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|
// file : web/apache/request.cxx -*- C++ -*-
// copyright : Copyright (c) 2014-2019 Code Synthesis Ltd
// license : MIT; see accompanying LICENSE file
#include <web/apache/request.hxx>
#include <apr.h> // APR_SIZE_MAX
#include <apr_errno.h> // apr_status_t, APR_SUCCESS, APR_E*, apr_strerror()
#include <apr_tables.h> // apr_table_*, apr_table_*(), apr_array_header_t
#include <apr_strings.h> // apr_pstrdup()
#include <apr_buckets.h> // apr_bucket*, apr_bucket_*(), apr_brigade_*(),
// APR_BRIGADE_*()
#include <httpd.h> // request_rec, HTTP_*, OK
#include <http_protocol.h> // ap_*()
#include <apreq2/apreq.h> // APREQ_*
#include <apreq2/apreq_util.h> // apreq_brigade_copy()
#include <apreq2/apreq_param.h> // apreq_param_t, apreq_value_to_param()
#include <apreq2/apreq_parser.h> // apreq_parser_t, apreq_parser_make()
#include <ctime> // strftime(), time_t
#include <vector>
#include <chrono>
#include <memory> // unique_ptr
#include <string>
#include <cassert>
#include <ostream>
#include <istream>
#include <cstring> // str*(), memcpy(), size_t
#include <utility> // move()
#include <iterator> // istreambuf_iterator
#include <stdexcept> // invalid_argument, runtime_error
#include <exception> // current_exception()
#include <streambuf>
#include <algorithm> // min()
#include <libbutl/utility.mxx> // casecmp()
#include <libbutl/optional.mxx>
#include <libbutl/timestamp.mxx>
#include <web/mime-url-encoding.hxx>
using namespace std;
using namespace butl;
namespace web
{
namespace apache
{
[[noreturn]] static void
throw_internal_error (apr_status_t s, const string& what)
{
char buf[1024];
throw runtime_error (what + ": " + apr_strerror (s, buf, sizeof (buf)));
}
// Extend the Apache stream with checking for the read limit and caching
// the content if requested. Replay the cached content after rewind.
//
class istreambuf_cache: public istreambuf
{
enum class mode
{
cache, // Read from Apache stream, save the read data into the cache.
replay, // Read from the cache.
proxy // Read from Apache stream (don't save into the cache).
};
public:
istreambuf_cache (size_t read_limit, size_t cache_limit,
request_rec* r,
stream_state& s,
size_t bufsize = 1024,
size_t putback = 1)
: istreambuf (r, s, bufsize, putback),
read_limit_ (read_limit),
cache_limit_ (cache_limit)
{
}
void
rewind ()
{
// Fail if some content is already missed in the cache.
//
if (mode_ == mode::proxy)
throw sequence_error (
string ("web::apache::istreambuf_cache::rewind: ") +
(cache_limit_ > 0
? "half-buffered"
: "unbuffered"));
mode_ = mode::replay;
replay_pos_ = 0;
setg (nullptr, nullptr, nullptr);
}
void
limits (size_t read_limit, size_t cache_limit)
{
if (read_limit > 0)
read_limit_ = read_limit;
if (cache_limit > 0)
{
// We can not increase the cache limit if some content is already
// missed in the cache.
//
if (cache_limit > cache_limit_ && mode_ == mode::proxy)
throw sequence_error (
"web::apache::istreambuf_cache::limits: unbuffered");
cache_limit_ = cache_limit;
}
}
size_t read_limit () const noexcept {return read_limit_;}
size_t cache_limit () const noexcept {return cache_limit_;}
private:
virtual int_type
underflow ();
private:
// Limits
//
size_t read_limit_;
size_t cache_limit_;
// State
//
mode mode_ = mode::cache;
size_t read_bytes_ = 0;
bool eof_ = false; // End of Apache stream is reached.
// Cache
//
struct chunk
{
vector<char> data;
size_t offset;
chunk (vector<char>&& d, size_t o): data (move (d)), offset (o) {}
// Make the type move constructible-only to avoid copying of chunks on
// vector growth.
//
chunk (chunk&&) = default;
};
vector<chunk> cache_;
size_t cache_size_ = 0;
size_t replay_pos_ = 0;
};
istreambuf_cache::int_type istreambuf_cache::
underflow ()
{
if (gptr () < egptr ())
return traits_type::to_int_type (*gptr ());
if (mode_ == mode::replay)
{
if (replay_pos_ < cache_.size ())
{
chunk& ch (cache_[replay_pos_++]);
char* p (ch.data.data ());
setg (p, p + ch.offset, p + ch.data.size ());
return traits_type::to_int_type (*gptr ());
}
// No more data to replay, so switch to the cache mode. That includes
// resetting eback, gptr and egptr, so they point into the istreambuf's
// internal buffer. Putback area should also be restored.
//
mode_ = mode::cache;
// Bail out if the end of stream is reached.
//
if (eof_)
return traits_type::eof ();
char* p (buf_.data () + putback_);
size_t pb (0);
// Restore putback area if there is any cached data. Thanks to
// istreambuf, it's all in a single chunk.
//
if (!cache_.empty ())
{
chunk& ch (cache_.back ());
pb = min (putback_, ch.data.size ());
memcpy (p - pb, ch.data.data () + ch.data.size () - pb, pb);
}
setg (p - pb, p, p);
}
// Delegate reading to the base class in the cache or proxy modes, but
// check for the read limit first.
//
if (read_limit_ && read_bytes_ >= read_limit_)
throw invalid_request (HTTP_REQUEST_ENTITY_TOO_LARGE,
"payload too large");
// Throws the sequence_error exception if some unbuffered content is
// already written.
//
int_type r (istreambuf::underflow ());
if (r == traits_type::eof ())
{
eof_ = true;
return r;
}
// Increment the read bytes counter.
//
size_t rb (egptr () - gptr ());
read_bytes_ += rb;
// In the cache mode save the read data if the cache limit is not
// reached, otherwise switch to the proxy mode.
//
if (mode_ == mode::cache)
{
// Not to complicate things we will copy the buffer into the cache
// together with the putback area, which is OK as it usually takes a
// small fraction of the buffer. By the same reason we will cache the
// whole data read even though we can exceed the limits by
// bufsize - putback - 1 bytes.
//
if (cache_size_ < cache_limit_)
{
chunk ch (vector<char> (eback (), egptr ()),
static_cast<size_t> (gptr () - eback ()));
cache_.emplace_back (move (ch));
cache_size_ += rb;
}
else
mode_ = mode::proxy;
}
return r;
}
// Stream interface for reading from the Apache's bucket brigade. Put back
// is not supported.
//
// Note that reading from a brigade bucket modifies the brigade in the
// general case. For example, reading from a file bucket adds a new heap
// bucket before the file bucket on every read. Traversing/reading through
// such a bucket brigade effectively loads the whole file into the memory,
// so the subsequent brigade traversal results in iterating over the
// loaded heap buckets.
//
// To avoid such a behavior we will make a shallow copy of the original
// bucket brigade, initially and for each rewind. Then, instead of
// iterating, we will always read from the first bucket removing it after
// the use.
//
class istreambuf_buckets: public streambuf
{
public:
// The bucket brigade must exist during the object's lifetime.
//
explicit
istreambuf_buckets (const apr_bucket_brigade* bs)
: orig_buckets_ (bs),
buckets_ (apr_brigade_create (bs->p, bs->bucket_alloc))
{
if (buckets_ == nullptr)
throw_internal_error (APR_ENOMEM, "apr_brigade_create");
rewind (); // Copy the original buckets.
}
void
rewind ()
{
// Note that apreq_brigade_copy() appends buckets to the destination,
// so we clean it up first.
//
apr_status_t r (apr_brigade_cleanup (buckets_.get ()));
if (r != APR_SUCCESS)
throw_internal_error (r, "apr_brigade_cleanup");
r = apreq_brigade_copy (
buckets_.get (),
const_cast<apr_bucket_brigade*> (orig_buckets_));
if (r != APR_SUCCESS)
throw_internal_error (r, "apreq_brigade_copy");
setg (nullptr, nullptr, nullptr);
}
private:
virtual int_type
underflow ()
{
if (gptr () < egptr ())
return traits_type::to_int_type (*gptr ());
// If the get-pointer is not NULL then it points to the data referred
// by the first brigade bucket. As we will bail out or rewrite such a
// pointer now there is no need for the bucket either, so we can
// safely delete it.
//
if (gptr () != nullptr)
{
assert (!APR_BRIGADE_EMPTY (buckets_));
// Note that apr_bucket_delete() is a macro and the following
// call ends up badly (with SIGSEGV).
//
// apr_bucket_delete (APR_BRIGADE_FIRST (buckets_));
//
apr_bucket* b (APR_BRIGADE_FIRST (buckets_));
apr_bucket_delete (b);
}
if (APR_BRIGADE_EMPTY (buckets_))
return traits_type::eof ();
apr_size_t n;
const char* d;
apr_bucket* b (APR_BRIGADE_FIRST (buckets_));
apr_status_t r (apr_bucket_read (b, &d, &n, APR_BLOCK_READ));
if (r != APR_SUCCESS)
throw_internal_error (r, "apr_bucket_read");
char* p (const_cast<char*> (d));
setg (p, p, p + n);
return traits_type::to_int_type (*gptr ());
}
private:
const apr_bucket_brigade* orig_buckets_;
struct brigade_deleter
{
void operator() (apr_bucket_brigade* p) const
{
if (p != nullptr)
{
apr_status_t r (apr_brigade_destroy (p));
// Shouldn't fail unless something is severely damaged.
//
assert (r == APR_SUCCESS);
}
}
};
unique_ptr<apr_bucket_brigade, brigade_deleter> buckets_;
};
class istream_buckets_base
{
public:
explicit
istream_buckets_base (const apr_bucket_brigade* bs): buf_ (bs) {}
protected:
istreambuf_buckets buf_;
};
class istream_buckets: public istream_buckets_base, public istream
{
public:
explicit
istream_buckets (const apr_bucket_brigade* bs)
// Note that calling dtor for istream object before init() is called
// is undefined behavior. That's the reason for inventing the
// istream_buckets_base class.
//
: istream_buckets_base (bs), istream (&buf_)
{
exceptions (failbit | badbit);
}
void
rewind ()
{
buf_.rewind ();
clear (); // Clears *bit flags (in particular eofbit).
}
};
// request
//
request::
request (request_rec* rec) noexcept
: rec_ (rec)
{
rec_->status = HTTP_OK;
}
request::
~request ()
{
}
void request::
state (request_state s)
{
assert (s != request_state::initial);
if (s == state_)
return; // Noop.
if (s < state_)
{
// Can't "unwind" irrevocable interaction with Apache API.
//
static const char* names[] = {
"initial", "reading", "headers", "writing"};
string str ("web::apache::request::set_state: ");
str += names[static_cast<size_t> (state_)];
str += " to ";
str += names[static_cast<size_t> (s)];
throw sequence_error (move (str));
}
if (s == request_state::reading)
{
// Prepare request content for reading.
//
int r (ap_setup_client_block (rec_, REQUEST_CHUNKED_DECHUNK));
if (r != OK)
throw invalid_request (r);
}
else if (s > request_state::reading && state_ <= request_state::reading)
{
// Read request content if any, discard whatever is received.
//
int r (ap_discard_request_body (rec_));
if (r != OK)
throw invalid_request (r);
}
state_ = s;
}
void request::
rewind ()
{
// @@ Response cookies buffering is not supported yet. When done will be
// possible to rewind in broader range of cases.
//
if (state_ > request_state::reading)
throw sequence_error ("web::apache::request::rewind: unbuffered");
out_.reset ();
out_buf_.reset ();
rec_->status = HTTP_OK;
ap_set_content_type (rec_, nullptr); // Unset the output content type.
// We don't need to rewind the input stream (which well may fail if
// unbuffered) if the form data is already read.
//
if (in_ != nullptr && form_data_ == nullptr)
{
assert (in_buf_ != nullptr);
in_buf_->rewind (); // Throws if impossible to rewind.
in_->clear (); // Clears *bit flags (in particular eofbit).
}
// Rewind uploaded file streams.
//
if (uploads_ != nullptr)
{
for (const unique_ptr<istream_buckets>& is: *uploads_)
{
if (is != nullptr)
is->rewind ();
}
}
}
istream& request::
content (size_t limit, size_t buffer)
{
// Create the input stream/streambuf if not present, otherwise adjust the
// limits.
//
if (in_ == nullptr)
{
unique_ptr<istreambuf_cache> in_buf (
new istreambuf_cache (limit, buffer, rec_, *this));
in_.reset (new istream (in_buf.get ()));
in_buf_ = move (in_buf);
in_->exceptions (istream::failbit | istream::badbit);
}
else
{
assert (in_buf_ != nullptr);
in_buf_->limits (limit, buffer);
}
return *in_;
}
const path& request::
path ()
{
if (path_.empty ())
{
path_ = path_type (rec_->uri); // Is already URL-decoded.
// Module request handler can not be called if URI is empty.
//
assert (!path_.empty ());
}
return path_;
}
const name_values& request::
parameters (size_t limit, bool url_only)
{
if (parameters_ == nullptr || url_only < url_only_parameters_)
{
try
{
if (parameters_ == nullptr)
{
parameters_.reset (new name_values ());
parse_url_parameters (rec_->args);
}
if (!url_only && form_data (limit))
{
// After the form data is parsed we can clean it up for the
// application/x-www-form-urlencoded encoding but not for the
// multipart/form-data (see parse_multipart_parameters() for
// details).
//
if (form_multipart_)
parse_multipart_parameters (*form_data_);
else
{
// Make the character vector a NULL-terminated string.
//
form_data_->push_back ('\0');
parse_url_parameters (form_data_->data ());
*form_data_ = vector<char> (); // Reset the cache.
}
}
}
catch (const invalid_argument&)
{
throw invalid_request ();
}
url_only_parameters_ = url_only;
}
return *parameters_;
}
bool request::
form_data (size_t limit)
{
if (form_data_ == nullptr)
{
form_data_.reset (new vector<char> ());
// We will not consider POST body as a form data if the request is in
// the reading or later state.
//
if (rec_->method_number == M_POST && state_ < request_state::reading)
{
const char* ct (apr_table_get (rec_->headers_in, "Content-Type"));
if (ct != nullptr)
{
form_multipart_ = casecmp ("multipart/form-data", ct, 19) == 0;
if (form_multipart_ ||
casecmp ("application/x-www-form-urlencoded", ct, 33) == 0)
*form_data_ = vector<char> (
istreambuf_iterator<char> (content (limit)),
istreambuf_iterator<char> ());
}
}
}
return !form_data_->empty ();
}
void request::
parse_url_parameters (const char* args)
{
assert (parameters_ != nullptr);
for (auto n (args); n != nullptr; )
{
const char* v (strchr (n, '='));
const char* e (strchr (n, '&'));
if (e != nullptr && e < v)
v = nullptr;
string name (v != nullptr
? mime_url_decode (n, v) :
(e
? mime_url_decode (n, e)
: mime_url_decode (n, n + strlen (n))));
optional<string> value;
if (v++)
value = e
? mime_url_decode (v, e)
: mime_url_decode (v, v + strlen (v));
if (!name.empty () || value)
parameters_->emplace_back (move (name), move (value));
n = e ? e + 1 : nullptr;
}
}
void request::
parse_multipart_parameters (const vector<char>& body)
{
assert (parameters_ != nullptr && uploads_ == nullptr);
auto throw_bad_request = [] (apr_status_t s,
status_code sc = HTTP_BAD_REQUEST)
{
char buf[1024];
throw invalid_request (sc, apr_strerror (s, buf, sizeof (buf)));
};
// Create the file upload stream list, filling it with NULLs for the
// parameters parsed from the URL query part.
//
uploads_.reset (
new vector<unique_ptr<istream_buckets>> (parameters_->size ()));
// All the required objects (parser, input/output buckets, etc.) will be
// allocated in the request memory pool and so will have the HTTP
// request duration lifetime.
//
apr_pool_t* pool (rec_->pool);
// Create the input bucket brigade containing a single bucket that
// references the form data.
//
apr_bucket_alloc_t* ba (apr_bucket_alloc_create (pool));
if (ba == nullptr)
throw_internal_error (APR_ENOMEM, "apr_bucket_alloc_create");
apr_bucket_brigade* bb (apr_brigade_create (pool, ba));
if (bb == nullptr)
throw_internal_error (APR_ENOMEM, "apr_brigade_create");
apr_bucket* b (
apr_bucket_immortal_create (body.data (), body.size (), ba));
if (b == nullptr)
throw_internal_error (APR_ENOMEM, "apr_bucket_immortal_create");
APR_BRIGADE_INSERT_TAIL (bb, b);
if ((b = apr_bucket_eos_create (ba)) == nullptr)
throw_internal_error (APR_ENOMEM, "apr_bucket_eos_create");
APR_BRIGADE_INSERT_TAIL (bb, b);
// Make sure that the parser will not swap the parsed data to disk
// passing the maximum possible value for the brigade limit. This way
// the resulting buckets will reference the form data directly, making
// no copies. This why we should not reset the form data cache after
// the parsing.
//
// Note that in future we may possibly setup the parser to read from the
// Apache internals directly and enable swapping the data to disk to
// minimize memory consumption.
//
apreq_parser_t* parser (
apreq_parser_make (pool,
ba,
apr_table_get (rec_->headers_in, "Content-Type"),
apreq_parse_multipart,
APR_SIZE_MAX /* brigade_limit */,
nullptr /* temp_dir */,
nullptr /* hook */,
nullptr /* ctx */));
if (parser == nullptr)
throw_internal_error (APR_ENOMEM, "apreq_parser_make");
// Create the output table that will be filled with the parsed
// parameters.
//
apr_table_t* params (apr_table_make (pool, APREQ_DEFAULT_NELTS));
if (params == nullptr)
throw_internal_error (APR_ENOMEM, "apr_table_make");
// Parse the form data.
//
apr_status_t r (apreq_parser_run (parser, params, bb));
if (r != APR_SUCCESS)
throw_bad_request (r);
// Fill the parameter and file upload stream lists.
//
const apr_array_header_t* ps (apr_table_elts (params));
size_t n (ps->nelts);
for (auto p (reinterpret_cast<const apr_table_entry_t*> (ps->elts));
n--; ++p)
{
assert (p->key != nullptr && p->val != nullptr);
if (*p->key != '\0')
{
parameters_->emplace_back (p->key, optional<string> (p->val));
const apreq_param_t* ap (apreq_value_to_param (p->val));
assert (ap != nullptr); // Must always be resolvable.
uploads_->emplace_back (ap->upload != nullptr
? new istream_buckets (ap->upload)
: nullptr);
}
}
}
request::uploads_type& request::
uploads () const
{
if (parameters_ == nullptr || url_only_parameters_)
sequence_error ("web::apache::request::uploads");
if (uploads_ == nullptr)
throw invalid_argument ("no uploads");
assert (uploads_->size () == parameters_->size ());
return *uploads_;
}
istream& request::
open_upload (size_t index)
{
uploads_type& us (uploads ());
size_t n (us.size ());
if (index >= n)
throw invalid_argument ("invalid index");
const unique_ptr<istream_buckets>& is (us[index]);
if (is == nullptr)
throw invalid_argument ("no upload");
return *is;
}
istream& request::
open_upload (const string& name)
{
uploads_type& us (uploads ());
size_t n (us.size ());
istream* r (nullptr);
for (size_t i (0); i < n; ++i)
{
if ((*parameters_)[i].name == name)
{
istream* is (us[i].get ());
if (is != nullptr)
{
if (r != nullptr)
throw invalid_argument ("multiple uploads for '" + name + "'");
r = is;
}
}
}
if (r == nullptr)
throw invalid_argument ("no upload");
return *r;
}
const name_values& request::
headers ()
{
if (headers_ == nullptr)
{
headers_.reset (new name_values ());
const apr_array_header_t* ha (apr_table_elts (rec_->headers_in));
size_t n (ha->nelts);
headers_->reserve (n + 1); // One for the custom :Client-IP header.
auto add = [this] (const char* n, const char* v)
{
assert (n != nullptr && v != nullptr);
headers_->emplace_back (n, optional<string> (v));
};
for (auto h (reinterpret_cast<const apr_table_entry_t*> (ha->elts));
n--; ++h)
add (h->key, h->val);
assert (rec_->connection != nullptr);
add (":Client-IP", rec_->connection->client_ip);
}
return *headers_;
}
const name_values& request::
cookies ()
{
if (cookies_ == nullptr)
{
cookies_.reset (new name_values ());
const apr_array_header_t* ha (apr_table_elts (rec_->headers_in));
size_t n (ha->nelts);
for (auto h (reinterpret_cast<const apr_table_entry_t*> (ha->elts));
n--; ++h)
{
assert (h->key != nullptr);
if (casecmp (h->key, "Cookie") == 0)
{
for (const char* n (h->val); n != nullptr; )
{
const char* v (strchr (n, '='));
const char* e (strchr (n, ';'));
if (e != nullptr && e < v)
v = nullptr;
string name (v != nullptr
? mime_url_decode (n, v, true)
: (e
? mime_url_decode (n, e, true)
: mime_url_decode (n, n + strlen (n), true)));
optional<string> value;
if (v++)
value = e
? mime_url_decode (v, e, true)
: mime_url_decode (v, v + strlen (v), true);
if (!name.empty () || value)
cookies_->emplace_back (move (name), move (value));
n = e ? e + 1 : nullptr;
}
}
}
}
return *cookies_;
}
ostream& request::
content (status_code status, const string& type, bool buffer)
{
if (out_ &&
// Same status code.
//
status == rec_->status &&
// Same buffering flag.
//
buffer ==
(dynamic_cast<stringbuf*> (out_buf_.get ()) != nullptr) &&
// Same content type.
//
casecmp (type, rec_->content_type ? rec_->content_type : "") == 0)
{
// No change, return the existing stream.
//
return *out_;
}
if (state_ >= request_state::writing)
throw sequence_error ("web::apache::request::content");
if (!buffer)
// Request body will be discarded prior first byte of content is
// written. Save form data now to make it available for future
// parameters() call.
//
// In the rare cases when the form data is expectedly bigger than 64K
// the client can always call parameters(limit) explicitly.
//
form_data (64 * 1024);
unique_ptr<streambuf> out_buf (
buffer
? static_cast<streambuf*> (new stringbuf ())
: static_cast<streambuf*> (new ostreambuf (rec_, *this)));
out_.reset (new ostream (out_buf.get ()));
out_buf_ = move (out_buf);
out_->exceptions (ostream::eofbit | ostream::failbit | ostream::badbit);
rec_->status = status;
ap_set_content_type (
rec_,
type.empty () ? nullptr : apr_pstrdup (rec_->pool, type.c_str ()));
return *out_;
}
void request::
status (status_code status)
{
if (status != rec_->status)
{
// Setting status code in exception handler is a common usecase
// where no sense to throw but still need to signal apache a
// proper status code.
//
if (state_ >= request_state::writing && !current_exception ())
throw sequence_error ("web::apache::request::status");
rec_->status = status;
out_.reset ();
out_buf_.reset ();
ap_set_content_type (rec_, nullptr);
}
}
void request::
cookie (const char* name,
const char* value,
const chrono::seconds* max_age,
const char* path,
const char* domain,
bool secure,
bool buffer)
{
assert (!buffer); // Cookie buffering is not implemented yet.
string s (mime_url_encode (name));
s += "=";
s += mime_url_encode (value);
if (max_age)
{
timestamp tp (system_clock::now () + *max_age);
time_t t (system_clock::to_time_t (tp));
// Assume global locale is not changed and still "C".
//
char b[100];
strftime (b, sizeof (b), "%a, %d-%b-%Y %H:%M:%S GMT", gmtime (&t));
s += "; Expires=";
s += b;
}
if (path)
{
s += ";Path=";
s += path;
}
if (domain)
{
s += ";Domain=";
s += domain;
}
if (secure)
s += ";Secure";
state (request_state::headers);
apr_table_add (rec_->err_headers_out, "Set-Cookie", s.c_str ());
}
}
}
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