/* v/http.c ** */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include "all.h" #include "vere/vere.h" #include // #include static const c3_i TCP_BACKLOG = 16; /* _http_vec_to_meth(): convert h2o_iovec_t to meth */ static u3_weak _http_vec_to_meth(h2o_iovec_t vec_u) { return ( 0 == strncmp(vec_u.base, "GET", vec_u.len) ) ? c3__get : ( 0 == strncmp(vec_u.base, "PUT", vec_u.len) ) ? c3__put : ( 0 == strncmp(vec_u.base, "POST", vec_u.len) ) ? c3__post : ( 0 == strncmp(vec_u.base, "HEAD", vec_u.len) ) ? c3__head : ( 0 == strncmp(vec_u.base, "CONNECT", vec_u.len) ) ? c3__conn : ( 0 == strncmp(vec_u.base, "DELETE", vec_u.len) ) ? c3__delt : ( 0 == strncmp(vec_u.base, "OPTIONS", vec_u.len) ) ? c3__opts : ( 0 == strncmp(vec_u.base, "TRACE", vec_u.len) ) ? c3__trac : // TODO ?? // ( 0 == strncmp(vec_u.base, "PATCH", vec_u.len) ) ? c3__patc : u3_none; } /* _http_vec_to_atom(): convert h2o_iovec_t to atom (cord) */ static u3_noun _http_vec_to_atom(h2o_iovec_t vec_u) { return u3i_bytes(vec_u.len, (const c3_y*)vec_u.base); } /* _http_vec_to_octs(): convert h2o_iovec_t to (unit octs) */ static u3_noun _http_vec_to_octs(h2o_iovec_t vec_u) { if ( 0 == vec_u.len ) { return u3_nul; } // XX correct size_t -> atom? return u3nt(u3_nul, u3i_chubs(1, (const c3_d*)&vec_u.len), _http_vec_to_atom(vec_u)); } /* _http_vec_from_octs(): convert (unit octs) to h2o_iovec_t */ static h2o_iovec_t _http_vec_from_octs(u3_noun oct) { if ( u3_nul == oct ) { return h2o_iovec_init(0, 0); } // 2GB max if ( c3n == u3a_is_cat(u3h(u3t(oct))) ) { u3m_bail(c3__fail); } c3_w len_w = u3h(u3t(oct)); c3_y* buf_y = c3_malloc(1 + len_w); buf_y[len_w] = 0; u3r_bytes(0, len_w, buf_y, u3t(u3t(oct))); u3z(oct); return h2o_iovec_init(buf_y, len_w); } /* _http_heds_to_noun(): convert h2o_header_t to (list (pair @t @t)) */ static u3_noun _http_heds_to_noun(h2o_header_t* hed_u, c3_d hed_d) { u3_noun hed = u3_nul; c3_d dex_d = hed_d; h2o_header_t deh_u; while ( 0 < dex_d ) { deh_u = hed_u[--dex_d]; hed = u3nc(u3nc(_http_vec_to_atom(*deh_u.name), _http_vec_to_atom(deh_u.value)), hed); } return hed; } /* _http_heds_free(): free header linked list */ static void _http_heds_free(u3_hhed* hed_u) { while ( hed_u ) { u3_hhed* nex_u = hed_u->nex_u; free(hed_u->nam_c); free(hed_u->val_c); free(hed_u); hed_u = nex_u; } } /* _http_hed_new(): create u3_hhed from nam/val cords */ static u3_hhed* _http_hed_new(u3_atom nam, u3_atom val) { c3_w nam_w = u3r_met(3, nam); c3_w val_w = u3r_met(3, val); u3_hhed* hed_u = c3_malloc(sizeof(*hed_u)); hed_u->nam_c = c3_malloc(1 + nam_w); hed_u->val_c = c3_malloc(1 + val_w); hed_u->nam_c[nam_w] = 0; hed_u->val_c[val_w] = 0; hed_u->nex_u = 0; hed_u->nam_w = nam_w; hed_u->val_w = val_w; u3r_bytes(0, nam_w, (c3_y*)hed_u->nam_c, nam); u3r_bytes(0, val_w, (c3_y*)hed_u->val_c, val); return hed_u; } /* _http_heds_from_noun(): convert (list (pair @t @t)) to u3_hhed */ static u3_hhed* _http_heds_from_noun(u3_noun hed) { u3_noun deh = hed; u3_noun i_hed; u3_hhed* hed_u = 0; while ( u3_nul != hed ) { i_hed = u3h(hed); u3_hhed* nex_u = _http_hed_new(u3h(i_hed), u3t(i_hed)); nex_u->nex_u = hed_u; hed_u = nex_u; hed = u3t(hed); } u3z(deh); return hed_u; } /* _http_req_find(): find http request in connection by sequence. */ static u3_hreq* _http_req_find(u3_hcon* hon_u, c3_w seq_l) { u3_hreq* req_u = hon_u->req_u; // XX glories of linear search // while ( req_u ) { if ( seq_l == req_u->seq_l ) { return req_u; } req_u = req_u->nex_u; } return 0; } /* _http_req_link(): link http request to connection */ static void _http_req_link(u3_hcon* hon_u, u3_hreq* req_u) { req_u->hon_u = hon_u; req_u->seq_l = hon_u->seq_l++; req_u->nex_u = hon_u->req_u; hon_u->req_u = req_u; } /* _http_req_unlink(): remove http request from connection */ static void _http_req_unlink(u3_hreq* req_u) { u3_hcon* hon_u = req_u->hon_u; if ( hon_u->req_u == req_u ) { hon_u->req_u = req_u->nex_u; } else { u3_hreq* pre_u = hon_u->req_u; // XX glories of linear search // while ( pre_u ) { if ( pre_u->nex_u == req_u ) { pre_u->nex_u = req_u->nex_u; } else pre_u = pre_u->nex_u; } } } /* _http_req_free(): free http request. */ static void _http_req_free(u3_hreq* req_u) { _http_req_unlink(req_u); free(req_u); } /* _http_req_new(): receive http request. */ static u3_hreq* _http_req_new(u3_hcon* hon_u, h2o_req_t* rec_u) { u3_hreq* req_u = c3_malloc(sizeof(*req_u)); req_u->rec_u = rec_u; req_u->sat_e = u3_rsat_init; _http_req_link(hon_u, req_u); return req_u; } /* _http_req_to_duct(): translate srv/con/req to duct */ static u3_noun _http_req_to_duct(u3_hreq* req_u) { return u3nt(u3_blip, c3__http, u3nq(u3dc("scot", c3_s2('u','v'), req_u->hon_u->htp_u->sev_l), u3dc("scot", c3_s2('u','d'), req_u->hon_u->coq_l), u3dc("scot", c3_s2('u','d'), req_u->seq_l), u3_nul)); } /* _http_req_kill(): kill http request in %eyre. */ static void _http_req_kill(u3_hreq* req_u) { u3_noun pox = _http_req_to_duct(req_u); u3v_plan(pox, u3nc(c3__thud, u3_nul)); } /* _http_req_dispatch(): dispatch http request to %eyre */ static void _http_req_dispatch(u3_hreq* req_u, u3_noun req) { c3_assert(u3_rsat_init == req_u->sat_e); req_u->sat_e = u3_rsat_plan; u3_noun pox = _http_req_to_duct(req_u); u3_noun typ = _(req_u->hon_u->htp_u->lop) ? c3__chis : c3__this; u3v_plan(pox, u3nq(typ, req_u->hon_u->htp_u->sec, u3nc(c3y, u3i_words(1, &req_u->hon_u->ipf_w)), req)); } typedef struct _u3_hgen { h2o_generator_t neg_u; h2o_iovec_t bod_u; u3_hreq* req_u; u3_hhed* hed_u; } u3_hgen; /* _http_hgen_dispose(): dispose response generator and buffers */ static void _http_hgen_dispose(void* ptr_v) { u3_hgen* gen_u = (u3_hgen*)ptr_v; _http_req_free(gen_u->req_u); _http_heds_free(gen_u->hed_u); free(gen_u->bod_u.base); } /* _http_req_respond(): write httr to h2o_req_t->res and send */ static void _http_req_respond(u3_hreq* req_u, u3_noun sas, u3_noun hed, u3_noun bod) { // XX ideally //c3_assert(u3_rsat_plan == req_u->sat_e); if ( u3_rsat_plan != req_u->sat_e ) { //uL(fprintf(uH, "duplicate response\n")); return; } req_u->sat_e = u3_rsat_ripe; h2o_req_t* rec_u = req_u->rec_u; rec_u->res.status = sas; rec_u->res.reason = (sas < 200) ? "weird" : (sas < 300) ? "ok" : (sas < 400) ? "moved" : (sas < 500) ? "missing" : "hosed"; u3_hhed* hed_u = _http_heds_from_noun(u3k(hed)); u3_hgen* gen_u = h2o_mem_alloc_shared(&rec_u->pool, sizeof(*gen_u), _http_hgen_dispose); gen_u->neg_u = (h2o_generator_t){0, 0}; gen_u->req_u = req_u; gen_u->hed_u = hed_u; while ( 0 != hed_u ) { h2o_add_header_by_str(&rec_u->pool, &rec_u->res.headers, hed_u->nam_c, hed_u->nam_w, 0, 0, hed_u->val_c, hed_u->val_w); hed_u = hed_u->nex_u; } gen_u->bod_u = _http_vec_from_octs(u3k(bod)); rec_u->res.content_length = gen_u->bod_u.len; h2o_start_response(rec_u, &gen_u->neg_u); h2o_send(rec_u, &gen_u->bod_u, 1, H2O_SEND_STATE_FINAL); u3z(sas); u3z(hed); u3z(bod); } /* _http_rec_to_httq(): convert h2o_req_t to httq */ static u3_weak _http_rec_to_httq(h2o_req_t* rec_u) { u3_noun med = _http_vec_to_meth(rec_u->method); if ( u3_none == med ) { return u3_none; } u3_noun url = _http_vec_to_atom(rec_u->path); u3_noun hed = _http_heds_to_noun(rec_u->headers.entries, rec_u->headers.size); // restore host header hed = u3nc(u3nc(u3i_string("host"), _http_vec_to_atom(rec_u->authority)), hed); u3_noun bod = _http_vec_to_octs(rec_u->entity); return u3nq(med, url, hed, bod); } /* _http_rec_fail(): fail on bad h2o_req_t */ static void _http_rec_fail(h2o_req_t* rec_u, c3_i sas_i, c3_c* sas_c) { static h2o_generator_t gen_u = {0, 0}; rec_u->res.status = sas_i; rec_u->res.reason = sas_c; h2o_start_response(rec_u, &gen_u); h2o_send(rec_u, 0, 0, H2O_SEND_STATE_FINAL); } struct h2o_con_wrap { // see private st_h2o_http1_conn_t h2o_conn_t con_u; // connection struct { // see private st_h2o_uv_socket_t h2o_socket_t sok_u; // socket uv_stream_t* han_u; // client stream handler (u3_hcon) } *suv_u; }; /* _http_rec_accept(); handle incoming http request from h2o. */ static c3_i _http_rec_accept(h2o_handler_t* han_u, h2o_req_t* rec_u) { u3_weak req = _http_rec_to_httq(rec_u); if ( u3_none == req ) { if ( (u3C.wag_w & u3o_verbose) ) { uL(fprintf(uH, "strange %.*s request\n", (int)rec_u->method.len, rec_u->method.base)); } _http_rec_fail(rec_u, 400, "bad request"); } else { // XX HTTP2 wat do? struct h2o_con_wrap* noc_u = (struct h2o_con_wrap*)rec_u->conn; u3_hcon* hon_u = (u3_hcon*)noc_u->suv_u->han_u; // sanity check c3_assert(hon_u->sok_u == &noc_u->suv_u->sok_u); u3_hreq* req_u = _http_req_new(hon_u, rec_u); _http_req_dispatch(req_u, req); } return 0; } /* _http_conn_find(): find http connection in server by sequence. */ static u3_hcon* _http_conn_find(u3_http *htp_u, c3_w coq_l) { u3_hcon* hon_u = htp_u->hon_u; // XX glories of linear search // while ( hon_u ) { if ( coq_l == hon_u->coq_l ) { return hon_u; } hon_u = hon_u->nex_u; } return 0; } /* _http_conn_link(): link http request to connection */ static void _http_conn_link(u3_http* htp_u, u3_hcon* hon_u) { hon_u->htp_u = htp_u; hon_u->coq_l = htp_u->coq_l++; hon_u->nex_u = htp_u->hon_u; htp_u->hon_u = hon_u; } /* _http_conn_unlink(): remove http request from connection */ static void _http_conn_unlink(u3_hcon* hon_u) { u3_http* htp_u = hon_u->htp_u; if ( htp_u->hon_u == hon_u ) { htp_u->hon_u = hon_u->nex_u; } else { u3_hcon *pre_u = htp_u->hon_u; // XX glories of linear search // while ( pre_u ) { if ( pre_u->nex_u == hon_u ) { pre_u->nex_u = hon_u->nex_u; } else pre_u = pre_u->nex_u; } } } /* _http_conn_free_early(): free http connection on failure. */ static void _http_conn_free_early(uv_handle_t* han_t) { u3_hcon* hon_u = (u3_hcon*)han_t; free(hon_u); } /* _http_conn_free(): free http connection on close. */ static void _http_conn_free(uv_handle_t* han_t) { u3_hcon* hon_u = (u3_hcon*)han_t; while ( 0 != hon_u->req_u ) { u3_hreq* req_u = hon_u->req_u; u3_hreq* nex_u = req_u->nex_u; _http_req_kill(req_u); _http_req_free(req_u); hon_u->req_u = nex_u; } _http_conn_unlink(hon_u); free(hon_u); } /* _http_conn_new(): create and accept http connection. */ static void _http_conn_new(u3_http* htp_u) { // TODO where? // u3_lo_open(); u3_hcon* hon_u = c3_malloc(sizeof(*hon_u)); hon_u->seq_l = 1; hon_u->req_u = 0; uv_tcp_init(u3L, &hon_u->wax_u); c3_i sas_i; if ( 0 != (sas_i = uv_accept((uv_stream_t*)&htp_u->wax_u, (uv_stream_t*)&hon_u->wax_u)) ) { if ( (u3C.wag_w & u3o_verbose) ) { uL(fprintf(uH, "http: accept: %s\n", uv_strerror(sas_i))); } uv_close((uv_handle_t*)&hon_u->wax_u, (uv_close_cb)_http_conn_free_early); return; } _http_conn_link(htp_u, hon_u); hon_u->sok_u = h2o_uv_socket_create((uv_stream_t*)&hon_u->wax_u, (uv_close_cb)_http_conn_free); h2o_accept(htp_u->cep_u, hon_u->sok_u); // capture h2o connection (XX fragile) hon_u->con_u = (h2o_conn_t*)hon_u->sok_u->data; struct sockaddr_in adr_u; h2o_socket_getpeername(hon_u->sok_u, (struct sockaddr*)&adr_u); hon_u->ipf_w = ( adr_u.sin_family != AF_INET ) ? 0 : ntohl(adr_u.sin_addr.s_addr); // TODO where? // u3_lo_shut(c3y); } /* _http_serv_find(): find http server by sequence. */ static u3_http* _http_serv_find(c3_l sev_l) { u3_http* htp_u = u3_Host.htp_u; // XX glories of linear search // while ( htp_u ) { if ( sev_l == htp_u->sev_l ) { return htp_u; } htp_u = htp_u->nex_u; } return 0; } // XX serv link/unlink/free/new /* _http_serv_listen_cb(): uv_connection_cb for uv_listen */ static void _http_serv_listen_cb(uv_stream_t* str_u, c3_i sas_i) { u3_http* htp_u = (u3_http*)str_u; if ( 0 != sas_i ) { uL(fprintf(uH, "http: listen_cb: %s\n", uv_strerror(sas_i))); } else { _http_conn_new(htp_u); } } /* _http_serv_init_h2o(): initialize h2o ctx and handlers for server. */ static void _http_serv_init_h2o(u3_http* htp_u) { htp_u->fig_u = c3_calloc(sizeof(*htp_u->fig_u)); h2o_config_init(htp_u->fig_u); htp_u->fig_u->server_name = h2o_iovec_init( H2O_STRLIT("urbit/vere-" URBIT_VERSION)); // XX use u3_Host.ops_u.nam_c? Or ship.urbit.org? Multiple hosts? // see https://github.com/urbit/urbit/issues/914 htp_u->hos_u = h2o_config_register_host(htp_u->fig_u, h2o_iovec_init(H2O_STRLIT("default")), htp_u->por_w); htp_u->ctx_u = c3_calloc(sizeof(*htp_u->ctx_u)); htp_u->cep_u = c3_calloc(sizeof(*htp_u->cep_u)); htp_u->cep_u->ctx = (h2o_context_t*)htp_u->ctx_u; htp_u->cep_u->hosts = htp_u->fig_u->hosts; if ( c3y == htp_u->sec ) { htp_u->cep_u->ssl_ctx = u3_Host.tls_u; } htp_u->han_u = h2o_create_handler(&htp_u->hos_u->fallback_path, sizeof(*htp_u->han_u)); htp_u->han_u->on_req = _http_rec_accept; h2o_context_init(htp_u->ctx_u, u3L, htp_u->fig_u); } /* _http_serv_start(): start http server. */ static void _http_serv_start(u3_http* htp_u) { struct sockaddr_in adr_u; memset(&adr_u, 0, sizeof(adr_u)); adr_u.sin_family = AF_INET; if ( c3y == htp_u->lop ) { inet_pton(AF_INET, "127.0.0.1", &adr_u.sin_addr); } else { adr_u.sin_addr.s_addr = INADDR_ANY; } if ( c3y == htp_u->sec && 0 == u3_Host.tls_u ) { uL(fprintf(uH, "http: secure server not started: .urb/tls/ not found\n")); htp_u->por_w = 0; return; } uv_tcp_init(u3L, &htp_u->wax_u); /* Try ascending ports. */ while ( 1 ) { c3_i sas_i; adr_u.sin_port = htons(htp_u->por_w); sas_i = uv_tcp_bind(&htp_u->wax_u, (const struct sockaddr*)&adr_u, 0); if ( 0 != sas_i || 0 != (sas_i = uv_listen((uv_stream_t*)&htp_u->wax_u, TCP_BACKLOG, _http_serv_listen_cb)) ) { if ( UV_EADDRINUSE == sas_i ) { htp_u->por_w++; continue; } uL(fprintf(uH, "http: listen: %s\n", uv_strerror(sas_i))); htp_u->por_w = 0; return; } _http_serv_init_h2o(htp_u); uL(fprintf(uH, "http: live (%s, %s) on %d\n", (c3y == htp_u->sec) ? "secure" : "insecure", (c3y == htp_u->lop) ? "loopback" : "public", htp_u->por_w)); break; } } /* _http_init_tls: initialize OpenSSL context */ static SSL_CTX* _http_init_tls() { // XX require 1.1.0 and use TLS_server_method() SSL_CTX* tls_u = SSL_CTX_new(SSLv23_server_method()); // XX use SSL_CTX_set_max_proto_version() and SSL_CTX_set_min_proto_version() SSL_CTX_set_options(tls_u, SSL_OP_NO_SSLv2 | SSL_OP_NO_SSLv3 | // SSL_OP_NO_TLSv1 | // XX test SSL_OP_NO_COMPRESSION); SSL_CTX_set_default_verify_paths(tls_u); SSL_CTX_set_session_cache_mode(tls_u, SSL_SESS_CACHE_OFF); SSL_CTX_set_cipher_list(tls_u, "ECDH+AESGCM:DH+AESGCM:ECDH+AES256:DH+AES256:" "ECDH+AES128:DH+AES:ECDH+3DES:DH+3DES:RSA+AESGCM:" "RSA+AES:RSA+3DES:!aNULL:!MD5:!DSS"); c3_c pub_c[2048]; c3_c pir_c[2048]; c3_i ret_i; ret_i = snprintf(pub_c, 2048, "%s/.urb/tls/certificate.pem", u3_Host.dir_c); c3_assert(ret_i < 2048); ret_i = snprintf(pir_c, 2048, "%s/.urb/tls/private.pem", u3_Host.dir_c); c3_assert(ret_i < 2048); // TODO: SSL_CTX_use_certificate_chain_file ? if (SSL_CTX_use_certificate_file(tls_u, pub_c, SSL_FILETYPE_PEM) <= 0) { uL(fprintf(uH, "https: failed to load certificate\n")); // c3_assert(0); return 0; } if (SSL_CTX_use_PrivateKey_file(tls_u, pir_c, SSL_FILETYPE_PEM) <= 0 ) { uL(fprintf(uH, "https: failed to load private key\n")); // c3_assert(0); return 0; } return tls_u; } /* _http_write_ports_file(): update .http.ports */ static void _http_write_ports_file(c3_c *pax_c) { c3_i pal_i; c3_c *paf_c; c3_i por_i; u3_http *htp_u; pal_i = strlen(pax_c) + 13; /* includes NUL */ paf_c = u3a_malloc(pal_i); snprintf(paf_c, pal_i, "%s/%s", pax_c, ".http.ports"); por_i = open(paf_c, O_WRONLY | O_CREAT | O_TRUNC, 0666); u3a_free(paf_c); for ( htp_u = u3_Host.htp_u; htp_u; htp_u = htp_u->nex_u ) { if ( 0 < htp_u->por_w ) { dprintf(por_i, "%u %s %s\n", htp_u->por_w, (c3y == htp_u->sec) ? "secure" : "insecure", (c3y == htp_u->lop) ? "loopback" : "public"); } } c3_sync(por_i); close(por_i); } /* _http_release_ports_file(): remove .http.ports */ static void _http_release_ports_file(c3_c *pax_c) { c3_i pal_i; c3_c *paf_c; pal_i = strlen(pax_c) + 13; /* includes NUL */ paf_c = u3a_malloc(pal_i); snprintf(paf_c, pal_i, "%s/%s", pax_c, ".http.ports"); unlink(paf_c); u3a_free(paf_c); } /* u3_http_ef_bake(): notify %eyre that we're live */ void u3_http_ef_bake(void) { u3_noun pax = u3nq(u3_blip, c3__http, u3k(u3A->sen), u3_nul); u3v_plan(pax, u3nc(c3__born, u3_nul)); } /* u3_http_ef_thou(): send %thou from %eyre as http response. */ void u3_http_ef_thou(c3_l sev_l, c3_l coq_l, c3_l seq_l, u3_noun rep) { u3_http* htp_u; u3_hcon* hon_u; u3_hreq* req_u; c3_w bug_w = u3C.wag_w & u3o_verbose; if ( !(htp_u = _http_serv_find(sev_l)) ) { if ( bug_w ) { uL(fprintf(uH, "http: server not found: %x\r\n", sev_l)); } } else if ( !(hon_u = _http_conn_find(htp_u, coq_l)) ) { if ( bug_w ) { uL(fprintf(uH, "http: connection not found: %x/%d\r\n", sev_l, coq_l)); } } else if ( !(req_u = _http_req_find(hon_u, seq_l)) ) { if ( bug_w ) { uL(fprintf(uH, "http: request not found: %x/%d/%d\r\n", sev_l, coq_l, seq_l)); } } else { u3_noun p_rep, q_rep, r_rep; if ( c3n == u3r_trel(rep, &p_rep, &q_rep, &r_rep) ) { uL(fprintf(uH, "http: strange response\n")); } else { _http_req_respond(req_u, u3k(p_rep), u3k(q_rep), u3k(r_rep)); } } u3z(rep); } typedef struct _u3_prox u3_prox; static u3_prox* _proxy_serv_new(c3_s por_s, c3_o sec); static u3_prox* _proxy_serv_start(u3_prox* lis_u); /* u3_http_io_init(): initialize http I/O. */ void u3_http_io_init() { // Lens port { u3_http *htp_u = c3_malloc(sizeof(*htp_u)); htp_u->sev_l = u3A->sev_l + 2; htp_u->coq_l = 1; htp_u->por_w = 12321; htp_u->sec = c3n; htp_u->lop = c3y; htp_u->cep_u = 0; htp_u->hos_u = 0; htp_u->hon_u = 0; htp_u->nex_u = 0; htp_u->nex_u = u3_Host.htp_u; u3_Host.htp_u = htp_u; } // Secure port. { u3_http *htp_u = c3_malloc(sizeof(*htp_u)); htp_u->sev_l = u3A->sev_l + 1; htp_u->coq_l = 1; htp_u->por_w = 8443; htp_u->sec = c3y; htp_u->lop = c3n; htp_u->cep_u = 0; htp_u->hos_u = 0; htp_u->hon_u = 0; htp_u->nex_u = 0; htp_u->nex_u = u3_Host.htp_u; u3_Host.htp_u = htp_u; } // Insecure port. { u3_http* htp_u = c3_malloc(sizeof(*htp_u)); htp_u->sev_l = u3A->sev_l; htp_u->coq_l = 1; htp_u->por_w = 8080; htp_u->sec = c3n; htp_u->lop = c3n; htp_u->cep_u = 0; htp_u->hos_u = 0; htp_u->hon_u = 0; htp_u->nex_u = 0; htp_u->nex_u = u3_Host.htp_u; u3_Host.htp_u = htp_u; } u3_Host.tls_u = _http_init_tls(); } /* u3_http_io_talk(): start http I/O. */ void u3_http_io_talk() { u3_http* htp_u; for ( htp_u = u3_Host.htp_u; htp_u; htp_u = htp_u->nex_u ) { _http_serv_start(htp_u); } _http_write_ports_file(u3_Host.dir_c); _proxy_serv_start(_proxy_serv_new(80, c3n)); _proxy_serv_start(_proxy_serv_new(443, c3y)); } /* u3_http_io_poll(): poll kernel for http I/O. */ void u3_http_io_poll(void) { } /* u3_http_io_exit(): shut down http. */ void u3_http_io_exit(void) { // XX shutdown servers cleanly _http_release_ports_file(u3_Host.dir_c); } /////////////////////////////////////////////////////////////////////////////// /////////////////////////////////////////////////////////////////////////////// /////////////////////////////////////////////////////////////////////////////// // XX rename all of these typedef enum { u3_pars_good = 0, // success u3_pars_fail = 1, // failure u3_pars_moar = 2 // incomplete } u3_proxy_pars; typedef enum { u3_proxy_forward = 0, // connected to us u3_proxy_backward = 1 // we connected to XX rename } u3_proxy_type; /* u3_proxy_conn: established proxy connection */ typedef struct _u3_proxy_conn { uv_tcp_t don_u; // downstream handle uv_tcp_t* upt_u; // upstream handle XX union of local connect and reverse listener? uv_buf_t buf_u; // pending buffer XX support multiple c3_o sec; // yes == https u3_proxy_type typ_e; union { struct _u3_proxy_client* cli_u; // typ_e == backward struct _u3_prox* lis_u; // typ_e == forward } src_u; struct _u3_proxy_conn* nex_u; } u3_proxy_conn; /* u3_proxy_client: ship-specific proxy client */ typedef struct _u3_proxy_client { c3_w ipf_w; c3_s por_s; c3_o sec; u3_atom sip; c3_c* hot_c; struct _u3_proxy_client* nex_u; // XX link connection? } u3_proxy_client; /* u3_ward: reverse, reverse TCP proxy (ship-specific listener) */ typedef struct _u3_ward { uv_tcp_t tcp_u; // listener handle u3_atom sip; // reverse proxy for ship c3_s por_s; // listening on port struct _u3_proxy_conn* con_u; // initiating connection struct _u3_ward* nex_u; // next in lists } u3_ward; /* u3_prox: reverse TCP proxy server */ typedef struct _u3_prox { uv_tcp_t sev_u; // server handle c3_s por_s; // listening on port c3_o sec; // yes == https struct _u3_proxy_conn* con_u; // active connection list struct _u3_ward* rev_u; // active reverse listeners struct _u3_prox* nex_u; // next listener } u3_prox; /////////////////////////////////////////////////////////////////////////////// /////////////////////////////////////////////////////////////////////////////// /////////////////////////////////////////////////////////////////////////////// /* _proxy_alloc(): libuv buffer allocator */ static void _proxy_alloc(uv_handle_t* had_u, size_t len_i, uv_buf_t* buf) { // len_i is always 64k, so we're ignoring it // using fixed size 4K buffer for // XX consider h2o_buffer_t, a pool, or something XX void* ptr_v = c3_malloc(4096); *buf = uv_buf_init(ptr_v, 4096); } /* _proxy_client_free(): free proxy client */ static void _proxy_client_free(u3_proxy_client* cli_u) { free(cli_u); // XX detach from glboal state } /* _proxy_client_new(): allocate ship-specific proxy client */ static u3_proxy_client* _proxy_client_new(u3_atom sip, c3_s por_s, c3_o sec) { u3_proxy_client* cli_u = c3_malloc(sizeof(*cli_u)); cli_u->sip = sip; cli_u->sec = sec; cli_u->por_s = por_s; // set after opened cli_u->nex_u = 0; // XX link to global state return cli_u; } /* _proxy_conn_free(): free proxy connection */ static void _proxy_conn_free(u3_proxy_conn* con_u) { if ( 0 != con_u->buf_u.base ) { free(con_u->buf_u.base); } if ( u3_proxy_backward == con_u->typ_e ) { _proxy_client_free(con_u->src_u.cli_u); } free(con_u); // XX detach from listener } /* _proxy_conn_close(): close both sides of proxy connection */ static void _proxy_conn_close(u3_proxy_conn* con_u) { if ( 0 != con_u->upt_u ) { uv_close((uv_handle_t*)con_u->upt_u, (uv_close_cb)free); } uv_close((uv_handle_t*)&con_u->don_u, (uv_close_cb)_proxy_conn_free); } /* _proxy_conn_new(): allocate proxy connection */ static u3_proxy_conn* _proxy_conn_new(u3_proxy_type typ_e, void* src_u) { u3_proxy_conn* con_u = c3_malloc(sizeof(*con_u)); con_u->upt_u = 0; con_u->buf_u = uv_buf_init(0, 0); con_u->nex_u = 0; switch ( typ_e ) { default: c3_assert(0); case u3_proxy_forward: { u3_prox* lis_u = (u3_prox*)src_u; con_u->typ_e = typ_e; con_u->src_u.lis_u = lis_u; con_u->sec = lis_u->sec; break; } case u3_proxy_backward: { u3_proxy_client* cli_u = (u3_proxy_client*)src_u; con_u->typ_e = typ_e; con_u->src_u.cli_u = cli_u; con_u->sec = cli_u->sec; break; } } con_u->don_u.data = con_u; // XX link to global state return con_u; } /* _proxy_write_cb(): free uv_write_t and linked buffer. */ static void _proxy_write_cb(uv_write_t* wri_u, c3_i sas_i) { if ( 0 != sas_i ) { uL(fprintf(uH, "proxy: write: %s\n", uv_strerror(sas_i))); } if ( 0 != wri_u->data ) { free(wri_u->data); } free(wri_u); } /* _proxy_write(): write buffer to proxy stream */ static c3_i _proxy_write(u3_proxy_conn* con_u, uv_stream_t* str_u, uv_buf_t buf_u) { uv_write_t* wri_u = c3_malloc(sizeof(*wri_u)); wri_u->data = buf_u.base; c3_i sas_i; if ( 0 != (sas_i = uv_write(wri_u, str_u, &buf_u, 1, _proxy_write_cb)) ) { _proxy_conn_close(con_u); _proxy_write_cb(wri_u, sas_i); } return sas_i; } /* _proxy_read_downstream_cb(): read from downstream, write upstream. */ static void _proxy_read_downstream_cb(uv_stream_t* don_u, ssize_t siz_w, const uv_buf_t* buf_u) { u3_proxy_conn* con_u = don_u->data; if ( 0 > siz_w ) { if ( UV_EOF != siz_w ) { uL(fprintf(uH, "proxy: read downstream: %s\n", uv_strerror(siz_w))); } _proxy_conn_close(con_u); } else { _proxy_write(con_u, (uv_stream_t*)con_u->upt_u, uv_buf_init(buf_u->base, siz_w)); } } /* _proxy_read_upstream_cb(): read from upstream, write downstream. */ static void _proxy_read_upstream_cb(uv_stream_t* upt_u, ssize_t siz_w, const uv_buf_t* buf_u) { u3_proxy_conn* con_u = upt_u->data; if ( 0 > siz_w ) { if ( UV_EOF != siz_w ) { uL(fprintf(uH, "proxy: read upstream: %s\n", uv_strerror(siz_w))); } _proxy_conn_close(con_u); } else { _proxy_write(con_u, (uv_stream_t*)&(con_u->don_u), uv_buf_init(buf_u->base, siz_w)); } } /* _proxy_fire(): send pending buffer upstream, setup full duplex. */ static void _proxy_fire(u3_proxy_conn* con_u) { if ( 0 != con_u->buf_u.base ) { uv_buf_t fub_u = con_u->buf_u; con_u->buf_u = uv_buf_init(0, 0); if ( 0 != _proxy_write(con_u, (uv_stream_t*)con_u->upt_u, fub_u) ) { return; } } // XX set cooldown timers to close these? uv_read_start((uv_stream_t*)&con_u->don_u, _proxy_alloc, _proxy_read_downstream_cb); uv_read_start((uv_stream_t*)con_u->upt_u, _proxy_alloc, _proxy_read_upstream_cb); } /* _proxy_loop_connect_cb(): callback for loopback proxy connect. */ static void _proxy_loop_connect_cb(uv_connect_t * upc_u, c3_i sas_i) { u3_proxy_conn* con_u = upc_u->data; if ( 0 != sas_i ) { uL(fprintf(uH, "proxy: connect: %s\n", uv_strerror(sas_i))); _proxy_conn_close(con_u); } else { _proxy_fire(con_u); } free(upc_u); } /* _proxy_loop_connect(): connect to loopback. */ static void _proxy_loop_connect(u3_proxy_conn* con_u) { uv_tcp_t* upt_u = c3_malloc(sizeof(*upt_u)); con_u->upt_u = upt_u; upt_u->data = con_u; uv_tcp_init(u3L, upt_u); struct sockaddr_in lop_u; memset(&lop_u, 0, sizeof(lop_u)); lop_u.sin_family = AF_INET; lop_u.sin_addr.s_addr = htonl(INADDR_LOOPBACK); // get the appropriate loopback port { c3_s por_s = 0; u3_http* htp_u; for ( htp_u = u3_Host.htp_u; (0 != htp_u); htp_u = htp_u->nex_u ) { if ( c3n == htp_u->lop && con_u->sec == htp_u->sec ) { por_s = htp_u->por_w; } } // XX fix this by refactoring proxy setup c3_assert( 0 != por_s ); lop_u.sin_port = htons(por_s); } uv_connect_t* upc_u = c3_malloc(sizeof(*upc_u)); upc_u->data = con_u; c3_i sas_i; if ( 0 != (sas_i = uv_tcp_connect(upc_u, upt_u, (const struct sockaddr*)&lop_u, _proxy_loop_connect_cb)) ) { uL(fprintf(uH, "proxy: loopback: %s\n", uv_strerror(sas_i))); free(upc_u); _proxy_conn_close(con_u); } } /* _proxy_ward_free(): free reverse proxy listener */ static void _proxy_ward_free(u3_ward* rev_u) { u3z(rev_u->sip); free(rev_u); // XX free buffers // XX detach from listener } /* _proxy_ward_close(): close ward (ship-specific listener) */ static void _proxy_ward_close(u3_ward* rev_u) { uv_close((uv_handle_t*)&rev_u->tcp_u, (uv_close_cb)_proxy_ward_free); } /* _proxy_ward_new(): allocate reverse proxy listener */ static u3_ward* _proxy_ward_new(u3_proxy_conn* con_u, u3_atom sip) { u3_ward* rev_u = c3_malloc(sizeof(*rev_u)); rev_u->tcp_u.data = rev_u; rev_u->con_u = con_u; rev_u->sip = sip; rev_u->por_s = 0; // set after opened rev_u->nex_u = 0; // XX link to global state return rev_u; } /* _proxy_ward_accept(): accept new connection on ward */ static void _proxy_ward_accept(u3_ward* rev_u) { uv_tcp_t* upt_u = c3_malloc(sizeof(*upt_u)); upt_u->data = rev_u->con_u; rev_u->con_u->upt_u = upt_u; uv_tcp_init(u3L, upt_u); c3_i sas_i; if ( 0 != (sas_i = uv_accept((uv_stream_t*)&rev_u->tcp_u, (uv_stream_t*)upt_u)) ) { uL(fprintf(uH, "proxy: accept: %s\n", uv_strerror(sas_i))); _proxy_conn_close(rev_u->con_u); } else { _proxy_fire(rev_u->con_u); } } /* _proxy_ward_listen_cb(): listen callback for ward */ static void _proxy_ward_listen_cb(uv_stream_t* tcp_u, c3_i sas_i) { u3_ward* rev_u = (u3_ward*)tcp_u; if ( 0 != sas_i ) { uL(fprintf(uH, "proxy: listen_cb: %s\n", uv_strerror(sas_i))); _proxy_conn_close(rev_u->con_u); } else { _proxy_ward_accept(rev_u); } // ward listener is always closed _proxy_ward_close(rev_u); } /* _proxy_ward_plan(): notify ship of new ward */ static void _proxy_ward_plan(u3_ward* rev_u) { // XX confirm duct u3_noun pax = u3nq(u3_blip, c3__http, c3__prox, u3nc(u3k(u3A->sen), u3_nul)); u3_noun wis = u3nq(c3__wise, u3k(rev_u->sip), rev_u->por_s, u3k(rev_u->con_u->sec)); u3v_plan(pax, wis); } /* _proxy_ward_start(): start ward (ship-specific listener). */ static void _proxy_ward_start(u3_proxy_conn* con_u, u3_noun sip) { u3_ward* rev_u = _proxy_ward_new(con_u, sip); uv_tcp_init(u3L, &rev_u->tcp_u); struct sockaddr_in add_u; c3_i add_i = sizeof(add_u); memset(&add_u, 0, add_i); add_u.sin_family = AF_INET; add_u.sin_addr.s_addr = INADDR_ANY; add_u.sin_port = 0; // first available c3_i sas_i; if ( 0 != (sas_i = uv_tcp_bind(&rev_u->tcp_u, (const struct sockaddr*)&add_u, 0)) || 0 != (sas_i = uv_listen((uv_stream_t*)&rev_u->tcp_u, TCP_BACKLOG, _proxy_ward_listen_cb)) || 0 != (sas_i = uv_tcp_getsockname(&rev_u->tcp_u, (struct sockaddr*)&add_u, &add_i))) { uL(fprintf(uH, "proxy: ward: %s\n", uv_strerror(sas_i))); _proxy_ward_close(rev_u); _proxy_conn_close(con_u); } else { rev_u->por_s = ntohs(add_u.sin_port); _proxy_ward_plan(rev_u); } } /* _proxy_parse_host(): parse plaintext buffer for Host header */ static u3_proxy_pars _proxy_parse_host(const uv_buf_t* buf_u, c3_c** hot_c) { struct phr_header hed_u[H2O_MAX_HEADERS]; size_t hed_t = H2O_MAX_HEADERS; { // unused c3_i ver_i; const c3_c* met_c; size_t met_t; const c3_c* pat_c; size_t pat_t; size_t len_t = buf_u->len < H2O_MAX_REQLEN ? buf_u->len : H2O_MAX_REQLEN; // XX slowloris? c3_i las_i = 0; c3_i sas_i; sas_i = phr_parse_request(buf_u->base, len_t, &met_c, &met_t, &pat_c, &pat_t, &ver_i, hed_u, &hed_t, las_i); switch ( sas_i ) { case -1: return u3_pars_fail; case -2: return u3_pars_moar; } } const h2o_token_t* tok_t; size_t i; for ( i = 0; i < hed_t; i++ ) { // XX in-place, copy first h2o_strtolower((c3_c*)hed_u[i].name, hed_u[i].name_len); if ( 0 != (tok_t = h2o_lookup_token(hed_u[i].name, hed_u[i].name_len)) ) { if ( tok_t->is_init_header_special && H2O_TOKEN_HOST == tok_t ) { c3_c* val_c; c3_c* por_c; val_c = c3_malloc(1 + hed_u[i].value_len); val_c[hed_u[i].value_len] = 0; memcpy(val_c, hed_u[i].value, hed_u[i].value_len); // 'truncate' by replacing port separator ':' with 0 if ( 0 != (por_c = strchr(val_c, ':')) ) { por_c[0] = 0; } *hot_c = val_c; break; } } } return u3_pars_good; } /* _proxy_parse_sni(): parse clienthello buffer for SNI */ static u3_proxy_pars _proxy_parse_sni(const uv_buf_t* buf_u, c3_c** hot_c) { c3_i sas_i = 0; //tls_protocol->parse_packet(buf_u->base, buf_u->len, hot_c); if ( 0 > sas_i ) { switch ( sas_i ) { case -1: return u3_pars_moar; case -2: return u3_pars_good; // SNI not present default: return u3_pars_fail; } } return u3_pars_good; } /* _proxy_parse_ship(): determine destination for proxied request */ static u3_noun _proxy_parse_ship(c3_c* hot_c) { u3_noun sip = u3_nul; c3_c* dom_c; if ( 0 == hot_c ) { return sip; } dom_c = strchr(hot_c, '.'); if ( 0 == dom_c ) { return sip; } c3_w dif_w = dom_c - hot_c; c3_w dns_w = strlen(u3_Host.ops_u.dns_c); if ( (dns_w != strlen(hot_c) - (dif_w + 1)) || (0 != strncmp(dom_c + 1, u3_Host.ops_u.dns_c, dns_w)) ) { return sip; } { c3_c* sip_c = c3_malloc(2 + dif_w); strncpy(sip_c + 1, hot_c, dif_w); sip_c[0] = '~'; sip_c[1 + dif_w] = 0; sip = u3dc("slaw", 'p', u3i_string(sip_c)); free(sip_c); return sip; } } /* _proxy_dest(): proxy to destination */ static void _proxy_dest(u3_proxy_conn* con_u, u3_noun sip) { if ( u3_nul == sip ) { _proxy_loop_connect(con_u); } else { u3_noun hip = u3k(u3t(sip)); u3_noun own = u3A->own; c3_o our = c3n; while ( u3_nul != own ) { if ( c3y == u3r_sing(hip, u3h(own)) ) { our = c3y; break; } own = u3t(own); } if ( c3y == our ) { _proxy_loop_connect(con_u); } else { // XX check if (sein:title sip) == our // XX check will _proxy_ward_start(con_u, hip); } } u3z(sip); } static void _proxy_peek_read(u3_proxy_conn* con_u); /* _proxy_peek(): peek at proxied request for destination */ static void _proxy_peek(u3_proxy_conn* con_u) { c3_c* hot_c = 0; u3_proxy_pars sat_e = ( c3y == con_u->sec ) ? _proxy_parse_sni(&con_u->buf_u, &hot_c) : _proxy_parse_host(&con_u->buf_u, &hot_c); switch ( sat_e ) { default: c3_assert(0); case u3_pars_fail: { uL(fprintf(uH, "proxy: peek fail\n")); _proxy_conn_close(con_u); break; } case u3_pars_moar: { uL(fprintf(uH, "proxy: peek moar\n")); // XX count retries, fail after some n _proxy_peek_read(con_u); break; } case u3_pars_good: { u3_noun sip = _proxy_parse_ship(hot_c); _proxy_dest(con_u, sip); break; } } if ( 0 != hot_c ) { free(hot_c); } } /* _proxy_peek_read_cb(): read callback for peeking at proxied request */ static void _proxy_peek_read_cb(uv_stream_t* don_u, ssize_t siz_w, const uv_buf_t* buf_u) { u3_proxy_conn* con_u = don_u->data; if ( 0 > siz_w ) { if ( UV_EOF != siz_w ) { uL(fprintf(uH, "proxy: peek: %s\n", uv_strerror(siz_w))); } _proxy_conn_close(con_u); } else { uv_read_stop(don_u); u3_lo_open(); if ( 0 == con_u->buf_u.base ) { con_u->buf_u = uv_buf_init(buf_u->base, siz_w); } else { c3_w len_w = siz_w + con_u->buf_u.len; // XX c3_realloc void* ptr_v = realloc(con_u->buf_u.base, len_w); c3_assert( 0 != ptr_v ); memcpy(ptr_v + con_u->buf_u.len, buf_u->base, siz_w); con_u->buf_u = uv_buf_init(ptr_v, len_w); free(buf_u->base); } _proxy_peek(con_u); u3_lo_shut(c3y); } } /* _proxy_peek_read(): start read to peek at proxied request */ static void _proxy_peek_read(u3_proxy_conn* con_u) { uv_read_start((uv_stream_t*)&con_u->don_u, _proxy_alloc, _proxy_peek_read_cb); } /* _proxy_serv_free(): free proxy listener */ static void _proxy_serv_free(u3_prox* lis_u) { free(lis_u); // XX close and free connections // XX close and free reverse listeners // XX detach from global state } /* _proxy_serv_new(): allocate proxy listener */ static u3_prox* _proxy_serv_new(c3_s por_s, c3_o sec) { u3_prox* lis_u = c3_malloc(sizeof(*lis_u)); lis_u->sev_u.data = lis_u; lis_u->por_s = por_s; lis_u->sec = sec; lis_u->con_u = 0; lis_u->rev_u = 0; lis_u->nex_u = 0; // XX link to global state return lis_u; } /* _proxy_serv_accept(): accept new connection. */ static void _proxy_serv_accept(u3_prox* lis_u) { u3_proxy_conn* con_u = _proxy_conn_new(u3_proxy_forward, lis_u); uv_tcp_init(u3L, &con_u->don_u); c3_i sas_i; if ( 0 != (sas_i = uv_accept((uv_stream_t*)&lis_u->sev_u, (uv_stream_t*)&con_u->don_u)) ) { uL(fprintf(uH, "proxy: accept: %s\n", uv_strerror(sas_i))); _proxy_conn_close(con_u); } else { _proxy_peek_read(con_u); } } /* _proxy_serv_listen_cb(): listen callback for proxy server. */ static void _proxy_serv_listen_cb(uv_stream_t* sev_u, c3_i sas_i) { u3_prox* lis_u = (u3_prox*)sev_u; if ( 0 != sas_i ) { uL(fprintf(uH, "proxy: listen_cb: %s\n", uv_strerror(sas_i))); } else { _proxy_serv_accept(lis_u); } } /* _proxy_serv_start(): start reverse TCP proxy server. */ static u3_prox* _proxy_serv_start(u3_prox* lis_u) { uv_tcp_init(u3L, &lis_u->sev_u); struct sockaddr_in add_u; memset(&add_u, 0, sizeof(add_u)); add_u.sin_family = AF_INET; add_u.sin_addr.s_addr = INADDR_ANY; /* Try ascending ports. */ while ( 1 ) { c3_i sas_i; add_u.sin_port = htons(lis_u->por_s); if ( 0 != (sas_i = uv_tcp_bind(&lis_u->sev_u, (const struct sockaddr*)&add_u, 0)) || 0 != (sas_i = uv_listen((uv_stream_t*)&lis_u->sev_u, TCP_BACKLOG, _proxy_serv_listen_cb)) ) { if ( (UV_EADDRINUSE == sas_i) || (UV_EACCES == sas_i) ) { if ( (c3y == lis_u->sec) && (443 == lis_u->por_s) ) { lis_u->por_s = 9443; } else if ( (c3n == lis_u->sec) && (80 == lis_u->por_s) ) { lis_u->por_s = 9080; } else { lis_u->por_s++; } continue; } uL(fprintf(uH, "proxy: listen: %s\n", uv_strerror(sas_i))); _proxy_serv_free(lis_u); return 0; } uL(fprintf(uH, "proxy: live (%s) on %d\n", (c3y == lis_u->sec) ? "secure" : "insecure", lis_u->por_s)); return lis_u; } } /* _proxy_reverse_connect_cb(): connection callback for client of reverse proxy listener */ static void _proxy_reverse_connect_cb(uv_connect_t * upc_u, c3_i sas_i) { u3_proxy_conn* con_u = upc_u->data; if ( 0 != sas_i ) { uL(fprintf(uH, "proxy: reverse connect: %s\n", uv_strerror(sas_i))); _proxy_conn_close(con_u); } else { _proxy_loop_connect(con_u); } free(upc_u); } /* _proxy_reverse_connect(): connect as client to reverse proxy listener */ static void _proxy_reverse_connect(u3_proxy_client* cli_u) { u3_proxy_conn* con_u = _proxy_conn_new(u3_proxy_backward, cli_u); uv_tcp_init(u3L, &con_u->don_u); struct sockaddr_in add_u; memset(&add_u, 0, sizeof(add_u)); add_u.sin_family = AF_INET; add_u.sin_addr.s_addr = htonl(cli_u->ipf_w); add_u.sin_port = htons(cli_u->por_s); uv_connect_t* upc_u = c3_malloc(sizeof(*upc_u)); upc_u->data = con_u; c3_i sas_i; if ( 0 != (sas_i = uv_tcp_connect(upc_u, &con_u->don_u, (const struct sockaddr*)&add_u, _proxy_reverse_connect_cb)) ) { uL(fprintf(uH, "proxy: reverse connect: %s\n", uv_strerror(sas_i))); free(upc_u); _proxy_conn_close(con_u); } } /* _proxy_reverse_resolve(): IP address resolution callback */ static void _proxy_reverse_client_resolve_cb(uv_getaddrinfo_t* adr_u, c3_i sas_i, struct addrinfo* aif_u) { u3_proxy_client* cli_u = adr_u->data; if ( 0 != sas_i ) { uL(fprintf(uH, "proxy: reverse resolve: %s\n", uv_strerror(sas_i))); _proxy_client_free(cli_u); } else { // XX traverse struct a la _ames_czar_cb cli_u->ipf_w = ntohl(((struct sockaddr_in *)aif_u->ai_addr)->sin_addr.s_addr); _proxy_reverse_connect(cli_u); } free(adr_u); uv_freeaddrinfo(aif_u); } /* _proxy_reverse_resolve(): resolve IP address of reverse proxy listener */ static void _proxy_reverse_resolve(u3_proxy_client* cli_u) { uv_getaddrinfo_t* adr_u = c3_malloc(sizeof(*adr_u)); adr_u->data = cli_u; struct addrinfo hin_u; memset(&hin_u, 0, sizeof(struct addrinfo)); hin_u.ai_family = PF_INET; hin_u.ai_socktype = SOCK_STREAM; hin_u.ai_protocol = IPPROTO_TCP; // XX set port? c3_i sas_i; if ( 0 != (sas_i = uv_getaddrinfo(u3L, adr_u, _proxy_reverse_client_resolve_cb, cli_u->hot_c, 0, &hin_u)) ) { _proxy_client_free(cli_u); } } /* u3_http_ef_that(): reverse proxy request notification effect */ void u3_http_ef_that(u3_noun sip, u3_noun por, u3_noun sec) { if( c3n == u3ud(sip) || c3n == u3a_is_cat(por) || !( c3y == sec || c3n == sec ) ) { u3z(sip); u3z(por); u3z(sec); return; } u3_proxy_client* cli_u = _proxy_client_new((u3_atom)sip, (c3_s)por, (c3_o)sec); if ( c3n == u3_Host.ops_u.net ) { cli_u->ipf_w = INADDR_LOOPBACK; _proxy_reverse_connect(cli_u); return; } c3_c* sip_c = u3r_string(u3dc("scot", 'p', u3k(cli_u->sip))); c3_w len_w = 1 + strlen(sip_c) + strlen(u3_Host.ops_u.dns_c); cli_u->hot_c = c3_malloc(len_w); // incremented to skip '~' snprintf(cli_u->hot_c, len_w, "%s.%s", sip_c + 1, u3_Host.ops_u.dns_c); free(sip_c); _proxy_reverse_resolve(cli_u); }