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construct/ircd/base.cc

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2018-01-19 03:17:02 +01:00
// Matrix Construct
//
// Copyright (C) Matrix Construct Developers, Authors & Contributors
// Copyright (C) 2016-2018 Jason Volk <jason@zemos.net>
//
// Permission to use, copy, modify, and/or distribute this software for any
// purpose with or without fee is hereby granted, provided that the above
// copyright notice and this permission notice is present in all copies. The
// full license for this software is available in the LICENSE file.
#include <boost/archive/iterators/base64_from_binary.hpp>
#include <boost/archive/iterators/binary_from_base64.hpp>
#include <boost/archive/iterators/transform_width.hpp>
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namespace [[gnu::visibility("hidden")]] ircd
{
thread_local char base_conv_tmp_buf[64_KiB];
}
ircd::string_view
ircd::b64urltob64(const mutable_buffer &out,
const string_view &in)
{
//TODO: optimize with single pass
string_view ret(in);
ret = replace(out, ret, '-', '+');
ret = replace(out, ret, '_', '/');
return ret;
}
ircd::string_view
ircd::b64tob64url(const mutable_buffer &out,
const string_view &in)
{
//TODO: optimize with single pass
string_view ret(in);
ret = replace(out, ret, '+', '-');
ret = replace(out, ret, '/', '_');
return ret;
}
ircd::string_view
ircd::b58tob64_unpadded(const mutable_buffer &out,
const string_view &in)
{
if(unlikely(b58decode_size(in) > size(base_conv_tmp_buf)))
throw error
{
"String too large for conversion at this time."
};
return b64encode_unpadded(out, b58decode(base_conv_tmp_buf, in));
}
ircd::string_view
ircd::b58tob64(const mutable_buffer &out,
const string_view &in)
{
if(unlikely(b58decode_size(in) > size(base_conv_tmp_buf)))
throw error
{
"String too large for conversion at this time."
};
return b64encode(out, b58decode(base_conv_tmp_buf, in));
}
ircd::string_view
ircd::b64tob58(const mutable_buffer &out,
const string_view &in)
{
if(unlikely(b64decode_size(in) > size(base_conv_tmp_buf)))
throw error
{
"String too large for conversion at this time."
};
return b58encode(out, b64decode(base_conv_tmp_buf, in));
}
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namespace ircd
{
const char _b64_pad_
{
'='
};
using _b64_encoder = std::function<string_view (const mutable_buffer &, const const_buffer &)>;
static std::string _b64encode(const const_buffer &in, const _b64_encoder &);
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}
/// Allocate and return a string without padding from the encoding of in
std::string
ircd::b64encode_unpadded(const const_buffer &in)
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{
return _b64encode(in, [](const auto &out, const auto &in)
{
return b64encode_unpadded(out, in);
});
}
/// Allocate and return a string from the encoding of in
std::string
ircd::b64encode(const const_buffer &in)
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{
return _b64encode(in, [](const auto &out, const auto &in)
{
return b64encode(out, in);
});
}
/// Internal; dedupes encoding functions that create and return a string
static std::string
ircd::_b64encode(const const_buffer &in,
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const _b64_encoder &encoder)
{
// Allocate a buffer 1.33 times larger than input with pessimistic
// extra space for any padding and nulling.
const auto max
{
ceil(size(in) * (4.0 / 3.0)) + 4
};
return string(max, [&in, &encoder]
(const mutable_buffer &buf)
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{
return encoder(buf, in);
});
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}
/// Encoding in to base64 at out. Out must be 1.33+ larger than in
/// padding is not present in the returned view.
ircd::string_view
ircd::b64encode(const mutable_buffer &out,
const const_buffer &in)
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{
const auto pads
{
(3 - size(in) % 3) % 3
};
const auto encoded
{
b64encode_unpadded(out, in)
};
assert(size(encoded) + pads <= size(out));
memset(data(out) + size(encoded), _b64_pad_, pads);
const auto len
{
size(encoded) + pads
};
return { data(out), len };
}
/// Encoding in to base64 at out. Out must be 1.33+ larger than in.
ircd::string_view
ircd::b64encode_unpadded(const mutable_buffer &out,
const const_buffer &in)
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{
namespace iterators = boost::archive::iterators;
using transform = iterators::transform_width<unsigned char *, 6, 8>;
using b64fb = iterators::base64_from_binary<transform>;
const auto cpsz
{
std::min(size(in), size_t(size(out) * (3.0 / 4.0)))
};
const auto end
{
std::copy(b64fb(data(in)), b64fb(data(in) + cpsz), begin(out))
};
const auto len
{
size_t(std::distance(begin(out), end))
};
assert(len <= size(out));
return { data(out), len };
}
std::string
ircd::b64decode(const string_view &in)
{
// Allocate a buffer 75% than input with pessimistic extra space
const auto max
{
ceil(size(in) * 0.75) + 4
};
std::string ret(max, char{});
const mutable_buffer buf
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{
const_cast<char *>(ret.data()), ret.size()
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};
const auto decoded
{
b64decode(buf, in)
};
assert(size(decoded) <= ret.size());
ret.resize(size(decoded));
return ret;
}
/// Decode base64 from in to the buffer at out; out can be 75% of the size
/// of in.
ircd::const_buffer
ircd::b64decode(const mutable_buffer &out,
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const string_view &in)
{
namespace iterators = boost::archive::iterators;
using b64bf = iterators::binary_from_base64<const char *>;
using transform = iterators::transform_width<b64bf, 8, 6>;
const auto pads
{
endswith_count(in, _b64_pad_)
};
const auto e
{
std::copy(transform(begin(in)), transform(begin(in) + size(in) - pads), begin(out))
};
const auto len
{
std::distance(begin(out), e)
};
assert(size_t(len) <= size(out));
return { data(out), size_t(len) };
}
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namespace ircd
{
const auto &b58
{
"123456789ABCDEFGHJKLMNPQRSTUVWXYZabcdefghijkmnopqrstuvwxyz"s
};
}
std::string
ircd::b58decode(const string_view &in)
{
std::string ret(b58decode_size(in), char{});
const mutable_buffer buf
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{
const_cast<char *>(ret.data()), ret.size()
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};
const auto decoded
{
b58decode(buf, in)
};
assert(size(decoded) <= ret.size());
ret.resize(size(decoded));
return ret;
}
ircd::const_buffer
ircd::b58decode(const mutable_buffer &buf,
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const string_view &in)
{
auto p(begin(in));
size_t zeroes(0);
for(; p != end(in) && *p == '1'; ++p)
++zeroes;
const mutable_buffer out
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{
data(buf) + zeroes, std::min(b58decode_size(in), size(buf) - zeroes)
};
assert(size(out) + zeroes <= size(buf));
memset(data(out), 0, size(out));
size_t length(0);
for(size_t i(0); p != end(in); ++p, length = i, i = 0)
{
auto carry(b58.find(*p));
if(carry == std::string::npos)
throw std::out_of_range("Invalid base58 character");
for(auto it(rbegin(out)); (carry || i < length) && it != rend(out); ++it, i++)
{
carry += 58 * (*it);
*it = carry % 256;
carry /= 256;
}
}
auto it(begin(buf));
assert(it + zeroes + length <= end(buf));
for(; it != end(buf) && zeroes; *it++ = 0, --zeroes);
memmove(it, data(out) + (size(out) - length), length);
return { begin(buf), it + length };
}
std::string
ircd::b58encode(const const_buffer &in)
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{
return string(b58encode_size(in), [&in]
(const mutable_buffer &buf)
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{
return b58encode(buf, in);
});
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}
ircd::string_view
ircd::b58encode(const mutable_buffer &buf,
const const_buffer &in)
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{
auto p(begin(in));
size_t zeroes(0);
for(; p != end(in) && *p == 0; ++p)
++zeroes;
const mutable_buffer out
{
data(buf) + zeroes, std::min(b58encode_size(in), size(buf) - zeroes)
};
assert(size(out) + zeroes <= size(buf));
memset(data(out), 0, size(out));
size_t length(0);
for(size_t i(0); p != end(in); ++p, length = i, i = 0)
{
size_t carry(*p);
for(auto it(rbegin(out)); (carry || i < length) && it != rend(out); ++it, i++)
{
carry += 256 * (*it);
*it = carry % 58;
carry /= 58;
}
}
auto it(begin(buf));
assert(it + zeroes + length <= end(buf));
for(; it != end(buf) && zeroes; *it++ = '1', --zeroes);
memmove(it, data(out) + (size(out) - length), length);
return
{
begin(buf), std::transform(it, it + length, it, []
(const uint8_t &in)
{
return b58.at(in);
})
};
}