/* * Copyright (c) 2015-2016 DeNA Co., Ltd. Kazuho Oku * * Permission is hereby granted, free of charge, to any person obtaining a copy * of this software and associated documentation files (the "Software"), to * deal in the Software without restriction, including without limitation the * rights to use, copy, modify, merge, publish, distribute, sublicense, and/or * sell copies of the Software, and to permit persons to whom the Software is * furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in * all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS * IN THE SOFTWARE. */ #include #include #include "picohttpparser.h" #include "h2o.h" #define FCGI_VERSION_1 1 #define FCGI_RESPONDER 1 #define FCGI_KEEP_CONN 1 #define FCGI_BEGIN_REQUEST 1 #define FCGI_END_REQUEST 3 #define FCGI_PARAMS 4 #define FCGI_STDIN 5 #define FCGI_STDOUT 6 #define FCGI_STDERR 7 #define FCGI_DATA 8 #define FCGI_RECORD_HEADER_SIZE (sizeof(struct st_fcgi_record_header_t)) #define FCGI_BEGIN_REQUEST_BODY_SIZE 8 #define MODULE_NAME "lib/handler/fastcgi.c" #define APPEND_BLOCKSIZE 512 /* the size should be small enough to be allocated within the buffer of the memory pool */ struct st_fcgi_record_header_t { uint8_t version; uint8_t type; uint16_t requestId; uint16_t contentLength; uint8_t paddingLength; uint8_t reserved; }; struct st_fcgi_begin_request_body_t { uint16_t role; uint8_t flags; uint8_t reserved[5]; }; typedef H2O_VECTOR(h2o_iovec_t) iovec_vector_t; struct st_fcgi_context_t { h2o_fastcgi_handler_t *handler; h2o_timeout_t io_timeout; }; struct st_fcgi_generator_t { h2o_generator_t super; struct st_fcgi_context_t *ctx; h2o_req_t *req; h2o_socketpool_connect_request_t *connect_req; h2o_socket_t *sock; int sent_headers; size_t leftsize; /* remaining amount of the content to receive (or SIZE_MAX if unknown) */ struct { h2o_doublebuffer_t sending; h2o_buffer_t *receiving; } resp; h2o_timeout_entry_t timeout; }; struct st_h2o_fastcgi_handler_t { h2o_handler_t super; h2o_socketpool_t sockpool; h2o_fastcgi_config_vars_t config; }; static void encode_uint16(void *_p, unsigned v) { unsigned char *p = _p; p[0] = (unsigned char)(v >> 8); p[1] = (unsigned char)v; } static void encode_record_header(void *p, uint8_t type, uint16_t reqId, uint16_t sz) { struct st_fcgi_record_header_t *header = p; header->version = FCGI_VERSION_1; header->type = type; encode_uint16(&header->requestId, reqId); encode_uint16(&header->contentLength, sz); header->paddingLength = 0; header->reserved = 0; } static void encode_begin_request(void *p, uint16_t reqId, uint16_t role, uint8_t flags) { encode_record_header(p, FCGI_BEGIN_REQUEST, reqId, FCGI_BEGIN_REQUEST_BODY_SIZE); struct st_fcgi_begin_request_body_t *body = (void *)((char *)p + FCGI_RECORD_HEADER_SIZE); encode_uint16(&body->role, role); body->flags = flags; memset(body->reserved, 0, sizeof(body->reserved)); } static h2o_iovec_t create_begin_request(h2o_mem_pool_t *pool, uint16_t reqId, uint16_t role, uint8_t flags) { h2o_iovec_t rec = h2o_iovec_init(h2o_mem_alloc_pool(pool, FCGI_RECORD_HEADER_SIZE + FCGI_BEGIN_REQUEST_BODY_SIZE), FCGI_RECORD_HEADER_SIZE + FCGI_BEGIN_REQUEST_BODY_SIZE); encode_begin_request(rec.base, reqId, role, flags); return rec; } static h2o_iovec_t create_header(h2o_mem_pool_t *pool, uint8_t type, uint16_t reqId, uint16_t sz) { h2o_iovec_t rec = h2o_iovec_init(h2o_mem_alloc_pool(pool, FCGI_RECORD_HEADER_SIZE), FCGI_RECORD_HEADER_SIZE); encode_record_header(rec.base, type, reqId, sz); return rec; } static void decode_header(struct st_fcgi_record_header_t *decoded, const void *s) { memcpy(decoded, s, sizeof(*decoded)); decoded->requestId = htons(decoded->requestId); decoded->contentLength = htons(decoded->contentLength); } static void *append(h2o_mem_pool_t *pool, iovec_vector_t *blocks, const void *s, size_t len) { h2o_iovec_t *slot; if (blocks->entries[blocks->size - 1].len + len > APPEND_BLOCKSIZE) { h2o_vector_reserve(pool, blocks, blocks->size + 1); slot = blocks->entries + blocks->size++; slot->base = h2o_mem_alloc_pool(pool, len < APPEND_BLOCKSIZE ? APPEND_BLOCKSIZE : len); slot->len = 0; } else { slot = blocks->entries + blocks->size - 1; } if (s != NULL) memcpy(slot->base + slot->len, s, len); slot->len += len; return slot->base + slot->len - len; } static char *encode_length_of_pair(char *p, size_t len) { if (len < 127) { *p++ = (char)len; } else { *p++ = (unsigned char)(len >> 24) | 0x80; *p++ = (unsigned char)(len >> 16); *p++ = (unsigned char)(len >> 8); *p++ = (unsigned char)len; } return p; } static void *append_pair(h2o_mem_pool_t *pool, iovec_vector_t *blocks, const char *name, size_t namelen, const char *value, size_t valuelen) { char lenbuf[8]; void *name_buf; append(pool, blocks, lenbuf, encode_length_of_pair(encode_length_of_pair(lenbuf, namelen), valuelen) - lenbuf); name_buf = append(pool, blocks, name, namelen); if (valuelen != 0) append(pool, blocks, value, valuelen); return name_buf; } static void append_address_info(h2o_req_t *req, iovec_vector_t *vecs, const char *addrlabel, size_t addrlabel_len, const char *portlabel, size_t portlabel_len, socklen_t (*cb)(h2o_conn_t *conn, struct sockaddr *)) { struct sockaddr_storage ss; socklen_t sslen; char buf[NI_MAXHOST]; if ((sslen = cb(req->conn, (void *)&ss)) == 0) return; size_t l = h2o_socket_getnumerichost((void *)&ss, sslen, buf); if (l != SIZE_MAX) append_pair(&req->pool, vecs, addrlabel, addrlabel_len, buf, l); int32_t port = h2o_socket_getport((void *)&ss); if (port != -1) { char buf[6]; int l = sprintf(buf, "%" PRIu16, (uint16_t)port); append_pair(&req->pool, vecs, portlabel, portlabel_len, buf, (size_t)l); } } static int envname_is_headername(const h2o_iovec_t *env, const h2o_iovec_t *header) { const char *ep, *hp, *hend; if (env->len != 5 + header->len) return 0; if (memcmp(env->base, "HTTP_", 5) != 0) return 0; for (ep = env->base + 5, hp = header->base, hend = hp + header->len; hp < hend; ++ep, ++hp) if (*ep != h2o_toupper(*hp)) return 0; return 1; } static void append_params(h2o_req_t *req, iovec_vector_t *vecs, h2o_fastcgi_config_vars_t *config) { h2o_iovec_t path_info = {NULL}; /* CONTENT_LENGTH */ if (req->entity.base != NULL) { char buf[32]; int l = sprintf(buf, "%zu", req->entity.len); append_pair(&req->pool, vecs, H2O_STRLIT("CONTENT_LENGTH"), buf, (size_t)l); } /* SCRIPT_FILENAME, SCRIPT_NAME, PATH_INFO */ if (req->filereq != NULL) { h2o_filereq_t *filereq = req->filereq; append_pair(&req->pool, vecs, H2O_STRLIT("SCRIPT_FILENAME"), filereq->local_path.base, filereq->local_path.len); append_pair(&req->pool, vecs, H2O_STRLIT("SCRIPT_NAME"), filereq->script_name.base, filereq->script_name.len); path_info = filereq->path_info; } else { append_pair(&req->pool, vecs, H2O_STRLIT("SCRIPT_NAME"), NULL, 0); path_info = req->path_normalized; } if (path_info.base != NULL) append_pair(&req->pool, vecs, H2O_STRLIT("PATH_INFO"), path_info.base, path_info.len); /* DOCUMENT_ROOT and PATH_TRANSLATED */ if (config->document_root.base != NULL) { append_pair(&req->pool, vecs, H2O_STRLIT("DOCUMENT_ROOT"), config->document_root.base, config->document_root.len); if (path_info.base != NULL) { append_pair(&req->pool, vecs, H2O_STRLIT("PATH_TRANSLATED"), NULL, config->document_root.len + path_info.len); char *dst_end = vecs->entries[vecs->size - 1].base + vecs->entries[vecs->size - 1].len; memcpy(dst_end - path_info.len, path_info.base, path_info.len); memcpy(dst_end - path_info.len - config->document_root.len, config->document_root.base, config->document_root.len); } } /* QUERY_STRING (and adjust PATH_INFO) */ if (req->query_at != SIZE_MAX) { append_pair(&req->pool, vecs, H2O_STRLIT("QUERY_STRING"), req->path.base + req->query_at + 1, req->path.len - (req->query_at + 1)); } else { append_pair(&req->pool, vecs, H2O_STRLIT("QUERY_STRING"), NULL, 0); } /* REMOTE_ADDR & REMOTE_PORT */ append_address_info(req, vecs, H2O_STRLIT("REMOTE_ADDR"), H2O_STRLIT("REMOTE_PORT"), req->conn->callbacks->get_peername); { /* environment variables (REMOTE_USER, etc.) */ size_t i; for (i = 0; i != req->env.size; i += 2) { h2o_iovec_t *name = req->env.entries + i, *value = name + 1; append_pair(&req->pool, vecs, name->base, name->len, value->base, value->len); } } /* REQUEST_METHOD */ append_pair(&req->pool, vecs, H2O_STRLIT("REQUEST_METHOD"), req->method.base, req->method.len); /* HTTP_HOST & REQUEST_URI */ if (config->send_delegated_uri) { append_pair(&req->pool, vecs, H2O_STRLIT("HTTP_HOST"), req->authority.base, req->authority.len); append_pair(&req->pool, vecs, H2O_STRLIT("REQUEST_URI"), req->path.base, req->path.len); } else { append_pair(&req->pool, vecs, H2O_STRLIT("HTTP_HOST"), req->input.authority.base, req->input.authority.len); append_pair(&req->pool, vecs, H2O_STRLIT("REQUEST_URI"), req->input.path.base, req->input.path.len); } /* SERVER_ADDR & SERVER_PORT */ append_address_info(req, vecs, H2O_STRLIT("SERVER_ADDR"), H2O_STRLIT("SERVER_PORT"), req->conn->callbacks->get_sockname); /* SERVER_NAME */ append_pair(&req->pool, vecs, H2O_STRLIT("SERVER_NAME"), req->hostconf->authority.host.base, req->hostconf->authority.host.len); { /* SERVER_PROTOCOL */ char buf[sizeof("HTTP/1.1")]; size_t l = h2o_stringify_protocol_version(buf, req->version); append_pair(&req->pool, vecs, H2O_STRLIT("SERVER_PROTOCOL"), buf, l); } /* SERVER_SOFTWARE */ append_pair(&req->pool, vecs, H2O_STRLIT("SERVER_SOFTWARE"), req->conn->ctx->globalconf->server_name.base, req->conn->ctx->globalconf->server_name.len); /* set HTTPS: on if necessary */ if (req->scheme == &H2O_URL_SCHEME_HTTPS) append_pair(&req->pool, vecs, H2O_STRLIT("HTTPS"), H2O_STRLIT("on")); { /* headers */ const h2o_header_t *h = req->headers.entries, *h_end = h + req->headers.size; size_t cookie_length = 0; for (; h != h_end; ++h) { if (h->name == &H2O_TOKEN_CONTENT_TYPE->buf) { append_pair(&req->pool, vecs, H2O_STRLIT("CONTENT_TYPE"), h->value.base, h->value.len); } else if (h->name == &H2O_TOKEN_COOKIE->buf) { /* accumulate the length of the cookie, together with the separator */ cookie_length += h->value.len + 1; } else { size_t i; for (i = 0; i != req->env.size; i += 2) { h2o_iovec_t *envname = req->env.entries + i; if (envname_is_headername(envname, h->name)) goto NextHeader; } char *dst = append_pair(&req->pool, vecs, NULL, h->name->len + sizeof("HTTP_") - 1, h->value.base, h->value.len); const char *src = h->name->base, *src_end = src + h->name->len; *dst++ = 'H'; *dst++ = 'T'; *dst++ = 'T'; *dst++ = 'P'; *dst++ = '_'; for (; src != src_end; ++src) *dst++ = *src == '-' ? '_' : h2o_toupper(*src); } NextHeader:; } if (cookie_length != 0) { /* emit the cookie merged */ cookie_length -= 1; append_pair(&req->pool, vecs, H2O_STRLIT("HTTP_COOKIE"), NULL, cookie_length); char *dst = vecs->entries[vecs->size - 1].base + vecs->entries[vecs->size - 1].len - cookie_length; for (h = req->headers.entries;; ++h) { if (h->name == &H2O_TOKEN_COOKIE->buf) { if (cookie_length == h->value.len) break; memcpy(dst, h->value.base, h->value.len); dst += h->value.len; *dst++ = ';'; cookie_length -= h->value.len + 1; } } memcpy(dst, h->value.base, h->value.len); } } } static void annotate_params(h2o_mem_pool_t *pool, iovec_vector_t *vecs, unsigned request_id, size_t max_record_size) { size_t index = 2, recsize = 0, header_slot = 1; while (index != vecs->size) { if (recsize + vecs->entries[index].len < max_record_size) { recsize += vecs->entries[index].len; ++index; } else { vecs->entries[header_slot] = create_header(pool, FCGI_PARAMS, request_id, max_record_size); if (recsize + vecs->entries[index].len == max_record_size) { h2o_vector_reserve(pool, vecs, vecs->size + 1); memmove(vecs->entries + index + 2, vecs->entries + index + 1, (vecs->size - (index + 1)) * sizeof(vecs->entries[0])); ++vecs->size; } else { h2o_vector_reserve(pool, vecs, vecs->size + 2); memmove(vecs->entries + index + 2, vecs->entries + index, (vecs->size - index) * sizeof(vecs->entries[0])); vecs->size += 2; size_t lastsz = max_record_size - recsize; vecs->entries[index].len = lastsz; vecs->entries[index + 2].base += lastsz; vecs->entries[index + 2].len -= lastsz; } header_slot = index + 1; index += 2; recsize = 0; } } vecs->entries[header_slot] = create_header(pool, FCGI_PARAMS, request_id, recsize); if (recsize != 0) { h2o_vector_reserve(pool, vecs, vecs->size + 1); vecs->entries[vecs->size++] = create_header(pool, FCGI_PARAMS, request_id, 0); } } static void build_request(h2o_req_t *req, iovec_vector_t *vecs, unsigned request_id, size_t max_record_size, h2o_fastcgi_config_vars_t *config) { *vecs = (iovec_vector_t){NULL}; /* first entry is FCGI_BEGIN_REQUEST */ h2o_vector_reserve(&req->pool, vecs, 5 /* we send at least 5 iovecs */); vecs->entries[0] = create_begin_request(&req->pool, request_id, FCGI_RESPONDER, config->keepalive_timeout != 0 ? FCGI_KEEP_CONN : 0); /* second entry is reserved for FCGI_PARAMS header */ vecs->entries[1] = h2o_iovec_init(NULL, APPEND_BLOCKSIZE); /* dummy value set to prevent params being appended to the entry */ vecs->size = 2; /* accumulate the params data, and annotate them with FCGI_PARAM headers */ append_params(req, vecs, config); annotate_params(&req->pool, vecs, request_id, max_record_size); /* setup FCGI_STDIN headers */ if (req->entity.len != 0) { size_t off = 0; for (; off + max_record_size < req->entity.len; off += max_record_size) { h2o_vector_reserve(&req->pool, vecs, vecs->size + 2); vecs->entries[vecs->size++] = create_header(&req->pool, FCGI_STDIN, request_id, max_record_size); vecs->entries[vecs->size++] = h2o_iovec_init(req->entity.base + off, max_record_size); } if (off != req->entity.len) { h2o_vector_reserve(&req->pool, vecs, vecs->size + 2); vecs->entries[vecs->size++] = create_header(&req->pool, FCGI_STDIN, request_id, req->entity.len - off); vecs->entries[vecs->size++] = h2o_iovec_init(req->entity.base + off, req->entity.len - off); } } h2o_vector_reserve(&req->pool, vecs, vecs->size + 1); vecs->entries[vecs->size++] = create_header(&req->pool, FCGI_STDIN, request_id, 0); } static void set_timeout(struct st_fcgi_generator_t *generator, h2o_timeout_t *timeout, h2o_timeout_cb cb) { if (h2o_timeout_is_linked(&generator->timeout)) h2o_timeout_unlink(&generator->timeout); generator->timeout.cb = cb; h2o_timeout_link(generator->req->conn->ctx->loop, timeout, &generator->timeout); } static void close_generator(struct st_fcgi_generator_t *generator) { /* can be called more than once */ if (h2o_timeout_is_linked(&generator->timeout)) h2o_timeout_unlink(&generator->timeout); if (generator->connect_req != NULL) { h2o_socketpool_cancel_connect(generator->connect_req); generator->connect_req = NULL; } if (generator->sock != NULL) { h2o_socket_close(generator->sock); generator->sock = NULL; } if (generator->resp.sending.buf != NULL) h2o_doublebuffer_dispose(&generator->resp.sending); if (generator->resp.receiving != NULL) h2o_buffer_dispose(&generator->resp.receiving); } static void do_send(struct st_fcgi_generator_t *generator) { h2o_iovec_t vecs[1]; size_t veccnt; int is_final; vecs[0] = h2o_doublebuffer_prepare(&generator->resp.sending, &generator->resp.receiving, generator->req->preferred_chunk_size); veccnt = vecs[0].len != 0 ? 1 : 0; if (generator->sock == NULL && vecs[0].len == generator->resp.sending.buf->size && generator->resp.receiving->size == 0) { is_final = 1; if (!(generator->leftsize == 0 || generator->leftsize == SIZE_MAX)) generator->req->http1_is_persistent = 0; } else { if (veccnt == 0) return; is_final = 0; } h2o_send(generator->req, vecs, veccnt, is_final ? H2O_SEND_STATE_FINAL : H2O_SEND_STATE_IN_PROGRESS); } static void send_eos_and_close(struct st_fcgi_generator_t *generator, int can_keepalive) { if (generator->ctx->handler->config.keepalive_timeout != 0 && can_keepalive) h2o_socketpool_return(&generator->ctx->handler->sockpool, generator->sock); else h2o_socket_close(generator->sock); generator->sock = NULL; if (h2o_timeout_is_linked(&generator->timeout)) h2o_timeout_unlink(&generator->timeout); if (generator->resp.sending.bytes_inflight == 0) do_send(generator); } static void errorclose(struct st_fcgi_generator_t *generator) { if (generator->sent_headers) { send_eos_and_close(generator, 0); } else { h2o_req_t *req = generator->req; close_generator(generator); h2o_send_error_503(req, "Internal Server Error", "Internal Server Error", 0); } } static int _isdigit(int ch) { return '0' <= ch && ch <= '9'; } static int fill_headers(h2o_req_t *req, struct phr_header *headers, size_t num_headers) { size_t i; /* set the defaults */ req->res.status = 200; req->res.reason = "OK"; req->res.content_length = SIZE_MAX; for (i = 0; i != num_headers; ++i) { const h2o_token_t *token; h2o_strtolower((char *)headers[i].name, headers[i].name_len); if ((token = h2o_lookup_token(headers[i].name, headers[i].name_len)) != NULL) { if (token->proxy_should_drop_for_res) { /* skip */ } else if (token == H2O_TOKEN_CONTENT_LENGTH) { if (req->res.content_length != SIZE_MAX) { h2o_req_log_error(req, MODULE_NAME, "received multiple content-length headers from fcgi"); return -1; } if ((req->res.content_length = h2o_strtosize(headers[i].value, headers[i].value_len)) == SIZE_MAX) { h2o_req_log_error(req, MODULE_NAME, "failed to parse content-length header sent from fcgi: %.*s", (int)headers[i].value_len, headers[i].value); return -1; } } else { /* RFC 3875 defines three headers to have special meaning: Content-Type, Status, Location. Status is handled as below. Content-Type does not seem to have any need to be handled specially. RFC suggests abs-path-style Location headers should trigger an internal redirection, but is that how the web servers work? */ h2o_add_header(&req->pool, &req->res.headers, token, NULL, h2o_strdup(&req->pool, headers[i].value, headers[i].value_len).base, headers[i].value_len); if (token == H2O_TOKEN_LINK) h2o_push_path_in_link_header(req, headers[i].value, headers[i].value_len); } } else if (h2o_memis(headers[i].name, headers[i].name_len, H2O_STRLIT("status"))) { h2o_iovec_t value = h2o_iovec_init(headers[i].value, headers[i].value_len); if (value.len < 3 || !(_isdigit(value.base[0]) && _isdigit(value.base[1]) && _isdigit(value.base[2])) || (value.len >= 4 && value.base[3] != ' ')) { h2o_req_log_error(req, MODULE_NAME, "failed to parse Status header, got: %.*s", (int)value.len, value.base); return -1; } req->res.status = (value.base[0] - '0') * 100 + (value.base[1] - '0') * 10 + (value.base[2] - '0'); req->res.reason = value.len >= 5 ? h2o_strdup(&req->pool, value.base + 4, value.len - 4).base : "OK"; } else { h2o_iovec_t name_duped = h2o_strdup(&req->pool, headers[i].name, headers[i].name_len), value_duped = h2o_strdup(&req->pool, headers[i].value, headers[i].value_len); h2o_add_header_by_str(&req->pool, &req->res.headers, name_duped.base, name_duped.len, 0, NULL, value_duped.base, value_duped.len); } } return 0; } static void append_content(struct st_fcgi_generator_t *generator, const void *src, size_t len) { /* do not accumulate more than content-length bytes */ if (generator->leftsize != SIZE_MAX) { if (generator->leftsize < len) { len = generator->leftsize; if (len == 0) return; } generator->leftsize -= len; } h2o_iovec_t reserved = h2o_buffer_reserve(&generator->resp.receiving, len); memcpy(reserved.base, src, len); generator->resp.receiving->size += len; } static int handle_stdin_record(struct st_fcgi_generator_t *generator, struct st_fcgi_record_header_t *header) { h2o_buffer_t *input = generator->sock->input; struct phr_header headers[100]; size_t num_headers; int parse_result; if (header->contentLength == 0) return 0; if (generator->sent_headers) { /* simply accumulate the data to response buffer */ append_content(generator, input->bytes + FCGI_RECORD_HEADER_SIZE, header->contentLength); return 0; } /* parse the headers using the input buffer (or keep it in response buffer and parse) */ num_headers = sizeof(headers) / sizeof(headers[0]); if (generator->resp.receiving->size == 0) { parse_result = phr_parse_headers(input->bytes + FCGI_RECORD_HEADER_SIZE, header->contentLength, headers, &num_headers, 0); } else { size_t prevlen = generator->resp.receiving->size; memcpy(h2o_buffer_reserve(&generator->resp.receiving, header->contentLength).base, input->bytes + FCGI_RECORD_HEADER_SIZE, header->contentLength); generator->resp.receiving->size = prevlen + header->contentLength; parse_result = phr_parse_headers(generator->resp.receiving->bytes, generator->resp.receiving->size, headers, &num_headers, prevlen); } if (parse_result < 0) { if (parse_result == -2) { /* incomplete */ if (generator->resp.receiving->size == 0) { memcpy(h2o_buffer_reserve(&generator->resp.receiving, header->contentLength).base, input->bytes + FCGI_RECORD_HEADER_SIZE, header->contentLength); generator->resp.receiving->size = header->contentLength; } return 0; } else { h2o_req_log_error(generator->req, MODULE_NAME, "received broken response"); return -1; } } /* fill-in the headers, and start the response */ if (fill_headers(generator->req, headers, num_headers) != 0) return -1; generator->leftsize = generator->req->res.content_length; h2o_start_response(generator->req, &generator->super); generator->sent_headers = 1; /* rest of the contents should be stored in the response buffer */ if (generator->resp.receiving->size == 0) { size_t leftlen = header->contentLength - parse_result; if (leftlen != 0) { append_content(generator, input->bytes + FCGI_RECORD_HEADER_SIZE + parse_result, leftlen); } } else { h2o_buffer_consume(&generator->resp.receiving, parse_result); } return 0; } static void on_rw_timeout(h2o_timeout_entry_t *entry) { struct st_fcgi_generator_t *generator = H2O_STRUCT_FROM_MEMBER(struct st_fcgi_generator_t, timeout, entry); h2o_req_log_error(generator->req, MODULE_NAME, "I/O timeout"); errorclose(generator); } static void on_read(h2o_socket_t *sock, const char *err) { struct st_fcgi_generator_t *generator = sock->data; int can_keepalive = 0; if (err != NULL) { /* note: FastCGI server is allowed to close the connection any time after sending an empty FCGI_STDOUT record */ if (!generator->sent_headers) h2o_req_log_error(generator->req, MODULE_NAME, "fastcgi connection closed unexpectedly"); errorclose(generator); return; } /* handle the records */ while (1) { struct st_fcgi_record_header_t header; size_t recsize; if (sock->input->size < FCGI_RECORD_HEADER_SIZE) break; decode_header(&header, sock->input->bytes); recsize = FCGI_RECORD_HEADER_SIZE + header.contentLength + header.paddingLength; if (sock->input->size < recsize) break; /* we have a complete record */ switch (header.type) { case FCGI_STDOUT: if (handle_stdin_record(generator, &header) != 0) goto Error; h2o_buffer_consume(&sock->input, recsize); break; case FCGI_STDERR: if (header.contentLength != 0) h2o_req_log_error(generator->req, MODULE_NAME, "%.*s", (int)header.contentLength, sock->input->bytes + FCGI_RECORD_HEADER_SIZE); h2o_buffer_consume(&sock->input, recsize); break; case FCGI_END_REQUEST: if (!generator->sent_headers) { h2o_req_log_error(generator->req, MODULE_NAME, "received FCGI_END_REQUEST before end of the headers"); goto Error; } h2o_buffer_consume(&sock->input, recsize); can_keepalive = 1; goto EOS_Received; default: h2o_req_log_error(generator->req, MODULE_NAME, "received unexpected record, type: %u", header.type); h2o_buffer_consume(&sock->input, recsize); if (!generator->sent_headers) goto Error; goto EOS_Received; } } /* send data if necessary */ if (generator->sent_headers && generator->resp.sending.bytes_inflight == 0) do_send(generator); set_timeout(generator, &generator->ctx->io_timeout, on_rw_timeout); return; EOS_Received: send_eos_and_close(generator, can_keepalive); return; Error: errorclose(generator); } static void on_send_complete(h2o_socket_t *sock, const char *err) { struct st_fcgi_generator_t *generator = sock->data; set_timeout(generator, &generator->ctx->io_timeout, on_rw_timeout); /* do nothing else! all the rest is handled by the on_read */ } static void on_connect(h2o_socket_t *sock, const char *errstr, void *data) { struct st_fcgi_generator_t *generator = data; iovec_vector_t vecs; generator->connect_req = NULL; if (sock == NULL) { h2o_req_log_error(generator->req, MODULE_NAME, "connection failed:%s", errstr); errorclose(generator); return; } generator->sock = sock; sock->data = generator; build_request(generator->req, &vecs, 1, 65535, &generator->ctx->handler->config); /* start sending the response */ h2o_socket_write(generator->sock, vecs.entries, vecs.size, on_send_complete); set_timeout(generator, &generator->ctx->io_timeout, on_rw_timeout); /* activate the receiver; note: FCGI spec allows the app to start sending the response before it receives FCGI_STDIN */ h2o_socket_read_start(sock, on_read); } static void do_proceed(h2o_generator_t *_generator, h2o_req_t *req) { struct st_fcgi_generator_t *generator = (void *)_generator; h2o_doublebuffer_consume(&generator->resp.sending); do_send(generator); } static void do_stop(h2o_generator_t *_generator, h2o_req_t *req) { struct st_fcgi_generator_t *generator = (void *)_generator; close_generator(generator); } static void on_connect_timeout(h2o_timeout_entry_t *entry) { struct st_fcgi_generator_t *generator = H2O_STRUCT_FROM_MEMBER(struct st_fcgi_generator_t, timeout, entry); h2o_req_log_error(generator->req, MODULE_NAME, "connect timeout"); errorclose(generator); } static int on_req(h2o_handler_t *_handler, h2o_req_t *req) { h2o_fastcgi_handler_t *handler = (void *)_handler; struct st_fcgi_generator_t *generator; generator = h2o_mem_alloc_shared(&req->pool, sizeof(*generator), (void (*)(void *))close_generator); generator->super.proceed = do_proceed; generator->super.stop = do_stop; generator->ctx = h2o_context_get_handler_context(req->conn->ctx, &handler->super); generator->req = req; generator->sock = NULL; generator->sent_headers = 0; h2o_doublebuffer_init(&generator->resp.sending, &h2o_socket_buffer_prototype); h2o_buffer_init(&generator->resp.receiving, &h2o_socket_buffer_prototype); generator->timeout = (h2o_timeout_entry_t){0}; set_timeout(generator, &generator->ctx->io_timeout, on_connect_timeout); h2o_socketpool_connect(&generator->connect_req, &handler->sockpool, req->conn->ctx->loop, &req->conn->ctx->receivers.hostinfo_getaddr, on_connect, generator); return 0; } static void on_context_init(h2o_handler_t *_handler, h2o_context_t *ctx) { h2o_fastcgi_handler_t *handler = (void *)_handler; struct st_fcgi_context_t *handler_ctx = h2o_mem_alloc(sizeof(*handler_ctx)); /* use the first event loop for handling timeouts of the socket pool */ if (handler->sockpool.timeout == UINT64_MAX) h2o_socketpool_set_timeout(&handler->sockpool, ctx->loop, handler->config.keepalive_timeout != 0 ? handler->config.keepalive_timeout : 60000); handler_ctx->handler = handler; h2o_timeout_init(ctx->loop, &handler_ctx->io_timeout, handler->config.io_timeout); h2o_context_set_handler_context(ctx, &handler->super, handler_ctx); } static void on_context_dispose(h2o_handler_t *_handler, h2o_context_t *ctx) { h2o_fastcgi_handler_t *handler = (void *)_handler; struct st_fcgi_context_t *handler_ctx = h2o_context_get_handler_context(ctx, &handler->super); if (handler_ctx == NULL) return; h2o_timeout_dispose(ctx->loop, &handler_ctx->io_timeout); free(handler_ctx); } static void on_handler_dispose(h2o_handler_t *_handler) { h2o_fastcgi_handler_t *handler = (void *)_handler; if (handler->config.callbacks.dispose != NULL) handler->config.callbacks.dispose(handler, handler->config.callbacks.data); h2o_socketpool_dispose(&handler->sockpool); free(handler->config.document_root.base); } static h2o_fastcgi_handler_t *register_common(h2o_pathconf_t *pathconf, h2o_fastcgi_config_vars_t *vars) { h2o_fastcgi_handler_t *handler = (void *)h2o_create_handler(pathconf, sizeof(*handler)); handler->super.on_context_init = on_context_init; handler->super.on_context_dispose = on_context_dispose; handler->super.dispose = on_handler_dispose; handler->super.on_req = on_req; handler->config = *vars; if (vars->document_root.base != NULL) handler->config.document_root = h2o_strdup(NULL, vars->document_root.base, vars->document_root.len); return handler; } h2o_fastcgi_handler_t *h2o_fastcgi_register_by_hostport(h2o_pathconf_t *pathconf, const char *host, uint16_t port, h2o_fastcgi_config_vars_t *vars) { h2o_fastcgi_handler_t *handler = register_common(pathconf, vars); h2o_socketpool_init_by_hostport(&handler->sockpool, h2o_iovec_init(host, strlen(host)), port, 0, SIZE_MAX /* FIXME */); return handler; } h2o_fastcgi_handler_t *h2o_fastcgi_register_by_address(h2o_pathconf_t *pathconf, struct sockaddr *sa, socklen_t salen, h2o_fastcgi_config_vars_t *vars) { h2o_fastcgi_handler_t *handler = register_common(pathconf, vars); h2o_socketpool_init_by_address(&handler->sockpool, sa, salen, 0, SIZE_MAX /* FIXME */); return handler; }