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// file : mod/mod-submit.cxx -*- C++ -*-
// copyright : Copyright (c) 2014-2018 Code Synthesis Ltd
// license : MIT; see accompanying LICENSE file
#include <mod/mod-submit.hxx>
#include <cstdlib> // strtoul()
#include <istream>
#include <libbutl/sha256.mxx>
#include <libbutl/process.mxx>
#include <libbutl/sendmail.mxx>
#include <libbutl/fdstream.mxx>
#include <libbutl/timestamp.mxx>
#include <libbutl/filesystem.mxx>
#include <libbutl/process-io.mxx> // operator<<(ostream, process_args)
#include <libbutl/manifest-parser.mxx>
#include <libbutl/manifest-serializer.mxx>
#include <web/xhtml.hxx>
#include <web/module.hxx>
#include <mod/page.hxx>
#include <mod/options.hxx>
using namespace std;
using namespace butl;
using namespace web;
using namespace brep::cli;
brep::submit::
submit (const submit& r)
: handler (r),
options_ (r.initialized_ ? r.options_ : nullptr),
form_ (r.initialized_ || r.form_ == nullptr
? r.form_
: make_shared<xhtml::fragment> (*r.form_))
{
}
void brep::submit::
init (scanner& s)
{
HANDLER_DIAG;
options_ = make_shared<options::submit> (
s, unknown_mode::fail, unknown_mode::fail);
// Verify that the submission handling is setup properly, if configured.
//
if (options_->submit_data_specified ())
{
// Verify that directories satisfy the requirements.
//
auto verify = [&fail] (const dir_path& d, const char* what)
{
if (d.relative ())
fail << what << " directory path must be absolute";
if (!dir_exists (d))
fail << what << " directory '" << d << "' does not exist";
};
verify (options_->submit_data (), "submit-data");
verify (options_->submit_temp (), "submit-temp");
// Parse XHTML5 form file, if configured.
//
if (options_->submit_form_specified ())
{
const path& submit_form (options_->submit_form ());
if (submit_form.relative ())
fail << "submit-form path must be absolute";
try
{
ifdstream is (submit_form);
form_ = make_shared<xhtml::fragment> (is.read_text (),
submit_form.string ());
}
catch (const xml::parsing& e)
{
fail << "unable to parse submit-form file: " << e;
}
catch (const io_error& e)
{
fail << "unable to read submit-form file '" << submit_form << "': "
<< e;
}
}
if (options_->submit_handler_specified () &&
options_->submit_handler ().relative ())
fail << "submit-handler path must be absolute";
}
if (options_->root ().empty ())
options_->root (dir_path ("/"));
}
bool brep::submit::
handle (request& rq, response& rs)
{
using namespace xhtml;
using parser = manifest_parser;
using parsing = manifest_parsing;
using serializer = manifest_serializer;
using serialization = manifest_serialization;
HANDLER_DIAG;
const dir_path& root (options_->root ());
// We will respond with the manifest to the submission protocol violations
// and with a plain text message on the internal errors. In the latter case
// we will always respond with the same neutral message for security reason,
// logging the error details. Note that descriptions of exceptions caught by
// the web server are returned to the client (see web/module.hxx for
// details), and we want to avoid this when there is a danger of exposing
// sensitive data.
//
// Also we will pass through exceptions thrown by the underlying API, unless
// we need to handle them or add details for the description, in which case
// we will fallback to one of the above mentioned response methods.
//
// Note that both respond_manifest() and respond_error() are normally called
// right before the end of the request handling. They both always return
// true to allow bailing out with a single line, for example:
//
// return respond_error (); // Request is handled with an error.
//
auto respond_manifest = [&rs] (status_code status,
const string& message,
const char* ref = nullptr) -> bool
{
serializer s (rs.content (status, "text/manifest;charset=utf-8"),
"response");
s.next ("", "1"); // Start of manifest.
s.next ("status", to_string (status));
s.next ("message", message);
if (ref != nullptr)
s.next ("reference", ref);
s.next ("", ""); // End of manifest.
return true;
};
auto respond_error = [&rs] (status_code status = 500) -> bool
{
rs.content (status, "text/plain;charset=utf-8") << "unable to handle "
<< "submission" << endl;
return true;
};
// Check if the package submission functionality is enabled.
//
// Note that this is not a submission protocol violation but it feels right
// to respond with the manifest, to help the client a bit.
//
if (!options_->submit_data_specified ())
return respond_manifest (404, "submission disabled");
// Parse the request form data and verifying the submission size limit.
//
// Note that if it is exceeded, then there are parameters and this is the
// submission rather than the form request, and so we respond with the
// manifest.
//
try
{
rq.parameters (options_->submit_max_size ());
}
catch (const invalid_request& e)
{
if (e.status == 413) // Payload too large?
return respond_manifest (e.status, "submission size exceeds limit");
throw;
}
// The request parameters are now parsed and the limit doesn't really matter.
//
const name_values& rps (rq.parameters (0 /* limit */));
// If there is no request parameters then we respond with the submission
// form XHTML, if configured. Otherwise, will proceed as for the submission
// request and will fail (missing parameters).
//
if (rps.empty () && form_ != nullptr)
{
const string title ("Submit");
xml::serializer s (rs.content (), title);
s << HTML
<< HEAD
<< TITLE << title << ~TITLE
<< CSS_LINKS (path ("submit.css"), root)
<< ~HEAD
<< BODY
<< DIV_HEADER (root, options_->logo (), options_->menu ())
<< DIV(ID="content") << *form_ << ~DIV
<< ~BODY
<< ~HTML;
return true;
}
// Verify the submission parameters we expect. The unknown ones will be
// serialized to the submission manifest.
//
params::submit params;
try
{
name_value_scanner s (rps);
params = params::submit (s, unknown_mode::skip, unknown_mode::skip);
}
catch (const cli::exception&)
{
return respond_manifest (400, "invalid parameter");
}
const string& archive (params.archive ());
const string& sha256sum (params.sha256sum ());
if (archive.empty ())
return respond_manifest (400, "package archive expected");
if (sha256sum.empty ())
return respond_manifest (400, "package archive checksum expected");
if (sha256sum.size () != 64)
return respond_manifest (400, "invalid package archive checksum");
// Verify that unknown parameter values satisfy the requirements (contain
// only ASCII printable characters plus '\r', '\n', and '\t').
//
// Actually, the expected ones must satisfy too, so check them as well.
//
auto printable = [] (const string& s) -> bool
{
for (char c: s)
{
if (!((c >= 0x20 && c <= 0x7E) || c == '\n' || c == '\r' || c == '\t'))
return false;
}
return true;
};
for (const name_value& nv: rps)
{
if (nv.value && !printable (*nv.value))
return respond_manifest (400, "invalid parameter " + nv.name);
}
// Check for a duplicate submission.
//
// Respond with the conflict (409) code if a duplicate is found.
//
string ac (sha256sum, 0, 12);
dir_path dd (options_->submit_data () / dir_path (ac));
if (dir_exists (dd))
return respond_manifest (409, "duplicate submission");
// Create the temporary submission directory.
//
dir_path td;
try
{
// Note that providing a meaningful prefix for temp_name() is not really
// required as the temporary directory is used by brep exclusively. However,
// using the abbreviated checksum can be helpful for troubleshooting.
//
td = dir_path (options_->submit_temp () /
dir_path (path::traits::temp_name (ac)));
// It's highly unlikely but still possible that the temporary directory
// already exists. This can only happen due to the unclean web server
// shutdown. Let's remove it and retry.
//
if (try_mkdir (td) == mkdir_status::already_exists)
{
try_rmdir_r (td);
if (try_mkdir (td) == mkdir_status::already_exists)
throw_generic_error (EEXIST);
}
}
catch (const invalid_path&)
{
return respond_manifest (400, "invalid package archive checksum");
}
catch (const system_error& e)
{
error << "unable to create directory '" << td << "': " << e;
return respond_error ();
}
auto_rmdir tdr (td);
// Save the package archive into the temporary directory and verify its
// checksum.
//
// Note that the archive file name can potentially contain directory path
// in the client's form (e.g., Windows), so let's strip it if that's the
// case.
//
path a;
path af;
try
{
size_t n (archive.find_last_of ("\\/"));
a = path (n != string::npos ? string (archive, n + 1) : archive);
af = td / a;
}
catch (const invalid_path&)
{
return respond_manifest (400, "invalid package archive name");
}
try
{
istream& is (rq.open_upload ("archive"));
// Note that istream::read() sets failbit if unable to read the requested
// number of bytes.
//
is.exceptions (istream::badbit);
sha256 sha;
char buf[8192];
ofdstream os (af, ios::binary);
while (!eof (is))
{
is.read (buf, sizeof (buf));
if (size_t n = is.gcount ())
{
sha.append (buf, n);
os.write (buf, n);
}
}
os.close ();
if (sha.string () != sha256sum)
return respond_manifest (400, "package archive checksum mismatch");
}
// Note that invalid_argument (thrown by open_upload() function call) can
// mean both no archive upload or multiple archive uploads.
//
catch (const invalid_argument&)
{
return respond_manifest (400, "package archive upload expected");
}
catch (const io_error& e)
{
error << "unable to write package archive '" << af << "': " << e;
return respond_error ();
}
// Serialize the submission request manifest to a stream. On the
// serialization error respond to the client with the manifest containing
// the bad request (400) code and return false, on the stream error pass
// through the io_error exception, otherwise return true.
//
timestamp ts (system_clock::now ());
auto rqm = [&a, &sha256sum, &ts, &rq, &rps, &respond_manifest]
(ostream& os) -> bool
{
try
{
serializer s (os, "request");
// Serialize the submission manifest header.
//
s.next ("", "1"); // Start of manifest.
s.next ("archive", a.string ());
s.next ("sha256sum", sha256sum);
s.next ("timestamp",
butl::to_string (ts,
"%Y-%m-%dT%H:%M:%SZ",
false /* special */,
false /* local */));
// Serialize the User-Agent HTTP header and the client IP address.
//
optional<string> ip;
optional<string> ua;
for (const name_value& h: rq.headers ())
{
if (casecmp (h.name, ":Client-IP") == 0)
ip = h.value;
else if (casecmp (h.name, "User-Agent") == 0)
ua = h.value;
}
if (ip)
s.next ("client-ip", *ip);
if (ua)
s.next ("user-agent", *ua);
// Serialize the request parameters.
//
// Note that the serializer constraints the parameter names (can't start
// with '#', can't contain ':' and the whitespaces, etc.).
//
for (const name_value& nv: rps)
{
const string& n (nv.name);
if (n != "archive" && n != "sha256sum")
s.next (n, nv.value ? *nv.value : "");
}
s.next ("", ""); // End of manifest.
return true;
}
catch (const serialization& e)
{
respond_manifest (400, string ("invalid parameter: ") + e.what ());
return false;
}
};
// Serialize the submission request manifest to the temporary submission
// directory.
//
path rqf (td / "request.manifest");
try
{
ofdstream os (rqf);
bool r (rqm (os));
os.close ();
if (!r)
return true; // The client is already responded with the manifest.
}
catch (const io_error& e)
{
error << "unable to write to '" << rqf << "': " << e;
return respond_error ();
}
// Make the temporary submission directory permanent.
//
// Respond with the conflict (409) code if a submission race is detected.
//
try
{
mvdir (td, dd);
}
catch (const system_error& e)
{
int ec (e.code ().value ());
if (ec == ENOTEMPTY || ec == EEXIST)
return respond_manifest (409, "duplicate submission");
error << "unable to rename directory '" << td << "' to '" << dd << "': "
<< e;
return respond_error ();
}
// Given that the submission data is now successfully persisted we are no
// longer in charge of removing it, even in case of a subsequent error.
//
tdr.cancel ();
auto print_args = [&trace, this] (const char* args[], size_t n)
{
l2 ([&]{trace << process_args {args, n};});
};
// Run the submission handler, if specified, reading the result manifest
// from its stdout and caching it as a name/value pair list for later use
// (forwarding to the client, sending via email, etc.).
//
// Note that if the handler is configured then the cache can never be empty,
// containing at least the status value. Thus, an empty cache indicates that
// the handler is not configured.
//
status_code sc;
vector<manifest_name_value> rvs;
if (options_->submit_handler_specified ())
{
const path& handler (options_->submit_handler ());
for (;;) // Breakout loop.
try
{
fdpipe pipe (fdopen_pipe ()); // Can throw io_error.
// Redirect the diagnostics to the web server error log.
//
process pr (
process_start_callback (print_args,
0 /* stdin */,
pipe /* stdout */,
2 /* stderr */,
handler,
options_->submit_handler_argument (),
dd));
pipe.out.close ();
try
{
ifdstream is (move (pipe.in));
// Parse and verify the manifest. Obtain the HTTP status code (must go
// first) and cache it for the subsequent responding to the client.
//
parser p (is, "handler");
manifest_name_value nv (p.next ());
auto bad_value ([&p, &nv] (const string& d) {
throw parsing (p.name (), nv.value_line, nv.value_column, d);});
if (nv.empty ())
bad_value ("empty manifest");
const string& n (nv.name);
const string& v (nv.value);
// The format version pair is verified by the parser.
//
assert (n.empty () && v == "1");
// Cache the format version pair.
//
rvs.push_back (move (nv));
// Get and verify the HTTP status.
//
nv = p.next ();
if (n != "status")
bad_value ("no status specified");
char* e (nullptr);
unsigned long c (strtoul (v.c_str (), &e, 10)); // Can't throw.
assert (e != nullptr);
if (!(*e == '\0' && c >= 100 && c < 600))
bad_value ("invalid http status '" + v + "'");
// Cache the HTTP status.
//
sc = static_cast<status_code> (c);
rvs.push_back (move (nv));
// Cache the remaining name/value pairs.
//
for (nv = p.next (); !nv.empty (); nv = p.next ())
rvs.push_back (move (nv));
// Cache end of manifest.
//
rvs.push_back (move (nv));
is.close ();
if (pr.wait ())
break; // Get out of the breakout loop.
assert (pr.exit);
error << "process " << handler << " " << *pr.exit;
// Fall through.
}
catch (const parsing& e)
{
if (pr.wait ())
error << "unable to parse handler's output: " << e;
// Fall through.
}
catch (const io_error& e)
{
if (pr.wait ())
error << "unable to read handler's output: " << e;
// Fall through.
}
return respond_error ();
}
// Handle process_error and io_error (both derive from system_error).
//
catch (const system_error& e)
{
error << "unable to execute '" << handler << "': " << e;
return respond_error ();
}
}
// Serialize the submission result manifest to a stream. On the
// serialization error log the error description and return false, on the
// stream error pass through the io_error exception, otherwise return true.
//
auto rsm = [&rvs, &error] (ostream& os) -> bool
{
assert (!rvs.empty ());
try
{
serializer s (os, "result");
for (const manifest_name_value& nv: rvs)
s.next (nv.name, nv.value);
return true;
}
catch (const serialization& e)
{
error << "unable to serialize handler's output: " << e;
return false;
}
};
// Save the result manifest, if generated, into the submission directory
// if it still exists (note that the handler could move or remove it).
//
path rsf (dd / "result.manifest");
if (!rvs.empty () && dir_exists (dd))
try
{
ofdstream os (rsf);
bool r (rsm (os));
os.close ();
if (!r)
return respond_error (); // The error description is already logged.
}
catch (const io_error& e)
{
error << "unable to write to '" << rsf << "': " << e;
return respond_error ();
}
// Send email, if configured, and the submission is not simulated.
//
// Note that we don't consider the email sending failure to be a submission
// failure as the submission data is successfully persisted and the handler
// is successfully executed, if configured. One can argue that email can be
// essential for the submission processing and missing it would result in
// the incomplete submission. In this case it's natural to assume that the
// web server error log is monitored and the email sending failure will be
// noticed.
//
if (options_->submit_email_specified () && !params.simulate ())
try
{
// Redirect the diagnostics to the web server error log.
//
sendmail sm (print_args,
2 /* stderr */,
options_->email (),
"new package submission " + a.string () + " (" + ac + ")",
{options_->submit_email ()});
// Write the submission request manifest.
//
bool r (rqm (sm.out));
assert (r); // The serialization succeeded once, so can't fail now.
// Write the submission result manifest, if present.
//
if (!rvs.empty ())
{
sm.out << "\n\n";
rsm (sm.out); // We don't care about the result (see above).
}
sm.out.close ();
if (!sm.wait ())
error << "sendmail " << *sm.exit;
}
// Handle process_error and io_error (both derive from system_error).
//
catch (const system_error& e)
{
error << "sendmail error: " << e;
}
// Respond with implied result manifest if the handler is not configured.
//
if (rvs.empty ())
return respond_manifest (200, "submission queued", ac.c_str ());
if (!rsm (rs.content (sc, "text/manifest;charset=utf-8")))
return respond_error (); // The error description is already logged.
return true;
}
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