = (uint32_t)cp - (uint32_t)lp;
*dstr = (char*)calloc(slen + 2, 1);
if (!*dstr) return lp;
memmove(*dstr, lp , slen);
#else
char *llp = lp;
loop:
cp = strchr(lp, '"');
if (cp) {
if (*(cp - 1) == '\\') {
lp = cp + 1;
goto loop;
}
uint16_t slen = (uint32_t)cp - (uint32_t)llp;
*dstr = (char*)calloc(slen + 2, 1);
if (!*dstr) return lp;
memmove(*dstr, llp , slen);
// Get_esc_char
char *tp = *dstr;
while (*llp != '"') {
char iob;
llp = Get_esc_char(llp, &iob);
*tp++ = iob;
}
*tp = 0;
#endif
lp = cp + 1;
//AddLog(LOG_LEVEL_INFO, PSTR("long string: %s"), *dstr);
} else {
// error
}
}
return lp;
}
char *ForceStringVar(char *lp, char *dstr) {
TS_FLOAT fvar;
char *slp = lp;
glob_script_mem.glob_error = 0;
lp = GetStringArgument(lp, OPER_EQU, dstr, 0);
if (glob_script_mem.glob_error) {
// mismatch
lp = GetNumericArgument(slp, OPER_EQU, &fvar, 0);
dtostrfd(fvar, 6, dstr);
glob_script_mem.glob_error = 0;
}
return lp;
}
#ifdef USE_HOMEKIT
int32_t UpdVar(char *vname, float *fvar, uint32_t mode);
extern "C" {
uint32_t Ext_UpdVar(char *vname, float *fvar, uint32_t mode) {
return UpdVar(vname, fvar, mode);
}
void Ext_toLog(char *str) {
toLog(str);
}
char *GetFName(void) {
return SettingsText(SET_FRIENDLYNAME1);
}
}
int32_t UpdVar(char *vname, float *fvar, uint32_t mode) {
uint8_t type;
uint16_t index;
if (*vname == '@') {
vname++;
type = *vname;
vname++;
index = (*vname & 0x0f);
if (index < 1) index = 1;
if (index > 9) index = 9;
switch (type) {
case 'p':
if (mode) {
// set power
ExecuteCommandPower(index, *fvar, SRC_BUTTON);
return 0;
} else {
// read power
*fvar = bitRead(TasmotaGlobal.power, index - 1);
return 1;
}
break;
case 's':
*fvar = SwitchLastState(index - 1);
return 1;
break;
case 'b':
*fvar = Button.last_state[index - 1];
return 1;
break;
}
return 0;
}
struct T_INDEX ind;
uint8_t vtype;
TS_FLOAT res = *fvar;
isvar(vname, &vtype, &ind, fvar, 0, 0);
if (vtype != VAR_NV) {
// found variable as result
if (vtype == NUM_RES || (vtype & STYPE) == 0) {
if (mode) {
// set var
//AddLog(LOG_LEVEL_DEBUG, PSTR("write from homekit: %s - %d"), vname, (uint32_t)res);
index = glob_script_mem.type[ind.index].index;
glob_script_mem.fvars[index] = res;
glob_script_mem.type[ind.index].bits.changed = 1;
#ifdef USE_SCRIPT_GLOBVARS
if (glob_script_mem.type[ind.index].bits.global) {
script_udp_sendvar(vname, &res, 0);
}
#endif //USE_SCRIPT_GLOBVARS
return 0;
} else {
// get var
//index = glob_script_mem.type[ind.index].index;
int32_t ret = 0;
#ifdef USE_SCRIPT_GLOBVARS
ret = glob_script_mem.type[ind.index].bits.hchanged;
glob_script_mem.type[ind.index].bits.hchanged = 0;
#endif
//AddLog(LOG_LEVEL_DEBUG, PSTR("read from homekit: %s - %d - %d"), vname, (uint32_t)*fvar, ret);
return ret;
}
} else {
// break;
}
}
return -1;
}
extern "C" {
void Ext_Replace_Cmd_Vars(char *srcbuf, uint32_t srcsize, char *dstbuf, uint32_t dstsize) {
Replace_Cmd_Vars(srcbuf, srcsize, dstbuf, dstsize);
}
}
#endif // USE_HOMEKIT
bool is_int_var(char *name) {
uint8_t vtype;
struct T_INDEX ind;
isvar(name, &vtype, &ind, 0, 0, 0);
if (vtype != VAR_NV) {
if (vtype == NUM_RES || (vtype & STYPE) == 0) {
// numeric result
if (ind.bits.integer) {
return true;
}
}
}
return false;
}
// 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;
char dsep = glob_script_mem.script_sepc;
uint8_t lzero = glob_script_mem.script_lzero;
TS_FLOAT fvar;
cp = srcbuf;
struct T_INDEX ind;
char string[SCRIPT_MAX_SBSIZE];
dstsize -= 2;
for (count = 0; count < dstsize; count++) {
if (srcsize && (*cp == SCRIPT_EOL)) break;
if (*cp == '%') {
cp++;
if (*cp == '%') {
dstbuf[count] = *cp++;
} else {
if (isdigit(*cp)) {
if (*(cp + 1) == '.' || *(cp + 1) == ',') {
dsep = *(cp + 1);
lzero = *cp & 0xf;
cp+=2;
}
dprec = *cp & 0xf;
cp++;
} else {
dprec = glob_script_mem.script_dprec;
lzero = glob_script_mem.script_lzero;
dsep = glob_script_mem.script_sepc;
}
if (*cp=='(') {
// math expression
cp++;
glob_script_mem.glob_error = 0;
char *slp = cp;
cp = GetNumericArgument(cp, OPER_EQU, &fvar, 0);
if (glob_script_mem.glob_error == 1) {
glob_script_mem.glob_error = 0;
cp = GetStringArgument(slp, OPER_EQU, string, 0);
} else {
f2char(fvar, dprec, lzero, string, dsep);
}
uint8_t slen = strlen(string);
if (count + slen < dstsize - 1) {
strcpy(&dstbuf[count], string);
count += slen - 1;
}
cp += 2;
} else {
cp = isvar(cp, &vtype, &ind, &fvar, string, 0);
if (vtype != VAR_NV) {
// found variable as result
if (vtype == NUM_RES || (vtype & STYPE) == 0) {
// numeric result
if (ind.bits.integer) {
double dval = *(int32_t*)&fvar;
f2char(dval, dprec, lzero, string, dsep);
} else {
f2char(fvar, dprec, lzero, string, dsep);
}
} else {
// string result
}
uint8_t slen = strlen(string);
if (count + slen < dstsize - 1) {
strcpy(&dstbuf[count], string);
count += slen - 1;
}
cp++;
} else {
strcpy(&dstbuf[count], "???");
count += 2;
while (*cp != '%') {
if (*cp == 0 || *cp == SCRIPT_EOL) {
dstbuf[count+1] = 0;
return;
}
cp++;
}
cp++;
}
}
}
} else {
if (*cp=='\\') {
cp++;
if (*cp=='n') {
dstbuf[count] = '\n';
} else if (*cp=='r') {
dstbuf[count] = '\r';
} else if (*cp=='\\') {
dstbuf[count] = '\\';
} else if (*cp=='#') {
dstbuf[count] = '#';
} else {
dstbuf[count] = *cp;
}
} else {
dstbuf[count] = *cp;
}
if (*cp==0) {
break;
}
cp++;
}
}
dstbuf[count] = 0;
}
void toLog(const char *str) {
if (!str) return;
AddLog(LOG_LEVEL_INFO, str);
}
void toLogN(const char *cp, uint8_t len) {
if (!cp) return;
char str[32];
if (len>=sizeof(str)) 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 log_data[700]; // Was MAX_LOGSZ
char *cp = log_data;
strcpy(cp, s1);
cp += strlen(s1);
while (*str) {
if (*str==SCRIPT_EOL) break;
*cp++ = *str++;
}
*cp = 0;
AddLogData(LOG_LEVEL_INFO, log_data);
}
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, struct GVARS *gv) {
TS_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, gv);
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 = GetNumericArgument(lp, OPER_EQU, dfvar, gv);
if (glob_script_mem.glob_error==1) {
// was string, not number
char cmpstr[SCRIPT_MAX_SBSIZE];
lp = slp;
numeric = 0;
// get the string
lp = isvar(lp, &vtype, &ind, 0, cmpstr, gv);
lp = getop(lp, &lastop);
// compare string
char str[SCRIPT_MAX_SBSIZE];
lp = GetStringArgument(lp, OPER_EQU, str, gv);
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 = GetNumericArgument(lp, OPER_EQU, &fvar1, gv);
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 IFTHEN_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
void StopBeep( TimerHandle_t xTimer );
void StopBeep( TimerHandle_t xTimer ) {
#if !defined(ESP_IDF_VERSION) || (ESP_IDF_VERSION < ESP_IDF_VERSION_VAL(5,0,0))
ledcWriteTone(7, 0);
#else
ledcWriteTone(glob_script_mem.esp32_beep_pin, 0);
#endif
xTimerStop(xTimer, 0);
}
void esp32_beep(int32_t freq ,uint32_t len) {
if (freq<0) {
if (freq <= -64) freq = 0;
#if !defined(ESP_IDF_VERSION) || (ESP_IDF_VERSION < ESP_IDF_VERSION_VAL(5,0,0))
ledcSetup(7, 500, 10);
ledcAttachPin(-freq, 7);
ledcWriteTone(7, 0);
#else
glob_script_mem.esp32_beep_pin = abs(freq);
if (glob_script_mem.esp32_beep_pin == 64) {
glob_script_mem.esp32_beep_pin = 0;
}
ledcAttach(glob_script_mem.esp32_beep_pin, 0, 10);
#endif
if (!glob_script_mem.beep_th) {
glob_script_mem.beep_th = xTimerCreate("beep", 100, pdFALSE, ( void * ) 0, StopBeep);
}
} else {
if (!glob_script_mem.beep_th) return;
if (!freq) {
#if !defined(ESP_IDF_VERSION) || (ESP_IDF_VERSION < ESP_IDF_VERSION_VAL(5,0,0))
ledcWriteTone(7, 0);
#else
ledcWriteTone(glob_script_mem.esp32_beep_pin, 0);
#endif
xTimerStop(glob_script_mem.beep_th, 10);
return;
}
if (len < 10) return;
if (xTimerIsTimerActive(glob_script_mem.beep_th)) return;
#if !defined(ESP_IDF_VERSION) || (ESP_IDF_VERSION < ESP_IDF_VERSION_VAL(5,0,0))
ledcWriteTone(7, freq);
#else
ledcWriteTone(glob_script_mem.esp32_beep_pin, freq);
#endif
uint32_t ticks = pdMS_TO_TICKS(len);
xTimerChangePeriod( glob_script_mem.beep_th, ticks, 10);
}
}
#endif // ESP32
void esp_pwm(int32_t value, uint32 freq, uint32_t channel) {
#ifdef ESP32
if (channel < 1 || channel > 8) channel = 1;
if (value < 0) {
if (value <= -64) value = 0;
// set range to 10 bit
#if !defined(ESP_IDF_VERSION) || (ESP_IDF_VERSION < ESP_IDF_VERSION_VAL(5,0,0))
channel += 7;
ledcSetup(channel, freq, 10);
ledcAttachPin(-value, channel);
ledcWrite(channel, 0);
#else
glob_script_mem.pwmpin[channel - 1] = abs(value);
if (glob_script_mem.pwmpin[channel - 1] == 64) {
glob_script_mem.pwmpin[channel - 1] = 0;
}
ledcAttach(glob_script_mem.pwmpin[channel - 1], freq, 10);
#endif
} else {
if (value > 1023) {
value = 1023;
}
#if !defined(ESP_IDF_VERSION) || (ESP_IDF_VERSION < ESP_IDF_VERSION_VAL(5,0,0))
ledcWrite(channel, value);
#else
ledcWrite(glob_script_mem.pwmpin[channel - 1], value);
#endif
}
#else
// esp8266 default to range 0-1023
if (channel < 1 || channel > 5) channel = 1;
channel-=1;
if (value < 0) {
if (value <= -64) value = 0;
glob_script_mem.pwmpin[channel] = -value;
pinMode(glob_script_mem.pwmpin[channel], OUTPUT);
analogWriteFreq(freq);
AnalogWrite(glob_script_mem.pwmpin[channel], 0);
} else {
if (value > 1023) {
value = 1023;
}
AnalogWrite(glob_script_mem.pwmpin[channel], value);
}
#endif // ESP32
}
char *eval_sub(char *lp, TS_FLOAT *fvar, char *rstr);
char *eval_sub(char *lp, TS_FLOAT *fvar, char *rstr) {
scripter_sub(lp - 1, 0);
while (1) {
if (*lp == ')') {
lp++;
break;
}
if (*lp == SCRIPT_EOL || *lp == '+' || *lp == '-') {
break;
}
lp++;
}
if (glob_script_mem.retstr) {
if (rstr) {
strcpy(rstr, glob_script_mem.retstr);
} else {
*fvar = CharToFloat(glob_script_mem.retstr);
}
free (glob_script_mem.retstr);
} else {
if (fvar) {
*fvar = glob_script_mem.retval;
} else {
dtostrfd(glob_script_mem.retval, 6, rstr);
}
}
return lp;
}
//#define IFTHEN_DEBUG
char *scripter_sub(char *lp, uint8_t fromscriptcmd) {
lp += 1;
char *slp = lp;
uint8_t plen = 0;
while (*lp) {
if (*lp=='\n'|| *lp=='\r'|| *lp=='(') {
break;
}
lp++;
plen++;
}
if (fromscriptcmd) {
char *sp = glob_script_mem.scriptptr;
glob_script_mem.scriptptr = glob_script_mem.scriptptr_bu;
Run_Scripter1(slp, plen, 0);
glob_script_mem.scriptptr = sp;
} else {
Run_Scripter1(slp, plen, 0);
}
lp = slp;
return lp;
}
int16_t Run_script_sub(const char *type, int8_t tlen, struct GVARS *gv);
#define IF_NEST 8
int16_t Run_Scripter1(const char *type, int8_t tlen, const char *js) {
int16_t retval;
if (!glob_script_mem.scriptptr) {
return -99;
}
if (glob_script_mem.tasm_cmd_activ && tlen >= 0) return 0;
struct GVARS gv;
gv.jo = 0;
retval = Run_script_sub(type, tlen, &gv);
return retval;
}
// execute section of scripter
int16_t Run_Scripter(const char *type, int8_t tlen, const char *js) {
int16_t retval;
if (!glob_script_mem.scriptptr) {
return -99;
}
if (glob_script_mem.tasm_cmd_activ && tlen >= 0) return 0;
struct GVARS gv;
JsonParserObject jo;
if (js) {
String jss = js; // copy the string to a new buffer, not sure we can change the original buffer
JsonParser parser((char*)jss.c_str());
jo = parser.getRootObject();
gv.jo = &jo;
retval = Run_script_sub(type, tlen, &gv);
} else {
gv.jo = 0;
retval = Run_script_sub(type, tlen, &gv);
}
return retval;
}
#define SCRIPT_LOOP_NEST 3
int16_t Run_script_sub(const char *type, int8_t tlen, struct GVARS *gv) {
uint8_t vtype = 0, sindex, xflg, fromscriptcmd = 0;
int16_t globvindex;
// 22 bytes per nested loop
uint8_t floop[SCRIPT_LOOP_NEST] = {0, 0, 0};
int8_t loopdepth = -1;
char *lp_next[SCRIPT_LOOP_NEST];
char *cv_ptr[SCRIPT_LOOP_NEST];
TS_FLOAT *cv_count[SCRIPT_LOOP_NEST], cv_max[SCRIPT_LOOP_NEST], cv_inc[SCRIPT_LOOP_NEST];
int16_t globaindex, saindex;
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_MAX_SBSIZE];
TS_FLOAT *dfvar;
TS_FLOAT fvar = 0, fvar1, sysvar, swvar;
uint8_t section = 0, sysv_type = 0, swflg = 0;
char *lp;
if (tlen == 0) {
section = 1;
lp = (char*)type;
} else {
lp = glob_script_mem.scriptptr;
}
uint8_t check = 0;
if (tlen < 0) {
tlen = abs(tlen);
check = 1;
}
while (1) {
// check line
// skip leading spaces and tabs
startline:
while (*lp == '\t' || *lp == ' ') {
lp++;
}
// skip empty line
SCRIPT_SKIP_EOL
while (*lp == '\t' || *lp == ' ') {
lp++;
}
// 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 //IFTHEN_DEBUG
//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 < IF_NEST - 1) ifstck++;
if_state[ifstck] = 1;
if_result[ifstck] = 0;
if (ifstck == 1) if_exe[ifstck] = 1;
else if_exe[ifstck] = if_exe[ifstck - 1];
and_or = 0;
} else if (!strncmp(lp, "then", 4) && if_state[ifstck] == 1) {
lp += 4;
if_state[ifstck] = 2;
if (if_exe[ifstck - 1]) if_exe[ifstck] = if_result[ifstck];
} else if (!strncmp(lp, "else", 4) && if_state[ifstck] == 2) {
lp += 4;
if_state[ifstck] = 3;
if (if_exe[ifstck - 1]) if_exe[ifstck] = !if_result[ifstck];
} else if (!strncmp(lp, "endif", 5) && if_state[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
loopdepth++;
if (loopdepth >= SCRIPT_LOOP_NEST) {
loopdepth = SCRIPT_LOOP_NEST - 1;
}
lp_next[loopdepth] = 0;
lp = isvar(lp, &vtype, &ind, 0, 0, gv);
if ((vtype != VAR_NV) && (vtype & STYPE) == 0) {
// numeric var
uint8_t index = glob_script_mem.type[ind.index].index;
cv_count[loopdepth] = &glob_script_mem.fvars[index];
lp = GetNumericArgument(lp, OPER_EQU, cv_count[loopdepth], 0);
lp = GetNumericArgument(lp, OPER_EQU, &cv_max[loopdepth], 0);
lp = GetNumericArgument(lp, OPER_EQU, &cv_inc[loopdepth], 0);
//SCRIPT_SKIP_EOL
cv_ptr[loopdepth] = lp;
if (*cv_count[loopdepth] <= cv_max[loopdepth] && cv_inc[loopdepth] > 0) {
// inc loop
floop[loopdepth] = 1;
} else {
// dec loop
floop[loopdepth] = 2;
if (cv_inc[loopdepth] > 0) {
floop[loopdepth] = 1;
}
}
} else {
// error
toLogEOL("for error", lp);
}
} else if (!strncmp(lp, "next", 4)) {
getnext:
if (loopdepth >= 0) {
lp_next[loopdepth] = lp;
if (floop[loopdepth] > 0) {
// for next loop
*cv_count[loopdepth] += cv_inc[loopdepth];
if (floop[loopdepth] == 1) {
if (*cv_count[loopdepth] <= cv_max[loopdepth]) {
lp = cv_ptr[loopdepth];
} else {
lp += 4;
floop[loopdepth] = 0;
loopdepth--;
if (loopdepth < -1) {
loopdepth = -1;
}
}
} else {
if (*cv_count[loopdepth] >= cv_max[loopdepth]) {
lp = cv_ptr[loopdepth];
} else {
lp += 4;
floop[loopdepth] = 0;
loopdepth--;
if (loopdepth < -1) {
loopdepth = -1;
}
}
}
} else {
lp += 4;
loopdepth--;
if (loopdepth < -1) {
loopdepth = -1;
}
}
}
}
if (!strncmp(lp, "switch", 6)) {
lp += 6;
SCRIPT_SKIP_SPACES
char *slp = lp;
lp = GetNumericArgument(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, gv);
swflg = 0x81;
} else {
swflg = 1;
}
} else if (!strncmp(lp, "case", 4) && swflg>0) {
lp += 4;
SCRIPT_SKIP_SPACES
TS_FLOAT cvar;
if (!(swflg & 0x80)) {
lp = GetNumericArgument(lp, OPER_EQU, &cvar, 0);
if (swvar != cvar) {
swflg = 2;
} else {
swflg = 1;
}
} else {
char str[SCRIPT_MAX_SBSIZE];
lp = GetStringArgument(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 //IFTHEN_DEBUG
if (!strncmp(lp, "return", 6)) {
lp += 6;
SCRIPT_SKIP_SPACES
if (*lp == SCRIPT_EOL) {
goto next_line;
}
glob_script_mem.glob_error = 0;
char *slp = lp;
lp = GetNumericArgument(lp, OPER_EQU, &glob_script_mem.retval, 0);
if (glob_script_mem.glob_error == 1) {
// mismatch was string, not number
lp = slp;
glob_script_mem.glob_error = 0;
glob_script_mem.retstr = (char*)calloc(SCRIPT_MAX_SBSIZE, 1);
if (glob_script_mem.retstr) {
lp = GetStringArgument(lp, OPER_EQU, glob_script_mem.retstr, 0);
}
} else {
glob_script_mem.retstr = 0;
}
section = 99;
goto next_line;
} else if (!strncmp(lp, "break", 5)) {
lp += 5;
if (loopdepth >= 0) {
if (floop[loopdepth] ) {
// should break loop
if (lp_next[loopdepth]) {
lp = lp_next[loopdepth];
}
floop[loopdepth] = 0;
goto getnext;
}
} else {
section = 99;
// leave immediately
goto next_line;
}
} else if (!strncmp(lp, "dp", 2) && isdigit(*(lp + 2))) {
lp += 2;
// number precision
if (*(lp + 1) == '.' || *(lp + 1) == ',' ) {
glob_script_mem.script_sepc = *(lp + 1);
glob_script_mem.script_lzero = atoi(lp);
lp += 2;
}
glob_script_mem.script_dprec = atoi(lp);
goto next_line;
}
#ifdef USE_DISPLAY
else if (!strncmp(lp, "dt ", 3)) {
//char dstbuf[256];
lp += 2;
SCRIPT_SKIP_SPACES
char *dstbuf = (char*)malloc(256);
if (dstbuf) {
Replace_Cmd_Vars(lp, 1, dstbuf, 256);
char *savptr = XdrvMailbox.data;
XdrvMailbox.data = dstbuf;
XdrvMailbox.data_len = 0;
DisplayText();
XdrvMailbox.data = savptr;
free(dstbuf);
}
goto next_line;
}
#endif //USE_DISPLAY
else if (!strncmp(lp, "delay(", 6)) {
// delay
lp = GetNumericArgument(lp + 5, OPER_EQU, &fvar, 0);
delay(fvar);
goto next_line;
} else if (!strncmp(lp, "spinm(", 6)) {
// set pin mode
lp = GetNumericArgument(lp + 6, OPER_EQU, &fvar, 0);
int8_t pinnr = fvar;
if (Is_gpio_used(pinnr)) {
AddLog(LOG_LEVEL_INFO, PSTR("SCR: warning, pins already used"));
}
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 = GetNumericArgument(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)) {
// set pin
lp = GetNumericArgument(lp + 5, OPER_EQU, &fvar, 0);
int8_t pinnr = fvar;
SCRIPT_SKIP_SPACES
lp = GetNumericArgument(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_SCRIPT_GLOBVARS
else if (!strncmp(lp, "gvr", 3)) {
lp += 3;
// reset global vars udp server
Restart_globvars();
goto next_line;
}
#endif // USE_SCRIPT_GLOBVARS
#ifdef USE_LIGHT
#ifdef USE_WS2812
else if (!strncmp(lp, "ws2812(", 7)) {
lp = isvar(lp + 7, &vtype, &ind, 0, 0, gv);
if (vtype != VAR_NV) {
SCRIPT_SKIP_SPACES
if (*lp != ')') {
lp = GetNumericArgument(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[ind.index].bits.is_filter) {
uint16_t len = 0;
TS_FLOAT *fa = Get_MFAddr(index, &len, 0);
//Serial.printf(">> 2 %d\n",(uint32_t)*fa);
if (fa && len) ws2812_set_array(fa, len, fvar);
}
}
}
goto next_line;
}
#endif //USE_WS2812
#endif //USE_LIGHT
#ifdef ESP32
else if (!strncmp(lp, "beep(", 5)) {
lp = GetNumericArgument(lp + 5, OPER_EQU, &fvar, 0);
SCRIPT_SKIP_SPACES
TS_FLOAT fvar1;
lp = GetNumericArgument(lp, OPER_EQU, &fvar1, 0);
esp32_beep(fvar, fvar1);
lp++;
goto next_line;
}
#endif //ESP32
else if (!strncmp(lp, "pwm", 3) && lp[4] == '(') {
lp += 3;
uint8_t channel = *lp & 0x0f;
#ifdef ESP8266
if (channel > 5) {channel = 5;}
#endif // ESP8266
#ifdef ESP32
if (channel > 8) {channel = 8;}
#endif // ESP32
if (channel < 1) {channel = 1;}
lp += 2;
lp = GetNumericArgument(lp, OPER_EQU, &fvar, 0);
SCRIPT_SKIP_SPACES
TS_FLOAT fvar1 = 4000;
if (*lp != ')') {
lp = GetNumericArgument(lp, OPER_EQU, &fvar1, 0);
}
esp_pwm(fvar, fvar1, channel);
lp++;
goto next_line;
}
#ifdef USE_SCRIPT_WEB_DISPLAY
else if (!strncmp(lp, "wcs ", 4)) {
lp += 4;
// skip one space after cmd
web_send_line(0, lp);
//WSContentFlush();
goto next_line;
}
else if (!strncmp(lp, "wfs ", 4)) {
lp += 4;
// skip one space after cmd
web_send_file(0, lp);
//WSContentFlush();
goto next_line;
}
else if (!strncmp(lp, "wcf\n", 4)) {
WSContentFlush();
goto next_line;
}
#endif
else if (!strncmp(lp, "rapp ", 4)) {
lp += 4;
// skip one space after cmd
char *tmp = (char*)malloc(256);
if (tmp) {
Replace_Cmd_Vars(lp ,1 , tmp, 256);
ResponseAppend_P(PSTR("%s"), tmp);
free(tmp);
}
goto next_line;
}
#if defined(USE_SENDMAIL) || defined(USE_ESP32MAIL)
else if (!strncmp(lp, "mail ", 5)) {
lp += 5;
//char tmp[256];
char *tmp = (char*)malloc(256);
if (tmp) {
Replace_Cmd_Vars(lp ,1 , tmp, 256);
SendMail(tmp);
free(tmp);
}
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
char *cmdmem = (char*)malloc(glob_script_mem.cmdbuffer_size * 2);
if (cmdmem) {
char *cmd = cmdmem;
uint16_t count;
for (count = 0; count < glob_script_mem.cmdbuffer_size-2; count++) {
//if (*lp=='\r' || *lp=='\n' || *lp=='}') {
if (!*lp || *lp == '\r' || *lp == '\n') {
cmd[count] = 0;
break;
}
cmd[count] = *lp++;
}
//AddLog(LOG_LEVEL_INFO, tmp);
// replace vars in cmd
char *tmp = cmdmem + glob_script_mem.cmdbuffer_size;
Replace_Cmd_Vars(cmd, 0, tmp, glob_script_mem.cmdbuffer_size);
//toSLog(tmp);
if (!strncmp(tmp, "print", 5) || pflg) {
if (pflg) toLog(tmp);
else toLog(&tmp[5]);
} else {
if (!sflag) {
glob_script_mem.tasm_cmd_activ = 1;
AddLog(glob_script_mem.script_loglevel&0x7f, PSTR("SCR: performs \"%s\""), tmp);
} else if (sflag == 2) {
// allow recursive call
} else {
glob_script_mem.tasm_cmd_activ = 1;
svmqtt = Settings->flag.mqtt_enabled; // SetOption3 - Enable MQTT
swll = Settings->weblog_level;
Settings->flag.mqtt_enabled = 0; // SetOption3 - Enable MQTT
Settings->weblog_level = 0;
}
ExecuteCommand((char*)tmp, SRC_RULE);
glob_script_mem.tasm_cmd_activ = 0;
if (sflag == 1) {
Settings->flag.mqtt_enabled = svmqtt; // SetOption3 - Enable MQTT
Settings->weblog_level = swll;
}
}
if (cmdmem) free(cmdmem);
}
lp = slp;
goto next_line;
} else if (!strncmp(lp, "=#", 2)) {
// subroutine
lp = scripter_sub(lp, fromscriptcmd);
goto next_line;
} else if (!strncmp(lp, "=(", 2)) {
lp += 2;
//char str[128];
char *str = (char*)calloc(128, 1);
if (str) {
str[0] = '>';
lp = GetStringArgument(lp, OPER_EQU, &str[1], 0);
lp++;
//execute_script(str);
char *svd_sp = glob_script_mem.scriptptr;
strcat(str, "\n#");
glob_script_mem.scriptptr = str;
Run_script_sub(">", 1, gv);
glob_script_mem.scriptptr = svd_sp;
free(str);
}
}
// check for variable result
if (if_state[ifstck] == 1) {
// evaluate exxpression
lp = Evaluate_expression(lp, and_or, &if_result[ifstck], gv);
SCRIPT_SKIP_SPACES
if (*lp == '{' && if_state[ifstck] == 1) {
lp += 1; // then
if_state[ifstck] = 2;
if (if_exe[ifstck - 1]) if_exe[ifstck] = if_result[ifstck];
}
goto next_line;
} else {
char *vnp = lp;
lp = isvar(lp, &vtype, &ind, &sysvar, 0, gv);
if (vtype != VAR_NV) {
#ifdef USE_SCRIPT_GLOBVARS
char varname[16];
uint32_t vnl = (uint32_t)lp - (uint32)vnp;
strncpy(varname, vnp, vnl);
varname[vnl] = 0;
#endif //USE_SCRIPT_GLOBVARS
// found variable as result
globvindex = ind.index; // save destination var index here
if (gv) globaindex = gv->numind;
else globaindex = -1;
uint8_t index = glob_script_mem.type[ind.index].index;
if ((vtype & STYPE) == 0) {
// numeric result
if (ind.bits.settable || ind.bits.is_filter) {
dfvar = &sysvar;
if (ind.bits.settable) {
sysv_type = ind.index;
globvindex = -1;
} else {
sysv_type = 0;
}
} else {
dfvar = &glob_script_mem.fvars[index];
sysv_type = 0;
glob_script_mem.res_ivar = ind.bits.integer;
}
numeric = 1;
SCRIPT_SKIP_SPACES
lp = getop(lp, &lastop);
#ifdef SCRIPT_LM_SUB
if (*lp == '#') {
// subroutine
lp = eval_sub(lp, &fvar, 0);
} else {
#endif
SCRIPT_SKIP_SPACES
if ( (glob_script_mem.arres > 0) && (lastop == OPER_EQU) && (*lp == '{') ) {
glob_script_mem.arres = 2;
} else {
char *slp = lp;
glob_script_mem.glob_error = 0;
//Serial.printf("Stack 1: %d\n",GetStack());
lp = GetNumericArgument(lp, OPER_EQU, &fvar, gv);
if (glob_script_mem.glob_error == 1) {
// mismatch was string, not number
// get the string and convert to number
lp = isvar(slp, &vtype, &ind, 0, cmpstr, gv);
fvar = CharToFloat(cmpstr);
}
}
#ifdef SCRIPT_LM_SUB
}
#endif
if (ind.bits.integer) {
switch (lastop) {
case OPER_EQU:
if (glob_script_mem.var_not_found) {
if (!gv || !gv->jo) toLogEOL("var not found: ",lp);
goto next_line;
}
*dfvar = fvar;
break;
case OPER_PLSEQU:
*(int32_t*)dfvar += *(int32_t*)&fvar;
break;
case OPER_MINEQU:
*(int32_t*)dfvar -= *(int32_t*)&fvar;
break;
case OPER_MULEQU:
*(int32_t*)dfvar *= *(int32_t*)&fvar;
break;
case OPER_DIVEQU:
*(int32_t*)dfvar /= *(int32_t*)&fvar;
break;
case OPER_PERCEQU:
*(int32_t*)dfvar %= *(int32_t*)&fvar;
break;
case OPER_ANDEQU:
*(uint32_t*)dfvar &= *(int32_t*)&fvar;
break;
case OPER_OREQU:
*(uint32_t*)dfvar |= *(int32_t*)&fvar;
break;
case OPER_XOREQU:
*(uint32_t*)dfvar ^= *(int32_t*)&fvar;
break;
case OPER_SHLEQU:
*(uint32_t*)dfvar <<= *(int32_t*)&fvar;
break;
case OPER_SHREQU:
*(uint32_t*)dfvar >>= *(int32_t*)&fvar;
break;
default:
// error
break;
}
} else {
switch (lastop) {
case OPER_EQU:
if (glob_script_mem.var_not_found) {
if (!gv || !gv->jo) toLogEOL("var not found: ",lp);
goto next_line;
}
*dfvar = fvar;
break;
case OPER_PLSEQU:
*dfvar += fvar;
break;
case OPER_MINEQU:
*dfvar -= fvar;
break;
case OPER_MULEQU:
*dfvar *= fvar;
break;
case OPER_DIVEQU:
*dfvar /= fvar;
break;
case OPER_PERCEQU:
*dfvar = fmodf(*dfvar, fvar);
break;
case OPER_ANDEQU:
*dfvar = (uint32_t)*dfvar & (uint32_t)fvar;
break;
case OPER_OREQU:
*dfvar = (uint32_t)*dfvar | (uint32_t)fvar;
break;
case OPER_XOREQU:
*dfvar = (uint32_t)*dfvar ^ (uint32_t)fvar;
break;
case OPER_SHLEQU:
*dfvar = (uint32_t)*dfvar << (uint32_t)fvar;
break;
case OPER_SHREQU:
*dfvar = (uint32_t)*dfvar >> (uint32_t)fvar;
break;
default:
// error
break;
}
}
// var was changed
if (globvindex >= 0) SetChanged(globvindex);
#ifdef USE_SCRIPT_GLOBVARS
if (globvindex >= 0 ) {
if (glob_script_mem.type[globvindex].bits.global) {
script_udp_sendvar(varname, dfvar, 0);
}
}
#endif //USE_SCRIPT_GLOBVARS
if (globvindex >= 0) {
if (glob_script_mem.type[globvindex].bits.is_filter) {
if (globaindex >= 0) {
Set_MFVal(glob_script_mem.type[globvindex].index, globaindex, *dfvar);
} else {
if (glob_script_mem.arres == 2) {
// fetch var preset
lp++;
while (*lp && *lp != SCRIPT_EOL) {
if (*lp == '}') {
lp++;
break;
}
lp = GetNumericArgument(lp, OPER_EQU, &fvar, gv);
Set_MFilter(glob_script_mem.type[globvindex].index, fvar);
}
} 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;
case SCRIPT_EVENT_HANDLED:
glob_script_mem.event_handeled = *dfvar;
break;
case SCRIPT_EPOFFS:
glob_script_mem.epoch_offset = *dfvar;
break;
case SCRIPT_CBSIZE:
if (*dfvar > MAX_SCRIPT_CMDBUFFER) {
*dfvar = MAX_SCRIPT_CMDBUFFER;
}
glob_script_mem.cmdbuffer_size = *dfvar;
break;
#if (defined(USE_SML_M) || defined(USE_BINPLUGINS)) && defined(USE_SML_SCRIPT_CMD)
case SML_JSON_ENABLE:
//sml_options = *dfvar;
SML_TABLE *smlp = get_sml_table();
if (smlp) {
fvar = smlp->SML_SetOptions(0x100 | (uint8_t) *dfvar); // sml_options;
}
break;
#endif
}
sysv_type = 0;
}
} else {
// string result
numeric = 0;
sindex = index;
saindex = gv->strind;
// string result
char str[SCRIPT_MAX_SBSIZE];
SCRIPT_SKIP_SPACES
lp = getop(lp, &lastop);
#ifdef SCRIPT_LM_SUB
if (*lp == '#') {
// subroutine
lp = eval_sub(lp, 0, str);
} else {
#endif
char *slp = lp;
glob_script_mem.glob_error = 0;
lp = GetStringArgument(lp, OPER_EQU, str, gv);
if ((!gv || !gv->jo) && glob_script_mem.glob_error) {
// mismatch
lp = GetNumericArgument(slp, OPER_EQU, &fvar, 0);
dtostrfd(fvar, 6, str);
glob_script_mem.glob_error = 0;
}
#ifdef SCRIPT_LM_SUB
}
#endif
if (!glob_script_mem.var_not_found) {
// var was changed
if (globvindex >= 0) SetChanged(globvindex);
#ifdef USE_SCRIPT_GLOBVARS
if (globvindex >= 0) {
if (glob_script_mem.type[globvindex].bits.global) {
script_udp_sendvar(varname, 0, str);
}
}
#endif //USE_SCRIPT_GLOBVARS
if (saindex >= 0) {
if (lastop == OPER_EQU) {
strlcpy(glob_script_mem.last_index_string[glob_script_mem.sind_num] + (saindex * glob_script_mem.max_ssize), str, glob_script_mem.max_ssize);
} else if (lastop == OPER_PLSEQU) {
strncat(glob_script_mem.last_index_string[glob_script_mem.sind_num] + (saindex * glob_script_mem.max_ssize), str, glob_script_mem.max_ssize);
}
gv->strind = -1;
} else {
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 {
//Serial.printf(">> decode %s\n",lp );
// 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;
char nxttok = '(';
char *argptr = ctype + tlen;
lp += tlen;
do {
if (*ctype == nxttok && *lp == nxttok) {
TS_FLOAT fparam;
numeric = 1;
glob_script_mem.glob_error = 0;
argptr = GetNumericArgument((char*)ctype + 1, OPER_EQU, &fparam, 0);
if (glob_script_mem.glob_error == 1) {
// was string, not number
numeric = 0;
// get the string
argptr = GetStringArgument((char*)ctype + 1, OPER_EQU, cmpstr, 0);
}
if (*lp == nxttok) {
// fetch destination
lp++;
lp = isvar(lp, &vtype, &ind, 0, 0, gv);
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 {
if (*ctype == nxttok || (*lp != SCRIPT_EOL && *lp != '?')) {
// revert
section = 0;
}
}
nxttok = ' ';
ctype = argptr;
} while (*lp == ' ' && (section == 1) );
}
}
}
// next line
next_line:
if (section == 99) return 0;
if (*lp == SCRIPT_EOL) {
lp++;
} else {
lp = strchr(lp, SCRIPT_EOL);
if (!lp) {
if (section) {
return 0;
} else {
return -1;
}
}
lp++;
}
}
return -1;
}
#ifdef USE_SCRIPT_ONEWIRE
bool script_OneWireCrc8(uint8_t *addr) {
uint8_t crc = 0;
uint8_t len = 8;
while (len--) {
uint8_t inbyte = *addr++; // from 0 to 7
for (uint32_t i = 8; i; i--) {
uint8_t mix = (crc ^ inbyte) & 0x01;
crc >>= 1;
if (mix) {
crc ^= 0x8C;
}
inbyte >>= 1;
}
}
return (crc == *addr); // addr 8
}
int32_t script_ow(uint8_t sel, uint32_t val) {
int32_t res = 0;
uint8_t bits;
bool invert = false;
ScriptOneWire *ow = &glob_script_mem.ow;
if (sel >= 10 && sel <= 18) {
if (val < 1 || val > MAX_DS_SENSORS) {
val = 1;
}
return ow->ds_address[val - 1][sel - 10];
}
if (sel > 0 && (ow->ds == nullptr && ow->dsh == nullptr)) {
return 0xffff;
}
switch (sel) {
case 0:
if (val & 0x8000) {
if (val & 0x10000) {
// inverted serial
invert = true;
}
val &= 0x7fff;
ow->ts = new TasmotaSerial(val & 0xff, (val >> 8) & 0x7f, 1, 0, 64);
if (ow->ts) {
ow->ts->begin(9600);
#ifdef ESP8266
if (ow->ts->hardwareSerial()) {
ClaimSerial();
#ifdef ALLOW_OW_INVERT
if (invert == true) {
U0C0 = U0C0 | BIT(UCRXI) | BIT(UCTXI); // Inverse RX, TX
}
#endif
}
#endif // ESP8266
#ifdef ESP32
#ifdef ALLOW_OW_INVERT
if (invert == true) {
HardwareSerial *hws = ow->ts->getesp32hws();
hws->end();
hws->begin(9600, SERIAL_8N1, val & 0xff, (val >> 8) & 0x7f, true);
}
#endif
#endif // ESP32
ow->dsh = new DS2480B(ow->ts);
ow->dsh->begin();
}
ow->ds = nullptr;
} else {
ow->ds = new OneWire(val);
ow->dsh = nullptr;
}
break;
case 1:
if (ow->ds) {
ow->ds->reset();
} else {
ow->dsh->reset();
}
break;
case 2:
if (ow->ds) {
ow->ds->skip();
} else {
ow->dsh->skip();
}
break;
case 3:
if (ow->ds) {
ow->ds->write(val, 1);
} else {
ow->dsh->write(val, 1);
}
break;
case 4:
if (ow->ds) {
return ow->ds->read();
} else {
return ow->dsh->read();
}
break;
case 5:
if (ow->ds) {
ow->ds->reset_search();
} else {
ow->dsh->reset_search();
}
break;
case 6:
if (val < 1 || val > MAX_DS_SENSORS) {
val = 1;
}
if (ow->ds) {
return ow->ds->search(ow->ds_address[val - 1]);
} else {
return ow->dsh->search(ow->ds_address[val - 1]);
}
break;
case 7:
if (val < 1 || val > MAX_DS_SENSORS) {
val = 1;
}
if (ow->ds) {
ow->ds->select(ow->ds_address[val - 1]);
} else {
ow->dsh->select(ow->ds_address[val - 1]);
}
break;
case 8:
bits = val & 0xc0;
val &= 0x3f;
if (val < 1 || val > MAX_DS_SENSORS) {
val = 1;
}
if (ow->ds) {
ow->ds->reset();
ow->ds->select(ow->ds_address[val - 1]);
ow->ds->write(0xf5, 1);
ow->ds->write(0x0c, 1);
ow->ds->write(0xff, 1);
res = ow->ds->read();
ow->ds->write(bits, 1);
} else {
ow->dsh->reset();
ow->dsh->select(ow->ds_address[val - 1]);
ow->dsh->write(0xf5, 1);
ow->dsh->write(0x0c, 1);
ow->dsh->write(0xff, 1);
res = ow->dsh->read();
ow->dsh->write(bits, 1);
}
break;
case 9:
bits = val & 0x80;
val &= 0x3f;
if (val < 1 || val > MAX_DS_SENSORS) {
val = 1;
}
if (ow->ds) {
uint8_t data[9];
ow->ds->reset();
ow->ds->select(ow->ds_address[val - 1]);
if (!bits) {
ow->ds->write(0x44, 1);
} else {
ow->ds->write(0xbe, 1);
for (uint32_t cnt = 0; cnt < 9; cnt++) {
data[cnt] = ow->ds->read();
}
if (script_OneWireCrc8(data)) {
int16_t ires;
ires = data[0];
ires |= data[1] << 8;
res = ires;
} else {
res = 0;
}
ow->ds->reset();
}
} else {
uint8_t data[9];
ow->dsh->reset();
ow->dsh->select(ow->ds_address[val - 1]);
if (!bits) {
ow->dsh->write(0x44, 1);
} else {
ow->dsh->write(0xbe, 1);
for (uint32_t cnt = 0; cnt < 9; cnt++) {
data[cnt] = ow->dsh->read();
}
if (script_OneWireCrc8(data)) {
int16_t ires;
ires = data[0];
ires |= data[1] << 8;
res = ires;
} else {
res = 0;
}
ow->dsh->reset();
}
}
break;
case 99:
if (ow->ds) {
ow->ds->reset();
delete ow->ds;
ow->ds = nullptr;
} else {
ow->dsh->reset();
delete ow->dsh;
ow->dsh = nullptr;
delete ow->ts;
}
break;
case 98:
ow->ts->write(val);
break;
}
return res;
}
#endif // USE_SCRIPT_ONEWIRE
#ifdef USE_SCRIPT_SPI
// transfer 1-3 bytes
uint32_t script_sspi_trans(int32_t cs_index, TS_FLOAT *array, uint32_t len, uint32_t size) {
uint32_t out = 0;
if (cs_index >= 0) {
cs_index &= 3;
digitalWrite(glob_script_mem.spi.cs[cs_index], 0);
}
if (glob_script_mem.spi.sclk < 0) {
// use existing hardware spi
glob_script_mem.spi.spip->beginTransaction(glob_script_mem.spi.settings);
for (uint32_t cnt = 0; cnt < len; cnt++) {
if (size == 1) {
out = glob_script_mem.spi.spip->transfer((uint8_t)*array);
}
if (size == 2) {
out = glob_script_mem.spi.spip->transfer16((uint16_t)*array);
}
if (size == 3) {
out = glob_script_mem.spi.spip->transfer((uint32_t)*array >> 16);
out <<= 16;
out |= glob_script_mem.spi.spip->transfer16((uint32_t)*array);
}
if (size == 4) {
// special byte transfer with cs low
digitalWrite(glob_script_mem.spi.cs[cs_index], 0);
out = glob_script_mem.spi.spip->transfer((uint8_t)*array);
digitalWrite(glob_script_mem.spi.cs[cs_index], 1);
}
*array++ = out;
}
glob_script_mem.spi.spip->endTransaction();
} else {
if (size == 4) {
for (uint32_t cnt = 0; cnt < len; cnt++) {
digitalWrite(glob_script_mem.spi.cs[cs_index], 0);
uint32_t bit = 1 << ((1 * 8) - 1);
out = 0;
uint32_t uvar = *array;
while (bit) {
digitalWrite(glob_script_mem.spi.sclk, 0);
if (glob_script_mem.spi.mosi >= 0) {
if (uvar & bit) digitalWrite(glob_script_mem.spi.mosi, 1);
else digitalWrite(glob_script_mem.spi.mosi, 0);
}
digitalWrite(glob_script_mem.spi.sclk, 1);
if (glob_script_mem.spi.miso >= 0) {
if (digitalRead(glob_script_mem.spi.miso)) {
out |= bit;
}
}
bit >>= 1;
}
*array++ = out;
digitalWrite(glob_script_mem.spi.cs[cs_index], 1);
}
} else {
if (size < 1 || size > 3) size = 1;
for (uint32_t cnt = 0; cnt < len; cnt++) {
uint32_t bit = 1 << ((size * 8) - 1);
out = 0;
uint32_t uvar = *array;
while (bit) {
digitalWrite(glob_script_mem.spi.sclk, 0);
if (glob_script_mem.spi.mosi >= 0) {
if (uvar & bit) digitalWrite(glob_script_mem.spi.mosi, 1);
else digitalWrite(glob_script_mem.spi.mosi, 0);
}
digitalWrite(glob_script_mem.spi.sclk, 1);
if (glob_script_mem.spi.miso >= 0) {
if (digitalRead(glob_script_mem.spi.miso)) {
out |= bit;
}
}
bit >>= 1;
}
*array++ = out;
}
}
}
if (cs_index >= 0) {
digitalWrite(glob_script_mem.spi.cs[cs_index], 1);
}
return len;
}
#endif // USE_SCRIPT_SPI
#ifdef USE_SCRIPT_SERIAL
bool Script_Close_Serial() {
if (glob_script_mem.sp) {
glob_script_mem.sp->flush();
delay(100);
delete(glob_script_mem.sp);
glob_script_mem.sp = 0;
return true;
}
return false;
}
#endif //USE_SCRIPT_SERIAL
void script_sort_array(TS_FLOAT *array, uint16_t size) {
bool swapped;
do {
swapped = false;
for (uint16_t i = 0; i < size - 1; ++i) {
if (array[i] > array[i + 1]) {
// swap
TS_FLOAT tmp = array[i];
array[i] = array[i + 1];
array[i + 1] = tmp;
swapped = true;
}
}
size -= 1;
} while (swapped);
}
bool Is_gpio_used(uint8_t gpiopin) {
if (gpiopin >= 0 && (gpiopin < nitems(TasmotaGlobal.gpio_pin)) && (TasmotaGlobal.gpio_pin[gpiopin] > 0)) {
return true;
}
return false;
}
void ScripterEvery100ms(void) {
static uint8_t xsns_index = 0;
if (bitRead(Settings->rule_enabled, 0) && (TasmotaGlobal.uptime > 4)) {
if (GetNextSensor()) {
//Run_Scripter(">T", 2, ResponseData());
if (glob_script_mem.teleperiod) Run_Scripter(glob_script_mem.teleperiod, 0, ResponseData());
}
}
if (bitRead(Settings->rule_enabled, 0)) {
if (glob_script_mem.fast_script) Run_Scripter1(glob_script_mem.fast_script, 0, 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;
TS_FLOAT *fp = (TS_FLOAT*)glob_script_mem.script_pram;
mlen+=sizeof(TS_FLOAT);
struct T_INDEX *vtp = glob_script_mem.type;
for (uint16_t count = 0; count < glob_script_mem.numvars; count++) {
if (vtp[count].bits.is_permanent && !vtp[count].bits.is_string) {
uint16_t index = vtp[count].index;
if (vtp[count].bits.is_filter) {
// save array
uint16_t len = 0;
TS_FLOAT *fa = Get_MFAddr(index, &len, 0);
mlen += sizeof(TS_FLOAT) * len;
if (mlen > glob_script_mem.script_pram_size) {
vtp[count].bits.is_permanent = 0;
return;
}
while (len--) {
*fp++ = *fa++;
}
} else {
mlen += sizeof(TS_FLOAT);
if (mlen > glob_script_mem.script_pram_size) {
vtp[count].bits.is_permanent = 0;
return;
}
*fp++ = glob_script_mem.fvars[index];
}
}
}
char *cp = (char*)fp;
for (uint16_t count = 0; count < glob_script_mem.numvars; count++) {
if (vtp[count].bits.is_permanent && vtp[count].bits.is_string) {
uint8_t index = vtp[count].index;
char *sp = glob_script_mem.glob_snp + (index * glob_script_mem.max_ssize);
uint8_t slen = strlen(sp);
mlen += slen + 1;
if (mlen > glob_script_mem.script_pram_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 HTTP_BTN_MENU_RULES[] PROGMEM =
"
";
const char HTTP_FORM_SCRIPT[] PROGMEM =
"";
#ifdef USE_SCRIPT_FATFS
const char HTTP_FORM_SCRIPT1c[] PROGMEM =
"";
const char HTTP_FORM_SCRIPT1d[] PROGMEM =
"";
const char S_SCRIPT_FILE_UPLOAD[] PROGMEM = D_SDCARD_UPLOAD;
#endif // USE_SCRIPT_FATFS
// upload script and start immediately
void script_upload_start(void) {
//AddLog(LOG_LEVEL_INFO, PSTR("HTP: file upload execute"));
HTTPUpload& upload = Webserver->upload();
if (upload.status == UPLOAD_FILE_START) {
//AddLog(LOG_LEVEL_INFO, PSTR("HTP: upload start"));
glob_script_mem.script_ex_ptr = (uint8_t*)glob_script_mem.script_ram;
//AddLog(LOG_LEVEL_INFO, PSTR("HTP: upload file %s, %d"),upload.filename.c_str(),upload.totalSize);
if (strcmp(upload.filename.c_str(), "execute_script")) {
Web.upload_error = 1;
WSSend(500, CT_PLAIN, F("500: wrong filename"));
return;
}
if (upload.totalSize >= glob_script_mem.script_size) {
Web.upload_error = 1;
WSSend(500, CT_PLAIN, F("500: file to large"));
return;
}
glob_script_mem.uplsize = 0;
glob_script_mem.sc_state = bitRead(Settings->rule_enabled, 0);
bitWrite(Settings->rule_enabled, 0, 0);
} else if(upload.status == UPLOAD_FILE_WRITE) {
//AddLog(LOG_LEVEL_INFO, PSTR("HTP: upload write"));
uint32_t csiz = upload.currentSize;
uint32_t tsiz = glob_script_mem.script_size - 1;
if (glob_script_mem.uplsize < tsiz) {
if (glob_script_mem.uplsize + csiz < tsiz) {
memcpy(glob_script_mem.script_ex_ptr, upload.buf, csiz);
glob_script_mem.script_ex_ptr += csiz;
glob_script_mem.uplsize += csiz;
} else {
csiz = tsiz - glob_script_mem.uplsize;
memcpy(glob_script_mem.script_ex_ptr, upload.buf, csiz);
glob_script_mem.script_ex_ptr += csiz;
glob_script_mem.uplsize += csiz;
}
}
//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(LOG_LEVEL_INFO, PSTR("HTP: upload error"));
} else {
*glob_script_mem.script_ex_ptr = 0;
bitWrite(Settings->rule_enabled, 0, glob_script_mem.sc_state);
SaveScript();
SaveScriptEnd();
//AddLog(LOG_LEVEL_INFO, PSTR("HTP: upload success"));
}
} else {
Web.upload_error = 1;
WSSend(500, CT_PLAIN, F("500: couldn't create file"));
}
}
void ScriptExecuteUploadSuccess(void) {
WSSend(200, CT_PLAIN, F("transfer OK"));
}
#ifdef USE_SCRIPT_FATFS
uint8_t DownloadFile(char *file) {
File download_file;
WiFiClient download_Client;
if (!ufsp->exists(file)) {
AddLog(LOG_LEVEL_INFO,PSTR("SCR: file not found"));
return 0;
}
download_file = ufsp->open(file, FS_FILE_READ);
if (!download_file) {
AddLog(LOG_LEVEL_INFO,PSTR("SCR: 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_APP_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 // USE_SCRIPT_FATFS
void HandleScriptTextareaConfiguration(void) {
if (!HttpCheckPriviledgedAccess()) { return; }
if (Webserver->hasArg("save")) {
ScriptSaveSettings();
HandleManagement();
return;
}
}
void HandleScriptConfiguration(void) {
if (!HttpCheckPriviledgedAccess()) { return; }
AddLog(LOG_LEVEL_DEBUG, PSTR(D_LOG_HTTP D_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]);
}
#endif // USE_SCRIPT_FATFS
WSContentStart_P(PSTR(D_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) ? PSTR(" checked") : "",ssize);
#else
WSContentSend_P(HTTP_FORM_SCRIPT1,1,1,bitRead(Settings->rule_enabled,0) ? PSTR(" checked") : "",glob_script_mem.script_size);
#endif // xSCRIPT_STRIP_COMMENTS
// script is to large for WSContentSend_P
if (glob_script_mem.script_ram[0]) {
WSContentFlush();
_WSContentSend(glob_script_mem.script_ram);
}
WSContentSend_P(HTTP_FORM_SCRIPT1b);
#ifdef USE_SCRIPT_FATFS
if (ufsp) {
//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 //USE_SCRIPT_FATFS
WSContentSend_P(HTTP_SCRIPT_FORM_END);
WSContentSpaceButton(BUTTON_MANAGEMENT);
WSContentStop();
}
void SaveScript(void) {
#ifdef USE_UFILESYS
if (glob_script_mem.FLAGS.fsys == true) {
ufsp->remove(FAT_SCRIPT_NAME);
File file = ufsp->open(FAT_SCRIPT_NAME, FS_FILE_WRITE);
file.write((const uint8_t*)glob_script_mem.script_ram, strlen(glob_script_mem.script_ram));
file.close();
} else {
// fallback to compressed mode
script_compress(Settings->rules[0], MAX_SCRIPT_SIZE-1);
}
#else // USE_UFILESYS
#ifdef EEP_SCRIPT_SIZE
// here we handle EEPROM modes
if (glob_script_mem.FLAGS.eeprom == true) {
if (EEP_SCRIPT_SIZE < SPECIAL_EEPMODE_SIZE && EEP_SCRIPT_SIZE != SPI_FLASH_SEC_SIZE) {
EEP_WRITE(0, EEP_SCRIPT_SIZE, glob_script_mem.script_ram);
} else {
#if EEP_SCRIPT_SIZE==SPI_FLASH_2SEC_SIZE || EEP_SCRIPT_SIZE==SPI_FLASH_SEC_SIZE
alt_eeprom_writeBytes(0, EEP_SCRIPT_SIZE, (uint8_t*)glob_script_mem.script_ram);
#else
uint8_t *ucs;
ucs = (uint8_t*)calloc(SPI_FLASH_SEC_SIZE + 4, 1);
if (ucs) {
if (!script_compress((char*)ucs, EEP_SCRIPT_SIZE - 1)) {
alt_eeprom_writeBytes(0, EEP_SCRIPT_SIZE, ucs);
}
free(ucs);
}
#endif
}
}
#else
// default mode is compression
script_compress(Settings->rules[0],MAX_SCRIPT_SIZE-1);
#endif // EEP_SCRIPT_SIZE
#endif // USE_UFILESYS
}
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");
strlcpy(glob_script_mem.script_ram, str.c_str(), glob_script_mem.script_size);
if (glob_script_mem.script_ram[0]!='>' && glob_script_mem.script_ram[1]!='D') {
AddLog(LOG_LEVEL_INFO, PSTR("SCR: error, must start with >D"));
bitWrite(Settings->rule_enabled, 0, 0);
}
SaveScript();
} else {
AddLog(LOG_LEVEL_INFO, PSTR("SCR: memory error"));
}
SaveScriptEnd();
}
//
uint32_t script_compress(char *dest, uint32_t size) {
//AddLog(LOG_LEVEL_INFO,PSTR("len: %d dsize = %d"), size, strlen(glob_script_mem.script_ram));
yield();
int32_t len_compressed = SCRIPT_COMPRESS(glob_script_mem.script_ram, strlen(glob_script_mem.script_ram), dest, size);
yield();
if (len_compressed > 0) {
dest[len_compressed] = 0;
AddLog(LOG_LEVEL_INFO,PSTR("SCR: compressed to %d bytes = %d %%"),len_compressed,len_compressed * 100 / strlen(glob_script_mem.script_ram));
return 0;
} else {
AddLog(LOG_LEVEL_INFO, PSTR("SCR: compress error %d"), len_compressed);
return 1;
}
}
//#endif // USE_SCRIPT_COMPRESSION
void SaveScriptEnd(void) {
#ifdef USE_SCRIPT_GLOBVARS
Script_Stop_UDP();
#endif //USE_SCRIPT_GLOBVARS
if (glob_script_mem.script_mem) {
// script was restarted
Run_Scripter1(">R\n", 3, 0);
Scripter_save_pvars();
free(glob_script_mem.script_mem);
glob_script_mem.script_mem = 0;
glob_script_mem.script_mem_size = 0;
#ifdef USE_SCRIPT_SERIAL
Script_Close_Serial();
#endif
}
if (bitRead(Settings->rule_enabled, 0)) {
int16_t res = Init_Scripter();
if (res) {
AddLog(LOG_LEVEL_INFO, PSTR("SCR: init error %d"), res);
return;
}
set_callbacks();
Run_Scripter1(">B\n", 3, 0);
Run_Scripter1(">BS", 3, 0);
//glob_script_mem.fast_script = Run_Scripter(">F", -2, 0);
script_set_web_pages();
}
}
void set_wpages(char *id, uint16_t index) {
uint16_t idlen = strlen(id);
uint16_t idl2 = idlen;
if (id[idlen - 1] ==' ') idl2--;
if (Run_Scripter1(id, -idlen, 0) == 99) {glob_script_mem.web_pages[index] = glob_script_mem.section_ptr + idl2;} else {glob_script_mem.web_pages[index] = 0;}
}
#define WEB_PAGE_WS 8
#define WEB_PAGE_WM 9
const char SWPAGES[] PROGMEM = {"W|w |w1 |w2 |w3 |w4 |w5 |w6 |WS|WM|$"};
void script_set_web_pages(void) {
char lbl[6];
lbl[0] = '>';
uint16_t index = 0;
while (1) {
GetTextIndexed(&lbl[1], sizeof(lbl) - 1, index, SWPAGES);
if (lbl[1] == '$') {
break;
}
set_wpages(lbl, index);
index++;
}
}
#endif // USE_WEBSERVER
void set_callbacks() {
if (Run_Scripter1(">F", -2, 0) == 99) {glob_script_mem.fast_script = glob_script_mem.section_ptr + 2;} else {glob_script_mem.fast_script = 0;}
if (Run_Scripter1(">E", -2, 0) == 99) {glob_script_mem.event_script = glob_script_mem.section_ptr + 2;} else {glob_script_mem.event_script = 0;}
if (Run_Scripter1(">C", -2, 0) == 99) {glob_script_mem.html_script = glob_script_mem.section_ptr + 2;} else {glob_script_mem.html_script = 0;}
if (Run_Scripter1(">T", -2, 0) == 99) {glob_script_mem.teleperiod = glob_script_mem.section_ptr + 2;} else {glob_script_mem.teleperiod = 0;}
}
//#define SCRIPT_HUE_DEBUG
#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;
*/
String GetHueDeviceId(uint16_t id, uint8_t ep);
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, 0));
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 += ",";
}
TS_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, 0));
}
void Script_Check_Hue(String *response) {
if (!bitRead(Settings->rule_enabled, 0)) return;
uint8_t hue_script_found = Run_Scripter1(">H", -2, 0);
if (hue_script_found != 99) return;
char tmp[256];
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
Replace_Cmd_Vars(lp, 1, tmp, sizeof(tmp));
// check for hue defintions
// NAME, TYPE , vars
cp = tmp;
cp = strchr(cp,',');
if (!cp) break;
*cp = 0;
// copy name
strlcpy(hue_script[hue_devs].name, tmp, HUE_DEV_NSIZE);
cp++;
while (*cp==' ') cp++;
// get type
hue_script[hue_devs].type = *cp;
for (vindex = 0; vindex < HUE_DEV_MVNUM; vindex++) {
hue_script[hue_devs].index[vindex] = 0;
}
vindex = 0;
while (1) {
cp = strchr(cp,',');
if (!cp) break;
// get vars, on,hue,sat,bri,ct,
cp++;
while (*cp==' ') cp++;
vindex == 0xff;
if (!strncmp(cp, "on=", 3)) {
cp += 3;
vindex = 0;
} else if (!strncmp(cp, "bri=", 4)) {
cp += 4;
vindex = 1;
} else if (!strncmp(cp, "hue=", 4)) {
cp += 4;
vindex = 2;
} else if (!strncmp(cp, "sat=", 4)) {
cp += 4;
vindex = 3;
} else if (!strncmp(cp, "ct=", 3)) {
cp += 3;
vindex = 4;
} else {
// error
vindex == 0xff;
break;
}
if (vindex!=0xff) {
struct T_INDEX ind;
uint8_t vtype;
char vname[16];
for (uint32_t cnt = 0; cnt < sizeof(vname) - 1; cnt++) {
if (*cp==',' || *cp==0) {
vname[cnt] = 0;
break;
}
vname[cnt] = *cp++;
}
isvar(vname, &vtype, &ind, 0, 0, 0);
if (vtype != VAR_NV) {
// found variable as result
if (vtype == NUM_RES || (vtype & STYPE) == 0) {
hue_script[hue_devs].vindex[vindex] = ind.index;
hue_script[hue_devs].index[vindex] = glob_script_mem.type[ind.index].index+1;
} else {
// break;
}
}
}
}
// append response
#ifdef SCRIPT_HUE_DEBUG
AddLog(LOG_LEVEL_INFO, PSTR("HUE: %s - %d "),hue_script[hue_devs].name, hue_devs);
#endif
if (response) {
if (TasmotaGlobal.devices_present) {
*response += ",\"";
}
else {
if (hue_devs>0) *response += ",\"";
else *response += "\"";
}
*response += String(EncodeLightId(hue_devs + TasmotaGlobal.devices_present + 1))+"\":";
Script_HueStatus(response, hue_devs);
#ifdef SCRIPT_HUE_DEBUG
AddLog(LOG_LEVEL_INFO, PSTR("HUE: %s - %d "),response->c_str(), hue_devs);
#endif
}
hue_devs++;
}
if (*lp==SCRIPT_EOL) {
lp++;
} else {
lp = strchr(lp, SCRIPT_EOL);
if (!lp) break;
lp++;
}
}
#ifdef SCRIPT_HUE_DEBUG
if (response) {
AddLog(LOG_LEVEL_INFO, PSTR("HUE: %d"), hue_devs);
toLog(">>>>");
toLog(response->c_str());
toLog(response->c_str()+700); // Was MAX_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 - TasmotaGlobal.devices_present - 1;
uint16_t args = Webserver->args();
#ifdef ESP82666
char *json = (char*)Webserver->arg(args - 1).c_str();
#else
String request_arg = Webserver->arg(args - 1);
char *json = (char*)request_arg.c_str();
#endif
#ifdef SCRIPT_HUE_DEBUG
AddLog(LOG_LEVEL_INFO, PSTR("HUE: 0 %s - %d "),path.c_str(), device);
AddLog(LOG_LEVEL_INFO, PSTR("HUE: 1 %d, %s"), args, json);
#endif
if (Webserver->args()) {
response = "[";
JsonParser parser(json);
JsonParserObject root = parser.getRootObject();
JsonParserToken hue_on = root[PSTR("on")];
if (hue_on) {
response += FPSTR(sHUE_LIGHT_RESPONSE_JSON);
response.replace("{id", String(EncodeLightId(device)));
response.replace("{cm", "on");
bool on = hue_on.getBool();
if (on == false) {
glob_script_mem.fvars[hue_script[index].index[0] - 1] = 0;
response.replace("{re", "false");
} else {
glob_script_mem.fvars[hue_script[index].index[0] - 1] = 1;
response.replace("{re", "true");
}
SetChanged(hue_script[index].vindex[0]);
resp = true;
}
parser.setCurrent();
JsonParserToken hue_bri = root[PSTR("bri")];
if (hue_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_bri.getUInt();
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;
SetChanged(hue_script[index].vindex[1]);
resp = true;
}
JsonParserToken hue_xy = root[PSTR("xy")];
if (hue_xy) { // Saturation of the light. 254 is the most saturated (colored) and 0 is the least saturated (white).
TS_FLOAT x, y;
JsonParserArray arr_xy = JsonParserArray(hue_xy);
JsonParserToken tok_x = arr_xy[0];
JsonParserToken tok_y = arr_xy[1];
x = tok_x.getFloat();
y = tok_y.getFloat();
String x_str = tok_x.getStr();
String y_str = tok_y.getStr();
uint8_t rr,gg,bb;
XyToRgb(x, y, &rr, &gg, &bb);
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;
SetChanged(hue_script[index].vindex[2]);
glob_script_mem.fvars[hue_script[index].index[3]-1] = sat;
SetChanged(hue_script[index].vindex[3]);
resp = true;
}
JsonParserToken hue_hue = root[PSTR("hue")];
if (hue_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_hue.getUInt();
//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;
SetChanged(hue_script[index].vindex[2]);
resp = true;
}
JsonParserToken hue_sat = root[PSTR("sat")];
if (hue_sat) { // Saturation of the light. 254 is the most saturated (colored) and 0 is the least saturated (white).
tmp = hue_sat.getUInt();
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;
SetChanged(hue_script[index].vindex[3]);
resp = true;
}
JsonParserToken hue_ct = root[PSTR("ct")];
if (hue_ct) { // Color temperature 153 (Cold) to 500 (Warm)
ct = hue_ct.getUInt();
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;
SetChanged(hue_script[index].vindex[4]);
resp = true;
}
response += "]";
} else {
response = FPSTR(sHUE_ERROR_JSON);
}
#ifdef SCRIPT_HUE_DEBUG
AddLog(LOG_LEVEL_INFO, PSTR(D_LOG_HTTP D_HUE " Result (%s)"), response.c_str());
#else
AddLog(LOG_LEVEL_DEBUG_MORE, PSTR(D_LOG_HTTP D_HUE " Result (%s)"), response.c_str());
#endif
WSSend(code, CT_APP_JSON, response);
if (resp) {
//Run_Scripter(">E", 2, 0);
if (glob_script_mem.event_script) Run_Scripter1(glob_script_mem.event_script, 0, 0);
}
}
#endif // hue interface
#ifdef USE_SCRIPT_SUB_COMMAND
bool Script_SubCmd(void) {
if (!bitRead(Settings->rule_enabled, 0)) return false;
if (glob_script_mem.tasm_cmd_activ) return false;
//AddLog(LOG_LEVEL_INFO,PSTR(">> %s, %s, %d, %d "),XdrvMailbox.topic, XdrvMailbox.data, XdrvMailbox.payload, XdrvMailbox.index);
char command[CMDSZ];
strlcpy(command, XdrvMailbox.topic, CMDSZ);
if (XdrvMailbox.index > 1) {
char ind[2];
ind[0] = XdrvMailbox.index | 0x30;
ind[1] = 0;
strcat(command, ind);
}
int32_t pl = XdrvMailbox.payload;
//char cmdbuff[128];
char *cmdbuff = (char*)malloc(128);
if (cmdbuff) {
char *cp = cmdbuff;
*cp++ = '#';
strlcpy(cp, command, 128 - 1);
uint8_t tlen = strlen(command);
cp += tlen;
if (XdrvMailbox.data_len > 0) {
*cp++ = '(';
uint32_t max_space = 128 - tlen - 4; // 4 = #()0
uint32_t max_len = min(XdrvMailbox.data_len, max_space);
strncpy(cp, XdrvMailbox.data, max_len);
cp += max_len;
*cp++ = ')';
*cp = 0;
}
//toLog(cmdbuff);
uint32_t res = Run_Scripter1(cmdbuff, tlen + 1, 0);
free(cmdbuff);
//AddLog(LOG_LEVEL_INFO,">>%d",res);
if (res) {
return false;
}
else {
cp = XdrvMailbox.data;
while (*cp==' ') cp++;
if (isdigit(*cp) || *cp=='-') {
Response_P(S_JSON_COMMAND_NVALUE, command, XdrvMailbox.payload);
} else {
Response_P(S_JSON_COMMAND_SVALUE, command, XdrvMailbox.data);
}
}
}
return true;
}
#endif //USE_SCRIPT_SUB_COMMAND
void script_version(void) {
uint32_t options = 0;
#ifdef USE_BUTTON_EVENT
options |= 0x00000001;
#endif
#ifdef USE_SCRIPT_JSON_EXPORT
options |= 0x00000002;
#endif
#ifdef USE_SCRIPT_SUB_COMMAND
options |= 0x00000004;
#endif
#ifdef USE_SCRIPT_HUE
options |= 0x00000008;
#endif
#ifdef USE_HOMEKIT
options |= 0x00000010;
#endif
#ifdef USE_SCRIPT_STATUS
options |= 0x00000020;
#endif
#ifdef SUPPORT_MQTT_EVENT
options |= 0x00000040;
#endif
#ifdef USE_SENDMAIL
options |= 0x00000080;
#endif
#ifdef USE_SCRIPT_WEB_DISPLAY
options |= 0x00000100;
#endif
#ifdef SCRIPT_FULL_WEBPAGE
options |= 0x00000200;
#endif
#ifdef USE_TOUCH_BUTTONS
options |= 0x00000400;
#endif
#ifdef USE_WEBSEND_RESPONSE
options |= 0x00000800;
#endif
#ifdef USE_ANGLE_FUNC
options |= 0x00001000;
#endif
#ifdef USE_SCRIPT_TASK
options |= 0x00002000;
#endif
#ifdef USE_SCRIPT_GLOBVARS
options |= 0x00004000;
#endif
#ifdef USE_SCRIPT_TIMER
options |= 0x00008000;
#endif
#ifdef SCRIPT_GET_HTTPS_JP
options |= 0x00010000;
#endif
#ifdef LARGE_ARRAYS
options |= 0x00020000;
#endif
#ifdef SCRIPT_LARGE_VNBUFF
options |= 0x00040000;
#endif
#ifdef USE_GOOGLE_CHARTS
options |= 0x00080000;
#endif
#ifdef USE_FEXTRACT
options |= 0x00100000;
#endif
#ifdef USE_SCRIPT_SPI
options |= 0x00200000;
#endif
#ifdef USE_SCRIPT_I2C
options |= 0x00400000;
#endif
#ifdef USE_DISPLAY_DUMP
options |= 0x00800000;
#endif
#ifdef USE_SCRIPT_SERIAL
options |= 0x01000000;
#endif
#ifdef USE_SCRIPT_ONEWIRE
options |= 0x02000000;
#endif
#ifdef USE_SCRIPT_TCP_SERVER
options |= 0x04000000;
#endif
#ifdef USE_SML_SCRIPT_CMD
options |= 0x08000000;
#endif
#ifdef TESLA_POWERWALL
options |= 0x10000000;
#endif
Response_P(PSTR("{\"script\":{\"vers\":%d.%d,\"opts\":%08x}}"), SCRIPT_VERS[0], SCRIPT_VERS[1], options);
}
void execute_script(char *script) {
char *svd_sp = glob_script_mem.scriptptr;
strcat(script, "\n#");
glob_script_mem.scriptptr = script;
Run_Scripter1(">", 1, 0);
glob_script_mem.scriptptr = svd_sp;
}
#define D_CMND_SCRIPT "Script"
#define D_CMND_SUBSCRIBE "Subscribe"
#define D_CMND_UNSUBSCRIBE "Unsubscribe"
#define D_CMND_BUFFERSIZE "ScriptSize"
enum ScriptCommands { CMND_SCRIPT,CMND_SUBSCRIBE, CMND_UNSUBSCRIBE, CMND_BSIZE, CMND_SUBTEST};
const char kScriptCommands[] PROGMEM = D_CMND_SCRIPT "|" D_CMND_SUBSCRIBE "|" D_CMND_UNSUBSCRIBE
#ifdef USE_UFILESYS
"|" D_CMND_BUFFERSIZE
#endif
#ifdef DEBUG_MQTT_EVENT
"|" "SUBTEST"
#endif
;
bool ScriptCommand(void) {
char command[CMDSZ];
bool serviced = true;
uint8_t index = XdrvMailbox.index;
if (glob_script_mem.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 <= 9)) {
switch (XdrvMailbox.payload) {
case 0: // Off
case 1: // On
bitWrite(Settings->rule_enabled, index -1, XdrvMailbox.payload);
break;
case 8: // stop on error Off
case 9: // On
bitWrite(Settings->rule_stop, index - 1, XdrvMailbox.payload & 1);
break;
#ifdef xSCRIPT_STRIP_COMMENTS
case 2:
bitWrite(Settings->rule_enabled, 1, 0);
break;
case 3:
bitWrite(Settings->rule_enabled, 1, 1);
break;
#endif //xSCRIPT_STRIP_COMMENTS
default:
break;
}
} else {
if ('>' == XdrvMailbox.data[0]) {
// execute script
Response_P(PSTR("{\"%s\":\"%s\"}"), command, XdrvMailbox.data);
if (bitRead(Settings->rule_enabled, 0)) {
for (uint8_t count = 0; countrule_enabled, 0)), GetStateText(bitRead(Settings->rule_stop, 0)),glob_script_mem.script_size - strlen(glob_script_mem.script_ram));
#ifdef SUPPORT_MQTT_EVENT
} else if (CMND_SUBSCRIBE == command_code) { //MQTT Subscribe command. Subscribe , [, ]
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());
#ifdef DEBUG_MQTT_EVENT
} else if (CMND_SUBTEST == command_code) {
XdrvMailbox.topic = (char*)"stat/tasmota/SENSOR";
ScriptMqttData();
serviced = true;
#endif
#endif //SUPPORT_MQTT_EVENT
#ifdef USE_UFILESYS
#ifndef NO_SCRIPT_VARBSIZE
} else if (CMND_BSIZE == command_code) {
// set script buffer size
if (XdrvMailbox.payload >= 1000) {
*SSIZE_PSTORE = XdrvMailbox.payload;
TasmotaGlobal.restart_flag = 2;
}
Response_P(PSTR("{\"script buffer\":%d}"), *SSIZE_PSTORE);
serviced = true;
#endif
#endif
}
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 //USE_SCRIPT_FATFS
#ifdef SUPPORT_MQTT_EVENT
#ifndef MQTT_EVENT_MSIZE
#define MQTT_EVENT_MSIZE 256
#endif // MQTT_EVENT_MSIZE
/********************************************************************************************/
/*
* 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 buData = XdrvMailbox.data;
#ifdef DEBUG_MQTT_EVENT
AddLog(LOG_LEVEL_INFO, PSTR("SCR: MQTT Topic %s, Event %s"), XdrvMailbox.topic, XdrvMailbox.data);
#endif
MQTT_Subscription event_item;
//Looking for matched topic
for (uint32_t index = 0; index < subscriptions.size(); index++) {
event_item = subscriptions.get(index);
uint8_t json_valid = 0;
String sData = buData;
#ifdef DEBUG_MQTT_EVENT
AddLog(LOG_LEVEL_INFO, PSTR("SCR: Match MQTT message Topic %s with subscription topic %s and key %s"), sTopic.c_str(), event_item.Topic.c_str(),event_item.Key.c_str());
#endif
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;
json_valid = 1;
} else { //If specified Key, need to parse Key/Value from JSON data
#ifndef SUPPORT_MQTT_EVENT_MORE
JsonParser parser((char*)sData.c_str());
JsonParserObject jsonData = parser.getRootObject();
String key1 = event_item.Key;
String key2;
if (!jsonData) 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;
JsonParserToken val = jsonData[key1.c_str()].getObject()[key2.c_str()];
if (!val) break; //Failed to get the key/value, ignore this message.
value = val.getStr();
json_valid = 1;
} else {
JsonParserToken val = jsonData[key1.c_str()];
if (!val) break;
value = val.getStr();
lkey = key1;
json_valid = 1;
}
#else
JsonParser parser((char*)sData.c_str());
JsonParserObject obj = parser.getRootObject();
char sres[64];
uint32_t res = JsonParsePath(&obj, event_item.Key.c_str(), '.', NULL, sres, sizeof(sres));
if (res) {
json_valid = 1;
value = sres;
}
#endif // SUPPORT_MQTT_EVENT_MORE
}
if (json_valid) {
value.trim();
char sbuffer[128];
if (!strncmp(lkey.c_str(), "Epoch", 5)) {
uint32_t ep = atoi(value.c_str()) - (uint32_t)glob_script_mem.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());
}
#ifdef DEBUG_MQTT_EVENT
AddLog(LOG_LEVEL_INFO, PSTR("SCR: setting script var %s"), sbuffer);
#endif
//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(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(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
#if defined(ESP32) && defined(USE_UFILESYS) && defined(USE_SCRIPT_ALT_DOWNLOAD)
#ifndef SCRIPT_DLPORT
#define SCRIPT_DLPORT 82
#endif
void script_download_task82(void *path) {
SendFile_sub((char*) path, 1);
free(path);
glob_script_mem.download82_busy = false;
//AddLog(LOG_LEVEL_INFO, PSTR("UFS 82: Download finished"));
vTaskDelete( NULL );
}
void ScriptServeFile82(void) {
String stmp = glob_script_mem.http82_Server->uri();
char *cp = strstr_P(stmp.c_str(), PSTR("/ufs/"));
if (cp) {
cp += 4;
if (ufsp) {
#ifndef USE_FEXTRACT
if (ufsp->exists(cp)) {
#endif
if (glob_script_mem.download82_busy == true) {
AddLog(LOG_LEVEL_INFO, PSTR("UFS: 82 Download is busy"));
return;
}
glob_script_mem.download82_busy = true;
char *path = (char*)malloc(128);
strcpy(path, cp);
xTaskCreatePinnedToCore(script_download_task82, "DT", 6000, (void*)path, 3, NULL, 1);
//AddLog(LOG_LEVEL_INFO, PSTR("Sendfile 82 started"));
return;
}
#ifndef USE_FEXTRACT
}
#endif
}
Handle82NotFound();
}
void Handle82NotFound(void) {
Send82Header(404, "not found");
}
void Handle82Root(void) {
Send82Header(403, "forbidden");
}
void WebServer82Loop(void) {
if (glob_script_mem.http82_Server != nullptr) {
glob_script_mem.http82_Server->handleClient();
}
}
void Send82Header(uint32_t type, const char *message) {
glob_script_mem.http82_Server->client().printf_P(PSTR("HTTP/1.1 %d\r\n"), type);
glob_script_mem.http82_Server->client().printf_P(PSTR("Content-type: text/plain\r\n\r\n"));
glob_script_mem.http82_Server->client().printf_P(PSTR("%s\n"), message);
}
void WebServer82Init(void) {
if (glob_script_mem.http82_Server != nullptr) {
return;
}
glob_script_mem.http82_Server = new ESP8266WebServer(SCRIPT_DLPORT);
if (glob_script_mem.http82_Server != nullptr) {
glob_script_mem.http82_Server->on(UriGlob("/ufs/*"), HTTP_GET, ScriptServeFile82);
glob_script_mem.http82_Server->on("/", HTTP_GET, Handle82Root);
glob_script_mem.http82_Server->onNotFound(Handle82NotFound);
glob_script_mem.http82_Server->begin();
AddLog(LOG_LEVEL_INFO, PSTR("SCR: HTTP DL Server started on port: %d "), SCRIPT_DLPORT);
} else {
AddLog(LOG_LEVEL_INFO, PSTR("SCR: HTTP DL Server failed"));
}
}
#endif // USE_SCRIPT_ALT_DOWNLOAD
#ifdef USE_SCRIPT_WEB_DISPLAY
#ifdef USE_UFILESYS
const char HTTP_SCRIPT_MIMES[] PROGMEM =
"HTTP/1.1 200 OK\r\n"
"Content-disposition: inline; "
"Content-type: %s\r\n\r\n";
void ScriptServeFile(void) {
if (!HttpCheckPriviledgedAccess()) { return; }
String stmp = Webserver->uri();
char *cp = strstr_P(stmp.c_str(), PSTR("/ufs/"));
if (cp) {
cp += 4;
if (ufsp) {
if (strstr_P(cp, PSTR("scrdmp.bmp"))) {
SendFile(cp);
return;
} else {
if (!SendFile(cp)) {
return;
}
}
}
}
HandleNotFound();
}
extern uint8_t *buffer;
//#define USE_DLTASK
int32_t SendFile(char *fname) {
#ifdef ESP8266
return SendFile_sub(fname, 0);
#endif // ESP8266
#ifdef ESP32
#ifdef USE_DLTASK
if (glob_script_mem.script_download_busy == true) {
AddLog(LOG_LEVEL_INFO, PSTR("UFS: Download is busy"));
return -1;
}
glob_script_mem.script_download_busy = true;
char *path = (char*)malloc(128);
strcpy(path, fname);
xTaskCreatePinnedToCore(script_download_task, "DT", 6000, (void*)path, 3, NULL, 1);
#else
return SendFile_sub(fname, 0);
#endif
#endif // ESP32
return 0;
}
#ifdef USE_DLTASK
void script_download_task(void *path) {
SendFile_sub((char*) path, 0);
free(path);
glob_script_mem.script_download_busy = false;
vTaskDelete( NULL );
}
#endif // USE_DLTASK
#define REVERT_M5EPD
int32_t SendFile_sub(char *path, uint8_t stype) {
char buff[512];
WiFiClient client;
uint8_t sflg = 0;
File file;
uint32_t fsize;
#ifdef USE_FEXTRACT
char *lp = strchr(path, '@');
if (lp) {
*lp = 0;
lp++;
// /ufs/test.txt@1.2.22-00:00_12.2.22-00:00
char *tp = strchr(lp, '_');
if (tp) {
*tp = 0;
tp++;
glob_script_mem.from_time = tstamp2l(lp);
glob_script_mem.to_time = tstamp2l(tp);
}
}
#endif // USE_FEXTRACT
#ifdef USE_DISPLAY_DUMP
char *sbmp = strstr_P(path, PSTR("scrdmp.bmp"));
if (sbmp) {
sflg = 1;
}
#endif // USE_DISPLAY_DUMP
if ( strstr_P(path, PSTR(".jpg"))) {
strcpy_P(buff,PSTR("image/jpeg"));
} else if (strstr_P(path, PSTR(".bmp"))) {
strcpy_P(buff,PSTR("image/bmp"));
} else if (strstr_P(path, PSTR(".html"))) {
strcpy_P(buff,PSTR("text/html"));
} else if (strstr_P(path, PSTR(".txt"))) {
strcpy_P(buff,PSTR("text/plain"));
} else if (strstr_P(path, PSTR(".pdf"))) {
strcpy_P(buff,PSTR("application/pdf"));
} else {
strcpy_P(buff,PSTR("text/plain"));
}
if (!buff[0]) return -2;
if (!sflg) {
if (!ufsp->exists(path)) {
return -1;
}
file = ufsp->open(path, FS_FILE_READ);
fsize = file.size();
}
if (0 == stype) {
WSContentSend_P(HTTP_SCRIPT_MIMES, buff);
WSContentFlush();
client = Webserver->client();
} else {
#ifdef USE_SCRIPT_ALT_DOWNLOAD
client = glob_script_mem.http82_Server->client();
#else
client = Webserver->client();
#endif
client.printf_P(PSTR("HTTP/1.1 200 OK\r\n"));
char *cp = path;
for (uint32_t cnt = strlen(path) - 1; cnt >= 0; cnt--) {
if (path[cnt] == '/') {
cp = &path[cnt + 1];
break;
}
}
client.printf_P(PSTR("Content-Disposition: attachment; filename=\"%s\"\r\n"), cp);
client.printf_P(PSTR("Content-Length: %d\r\n"), fsize);
client.printf_P(PSTR("Content-type: application/octet-stream\r\n\r\n"));
}
if (sflg) {
#ifdef USE_DISPLAY_DUMP
//#include
//extern Renderer *renderer;
// screen copy
#define fileHeaderSize 14
#define infoHeaderSize 40
if (renderer && (renderer->framebuffer || renderer->rgb_fb)) {
uint8_t *bp = renderer->framebuffer;
uint16_t *dwp = renderer->rgb_fb;
uint8_t *lbuf = (uint8_t*)special_malloc(Settings->display_width * 3 + 6);
memset(lbuf, 0, Settings->display_width * 3);
if (!lbuf) return -3;
uint8_t dmflg = 0;
if (renderer->disp_bpp & 0x40) {
dmflg = 1;
}
int8_t bpp = renderer->disp_bpp & 0xbf;;
uint8_t *lbp;
uint8_t fileHeader[fileHeaderSize];
createBitmapFileHeader(Settings->display_height , Settings->display_width , fileHeader);
client.write((uint8_t *)fileHeader, fileHeaderSize);
uint8_t infoHeader[infoHeaderSize];
createBitmapInfoHeader(Settings->display_height, Settings->display_width, infoHeader );
client.write((uint8_t *)infoHeader, infoHeaderSize);
if (bpp < 0) {
for (uint32_t lins = Settings->display_height - 1; lins >= 0 ; lins--) {
lbp = lbuf;
for (uint32_t cols = 0; cols < Settings->display_width; cols ++) {
uint8_t pixel = 0;
if (bp[cols + (lins / 8) * Settings->display_width] & (1 << (lins & 7))) {
pixel = 0xff;
}
*lbp++ = pixel;
*lbp++ = pixel;
*lbp++ = pixel;
}
client.write((const char*)lbuf, Settings->display_width * 3);
}
} else {
for (uint32_t lins = 0; lins < Settings->display_height; lins++) {
lbp = lbuf + (Settings->display_width * 3);
if (bpp == 4) {
// 16 gray scales
#ifdef REVERT_M5EPD
if (dmflg) {
bp = &renderer->framebuffer[(Settings->display_height - lins) * (Settings->display_width / 2)];
bp--;
}
#endif
for (uint32_t cols = 0; cols < Settings->display_width; cols += 2) {
uint8_t pixel;
if (!dmflg) {
for (uint32_t cnt = 0; cnt <= 1; cnt++) {
if (cnt & 1) {
pixel = *bp >> 4;
} else {
pixel = *bp & 0xf;
}
pixel *= 15;
*--lbp = pixel;
*--lbp = pixel;
*--lbp = pixel;
}
bp++;
} else {
for (uint32_t cnt = 0; cnt <= 1; cnt++) {
#ifdef REVERT_M5EPD
if (cnt & 1) {
#else
if (!(cnt & 1)) {
#endif
pixel = *bp >> 4;
} else {
pixel = *bp & 0xf;
}
pixel *= 15;
*--lbp = pixel;
*--lbp = pixel;
*--lbp = pixel;
}
#ifdef REVERT_M5EPD
bp--;
#else
bp++;
#endif
}
}
} else if (bpp == 16) {
// RGB displays have RAM display buffer only ESP32 S3
lbp = lbuf;
dwp = renderer->rgb_fb + ((Settings->display_height - lins - 1) * Settings->display_width);
for (uint32_t cols = 0; cols < Settings->display_width; cols++) {
uint16_t color = *dwp++;
if (renderer->lvgl_pars()->swap_color) {
color = (color >> 8) | (color << 8);
}
*lbp++ = (color &0x001f) << 3; // B (5 bit)
*lbp++ = (color &0x07e0) >> 3; // >> 5 G (6 bit)
*lbp++ = (color &0xf800) >> 8; // >> 10 R (5 bit)
}
} else {
// one bit
for (uint32_t cols = 0; cols < Settings->display_width; cols += 8) {
uint8_t bits = 0x80;
while (bits) {
if (!((*bp) & bits)) {
*--lbp = 0xff;
*--lbp = 0xff;
*--lbp = 0xff;
} else {
*--lbp = 0;
*--lbp = 0;
*--lbp = 0;
}
bits = bits>>1;
}
bp++;
}
}
client.write((const char*)lbuf, Settings->display_width * 3);
client.flush();
}
}
if (lbuf) free(lbuf);
client.stop();
}
#endif // USE_DISPLAY_DUMP
} else {
#ifdef USE_FEXTRACT
if (glob_script_mem.to_time > glob_script_mem.from_time) {
char tsf[32];
s2tstamp(tsf, sizeof(tsf), glob_script_mem.from_time, 0);
char tst[32];
s2tstamp(tst, sizeof(tst), glob_script_mem.to_time, 0);
int32_t fo_from;
int32_t fo_to;
// check if index file available
char *cp = strchr(path, '.');
if (cp) {
*cp = 0;
strcat(path, ".ind");
File fp = ufsp->open(path, FS_FILE_READ);
if (fp > 0) {
fo_from = opt_fext(&fp, tsf, tsf, 1);
fo_to = extract_from_file(&fp, tst, tst, -3, 0, 0, 0, 0);
// read file offsets
if (fo_from > 0 && fo_to > 0) {
fp.seek(fo_from, SeekSet);
fp.readStringUntil('\t');
fo_from = fp.readStringUntil('\n').toInt();
fp.seek(fo_to, SeekSet);
fp.readStringUntil('\t');
fo_to = fp.readStringUntil('\n').toInt();
fp.close();
} else {
fp.close();
goto slowacc;
}
} else {
goto slowacc;
}
} else {
slowacc:
fo_from = opt_fext(&file, tsf, tsf, 1);
fo_to = extract_from_file(&file, tst, tst, -3, 0, 0, 0, 0);
if (fo_to < 0) {
fo_to = extract_from_file(&file, tst, tst, -1, 0, 0, 0, 0);
}
}
if (fo_from >= 0 && fo_to >= 0) {
script_copy_file(&file, 0, fo_from, fo_to, 1, &client);
}
file.close();
client.stop();
glob_script_mem.to_time = 0;
glob_script_mem.from_time = 0;
return 0;
}
#endif
uint32_t len = sizeof(buff);
while (fsize > 0) {
if (len > fsize) len = fsize;
file.read((uint8_t *)buff, len);
client.write((const char*)buff, len);
fsize -= len;
}
file.close();
client.stop();
}
return 0;
}
#endif // USE_UFILESYS
#ifdef SCRIPT_FULL_WEBPAGE
const char HTTP_WEB_FULL_DISPLAY[] PROGMEM =
"";
const char HTTP_SCRIPT_FULLPAGE1[] PROGMEM =
"var rfsh=1;"
"function la(p){"
"var a='';"
"if(la.arguments.length==1){"
"a=p;"
"clearTimeout(lt);"
"}"
"if(x!=null){x.abort();}" // Abort if no response within 2 seconds (happens on restart 1)
"x=new XMLHttpRequest();"
"x.onreadystatechange=()=>{"
"if(x.readyState==4&&x.status==200){"
// "var s=x.responseText.replace(/{t}/g,\"\").replace(/{s}/g,\"\").replace(/{m}/g,\" | \").replace(/{e}/g,\" |
\").replace(/{c}/g,\"%%'>\").replace(/{s}/g,\"
\").replace(/{m}/g,\" | \").replace(/{e}/g,\" |
---|
\");"
"eb('l1').innerHTML=s;"
"}"
"};"
"if (rfsh) {"
"x.open('GET','./sfd%1d?m=1'+a,true);" // ?m related to Webserver->hasArg("m")
"x.send();"
"lt=setTimeout(la,%d);" // Settings->web_refresh
"}"
"}";
const char HTTP_SCRIPT_FULLPAGE2[] PROGMEM =
"function seva(par,ivar){"
"la('&sv='+ivar+'_'+par);"
"}"
"function siva(par,ivar){"
"rfsh=1;"
"la('&sv='+ivar+'_'+par);"
"rfsh=0;"
"}"
"function sivat(par,ivar){"
"rfsh=1;"
// remove : from time string
"par = par.slice(0, 2) + par.slice(3);"
"la('&sv='+ivar+'_'+par);"
"rfsh=0;"
"}"
"function pr(f){"
"if (f) {"
"lt=setTimeout(la,%d);"
"rfsh=1;"
"} else {"
"clearTimeout(lt);"
"rfsh=0;"
"}"
"}"
"";
void ScriptFullWebpage1(void) {
ScriptFullWebpage(1);
}
void ScriptFullWebpage2(void) {
ScriptFullWebpage(2);
}
void ScriptFullWebpage3(void) {
ScriptFullWebpage(3);
}
void ScriptFullWebpage4(void) {
ScriptFullWebpage(4);
}
void ScriptFullWebpage5(void) {
ScriptFullWebpage(5);
}
void ScriptFullWebpage6(void) {
ScriptFullWebpage(6);
}
void ScriptFullWebpage7(void) {
ScriptFullWebpage(7);
}
void ScriptFullWebpage(uint8_t page) {
uint32_t fullpage_refresh = 10000;
if (!HttpCheckPriviledgedAccess()) { return; }
String stmp = Webserver->uri();
if (Webserver->hasArg("m")) { // Status refresh requested
if (Webserver->hasArg("sv")) {
Script_Check_HTML_Setvars();
}
WSContentBegin(200, CT_HTML);
ScriptWebShow('w', page);
WSContentEnd();
//Serial.printf("fwp update sv %s\n",stmp.c_str() );
return; //goto redraw;
// } else {
// Serial.printf("fwp update %s\n",stmp.c_str() );
// }
return;
} else {
//Serial.printf("fwp other %s\n",stmp.c_str() );
}
WSContentBegin(200, CT_HTML);
WSContentSend_P(HTTP_HEADER1, PSTR(D_HTML_LANGUAGE), SettingsTextEscaped(SET_DEVICENAME).c_str(), PSTR("Full Screen"));
WSContentSend_P(HTTP_SCRIPT_FULLPAGE1, page , fullpage_refresh);
WSContentSend_P(HTTP_SCRIPT_FULLPAGE2, fullpage_refresh);
//WSContentSend_P(PSTR("
"));
//WSContentSendStyle();
WSContentSend_P(PSTR("
"));
ScriptWebShow('w', page);
WSContentSend_P(PSTR("
"));
ScriptWebShow('x', page);
WSContentStop();
}
#endif //SCRIPT_FULL_WEBPAGE
void Script_Check_HTML_Setvars(void) {
if (!HttpCheckPriviledgedAccess()) { return; }
//if (Webserver->hasArg("gv")) {
// get variable
// String stmp = Webserver->arg("gv");
//}
if (Webserver->hasArg("sv")) {
// set variable
String stmp = Webserver->arg("sv");
//Serial.printf("fwp has arg dv %s\n", stmp.c_str());
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++;
if (is_int_var(vname)) {
memmove(cp1 + 1, cp1, strlen(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);
#ifdef USE_HTML_CALLBACK
if (glob_script_mem.html_script) Run_Scripter1(glob_script_mem.html_script, 0, 0);
#else
if (glob_script_mem.event_script) Run_Scripter1(glob_script_mem.event_script, 0, 0);
#endif
}
}
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 =
"%s
";
const char SCRIPT_MSG_PULLDOWNa[] PROGMEM =
"%s
";
const char SCRIPT_MSG_RADIOa[] PROGMEM =
"%s