#if is(tcc) && is(win32) // @fixme: https lib is broken with tcc. replaced with InternetReadFile() api for now # include # pragma comment(lib,"wininet") int download_file( FILE *out, const char *url ) { int ok = false; char buffer[ 4096 ]; DWORD response_size = 0; if( out ) for( HINTERNET session = InternetOpenA("v4k.download_file", PRE_CONFIG_INTERNET_ACCESS, NULL, INTERNET_INVALID_PORT_NUMBER, 0); session; InternetCloseHandle(session), session = 0 ) // @fixme: download_file for( HINTERNET request = InternetOpenUrlA(session, url, NULL, 0, INTERNET_FLAG_RELOAD, 0); request; InternetCloseHandle(request), request = 0 ) for(; InternetReadFile(request, buffer, sizeof(buffer), &response_size) != FALSE && response_size > 0; ) { ok = (fwrite(buffer, response_size, 1, out) == 1); if(!ok) break; } return ok; } array(char) download( const char *url ) { char buffer[ 4096 ]; DWORD response_size = 0, pos = 0; array(char) out = 0; for( HINTERNET session = InternetOpenA("v4k.download", PRE_CONFIG_INTERNET_ACCESS, NULL, INTERNET_INVALID_PORT_NUMBER, 0); session; InternetCloseHandle(session), session = 0 ) for( HINTERNET request = InternetOpenUrlA(session, url, NULL, 0, INTERNET_FLAG_RELOAD, 0); request; InternetCloseHandle(request), request = 0 ) for(; InternetReadFile(request, buffer, sizeof(buffer), &response_size) != FALSE && response_size > 0; ) { array_resize(out, pos + response_size); memcpy(out + (pos += response_size) - response_size, buffer, response_size); } return out; } #else int download_file( FILE *out, const char *url ) { int ok = false; if( out ) for( https_t *h = https_get(url, NULL); h; https_release(h), h = NULL ) { while (https_process(h) == HTTPS_STATUS_PENDING) sleep_ms(1); //printf("fetch status%d, %d %s\n\n%.*s\n", https_process(h), h->status_code, h->content_type, (int)h->response_size, (char*)h->response_data); if(https_process(h) == HTTPS_STATUS_COMPLETED) ok = fwrite(h->response_data, h->response_size, 1, out) == 1; } return ok; } // @fixme: broken with tcc -m64 (our default tcc configuration) array(char) download( const char *url ) { array(char) out = 0; for( https_t *h = https_get(url, NULL); h; https_release(h), h = NULL ) { while (https_process(h) == HTTPS_STATUS_PENDING) sleep_ms(1); //printf("fetch status:%d, %d %s\n\n%.*s\n", https_process(h), h->status_code, h->content_type, (int)h->response_size, (char*)h->response_data); if( https_process(h) == HTTPS_STATUS_COMPLETED ) { array_resize(out, h->response_size); memcpy(out, h->response_data, h->response_size); } } return out; } #endif bool network_tests() { // network test (https) array(char) webfile = download("https://www.google.com/"); printf("Network test: %d bytes downloaded from google.com\n", array_count(webfile)); // array_push(webfile, '\0'); puts(webfile); return true; } int portname( const char *service_name, unsigned retries ) { // Determine port for a given service based on hash of its name. // If port cant be reached, client should retry with next hash. // Algorithm: fnv1a(name of service) -> splitmix64 num retries -> remap bucket as [min..max] ports. // hash64 uint64_t hash = 14695981039346656037ULL; while( *service_name ) { hash = ( (unsigned char)*service_name++ ^ hash ) * 0x100000001b3ULL; } // splitmix64 for( unsigned i = 0; i < retries; ++i ) { uint64_t h = (hash += UINT64_C(0x9E3779B97F4A7C15)); h = (h ^ (h >> 30)) * UINT64_C(0xBF58476D1CE4E5B9); h = (h ^ (h >> 27)) * UINT64_C(0x94D049BB133111EB); h = (h ^ (h >> 31)); hash = h; } // See dynamic ports: https://en.wikipedia.org/wiki/Ephemeral_port // So, excluded ranges: 32768..60999 (linux), 49152..65535 (freebsd+vista+win7), 1024..5000 (winsrv2003+bsd) // Output range: [5001..32724], in 4096 steps return ((hash & 0xFFF) * 677 / 100 + 5001); } // ----------------------------------------------------------------------------- #define UDP_DEBUG 0 static int udp_init() { do_once { int rc = swrapInit(); // atexit(swrapTerminate); if( rc ) PANIC("udp_init: swrapInit error"); } return 1; } int udp_open(const char *address, const char *port) { do_once udp_init(); int fd = swrapSocket(SWRAP_UDP, SWRAP_CONNECT, 0, address, port); // if( fd == -1 ) PANIC("udp_open: swrapSocket error"); return fd; } int udp_bind(const char *address, const char *port) { do_once udp_init(); int fd = swrapSocket(SWRAP_UDP, SWRAP_BIND, 0, address, port); // if( fd == -1 ) PANIC("udp_bind: swrapSocket error"); return fd; } int udp_send( int fd, const void *buf, int len ) { // returns bytes sent, or -1 if error int rc = -1; if( fd >= 0 ) for( ;; ) { rc = swrapSend(fd, (const char *)buf, len); #if is(win32) if( rc == -1 && WSAGetLastError() == WSAEINTR ) continue; else break; #else if( rc == -1 && errno == EINTR ) continue; else break; #endif } #if UDP_DEBUG if( rc > 0 ) { char host[128], serv[128]; int rc2 = swrapAddressInfo(&sa, host, 128, serv, 128 ); if( rc2 != 0 ) PANIC("swrapAddressInfo error"); printf("udp_send: %d bytes to %s:%s : %.*s\n", rc, host, serv, rc, buf ); hexdump(buf, rc); } #endif return rc; } int udp_close( int fd ) { // @todo: expose me? needed? #if is(win32) // closesocket(fd); #else // close(fd); #endif fd = -1; // noop return 0; } #if 0 // use socket to send data to another address int udp_sendto( int fd, const char *ip, const char *port, const void *buf, int len ) { // return number of bytes sent #if 0 int rc = swrapSendTo(fd, struct swrap_addr*, (const char*)buf, len); if( rc == -1 ) return -1; //PANIC("udp_send: swrapSend error"); return rc; #else struct sockaddr_in addr = {0}; addr.sin_family = AF_INET; // use inet_addr. tcc(win32) wont work otherwise. addr.sin_addr.s_addr = inet_addr(ip); // inet_pton(AF_INET, ip, &addr.sin_addr); addr.sin_port = htons(atoi(port)); int n = sendto(fd, buf, len, 0, (struct sockaddr *)&addr, sizeof(addr)); return n < 0 ? -1 : n; #endif } #endif int udp_peek( int fd ) { // <0 error, 0 timeout, >0 data int rc = swrapSelect(fd, 0.00001); if( rc < 0 ) return -1; // PANIC("udp_peek: swrapSelect error"); if( rc == 0 ) return 0; // timeout return 1; //> 0: new data is available } int udp_recv( int fd, void *buf, int len ) { // <0 error, 0 orderly shutdown, >0 received bytes struct swrap_addr sa = {0}; int rc = swrapReceiveFrom(fd, &sa, buf, len); if( rc < 0 ) return -1; // PANIC("udp_recv: swrapReceiveFrom error"); if( rc == 0 ) return 0; // orderly shutdown #if UDP_DEBUG char host[128], serv[128]; int rc2 = swrapAddressInfo(&sa, host, 128, serv, 128 ); if( rc2 != 0 ) PANIC("swrapAddressInfo error"); printf("udp_recv: %d bytes from %s:%s : %.*s\n", rc, host, serv, rc, buf ); hexdump(buf, rc); #endif return rc; } // ----------------------------------------------------------------------------- #define TCP_DEBUG 1 #if TCP_DEBUG static set(int) tcp_set; #endif void tcp_init(void) { do_once { udp_init(); #if TCP_DEBUG set_init(tcp_set, less_int, hash_int); #endif } } int tcp_open(const char *address, const char *port) { do_once tcp_init(); int fd = swrapSocket(SWRAP_TCP, SWRAP_CONNECT, 0/*|SWRAP_NODELAY*/, address, port); return fd; } int tcp_bind(const char *interface_, const char *port, int backlog) { do_once tcp_init(); int fd = swrapSocket(SWRAP_TCP, SWRAP_BIND, 0/*|SWRAP_NODELAY*//*|SWRAP_NOBLOCK*/, interface_, port); if( fd >= 0 ) swrapListen(fd, backlog); return fd; } int tcp_peek(int fd, int(*callback)(int)) { struct swrap_addr sa; int fd2 = swrapAccept(fd, &sa); if( fd2 >= 0 ) return callback(fd2); return -1; } int tcp_send(int fd, const void *buf, int len) { int rc = swrapSend(fd, (const char *)buf, len); #if TCP_DEBUG if( set_find(tcp_set, fd) ) { printf("send -> %11d (status: %d) %s:%s\n", len, rc, tcp_host(fd), tcp_port(fd)); if( rc > 0 ) hexdump(buf, rc); } #endif return rc; } int tcp_recv(int fd, void *buf, int len) { int rc = swrapReceive(fd, (char*)buf, len); #if TCP_DEBUG if( rc != 0 && set_find(tcp_set, fd) ) { printf("recv <- %11d (status: %d) %s:%s\n", len, rc, tcp_host(fd), tcp_port(fd)); if( rc > 0 ) hexdump(buf, rc); } #endif return rc; } char* tcp_host(int fd) { char buf[1024]; struct swrap_addr sa; swrapAddress(fd, &sa); swrapAddressInfo(&sa, buf, 512, buf+512, 512); return va("%s", buf); } char* tcp_port(int fd) { char buf[1024]; struct swrap_addr sa; swrapAddress(fd, &sa); swrapAddressInfo(&sa, buf, 512, buf+512, 512); return va("%s", buf+512); } int tcp_close(int fd) { swrapClose(fd); return 0; } int tcp_debug(int fd) { #if TCP_DEBUG if( set_find(tcp_set, fd) ) { set_erase(tcp_set, fd); return 0; } else { set_insert(tcp_set, fd); return 1; } #else return 0; #endif } // ----------------------------------------------------------------------------- static void network_init() { do_once { udp_init(); tcp_init(); } }