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// file : libbutl/curl.cxx -*- C++ -*-
// license : MIT; see accompanying LICENSE file
#include <libbutl/curl.hxx>
#include <cassert>
#include <utility> // move()
#include <cstdlib> // strtoul(), size_t
#include <exception> // invalid_argument
#include <libbutl/utility.hxx>
using namespace std;
namespace butl
{
process::pipe curl::
map_in (nullfd_t, method_proto mp, io_data& d)
{
switch (mp)
{
case ftp_put:
throw invalid_argument ("no input specified for PUT method");
case ftp_get:
case http_get:
case http_post:
{
d.pipe.in = fdopen_null (); // /dev/null
return pipe (d.pipe);
}
}
assert (false); // Can't be here.
return pipe ();
}
process::pipe curl::
map_in (const path& f, method_proto mp, io_data& d)
{
pipe r;
switch (mp)
{
case ftp_put:
case http_post:
{
if (mp == ftp_put)
{
d.options.push_back ("--upload-file");
d.options.push_back (f.string ().c_str ());
}
else
{
d.storage = '@' + f.string ();
d.options.push_back ("--data-binary");
d.options.push_back (d.storage.c_str ());
}
if (f.string () == "-")
{
d.pipe = fdopen_pipe (fdopen_mode::binary);
r = pipe (d.pipe);
out.open (move (d.pipe.out));
}
else
{
d.pipe.in = fdopen_null (); // /dev/null
r = pipe (d.pipe);
}
return r;
}
case ftp_get:
case http_get:
{
throw invalid_argument ("file input specified for GET method");
}
}
assert (false); // Can't be here.
return r;
}
process::pipe curl::
map_out (nullfd_t, method_proto mp, io_data& d)
{
switch (mp)
{
case ftp_get:
case http_get:
throw invalid_argument ("no output specified for GET method");
case ftp_put:
case http_post: // May or may not produce output.
{
d.pipe.out = fdopen_null ();
return pipe (d.pipe); // /dev/null
}
}
assert (false); // Can't be here.
return pipe ();
}
process::pipe curl::
map_out (const path& f, method_proto mp, io_data& d)
{
pipe r;
switch (mp)
{
case ftp_get:
case http_get:
case http_post:
{
if (f.string () == "-")
{
// Note: no need for any options, curl writes to stdout by default.
//
d.pipe = fdopen_pipe (fdopen_mode::binary);
r = pipe (d.pipe);
in.open (move (d.pipe.in));
}
else
{
d.options.push_back ("-o");
d.options.push_back (f.string ().c_str ());
d.pipe.out = fdopen_null (); // /dev/null
r = pipe (d.pipe);
}
return r;
}
case ftp_put:
{
throw invalid_argument ("file output specified for PUT method");
}
}
assert (false); // Can't be here.
return r;
}
curl::method_proto curl::
translate (method_type m, const string& u, method_proto_options& o)
{
size_t n (u.find ("://"));
if (n == string::npos)
throw invalid_argument ("no protocol in URL");
if (icasecmp (u, "ftp", n) == 0 || icasecmp (u, "tftp", n) == 0)
{
switch (m)
{
case method_type::get: return method_proto::ftp_get;
case method_type::put: return method_proto::ftp_put;
case method_type::post:
throw invalid_argument ("POST method with FTP protocol");
}
}
else if (icasecmp (u, "http", n) == 0 || icasecmp (u, "https", n) == 0)
{
o.push_back ("--fail"); // Fail on HTTP errors (e.g., 404).
o.push_back ("--location"); // Follow redirects.
switch (m)
{
case method_type::get: return method_proto::http_get;
case method_type::post: return method_proto::http_post;
case method_type::put:
throw invalid_argument ("PUT method with HTTP protocol");
}
}
throw invalid_argument ("unsupported protocol");
}
uint16_t curl::
parse_http_status_code (const string& s)
{
char* e (nullptr);
unsigned long c (strtoul (s.c_str (), &e, 10)); // Can't throw.
assert (e != nullptr);
return *e == '\0' && c >= 100 && c < 600
? static_cast<uint16_t> (c)
: 0;
}
string curl::
read_http_response_line (ifdstream& is)
{
string r;
getline (is, r); // Strips the trailing LF (0xA).
// Note that on POSIX CRLF is not automatically translated into LF, so we
// need to strip CR (0xD) manually.
//
if (!r.empty () && r.back () == '\r')
r.pop_back ();
return r;
}
curl::http_status curl::
read_http_status (ifdstream& is, bool skip_headers)
{
// After getting the status line, if requested, we will read until the
// empty line (containing just CRLF). Not being able to reach such a line
// is an error, which is the reason for the exception mask choice. When
// done, we will restore the original exception mask.
//
ifdstream::iostate es (is.exceptions ());
is.exceptions (ifdstream::badbit | ifdstream::failbit | ifdstream::eofbit);
auto read_status = [&is, es] ()
{
string l (read_http_response_line (is));
for (;;) // Breakout loop.
{
if (l.compare (0, 5, "HTTP/") != 0)
break;
size_t p (l.find (' ', 5)); // The protocol end.
if (p == string::npos)
break;
p = l.find_first_not_of (' ', p + 1); // The code start.
if (p == string::npos)
break;
size_t e (l.find (' ', p + 1)); // The code end.
if (e == string::npos)
break;
uint16_t c (parse_http_status_code (string (l, p, e - p)));
if (c == 0)
break;
string r;
p = l.find_first_not_of (' ', e + 1); // The reason start.
if (p != string::npos)
{
e = l.find_last_not_of (' '); // The reason end.
assert (e != string::npos && e >= p);
r = string (l, p, e - p + 1);
}
return http_status {c, move (r)};
}
is.exceptions (es); // Restore the exception mask.
throw invalid_argument ("invalid status line '" + l + "'");
};
// The curl output for a successfull request looks like this:
//
// HTTP/1.1 100 Continue
//
// HTTP/1.1 200 OK
// Content-Length: 83
// Content-Type: text/manifest;charset=utf-8
//
// <response-body>
//
// curl normally sends the 'Expect: 100-continue' header for uploads, so
// we need to handle the interim HTTP server response with the continue
// (100) status code.
//
// Interestingly, Apache can respond with the continue (100) code and with
// the not found (404) code afterwords.
//
http_status rs (read_status ());
if (rs.code == 100)
{
// Skips the interim response.
//
while (!read_http_response_line (is).empty ()) ;
rs = read_status (); // Reads the final status code.
}
if (skip_headers)
{
while (!read_http_response_line (is).empty ()) ; // Skips headers.
}
is.exceptions (es);
return rs;
}
}
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