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use log ::* ;
use regex ::Regex ;
use std ::collections ::HashSet ;
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use std ::io ::{ Read , Write } ;
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use steamguard ::Confirmation ;
use termion ::{
event ::{ Event , Key } ,
input ::TermRead ,
raw ::IntoRawMode ,
screen ::AlternateScreen ,
} ;
lazy_static! {
static ref CAPTCHA_VALID_CHARS : Regex =
Regex ::new ( " ^([A-H]|[J-N]|[P-R]|[T-Z]|[2-4]|[7-9]|[@%&])+$ " ) . unwrap ( ) ;
}
pub fn validate_captcha_text ( text : & String ) -> bool {
return CAPTCHA_VALID_CHARS . is_match ( text ) ;
}
#[ test ]
fn test_validate_captcha_text ( ) {
assert! ( validate_captcha_text ( & String ::from ( " 2WWUA@ " ) ) ) ;
assert! ( validate_captcha_text ( & String ::from ( " 3G8HT2 " ) ) ) ;
assert! ( validate_captcha_text ( & String ::from ( " 3J%@X3 " ) ) ) ;
assert! ( validate_captcha_text ( & String ::from ( " 2GCZ4A " ) ) ) ;
assert! ( validate_captcha_text ( & String ::from ( " 3G8HT2 " ) ) ) ;
assert! ( ! validate_captcha_text ( & String ::from ( " asd823 " ) ) ) ;
assert! ( ! validate_captcha_text ( & String ::from ( " !PQ4RD " ) ) ) ;
assert! ( ! validate_captcha_text ( & String ::from ( " 1GQ4XZ " ) ) ) ;
assert! ( ! validate_captcha_text ( & String ::from ( " 8GO4XZ " ) ) ) ;
assert! ( ! validate_captcha_text ( & String ::from ( " IPQ4RD " ) ) ) ;
assert! ( ! validate_captcha_text ( & String ::from ( " 0PT4RD " ) ) ) ;
assert! ( ! validate_captcha_text ( & String ::from ( " APTSRD " ) ) ) ;
assert! ( ! validate_captcha_text ( & String ::from ( " AP5TRD " ) ) ) ;
assert! ( ! validate_captcha_text ( & String ::from ( " AP6TRD " ) ) ) ;
}
/// Prompt the user for text input.
pub fn prompt ( ) -> String {
let mut text = String ::new ( ) ;
let _ = std ::io ::stdout ( ) . flush ( ) ;
std ::io ::stdin ( )
. read_line ( & mut text )
. expect ( " Did not enter a correct string " ) ;
return String ::from ( text . strip_suffix ( '\n' ) . unwrap ( ) ) ;
}
pub fn prompt_captcha_text ( captcha_gid : & String ) -> String {
println! ( " Captcha required. Open this link in your web browser: https://steamcommunity.com/public/captcha.php?gid= {} " , captcha_gid ) ;
let mut captcha_text ;
loop {
print! ( " Enter captcha text: " ) ;
captcha_text = prompt ( ) ;
if captcha_text . len ( ) > 0 & & validate_captcha_text ( & captcha_text ) {
break ;
}
warn! ( " Invalid chars for captcha text found in user's input. Prompting again... " ) ;
}
return captcha_text ;
}
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/// Prompt the user for a single character response. Useful for asking yes or no questions.
///
/// `chars` should be all lowercase characters, with at most 1 uppercase character. The uppercase character is the default answer if no answer is provided.
pub fn prompt_char ( text : & str , chars : & str ) -> char {
return prompt_char_impl ( & mut std ::io ::stdin ( ) , text , chars ) ;
}
fn prompt_char_impl ( input : & mut impl Read , text : & str , chars : & str ) -> char {
let uppers = chars . replace ( char ::is_lowercase , " " ) ;
if uppers . len ( ) > 1 {
panic! ( " Invalid chars for prompt_char. Maximum 1 uppercase letter is allowed. " ) ;
}
let default_answer : Option < char > = if uppers . len ( ) = = 1 {
Some ( uppers . chars ( ) . collect ::< Vec < char > > ( ) [ 0 ] . to_ascii_lowercase ( ) )
} else {
None
} ;
loop {
print! ( " {} [ {} ] " , text , chars ) ;
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let _ = std ::io ::stdout ( ) . flush ( ) ;
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let answer = input
. read_line ( )
. expect ( " Unable to read input " )
. unwrap ( )
. to_ascii_lowercase ( ) ;
if answer . len ( ) = = 0 {
if let Some ( a ) = default_answer {
return a ;
}
} else if answer . len ( ) > 1 {
continue ;
}
let answer_char = answer . chars ( ) . collect ::< Vec < char > > ( ) [ 0 ] ;
if chars . contains ( answer_char ) {
return answer_char ;
}
}
}
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/// Returns a tuple of (accepted, denied). Ignored confirmations are not included.
pub fn prompt_confirmation_menu (
confirmations : Vec < Confirmation > ,
) -> ( Vec < Confirmation > , Vec < Confirmation > ) {
println! ( " press a key other than enter to show the menu. " ) ;
let mut to_accept_idx : HashSet < usize > = HashSet ::new ( ) ;
let mut to_deny_idx : HashSet < usize > = HashSet ::new ( ) ;
let mut screen = AlternateScreen ::from ( std ::io ::stdout ( ) . into_raw_mode ( ) . unwrap ( ) ) ;
let stdin = std ::io ::stdin ( ) ;
let mut selected_idx = 0 ;
for c in stdin . events ( ) {
match c . expect ( " could not get events " ) {
Event ::Key ( Key ::Char ( 'a' ) ) = > {
to_accept_idx . insert ( selected_idx ) ;
to_deny_idx . remove ( & selected_idx ) ;
}
Event ::Key ( Key ::Char ( 'd' ) ) = > {
to_accept_idx . remove ( & selected_idx ) ;
to_deny_idx . insert ( selected_idx ) ;
}
Event ::Key ( Key ::Char ( 'i' ) ) = > {
to_accept_idx . remove ( & selected_idx ) ;
to_deny_idx . remove ( & selected_idx ) ;
}
Event ::Key ( Key ::Char ( 'A' ) ) = > {
( 0 .. confirmations . len ( ) ) . for_each ( | i | {
to_accept_idx . insert ( i ) ;
to_deny_idx . remove ( & i ) ;
} ) ;
}
Event ::Key ( Key ::Char ( 'D' ) ) = > {
( 0 .. confirmations . len ( ) ) . for_each ( | i | {
to_accept_idx . remove ( & i ) ;
to_deny_idx . insert ( i ) ;
} ) ;
}
Event ::Key ( Key ::Char ( 'I' ) ) = > {
( 0 .. confirmations . len ( ) ) . for_each ( | i | {
to_accept_idx . remove ( & i ) ;
to_deny_idx . remove ( & i ) ;
} ) ;
}
Event ::Key ( Key ::Up ) if selected_idx > 0 = > {
selected_idx - = 1 ;
}
Event ::Key ( Key ::Down ) if selected_idx < confirmations . len ( ) - 1 = > {
selected_idx + = 1 ;
}
Event ::Key ( Key ::Char ( '\n' ) ) = > {
break ;
}
Event ::Key ( Key ::Esc ) | Event ::Key ( Key ::Ctrl ( 'c' ) ) = > {
return ( vec! [ ] , vec! [ ] ) ;
}
_ = > { }
}
write! (
screen ,
" {}{}{}arrow keys to select, [a]ccept, [d]eny, [i]gnore, [enter] confirm choices \n \n " ,
termion ::clear ::All ,
termion ::cursor ::Goto ( 1 , 1 ) ,
termion ::color ::Fg ( termion ::color ::White )
)
. unwrap ( ) ;
for i in 0 .. confirmations . len ( ) {
if selected_idx = = i {
write! (
screen ,
" \r {} > " ,
termion ::color ::Fg ( termion ::color ::LightYellow )
)
. unwrap ( ) ;
} else {
write! ( screen , " \r {} " , termion ::color ::Fg ( termion ::color ::White ) ) . unwrap ( ) ;
}
if to_accept_idx . contains ( & i ) {
write! (
screen ,
" {}[a] " ,
termion ::color ::Fg ( termion ::color ::LightGreen )
)
. unwrap ( ) ;
} else if to_deny_idx . contains ( & i ) {
write! (
screen ,
" {}[d] " ,
termion ::color ::Fg ( termion ::color ::LightRed )
)
. unwrap ( ) ;
} else {
write! ( screen , " [ ] " ) . unwrap ( ) ;
}
if selected_idx = = i {
write! (
screen ,
" {} " ,
termion ::color ::Fg ( termion ::color ::LightYellow )
)
. unwrap ( ) ;
}
write! ( screen , " {} \n " , confirmations [ i ] . description ( ) ) . unwrap ( ) ;
}
}
return (
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to_accept_idx
. iter ( )
. map ( | i | confirmations [ * i ] . clone ( ) )
. collect ( ) ,
to_deny_idx
. iter ( )
. map ( | i | confirmations [ * i ] . clone ( ) )
. collect ( ) ,
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) ;
}
pub fn pause ( ) {
println! ( " Press any key to continue... " ) ;
let mut stdout = std ::io ::stdout ( ) . into_raw_mode ( ) . unwrap ( ) ;
stdout . flush ( ) . unwrap ( ) ;
std ::io ::stdin ( ) . events ( ) . next ( ) ;
}
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#[ cfg(test) ]
mod prompt_char_tests {
use super ::* ;
#[ test ]
fn test_gives_answer ( ) {
let inputs = [ 'y' , '\n' ] . iter ( ) . collect ::< String > ( ) ;
let answer = prompt_char_impl ( & mut inputs . as_bytes ( ) , " ligma balls " , " yn " ) ;
assert_eq! ( answer , 'y' ) ;
}
#[ test ]
fn test_gives_default ( ) {
let inputs = [ '\n' ] . iter ( ) . collect ::< String > ( ) ;
let answer = prompt_char_impl ( & mut inputs . as_bytes ( ) , " ligma balls " , " Yn " ) ;
assert_eq! ( answer , 'y' ) ;
}
#[ test ]
fn test_should_not_give_default ( ) {
let inputs = [ 'n' , '\n' ] . iter ( ) . collect ::< String > ( ) ;
let answer = prompt_char_impl ( & mut inputs . as_bytes ( ) , " ligma balls " , " Yn " ) ;
assert_eq! ( answer , 'n' ) ;
}
#[ test ]
fn test_should_not_give_invalid ( ) {
let inputs = [ 'g' , '\n' , 'n' , '\n' ] . iter ( ) . collect ::< String > ( ) ;
let answer = prompt_char_impl ( & mut inputs . as_bytes ( ) , " ligma balls " , " yn " ) ;
assert_eq! ( answer , 'n' ) ;
}
#[ test ]
fn test_should_not_give_multichar ( ) {
let inputs = [ 'y' , 'y' , '\n' , 'n' , '\n' ] . iter ( ) . collect ::< String > ( ) ;
let answer = prompt_char_impl ( & mut inputs . as_bytes ( ) , " ligma balls " , " yn " ) ;
assert_eq! ( answer , 'n' ) ;
}
}