mirror of https://github.com/arendst/Tasmota.git
585 lines
19 KiB
C++
585 lines
19 KiB
C++
/*
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xdrv_52_3_berry_native.ino - Berry scripting language, native fucnctions
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Copyright (C) 2021 Stephan Hadinger, Berry language by Guan Wenliang https://github.com/Skiars/berry
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This program is free software: you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation, either version 3 of the License, or
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(at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program. If not, see <http://www.gnu.org/licenses/>.
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*/
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#ifdef USE_BERRY
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#include <berry.h>
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#include <Wire.h>
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const uint32_t BERRY_MAX_LOGS = 16; // max number of print output recorded when outside of REPL, used to avoid infinite grow of logs
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/*********************************************************************************************\
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* Return C callback from index
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*
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\*********************************************************************************************/
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extern "C" {
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int32_t l_get_cb(struct bvm *vm);
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int32_t l_get_cb(struct bvm *vm) {
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int32_t argc = be_top(vm); // Get the number of arguments
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if (argc >= 2 && be_isint(vm, 2)) {
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int32_t idx = be_toint(vm, 2);
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if (idx >= 0 && idx < ARRAY_SIZE(berry_callback_array)) {
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const berry_callback_t c_ptr = berry_callback_array[idx];
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be_pushcomptr(vm, (void*) c_ptr);
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be_return(vm);
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}
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}
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be_raise(vm, kTypeError, nullptr);
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}
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}
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/*********************************************************************************************\
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* Native functions mapped to Berry functions
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*
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* log(msg:string [,log_level:int]) ->nil
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*
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* import tasmota
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*
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* tasmota.get_free_heap() -> int
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* tasmota.publish(topic:string, payload:string[, retain:bool]) -> nil
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* tasmota.cmd(command:string) -> string
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* tasmota.get_option(index:int) -> int
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* tasmota.millis([delay:int]) -> int
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* tasmota.time_reached(timer:int) -> bool
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* tasmota.yield() -> nil
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*
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* tasmota.get_light([index:int = 0]) -> map
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* tasmota.get_power([index:int = 0]) -> bool
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* tasmota.set_power(idx:int, power:bool) -> bool or nil
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* tasmota.set_light(idx:int, values:map) -> map
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*
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\*********************************************************************************************/
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extern "C" {
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// Berry: `tasmota.publish(topic, payload [,retain]) -> nil``
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//
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int32_t l_publish(struct bvm *vm);
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int32_t l_publish(struct bvm *vm) {
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int32_t top = be_top(vm); // Get the number of arguments
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if (top >= 3 && be_isstring(vm, 2) && (be_isstring(vm, 3) || be_isinstance(vm, 3))) { // 2 mandatory string arguments
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if (top == 3 || (top == 4 && be_isbool(vm, 4))) { // 3rd optional argument must be bool
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const char * topic = be_tostring(vm, 2);
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const char * payload = nullptr;
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size_t payload_len = 0;
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if (be_isstring(vm, 3)) {
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payload = be_tostring(vm, 3);
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payload_len = strlen(payload);
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} else {
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be_getglobal(vm, "bytes"); /* get the bytes class */ /* TODO eventually replace with be_getbuiltin */
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if (be_isderived(vm, 3)) {
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payload = (const char *) be_tobytes(vm, 3, &payload_len);
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}
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}
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bool retain = false;
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if (top == 4) {
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retain = be_tobool(vm, 4);
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}
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if (!payload) { be_raise(vm, "value_error", "Empty payload"); }
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MqttPublishPayload(topic, payload, payload_len, retain);
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be_return_nil(vm); // Return
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}
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}
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be_raise(vm, kTypeError, nullptr);
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}
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// Berry: `tasmota.publish_result(payload:string, subtopic:string) -> nil``
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//
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int32_t l_publish_result(struct bvm *vm);
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int32_t l_publish_result(struct bvm *vm) {
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int32_t top = be_top(vm); // Get the number of arguments
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if (top >= 3 && be_isstring(vm, 2) && be_isstring(vm, 3)) { // 2 mandatory string arguments
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const char * payload = be_tostring(vm, 2);
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const char * subtopic = be_tostring(vm, 3);
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Response_P(PSTR("%s"), payload);
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be_pop(vm, top);
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MqttPublishPrefixTopicRulesProcess_P(RESULT_OR_TELE, subtopic);
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be_return_nil(vm); // Return
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}
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be_raise(vm, kTypeError, nullptr);
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}
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// Berry: `tasmota.cmd(command:string) -> string`
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//
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int32_t l_cmd(struct bvm *vm);
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int32_t l_cmd(struct bvm *vm) {
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int32_t top = be_top(vm); // Get the number of arguments
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if (top == 2 && be_isstring(vm, 2)) { // only 1 argument of type string accepted
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const char * command = be_tostring(vm, 2);
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be_pop(vm, 2); // clear the stack before calling, because of re-entrant call to Berry in a Rule
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ExecuteCommand(command, SRC_BERRY);
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be_pushstring(vm, ResponseData());
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be_return(vm); // Return
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}
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be_raise(vm, kTypeError, nullptr);
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}
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// Berry: tasmota.millis([delay:int]) -> int
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//
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int32_t l_millis(struct bvm *vm);
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int32_t l_millis(struct bvm *vm) {
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int32_t top = be_top(vm); // Get the number of arguments
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if (top == 1 || (top == 2 && be_isint(vm, 2))) { // only 1 argument of type string accepted
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uint32_t delay = 0;
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if (top == 2) {
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delay = be_toint(vm, 2);
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}
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uint32_t ret_millis = millis() + delay;
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be_pushint(vm, ret_millis);
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be_return(vm); // Return
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}
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be_raise(vm, kTypeError, nullptr);
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}
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// Berry: tasmota.get_option(index:int) -> int
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//
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int32_t l_getoption(struct bvm *vm);
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int32_t l_getoption(struct bvm *vm) {
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int32_t top = be_top(vm); // Get the number of arguments
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if (top == 2 && be_isint(vm, 2)) {
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uint32_t opt = GetOption(be_toint(vm, 2));
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be_pushint(vm, opt);
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be_return(vm); // Return
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}
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be_raise(vm, kTypeError, nullptr);
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}
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// Berry: tasmota.time_reached(timer:int) -> bool
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//
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int32_t l_timereached(struct bvm *vm);
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int32_t l_timereached(struct bvm *vm) {
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int32_t top = be_top(vm); // Get the number of arguments
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if (top == 2 && be_isint(vm, 2)) { // only 1 argument of type string accepted
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uint32_t timer = be_toint(vm, 2);
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bool reached = TimeReached(timer);
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be_pushbool(vm, reached);
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be_return(vm); // Return
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}
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be_raise(vm, kTypeError, nullptr);
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}
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// Berry: tasmota.time_reached(timer:int) -> bool
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//
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int32_t l_rtc(struct bvm *vm);
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int32_t l_rtc(struct bvm *vm) {
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int32_t top = be_top(vm); // Get the number of arguments
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if (top == 1) { // no argument (instance only)
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be_newobject(vm, "map");
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map_insert_int(vm, "utc", Rtc.utc_time);
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map_insert_int(vm, "local", Rtc.local_time);
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map_insert_int(vm, "restart", Rtc.restart_time);
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map_insert_int(vm, "timezone", Rtc.time_timezone);
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be_pop(vm, 1);
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be_return(vm);
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}
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be_raise(vm, kTypeError, nullptr);
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}
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// Berry: tasmota.memory() -> map
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//
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int32_t l_memory(struct bvm *vm);
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int32_t l_memory(struct bvm *vm) {
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int32_t top = be_top(vm); // Get the number of arguments
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if (top == 1) { // no argument (instance only)
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be_newobject(vm, "map");
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map_insert_int(vm, "flash", ESP.getFlashChipSize() / 1024);
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map_insert_int(vm, "program", ESP_getSketchSize() / 1024);
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map_insert_int(vm, "program_free", ESP.getFreeSketchSpace() / 1024);
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map_insert_int(vm, "heap_free", ESP_getFreeHeap() / 1024);
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map_insert_int(vm, "frag", ESP_getHeapFragmentation());
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if (UsePSRAM()) {
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map_insert_int(vm, "psram", ESP.getPsramSize() / 1024);
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map_insert_int(vm, "psram_free", ESP.getFreePsram() / 1024);
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}
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be_pop(vm, 1);
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be_return(vm);
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}
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be_raise(vm, kTypeError, nullptr);
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}
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// Berry: tasmota.wifi() -> map
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//
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int32_t l_wifi(struct bvm *vm);
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int32_t l_wifi(struct bvm *vm) {
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int32_t top = be_top(vm); // Get the number of arguments
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if (top == 1) { // no argument (instance only)
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be_newobject(vm, "map");
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if (Settings->flag4.network_wifi) {
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int32_t rssi = WiFi.RSSI();
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map_insert_int(vm, "rssi", rssi);
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map_insert_int(vm, "quality", WifiGetRssiAsQuality(rssi));
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#if LWIP_IPV6
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String ipv6_addr = WifiGetIPv6();
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if (ipv6_addr != "") {
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map_insert_str(vm, "ip6", ipv6_addr.c_str());
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}
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#endif
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if (static_cast<uint32_t>(WiFi.localIP()) != 0) {
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map_insert_str(vm, "mac", WiFi.macAddress().c_str());
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map_insert_str(vm, "ip", WiFi.localIP().toString().c_str());
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}
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}
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be_pop(vm, 1);
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be_return(vm);
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}
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be_raise(vm, kTypeError, nullptr);
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}
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// Berry: tasmota.eth() -> map
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//
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int32_t l_eth(struct bvm *vm);
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int32_t l_eth(struct bvm *vm) {
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int32_t top = be_top(vm); // Get the number of arguments
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if (top == 1) { // no argument (instance only)
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be_newobject(vm, "map");
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#ifdef USE_ETHERNET
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if (static_cast<uint32_t>(EthernetLocalIP()) != 0) {
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map_insert_str(vm, "mac", EthernetMacAddress().c_str());
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map_insert_str(vm, "ip", EthernetLocalIP().toString().c_str());
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}
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#endif
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be_pop(vm, 1);
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be_return(vm);
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}
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be_raise(vm, kTypeError, nullptr);
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}
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int32_t l_time_dump(bvm *vm) {
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int32_t top = be_top(vm); // Get the number of arguments
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if (top == 2 && be_isint(vm, 2)) {
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time_t ts = be_toint(vm, 2);
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struct tm *t = gmtime(&ts);
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be_newobject(vm, "map");
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map_insert_int(vm, "year", t->tm_year + 1900);
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map_insert_int(vm, "month", t->tm_mon + 1);
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map_insert_int(vm, "day", t->tm_mday);
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map_insert_int(vm, "hour", t->tm_hour);
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map_insert_int(vm, "min", t->tm_min);
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map_insert_int(vm, "sec", t->tm_sec);
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map_insert_int(vm, "weekday", t->tm_wday);
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be_pop(vm, 1);
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be_return(vm);
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}
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be_raise(vm, kTypeError, nullptr);
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}
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int32_t l_strftime(bvm *vm) {
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int32_t argc = be_top(vm); // Get the number of arguments
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if (argc == 3 && be_isstring(vm, 2) && be_isint(vm, 3)) {
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const char * format = be_tostring(vm, 2);
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time_t ts = be_toint(vm, 3);
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struct tm *t = gmtime(&ts);
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char s[64] = {0};
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strftime(s, sizeof(s), format, t);
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be_pushstring(vm, s);
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be_return(vm);
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}
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be_raise(vm, kTypeError, nullptr);
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}
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// Berry: tasmota.delay(timer:int) -> nil
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//
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int32_t l_delay(struct bvm *vm);
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int32_t l_delay(struct bvm *vm) {
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int32_t top = be_top(vm); // Get the number of arguments
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if (top == 2 && be_isint(vm, 2)) { // only 1 argument of type string accepted
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uint32_t timer = be_toint(vm, 2);
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delay(timer);
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be_return_nil(vm); // Return
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}
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be_raise(vm, kTypeError, nullptr);
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}
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// Berry: `yield() -> nil`
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// ESP object
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int32_t l_yield(bvm *vm);
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int32_t l_yield(bvm *vm) {
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optimistic_yield(10);
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be_return_nil(vm);
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}
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// Berry: tasmota.scale_uint(int * 5) -> int
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//
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int32_t l_scaleuint(struct bvm *vm);
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int32_t l_scaleuint(struct bvm *vm) {
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int32_t top = be_top(vm); // Get the number of arguments
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if (top == 6 && be_isint(vm, 2) && be_isint(vm, 3) && be_isint(vm, 4) && be_isint(vm, 5) && be_isint(vm, 6)) { // only 1 argument of type string accepted
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int32_t v = be_toint(vm, 2);
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int32_t from1 = be_toint(vm, 3);
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int32_t from2 = be_toint(vm, 4);
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int32_t to1 = be_toint(vm, 5);
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int32_t to2 = be_toint(vm, 6);
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int32_t ret = changeUIntScale(v, from1, from2, to1, to2);
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be_pushint(vm, ret);
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be_return(vm);
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}
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be_raise(vm, kTypeError, nullptr);
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}
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int32_t l_respCmnd(bvm *vm);
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int32_t l_respCmnd(bvm *vm) {
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int32_t top = be_top(vm); // Get the number of arguments
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if (top == 2) {
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const char *msg = be_tostring(vm, 2);
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Response_P("%s", msg);
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be_return_nil(vm); // Return nil when something goes wrong
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}
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be_raise(vm, kTypeError, nullptr);
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}
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int32_t l_respCmndStr(bvm *vm);
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int32_t l_respCmndStr(bvm *vm) {
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int32_t top = be_top(vm); // Get the number of arguments
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if (top == 2) {
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const char *msg = be_tostring(vm, 2);
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ResponseCmndChar(msg);
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be_return_nil(vm); // Return nil when something goes wrong
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}
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be_raise(vm, kTypeError, nullptr);
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}
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int32_t l_respCmndDone(bvm *vm);
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int32_t l_respCmndDone(bvm *vm) {
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ResponseCmndDone();
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be_return_nil(vm);
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}
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int32_t l_respCmndError(bvm *vm);
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int32_t l_respCmndError(bvm *vm) {
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ResponseCmndError();
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be_return_nil(vm);
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}
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int32_t l_respCmndFailed(bvm *vm);
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int32_t l_respCmndFailed(bvm *vm) {
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ResponseCmndFailed();
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be_return_nil(vm);
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}
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// update XdrvMailbox.command with actual command
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int32_t l_resolveCmnd(bvm *vm);
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int32_t l_resolveCmnd(bvm *vm) {
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int32_t top = be_top(vm); // Get the number of arguments
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if (top == 2 && be_isstring(vm, 2)) {
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const char *msg = be_tostring(vm, 2);
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strlcpy(XdrvMailbox.command, msg, CMDSZ);
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be_return_nil(vm); // Return nil when something goes wrong
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}
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be_raise(vm, kTypeError, nullptr);
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}
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// Response_append
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int32_t l_respAppend(bvm *vm);
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int32_t l_respAppend(bvm *vm) {
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int32_t top = be_top(vm); // Get the number of arguments
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if (top == 2 && be_isstring(vm, 2)) {
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const char *msg = be_tostring(vm, 2);
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ResponseAppend_P(PSTR("%s"), msg);
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be_return_nil(vm); // Return nil when something goes wrong
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}
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be_raise(vm, kTypeError, nullptr);
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}
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// web append with decimal conversion
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int32_t l_webSend(bvm *vm);
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int32_t l_webSend(bvm *vm) {
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int32_t top = be_top(vm); // Get the number of arguments
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if (top == 2 && be_isstring(vm, 2)) {
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const char *msg = be_tostring(vm, 2);
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WSContentSend_P(PSTR("%s"), msg);
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be_return_nil(vm); // Return nil when something goes wrong
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}
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be_raise(vm, kTypeError, nullptr);
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}
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// web append with decimal conversion
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int32_t l_webSendDecimal(bvm *vm);
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int32_t l_webSendDecimal(bvm *vm) {
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int32_t top = be_top(vm); // Get the number of arguments
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if (top == 2 && be_isstring(vm, 2)) {
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const char *msg = be_tostring(vm, 2);
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WSContentSend_PD(PSTR("%s"), msg);
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be_return_nil(vm); // Return nil when something goes wrong
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}
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be_raise(vm, kTypeError, nullptr);
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}
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// get power
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int32_t l_getpower(bvm *vm);
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int32_t l_getpower(bvm *vm) {
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be_newobject(vm, "list");
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for (uint32_t i = 0; i < TasmotaGlobal.devices_present; i++) {
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be_pushbool(vm, bitRead(TasmotaGlobal.power, i));
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be_data_push(vm, -2);
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be_pop(vm, 1);
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}
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be_pop(vm, 1);
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be_return(vm); // Return
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}
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int32_t l_setpower(bvm *vm);
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int32_t l_setpower(bvm *vm) {
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int32_t top = be_top(vm); // Get the number of arguments
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if (top == 3 && be_isint(vm, 2) && be_isbool(vm, 3)) {
|
|
int32_t idx = be_toint(vm, 2);
|
|
bool power = be_tobool(vm, 3);
|
|
if ((idx >= 0) && (idx < TasmotaGlobal.devices_present)) {
|
|
ExecuteCommandPower(idx + 1, (power) ? POWER_ON : POWER_OFF, SRC_BERRY);
|
|
be_pushbool(vm, power);
|
|
be_return(vm); // Return
|
|
} else {
|
|
be_return_nil(vm);
|
|
}
|
|
}
|
|
be_raise(vm, kTypeError, nullptr);
|
|
}
|
|
|
|
// get power
|
|
int32_t l_getswitch(bvm *vm);
|
|
int32_t l_getswitch(bvm *vm) {
|
|
be_newobject(vm, "list");
|
|
for (uint32_t i = 0; i < MAX_SWITCHES; i++) {
|
|
if (PinUsed(GPIO_SWT1, i)) {
|
|
be_pushbool(vm, Switch.virtual_state[i] == PRESSED);
|
|
be_data_push(vm, -2);
|
|
be_pop(vm, 1);
|
|
}
|
|
}
|
|
be_pop(vm, 1);
|
|
be_return(vm); // Return
|
|
}
|
|
|
|
#ifdef USE_I2C
|
|
// I2C specific
|
|
// Berry: `i2c_enabled(index:int) -> bool` is I2C device enabled
|
|
int32_t l_i2cenabled(struct bvm *vm);
|
|
int32_t l_i2cenabled(struct bvm *vm) {
|
|
int32_t top = be_top(vm); // Get the number of arguments
|
|
if (top == 2 && be_isint(vm, 2)) {
|
|
int32_t index = be_toint(vm, 2);
|
|
bool enabled = I2cEnabled(index);
|
|
be_pushbool(vm, enabled);
|
|
be_return(vm); // Return
|
|
}
|
|
be_raise(vm, kTypeError, nullptr);
|
|
}
|
|
#else // USE_I2C
|
|
int32_t l_i2cenabled(struct bvm *vm) __attribute__ ((weak, alias ("b_wire_i2cmissing")));
|
|
#endif // USE_I2C
|
|
|
|
}
|
|
|
|
/*********************************************************************************************\
|
|
* Native functions mapped to Berry functions
|
|
*
|
|
* log(msg:string [,log_level:int]) ->nil
|
|
*
|
|
\*********************************************************************************************/
|
|
extern "C" {
|
|
// Berry: `log(msg:string [,log_level:int]) ->nil`
|
|
// Logs the string at LOG_LEVEL_INFO (loglevel=2)
|
|
// We allow this function to be called as a method or a direct function
|
|
// if the first argument is an instance, we remove it
|
|
int32_t l_logInfo(struct bvm *vm);
|
|
int32_t l_logInfo(struct bvm *vm) {
|
|
int32_t top = be_top(vm); // Get the number of arguments
|
|
if (top >= 2 && be_isstring(vm, 2)) { // only 1 argument of type string accepted
|
|
const char * msg = be_tostring(vm, 2);
|
|
uint32_t log_level = LOG_LEVEL_INFO;
|
|
if (top >= 3 && be_isint(vm, 3)) {
|
|
log_level = be_toint(vm, 3);
|
|
if (log_level > LOG_LEVEL_DEBUG_MORE) { log_level = LOG_LEVEL_DEBUG_MORE; }
|
|
}
|
|
AddLog(log_level, PSTR("%s"), msg);
|
|
be_return(vm); // Return
|
|
}
|
|
be_return_nil(vm); // Return nil when something goes wrong
|
|
}
|
|
|
|
// Berry: `getFreeHeap() -> int`
|
|
// ESP object
|
|
int32_t l_getFreeHeap(bvm *vm);
|
|
int32_t l_getFreeHeap(bvm *vm) {
|
|
be_pushint(vm, ESP.getFreeHeap());
|
|
be_return(vm);
|
|
}
|
|
|
|
// Berry: `save(file:string, f:closure) -> bool`
|
|
int32_t l_save(struct bvm *vm);
|
|
int32_t l_save(struct bvm *vm) {
|
|
int32_t top = be_top(vm); // Get the number of arguments
|
|
if (top == 3 && be_isstring(vm, 2) && be_isclosure(vm, 3)) { // only 1 argument of type string accepted
|
|
const char *fname = be_tostring(vm, 2);
|
|
int32_t ret = be_savecode(vm, fname);
|
|
be_pushint(vm, ret);
|
|
be_return(vm); // Return
|
|
}
|
|
be_raise(vm, kTypeError, nullptr);
|
|
}
|
|
}
|
|
|
|
// called as a replacement to Berry `print()`
|
|
void berry_log(const char * berry_buf);
|
|
void berry_log(const char * berry_buf) {
|
|
const char * pre_delimiter = nullptr; // do we need to prepend a delimiter if no REPL command
|
|
if (!berry.repl_active) {
|
|
// if no REPL in flight, we limit the number of logs
|
|
if (berry.log.log.length() == 0) {
|
|
pre_delimiter = BERRY_CONSOLE_CMD_DELIMITER;
|
|
}
|
|
if (berry.log.log.length() >= BERRY_MAX_LOGS) {
|
|
berry.log.log.remove(berry.log.log.head());
|
|
}
|
|
}
|
|
// AddLog(LOG_LEVEL_INFO, PSTR("[Add to log] %s"), berry_buf);
|
|
berry.log.addString(berry_buf, pre_delimiter, "\n");
|
|
AddLog(LOG_LEVEL_INFO, PSTR("%s"), berry_buf);
|
|
}
|
|
|
|
const uint16_t LOGSZ = 128; // Max number of characters in log line
|
|
|
|
extern "C" {
|
|
void berry_log_C(const char * berry_buf, ...) {
|
|
// To save stack space support logging for max text length of 128 characters
|
|
char log_data[LOGSZ];
|
|
|
|
va_list arg;
|
|
va_start(arg, berry_buf);
|
|
uint32_t len = ext_vsnprintf_P(log_data, LOGSZ-3, berry_buf, arg);
|
|
va_end(arg);
|
|
if (len+3 > LOGSZ) { strcat(log_data, "..."); } // Actual data is more
|
|
berry_log(log_data);
|
|
}
|
|
}
|
|
|
|
|
|
void berry_log_P(const char * berry_buf, ...) {
|
|
// To save stack space support logging for max text length of 128 characters
|
|
char log_data[LOGSZ];
|
|
|
|
va_list arg;
|
|
va_start(arg, berry_buf);
|
|
uint32_t len = ext_vsnprintf_P(log_data, LOGSZ-3, berry_buf, arg);
|
|
va_end(arg);
|
|
if (len+3 > LOGSZ) { strcat(log_data, "..."); } // Actual data is more
|
|
berry_log(log_data);
|
|
}
|
|
|
|
#endif // USE_BERRY
|