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program.cpp
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program.cpp
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/* OpenSprinkler Unified (AVR/RPI/BBB/LINUX) Firmware
* Copyright (C) 2015 by Ray Wang (ray@opensprinkler.com)
*
* Program data structures and functions
* Feb 2015 @ OpenSprinkler.com
*
* This file is part of the OpenSprinkler library
*
* 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
* <http://www.gnu.org/licenses/>.
*/
#include <limits.h>
#include "program.h"
#include "main.h"
#if !defined(SECS_PER_DAY)
#define SECS_PER_MIN (60UL)
#define SECS_PER_HOUR (3600UL)
#define SECS_PER_DAY (SECS_PER_HOUR * 24UL)
#endif
// Declare static data members
unsigned char ProgramData::nprograms = 0;
unsigned char ProgramData::nqueue = 0;
RuntimeQueueStruct ProgramData::queue[RUNTIME_QUEUE_SIZE];
unsigned char ProgramData::station_qid[MAX_NUM_STATIONS];
LogStruct ProgramData::lastrun;
time_os_t ProgramData::last_seq_stop_times[NUM_SEQ_GROUPS];
extern char tmp_buffer[];
void ProgramData::init() {
reset_runtime();
load_count();
}
void ProgramData::reset_runtime() {
memset(station_qid, 0xFF, MAX_NUM_STATIONS); // reset station qid to 0xFF
nqueue = 0;
memset(last_seq_stop_times, 0, sizeof(last_seq_stop_times));
}
/** Insert a new element to the queue
* This function returns pointer to the next available element in the queue
* and returns NULL if the queue is full
*/
RuntimeQueueStruct* ProgramData::enqueue() {
if (nqueue < RUNTIME_QUEUE_SIZE) {
nqueue ++;
return queue + (nqueue-1);
} else {
return NULL;
}
}
/** Remove an element from the queue
* This function copies the last element of
* the queue to overwrite the requested
* element, therefore removing the requested element.
*/
// this removes an element from the queue
void ProgramData::dequeue(unsigned char qid) {
if (qid>=nqueue) return;
if (qid<nqueue-1) {
queue[qid] = queue[nqueue-1]; // copy the last element to the dequeud element to fill the space
if(station_qid[queue[qid].sid] == nqueue-1) // fix queue index if necessary
station_qid[queue[qid].sid] = qid;
}
nqueue--;
}
/** Load program count from program file */
void ProgramData::load_count() {
nprograms = file_read_byte(PROG_FILENAME, 0);
}
/** Save program count to program file */
void ProgramData::save_count() {
file_write_byte(PROG_FILENAME, 0, nprograms);
}
/** Erase all program data */
void ProgramData::eraseall() {
nprograms = 0;
save_count();
}
/** Read a program from program file*/
void ProgramData::read(unsigned char pid, ProgramStruct *buf) {
if (pid >= nprograms) return;
// first unsigned char is program counter, so 1+
file_read_block(PROG_FILENAME, buf, 1+(ulong)pid*PROGRAMSTRUCT_SIZE, PROGRAMSTRUCT_SIZE);
}
/** Add a program */
unsigned char ProgramData::add(ProgramStruct *buf) {
if (nprograms >= MAX_NUM_PROGRAMS) return 0;
file_write_block(PROG_FILENAME, buf, 1+(ulong)nprograms*PROGRAMSTRUCT_SIZE, PROGRAMSTRUCT_SIZE);
nprograms ++;
save_count();
return 1;
}
/** Move a program up (i.e. swap a program with the one above it) */
void ProgramData::moveup(unsigned char pid) {
if(pid >= nprograms || pid == 0) return;
// swap program pid-1 and pid
ulong pos = 1+(ulong)(pid-1)*PROGRAMSTRUCT_SIZE;
ulong next = pos+PROGRAMSTRUCT_SIZE;
char buf2[PROGRAMSTRUCT_SIZE];
file_read_block(PROG_FILENAME, tmp_buffer, pos, PROGRAMSTRUCT_SIZE);
file_read_block(PROG_FILENAME, buf2, next, PROGRAMSTRUCT_SIZE);
file_write_block(PROG_FILENAME, tmp_buffer, next, PROGRAMSTRUCT_SIZE);
file_write_block(PROG_FILENAME, buf2, pos, PROGRAMSTRUCT_SIZE);
}
void ProgramData::toggle_pause(ulong delay) {
if (os.status.pause_state) { // was paused
resume_stations();
} else {
//os.clear_all_station_bits(); // TODO: this will affect logging
os.pause_timer = delay;
set_pause();
}
os.status.pause_state = !os.status.pause_state;
}
void ProgramData::set_pause() {
RuntimeQueueStruct *q = queue;
time_os_t curr_t = os.now_tz();
for (; q < queue + nqueue; q++) {
turn_off_station(q->sid, curr_t);
if (curr_t>=q->st+q->dur) { // already finished running
continue;
} else if (curr_t>=q->st) { // currently running
q->dur -= (curr_t - q->st); // adjust remaining run time
q->st = curr_t + os.pause_timer; // push back start time
} else { // scheduled but not running yet
q->st += os.pause_timer;
}
q->deque_time += os.pause_timer;
unsigned char gid = os.get_station_gid(q->sid);
if (q->st + q->dur > last_seq_stop_times[gid]) {
last_seq_stop_times[gid] = q->st + q->dur; // update last_seq_stop_times of the corresponding group
}
}
}
void ProgramData::resume_stations() {
RuntimeQueueStruct *q = queue;
for (; q < queue + nqueue; q++) {
q->st -= os.pause_timer;
q->deque_time -= os.pause_timer;
q->st += 1; // adjust by 1 second to give time for scheduler
q->deque_time += 1;
}
clear_pause();
}
void ProgramData::clear_pause() {
os.status.pause_state = 0;
os.pause_timer = 0;
memset(last_seq_stop_times, 0, sizeof(last_seq_stop_times));
}
/** Modify a program */
unsigned char ProgramData::modify(unsigned char pid, ProgramStruct *buf) {
if (pid >= nprograms) return 0;
ulong pos = 1+(ulong)pid*PROGRAMSTRUCT_SIZE;
file_write_block(PROG_FILENAME, buf, pos, PROGRAMSTRUCT_SIZE);
return 1;
}
/** Delete program(s) */
unsigned char ProgramData::del(unsigned char pid) {
if (pid >= nprograms) return 0;
if (nprograms == 0) return 0;
ulong pos = 1+(ulong)(pid+1)*PROGRAMSTRUCT_SIZE;
// erase by copying backward
for (; pos < 1+(ulong)nprograms*PROGRAMSTRUCT_SIZE; pos+=PROGRAMSTRUCT_SIZE) {
file_copy_block(PROG_FILENAME, pos, pos-PROGRAMSTRUCT_SIZE, PROGRAMSTRUCT_SIZE, tmp_buffer);
}
nprograms --;
save_count();
return 1;
}
// set the enable bit
unsigned char ProgramData::set_flagbit(unsigned char pid, unsigned char bid, unsigned char value) {
if (pid >= nprograms) return 0;
unsigned char flag = file_read_byte(PROG_FILENAME, 1+(ulong)pid*PROGRAMSTRUCT_SIZE);
if(value) flag|=(1<<bid);
else flag&=(~(1<<bid));
file_write_byte(PROG_FILENAME, 1+(ulong)pid*PROGRAMSTRUCT_SIZE, flag);
return 1;
}
/** Decode a sunrise/sunset start time to actual start time */
int16_t ProgramStruct::starttime_decode(int16_t t) {
if((t>>15)&1) return -1;
int16_t offset = t&0x7ff;
if((t>>STARTTIME_SIGN_BIT)&1) offset = -offset;
if((t>>STARTTIME_SUNRISE_BIT)&1) { // sunrise time
t = os.nvdata.sunrise_time + offset;
if (t<0) t=0; // clamp it to 0 if less than 0
} else if((t>>STARTTIME_SUNSET_BIT)&1) {
t = os.nvdata.sunset_time + offset;
if (t>=1440) t=1439; // clamp it to 1440 if larger than 1440
}
return t;
}
/** Check if a given time matches the program's start day */
unsigned char ProgramStruct::check_day_match(time_os_t t) {
#if defined(ARDUINO) // get current time from Arduino
unsigned char weekday_t = weekday(t); // weekday ranges from [0,6] within Sunday being 1
unsigned char day_t = day(t);
unsigned char month_t = month(t);
#else // get current time from RPI/BBB
time_os_t ct = t;
struct tm *ti = gmtime(&ct);
unsigned char weekday_t = (ti->tm_wday+1)%7; // tm_wday ranges from [0,6] with Sunday being 0
unsigned char day_t = ti->tm_mday;
unsigned char month_t = ti->tm_mon+1; // tm_mon ranges from [0,11]
#endif // get current time
unsigned char wd = (weekday_t+5)%7;
unsigned char dt = day_t;
if(en_daterange) { // check date range if enabled
int16_t currdate = date_encode(month_t, day_t);
// depending on whether daterange[0] or [1] is smaller:
if(daterange[0]<=daterange[1]) {
if(currdate<daterange[0]||currdate>daterange[1]) return 0;
} else {
// this is the case where the defined range crosses the end of the year
if(currdate>daterange[1] && currdate<daterange[0]) return 0;
}
}
// check day match
switch(type) {
case PROGRAM_TYPE_WEEKLY:
// weekday match
if (!(days[0] & (1<<wd)))
return 0;
break;
case PROGRAM_TYPE_BIWEEKLY:
// todo future
break;
case PROGRAM_TYPE_MONTHLY:
if (dt != (days[0]&0b11111))
return 0;
break;
case PROGRAM_TYPE_INTERVAL:
// this is an inverval program
if (((t/SECS_PER_DAY)%days[1]) != days[0]) return 0;
break;
}
// check odd/even day restriction
if (!oddeven) { }
else if (oddeven == 2) {
// even day restriction
if((dt%2)!=0) return 0;
} else if (oddeven == 1) {
// odd day restriction
// skip 31st and Feb 29
if(dt==31) return 0;
else if (dt==29 && month_t==2) return 0;
else if ((dt%2)!=1) return 0;
}
return 1;
}
// Check if a given time matches program's start time
// this also checks for programs that started the previous
// day and ran over night
unsigned char ProgramStruct::check_match(time_os_t t) {
// check program enable status
if (!enabled) return 0;
int16_t start = starttime_decode(starttimes[0]);
int16_t repeat = starttimes[1];
int16_t interval = starttimes[2];
int16_t current_minute = (t%86400L)/60;
// first assume program starts today
if (check_day_match(t)) {
// t matches the program's start day
if (starttime_type) {
// given start time type
for(unsigned char i=0;i<MAX_NUM_STARTTIMES;i++) {
if (current_minute == starttime_decode(starttimes[i])) return 1; // if curren_minute matches any of the given start time, return 1
}
return 0; // otherwise return 0
} else {
// repeating type
// if current_minute matches start time, return 1
if (current_minute == start) return 1;
// otherwise, current_minute must be larger than start time, and interval must be non-zero
if (current_minute > start && interval) {
// check if we are on any interval match
int16_t c = (current_minute - start) / interval;
if ((c * interval == (current_minute - start)) && c <= repeat) {
return 1;
}
}
}
}
// to proceed, program has to be repeating type, and interval and repeat must be non-zero
if (starttime_type || !interval) return 0;
// next, assume program started the previous day and ran over night
if (check_day_match(t-86400L)) {
// t-86400L matches the program's start day
int16_t c = (current_minute - start + 1440) / interval;
if ((c * interval == (current_minute - start + 1440)) && c <= repeat) {
return 1;
}
}
return 0;
}
// convert absolute remainder (reference time 1970 01-01) to relative remainder (reference time today)
// absolute remainder is stored in flash, relative remainder is presented to web
void ProgramData::drem_to_relative(unsigned char days[2]) {
unsigned char rem_abs=days[0];
unsigned char inv=days[1];
// todo future: use now_tz()?
days[0] = (unsigned char)((rem_abs + inv - (os.now_tz()/SECS_PER_DAY) % inv) % inv);
}
// relative remainder -> absolute remainder
void ProgramData::drem_to_absolute(unsigned char days[2]) {
unsigned char rem_rel=days[0];
unsigned char inv=days[1];
// todo future: use now_tz()?
days[0] = (unsigned char)(((os.now_tz()/SECS_PER_DAY) + rem_rel) % inv);
}