use crate::error::*; use crate::{Decoder, Encoder}; struct Base64Impl; #[derive(Copy, Clone, Debug, Eq, PartialEq)] enum Base64Variant { Original = 1, OriginalNoPadding = 3, UrlSafe = 5, UrlSafeNoPadding = 7, } enum VariantMask { NoPadding = 2, UrlSafe = 4, } impl Base64Impl { #[inline] fn _eq(x: u8, y: u8) -> u8 { !(((0u16.wrapping_sub((x as u16) ^ (y as u16))) >> 8) as u8) } #[inline] fn _gt(x: u8, y: u8) -> u8 { (((y as u16).wrapping_sub(x as u16)) >> 8) as u8 } #[inline] fn _ge(x: u8, y: u8) -> u8 { !Self::_gt(y, x) } #[inline] fn _lt(x: u8, y: u8) -> u8 { Self::_gt(y, x) } #[inline] fn _le(x: u8, y: u8) -> u8 { Self::_ge(y, x) } #[inline] fn b64_byte_to_char(x: u8) -> u8 { (Self::_lt(x, 26) & (x.wrapping_add(b'A'))) | (Self::_ge(x, 26) & Self::_lt(x, 52) & (x.wrapping_add(b'a'.wrapping_sub(26)))) | (Self::_ge(x, 52) & Self::_lt(x, 62) & (x.wrapping_add(b'0'.wrapping_sub(52)))) | (Self::_eq(x, 62) & b'+') | (Self::_eq(x, 63) & b'/') } #[inline] fn b64_char_to_byte(c: u8) -> u8 { let x = (Self::_ge(c, b'A') & Self::_le(c, b'Z') & (c.wrapping_sub(b'A'))) | (Self::_ge(c, b'a') & Self::_le(c, b'z') & (c.wrapping_sub(b'a'.wrapping_sub(26)))) | (Self::_ge(c, b'0') & Self::_le(c, b'9') & (c.wrapping_sub(b'0'.wrapping_sub(52)))) | (Self::_eq(c, b'+') & 62) | (Self::_eq(c, b'/') & 63); x | (Self::_eq(x, 0) & (Self::_eq(c, b'A') ^ 0xff)) } #[inline] fn b64_byte_to_urlsafe_char(x: u8) -> u8 { (Self::_lt(x, 26) & (x.wrapping_add(b'A'))) | (Self::_ge(x, 26) & Self::_lt(x, 52) & (x.wrapping_add(b'a'.wrapping_sub(26)))) | (Self::_ge(x, 52) & Self::_lt(x, 62) & (x.wrapping_add(b'0'.wrapping_sub(52)))) | (Self::_eq(x, 62) & b'-') | (Self::_eq(x, 63) & b'_') } #[inline] fn b64_urlsafe_char_to_byte(c: u8) -> u8 { let x = (Self::_ge(c, b'A') & Self::_le(c, b'Z') & (c.wrapping_sub(b'A'))) | (Self::_ge(c, b'a') & Self::_le(c, b'z') & (c.wrapping_sub(b'a'.wrapping_sub(26)))) | (Self::_ge(c, b'0') & Self::_le(c, b'9') & (c.wrapping_sub(b'0'.wrapping_sub(52)))) | (Self::_eq(c, b'-') & 62) | (Self::_eq(c, b'_') & 63); x | (Self::_eq(x, 0) & (Self::_eq(c, b'A') ^ 0xff)) } #[inline] fn encoded_len(bin_len: usize, variant: Base64Variant) -> Result { let nibbles = bin_len / 3; let rounded = nibbles * 3; let pad = bin_len - rounded; Ok(nibbles.checked_mul(4).ok_or(Error::Overflow)? + ((pad | (pad >> 1)) & 1) * (4 - (!((((variant as usize) & 2) >> 1).wrapping_sub(1)) & (3 - pad))) + 1) } pub fn encode<'t>( b64: &'t mut [u8], bin: &[u8], variant: Base64Variant, ) -> Result<&'t [u8], Error> { let bin_len = bin.len(); let b64_maxlen = b64.len(); let mut acc_len = 0usize; let mut b64_pos = 0usize; let mut acc = 0u16; let nibbles = bin_len / 3; let remainder = bin_len - 3 * nibbles; let mut b64_len = nibbles * 4; if remainder != 0 { if (variant as u16 & VariantMask::NoPadding as u16) == 0 { b64_len += 4; } else { b64_len += 2 + (remainder >> 1); } } if b64_maxlen < b64_len { return Err(Error::Overflow); } if (variant as u16 & VariantMask::UrlSafe as u16) != 0 { for &v in bin { acc = (acc << 8) + v as u16; acc_len += 8; while acc_len >= 6 { acc_len -= 6; b64[b64_pos] = Self::b64_byte_to_urlsafe_char(((acc >> acc_len) & 0x3f) as u8); b64_pos += 1; } } if acc_len > 0 { b64[b64_pos] = Self::b64_byte_to_urlsafe_char(((acc << (6 - acc_len)) & 0x3f) as u8); b64_pos += 1; } } else { for &v in bin { acc = (acc << 8) + v as u16; acc_len += 8; while acc_len >= 6 { acc_len -= 6; b64[b64_pos] = Self::b64_byte_to_char(((acc >> acc_len) & 0x3f) as u8); b64_pos += 1; } } if acc_len > 0 { b64[b64_pos] = Self::b64_byte_to_char(((acc << (6 - acc_len)) & 0x3f) as u8); b64_pos += 1; } } while b64_pos < b64_len { b64[b64_pos] = b'='; b64_pos += 1 } Ok(&b64[..b64_pos]) } fn skip_padding<'t>( b64: &'t [u8], mut padding_len: usize, ignore: Option<&[u8]>, ) -> Result<&'t [u8], Error> { let b64_len = b64.len(); let mut b64_pos = 0usize; while padding_len > 0 { if b64_pos > b64_len { return Err(Error::InvalidInput); } let c = b64[b64_pos]; if c == b'=' { padding_len -= 1 } else { match ignore { Some(ignore) if ignore.contains(&c) => {} _ => return Err(Error::InvalidInput), } } b64_pos += 1 } Ok(&b64[b64_pos..]) } pub fn decode<'t>( bin: &'t mut [u8], b64: &[u8], ignore: Option<&[u8]>, variant: Base64Variant, ) -> Result<&'t [u8], Error> { let bin_maxlen = bin.len(); let is_urlsafe = (variant as u16 & VariantMask::UrlSafe as u16) != 0; let mut acc = 0u16; let mut acc_len = 0usize; let mut bin_pos = 0usize; let mut premature_end = None; for (b64_pos, &c) in b64.iter().enumerate() { let d = if is_urlsafe { Self::b64_urlsafe_char_to_byte(c) } else { Self::b64_char_to_byte(c) }; if d == 0xff { match ignore { Some(ignore) if ignore.contains(&c) => continue, _ => { premature_end = Some(b64_pos); break; } } } acc = (acc << 6) + d as u16; acc_len += 6; if acc_len >= 8 { acc_len -= 8; if bin_pos >= bin_maxlen { return Err(Error::Overflow); } bin[bin_pos] = (acc >> acc_len) as u8; bin_pos += 1; } } if acc_len > 4 || (acc & ((1u16 << acc_len).wrapping_sub(1))) != 0 { return Err(Error::InvalidInput); } let padding_len = acc_len / 2; if let Some(premature_end) = premature_end { let remaining = if variant as u16 & VariantMask::NoPadding as u16 == 0 { Self::skip_padding(&b64[premature_end..], padding_len, ignore)? } else { &b64[premature_end..] }; match ignore { None => { if !remaining.is_empty() { return Err(Error::InvalidInput); } } Some(ignore) => { for &c in remaining { if !ignore.contains(&c) { return Err(Error::InvalidInput); } } } } } else if variant as u16 & VariantMask::NoPadding as u16 == 0 && padding_len != 0 { return Err(Error::InvalidInput); } Ok(&bin[..bin_pos]) } } pub struct Base64; pub struct Base64NoPadding; pub struct Base64UrlSafe; pub struct Base64UrlSafeNoPadding; impl Encoder for Base64 { #[inline] fn encoded_len(bin_len: usize) -> Result { Base64Impl::encoded_len(bin_len, Base64Variant::Original) } #[inline] fn encode>(b64: &mut [u8], bin: IN) -> Result<&[u8], Error> { Base64Impl::encode(b64, bin.as_ref(), Base64Variant::Original) } } impl Decoder for Base64 { #[inline] fn decode<'t, IN: AsRef<[u8]>>( bin: &'t mut [u8], b64: IN, ignore: Option<&[u8]>, ) -> Result<&'t [u8], Error> { Base64Impl::decode(bin, b64.as_ref(), ignore, Base64Variant::Original) } } impl Encoder for Base64NoPadding { #[inline] fn encoded_len(bin_len: usize) -> Result { Base64Impl::encoded_len(bin_len, Base64Variant::OriginalNoPadding) } #[inline] fn encode>(b64: &mut [u8], bin: IN) -> Result<&[u8], Error> { Base64Impl::encode(b64, bin.as_ref(), Base64Variant::OriginalNoPadding) } } impl Decoder for Base64NoPadding { #[inline] fn decode<'t, IN: AsRef<[u8]>>( bin: &'t mut [u8], b64: IN, ignore: Option<&[u8]>, ) -> Result<&'t [u8], Error> { Base64Impl::decode(bin, b64.as_ref(), ignore, Base64Variant::OriginalNoPadding) } } impl Encoder for Base64UrlSafe { #[inline] fn encoded_len(bin_len: usize) -> Result { Base64Impl::encoded_len(bin_len, Base64Variant::UrlSafe) } #[inline] fn encode>(b64: &mut [u8], bin: IN) -> Result<&[u8], Error> { Base64Impl::encode(b64, bin.as_ref(), Base64Variant::UrlSafe) } } impl Decoder for Base64UrlSafe { #[inline] fn decode<'t, IN: AsRef<[u8]>>( bin: &'t mut [u8], b64: IN, ignore: Option<&[u8]>, ) -> Result<&'t [u8], Error> { Base64Impl::decode(bin, b64.as_ref(), ignore, Base64Variant::UrlSafe) } } impl Encoder for Base64UrlSafeNoPadding { #[inline] fn encoded_len(bin_len: usize) -> Result { Base64Impl::encoded_len(bin_len, Base64Variant::UrlSafeNoPadding) } #[inline] fn encode>(b64: &mut [u8], bin: IN) -> Result<&[u8], Error> { Base64Impl::encode(b64, bin.as_ref(), Base64Variant::UrlSafeNoPadding) } } impl Decoder for Base64UrlSafeNoPadding { #[inline] fn decode<'t, IN: AsRef<[u8]>>( bin: &'t mut [u8], b64: IN, ignore: Option<&[u8]>, ) -> Result<&'t [u8], Error> { Base64Impl::decode(bin, b64.as_ref(), ignore, Base64Variant::UrlSafeNoPadding) } } #[cfg(feature = "std")] #[test] fn test_base64() { let bin = [1u8, 5, 11, 15, 19, 131, 122]; let expected = "AQULDxODeg=="; let b64 = Base64::encode_to_string(&bin).unwrap(); assert_eq!(b64, expected); let bin2 = Base64::decode_to_vec(&b64, None).unwrap(); assert_eq!(bin, &bin2[..]); } #[cfg(feature = "std")] #[test] fn test_base64_mising_padding() { let missing_padding = "AA"; assert!(Base64::decode_to_vec(&missing_padding, None).is_err()); assert!(Base64NoPadding::decode_to_vec(&missing_padding, None).is_ok()); let missing_padding = "AAA"; assert!(Base64::decode_to_vec(&missing_padding, None).is_err()); assert!(Base64NoPadding::decode_to_vec(&missing_padding, None).is_ok()); } #[test] fn test_base64_no_std() { let bin = [1u8, 5, 11, 15, 19, 131, 122]; let expected = [65, 81, 85, 76, 68, 120, 79, 68, 101, 103, 61, 61]; let mut b64 = [0u8; 12]; let b64 = Base64::encode(&mut b64, &bin).unwrap(); assert_eq!(b64, expected); let mut bin2 = [0u8; 7]; let bin2 = Base64::decode(&mut bin2, &b64, None).unwrap(); assert_eq!(bin, bin2); }