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main.go
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main.go
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package main
import (
"github.com/reiver/finger/arg"
failure "github.com/reiver/finger/srv/failure"
verbose "github.com/reiver/finger/srv/verbose"
"github.com/reiver/go-finger"
"io"
"net"
"os"
)
func main() {
// This ('arguments') holds what was on the command-line when the flags (and program-name) are removed.
//
// For example, if this program was called with the following command-line:
//
// finger -v /W dariush@reiver.link
//
// Then logically 'arguments' would be:
//
// arguments == []string{"/W", "dariush@reiver.link"}
//
// And also, for another example, if this program called with the following command-line:
//
// finger -v dariush@reiver.link
//
// Then logically 'arguments' would be:
//
// arguments == []string{"dariush@reiver.link"}
var arguments []string = arg.Values
// Here we see if there is a finger-protocol switch (as a string) from the command-line
// which this program was called with.
//
// For example:
//
// finger /W
// # switch -> "/W"
//
// And, for example:
//
// finger /W dariush@reiver.link
// # switch -> "/W"
//
// Or, for example:
//
// finger /W dariush@reiver.link@example.com
// # switch -> "/W"
//
// Or, alternatively, for example:
//
// finger /W joeblow@example.com:1971
// # switch -> "/W"
//
// Or also, for example:
//
// finger /W janedoe
// # switch -> "/W"
//
// Or even, for example:
//
// finger /W @example.com
// # switch -> "/W"
//
// Etc.
//
// Although the switch could be something other than "/W".
// (For example — "/PULL", "/ECHO", "/path/to/a/file/ext", etc.)
// It just has to become with a "/" character.
//
// Also, there might not be a switch. For example:
//
// finger joeblow@example.com
// # no switch
var swtch finger.Switch
func(){
if len(arguments) < 1 {
return
}
argument0 := arguments[0]
var err error
swtch, err = finger.ParseSwitch(argument0)
if nil != err {
return
}
arguments = arguments[1:]
}()
verbose.Publish("SWITCH: %q", swtch)
// Get the finger-protocol query (as a string) from the command-line
// which this program was called with.
//
// For example:
//
// finger dariush@reiver.link
// # query -> "dariush@reiver.link"
//
// Or, for example:
//
// finger dariush@reiver.link@example.com
// # query -> "dariush@reiver.link@example.com"
//
// Or, alternatively, for example:
//
// finger joeblow@example.com:1971
// # query -> "joeblow@example.com:1971"
//
// Or also, for example:
//
// finger janedoe
// # query -> "janedoe"
//
// Or even, for example:
//
// finger @example.com
// # query -> "@example.com"
//
// Etc.
//
// Note that in this type of finger-protocol request:
//
// "/W joeblow@example.com"
//
// The "/W" is NOT part of the query.
//
// Only the "joeblow@example.com" is the query.
var q string
{
if 1 <= len(arguments) {
q = arguments[0]
}
}
verbose.Publish("QUERY: %q", q)
// Here we parse the finger-protocol query string,
// and if valid, turn it into a finger.Query.
var query finger.Query
{
var err error
query, err = finger.ParseQuery(q)
if nil != err {
failure.Publish("bad query: %s", err)
////////////////////////// EXIT
os.Exit(1)
return
}
}
verbose.Publish("COMPILED QUERY: %q", q)
// Here we infer what TCP address we should make a TCP connection to.
// (That we will later make a finger-protocol request from.)
//
// And what the finger-protocol query we sent will be.
var address finger.Address
var target finger.Target
{
var subquery finger.Query
address, subquery = query.ClientParameters()
target = subquery.Target()
}
verbose.Publish("ADDRESS: %q", address)
verbose.Publish("RESOLVED-ADDRESS: %q", address.Resolve())
verbose.Publish("TARGET: %#v", target)
// Create the finger-protocol request.
//
// We aren't sending it to the server yet.
//
// We are just preparing the request (and will use it a little later).
var request finger.Request = finger.AssembleRequest(swtch, target)
verbose.Publish("REQUEST: %q", request)
// Connect to the finger-protocol server.
var conn net.Conn
{
var err error
conn, err = net.Dial("tcp", address.Resolve())
if nil != err {
failure.Publish("problem connecting to %q: %s", address, err)
////////////////////////// EXIT
os.Exit(1)
return
}
}
defer conn.Close()
// Bind the finger-protocol client to the TCP connection to the finger-protocol server.
var client finger.Client = finger.AssembleClient(conn)
// Send the finger-protocol request,
// and receive finger-protocol response.
var responseReader finger.ResponseReader
{
var err error
responseReader, err = client.Do(request)
if nil != err {
failure.Publish("problem with doing request: %s", err)
////////////////////////// EXIT
os.Exit(1)
return
}
}
// Send the contents of the finger-protocol response,
// from the finger-protocol server, to STDOUT.
//
// This way the user can see it.
// Or it can be piped to another program.
// Or saved to a file.
// Or whatever.
{
io.Copy(os.Stdout, responseReader)
}
}