/* v/http.c ** */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "../outside/jhttp/http_parser.h" // Joyent HTTP #include "all.h" #include "v/vere.h" #ifdef U3_OS_osx # pragma GCC diagnostic ignored "-Wdeprecated-declarations" # pragma clang diagnostic ignored "-Wdeprecated-declarations" #endif #define CTTP_NO_PIPELINE /* Forward declarations. */ static void _cttp_ccon_kick(u3_ccon* coc_u); static void _cttp_ccon_cryp_hurr(u3_ccon* coc_u, c3_i rev_i); static void _cttp_ccon_cryp_rout(u3_ccon* coc_u); static void _cttp_ccon_fill(u3_ccon* coc_u); static void _cttp_ccon_fire(u3_ccon* coc_u, u3_creq* ceq_u); static void _cttp_ccon_fail_cb(uv_handle_t* wax_u); static c3_c* _cttp_creq_url(u3_noun pul); /* _cttp_alloc(): libuv buffer allocator. */ static void _cttp_alloc(uv_handle_t* had_u, size_t len_i, uv_buf_t* buf ) { void* ptr_v = c3_malloc(len_i); *buf = uv_buf_init(ptr_v, len_i); } /* _cttp_bod(): create a data buffer. */ static u3_hbod* _cttp_bod(c3_w len_w, const c3_y* hun_y) { u3_hbod* bod_u = c3_malloc(len_w + sizeof(*bod_u)); bod_u->len_w = len_w; memcpy(bod_u->hun_y, hun_y, len_w); bod_u->nex_u = 0; return bod_u; } /* _cttp_bud(): create a header buffer. Not null-terminated! */ static u3_hbod* _cttp_bud(c3_c* nam_c, c3_c* val_c) { c3_w lnm_w = strlen(nam_c); c3_w lvl_w = strlen(val_c); c3_w len_w = lnm_w + 2 + lvl_w + 2; u3_hbod* bod_u = c3_malloc(len_w + sizeof(*bod_u)); strncpy((c3_c *)bod_u->hun_y, nam_c, lnm_w); strncpy((c3_c *)bod_u->hun_y + lnm_w, ": ", 2); strncpy((c3_c *)bod_u->hun_y + lnm_w + 2, val_c, lvl_w); strncpy((c3_c *)bod_u->hun_y + lnm_w + 2 + lvl_w, "\r\n", 2); bod_u->len_w = len_w; bod_u->nex_u = 0; return bod_u; } /* _cttp_heds_to_list(): C headers to list. */ static u3_noun _cttp_heds_to_list(u3_hhed* hed_u) { if ( 0 == hed_u ) { return u3_nul; } else { return u3nc(u3nc(u3i_string(hed_u->nam_c), hed_u->val_c ? u3i_string(hed_u->val_c) : u3_nul), _cttp_heds_to_list(hed_u->nex_u)); } } /* _cttp_heds_free(): free header structure. */ static void _cttp_heds_free(u3_hhed* hed_u) { while ( hed_u ) { u3_hhed* nex_u = hed_u->nex_u; if ( hed_u->nam_c ) free(hed_u->nam_c); if ( hed_u->val_c ) free(hed_u->val_c); free(hed_u); hed_u = nex_u; } } /* _cttp_bods_free(): free body structure. */ static void _cttp_bods_free(u3_hbod* bod_u) { while ( bod_u ) { u3_hbod* nex_u = bod_u->nex_u; free(bod_u); bod_u = nex_u; } } /* _cttp_bods_to_octs: translate body into octet-stream noun. */ static u3_noun _cttp_bods_to_octs(u3_hbod* bod_u) { c3_w len_w; c3_y* buf_y; u3_noun cos; { u3_hbod* bid_u; len_w = 0; for ( bid_u = bod_u; bid_u; bid_u = bid_u->nex_u ) { len_w += bid_u->len_w; } } buf_y = c3_malloc(len_w); { c3_y* ptr_y = buf_y; while ( bod_u ) { memcpy(ptr_y, bod_u->hun_y, bod_u->len_w); ptr_y += bod_u->len_w; bod_u = bod_u->nex_u; } } cos = u3i_bytes(len_w, buf_y); free(buf_y); return u3nc(len_w, cos); } /* _cttp_heds_list(): create headers from list. */ static u3_hhed* _cttp_heds_list(u3_hhed* hed_u, u3_noun nam, u3_noun vaz) { u3_noun viz = vaz; while ( u3_nul != viz ) { u3_hhed* deh_u; deh_u = c3_malloc(sizeof(*deh_u)); deh_u->nam_c = u3r_string(nam); deh_u->val_c = u3r_string(u3h(viz)); deh_u->nex_u = hed_u; hed_u = deh_u; viz = u3t(viz); } u3z(nam); u3z(vaz); return hed_u; } /* _cttp_heds_math(): create headers from noun. */ static u3_hhed* _cttp_heds_math(u3_hhed* hed_u, u3_noun mah) { if ( u3_nul == mah ) { return hed_u; } else { u3_noun n_mah = u3h(mah); u3_noun pn_mah = u3h(n_mah); u3_noun qn_mah = u3t(n_mah); u3_noun l_mah = u3h(u3t(mah)); u3_noun r_mah = u3t(u3t(mah)); hed_u = _cttp_heds_list(hed_u, u3k(pn_mah), u3k(qn_mah)); hed_u = _cttp_heds_math(hed_u, u3k(l_mah)); hed_u = _cttp_heds_math(hed_u, u3k(r_mah)); u3z(mah); return hed_u; } } /* _cttp_octs_to_bod(): translate octet-stream noun into body. */ static u3_hbod* _cttp_octs_to_bod(u3_noun oct) { c3_w len_w; if ( !_(u3a_is_cat(u3h(oct))) ) { // 2GB max u3m_bail(c3__fail); return 0; } len_w = u3h(oct); { u3_hbod* bod_u = c3_malloc(len_w + sizeof(*bod_u)); bod_u->len_w = len_w; u3r_bytes(0, len_w, bod_u->hun_y, u3t(oct)); bod_u->nex_u = 0; u3z(oct); return bod_u; } } /* _cttp_mcut_char(): measure/cut character. */ static c3_w _cttp_mcut_char(c3_c* buf_c, c3_w len_w, c3_c chr_c) { if ( buf_c ) { buf_c[len_w] = chr_c; } return len_w + 1; } /* _cttp_mcut_str(): measure/cut string. */ static c3_w _cttp_mcut_str(c3_c* buf_c, c3_w len_w, const c3_c* str_c) { c3_w str_w = strlen(str_c); if ( buf_c ) { strncpy(buf_c + len_w, str_c, str_w); } return (len_w + str_w); } /* _cttp_mcut_span(): measure/cut span. */ static c3_w _cttp_mcut_span(c3_c* buf_c, c3_w len_w, u3_noun san) { c3_w ten_w = u3r_met(3, san); if ( buf_c ) { u3r_bytes(0, ten_w, (c3_y *)(buf_c + len_w), san); } u3z(san); return (len_w + ten_w); } /* _cttp_mcut_path(): measure/cut span list. */ static c3_w _cttp_mcut_path(c3_c* buf_c, c3_w len_w, c3_c sep_c, u3_noun pax) { u3_noun axp = pax; while ( u3_nul != axp ) { u3_noun h_axp = u3h(axp); len_w = _cttp_mcut_span(buf_c, len_w, u3k(h_axp)); axp = u3t(axp); if ( u3_nul != axp ) { len_w = _cttp_mcut_char(buf_c, len_w, sep_c); } } u3z(pax); return len_w; } /* _cttp_mcut_host(): measure/cut host. */ static c3_w _cttp_mcut_host(c3_c* buf_c, c3_w len_w, u3_noun hot) { if ( c3y == u3h(hot) ) { len_w = _cttp_mcut_path(buf_c, len_w, '.', u3kb_flop(u3k(u3t(hot)))); } else { c3_w ipf_w = u3r_word(0, u3t(hot)); c3_c ipf_c[17]; snprintf(ipf_c, 16, "%d.%d.%d.%d", (ipf_w >> 24), ((ipf_w >> 16) & 255), ((ipf_w >> 8) & 255), (ipf_w & 255)); len_w = _cttp_mcut_str(buf_c, len_w, ipf_c); } u3z(hot); return len_w; } #if 0 /* _cttp_mcut_pfix(): measure/cut prefix. */ static c3_w _cttp_mcut_pfix(c3_c* buf_c, c3_w len_w, u3_noun hat) { u3_noun p_hat = u3h(hat); u3_noun q_hat = u3h(u3t(hat)); u3_noun r_hat = u3t(u3t(hat)); if ( c3y == p_hat ) { len_w = _cttp_mcut_str(buf_c, len_w, "https://"); } else { len_w = _cttp_mcut_str(buf_c, len_w, "http://"); } len_w = _cttp_mcut_host(buf_c, len_w, u3k(r_hat)); if ( u3_nul != q_hat ) { c3_w por_w = 0xffff & u3r_word(0, u3t(q_hat)); c3_c por_c[8]; snprintf(por_c, 7, ":%d", por_w); len_w = _cttp_mcut_str(buf_c, len_w, por_c); } u3z(hat); return len_w; } #endif /* _cttp_mcut_pork(): measure/cut path/extension. */ static c3_w _cttp_mcut_pork(c3_c* buf_c, c3_w len_w, u3_noun pok) { u3_noun h_pok = u3h(pok); u3_noun t_pok = u3t(pok); len_w = _cttp_mcut_path(buf_c, len_w, '/', u3k(t_pok)); if ( u3_nul != h_pok ) { len_w = _cttp_mcut_char(buf_c, len_w, '.'); len_w = _cttp_mcut_span(buf_c, len_w, u3k(u3t(h_pok))); } u3z(pok); return len_w; } /* _cttp_mcut_quay(): measure/cut query. */ static c3_w _cttp_mcut_quay(c3_c* buf_c, c3_w len_w, u3_noun quy) { if ( u3_nul == quy ) { return len_w; } else { u3_noun i_quy = u3h(quy); u3_noun pi_quy = u3h(i_quy); u3_noun qi_quy = u3t(i_quy); u3_noun t_quy = u3t(quy); len_w = _cttp_mcut_char(buf_c, len_w, '&'); len_w = _cttp_mcut_span(buf_c, len_w, u3k(pi_quy)); len_w = _cttp_mcut_char(buf_c, len_w, '='); len_w = _cttp_mcut_span(buf_c, len_w, u3k(qi_quy)); len_w = _cttp_mcut_quay(buf_c, len_w, u3k(t_quy)); } u3z(quy); return len_w; } /* _cttp_mcut_url(): measure/cut purl, producing relative URL. */ static c3_w _cttp_mcut_url(c3_c* buf_c, c3_w len_w, u3_noun pul) { u3_noun q_pul = u3h(u3t(pul)); u3_noun r_pul = u3t(u3t(pul)); // len_w = _cttp_mcut_pfix(buf_c, len_w, u3k(p_pul)); len_w = _cttp_mcut_char(buf_c, len_w, '/'); len_w = _cttp_mcut_pork(buf_c, len_w, u3k(q_pul)); if ( u3_nul != r_pul ) { len_w = _cttp_mcut_char(buf_c, len_w, '?'); len_w = _cttp_mcut_quay(buf_c, len_w, u3k(r_pul)); } u3z(pul); return len_w; } /* _cttp_creq_url(): construct url from noun. */ static c3_c* _cttp_creq_url(u3_noun pul) { c3_w len_w = _cttp_mcut_url(0, 0, u3k(pul)); c3_c* url_c = c3_malloc(len_w + 1); _cttp_mcut_url(url_c, 0, pul); url_c[len_w] = 0; return url_c; } /* _cttp_creq_host(): construct host from noun. */ static c3_c* _cttp_creq_host(u3_noun hot) { c3_w len_w = _cttp_mcut_host(0, 0, u3k(hot)); c3_c* hot_c = c3_malloc(len_w + 1); _cttp_mcut_host(hot_c, 0, hot); hot_c[len_w] = 0; return hot_c; } /* _cttp_httr(): deliver http result. */ static void _cttp_httr(c3_l num_l, c3_w sas_w, u3_noun mes, u3_noun uct) { u3_noun htr = u3nt(sas_w, mes, uct); u3_noun pox = u3nt(u3_blip, c3__http, u3_nul); u3v_plan(pox, u3nt(c3__they, num_l, htr)); } /* _cttp_httr_cres(): deliver valid response. */ static void _cttp_httr_cres(c3_l num_l, u3_cres* res_u) { _cttp_httr (num_l, res_u->sas_w, _cttp_heds_to_list(res_u->hed_u), res_u->bod_u ? u3nc(u3_nul, _cttp_bods_to_octs(res_u->bod_u)) : u3_nul); } /* _cttp_httr_fail(): fail out a request by number. */ static void _cttp_httr_fail(c3_l num_l, c3_c* msg_c) { return _cttp_httr(num_l, 404, u3_nul, u3_nul); } /* _cttp_cres_free(): free a u3_cres. */ static void _cttp_cres_free(u3_cres* res_u) { _cttp_heds_free(res_u->hed_u); _cttp_bods_free(res_u->bod_u); free(res_u->par_u); free(res_u); } /* _cttp_creq_free(): free a u3_creq. */ static void _cttp_creq_free(u3_creq* ceq_u) { _cttp_heds_free(ceq_u->hed_u); _cttp_bods_free(ceq_u->bod_u); if ( ceq_u->res_u ) { _cttp_cres_free(ceq_u->res_u); } free(ceq_u->url_c); free(ceq_u); } /* _cttp_message_begin(): jhttp callback */ static c3_i _cttp_message_begin(http_parser* par_u) { return 0; } /* _cttp_more(): extend string with new data. */ static c3_c* _cttp_more(c3_c* str_c, const c3_c* buf_c, size_t siz_i) { if ( !str_c ) { str_c = c3_malloc(siz_i + 1); memcpy(str_c, buf_c, siz_i); str_c[siz_i] = 0; } else { c3_w len_w = strlen(str_c); str_c = realloc(str_c, len_w + siz_i + 1); memcpy(str_c + len_w, buf_c, siz_i); str_c[len_w + siz_i] = 0; } return str_c; } /* _cttp_url(): jhttp callback */ static c3_i _cttp_url(http_parser* par_u, const c3_c* buf_c, size_t siz_i) { c3_assert(!"what?"); return 0; } /* _cttp_header_field(): jhttp callback */ static c3_i _cttp_header_field(http_parser* par_u, const c3_c* buf_c, size_t siz_i) { u3_creq* ceq_u = par_u->data; u3_cres* res_u = ceq_u->res_u; switch ( res_u->rat_e ) { case u3_hreq_non: case u3_hreq_val: { u3_hhed* hed_u = c3_malloc(sizeof(*hed_u)); hed_u->nam_c = _cttp_more(0, buf_c, siz_i); hed_u->val_c = 0; hed_u->nex_u = res_u->hed_u; res_u->hed_u = hed_u; break; } case u3_hreq_nam: { res_u->hed_u->nam_c = _cttp_more(res_u->hed_u->nam_c, buf_c, siz_i); break; } } res_u->rat_e = u3_hreq_nam; return 0; } /* _cttp_header_value(): jhttp callback */ static c3_i _cttp_header_value(http_parser* par_u, const c3_c* buf_c, size_t siz_i) { u3_creq* ceq_u = par_u->data; u3_cres* res_u = ceq_u->res_u; switch ( res_u->rat_e ) { case u3_hreq_non: fprintf(stderr, "http: odd value\r\n"); return 1; case u3_hreq_nam: { res_u->hed_u->val_c = _cttp_more(0, buf_c, siz_i); break; } case u3_hreq_val: { res_u->hed_u->val_c = _cttp_more(res_u->hed_u->val_c, buf_c, siz_i); break; } } res_u->rat_e = u3_hreq_val; return 0; } /* _cttp_headers_complete(): jhttp callback */ static c3_i _cttp_headers_complete(http_parser* par_u) { return 0; } /* _cttp_body(): jhttp callback */ static c3_i _cttp_body(http_parser* par_u, const c3_c* buf_c, size_t siz_i) { u3_creq* ceq_u = par_u->data; u3_cres* res_u = ceq_u->res_u; u3_hbod* bod_u; bod_u = _cttp_bod(siz_i, (const c3_y*)buf_c); if ( !(res_u->bod_u) ) { res_u->bod_u = res_u->dob_u = bod_u; } else { res_u->dob_u->nex_u = bod_u; res_u->dob_u = bod_u; } return 0; } /* _cttp_message_complete(): jhttp callback */ static c3_i _cttp_message_complete(http_parser* par_u) { u3_creq* ceq_u = par_u->data; u3_ccon* coc_u = ceq_u->coc_u; u3_cres* res_u = ceq_u->res_u; res_u->sas_w = par_u->status_code; // Send response to the event system. // // uL(fprintf(uH, "response for %s: %d\n", ceq_u->url_c, res_u->sas_w)); _cttp_httr_cres(ceq_u->num_l, res_u); _cttp_cres_free(res_u); ceq_u->res_u = 0; coc_u->ceq_u = ceq_u->nex_u; if ( 0 == coc_u->ceq_u ) { c3_assert(ceq_u == coc_u->qec_u); coc_u->qec_u = 0; } if ( c3y == coc_u->sec ) { SSL_shutdown(coc_u->ssl.ssl_u); _cttp_ccon_cryp_rout(coc_u); // uL(fprintf(uH, "cttp: close b: %p\n", coc_u)); uv_close((uv_handle_t*)&coc_u->wax_u, _cttp_ccon_fail_cb); } return 0; } /* _cttp_settings[]: callback array. */ static struct http_parser_settings _cttp_settings = { _cttp_message_begin, _cttp_url, _cttp_header_field, _cttp_header_value, _cttp_headers_complete, _cttp_body, _cttp_message_complete }; /* _cttp_cres_start(): set up new cttp response for creq. */ static void _cttp_cres_start(u3_creq* ceq_u) { u3_cres* res_u = c3_malloc(sizeof(*res_u)); memset(res_u, 0, sizeof(*res_u)); ceq_u->res_u = res_u; res_u->par_u = c3_malloc(sizeof(struct http_parser)); http_parser_init(res_u->par_u, HTTP_RESPONSE); ((struct http_parser *)(res_u->par_u))->data = ceq_u; } /* _cttp_ccon_wax(): connection from wax_u. */ static u3_ccon* _cttp_ccon_wax(uv_tcp_t* wax_u) { u3_ccon* coc_u = 0; return (u3_ccon*)(void *) ( ((c3_y *)(void *)wax_u) - (((c3_y *)(void *)&(coc_u->wax_u)) - ((c3_y *)(void *)(coc_u))) ); } /* _cttp_ccon_cot(): connection from cot_u. */ static u3_ccon* _cttp_ccon_cot(uv_connect_t* cot_u) { u3_ccon* coc_u = 0; return (u3_ccon*)(void *) ( ((c3_y *)(void *)cot_u) - (((c3_y *)(void *)&(coc_u->cot_u)) - ((c3_y *)(void *)(coc_u))) ); } /* _cttp_ccon_adr(): connection from adr_u. */ static u3_ccon* _cttp_ccon_adr(uv_getaddrinfo_t* adr_u) { u3_ccon* coc_u = 0; return (u3_ccon*)(void *) ( ((c3_y *)(void *)adr_u) - (((c3_y *)(void *)&(coc_u->adr_u)) - ((c3_y *)(void *)(coc_u))) ); } /* _cttp_ccon_waste(): fail out whole connection, with message. */ static void _cttp_ccon_waste(u3_ccon* coc_u, c3_c* msg_c) { while ( coc_u->ceq_u ) { u3_creq* ceq_u = coc_u->ceq_u; _cttp_httr_fail(ceq_u->num_l, msg_c); coc_u->ceq_u = ceq_u->nex_u; if ( 0 == coc_u->ceq_u ) { c3_assert(ceq_u == coc_u->qec_u); coc_u->qec_u = 0; } _cttp_creq_free(ceq_u); } free(coc_u->hot_c); _cttp_bods_free(coc_u->rub_u); if ( coc_u->pre_u ) { coc_u->pre_u->nex_u = coc_u->nex_u; } else { u3_Host.ctp_u.coc_u = coc_u->nex_u; } if ( coc_u->nex_u ) { coc_u->nex_u->pre_u = coc_u->pre_u; } if ( coc_u->ssl.ssl_u ) { SSL_free(coc_u->ssl.ssl_u); coc_u->ssl.ssl_u = 0; coc_u->ssl.rio_u = 0; coc_u->ssl.wio_u = 0; } free(coc_u); } /* _cttp_ccon_reset(): reset a live connection. */ void _cttp_ccon_reset(u3_ccon* coc_u) { if ( coc_u->ceq_u ) { _cttp_bods_free(coc_u->rub_u); coc_u->rub_u = coc_u->bur_u = 0; if ( coc_u->ceq_u->res_u ) { _cttp_cres_free(coc_u->ceq_u->res_u); coc_u->ceq_u->res_u = 0; } } else { c3_assert(0 == coc_u->rub_u); } } /* _cttp_ccon_reboot(): stop appropriate I/O on failure case. */ static void _cttp_ccon_reboot(u3_ccon* coc_u) { switch ( coc_u->sat_e ) { default: c3_assert(0); case u3_csat_dead: { /* Failed to resolve an address. Waste it. */ _cttp_ccon_waste(coc_u, "could not resolve address"); break; } case u3_csat_addr: { /* Got an address but not a connection. Waste it. */ _cttp_ccon_waste(coc_u, "connection failed"); break; } case u3_csat_crop: case u3_csat_sing: { /* Got a connection, but SSL failed. Waste it. */ _cttp_ccon_waste(coc_u, "ssl handshake failed"); break; } case u3_csat_cryp: case u3_csat_clyr: { /* We had a connection but it broke. Either there are no ** living requests, in which case waste; otherwise reset. */ if ( 0 == coc_u->ceq_u ) { _cttp_ccon_waste(coc_u, 0); } else { /* Clear any unsent data. */ coc_u->sat_e = u3_csat_dead; _cttp_ccon_reset(coc_u); /* Begin again. */ uL(fprintf(uH, "ccon: rekick\r\n")); _cttp_ccon_kick(coc_u); } break; } } } /* _cttp_ccon_fail_cb(): complete failure. */ static void _cttp_ccon_fail_cb(uv_handle_t* wax_u) { u3_ccon *coc_u = _cttp_ccon_wax((uv_tcp_t*)wax_u); _cttp_ccon_reboot(coc_u); } /* _cttp_ccon_fail(): report failure and reset connection. */ static void _cttp_ccon_fail(u3_ccon* coc_u, u3_noun say) { if ( c3y == say ) { uL(fprintf(uH, "cttp: ERROR\n")); } if ( coc_u->sat_e < u3_csat_crop ) { _cttp_ccon_reboot(coc_u); } else { uL(fprintf(uH, "cttp: close: %p\n", coc_u)); uv_close((uv_handle_t*)&coc_u->wax_u, _cttp_ccon_fail_cb); } } /* _cttp_ccon_kick_resolve_cb(): complete address resolution. */ static void _cttp_ccon_kick_resolve_cb(uv_getaddrinfo_t* adr_u, c3_i sas_i, struct addrinfo* aif_u) { u3_ccon* coc_u = _cttp_ccon_adr(adr_u); c3_assert(u3_csat_dead == coc_u->sat_e); if ( 0 != sas_i ) { _cttp_ccon_fail(coc_u, c3y); } else { coc_u->ipf_w = ntohl(((struct sockaddr_in *)aif_u->ai_addr)-> sin_addr.s_addr); coc_u->sat_e = u3_csat_addr; _cttp_ccon_kick(coc_u); } } /* _cttp_ccon_kick_resolve(): start address resolution. */ static void _cttp_ccon_kick_resolve(u3_ccon* coc_u) { c3_c por_c[8]; struct addrinfo hin_u; c3_assert(u3_csat_dead == coc_u->sat_e); snprintf(por_c, 7, "%d", 65535 & coc_u->por_s); 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; if ( 0 != uv_getaddrinfo(u3L, &coc_u->adr_u, _cttp_ccon_kick_resolve_cb, coc_u->hot_c, por_c, &hin_u) ) { _cttp_ccon_fail(coc_u, c3y); } } /* _cttp_ccon_kick_connect_cb(): connect callback. */ static void _cttp_ccon_kick_connect_cb(uv_connect_t* cot_u, c3_i sas_i) { u3_ccon* coc_u = _cttp_ccon_cot(cot_u); c3_assert(u3_csat_addr == coc_u->sat_e); if ( 0 != sas_i ) { _cttp_ccon_fail(coc_u, c3y); } else { coc_u->sat_e = (c3y == coc_u->sec) ? u3_csat_crop : u3_csat_clyr; _cttp_ccon_kick(coc_u); } } /* _cttp_ccon_kick_connect(): start connect resolution. */ static void _cttp_ccon_kick_connect(u3_ccon* coc_u) { struct sockaddr_in add_u; c3_assert(u3_csat_addr == coc_u->sat_e); if ( 0 != uv_tcp_init(u3L, &coc_u->wax_u) ) { _cttp_ccon_fail(coc_u, c3y); } add_u.sin_family = AF_INET; add_u.sin_port = htons(coc_u->por_s); add_u.sin_addr.s_addr = htonl(coc_u->ipf_w); if ( 0 != uv_tcp_connect(&coc_u->cot_u, &coc_u->wax_u, (const struct sockaddr*) & add_u, _cttp_ccon_kick_connect_cb) ) { _cttp_ccon_fail(coc_u, c3y); } } /* An unusual lameness in libuv. */ typedef struct { uv_write_t wri_u; u3_ccon* coc_u; c3_y* buf_y; } _u3_write_t; /* _cttp_ccon_kick_write_cb(): general write callback */ static void _cttp_ccon_kick_write_cb(uv_write_t* wri_u, c3_i sas_i) { u3_lo_open(); { _u3_write_t* ruq_u = (void *)wri_u; if ( 0 != sas_i ) { _cttp_ccon_fail(ruq_u->coc_u, c3y); } free(ruq_u->buf_y); free(ruq_u); } u3_lo_shut(c3n); } /* _cttp_ccon_kick_write() */ static void _cttp_ccon_kick_write_cryp(u3_ccon* coc_u) { if ( NULL == coc_u->ssl.ssl_u ) { c3_assert(!"ssl_u is null\r\n"); } if ( !SSL_is_init_finished(coc_u->ssl.ssl_u)) { return; } while ( coc_u->rub_u ) { u3_hbod* rub_u = coc_u->rub_u; c3_i rev_i; coc_u->rub_u = coc_u->rub_u->nex_u; if ( 0 == coc_u->rub_u ) { c3_assert(rub_u == coc_u->bur_u); coc_u->bur_u = 0; } if ( 0 > (rev_i = SSL_write(coc_u->ssl.ssl_u, rub_u->hun_y, rub_u->len_w)) ) { _cttp_ccon_cryp_hurr(coc_u, rev_i); _cttp_ccon_cryp_rout(coc_u); } } } /* _cttp_ccon_kick_write_buf(): transmit buffer. */ static void _cttp_ccon_kick_write_buf(u3_ccon* coc_u, uv_buf_t buf_u) { _u3_write_t* ruq_u = (_u3_write_t*) c3_malloc(sizeof(_u3_write_t)); ruq_u->coc_u = coc_u; ruq_u->buf_y = (c3_y*)buf_u.base; if ( 0 != uv_write(&ruq_u->wri_u, (uv_stream_t*)&(coc_u->wax_u), &buf_u, 1, _cttp_ccon_kick_write_cb) ) { _cttp_ccon_fail(coc_u, c3y); } } /* _cttp_ccon_kick_write_body(): attach response body. */ static void _cttp_ccon_kick_write_body(u3_ccon* coc_u, u3_hbod *rub_u) { uv_buf_t buf_u; // XX extra copy here due to old code. Use hbod as base directly. // { c3_y* buf_y = c3_malloc(rub_u->len_w + 1); memcpy(buf_y, rub_u->hun_y, rub_u->len_w); buf_y[rub_u->len_w] = 0; // write(1, buf_y, rub_u->len_w); buf_u = uv_buf_init((c3_c*)buf_y, rub_u->len_w); } _cttp_ccon_kick_write_buf(coc_u, buf_u); } /* _cttp_ccon_kick_write() */ static void _cttp_ccon_kick_write(u3_ccon* coc_u) { while ( coc_u->rub_u ) { u3_hbod* rub_u = coc_u->rub_u; coc_u->rub_u = coc_u->rub_u->nex_u; if ( 0 == coc_u->rub_u ) { c3_assert(rub_u == coc_u->bur_u); coc_u->bur_u = 0; } _cttp_ccon_kick_write_body(coc_u, rub_u); } } /* _cttp_ccon_cryp_rout: write the SSL buffer to the network */ static void _cttp_ccon_cryp_rout(u3_ccon* coc_u) { uv_buf_t buf_u; c3_i bur_i; { c3_y* buf_y = c3_malloc(1<<14); while ( 0 < (bur_i = BIO_read(coc_u->ssl.wio_u, buf_y, 1<<14)) ) { buf_u = uv_buf_init((c3_c*)buf_y, bur_i); _cttp_ccon_kick_write_buf(coc_u, buf_u); } } } /* _cttp_ccon_cryp_hurr: handle SSL errors */ static void _cttp_ccon_cryp_hurr(u3_ccon* coc_u, int rev) { u3_sslx* ssl = &coc_u->ssl; c3_i err = SSL_get_error(ssl->ssl_u, rev); switch ( err ) { default: fprintf(stderr, "cttp: wasted: %p\r\n", coc_u->ssl.ssl_u); _cttp_ccon_waste(coc_u, "ssl lost"); break; case SSL_ERROR_NONE: case SSL_ERROR_ZERO_RETURN: break; case SSL_ERROR_WANT_WRITE: // XX maybe bad break; case SSL_ERROR_WANT_READ: _cttp_ccon_cryp_rout(coc_u); break; case SSL_ERROR_WANT_CONNECT: fprintf(stderr, "cttp: want connect: %p\r\n", coc_u->ssl.ssl_u); break; case SSL_ERROR_WANT_ACCEPT: fprintf(stderr, "cttp: want accept: %p\r\n", coc_u->ssl.ssl_u); break; case SSL_ERROR_WANT_X509_LOOKUP: fprintf(stderr, "cttp: want x509 lookup: %p\r\n", coc_u->ssl.ssl_u); break; case SSL_ERROR_SYSCALL: fprintf(stderr, "cttp: syscall: %p\r\n", coc_u->ssl.ssl_u); break; case SSL_ERROR_SSL: fprintf(stderr, "cttp: error_ssl: %p\r\n", coc_u->ssl.ssl_u); c3_i err; while ( 0 != (err = ERR_get_error()) ) { c3_c ero[500]; ERR_error_string_n(err, ero, 500); fprintf(stderr, "error code: %x\r\n%s\r\n", err, ero); } break; } } /* _cttp_ccon_pars_shov: shove a data buffer into the parser */ static void _cttp_ccon_pars_shov(u3_ccon* coc_u, void* buf_u, ssize_t siz_i) { u3_creq* ceq_u = coc_u->ceq_u; if ( !ceq_u ) { // spurious input uL(fprintf(uH, "http: response to no request\n")); } else { if ( !ceq_u->res_u ) { _cttp_cres_start(ceq_u); } if ( siz_i != http_parser_execute(ceq_u->res_u->par_u, &_cttp_settings, (c3_c*)buf_u, siz_i) ) { uL(fprintf(uH, "http: parse error\n")); _cttp_ccon_fail(coc_u, c3n); } } } /* _cttp_ccon_cryp_pull(): pull cleartext data off of the SSL buffer */ static void _cttp_ccon_cryp_pull(u3_ccon* coc_u) { if ( SSL_is_init_finished(coc_u->ssl.ssl_u) ) { static c3_c buf[1<<14]; c3_i ruf; while ( 0 < (ruf = SSL_read(coc_u->ssl.ssl_u, &buf, sizeof(buf))) ) { _cttp_ccon_pars_shov(coc_u, &buf, ruf); } if ( 0 >= ruf ) { _cttp_ccon_cryp_hurr(coc_u, ruf); } } else { // not connected ERR_clear_error(); c3_i r = SSL_connect(coc_u->ssl.ssl_u); if ( 0 > r ) { _cttp_ccon_cryp_hurr(coc_u, r); } else { coc_u->sat_e = u3_csat_cryp; _cttp_ccon_kick(coc_u); } } _cttp_ccon_kick_write_cryp(coc_u); } /* * `nread` (siz_w) is > 0 if there is data available, 0 if libuv is done reading for * now, or < 0 on error. * * The callee is responsible for closing the stream when an error happens * by calling uv_close(). Trying to read from the stream again is undefined. * * The callee is responsible for freeing the buffer, libuv does not reuse it. * The buffer may be a null buffer (where buf->base=NULL and buf->len=0) on * error. */ static void _cttp_ccon_kick_read_cryp_cb(uv_stream_t* tcp_u, ssize_t siz_w, const uv_buf_t * buf_u) { u3_ccon *coc_u = _cttp_ccon_wax((uv_tcp_t*)tcp_u); u3_lo_open(); { if ( siz_w == UV_EOF ) { _cttp_ccon_fail(coc_u, c3n); } else if ( siz_w < 0 ) { uL(fprintf(uH, "cttp: read 2: %s\n", uv_strerror(siz_w))); _cttp_ccon_fail(coc_u, c3y); } else { u3_creq* ceq_u = coc_u->ceq_u; if ( !ceq_u ) { // spurious input uL(fprintf(uH, "http: response to no request\n")); } else { BIO_write(coc_u->ssl.rio_u, (c3_c*)buf_u->base, siz_w); _cttp_ccon_cryp_pull(coc_u); } } if ( buf_u->base ) { free(buf_u->base); } } u3_lo_shut(c3y); } /* _cttp_ccon_read_clyr_cb() */ /* * `nread` (siz_w) is > 0 if there is data available, 0 if libuv is done reading for * now, or < 0 on error. * * The callee is responsible for closing the stream when an error happens * by calling uv_close(). Trying to read from the stream again is undefined. * * The callee is responsible for freeing the buffer, libuv does not reuse it. * The buffer may be a null buffer (where buf->base=NULL and buf->len=0) on * error. */ static void _cttp_ccon_kick_read_clyr_cb(uv_stream_t* tcp_u, ssize_t siz_w, const uv_buf_t * buf_u) { u3_ccon *coc_u = _cttp_ccon_wax((uv_tcp_t*)tcp_u); u3_lo_open(); { if ( siz_w == UV_EOF ) { _cttp_ccon_fail(coc_u, c3n); } else if ( siz_w < 0 ) { uL(fprintf(uH, "cttp: read 1: %s\n", uv_strerror(siz_w))); _cttp_ccon_fail(coc_u, c3y); } else { _cttp_ccon_pars_shov(coc_u, buf_u->base, siz_w); } if ( buf_u->base ) { free(buf_u->base); } } u3_lo_shut(c3y); } /* _cttp_ccon_kick_read_clyr(): start reading on insecure socket. */ static void _cttp_ccon_kick_read_clyr(u3_ccon* coc_u) { uv_read_start((uv_stream_t*)&coc_u->wax_u, _cttp_alloc, _cttp_ccon_kick_read_clyr_cb); } /* _cttp_ccon_kick_read_cryp(): start reading on secure socket. */ static void _cttp_ccon_kick_read_cryp(u3_ccon* coc_u) { uv_read_start((uv_stream_t*)&coc_u->wax_u, _cttp_alloc, _cttp_ccon_kick_read_cryp_cb); } /* _cttp_ccon_kick_handshake(): start ssl handshake. */ static void _cttp_ccon_kick_handshake(u3_ccon* coc_u) { coc_u->ssl.ssl_u = SSL_new(u3S); c3_assert(coc_u->ssl.ssl_u); coc_u->ssl.rio_u = BIO_new(BIO_s_mem()); c3_assert(coc_u->ssl.rio_u); coc_u->ssl.wio_u = BIO_new(BIO_s_mem()); c3_assert(coc_u->ssl.wio_u); BIO_set_nbio(coc_u->ssl.rio_u, 1); BIO_set_nbio(coc_u->ssl.wio_u, 1); SSL_set_bio(coc_u->ssl.ssl_u, coc_u->ssl.rio_u, coc_u->ssl.wio_u); SSL_set_connect_state(coc_u->ssl.ssl_u); c3_i r = SSL_do_handshake(coc_u->ssl.ssl_u); if ( 0 > r ) { _cttp_ccon_cryp_hurr(coc_u, r); } else { coc_u->sat_e = u3_csat_cryp; _cttp_ccon_kick(coc_u); } coc_u->sat_e = u3_csat_sing; _cttp_ccon_kick(coc_u); } /* _cttp_ccon_kick(): start appropriate I/O on client connection. */ static void _cttp_ccon_kick(u3_ccon* coc_u) { if ( 0 == coc_u->ceq_u ) { return; } switch ( coc_u->sat_e ) { default: c3_assert(0); case u3_csat_dead: { _cttp_ccon_kick_resolve(coc_u); break; } case u3_csat_addr: { _cttp_ccon_kick_connect(coc_u); break; } case u3_csat_crop: { _cttp_ccon_kick_handshake(coc_u); break; } case u3_csat_sing: { _cttp_ccon_kick_read_cryp(coc_u); _cttp_ccon_cryp_pull(coc_u); break; } case u3_csat_cryp: { _cttp_ccon_fill(coc_u); if ( coc_u->rub_u ) { _cttp_ccon_kick_write_cryp(coc_u); } _cttp_ccon_cryp_pull(coc_u); break; } case u3_csat_clyr: { _cttp_ccon_fill(coc_u); if ( coc_u->rub_u ) { _cttp_ccon_kick_write(coc_u); } _cttp_ccon_kick_read_clyr(coc_u); break; } } } /* _cttp_ccon_new(): create client connection. Return 0 if url invalid. */ static u3_ccon* _cttp_ccon_new(u3_noun sec, c3_s por_s, c3_c* hot_c) { u3_ccon* coc_u = c3_malloc(sizeof(u3_ccon)); memset(coc_u, 0, sizeof(u3_ccon)); coc_u->por_s = por_s; coc_u->hot_c = hot_c; coc_u->sec = sec; coc_u->pre_u = 0; coc_u->nex_u = 0; if ( u3_Host.ctp_u.coc_u ) { coc_u->nex_u = u3_Host.ctp_u.coc_u; u3_Host.ctp_u.coc_u->pre_u = coc_u; } u3_Host.ctp_u.coc_u = coc_u; return coc_u; } #ifndef CTTP_NO_PIPELINE /* _cttp_ccon_find(): find existing connection for remote server. */ static u3_ccon* _cttp_ccon_find(u3_noun sec, c3_s por_s, c3_c* hot_c) { u3_ccon* coc_u; /* XX: linear search. */ for ( coc_u = u3_Host.ctp_u.coc_u; coc_u; coc_u = coc_u->nex_u ) { if ( !strcmp(hot_c, coc_u->hot_c) && (por_s == coc_u->por_s) ) { return coc_u; } } return 0; } #endif /* _cttp_ccon(): create or find persistent client connection. */ static u3_ccon* _cttp_ccon(u3_noun sec, c3_s por_s, c3_c* hot_c) { #ifndef CTTP_NO_PIPELINE u3_ccon* coc_c = _cttp_ccon_find(sec, por_s, hot_c); if ( 0 != coc_c ) { free(hot_c); return coc_c; } else #endif return _cttp_ccon_new(sec, por_s, hot_c); } /* _cttp_creq(): cttp request from noun. */ static u3_creq* _cttp_creq_new(c3_l num_l, u3_noun hes) { u3_creq* ceq_u = c3_malloc(sizeof(u3_creq)); u3_noun pul = u3h(hes); u3_noun hat = u3h(pul); u3_noun sec = u3h(hat); u3_noun pus = u3h(u3t(hat)); u3_noun hot = u3t(u3t(hat)); u3_noun moh = u3t(hes); u3_noun meh = u3h(moh); u3_noun mah = u3h(u3t(moh)); u3_noun moc = u3t(u3t(moh)); memset(ceq_u, 0, sizeof(*ceq_u)); ceq_u->num_l = num_l; ceq_u->sec = sec; ceq_u->por_s = (u3_nul == pus) ? ( (c3y == sec) ? 443 : 80 ) : u3t(pus); ceq_u->hot_c = _cttp_creq_host(u3k(hot)); // XX duplicate work with url ceq_u->url_c = _cttp_creq_url(u3k(pul)); // uL(fprintf(uH, "requesting %s\n", ceq_u->url_c)); switch ( meh ) { default: c3_assert(0); case c3__delt: ceq_u->met_e = u3_hmet_delete; break; case c3__get: ceq_u->met_e = u3_hmet_get; break; case c3__head: ceq_u->met_e = u3_hmet_head; break; case c3__post: ceq_u->met_e = u3_hmet_post; break; case c3__put: ceq_u->met_e = u3_hmet_put; break; } ceq_u->hed_u = _cttp_heds_math(0, u3k(mah)); if ( u3_nul == moc ) { ceq_u->bod_u = 0; } else { ceq_u->bod_u = _cttp_octs_to_bod(u3k(u3t(moc))); } ceq_u->nex_u = 0; u3z(hes); return ceq_u; } /* _cttp_ccon_fire_body(): attach body to request buffers. */ static void _cttp_ccon_fire_body(u3_ccon* coc_u, u3_hbod *rub_u) { if ( !(coc_u->rub_u) ) { coc_u->rub_u = coc_u->bur_u = rub_u; } else { coc_u->bur_u->nex_u = rub_u; coc_u->bur_u = rub_u; } } /* _cttp_ccon_fire_str(): attach string to request buffers. */ static void _cttp_ccon_fire_str(u3_ccon* coc_u, const c3_c* str_c) { _cttp_ccon_fire_body(coc_u, _cttp_bod(strlen(str_c), (const c3_y*)str_c)); } /* _cttp_ccon_fire_heds(): attach output headers. */ static void _cttp_ccon_fire_heds(u3_ccon* coc_u, u3_hhed* hed_u) { while ( hed_u ) { _cttp_ccon_fire_body(coc_u, _cttp_bud(hed_u->nam_c, hed_u->val_c)); hed_u = hed_u->nex_u; } } /* _cttp_ccon_fire(): load request data for into buffers. */ static void _cttp_ccon_fire(u3_ccon* coc_u, u3_creq* ceq_u) { switch ( ceq_u->met_e ) { default: c3_assert(0); case u3_hmet_nop: c3_assert(0); break; // XX case u3_hmet_delete: _cttp_ccon_fire_str(coc_u, "DELETE "); break; case u3_hmet_get: _cttp_ccon_fire_str(coc_u, "GET "); break; case u3_hmet_head: _cttp_ccon_fire_str(coc_u, "HEAD "); break; case u3_hmet_post: _cttp_ccon_fire_str(coc_u, "POST "); break; case u3_hmet_put: _cttp_ccon_fire_str(coc_u, "PUT "); break; } _cttp_ccon_fire_str(coc_u, ceq_u->url_c); _cttp_ccon_fire_str(coc_u, " HTTP/1.1\r\n"); _cttp_ccon_fire_str(coc_u, "User-Agent: urbit/vere.0.2\r\n"); _cttp_ccon_fire_str(coc_u, "Accept: */*\r\n"); // XX it's more painful than it's worth to deal with SSL+Keepalive if ( c3n == coc_u->sec ) { _cttp_ccon_fire_str(coc_u, "Connection: Keep-Alive\r\n"); } _cttp_ccon_fire_body(coc_u, _cttp_bud("Host", ceq_u->hot_c)); _cttp_ccon_fire_heds(coc_u, ceq_u->hed_u); if ( !ceq_u->bod_u ) { _cttp_ccon_fire_str(coc_u, "\r\n"); } else { c3_c buf_c[81]; snprintf(buf_c, 80, "content-length: %u\r\n", ceq_u->bod_u->len_w); _cttp_ccon_fire_str(coc_u, buf_c); _cttp_ccon_fire_str(coc_u, "\r\n"); _cttp_ccon_fire_body(coc_u, ceq_u->bod_u); } } /* _cttp_ccon_fill(): fill send pipeline as far as possible. */ static void _cttp_ccon_fill(u3_ccon* coc_u) { u3_creq* ceq_u = coc_u->ceq_u; u3_noun fir_t = c3y; while ( ceq_u ) { // // Fun POST handling. To minimize the likelihood that // a connection accident will disrupt a POST (it can't // be utterly ruled out, because POST sucks), we ensure // that there is always some request queued above the // POST. To do this, we always throw in a NOP before XX should // the POST. But if there is actually something real // before the POST, we don't need it. // // So before a POST, there is always a sequence of // idempotent requests, or if nothing else NOT, whose // completion directly triggers the POST. This way, // it's very unlikely for idling to break a POST. // // Extend for any other non-idempotent method (XX add). // if ( (c3n == fir_t) && (u3_hmet_nop == ceq_u->met_e) ) { ceq_u = ceq_u->nex_u; continue; } if ( (c3n == fir_t) && (u3_hmet_post == ceq_u->met_e) ) { return; } fir_t = c3n; _cttp_ccon_fire(coc_u, ceq_u); ceq_u = ceq_u->nex_u; } } /* _cttp_ccon_send(): add I/O operation. */ static void _cttp_ccon_send(u3_ccon* coc_u, u3_creq* ceq_u) { u3_noun nou = ((0 == coc_u->ceq_u) ? c3y : c3n); if ( c3y == nou ) { c3_assert(0 == coc_u->qec_u); coc_u->ceq_u = coc_u->qec_u = ceq_u; _cttp_ccon_kick(coc_u); } else { c3_assert(0 != coc_u->qec_u); coc_u->qec_u->nex_u = ceq_u; coc_u->qec_u = ceq_u; } } /* u3_cttp_ef_thus(): send %thus effect (outgoing request) to cttp. */ void u3_cttp_ef_thus(c3_l num_l, u3_noun cuq) { if ( u3_nul == cuq ) { uL(fprintf(uH, "thus: cancel?\n")); } else { u3_creq* ceq_u = _cttp_creq_new(num_l, u3k(u3t(cuq))); u3_ccon* coc_u = _cttp_ccon(ceq_u->sec, ceq_u->por_s, ceq_u->hot_c); ceq_u->coc_u = coc_u; _cttp_ccon_send(coc_u, ceq_u); } u3z(cuq); } /* u3_cttp_io_init(): initialize http client I/O. */ void u3_cttp_io_init() { c3_i rad; c3_y buf[4096]; u3_Host.ctp_u.coc_u = 0; SSL_library_init(); SSL_load_error_strings(); u3_Host.ssl_u = SSL_CTX_new(TLSv1_client_method()); SSL_CTX_set_options(u3S, SSL_OP_NO_SSLv2); SSL_CTX_set_verify(u3S, SSL_VERIFY_PEER, NULL); SSL_CTX_set_default_verify_paths(u3S); // if ( 0 == SSL_CTX_load_verify_locations(u3S, // "/etc/ssl/certs/ca-certificates.crt", NULL) ) { // fprintf(stderr, "\tload-error\r\n"); // } else { // fprintf(stderr, "\tload-good\r\n"); // } SSL_CTX_set_session_cache_mode(u3S, SSL_SESS_CACHE_OFF); SSL_CTX_set_cipher_list(u3S, "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"); // RAND_status, at least on OS X, never returns true. // 4096 bytes should be enough entropy for anyone, right? rad = open("/dev/urandom", O_RDONLY); if ( 4096 != read(rad, &buf, 4096) ) { perror("rand-seed"); exit(1); } RAND_seed(buf, 4096); close(rad); } /* u3_cttp_io_poll(): poll kernel for cttp I/O. */ void u3_cttp_io_poll(void) { } /* u3_cttp_io_exit(): shut down cttp. */ void u3_cttp_io_exit(void) { SSL_CTX_free(u3S); }