Retro68/gcc/libcody/client.cc
2022-10-27 20:55:19 +02:00

337 lines
7.6 KiB
C++

// CODYlib -*- mode:c++ -*-
// Copyright (C) 2020 Nathan Sidwell, nathan@acm.org
// License: Apache v2.0
// Cody
#include "internal.hh"
// C
#include <cerrno>
#include <cstdlib>
#include <cstring>
// Client code
namespace Cody {
// These do not need to be members
static Packet ConnectResponse (std::vector<std::string> &words);
static Packet PathnameResponse (std::vector<std::string> &words);
static Packet OKResponse (std::vector<std::string> &words);
static Packet IncludeTranslateResponse (std::vector<std::string> &words);
// Must be consistently ordered with the RequestCode enum
static Packet (*const responseTable[Detail::RC_HWM])
(std::vector<std::string> &) =
{
&ConnectResponse,
&PathnameResponse,
&PathnameResponse,
&PathnameResponse,
&OKResponse,
&IncludeTranslateResponse,
};
Client::Client ()
{
fd.from = fd.to = -1;
}
Client::Client (Client &&src)
: write (std::move (src.write)),
read (std::move (src.read)),
corked (std::move (src.corked)),
is_direct (src.is_direct),
is_connected (src.is_connected)
{
if (is_direct)
server = src.server;
else
{
fd.from = src.fd.from;
fd.to = src.fd.to;
}
}
Client::~Client ()
{
}
Client &Client::operator= (Client &&src)
{
write = std::move (src.write);
read = std::move (src.read);
corked = std::move (src.corked);
is_direct = src.is_direct;
is_connected = src.is_connected;
if (is_direct)
server = src.server;
else
{
fd.from = src.fd.from;
fd.to = src.fd.to;
}
return *this;
}
int Client::CommunicateWithServer ()
{
write.PrepareToWrite ();
read.PrepareToRead ();
if (IsDirect ())
server->DirectProcess (write, read);
else
{
// Write the write buffer
while (int e = write.Write (fd.to))
if (e != EAGAIN && e != EINTR)
return e;
// Read the read buffer
while (int e = read.Read (fd.from))
if (e != EAGAIN && e != EINTR)
return e;
}
return 0;
}
static Packet CommunicationError (int err)
{
std::string e {u8"communication error:"};
e.append (strerror (err));
return Packet (Client::PC_ERROR, std::move (e));
}
Packet Client::ProcessResponse (std::vector<std::string> &words,
unsigned code, bool isLast)
{
if (int e = read.Lex (words))
{
if (e == EINVAL)
{
std::string msg (u8"malformed string '");
msg.append (words[0]);
msg.append (u8"'");
return Packet (Client::PC_ERROR, std::move (msg));
}
else
return Packet (Client::PC_ERROR, u8"missing response");
}
Assert (!words.empty ());
if (words[0] == u8"ERROR")
return Packet (Client::PC_ERROR,
words.size () == 2 ? words[1]: u8"malformed error response");
if (isLast && !read.IsAtEnd ())
return Packet (Client::PC_ERROR,
std::string (u8"unexpected extra response"));
Assert (code < Detail::RC_HWM);
Packet result (responseTable[code] (words));
result.SetRequest (code);
if (result.GetCode () == Client::PC_ERROR && result.GetString ().empty ())
{
std::string msg {u8"malformed response '"};
read.LexedLine (msg);
msg.append (u8"'");
result.GetString () = std::move (msg);
}
else if (result.GetCode () == Client::PC_CONNECT)
is_connected = true;
return result;
}
Packet Client::MaybeRequest (unsigned code)
{
if (IsCorked ())
{
corked.push_back (code);
return Packet (PC_CORKED);
}
if (int err = CommunicateWithServer ())
return CommunicationError (err);
std::vector<std::string> words;
return ProcessResponse(words, code, true);
}
void Client::Cork ()
{
if (corked.empty ())
corked.push_back (-1);
}
std::vector<Packet> Client::Uncork ()
{
std::vector<Packet> result;
if (corked.size () > 1)
{
if (int err = CommunicateWithServer ())
result.emplace_back (CommunicationError (err));
else
{
std::vector<std::string> words;
for (auto iter = corked.begin () + 1; iter != corked.end ();)
{
char code = *iter;
++iter;
result.emplace_back (ProcessResponse (words, code,
iter == corked.end ()));
}
}
}
corked.clear ();
return result;
}
// Now the individual message handlers
// HELLO $vernum $agent $ident
Packet Client::Connect (char const *agent, char const *ident,
size_t alen, size_t ilen)
{
write.BeginLine ();
write.AppendWord (u8"HELLO");
write.AppendInteger (Version);
write.AppendWord (agent, true, alen);
write.AppendWord (ident, true, ilen);
write.EndLine ();
return MaybeRequest (Detail::RC_CONNECT);
}
// HELLO $version $agent [$flags]
Packet ConnectResponse (std::vector<std::string> &words)
{
if (words[0] == u8"HELLO" && (words.size () == 3 || words.size () == 4))
{
char *eptr;
unsigned long val = strtoul (words[1].c_str (), &eptr, 10);
unsigned version = unsigned (val);
if (*eptr || version != val || version < Version)
return Packet (Client::PC_ERROR, u8"incompatible version");
else
{
unsigned flags = 0;
if (words.size () == 4)
{
val = strtoul (words[3].c_str (), &eptr, 10);
flags = unsigned (val);
}
return Packet (Client::PC_CONNECT, flags);
}
}
return Packet (Client::PC_ERROR, u8"");
}
// MODULE-REPO
Packet Client::ModuleRepo ()
{
write.BeginLine ();
write.AppendWord (u8"MODULE-REPO");
write.EndLine ();
return MaybeRequest (Detail::RC_MODULE_REPO);
}
// PATHNAME $dir | ERROR
Packet PathnameResponse (std::vector<std::string> &words)
{
if (words[0] == u8"PATHNAME" && words.size () == 2)
return Packet (Client::PC_PATHNAME, std::move (words[1]));
return Packet (Client::PC_ERROR, u8"");
}
// OK or ERROR
Packet OKResponse (std::vector<std::string> &words)
{
if (words[0] == u8"OK")
return Packet (Client::PC_OK);
else
return Packet (Client::PC_ERROR,
words.size () == 2 ? std::move (words[1]) : "");
}
// MODULE-EXPORT $modulename [$flags]
Packet Client::ModuleExport (char const *module, Flags flags, size_t mlen)
{
write.BeginLine ();
write.AppendWord (u8"MODULE-EXPORT");
write.AppendWord (module, true, mlen);
if (flags != Flags::None)
write.AppendInteger (unsigned (flags));
write.EndLine ();
return MaybeRequest (Detail::RC_MODULE_EXPORT);
}
// MODULE-IMPORT $modulename [$flags]
Packet Client::ModuleImport (char const *module, Flags flags, size_t mlen)
{
write.BeginLine ();
write.AppendWord (u8"MODULE-IMPORT");
write.AppendWord (module, true, mlen);
if (flags != Flags::None)
write.AppendInteger (unsigned (flags));
write.EndLine ();
return MaybeRequest (Detail::RC_MODULE_IMPORT);
}
// MODULE-COMPILED $modulename [$flags]
Packet Client::ModuleCompiled (char const *module, Flags flags, size_t mlen)
{
write.BeginLine ();
write.AppendWord (u8"MODULE-COMPILED");
write.AppendWord (module, true, mlen);
if (flags != Flags::None)
write.AppendInteger (unsigned (flags));
write.EndLine ();
return MaybeRequest (Detail::RC_MODULE_COMPILED);
}
// INCLUDE-TRANSLATE $includename [$flags]
Packet Client::IncludeTranslate (char const *include, Flags flags, size_t ilen)
{
write.BeginLine ();
write.AppendWord (u8"INCLUDE-TRANSLATE");
write.AppendWord (include, true, ilen);
if (flags != Flags::None)
write.AppendInteger (unsigned (flags));
write.EndLine ();
return MaybeRequest (Detail::RC_INCLUDE_TRANSLATE);
}
// BOOL $knowntextualness
// PATHNAME $cmifile
Packet IncludeTranslateResponse (std::vector<std::string> &words)
{
if (words[0] == u8"BOOL" && words.size () == 2)
{
if (words[1] == u8"FALSE")
return Packet (Client::PC_BOOL, 0);
else if (words[1] == u8"TRUE")
return Packet (Client::PC_BOOL, 1);
else
return Packet (Client::PC_ERROR, u8"");
}
else
return PathnameResponse (words);
}
}