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package main
import (
"fmt"
"log"
)
func main() {
// pase the command line aguments
registerFlags()
log.Printf("%s Done reading flags", green("[+]"))
// read the wordlist from a file
wordlist, err := readWordlist(wordlist)
if err != nil {
log.Println(err)
}
log.Printf("%s Done reading the wordlist", green("[+]"))
// define channels storing the wordlist and the responses resulting from the
// requests
wordlistChannel := make(chan string)
printChannel := make(chan Response)
doneChannel := make(chan int)
log.Printf("%s Done defining channels", green("[+]"))
// write into the wordlist channel and read out of the print channel
// these functions wait for input into the channels and process the given
// data
go writeWordlistToChannel(wordlistChannel, wordlist)
go printResponses(printChannel)
log.Printf("%s Done starting hander routines", green("[+]"))
log.Printf("%s Starting the http handlers", cyan("[+]"))
// handle one or more theads
if threads <= 1 {
log.Printf("%s 1 thread", yellow("[i]"))
httpRequest(wordlistChannel, printChannel, nil, 0)
} else {
log.Printf("%s Starting %d threads...", yellow("[i]"), threads)
// loop over all the threads starting a go routine fetching a word from
// the wordlistChannel, making the request and inserting the result into
// the printChannel
for i := 0; i < threads; i++ {
go httpRequest(wordlistChannel, printChannel, doneChannel, i)
}
log.Printf("%s Done starting %d threads", green("[i]"), threads)
for i := 0; i < threads; i++ {
threadNum := <-doneChannel
fmt.Printf("Thread %d done!\n", threadNum)
}
}
}
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