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// Copyright Yahoo. Licensed under the terms of the Apache 2.0 license. See LICENSE in the project root.
#include "sync_crypto_socket.h"
#include <cassert>
namespace vespalib {
namespace {
ssize_t read_from_buffer(SmartBuffer &src, char *dst, size_t len) {
auto data = src.obtain();
auto chunk = std::min(len, data.size);
if (chunk > 0) {
memcpy(dst, data.data, chunk);
src.evict(chunk);
}
return chunk;
}
bool is_blocked(ssize_t res, int error) {
return ((res < 0) && ((error == EWOULDBLOCK) || (error == EAGAIN)));
}
void set_blocking(int fd) {
SocketHandle handle(fd);
handle.set_blocking(true);
handle.release();
}
} // namespace vespalib::<unnamed>
SyncCryptoSocket::UP
SyncCryptoSocket::create(CryptoSocket::UP socket)
{
set_blocking(socket->get_fd());
for (;;) {
switch (socket->handshake()) {
case CryptoSocket::HandshakeResult::FAIL:
return std::unique_ptr<SyncCryptoSocket>(nullptr);
case CryptoSocket::HandshakeResult::DONE:
return UP(new SyncCryptoSocket(std::move(socket)));
case CryptoSocket::HandshakeResult::NEED_READ:
case CryptoSocket::HandshakeResult::NEED_WRITE:
break;
case CryptoSocket::HandshakeResult::NEED_WORK:
socket->do_handshake_work();
}
}
}
SyncCryptoSocket::~SyncCryptoSocket() = default;
ssize_t
SyncCryptoSocket::read(char *buf, size_t len)
{
if (_buffer.obtain().size > 0) {
return read_from_buffer(_buffer, buf, len);
} else if (len < _socket->min_read_buffer_size()) {
auto dst = _buffer.reserve(_socket->min_read_buffer_size());
auto res = _socket->read(dst.data, dst.size);
while (is_blocked(res, errno)) {
res = _socket->read(dst.data, dst.size);
}
if (res <= 0) {
return res;
}
_buffer.commit(res);
return read_from_buffer(_buffer, buf, len);
} else {
auto res = _socket->read(buf, len);
while (is_blocked(res, errno)) {
res = _socket->read(buf, len);
}
return res;
}
}
ssize_t
SyncCryptoSocket::write(const char *buf, size_t len)
{
size_t written = 0;
while (written < len) {
auto write_res = _socket->write(buf + written, len - written);
assert(write_res != 0);
if (write_res > 0) {
written += write_res;
} else if (!is_blocked(write_res, errno)) {
return write_res;
}
}
auto flush_res = _socket->flush();
while ((flush_res > 0) || is_blocked(flush_res, errno)) {
flush_res = _socket->flush();
}
if (flush_res < 0) {
return flush_res;
}
return written;
}
ssize_t
SyncCryptoSocket::half_close()
{
auto half_close_res = _socket->half_close();
while (is_blocked(half_close_res, errno)) {
half_close_res = _socket->half_close();
}
return half_close_res;
}
SyncCryptoSocket::UP
SyncCryptoSocket::create_client(CryptoEngine &engine, SocketHandle socket, const SocketSpec &spec)
{
return create(engine.create_client_crypto_socket(std::move(socket), spec));
}
SyncCryptoSocket::UP
SyncCryptoSocket::create_server(CryptoEngine &engine, SocketHandle socket)
{
return create(engine.create_server_crypto_socket(std::move(socket)));
}
} // namespace vespalib
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