func main() {
flag.Parse()
logging.InitFromFlags()
// Initialise bot state
bot.Init()
// Connect to mongo
db.Init()
defer db.Close()
// Add drivers
calcdriver.Init()
decisiondriver.Init()
factdriver.Init()
karmadriver.Init()
markovdriver.Init()
quotedriver.Init()
reminddriver.Init()
seendriver.Init()
urldriver.Init()
// Start up the HTTP server
go http.ListenAndServe(*httpPort, nil)
// Connect the bot to IRC and wait; reconnects are handled automatically.
// If we get true back from the bot, re-exec the (rebuilt) binary.
if bot.Connect() {
// Calling syscall.Exec probably means deferred functions won't get
// called, so disconnect from mongodb first for politeness' sake.
db.Close()
// If sp0rkle was run from PATH, we need to do that lookup manually.
fq, _ := exec.LookPath(os.Args[0])
logging.Warn("Re-executing sp0rkle with args '%v'.", os.Args)
err := syscall.Exec(fq, os.Args, os.Environ())
if err != nil {
// hmmmmmm
logging.Fatal("Couldn't re-exec sp0rkle: %v", err)
}
}
logging.Info("Shutting down cleanly.")
}
func main() {
flag.Parse()
logging.InitFromFlags()
// Let's go find some mongo.
db.Init()
defer db.Close()
qc := quotes.Init()
// A communication channel of Quotes.
quotes := make(chan *quotes.Quote)
rows := make(chan []interface{})
// Function to feed rows into the rows channel.
row_feeder := func(sth *sqlite3.Statement, row ...interface{}) {
rows <- row
}
// Function to execute a query on the SQLite db.
db_query := func(dbh *sqlite3.Database) {
n, err := dbh.Execute("SELECT * FROM Quotes;", row_feeder)
if err == nil {
logging.Info("Read %d rows from database.\n", n)
} else {
logging.Error("DB error: %s\n", err)
}
}
// Open up the quote database in a goroutine and feed rows
// in on the input_rows channel.
go func() {
sqlite3.Session(*file, db_query)
// once we've done the query, close the channel to indicate this
close(rows)
}()
// Another goroutine to munge the rows into quotes.
// This was originally done inside the SQLite callbacks, but
// cgo or sqlite3 obscures runtime panics and makes fail happen.
go func() {
for row := range rows {
parseQuote(row, quotes)
}
close(quotes)
}()
// And finally...
count := 0
var err error
for quote := range quotes {
// ... push each quote into mongo
err = qc.Insert(quote)
if err != nil {
logging.Error("Awww: %v\n", err)
} else {
if count%1000 == 0 {
fmt.Printf("%d...", count)
}
count++
}
}
fmt.Println("done.")
logging.Info("Inserted %d quotes.\n", count)
}
func main() {
flag.Parse()
logging.InitFromFlags()
// Let's go find some mongo.
db.Init()
defer db.Close()
fc := factoids.Init()
// A communication channel of Factoids.
facts := make(chan *factoids.Factoid)
ptrs := make(chan []interface{})
rows := make(chan []interface{})
// Function to execute some queries on the SQLite db and shove the results
// into the ptrs and rows channels created above.
db_query := func(dbh *sqlite3.Database) {
_, err := dbh.Execute("SELECT * FROM Factoids WHERE Value LIKE '%*%';", feeder(ptrs))
close(ptrs)
if err != nil {
logging.Error("DB error: %s", err)
}
n, err := dbh.Execute("SELECT * FROM Factoids;", feeder(rows))
close(rows)
if err == nil {
logging.Info("Read %d rows from database.", n)
} else {
logging.Error("DB error: %s", err)
}
}
go func() {
sqlite3.Session(*file, db_query)
}()
// First, synchronously read all the stuff from the ptrs channel
// and build a set of all the factoid keys that are used as pointers
for row := range ptrs {
for _, val := range parseMultipleValues(toString(row[cValue])) {
if key, _, _ := util.FactPointer(val); key != "" {
ptrkeys[key] = true
}
}
}
// Now run another goroutine to munge the rows into factoids.
// This was originally done inside the SQLite callbacks, but
// cgo or sqlite3 obscures runtime panics and makes fail happen.
go func() {
for row := range rows {
parseFactoid(row, facts)
}
close(facts)
}()
// And finally...
count := 0
var err error
for fact := range facts {
// ... push each fact into mongo
err = fc.Insert(fact)
if err != nil {
logging.Error("Awww: %v\n", err)
} else {
if count%1000 == 0 {
fmt.Printf("%d...", count)
}
count++
}
}
fmt.Println("done.")
logging.Info("Inserted %d factoids.\n", count)
}
func main() {
flag.Parse()
logging.InitFromFlags()
golog.Init()
// Slightly more random than 1.
rand.Seed(time.Now().UnixNano() * int64(os.Getpid()))
// Initialise bot state
bot.Init()
// Connect to mongo
db.Init()
defer db.Close()
// Add drivers
calcdriver.Init()
decisiondriver.Init()
factdriver.Init()
karmadriver.Init()
markovdriver.Init()
netdriver.Init()
quotedriver.Init()
reminddriver.Init()
seendriver.Init()
statsdriver.Init()
urldriver.Init()
// Start up the HTTP server
go http.ListenAndServe(*httpPort, nil)
// Set up a signal handler to shut things down gracefully.
// NOTE: net/http doesn't provide for graceful shutdown :-/
go func() {
called := new(int32)
sigint := make(chan os.Signal, 1)
signal.Notify(sigint, syscall.SIGINT)
for _ = range sigint {
if atomic.AddInt32(called, 1) > 1 {
logging.Fatal("Recieved multiple interrupts, dying.")
}
bot.Shutdown()
}
}()
// Connect the bot to IRC and wait; reconnects are handled automatically.
// If we get true back from the bot, re-exec the (rebuilt) binary.
if <-bot.Connect() {
// Calling syscall.Exec probably means deferred functions won't get
// called, so disconnect from mongodb first for politeness' sake.
db.Close()
// If sp0rkle was run from PATH, we need to do that lookup manually.
fq, _ := exec.LookPath(os.Args[0])
logging.Warn("Re-executing sp0rkle with args '%v'.", os.Args)
err := syscall.Exec(fq, os.Args, os.Environ())
if err != nil {
// hmmmmmm
logging.Fatal("Couldn't re-exec sp0rkle: %v", err)
}
}
logging.Info("Shutting down cleanly.")
}
func main() {
flag.Parse()
logging.InitFromFlags()
// Let's go find some mongo.
db.Init()
defer db.Close()
uc := urls.Init()
work := make(chan *urls.Url)
quit := make(chan bool)
urls := make(chan *urls.Url)
rows := make(chan []interface{})
failed := 0
// If we're checking, spin up some workers
if *check {
for i := 1; i <= *workq; i++ {
go func(n int) {
count := 0
for u := range work {
count++
logging.Debug("w%02d r%04d: Fetching '%s'", n, count, u.Url)
res, err := http.Head(u.Url)
logging.Debug("w%02d r%04d: Response '%s'", n, count, res.Status)
if err == nil && res.StatusCode == 200 {
urls <- u
} else {
failed++
}
}
quit <- true
}(i)
}
}
// Function to feed rows into the rows channel.
row_feeder := func(sth *sqlite3.Statement, row ...interface{}) {
rows <- row
}
// Function to execute a query on the SQLite db.
db_query := func(dbh *sqlite3.Database) {
n, err := dbh.Execute("SELECT * FROM urls;", row_feeder)
if err == nil {
logging.Info("Read %d rows from database.\n", n)
} else {
logging.Error("DB error: %s\n", err)
}
}
// Open up the URL database in a goroutine and feed rows
// in on the input_rows channel.
go func() {
sqlite3.Session(*file, db_query)
// once we've done the query, close the channel to indicate this
close(rows)
}()
// Another goroutine to munge the rows into Urls and optionally send
// them to the pool of checker goroutines.
go func() {
for row := range rows {
u := parseUrl(row)
if *check {
work <- u
} else {
urls <- u
}
}
if *check {
// Close work channel and wait for all workers to quit.
close(work)
for i := 0; i < *workq; i++ {
<-quit
}
}
close(urls)
}()
// And finally...
count := 0
var err error
for u := range urls {
// ... push each url into mongo
err = uc.Insert(u)
if err != nil {
logging.Error("Awww: %v\n", err)
} else {
if count%1000 == 0 {
fmt.Printf("%d...", count)
}
count++
}
}
fmt.Println("done.")
if *check {
logging.Info("Dropped %d non-200 urls.", failed)
}
logging.Info("Inserted %d urls.", count)
}