nodemcu-firmware/app/modules/tmr.c

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/*guys, srsly, turn on warnings in the makefile*/
#if defined(__GNUC__)
#pragma GCC diagnostic warning "-Wall"
#pragma GCC diagnostic warning "-Wextra"
#pragma GCC diagnostic ignored "-Wunused-parameter"
#endif
/*-------------------------------------
NEW TIMER API
---------------------------------------
tmr.wdclr() -- not changed
tmr.now() -- not changed
tmr.time() -- not changed
tmr.delay() -- not changed
tmr.alarm() -- not changed
tmr.stop() -- changed, see below. use tmr.unregister for old functionality
tmr.register(id, interval, mode, function)
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bind function with timer and set the interval in ms
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the mode can be:
tmr.ALARM_SINGLE for a single run alarm
tmr.ALARM_SEMI for a multiple single run alarm
tmr.ALARM_AUTO for a repating alarm
tmr.register does NOT start the timer
tmr.alarm is a tmr.register & tmr.start macro
tmr.unregister(id)
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stop alarm, unbind function and clean up memory
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not needed for ALARM_SINGLE, as it unregisters itself
tmr.start(id)
ret: bool
start a alarm, returns true on success
tmr.stop(id)
ret: bool
stops a alarm, returns true on success
this call dose not free any memory, to do so use tmr.unregister
stopped alarms can be started with start
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tmr.interval(id, interval)
set alarm interval, running alarm will be restarted
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tmr.state(id)
ret: (bool, int) or nil
returns alarm status (true=started/false=stopped) and mode
nil if timer is unregistered
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tmr.softwd(int)
set a negative value to stop the timer
any other value starts the timer, when the
countdown reaches zero, the device restarts
the timer units are seconds
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*/
#include "module.h"
#include "lauxlib.h"
#include "platform.h"
#include "c_types.h"
#include "user_interface.h"
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#define TIMER_MODE_OFF 3
#define TIMER_MODE_SINGLE 0
#define TIMER_MODE_SEMI 2
#define TIMER_MODE_AUTO 1
#define TIMER_IDLE_FLAG (1<<7)
typedef struct{
os_timer_t os;
sint32_t lua_ref;
uint32_t interval;
uint8_t mode;
}timer_struct_t;
typedef timer_struct_t* timer_t;
//everybody just love unions! riiiiight?
static union {
uint64_t block;
uint32_t part[2];
} rtc_time;
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static sint32_t soft_watchdog = -1;
static timer_struct_t alarm_timers[NUM_TMR];
static os_timer_t rtc_timer;
static void alarm_timer_common(void* arg){
timer_t tmr = &alarm_timers[(uint32_t)arg];
lua_State* L = lua_getstate();
if(tmr->lua_ref == LUA_NOREF)
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return;
lua_rawgeti(L, LUA_REGISTRYINDEX, tmr->lua_ref);
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//if the timer was set to single run we clean up after it
if(tmr->mode == TIMER_MODE_SINGLE){
luaL_unref(L, LUA_REGISTRYINDEX, tmr->lua_ref);
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tmr->lua_ref = LUA_NOREF;
tmr->mode = TIMER_MODE_OFF;
}else if(tmr->mode == TIMER_MODE_SEMI){
tmr->mode |= TIMER_IDLE_FLAG;
}
lua_call(L, 0, 0);
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}
// Lua: tmr.delay( us )
static int tmr_delay( lua_State* L ){
sint32_t us = luaL_checkinteger(L, 1);
if(us <= 0)
return luaL_error(L, "wrong arg range");
while(us >= 1000000){
us -= 1000000;
os_delay_us(1000000);
system_soft_wdt_feed ();
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}
if(us>0){
os_delay_us(us);
system_soft_wdt_feed ();
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}
return 0;
}
// Lua: tmr.now() , return system timer in us
static int tmr_now(lua_State* L){
uint32_t now = 0x7FFFFFFF & system_get_time();
lua_pushinteger(L, now);
return 1;
}
// Lua: tmr.register( id, interval, mode, function )
static int tmr_register(lua_State* L){
uint32_t id = luaL_checkinteger(L, 1);
MOD_CHECK_ID(tmr, id);
sint32_t interval = luaL_checkinteger(L, 2);
uint8_t mode = luaL_checkinteger(L, 3);
//validate arguments
const int32_t MAX_TIMEOUT = 0xC49BA5; // assuming system_timer_reinit() has *not* been called
uint8_t args_invalid = (interval <= 0 || interval > MAX_TIMEOUT)
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|| (mode != TIMER_MODE_SINGLE && mode != TIMER_MODE_SEMI && mode != TIMER_MODE_AUTO)
|| (lua_type(L, 4) != LUA_TFUNCTION && lua_type(L, 4) != LUA_TLIGHTFUNCTION);
if(args_invalid)
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return luaL_error(L, "wrong arg range");
//get the lua function reference
lua_pushvalue(L, 4);
sint32_t ref = luaL_ref(L, LUA_REGISTRYINDEX);
timer_t tmr = &alarm_timers[id];
if(!(tmr->mode & TIMER_IDLE_FLAG) && tmr->mode != TIMER_MODE_OFF)
ets_timer_disarm(&tmr->os);
//there was a bug in this part, the second part of the following condition was missing
if(tmr->lua_ref != LUA_NOREF && tmr->lua_ref != ref)
luaL_unref(L, LUA_REGISTRYINDEX, tmr->lua_ref);
tmr->lua_ref = ref;
tmr->mode = mode|TIMER_IDLE_FLAG;
tmr->interval = interval;
ets_timer_setfn(&tmr->os, alarm_timer_common, (void*)id);
return 0;
}
// Lua: tmr.start( id )
static int tmr_start(lua_State* L){
uint8_t id = luaL_checkinteger(L, 1);
MOD_CHECK_ID(tmr,id);
timer_t tmr = &alarm_timers[id];
//we return false if the timer is not idle
if(!(tmr->mode&TIMER_IDLE_FLAG)){
lua_pushboolean(L, 0);
}else{
tmr->mode &= ~TIMER_IDLE_FLAG;
ets_timer_arm_new(&tmr->os, tmr->interval, tmr->mode==TIMER_MODE_AUTO, 1);
lua_pushboolean(L, 1);
}
return 1;
}
// Lua: tmr.alarm( id, interval, repeat, function )
static int tmr_alarm(lua_State* L){
tmr_register(L);
return tmr_start(L);
}
// Lua: tmr.stop( id )
static int tmr_stop(lua_State* L){
uint8_t id = luaL_checkinteger(L, 1);
MOD_CHECK_ID(tmr,id);
timer_t tmr = &alarm_timers[id];
//we return false if the timer is idle (of not registered)
if(!(tmr->mode & TIMER_IDLE_FLAG) && tmr->mode != TIMER_MODE_OFF){
tmr->mode |= TIMER_IDLE_FLAG;
ets_timer_disarm(&tmr->os);
lua_pushboolean(L, 1);
}else{
lua_pushboolean(L, 0);
}
return 1;
}
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// Lua: tmr.unregister( id )
static int tmr_unregister(lua_State* L){
uint8_t id = luaL_checkinteger(L, 1);
MOD_CHECK_ID(tmr,id);
timer_t tmr = &alarm_timers[id];
if(!(tmr->mode & TIMER_IDLE_FLAG) && tmr->mode != TIMER_MODE_OFF)
ets_timer_disarm(&tmr->os);
if(tmr->lua_ref != LUA_NOREF)
luaL_unref(L, LUA_REGISTRYINDEX, tmr->lua_ref);
tmr->lua_ref = LUA_NOREF;
tmr->mode = TIMER_MODE_OFF;
return 0;
}
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// Lua: tmr.interval( id, interval )
static int tmr_interval(lua_State* L){
uint8_t id = luaL_checkinteger(L, 1);
MOD_CHECK_ID(tmr,id);
timer_t tmr = &alarm_timers[id];
sint32_t interval = luaL_checkinteger(L, 2);
if(interval <= 0)
return luaL_error(L, "wrong arg range");
if(tmr->mode != TIMER_MODE_OFF){
tmr->interval = interval;
if(!(tmr->mode&TIMER_IDLE_FLAG)){
ets_timer_disarm(&tmr->os);
ets_timer_arm_new(&tmr->os, tmr->interval, tmr->mode==TIMER_MODE_AUTO, 1);
}
}
return 0;
}
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// Lua: tmr.state( id )
static int tmr_state(lua_State* L){
uint8_t id = luaL_checkinteger(L, 1);
MOD_CHECK_ID(tmr,id);
timer_t tmr = &alarm_timers[id];
if(tmr->mode == TIMER_MODE_OFF){
lua_pushnil(L);
return 1;
}
lua_pushboolean(L, (tmr->mode&TIMER_IDLE_FLAG)==0);
lua_pushinteger(L, tmr->mode&(~TIMER_IDLE_FLAG));
return 2;
}
/*I left the led comments 'couse I don't know
why they are here*/
// extern void update_key_led();
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// Lua: tmr.wdclr()
static int tmr_wdclr( lua_State* L ){
system_soft_wdt_feed ();
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// update_key_led();
return 0;
}
//system_rtc_clock_cali_proc() returns
//a fixed point value (12 bit fraction part)
//it tells how many rtc clock ticks represent 1us.
//the high 64 bits of the uint64_t multiplication
//are unnedded (I did the math)
static uint32_t rtc2sec(uint64_t rtc){
uint64_t aku = system_rtc_clock_cali_proc();
aku *= rtc;
return (aku>>12)/1000000;
}
//the following function workes, I just wrote it and didn't use it.
/*static uint64_t sec2rtc(uint32_t sec){
uint64_t aku = (1<<20)/system_rtc_clock_cali_proc();
aku *= sec;
return (aku>>8)*1000000;
}*/
inline static void rtc_timer_update(){
uint32_t current = system_get_rtc_time();
if(rtc_time.part[0] > current) //overflow check
rtc_time.part[1]++;
rtc_time.part[0] = current;
}
void rtc_callback(void *arg){
rtc_timer_update();
if(soft_watchdog > 0){
soft_watchdog--;
if(soft_watchdog == 0)
system_restart();
}
}
// Lua: tmr.time() , return rtc time in second
static int tmr_time( lua_State* L ){
rtc_timer_update();
lua_pushinteger(L, rtc2sec(rtc_time.block));
return 1;
}
// Lua: tmr.softwd( value )
static int tmr_softwd( lua_State* L ){
soft_watchdog = luaL_checkinteger(L, 1);
return 0;
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}
// Module function map
static const LUA_REG_TYPE tmr_map[] = {
{ LSTRKEY( "delay" ), LFUNCVAL( tmr_delay ) },
{ LSTRKEY( "now" ), LFUNCVAL( tmr_now ) },
{ LSTRKEY( "wdclr" ), LFUNCVAL( tmr_wdclr ) },
{ LSTRKEY( "softwd" ), LFUNCVAL( tmr_softwd ) },
{ LSTRKEY( "time" ), LFUNCVAL( tmr_time ) },
{ LSTRKEY( "register" ), LFUNCVAL( tmr_register ) },
{ LSTRKEY( "alarm" ), LFUNCVAL( tmr_alarm ) },
{ LSTRKEY( "start" ), LFUNCVAL( tmr_start ) },
{ LSTRKEY( "stop" ), LFUNCVAL( tmr_stop ) },
{ LSTRKEY( "unregister" ), LFUNCVAL( tmr_unregister ) },
{ LSTRKEY( "state" ), LFUNCVAL( tmr_state ) },
{ LSTRKEY( "interval" ), LFUNCVAL( tmr_interval) },
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{ LSTRKEY( "ALARM_SINGLE" ), LNUMVAL( TIMER_MODE_SINGLE ) },
{ LSTRKEY( "ALARM_SEMI" ), LNUMVAL( TIMER_MODE_SEMI ) },
{ LSTRKEY( "ALARM_AUTO" ), LNUMVAL( TIMER_MODE_AUTO ) },
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{ LNILKEY, LNILVAL }
};
int luaopen_tmr( lua_State *L ){
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int i;
for(i=0; i<NUM_TMR; i++){
alarm_timers[i].lua_ref = LUA_NOREF;
alarm_timers[i].mode = TIMER_MODE_OFF;
ets_timer_disarm(&alarm_timers[i].os);
}
rtc_time.block = 0;
ets_timer_disarm(&rtc_timer);
ets_timer_setfn(&rtc_timer, rtc_callback, NULL);
ets_timer_arm_new(&rtc_timer, 1000, 1, 1);
return 0;
}
NODEMCU_MODULE(TMR, "tmr", tmr_map, luaopen_tmr);