/* vere/dawn.c ** ** ethereum-integrated pre-boot validation */ #include #include #include "all.h" #include "vere/vere.h" /* _dawn_oct_to_buf(): +octs to uv_buf_t */ static uv_buf_t _dawn_oct_to_buf(u3_noun oct) { if ( c3n == u3a_is_cat(u3h(oct)) ) { u3_lo_bail(); } c3_w len_w = u3h(oct); c3_y* buf_y = c3_malloc(1 + len_w); buf_y[len_w] = 0; u3r_bytes(0, len_w, buf_y, u3t(oct)); u3z(oct); return uv_buf_init((void*)buf_y, len_w); } /* _dawn_buf_to_oct(): uv_buf_t to +octs */ static u3_noun _dawn_buf_to_oct(uv_buf_t buf_u) { u3_noun len = u3i_words(1, (c3_w*)&buf_u.len); if ( c3n == u3a_is_cat(len) ) { u3_lo_bail(); } return u3nc(len, u3i_bytes(buf_u.len, (const c3_y*)buf_u.base)); } /* _dawn_curl_alloc(): allocate a response buffer for curl */ static size_t _dawn_curl_alloc(void* dat_v, size_t uni_t, size_t mem_t, uv_buf_t* buf_u) { size_t siz_t = uni_t * mem_t; buf_u->base = c3_realloc(buf_u->base, 1 + siz_t + buf_u->len); memcpy(buf_u->base + buf_u->len, dat_v, siz_t); buf_u->len += siz_t; buf_u->base[buf_u->len] = 0; return siz_t; } /* _dawn_post_json(): POST JSON to url_c */ static uv_buf_t _dawn_post_json(c3_c* url_c, uv_buf_t lod_u) { CURL *curl; CURLcode result; long cod_l; struct curl_slist* hed_u = 0; uv_buf_t buf_u = uv_buf_init(c3_malloc(1), 0); if ( !(curl = curl_easy_init()) ) { fprintf(stderr, "failed to initialize libcurl\n"); u3_lo_bail(); } hed_u = curl_slist_append(hed_u, "Accept: application/json"); hed_u = curl_slist_append(hed_u, "Content-Type: application/json"); hed_u = curl_slist_append(hed_u, "charsets: utf-8"); // XX require TLS, pin default cert? curl_easy_setopt(curl, CURLOPT_URL, url_c); curl_easy_setopt(curl, CURLOPT_WRITEFUNCTION, _dawn_curl_alloc); curl_easy_setopt(curl, CURLOPT_WRITEDATA, (void*)&buf_u); curl_easy_setopt(curl, CURLOPT_HTTPHEADER, hed_u); // note: must be terminated! curl_easy_setopt(curl, CURLOPT_POSTFIELDS, lod_u.base); result = curl_easy_perform(curl); curl_easy_getinfo(curl, CURLINFO_RESPONSE_CODE, &cod_l); // XX retry? if ( CURLE_OK != result ) { fprintf(stderr, "failed to fetch %s: %s\n", url_c, curl_easy_strerror(result)); u3_lo_bail(); } if ( 300 <= cod_l ) { fprintf(stderr, "error fetching %s: HTTP %ld\n", url_c, cod_l); u3_lo_bail(); } curl_easy_cleanup(curl); curl_slist_free_all(hed_u); return buf_u; } /* _dawn_get_jam(): GET a jammed noun from url_c */ static u3_noun _dawn_get_jam(c3_c* url_c) { CURL *curl; CURLcode result; long cod_l; uv_buf_t buf_u = uv_buf_init(c3_malloc(1), 0); if ( !(curl = curl_easy_init()) ) { fprintf(stderr, "failed to initialize libcurl\n"); u3_lo_bail(); } // XX require TLS, pin default cert? curl_easy_setopt(curl, CURLOPT_URL, url_c); curl_easy_setopt(curl, CURLOPT_WRITEFUNCTION, _dawn_curl_alloc); curl_easy_setopt(curl, CURLOPT_WRITEDATA, (void*)&buf_u); result = curl_easy_perform(curl); curl_easy_getinfo(curl, CURLINFO_RESPONSE_CODE, &cod_l); // XX retry? if ( CURLE_OK != result ) { fprintf(stderr, "failed to fetch %s: %s\n", url_c, curl_easy_strerror(result)); u3_lo_bail(); } if ( 300 <= cod_l ) { fprintf(stderr, "error fetching %s: HTTP %ld\n", url_c, cod_l); u3_lo_bail(); } curl_easy_cleanup(curl); // throw away the length from the octs // u3_noun octs = _dawn_buf_to_oct(buf_u); u3_noun jammed = u3k(u3t(octs)); u3z(octs); return u3ke_cue(jammed); } /* _dawn_eth_rpc(): ethereum JSON RPC with request/response as +octs */ static u3_noun _dawn_eth_rpc(c3_c* url_c, u3_noun oct) { return _dawn_buf_to_oct(_dawn_post_json(url_c, _dawn_oct_to_buf(oct))); } /* _dawn_fail(): pre-boot validation failed */ static void _dawn_fail(u3_noun who, u3_noun rac, u3_noun sas) { u3_noun how = u3dc("scot", 'p', u3k(who)); c3_c* how_c = u3r_string(u3k(how)); c3_c* rac_c; switch (rac) { default: c3_assert(0); case c3__czar: { rac_c = "galaxy"; break; } case c3__king: { rac_c = "star"; break; } case c3__duke: { rac_c = "planet"; break; } case c3__earl: { rac_c = "moon"; break; } case c3__pawn: { rac_c = "comet"; break; } } fprintf(stderr, "dawn: invalid keys for %s '%s'\r\n", rac_c, how_c); // XX deconstruct sas, print helpful error messages u3m_p("pre-boot error", u3t(sas)); u3z(how); free(how_c); u3_lo_bail(); } /* _dawn_need_unit(): produce a value or print error and exit */ static u3_noun _dawn_need_unit(u3_noun nit, c3_c* msg_c) { if ( u3_nul == nit ) { fprintf(stderr, "%s\r\n", msg_c); // bails, won't return u3_lo_bail(); return u3_none; } else { u3_noun pro = u3k(u3t(nit)); u3z(nit); return pro; } } /* _dawn_purl(): ethereum gateway url as (unit purl) */ static u3_noun _dawn_purl(u3_noun rac) { u3_noun url; if ( 0 == u3_Host.ops_u.eth_c ) { if ( c3__czar == rac ) { fprintf(stderr, "boot: galaxy requires ethereum gateway via -e\r\n"); u3_lo_bail(); } url = u3_nul; } else { // XX call de-purl directly // u3_noun par = u3v_wish("auru:de-purl:html"); u3_noun lur = u3i_string(u3_Host.ops_u.eth_c); u3_noun rul = u3dc("rush", u3k(lur), u3k(par)); if ( u3_nul == rul ) { if ( c3__czar == rac ) { fprintf(stderr, "boot: galaxy requires ethereum gateway via -e\r\n"); u3_lo_bail(); } url = u3_nul; } else { // XX revise for de-purl // auru:de-purl:html parses to (pair user purl) // we need (unit purl) // url = u3nc(u3_nul, u3k(u3t(u3t(rul)))); } u3z(par); u3z(lur); u3z(rul); } return url; } /* _dawn_turf(): override contract domains with -H */ static u3_noun _dawn_turf(c3_c* dns_c) { u3_noun tuf; u3_noun par = u3v_wish("thos:de-purl:html"); u3_noun dns = u3i_string(dns_c); u3_noun rul = u3dc("rush", u3k(dns), u3k(par)); if ( (u3_nul == rul) || (c3n == u3h(u3t(rul))) ) { fprintf(stderr, "boot: invalid domain specified with -H %s\r\n", dns_c); // bails, won't return u3_lo_bail(); return u3_none; } else { fprintf(stderr, "boot: overriding network domains with %s\r\n", dns_c); u3_noun dom = u3t(u3t(rul)); tuf = u3nc(u3k(dom), u3_nul); } u3z(par); u3z(dns); u3z(rul); return tuf; } /* u3_dawn_vent(): validated boot event */ u3_noun u3_dawn_vent(u3_noun seed) { u3_noun url, bok, pon, zar, tuf, sap; u3_noun ship = u3h(seed); u3_noun rank = u3do("clan:title", u3k(ship)); // load snapshot from file // if ( 0 != u3_Host.ops_u.ets_c ) { fprintf(stderr, "boot: loading ethereum snapshot\r\n"); u3_noun raw_snap = u3ke_cue(u3m_file(u3_Host.ops_u.ets_c)); sap = u3nc(u3_nul, raw_snap); } // load snapshot from HTTP URL // else if ( 0 != u3_Host.ops_u.sap_c ) { u3_noun raw_snap = _dawn_get_jam(u3_Host.ops_u.sap_c); sap = u3nc(u3_nul, raw_snap); } // no snapshot // else { printf("dawn: no ethereum snapshot specified\n"); sap = u3_nul; } url = _dawn_purl(rank); // XX require https? // c3_c* url_c = ( 0 != u3_Host.ops_u.eth_c ) ? u3_Host.ops_u.eth_c : "https://mainnet.infura.io/v3/196a7f37c7d54211b4a07904ec73ad87"; // pin block number // if ( c3y == u3_Host.ops_u.etn ) { fprintf(stderr, "boot: extracting block from snapshot\r\n"); bok = _dawn_need_unit(u3do("bloq:snap:dawn", u3k(u3t(sap))), "boot: failed to extract " "block from snapshot"); } else { fprintf(stderr, "boot: retrieving latest block\r\n"); u3_noun oct = u3v_wish("bloq:give:dawn"); u3_noun kob = _dawn_eth_rpc(url_c, u3k(oct)); bok = _dawn_need_unit(u3do("bloq:take:dawn", u3k(kob)), "boot: block retrieval failed"); u3z(oct); u3z(kob); } { // +point:azimuth: on-chain state // u3_noun pot; if ( c3y == u3_Host.ops_u.etn ) { fprintf(stderr, "boot: extracting public keys from snapshot\r\n"); pot = _dawn_need_unit(u3dc("point:snap:dawn", u3k(ship), u3k(u3t(sap))), "boot: failed to extract " "public keys from snapshot"); } else if ( c3__pawn == rank ) { // irrelevant, just bunt +point // pot = u3v_wish("*point:azimuth"); } else { u3_noun who; if ( c3__earl == rank ) { who = u3do("^sein:title", u3k(ship)); { u3_noun seg = u3dc("scot", 'p', u3k(who)); c3_c* seg_c = u3r_string(seg); fprintf(stderr, "boot: retrieving %s's public keys (for %s)\r\n", seg_c, u3_Host.ops_u.who_c); free(seg_c); u3z(seg); } } else { who = u3k(ship); fprintf(stderr, "boot: retrieving %s's public keys\r\n", u3_Host.ops_u.who_c); } { u3_noun oct = u3dc("point:give:dawn", u3k(bok), u3k(who)); u3_noun luh = _dawn_eth_rpc(url_c, u3k(oct)); pot = _dawn_need_unit(u3dc("point:take:dawn", u3k(ship), u3k(luh)), "boot: failed to retrieve public keys"); u3z(oct); u3z(luh); } u3z(who); } // +live:dawn: network state // XX actually make request // u3_noun liv = u3_nul; // u3_noun liv = _dawn_get_json(parent, /some/url) fprintf(stderr, "boot: verifying keys\r\n"); // (each sponsor=ship error=@tas) // u3_noun sas = u3dt("veri:dawn", u3k(seed), u3k(pot), u3k(liv)); if ( c3n == u3h(sas) ) { // bails, won't return _dawn_fail(ship, rank, sas); return u3_none; } // ship: sponsor // produced by +veri:dawn to avoid coupling to +point structure // XX reconsider // pon = u3k(u3t(sas)); u3z(pot); u3z(liv); u3z(sas); } // (map ship [=life =pass]): galaxy table // if ( c3y == u3_Host.ops_u.etn ) { fprintf(stderr, "boot: extracting galaxy table from snapshot\r\n"); zar = _dawn_need_unit(u3do("czar:snap:dawn", u3k(u3t(sap))), "boot: failed to extract " "galaxy table from snapshot"); } else { fprintf(stderr, "boot: retrieving galaxy table\r\n"); u3_noun oct = u3do("czar:give:dawn", u3k(bok)); u3_noun raz = _dawn_eth_rpc(url_c, u3k(oct)); zar = _dawn_need_unit(u3do("czar:take:dawn", u3k(raz)), "boot: failed to retrieve galaxy table"); u3z(oct); u3z(raz); } // (list turf): ames domains // if ( 0 != u3_Host.ops_u.dns_c ) { tuf = _dawn_turf(u3_Host.ops_u.dns_c); } else if ( c3y == u3_Host.ops_u.etn ) { fprintf(stderr, "boot: extracting network domains from snapshot\r\n"); tuf = _dawn_need_unit(u3do("turf:snap:dawn", u3k(u3t(sap))), "boot: failed to extract " "network domains from snapshot"); } else { fprintf(stderr, "boot: retrieving network domains\r\n"); u3_noun oct = u3do("turf:give:dawn", u3k(bok)); u3_noun fut = _dawn_eth_rpc(url_c, u3k(oct)); tuf = _dawn_need_unit(u3do("turf:take:dawn", u3k(fut)), "boot: failed to retrieve network domains"); u3z(oct); u3z(fut); } u3z(rank); // [%dawn seed sponsor galaxies domains block eth-url snap] // return u3nc(c3__dawn, u3nq(seed, pon, zar, u3nq(tuf, bok, url, sap))); } /* _dawn_come(): mine a comet under a list of stars */ static u3_noun _dawn_come(u3_noun stars) { u3_noun seed; { c3_w eny_w[16]; u3_noun eny; c3_rand(eny_w); eny = u3i_words(16, eny_w); fprintf(stderr, "boot: mining a comet. May take up to an hour.\r\n"); fprintf(stderr, "If you want to boot faster, get an Azimuth point.\r\n"); seed = u3dc("come:dawn", u3k(stars), u3k(eny)); u3z(eny); } { u3_noun who = u3dc("scot", 'p', u3k(u3h(seed))); c3_c* who_c = u3r_string(who); fprintf(stderr, "boot: found comet %s\r\n", who_c); free(who_c); u3z(who); } u3z(stars); return seed; } /* u3_dawn_come(): mine a comet under a list of stars we download */ u3_noun u3_dawn_come() { return _dawn_come( _dawn_get_jam("https://bootstrap.urbit.org/comet-stars.jam")); }