add wiegand module (#3203)
* add wiegand module * minor tweaks to wiegand module * fix a whitespace error (tabs!!!!) * remove an unnecessary volatile qualifier
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63e1fcda06
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@ -70,6 +70,7 @@
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//#define LUA_USE_MODULES_U8G2
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//#define LUA_USE_MODULES_U8G2
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//#define LUA_USE_MODULES_UCG
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//#define LUA_USE_MODULES_UCG
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//#define LUA_USE_MODULES_WEBSOCKET
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//#define LUA_USE_MODULES_WEBSOCKET
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//#define LUA_USE_MODULES_WIEGAND
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#define LUA_USE_MODULES_WIFI
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#define LUA_USE_MODULES_WIFI
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//#define LUA_USE_MODULES_WIFI_MONITOR
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//#define LUA_USE_MODULES_WIFI_MONITOR
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//#define LUA_USE_MODULES_WPS
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//#define LUA_USE_MODULES_WPS
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@ -0,0 +1,244 @@
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// Module for reading keycards via Wiegand protocol
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// ## Contributors
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// [Cody Cutrer](https://github.com/ccutrer) adapted to being a NodeMCU module
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#include "module.h"
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#include "lauxlib.h"
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#include "platform.h"
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#include "task/task.h"
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#include "user_interface.h"
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#include "pm/swtimer.h"
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#ifdef LUA_USE_MODULES_WIEGAND
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#if !defined(GPIO_INTERRUPT_ENABLE) || !defined(GPIO_INTERRUPT_HOOK_ENABLE)
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#error Must have GPIO_INTERRUPT and GPIO_INTERRUPT_HOOK if using WIEGAND module
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#endif
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#endif
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typedef struct {
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uint32_t current_card;
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int bit_count;
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uint32_t last_card;
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uint32_t last_bit_count;
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int cb_ref;
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int self_ref;
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ETSTimer timer;
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int timer_running;
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int task_posted;
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int pinD0;
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int pinD1;
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uint32_t last_bit_time;
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} wiegand_struct_t;
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typedef wiegand_struct_t* wiegand_t;
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static int tasknumber;
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static volatile wiegand_t pins_to_wiegand_state[NUM_GPIO];
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static wiegand_t wiegand_get( lua_State *L, int stack)
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{
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wiegand_t w = (wiegand_t)luaL_checkudata(L, stack, "wiegand.wiegand");
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if (w == NULL)
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return (wiegand_t)luaL_error(L, "wiegand object expected");
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return w;
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}
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static uint32_t ICACHE_RAM_ATTR wiegand_intr(uint32_t ret_gpio_status)
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{
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uint32_t gpio_status = GPIO_REG_READ(GPIO_STATUS_ADDRESS);
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uint32_t gpio_bits = gpio_status;
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for(int i = 0; gpio_bits > 0; ++i, gpio_bits >>= 1) {
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if (i == NUM_GPIO)
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break;
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if ((gpio_bits & 1) == 0)
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continue;
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// find the struct registered for this pin
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volatile wiegand_t w = pins_to_wiegand_state[i];
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if (!w) {
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continue;
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}
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++w->bit_count;
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w->current_card <<= 1;
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if (i == pin_num[w->pinD1])
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w->current_card |= 1;
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w->last_bit_time = system_get_time();
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if (!w->task_posted) {
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task_post_medium(tasknumber, (os_param_t)w);
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w->task_posted = 1;
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}
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GPIO_REG_WRITE(GPIO_STATUS_W1TC_ADDRESS, gpio_status & (1 << i));
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ret_gpio_status &= ~(1 << i);
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}
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return ret_gpio_status;
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}
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static int parity(int val)
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{
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int parity = 0;
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while (val > 0) {
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parity ^= val & 1;
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val >>= 1;
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}
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return parity;
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}
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static bool wiegand_store_card(volatile wiegand_t w)
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{
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uint32_t card = w->current_card;
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int bit_count = w->bit_count;
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w->current_card = 0;
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w->bit_count = 0;
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switch(bit_count) {
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case 4:
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w->last_card = card;
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w->last_bit_count = bit_count;
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return true;
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case 26:
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// even parity over the first 13 bits, odd parity over the last 13 bits
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if (parity((card & 0x3ffe000) >> 13) != 0 || parity(card & 0x1fff) != 1)
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return false;
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w->last_card = (card >> 1) & 0xffffff;
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w->last_bit_count = bit_count;
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return true;
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}
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return false;
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}
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static void lwiegand_timer_done(void *param)
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{
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lua_State *L = lua_getstate();
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wiegand_t w = (wiegand_t) param;
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os_timer_disarm(&w->timer);
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if (wiegand_store_card(w)) {
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lua_rawgeti(L, LUA_REGISTRYINDEX, w->cb_ref);
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lua_pushinteger(L, w->last_card);
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lua_pushinteger(L, w->last_bit_count);
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lua_call(L, 2, 0);
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}
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}
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static void lwiegand_cb(os_param_t param, uint8_t prio)
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{
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wiegand_t w = (wiegand_t) param;
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(void) prio;
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*(volatile int *)&w->task_posted = 0;
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if (w->timer_running)
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os_timer_disarm(&w->timer);
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int timeout = 25 - (system_get_time() - w->last_bit_time) / 1000;
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if (timeout < 0) {
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lwiegand_timer_done(w);
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} else {
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os_timer_arm(&w->timer, timeout, 0);
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}
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}
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static void reregister_gpio_hooks()
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{
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uint32_t mask = 0;
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for (int i = 0; i < NUM_GPIO; ++i) {
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if (pins_to_wiegand_state[i])
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mask |= (1 << i);
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}
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platform_gpio_register_intr_hook(mask, wiegand_intr);
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}
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static int lwiegand_close( lua_State* L)
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{
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wiegand_t w = wiegand_get(L, 1);
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luaL_unref(L, LUA_REGISTRYINDEX, w->cb_ref);
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w->cb_ref = LUA_NOREF;
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if (w->timer_running) {
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os_timer_disarm(&w->timer);
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}
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luaL_unref(L, LUA_REGISTRYINDEX, w->self_ref);
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w->self_ref = LUA_NOREF;
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pins_to_wiegand_state[pin_num[w->pinD0]] = NULL;
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pins_to_wiegand_state[pin_num[w->pinD1]] = NULL;
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reregister_gpio_hooks();
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platform_gpio_intr_init(w->pinD0, GPIO_PIN_INTR_DISABLE);
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platform_gpio_intr_init(w->pinD1, GPIO_PIN_INTR_DISABLE);
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return 0;
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}
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// Lua: wiegand.created0pin, d1pin)
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static int lwiegand_create(lua_State* L)
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{
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unsigned pinD0 = luaL_checkinteger(L, 1);
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unsigned pinD1 = luaL_checkinteger(L, 2);
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luaL_argcheck(L, platform_gpio_exists(pinD0) && pinD0>0, 1, "Invalid pin for D0");
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luaL_argcheck(L, platform_gpio_exists(pinD1) && pinD1>0 && pinD0 != pinD1, 2, "Invalid pin for D1");
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luaL_checkfunction(L, 3);
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if (pins_to_wiegand_state[pin_num[pinD0]] || pins_to_wiegand_state[pin_num[pinD1]])
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return luaL_error(L, "pin already in use");
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wiegand_t ud = (wiegand_t)lua_newuserdata(L, sizeof(wiegand_struct_t));
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if (!ud) return luaL_error(L, "not enough memory");
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luaL_getmetatable(L, "wiegand.wiegand");
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lua_setmetatable(L, -2);
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ud->current_card = 0;
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ud->bit_count = 0;
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ud->timer_running = 0;
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ud->task_posted = 0;
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ud->pinD0 = pinD0;
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ud->pinD1 = pinD1;
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platform_gpio_mode( pinD0, PLATFORM_GPIO_INT, PLATFORM_GPIO_FLOAT);
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platform_gpio_mode( pinD1, PLATFORM_GPIO_INT, PLATFORM_GPIO_FLOAT);
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lua_pushvalue(L, 3);
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ud->cb_ref = luaL_ref(L, LUA_REGISTRYINDEX);
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lua_pushvalue(L, -1);
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ud->self_ref = luaL_ref(L, LUA_REGISTRYINDEX);
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os_timer_setfn(&ud->timer, lwiegand_timer_done, ud);
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SWTIMER_REG_CB(lwiegand_timer_done, SWTIMER_RESUME);
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pins_to_wiegand_state[pin_num[pinD0]] = ud;
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pins_to_wiegand_state[pin_num[pinD1]] = ud;
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reregister_gpio_hooks();
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platform_gpio_intr_init(pinD0, GPIO_PIN_INTR_NEGEDGE);
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platform_gpio_intr_init(pinD1, GPIO_PIN_INTR_NEGEDGE);
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return 1;
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}
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// Module function map
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LROT_BEGIN(wiegand_dyn, NULL, LROT_MASK_GC_INDEX)
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LROT_FUNCENTRY( __gc, lwiegand_close )
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LROT_TABENTRY( __index, wiegand_dyn )
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LROT_FUNCENTRY( close, lwiegand_close )
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LROT_END(wiegand_dyn, NULL, LROT_MASK_GC_INDEX)
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LROT_BEGIN(wiegand, NULL, 0)
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LROT_FUNCENTRY( create, lwiegand_create )
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LROT_END (wiegand, NULL, 0)
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int luaopen_wiegand( lua_State *L ) {
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luaL_rometatable(L, "wiegand.wiegand", LROT_TABLEREF(wiegand_dyn));
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tasknumber = task_get_id(lwiegand_cb);
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memset((void *)pins_to_wiegand_state, 0, sizeof(pins_to_wiegand_state));
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return 0;
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}
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NODEMCU_MODULE(WIEGAND, "wiegand", wiegand, luaopen_wiegand);
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@ -0,0 +1,46 @@
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# wiegand Module
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| Since | Origin / Contributor | Maintainer | Source |
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| :----- | :-------------------- | :---------- | :------ |
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| 2020-07-08 | [Cody Cutrer](https://github.com/ccutrer) | [Cody Cutrer](https://github.com/ccutrer) | [wiegand.c](../../app/modules/wiegand.c)|
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This module can read the input from RFID/keypad readers that support Wiegand outputs. 4 (keypress) and 26 (Wiegand standard) bit formats are supported. Wiegand requires three connections - two GPIOs connected to D0 and D1 datalines, and a ground connection.
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## wiegand.create()
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Creates a dynamic wiegand object that receives a callback when data is received.
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Initialize the nodemcu to talk to a Wiegand keypad
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#### Syntax
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`wiegand.create(pinD0, pinD1, callback)`
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#### Parameters
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- `pinD0` This is a GPIO number (excluding 0) and connects to the D0 data line
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- `pinD1` This is a GPIO number (excluding 0) and connects to the D1 data line
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- `callback` This is a function that will invoked when a full card or keypress is read.
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The callback will be invoked with two arguments when a card is received. The first argument is the received code,
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the second is the number of bits in the format (4, 26). For 4-bit format, it's just an integer of the key they
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pressed; * is 10, and # is 11. For 26-bit format, it's the raw code. If you want to separate it into site codes
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and card numbers, you'll need to do the arithmetic yourself (top 8 bits are site code; bottom 16 are card
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numbers).
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#### Returns
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`wiegand` object. If the arguments are in error, or the operation cannot be completed, then an error is thrown.
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#### Example
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local w = wiegand.create(1, 2, function (card, bits)
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print("Card=" .. card .. " bits=" .. bits)
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end)
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w:close()
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# Wiegand Object Methods
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## wiegandobj:close()
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Releases the resources associated with the card reader.
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#### Syntax
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`wiegandobj:close()`
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#### Example
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wiegandobj:close()
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@ -129,6 +129,7 @@ pages:
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- 'uart': 'modules/uart.md'
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- 'uart': 'modules/uart.md'
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- 'ucg': 'modules/ucg.md'
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- 'ucg': 'modules/ucg.md'
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- 'websocket': 'modules/websocket.md'
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- 'websocket': 'modules/websocket.md'
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- 'wiegand': 'modules/wiegand.md'
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- 'wifi': 'modules/wifi.md'
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- 'wifi': 'modules/wifi.md'
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- 'wifi.monitor': 'modules/wifi_monitor.md'
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- 'wifi.monitor': 'modules/wifi_monitor.md'
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- 'wps': 'modules/wps.md'
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- 'wps': 'modules/wps.md'
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@ -736,6 +736,11 @@ stds.nodemcu_libs = {
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createClient = empty
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createClient = empty
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}
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}
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},
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},
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wiegand = {
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fields = {
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create = empty
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}
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},
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wifi = {
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wifi = {
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fields = {
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fields = {
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COUNTRY_AUTO = empty,
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COUNTRY_AUTO = empty,
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