#include #include #include #include static int ngx_event_pipe_read_upstream(ngx_event_pipe_t *p); static int ngx_event_pipe_write_to_downstream(ngx_event_pipe_t *p); static int ngx_event_pipe_write_chain_to_temp_file(ngx_event_pipe_t *p); ngx_inline static void ngx_event_pipe_remove_shadow_links(ngx_hunk_t *hunk); ngx_inline static void ngx_event_pipe_free_shadow_raw_hunk(ngx_chain_t **free, ngx_hunk_t *h); ngx_inline static void ngx_event_pipe_add_free_hunk(ngx_chain_t **chain, ngx_chain_t *cl); static int ngx_event_pipe_drain_chains(ngx_event_pipe_t *p); int ngx_event_pipe(ngx_event_pipe_t *p, int do_write) { u_int flags; ngx_event_t *rev, *wev; for ( ;; ) { if (do_write) { if (ngx_event_pipe_write_to_downstream(p) == NGX_ABORT) { return NGX_ABORT; } } p->read = 0; p->upstream_blocked = 0; if (ngx_event_pipe_read_upstream(p) == NGX_ABORT) { return NGX_ABORT; } if (!p->read && !p->upstream_blocked) { break; } do_write = 1; } if (p->upstream->fd != -1) { rev = p->upstream->read; flags = (rev->eof || rev->error) ? NGX_CLOSE_EVENT : 0; if (ngx_handle_read_event(rev, flags) == NGX_ERROR) { return NGX_ABORT; } if (rev->active) { ngx_add_timer(rev, p->read_timeout); } } if (p->downstream->fd != -1) { wev = p->downstream->write; wev->available = p->send_lowat; if (ngx_handle_write_event(wev, NGX_LOWAT_EVENT) == NGX_ERROR) { return NGX_ABORT; } if (wev->active) { ngx_add_timer(wev, p->send_timeout); } } return NGX_OK; } int ngx_event_pipe_read_upstream(ngx_event_pipe_t *p) { int n, rc, size; ngx_hunk_t *h; ngx_chain_t *chain, *cl, *tl; if (p->upstream_eof || p->upstream_error || p->upstream_done) { return NGX_OK; } ngx_log_debug1(NGX_LOG_DEBUG_EVENT, p->log, 0, "pipe read upstream: %d", p->upstream->read->ready); for ( ;; ) { if (p->upstream_eof || p->upstream_error || p->upstream_done) { break; } if (p->preread_hunks == NULL && !p->upstream->read->ready) { break; } if (p->preread_hunks) { /* use the pre-read hunks if they exist */ chain = p->preread_hunks; p->preread_hunks = NULL; n = p->preread_size; ngx_log_debug1(NGX_LOG_DEBUG_EVENT, p->log, 0, "pipe preread: %d", n); if (n) { p->read = 1; } } else { /* * kqueue notifies about the end of file or a pending error. * This test allows not to allocate a hunk on these conditions * and not to call ngx_recv_chain(). */ if (p->upstream->read->available == 0 && (p->upstream->read->kq_eof || p->upstream->read->aio_eof)) { p->upstream->read->ready = 0; p->upstream->read->eof = 0; p->upstream_eof = 1; p->read = 1; #if (HAVE_KQUEUE) if (p->upstream->read->kq_errno) { p->upstream->read->error = 1; p->upstream_error = 1; p->upstream_eof = 0; ngx_log_error(NGX_LOG_ERR, p->log, p->upstream->read->kq_errno, "readv() failed"); } #endif break; } if (p->free_raw_hunks) { /* use the free hunks if they exist */ chain = p->free_raw_hunks; if (p->single_buf) { p->free_raw_hunks = p->free_raw_hunks->next; chain->next = NULL; } else { p->free_raw_hunks = NULL; } } else if (p->hunks < p->bufs.num) { /* allocate a new hunk if it's still allowed */ ngx_test_null(h, ngx_create_temp_hunk(p->pool, p->bufs.size), NGX_ABORT); p->hunks++; ngx_alloc_link_and_set_hunk(tl, h, p->pool, NGX_ABORT); chain = tl; } else if (!p->cachable && p->downstream->write->ready) { /* * if the hunks are not needed to be saved in a cache and * a downstream is ready then write the hunks to a downstream */ p->upstream_blocked = 1; ngx_log_debug0(NGX_LOG_DEBUG_EVENT, p->log, 0, "pipe downstream ready"); break; } else if (p->cachable || p->temp_file->offset < p->max_temp_file_size) { /* * if it's allowed then save some hunks from r->in * to a temporary file, and add them to a r->out chain */ rc = ngx_event_pipe_write_chain_to_temp_file(p); ngx_log_debug1(NGX_LOG_DEBUG_EVENT, p->log, 0, "pipe temp offset: %d", p->temp_file->offset); if (rc == NGX_AGAIN) { if (ngx_event_flags & NGX_USE_LEVEL_EVENT && p->upstream->read->active && p->upstream->read->ready) { if (ngx_del_event(p->upstream->read, NGX_READ_EVENT, 0) == NGX_ERROR) { return NGX_ABORT; } } } if (rc != NGX_OK) { return rc; } chain = p->free_raw_hunks; if (p->single_buf) { p->free_raw_hunks = p->free_raw_hunks->next; chain->next = NULL; } else { p->free_raw_hunks = NULL; } } else { /* if there're no hunks to read in then disable a level event */ ngx_log_debug0(NGX_LOG_DEBUG_EVENT, p->log, 0, "no pipe hunks to read in"); break; } n = ngx_recv_chain(p->upstream, chain); ngx_log_debug1(NGX_LOG_DEBUG_EVENT, p->log, 0, "pipe recv chain: %d", n); if (p->free_raw_hunks) { chain->next = p->free_raw_hunks; } p->free_raw_hunks = chain; if (n == NGX_ERROR) { p->upstream_error = 1; return NGX_ERROR; } if (n == NGX_AGAIN) { if (p->single_buf) { ngx_event_pipe_remove_shadow_links(chain->hunk); } break; } p->read = 1; if (n == 0) { p->upstream_eof = 1; break; } } p->read_length += n; cl = chain; while (cl && n > 0) { ngx_event_pipe_remove_shadow_links(cl->hunk); size = cl->hunk->end - cl->hunk->last; if (n >= size) { cl->hunk->last = cl->hunk->end; /* STUB */ cl->hunk->num = p->num++; if (p->input_filter(p, cl->hunk) == NGX_ERROR) { return NGX_ABORT; } n -= size; cl = cl->next; } else { cl->hunk->last += n; n = 0; } } p->free_raw_hunks = cl; } #if (NGX_DEBUG0) if (p->in || p->busy || p->free_raw_hunks) { ngx_log_debug0(NGX_LOG_DEBUG_EVENT, p->log, 0, "pipe buf"); } for (cl = p->in; cl; cl = cl->next) { ngx_log_debug3(NGX_LOG_DEBUG_EVENT, p->log, 0, "pipe buf in " PTR_FMT ", pos " PTR_FMT ", size: %d", cl->hunk->start, cl->hunk->pos, cl->hunk->last - cl->hunk->pos); } for (cl = p->busy; cl; cl = cl->next) { ngx_log_debug3(NGX_LOG_DEBUG_EVENT, p->log, 0, "pipe buf busy " PTR_FMT ", pos " PTR_FMT ", size: %d", cl->hunk->start, cl->hunk->pos, cl->hunk->last - cl->hunk->pos); } for (cl = p->free_raw_hunks; cl; cl = cl->next) { ngx_log_debug3(NGX_LOG_DEBUG_EVENT, p->log, 0, "pipe buf free " PTR_FMT ", last " PTR_FMT ", size: %d", cl->hunk->start, cl->hunk->last, cl->hunk->end - cl->hunk->last); } #endif if ((p->upstream_eof || p->upstream_error) && p->free_raw_hunks) { /* STUB */ p->free_raw_hunks->hunk->num = p->num++; if (p->input_filter(p, p->free_raw_hunks->hunk) == NGX_ERROR) { return NGX_ABORT; } p->free_raw_hunks = p->free_raw_hunks->next; if (p->free_bufs) { for (cl = p->free_raw_hunks; cl; cl = cl->next) { ngx_pfree(p->pool, cl->hunk->start); } } } if (p->cachable && p->in) { if (ngx_event_pipe_write_chain_to_temp_file(p) == NGX_ABORT) { return NGX_ABORT; } } return NGX_OK; } int ngx_event_pipe_write_to_downstream(ngx_event_pipe_t *p) { size_t bsize; ngx_uint_t flush; ngx_hunk_t *h; ngx_chain_t *out, **ll, *cl, *tl; ngx_log_debug1(NGX_LOG_DEBUG_EVENT, p->log, 0, "pipe write downstream: %d", p->downstream->write->ready); for ( ;; ) { if (p->downstream_error) { return ngx_event_pipe_drain_chains(p); } if (p->upstream_eof || p->upstream_error || p->upstream_done) { /* pass the p->out and p->in chains to the output filter */ if (p->out) { ngx_log_debug0(NGX_LOG_DEBUG_EVENT, p->log, 0, "pipe write downstream flush out"); if (p->output_filter(p->output_ctx, p->out) == NGX_ERROR) { p->downstream_error = 1; return ngx_event_pipe_drain_chains(p); } p->out = NULL; } if (p->in) { ngx_log_debug0(NGX_LOG_DEBUG_EVENT, p->log, 0, "pipe write downstream flush in"); if (p->output_filter(p->output_ctx, p->in) == NGX_ERROR) { p->downstream_error = 1; return ngx_event_pipe_drain_chains(p); } p->in = NULL; } ngx_log_debug0(NGX_LOG_DEBUG_EVENT, p->log, 0, "pipe write downstream done"); /* TODO: free unused hunks */ p->downstream_done = 1; break; } if (!p->downstream->write->ready) { break; } /* bsize is the size of the busy hunks */ bsize = 0; for (cl = p->busy; cl; cl = cl->next) { bsize += cl->hunk->end - cl->hunk->start; } ngx_log_debug1(NGX_LOG_DEBUG_EVENT, p->log, 0, "pipe write busy: " SIZE_T_FMT, bsize); out = NULL; ll = NULL; flush = 0; for ( ;; ) { if (p->out) { cl = p->out; if (bsize + ngx_hunk_size(cl->hunk) > p->busy_size) { flush = 1; break; } p->out = p->out->next; ngx_event_pipe_free_shadow_raw_hunk(&p->free_raw_hunks, cl->hunk); } else if (!p->cachable && p->in) { cl = p->in; if (bsize + ngx_hunk_size(cl->hunk) > p->busy_size) { flush = 1; break; } p->in = p->in->next; } else { break; } bsize += ngx_hunk_size(cl->hunk); cl->next = NULL; ngx_chain_add_link(out, ll, cl); } ngx_log_debug2(NGX_LOG_DEBUG_EVENT, p->log, 0, "pipe write: out:" PTR_FMT ", f:%d", out, flush); if (out == NULL && !flush) { break; } if (p->output_filter(p->output_ctx, out) == NGX_ERROR) { p->downstream_error = 1; return ngx_event_pipe_drain_chains(p); } ngx_chain_update_chains(&p->free, &p->busy, &out, p->tag); for (cl = p->free; cl; cl = cl->next) { if (cl->hunk->type & NGX_HUNK_TEMP_FILE) { if (p->cachable || !p->cyclic_temp_file) { continue; } /* reset p->temp_offset if all hunks had been sent */ if (cl->hunk->file_last == p->temp_file->offset) { p->temp_file->offset = 0; } } /* TODO: free hunk if p->free_bufs && upstream done */ /* add the free shadow raw hunk to p->free_raw_hunks */ if (cl->hunk->type & NGX_HUNK_LAST_SHADOW) { h = cl->hunk->shadow; h->pos = h->last = h->start; h->shadow = NULL; ngx_alloc_link_and_set_hunk(tl, h, p->pool, NGX_ABORT); ngx_event_pipe_add_free_hunk(&p->free_raw_hunks, tl); cl->hunk->type &= ~NGX_HUNK_LAST_SHADOW; } cl->hunk->shadow = NULL; #if 0 if (p->cyclic_temp_file && (cl->hunk->type & NGX_HUNK_TEMP_FILE)) { /* reset p->temp_offset if all hunks had been sent */ if (cl->hunk->file_last == p->temp_file->offset) { p->temp_file->offset = 0; } } #endif } } return NGX_OK; } static int ngx_event_pipe_write_chain_to_temp_file(ngx_event_pipe_t *p) { int size, hsize; ngx_hunk_t *h; ngx_chain_t *cl, *tl, *next, *out, **ll, **last_free, fl; if (p->hunk_to_file) { fl.hunk = p->hunk_to_file; fl.next = p->in; out = &fl; } else { out = p->in; } if (!p->cachable) { size = 0; cl = out; ll = NULL; ngx_log_debug1(NGX_LOG_DEBUG_EVENT, p->log, 0, "pipe offset: %d", p->temp_file->offset); do { hsize = cl->hunk->last - cl->hunk->pos; ngx_log_debug3(NGX_LOG_DEBUG_EVENT, p->log, 0, "pipe buf " PTR_FMT ", pos " PTR_FMT ", size: %d", cl->hunk->start, cl->hunk->pos, hsize); if ((size + hsize > p->temp_file_write_size) || (p->temp_file->offset + size + hsize > p->max_temp_file_size)) { break; } size += hsize; ll = &cl->next; cl = cl->next; } while (cl); ngx_log_debug1(NGX_LOG_DEBUG_EVENT, p->log, 0, "size: %d", size); if (cl) { p->in = cl; *ll = NULL; } else { p->in = NULL; p->last_in = &p->in; } } else { p->in = NULL; p->last_in = &p->in; } if (ngx_write_chain_to_temp_file(p->temp_file, out) == NGX_ERROR) { return NGX_ABORT; } for (last_free = &p->free_raw_hunks; *last_free != NULL; last_free = &(*last_free)->next) { /* void */ } if (p->hunk_to_file) { p->temp_file->offset = p->hunk_to_file->last - p->hunk_to_file->pos; p->hunk_to_file = NULL; out = out->next; } for (cl = out; cl; cl = next) { next = cl->next; cl->next = NULL; h = cl->hunk; h->file = &p->temp_file->file; h->file_pos = p->temp_file->offset; p->temp_file->offset += h->last - h->pos; h->file_last = p->temp_file->offset; h->type |= NGX_HUNK_FILE|NGX_HUNK_TEMP_FILE; #if 0 if (p->cachable) { h->type |= NGX_HUNK_FILE; } else { h->type |= NGX_HUNK_FILE|NGX_HUNK_TEMP_FILE; } #endif ngx_chain_add_link(p->out, p->last_out, cl); if (h->type & NGX_HUNK_LAST_SHADOW) { h->shadow->last = h->shadow->pos = h->shadow->start; ngx_alloc_link_and_set_hunk(tl, h->shadow, p->pool, NGX_ABORT); *last_free = tl; last_free = &tl->next; } } return NGX_OK; } /* the copy input filter */ int ngx_event_pipe_copy_input_filter(ngx_event_pipe_t *p, ngx_hunk_t *hunk) { ngx_hunk_t *h; ngx_chain_t *cl; if (hunk->pos == hunk->last) { return NGX_OK; } if (p->free) { h = p->free->hunk; p->free = p->free->next; } else { ngx_test_null(h, ngx_alloc_hunk(p->pool), NGX_ERROR); } ngx_memcpy(h, hunk, sizeof(ngx_hunk_t)); h->shadow = hunk; h->tag = p->tag; h->type |= NGX_HUNK_LAST_SHADOW|NGX_HUNK_RECYCLED; hunk->shadow = h; ngx_alloc_link_and_set_hunk(cl, h, p->pool, NGX_ERROR); ngx_log_debug1(NGX_LOG_DEBUG_EVENT, p->log, 0, "hunk #%d", h->num); ngx_chain_add_link(p->in, p->last_in, cl); return NGX_OK; } ngx_inline static void ngx_event_pipe_remove_shadow_links(ngx_hunk_t *hunk) { ngx_hunk_t *h, *next; if (hunk->shadow == NULL) { return; } h = hunk->shadow; while (!(h->type & NGX_HUNK_LAST_SHADOW)) { next = h->shadow; h->type &= ~(NGX_HUNK_TEMP|NGX_HUNK_IN_MEMORY|NGX_HUNK_RECYCLED); h->shadow = NULL; h = next; } h->type &= ~(NGX_HUNK_TEMP |NGX_HUNK_IN_MEMORY |NGX_HUNK_RECYCLED |NGX_HUNK_LAST_SHADOW); h->shadow = NULL; hunk->shadow = NULL; } ngx_inline static void ngx_event_pipe_free_shadow_raw_hunk(ngx_chain_t **free, ngx_hunk_t *h) { ngx_hunk_t *s; ngx_chain_t *cl, **ll; if (h->shadow == NULL) { return; } for (s = h->shadow; !(s->type & NGX_HUNK_LAST_SHADOW); s = s->shadow) { /* void */ } ll = free; for (cl = *free ; cl; cl = cl->next) { if (cl->hunk == s) { *ll = cl->next; break; } if (cl->hunk->shadow) { break; } ll = &cl->next; } } ngx_inline static void ngx_event_pipe_add_free_hunk(ngx_chain_t **chain, ngx_chain_t *cl) { if (*chain == NULL) { *chain = cl; return; } if ((*chain)->hunk->pos != (*chain)->hunk->last) { cl->next = (*chain)->next; (*chain)->next = cl; } else { cl->next = (*chain); (*chain) = cl; } } static int ngx_event_pipe_drain_chains(ngx_event_pipe_t *p) { ngx_hunk_t *h; ngx_chain_t *cl, *tl; for ( ;; ) { if (p->busy) { cl = p->busy; p->busy = NULL; } else if (p->out) { cl = p->out; p->out = NULL; } else if (p->in) { cl = p->in; p->in = NULL; } else { return NGX_OK; } while (cl) { if (cl->hunk->type & NGX_HUNK_LAST_SHADOW) { h = cl->hunk->shadow; h->pos = h->last = h->start; h->shadow = NULL; ngx_alloc_link_and_set_hunk(tl, h, p->pool, NGX_ABORT); ngx_event_pipe_add_free_hunk(&p->free_raw_hunks, tl); cl->hunk->type &= ~NGX_HUNK_LAST_SHADOW; } cl->hunk->shadow = NULL; tl = cl->next; cl->next = p->free; p->free = cl; cl = tl; } } }