src/event/ngx_event_proxy.c - nginx - Git at Google


 #include <ngx_config.h>
 #include <ngx_core.h>
 #include <ngx_event.h>
 #include <ngx_event_proxy.h>


 #define NGX_EVENT_COPY_FILTER  0

 #if (NGX_EVENT_COPY_FILTER)
 static int ngx_event_proxy_copy_input_filter(ngx_event_proxy_t *p,
                                              ngx_chain_t *chain);
 #endif


 int ngx_event_proxy_read_upstream(ngx_event_proxy_t *p)
 {
     int           n, rc, size;
     ngx_hunk_t   *h, *nh;
     ngx_chain_t  *chain, *temp, *entry, *next;

 #if (NGX_SUPPRESS_WARN)
     entry = NULL;
 #endif

 #if (NGX_EVENT_COPY_FILTER)

     if (p->input_filter == NULL) {
         p->input_filter = ngx_event_proxy_copy_input_filter;
     }

 #endif

     p->upstream_level++;

 ngx_log_debug(p->log, "read upstream");

     for ( ;; ) {

         /* use the pre-read hunks if they exist */

         if (p->preread_hunks) {
             chain = p->preread_hunks;
             p->preread_hunks = NULL;
             n = p->preread_size;

         } else {

 #if (HAVE_KQUEUE) /* kqueue notifies about the end of file or a pending error */

             if (ngx_event_flags == NGX_HAVE_KQUEUE_EVENT) {

                 if (p->upstream->read->error) {
                     ngx_log_error(NGX_LOG_ERR, p->log,
                                   p->upstream->read->error,
                                   "readv() failed");
                     p->upstream_error = 1;

                     return NGX_ERROR;

                 } else if (p->upstream->read->eof
                            && p->upstream->read->available == 0) {
                     p->upstream_eof = 1;
                     p->block_upstream = 0;

                     break;
                 }
             }
 #endif
             /* use the free hunks if they exist */

             if (p->free_hunks) {
                 chain = p->free_hunks;
                 p->free_hunks = NULL;

 ngx_log_debug(p->log, "free hunk: %08X:%d" _ chain->hunk _
               chain->hunk->end - chain->hunk->last);

             /* allocate a new hunk if it's still allowed */

             } else if (p->allocated < p->max_block_size) {
                 h = ngx_create_temp_hunk(p->pool, p->block_size, 20, 20);
                 if (h == NULL) {
                     return NGX_ABORT;
                 }

                 p->allocated += p->block_size;

                 temp = ngx_alloc_chain_entry(p->pool);
                 if (temp == NULL) {
                     return NGX_ABORT;
                 }

                 temp->hunk = h;
                 temp->next = NULL;
                 chain = temp;

 ngx_log_debug(p->log, "new hunk: %08X" _ chain->hunk);

             /* use the file hunks if they exist */

             } else if (p->file_hunks) {
                 chain = p->file_hunks;
                 p->file_hunks = NULL;

 ngx_log_debug(p->log, "file hunk: %08X" _ chain->hunk _
               chain->hunk->end - chain->hunk->last);

             /* if the hunks are not needed to be saved in a cache and
                a downstream is ready then write the hunks to a downstream */

             } else if (p->cachable == 0 && p->downstream->write->ready) {

 ngx_log_debug(p->log, "downstream ready");

                 break;

             /* if it's allowed then save the incoming hunks to a temporary
                file, move the saved read hunks to a file chain,
                convert the incoming hunks into the file hunks
                and add them to an outgoing chain */

             } else if (p->temp_offset < p->max_temp_file_size) {
                 rc = ngx_event_proxy_write_chain_to_temp_file(p);

 ngx_log_debug(p->log, "temp offset: %d" _ p->temp_offset);

                 if (rc != NGX_OK) {
                     return rc;
                 }

                 chain = p->file_hunks;
                 p->file_hunks = NULL;

 ngx_log_debug(p->log, "new file hunk: %08X:%d" _ chain->hunk _
               chain->hunk->end - chain->hunk->last);

             /* if there're no hunks to read in then disable a level event */

             } else {
                 p->block_upstream = 1;

 ngx_log_debug(p->log, "no hunks to read in");

                 break;
             }

             n = ngx_recv_chain(p->upstream, chain);

         }

 ngx_log_debug(p->log, "recv_chain: %d" _ n);

         if (n == NGX_ERROR) {
             p->upstream_error = 1;
             return NGX_ERROR;
         }

         if (n == NGX_AGAIN) {
             if (p->upstream->read->blocked) {
                 if (ngx_add_event(p->upstream->read, NGX_READ_EVENT,
                                                NGX_LEVEL_EVENT) == NGX_ERROR) {
                     return NGX_ABORT;
                 }
                 p->block_upstream = 0;
                 p->upstream->read->blocked = 0;
             }

             break;
         }

         if (n == 0) {
             if (chain->hunk->shadow == NULL) {
                 p->free_hunks = chain;
             }
             p->upstream_eof = 1;
             p->block_upstream = 0;

             break;
         }

         /* move the full hunks to a read chain
            and the partial filled hunk to a free chain
            and remove the shadow links for these hunks */

         for (entry = chain; entry && n > 0; entry = next) {
             next = entry->next;
             entry->next = NULL;

             if (entry->hunk->shadow) {
                 for (h = entry->hunk->shadow;
                      (h->type & NGX_HUNK_LAST_SHADOW) == 0;
                      h = nh)
                 {
                     nh = h->shadow;
                     h->shadow = NULL;
                     h->type &= ~(NGX_HUNK_TEMP
                                  |NGX_HUNK_IN_MEMORY
                                  |NGX_HUNK_RECYCLED);
                 }

                 h->shadow = NULL;
                 h->type &= ~(NGX_HUNK_TEMP
                              |NGX_HUNK_IN_MEMORY
                              |NGX_HUNK_RECYCLED
                              |NGX_HUNK_LAST_SHADOW);
                 entry->hunk->shadow = NULL;
             }

             size = entry->hunk->end - entry->hunk->last;

             if (n >= size) {
                 entry->hunk->last = entry->hunk->end;

                 if (p->read_hunks) {
                     p->last_read_hunk->next = entry;

                 } else {
                     p->read_hunks = entry;
                 }

                 p->last_read_hunk = entry;

                 n -= size;

 #if !(NGX_EVENT_COPY_FILTER)

                 if (p->input_filter) {
                     continue;
                 }

                 /* the inline copy input filter */

                 h = ngx_alloc_hunk(p->pool);
                 if (h == NULL) {
                     return NGX_ABORT;
                 }

                 ngx_memcpy(h, entry->hunk, sizeof(ngx_hunk_t));
                 h->shadow = entry->hunk;
                 h->type |= NGX_HUNK_LAST_SHADOW|NGX_HUNK_RECYCLED;
                 entry->hunk->shadow = h;

                 temp = ngx_alloc_chain_entry(p->pool);
                 if (temp == NULL) {
                     return NGX_ABORT;
                 }

                 temp->hunk = h;
                 temp->next = NULL;

                 if (p->in_hunks) {
                     p->last_in_hunk->next = temp;

                 } else {
                     p->in_hunks = temp;
                 }

                 p->last_in_hunk = temp;
 #endif

             } else {
                 entry->hunk->last += n;
                 p->free_hunks = entry;

                 n = 0;
             }
         }

         if (chain == p->free_hunks) {
             chain = NULL;
         }

         /* the input filter i.e. that moves HTTP/1.1 chunks
            from a read chain to an incoming chain */

         if (p->input_filter) {
             if (p->input_filter(p, chain) == NGX_ERROR) {
                 return NGX_ABORT;
             }
         }

 ngx_log_debug(p->log, "rest chain: %08X" _ entry);

         /* if the rest hunks are file hunks then move them to a file chain
            otherwise add them to a free chain */

         if (entry) {
             if (entry->hunk->shadow) {
                 p->file_hunks = entry;

             } else {
                 if (p->free_hunks) {
                     p->free_hunks->next = entry;

                 } else {
                     p->free_hunks = entry;
                 }
             }

             p->block_upstream = 0;
             break;
         }
     }

 ngx_log_debug(p->log, "eof: %d block: %d" _
               p->upstream_eof _ p->block_upstream);

     /* if there's the end of upstream response then move
        the partially filled hunk from a free chain to an incoming chain */

     if (p->upstream_eof) {
         p->upstream->read->ready = 0;

         if (p->free_hunks
             && p->free_hunks->hunk->pos < p->free_hunks->hunk->last)
         {

 #if (NGX_EVENT_COPY_FILTER)

             if (p->input_filter(p, NULL) == NGX_ERROR) {
                 return NGX_ABORT;
             }
 #else
             if (p->input_filter) {
                 if (p->input_filter(p, NULL) == NGX_ERROR) {
                     return NGX_ABORT;
                 }

             } else {
                 entry = p->free_hunks;

                 if (p->in_hunks) {
                     p->last_in_hunk->next = entry;

                 } else {
                     p->in_hunks = entry;
                 }

                 p->last_in_hunk = entry;
             }

             p->free_hunks = entry->next;
             entry->next = NULL;
 #endif
         }

 #if 0
         /* free the unneeded hunks */

         for (entry = p->free_hunks; entry; entry = ce->next) {
             ngx_free_hunk(p->pool, entry->hunk);
         }
 #endif

         if (p->in_hunks) {
             p->last_in_hunk->hunk->type |= NGX_HUNK_LAST;

         } else if (p->out_hunks) {
             p->last_out_hunk->hunk->type |= NGX_HUNK_LAST;
         }
     }

     if (p->cachable) {
         if (p->in_hunks) {
             rc = ngx_event_proxy_write_chain_to_temp_file(p);

             if (rc != NGX_OK) {
                 return rc;
             }
         }

         if (p->out_hunks && p->downstream->write->ready) {
             if (ngx_event_proxy_write_to_downstream(p) == NGX_ABORT) {
                 return NGX_ABORT;
             }
         }

     } else if ((p->out_hunks || p->in_hunks) && p->downstream->write->ready) {
         if (ngx_event_proxy_write_to_downstream(p) == NGX_ABORT) {
             return NGX_ABORT;
         }
     }

     p->upstream_level--;

 ngx_log_debug(p->log, "upstream level: %d" _ p->upstream_level);

     if (p->upstream_level == 0
         && p->block_upstream
         && ngx_event_flags & NGX_USE_LEVEL_EVENT)
     {
         if (ngx_del_event(p->upstream->read, NGX_READ_EVENT, 0) == NGX_ERROR) {
             return NGX_ABORT;
         }

         p->upstream->read->blocked = 1;

         return NGX_AGAIN;
     }

     if (p->upstream_eof) {
         return NGX_OK;

     } else {
         return NGX_AGAIN;
     }
 }


 int ngx_event_proxy_write_to_downstream(ngx_event_proxy_t *p)
 {
     int           rc;
     ngx_hunk_t   *h;
     ngx_chain_t  *entry;

     if (p->upstream_level == 0
         && p->downstream_level == 0
         && p->busy_hunk == NULL
         && p->out_hunks == NULL
         && p->in_hunks == NULL
         && ngx_event_flags & NGX_USE_LEVEL_EVENT)
     {
         if (ngx_del_event(p->downstream->write, NGX_WRITE_EVENT, 0)
                                                                 == NGX_ERROR) {
             return NGX_ABORT;
         }

         p->downstream->write->blocked = 1;
         return NGX_AGAIN;
     }

     p->downstream_level++;

 ngx_log_debug(p->log, "write to downstream");

     entry = NULL;
     h = p->busy_hunk;

     for ( ;; ) {

         if (h == NULL) {
             if (p->out_hunks) {
                 entry = p->out_hunks;
                 p->out_hunks = entry->next;
                 h = entry->hunk;
                 entry->next = NULL;

                 if (p->file_hunks) {
                     if (p->file_hunks->hunk == h->shadow) {
                         p->file_hunks = p->file_hunks->next;
                     }
                 }


             } else if (p->cachable == 0 && p->in_hunks) {
                 entry = p->in_hunks;
                 p->in_hunks = entry->next;
                 h = entry->hunk;
                 entry->next = NULL;

                 if (p->read_hunks) {
                     if (p->read_hunks->hunk == h->shadow) {
                         p->read_hunks = p->read_hunks->next;

                     } else {
                         ngx_log_error(NGX_LOG_CRIT, p->log, 0, "ERROR0");
                     }
                 }
             }

 ngx_log_debug(p->log, "event proxy write hunk: %08X" _ h);

             if (h == NULL) {
                 break;
             }
         }

 #if 0
 ngx_log_debug(p->log, "event proxy write: %d" _ h->last - h->pos);
 #endif

         rc = p->output_filter(p->output_data, h);

 ngx_log_debug(p->log, "event proxy: %d" _ rc);

         if (rc == NGX_ERROR) {
             p->downstream_error = 1;
             return NGX_ERROR;
         }

         if (rc == NGX_AGAIN) {
 #if 0
             || (h->type & NGX_HUNK_IN_MEMORY && h->pos < h->last)
             || (h->type & NGX_HUNK_FILE && h->file_pos < h->file_last)
 #endif
             if (p->busy_hunk == NULL) {
                 p->busy_hunk = h;
             }

             if (p->downstream->write->blocked) {
                 if (ngx_add_event(p->downstream->write, NGX_WRITE_EVENT,
                                                NGX_LEVEL_EVENT) == NGX_ERROR) {
                     return NGX_ABORT;
                 }
                 p->downstream->write->blocked = 0;
             }

             p->downstream_level--;

             return NGX_AGAIN;
         }

         p->busy_hunk = NULL;

         /* if the complete hunk is the file hunk and it has a shadow read hunk
            then add a shadow read hunk to a free chain */

         if (h->type & NGX_HUNK_FILE) {
             if (p->cachable == 0 && p->out_hunks == NULL) {
                 p->temp_offset = 0;
             }
         }

         if ((h->type & NGX_HUNK_LAST_SHADOW) == 0) {
             h = NULL;
             continue;
         }


         h->shadow->shadow = NULL;
         h = h->shadow;

 #if 0
         /* free the unneeded hunk */

         if (p->upstream_eof) {
             ngx_free_hunk(p->pool, h);
             h = NULL;
             continue;
         }
 #endif

         h->pos = h->last = h->start;

         if (entry == NULL) {
             h = NULL;
             continue;
         }

         entry->hunk = h;

         /* if the first hunk in a free chain is partially filled
            then add the complete hunk after the first free hunk */

         if (p->free_hunks
             && p->free_hunks->hunk->start != p->free_hunks->hunk->last)
         {
             entry->next = p->free_hunks->next;
             p->free_hunks->next = entry;

         } else {
             entry->next = p->free_hunks;
             p->free_hunks = entry;
         }

         h = NULL;
     }

     if (p->upstream->read->ready) {
         if (ngx_event_proxy_read_upstream(p) == NGX_ERROR) {
             return NGX_ABORT;
         }
     }

     p->downstream_level--;

 ngx_log_debug(p->log, "downstream level: %d" _ p->downstream_level);

     return NGX_OK;
 }


 int ngx_event_proxy_write_chain_to_temp_file(ngx_event_proxy_t *p)
 {
     int           rc, size;
     ngx_hunk_t   *h;
     ngx_chain_t  *entry, *next, *saved_in, *saved_read;

 ngx_log_debug(p->log, "write to file");

     if (p->temp_file->fd == NGX_INVALID_FILE) {
         rc = ngx_create_temp_file(p->temp_file, p->temp_path, p->pool,
                                   p->cachable);

         if (rc == NGX_ERROR) {
             return NGX_ABORT;
         }

         if (rc == NGX_AGAIN) {
             return NGX_AGAIN;
         }

         if (p->cachable == 0 && p->temp_file_warn) {
             ngx_log_error(NGX_LOG_WARN, p->log, 0, p->temp_file_warn);
         }
     }

     if (p->cachable == 0) {

         entry = p->read_hunks;
         size = 0;

         do {
             size += entry->hunk->last - entry->hunk->pos;
             if (size >= p->temp_file_write_size) {
                 break;
             }
             entry = entry->next;

         } while (entry);

         saved_read = entry->next;
         entry->next = NULL;

         if (saved_read) {
             for (entry = p->in_hunks; entry->next; entry = entry->next) {
                 if (entry->next->hunk->shadow == saved_read->hunk) {
                     break;
                 }
             }
             saved_in = entry->next;
             entry->next = NULL;

         } else {
             saved_in = NULL;
         }

     } else {
         saved_read = NULL;
         saved_in = NULL;
     }

     if (ngx_write_chain_to_file(p->temp_file, p->in_hunks, p->temp_offset,
                                 p->pool) == NGX_ERROR) {
         return NGX_ABORT;
     }

     for (entry = p->in_hunks; entry; entry = next) {
         next = entry->next;
         entry->next = NULL;

         h = entry->hunk;
         h->type |= NGX_HUNK_FILE;
         h->file = p->temp_file;
         h->file_pos = p->temp_offset;
         p->temp_offset += h->last - h->pos;
         h->file_last = p->temp_offset;

 ngx_log_debug(p->log, "event proxy file hunk: %08X:%08X" _ h _ h->shadow);

         if (h->type & NGX_HUNK_LAST_SHADOW) {
 #if 0
             h->shadow->last = h->shadow->pos;
 #else
             h->shadow->last = h->shadow->pos = h->shadow->start;
 #endif
         }

         if (p->out_hunks) {
             p->last_out_hunk->next = entry;

         } else {
             p->out_hunks = entry;
         }

         p->last_out_hunk = entry;
     }

     p->file_hunks = p->read_hunks;

     p->read_hunks = saved_read;
     p->in_hunks = saved_in;

     return NGX_OK;
 }


 #if (NGX_EVENT_COPY_FILTER)

 /* the copy input filter */

 static int ngx_event_proxy_copy_input_filter(ngx_event_proxy_t *p,
                                              ngx_chain_t *chain)
 {
     ngx_hunk_t   *h;
     ngx_chain_t  *entry, *temp;

     if (p->upstream_eof) {
         entry = p->free_hunks;

         if (p->in_hunks) {
             p->last_in_hunk->next = entry;

         } else {
             p->in_hunks = entry;
         }

         p->last_in_hunk = entry;

         p->free_hunks = entry->next;
         entry->next = NULL;

         return NGX_OK;
     }

     for (entry = chain; entry; entry = entry->next) {
         ngx_test_null(h, ngx_alloc_hunk(p->pool), NGX_ERROR);
         ngx_memcpy(h, entry->hunk, sizeof(ngx_hunk_t));
         h->shadow = entry->hunk;
         h->type |= NGX_HUNK_LAST_SHADOW|NGX_HUNK_RECYCLED;
         entry->hunk->shadow = h;

         ngx_test_null(temp, ngx_alloc_chain_entry(p->pool), NGX_ERROR);
         temp->hunk = h;
         temp->next = NULL;

         if (p->in_hunks) {
             p->last_in_hunk->next = temp;

         } else {
             p->in_hunks = temp;
         }

         p->last_in_hunk = temp;
     }

     return NGX_OK;
 }

 #endif

	#include <ngx_config.h>
	#include <ngx_core.h>
	#include <ngx_event.h>
	#include <ngx_event_proxy.h>


	#define NGX_EVENT_COPY_FILTER 0

	#if (NGX_EVENT_COPY_FILTER)
	static int ngx_event_proxy_copy_input_filter(ngx_event_proxy_t *p,
	ngx_chain_t *chain);
	#endif



	int ngx_event_proxy_read_upstream(ngx_event_proxy_t *p)
	{
	int n, rc, size;
	ngx_hunk_t h, nh;
	ngx_chain_t chain, temp, entry, next;

	#if (NGX_SUPPRESS_WARN)
	entry = NULL;
	#endif

	#if (NGX_EVENT_COPY_FILTER)

	if (p->input_filter == NULL) {
	p->input_filter = ngx_event_proxy_copy_input_filter;
	}

	#endif

	p->upstream_level++;

	ngx_log_debug(p->log, "read upstream");

	for ( ;; ) {

	/* use the pre-read hunks if they exist */

	if (p->preread_hunks) {
	chain = p->preread_hunks;
	p->preread_hunks = NULL;
	n = p->preread_size;

	} else {

	#if (HAVE_KQUEUE) /* kqueue notifies about the end of file or a pending error */

	if (ngx_event_flags == NGX_HAVE_KQUEUE_EVENT) {

	if (p->upstream->read->error) {
	ngx_log_error(NGX_LOG_ERR, p->log,
	p->upstream->read->error,
	"readv() failed");
	p->upstream_error = 1;

	return NGX_ERROR;

	} else if (p->upstream->read->eof
	&& p->upstream->read->available == 0) {
	p->upstream_eof = 1;
	p->block_upstream = 0;

	break;
	}
	}
	#endif
	/* use the free hunks if they exist */

	if (p->free_hunks) {
	chain = p->free_hunks;
	p->free_hunks = NULL;

	ngx_log_debug(p->log, "free hunk: %08X:%d" _ chain->hunk _
	chain->hunk->end - chain->hunk->last);

	/* allocate a new hunk if it's still allowed */

	} else if (p->allocated < p->max_block_size) {
	h = ngx_create_temp_hunk(p->pool, p->block_size, 20, 20);
	if (h == NULL) {
	return NGX_ABORT;
	}

	p->allocated += p->block_size;

	temp = ngx_alloc_chain_entry(p->pool);
	if (temp == NULL) {
	return NGX_ABORT;
	}

	temp->hunk = h;
	temp->next = NULL;
	chain = temp;

	ngx_log_debug(p->log, "new hunk: %08X" _ chain->hunk);

	/* use the file hunks if they exist */

	} else if (p->file_hunks) {
	chain = p->file_hunks;
	p->file_hunks = NULL;

	ngx_log_debug(p->log, "file hunk: %08X" _ chain->hunk _
	chain->hunk->end - chain->hunk->last);

	/* if the hunks are not needed to be saved in a cache and
	a downstream is ready then write the hunks to a downstream */

	} else if (p->cachable == 0 && p->downstream->write->ready) {

	ngx_log_debug(p->log, "downstream ready");

	break;

	/* if it's allowed then save the incoming hunks to a temporary
	file, move the saved read hunks to a file chain,
	convert the incoming hunks into the file hunks
	and add them to an outgoing chain */

	} else if (p->temp_offset < p->max_temp_file_size) {
	rc = ngx_event_proxy_write_chain_to_temp_file(p);

	ngx_log_debug(p->log, "temp offset: %d" _ p->temp_offset);

	if (rc != NGX_OK) {
	return rc;
	}

	chain = p->file_hunks;
	p->file_hunks = NULL;

	ngx_log_debug(p->log, "new file hunk: %08X:%d" _ chain->hunk _
	chain->hunk->end - chain->hunk->last);

	/* if there're no hunks to read in then disable a level event */

	} else {
	p->block_upstream = 1;

	ngx_log_debug(p->log, "no hunks to read in");

	break;
	}

	n = ngx_recv_chain(p->upstream, chain);

	}

	ngx_log_debug(p->log, "recv_chain: %d" _ n);

	if (n == NGX_ERROR) {
	p->upstream_error = 1;
	return NGX_ERROR;
	}

	if (n == NGX_AGAIN) {
	if (p->upstream->read->blocked) {
	if (ngx_add_event(p->upstream->read, NGX_READ_EVENT,
	NGX_LEVEL_EVENT) == NGX_ERROR) {
	return NGX_ABORT;
	}
	p->block_upstream = 0;
	p->upstream->read->blocked = 0;
	}

	break;
	}

	if (n == 0) {
	if (chain->hunk->shadow == NULL) {
	p->free_hunks = chain;
	}
	p->upstream_eof = 1;
	p->block_upstream = 0;

	break;
	}

	/* move the full hunks to a read chain
	and the partial filled hunk to a free chain
	and remove the shadow links for these hunks */

	for (entry = chain; entry && n > 0; entry = next) {
	next = entry->next;
	entry->next = NULL;

	if (entry->hunk->shadow) {
	for (h = entry->hunk->shadow;
	(h->type & NGX_HUNK_LAST_SHADOW) == 0;
	h = nh)
	{
	nh = h->shadow;
	h->shadow = NULL;
	h->type &= ~(NGX_HUNK_TEMP
	\|NGX_HUNK_IN_MEMORY
	\|NGX_HUNK_RECYCLED);
	}

	h->shadow = NULL;
	h->type &= ~(NGX_HUNK_TEMP
	\|NGX_HUNK_IN_MEMORY
	\|NGX_HUNK_RECYCLED
	\|NGX_HUNK_LAST_SHADOW);
	entry->hunk->shadow = NULL;
	}

	size = entry->hunk->end - entry->hunk->last;

	if (n >= size) {
	entry->hunk->last = entry->hunk->end;

	if (p->read_hunks) {
	p->last_read_hunk->next = entry;

	} else {
	p->read_hunks = entry;
	}

	p->last_read_hunk = entry;

	n -= size;

	#if !(NGX_EVENT_COPY_FILTER)

	if (p->input_filter) {
	continue;
	}

	/* the inline copy input filter */

	h = ngx_alloc_hunk(p->pool);
	if (h == NULL) {
	return NGX_ABORT;
	}

	ngx_memcpy(h, entry->hunk, sizeof(ngx_hunk_t));
	h->shadow = entry->hunk;
	h->type \|= NGX_HUNK_LAST_SHADOW\|NGX_HUNK_RECYCLED;
	entry->hunk->shadow = h;

	temp = ngx_alloc_chain_entry(p->pool);
	if (temp == NULL) {
	return NGX_ABORT;
	}

	temp->hunk = h;
	temp->next = NULL;

	if (p->in_hunks) {
	p->last_in_hunk->next = temp;

	} else {
	p->in_hunks = temp;
	}

	p->last_in_hunk = temp;
	#endif

	} else {
	entry->hunk->last += n;
	p->free_hunks = entry;

	n = 0;
	}
	}

	if (chain == p->free_hunks) {
	chain = NULL;
	}

	/* the input filter i.e. that moves HTTP/1.1 chunks
	from a read chain to an incoming chain */

	if (p->input_filter) {
	if (p->input_filter(p, chain) == NGX_ERROR) {
	return NGX_ABORT;
	}
	}

	ngx_log_debug(p->log, "rest chain: %08X" _ entry);

	/* if the rest hunks are file hunks then move them to a file chain
	otherwise add them to a free chain */

	if (entry) {
	if (entry->hunk->shadow) {
	p->file_hunks = entry;

	} else {
	if (p->free_hunks) {
	p->free_hunks->next = entry;

	} else {
	p->free_hunks = entry;
	}
	}

	p->block_upstream = 0;
	break;
	}
	}

	ngx_log_debug(p->log, "eof: %d block: %d" _
	p->upstream_eof _ p->block_upstream);

	/* if there's the end of upstream response then move
	the partially filled hunk from a free chain to an incoming chain */

	if (p->upstream_eof) {
	p->upstream->read->ready = 0;

	if (p->free_hunks
	&& p->free_hunks->hunk->pos < p->free_hunks->hunk->last)
	{

	#if (NGX_EVENT_COPY_FILTER)

	if (p->input_filter(p, NULL) == NGX_ERROR) {
	return NGX_ABORT;
	}
	#else
	if (p->input_filter) {
	if (p->input_filter(p, NULL) == NGX_ERROR) {
	return NGX_ABORT;
	}

	} else {
	entry = p->free_hunks;

	if (p->in_hunks) {
	p->last_in_hunk->next = entry;

	} else {
	p->in_hunks = entry;
	}

	p->last_in_hunk = entry;
	}

	p->free_hunks = entry->next;
	entry->next = NULL;
	#endif
	}

	#if 0
	/* free the unneeded hunks */

	for (entry = p->free_hunks; entry; entry = ce->next) {
	ngx_free_hunk(p->pool, entry->hunk);
	}
	#endif

	if (p->in_hunks) {
	p->last_in_hunk->hunk->type \|= NGX_HUNK_LAST;

	} else if (p->out_hunks) {
	p->last_out_hunk->hunk->type \|= NGX_HUNK_LAST;
	}
	}

	if (p->cachable) {
	if (p->in_hunks) {
	rc = ngx_event_proxy_write_chain_to_temp_file(p);

	if (rc != NGX_OK) {
	return rc;
	}
	}

	if (p->out_hunks && p->downstream->write->ready) {
	if (ngx_event_proxy_write_to_downstream(p) == NGX_ABORT) {
	return NGX_ABORT;
	}
	}

	} else if ((p->out_hunks \|\| p->in_hunks) && p->downstream->write->ready) {
	if (ngx_event_proxy_write_to_downstream(p) == NGX_ABORT) {
	return NGX_ABORT;
	}
	}

	p->upstream_level--;

	ngx_log_debug(p->log, "upstream level: %d" _ p->upstream_level);

	if (p->upstream_level == 0
	&& p->block_upstream
	&& ngx_event_flags & NGX_USE_LEVEL_EVENT)
	{
	if (ngx_del_event(p->upstream->read, NGX_READ_EVENT, 0) == NGX_ERROR) {
	return NGX_ABORT;
	}

	p->upstream->read->blocked = 1;

	return NGX_AGAIN;
	}

	if (p->upstream_eof) {
	return NGX_OK;

	} else {
	return NGX_AGAIN;
	}
	}


	int ngx_event_proxy_write_to_downstream(ngx_event_proxy_t *p)
	{
	int rc;
	ngx_hunk_t *h;
	ngx_chain_t *entry;

	if (p->upstream_level == 0
	&& p->downstream_level == 0
	&& p->busy_hunk == NULL
	&& p->out_hunks == NULL
	&& p->in_hunks == NULL
	&& ngx_event_flags & NGX_USE_LEVEL_EVENT)
	{
	if (ngx_del_event(p->downstream->write, NGX_WRITE_EVENT, 0)
	== NGX_ERROR) {
	return NGX_ABORT;
	}

	p->downstream->write->blocked = 1;
	return NGX_AGAIN;
	}

	p->downstream_level++;

	ngx_log_debug(p->log, "write to downstream");

	entry = NULL;
	h = p->busy_hunk;

	for ( ;; ) {

	if (h == NULL) {
	if (p->out_hunks) {
	entry = p->out_hunks;
	p->out_hunks = entry->next;
	h = entry->hunk;
	entry->next = NULL;

	if (p->file_hunks) {
	if (p->file_hunks->hunk == h->shadow) {
	p->file_hunks = p->file_hunks->next;
	}
	}


	} else if (p->cachable == 0 && p->in_hunks) {
	entry = p->in_hunks;
	p->in_hunks = entry->next;
	h = entry->hunk;
	entry->next = NULL;

	if (p->read_hunks) {
	if (p->read_hunks->hunk == h->shadow) {
	p->read_hunks = p->read_hunks->next;

	} else {
	ngx_log_error(NGX_LOG_CRIT, p->log, 0, "ERROR0");
	}
	}
	}

	ngx_log_debug(p->log, "event proxy write hunk: %08X" _ h);

	if (h == NULL) {
	break;
	}
	}

	#if 0
	ngx_log_debug(p->log, "event proxy write: %d" _ h->last - h->pos);
	#endif

	rc = p->output_filter(p->output_data, h);

	ngx_log_debug(p->log, "event proxy: %d" _ rc);

	if (rc == NGX_ERROR) {
	p->downstream_error = 1;
	return NGX_ERROR;
	}

	if (rc == NGX_AGAIN) {
	#if 0
	\|\| (h->type & NGX_HUNK_IN_MEMORY && h->pos < h->last)
	\|\| (h->type & NGX_HUNK_FILE && h->file_pos < h->file_last)
	#endif
	if (p->busy_hunk == NULL) {
	p->busy_hunk = h;
	}

	if (p->downstream->write->blocked) {
	if (ngx_add_event(p->downstream->write, NGX_WRITE_EVENT,
	NGX_LEVEL_EVENT) == NGX_ERROR) {
	return NGX_ABORT;
	}
	p->downstream->write->blocked = 0;
	}

	p->downstream_level--;

	return NGX_AGAIN;
	}

	p->busy_hunk = NULL;

	/* if the complete hunk is the file hunk and it has a shadow read hunk
	then add a shadow read hunk to a free chain */

	if (h->type & NGX_HUNK_FILE) {
	if (p->cachable == 0 && p->out_hunks == NULL) {
	p->temp_offset = 0;
	}
	}

	if ((h->type & NGX_HUNK_LAST_SHADOW) == 0) {
	h = NULL;
	continue;
	}


	h->shadow->shadow = NULL;
	h = h->shadow;

	#if 0
	/* free the unneeded hunk */

	if (p->upstream_eof) {
	ngx_free_hunk(p->pool, h);
	h = NULL;
	continue;
	}
	#endif

	h->pos = h->last = h->start;

	if (entry == NULL) {
	h = NULL;
	continue;
	}

	entry->hunk = h;

	/* if the first hunk in a free chain is partially filled
	then add the complete hunk after the first free hunk */

	if (p->free_hunks
	&& p->free_hunks->hunk->start != p->free_hunks->hunk->last)
	{
	entry->next = p->free_hunks->next;
	p->free_hunks->next = entry;

	} else {
	entry->next = p->free_hunks;
	p->free_hunks = entry;
	}

	h = NULL;
	}

	if (p->upstream->read->ready) {
	if (ngx_event_proxy_read_upstream(p) == NGX_ERROR) {
	return NGX_ABORT;
	}
	}

	p->downstream_level--;

	ngx_log_debug(p->log, "downstream level: %d" _ p->downstream_level);

	return NGX_OK;
	}


	int ngx_event_proxy_write_chain_to_temp_file(ngx_event_proxy_t *p)
	{
	int rc, size;
	ngx_hunk_t *h;
	ngx_chain_t entry, next, saved_in, saved_read;

	ngx_log_debug(p->log, "write to file");

	if (p->temp_file->fd == NGX_INVALID_FILE) {
	rc = ngx_create_temp_file(p->temp_file, p->temp_path, p->pool,
	p->cachable);

	if (rc == NGX_ERROR) {
	return NGX_ABORT;
	}

	if (rc == NGX_AGAIN) {
	return NGX_AGAIN;
	}

	if (p->cachable == 0 && p->temp_file_warn) {
	ngx_log_error(NGX_LOG_WARN, p->log, 0, p->temp_file_warn);
	}
	}

	if (p->cachable == 0) {

	entry = p->read_hunks;
	size = 0;

	do {
	size += entry->hunk->last - entry->hunk->pos;
	if (size >= p->temp_file_write_size) {
	break;
	}
	entry = entry->next;

	} while (entry);

	saved_read = entry->next;
	entry->next = NULL;

	if (saved_read) {
	for (entry = p->in_hunks; entry->next; entry = entry->next) {
	if (entry->next->hunk->shadow == saved_read->hunk) {
	break;
	}
	}
	saved_in = entry->next;
	entry->next = NULL;

	} else {
	saved_in = NULL;
	}

	} else {
	saved_read = NULL;
	saved_in = NULL;
	}

	if (ngx_write_chain_to_file(p->temp_file, p->in_hunks, p->temp_offset,
	p->pool) == NGX_ERROR) {
	return NGX_ABORT;
	}

	for (entry = p->in_hunks; entry; entry = next) {
	next = entry->next;
	entry->next = NULL;

	h = entry->hunk;
	h->type \|= NGX_HUNK_FILE;
	h->file = p->temp_file;
	h->file_pos = p->temp_offset;
	p->temp_offset += h->last - h->pos;
	h->file_last = p->temp_offset;

	ngx_log_debug(p->log, "event proxy file hunk: %08X:%08X" _ h _ h->shadow);

	if (h->type & NGX_HUNK_LAST_SHADOW) {
	#if 0
	h->shadow->last = h->shadow->pos;
	#else
	h->shadow->last = h->shadow->pos = h->shadow->start;
	#endif
	}

	if (p->out_hunks) {
	p->last_out_hunk->next = entry;

	} else {
	p->out_hunks = entry;
	}

	p->last_out_hunk = entry;
	}

	p->file_hunks = p->read_hunks;

	p->read_hunks = saved_read;
	p->in_hunks = saved_in;

	return NGX_OK;
	}


	#if (NGX_EVENT_COPY_FILTER)

	/* the copy input filter */

	static int ngx_event_proxy_copy_input_filter(ngx_event_proxy_t *p,
	ngx_chain_t *chain)
	{
	ngx_hunk_t *h;
	ngx_chain_t entry, temp;

	if (p->upstream_eof) {
	entry = p->free_hunks;

	if (p->in_hunks) {
	p->last_in_hunk->next = entry;

	} else {
	p->in_hunks = entry;
	}

	p->last_in_hunk = entry;

	p->free_hunks = entry->next;
	entry->next = NULL;

	return NGX_OK;
	}

	for (entry = chain; entry; entry = entry->next) {
	ngx_test_null(h, ngx_alloc_hunk(p->pool), NGX_ERROR);
	ngx_memcpy(h, entry->hunk, sizeof(ngx_hunk_t));
	h->shadow = entry->hunk;
	h->type \|= NGX_HUNK_LAST_SHADOW\|NGX_HUNK_RECYCLED;
	entry->hunk->shadow = h;

	ngx_test_null(temp, ngx_alloc_chain_entry(p->pool), NGX_ERROR);
	temp->hunk = h;
	temp->next = NULL;

	if (p->in_hunks) {
	p->last_in_hunk->next = temp;

	} else {
	p->in_hunks = temp;
	}

	p->last_in_hunk = temp;
	}

	return NGX_OK;
	}

	#endif