/* $Id$ */ /* * (C) Copyright 2001-2002 Wojtek Kaniewski * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU Lesser General Public License Version * 2.1 as published by the Free Software Foundation. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307, * USA. */ /** * \file http.c * * \brief Obsługa połączeń HTTP */ #include #ifdef _WIN32 #include "win32.h" #else #include #include #include #endif /* _WIN32 */ #include "compat.h" #include "libgadu.h" #include "resolver.h" #include #include #ifndef _WIN32 #include #endif /* _WIN32 */ #include #include #include #include #include #ifndef _WIN32 #include #endif /* _WIN32 */ #define GG_HTTP_MAX_LENGTH 1000000000 /** * Rozpoczyna połączenie HTTP. * * Funkcja przeprowadza połączenie HTTP przy połączeniu synchronicznym, * zwracając wynik w polach struktury \c gg_http, lub błąd, gdy sesja się * nie powiedzie. * * Przy połączeniu asynchronicznym, funkcja rozpoczyna połączenie, a dalsze * etapy będą przeprowadzane po wykryciu zmian (\c watch) na obserwowanym * deskryptorze (\c fd) i wywołaniu funkcji \c gg_http_watch_fd(). * * Po zakończeniu, należy zwolnić strukturę za pomocą funkcji * \c gg_http_free(). Połączenie asynchroniczne można zatrzymać w każdej * chwili za pomocą \c gg_http_stop(). * * \param hostname Adres serwera * \param port Port serwera * \param async Flaga asynchronicznego połączenia * \param method Metoda HTTP * \param path Ścieżka do zasobu (musi być poprzedzona znakiem '/') * \param header Nagłówek zapytania plus ewentualne dane dla POST * * \return Zaalokowana struktura \c gg_http lub NULL, jeśli wystąpił błąd. * * \ingroup http */ struct gg_http *gg_http_connect(const char *hostname, int port, int async, const char *method, const char *path, const char *header) { struct gg_http *h; if (!hostname || !port || !method || !path || !header) { gg_debug(GG_DEBUG_MISC, "// gg_http_connect() invalid arguments\n"); errno = EFAULT; return NULL; } if (!(h = (gg_http*)malloc(sizeof(*h)))) return NULL; memset(h, 0, sizeof(*h)); h->async = async; h->port = port; h->fd = -1; h->type = GG_SESSION_HTTP; gg_http_set_resolver(h, GG_RESOLVER_DEFAULT); if (gg_proxy_enabled) { char *auth = gg_proxy_auth(); h->query = gg_saprintf("%s http://%s:%d%s HTTP/1.0\r\n%s%s", method, hostname, port, path, (auth) ? auth : "", header); hostname = gg_proxy_host; h->port = port = gg_proxy_port; free(auth); } else { h->query = gg_saprintf("%s %s HTTP/1.0\r\n%s", method, path, header); } if (!h->query) { gg_debug(GG_DEBUG_MISC, "// gg_http_connect() not enough memory for query\n"); free(h); errno = ENOMEM; return NULL; } gg_debug(GG_DEBUG_MISC, "=> -----BEGIN-HTTP-QUERY-----\n%s\n=> -----END-HTTP-QUERY-----\n", h->query); if (async) { if (h->resolver_start(&h->fd, &h->resolver, hostname) == -1) { gg_debug(GG_DEBUG_MISC, "// gg_http_connect() resolver failed\n"); gg_http_free(h); errno = ENOENT; return NULL; } gg_debug(GG_DEBUG_MISC, "// gg_http_connect() resolver = %p\n", h->resolver); h->state = GG_STATE_RESOLVING; h->check = GG_CHECK_READ; h->timeout = GG_DEFAULT_TIMEOUT; } else { struct in_addr *addr_list = NULL; int addr_count; if (gg_gethostbyname_real(hostname, &addr_list, &addr_count, 0) == -1 || addr_count == 0) { gg_debug(GG_DEBUG_MISC, "// gg_http_connect() host not found\n"); gg_http_free(h); free(addr_list); errno = ENOENT; return NULL; } if ((h->fd = gg_connect(&addr_list[0], port, 0)) == -1) { gg_debug(GG_DEBUG_MISC, "// gg_http_connect() connection failed (errno=%d, %s)\n", errno, strerror(errno)); gg_http_free(h); free(addr_list); return NULL; } free(addr_list); h->state = GG_STATE_CONNECTING; while (h->state != GG_STATE_ERROR && h->state != GG_STATE_PARSING) { if (gg_http_watch_fd(h) == -1) break; } if (h->state != GG_STATE_PARSING) { gg_debug(GG_DEBUG_MISC, "// gg_http_connect() some strange error\n"); gg_http_free(h); return NULL; } } h->callback = gg_http_watch_fd; h->destroy = gg_http_free; return h; } #ifndef DOXYGEN #define gg_http_error(x) \ gg_sock_close(h->fd); \ h->fd = -1; \ h->state = GG_STATE_ERROR; \ h->error = x; \ return 0; #endif /* DOXYGEN */ /** * Funkcja wywoływana po zaobserwowaniu zmian na deskryptorze połączenia. * * Operacja będzie zakończona, gdy pole \c state będzie równe * \c GG_STATE_PARSING. W tym miejscu działanie przejmuje zwykle funkcja * korzystająca z \c gg_http_watch_fd(). W przypadku błędu połączenia, * pole \c state będzie równe \c GG_STATE_ERROR, a kod błędu znajdzie się * w polu \c error. * * \param h Struktura połączenia * * \return \return 0 jeśli się powiodło, -1 w przypadku błędu * * \ingroup http */ int gg_http_watch_fd(struct gg_http *h) { gg_debug(GG_DEBUG_FUNCTION, "** gg_http_watch_fd(%p);\n", h); if (!h) { gg_debug(GG_DEBUG_MISC, "// gg_http_watch_fd() invalid arguments\n"); errno = EFAULT; return -1; } if (h->state == GG_STATE_RESOLVING) { struct in_addr a; gg_debug(GG_DEBUG_MISC, "=> http, resolving done\n"); if (gg_sock_read(h->fd, &a, sizeof(a)) < (signed)sizeof(a) || a.s_addr == INADDR_NONE) { gg_debug(GG_DEBUG_MISC, "=> http, resolver thread failed\n"); gg_http_error(GG_ERROR_RESOLVING); } gg_sock_close(h->fd); h->fd = -1; h->resolver_cleanup(&h->resolver, 0); gg_debug(GG_DEBUG_MISC, "=> http, connecting to %s:%d\n", inet_ntoa(a), h->port); if ((h->fd = gg_connect(&a, h->port, h->async)) == -1) { gg_debug(GG_DEBUG_MISC, "=> http, connection failed (errno=%d, %s)\n", errno, strerror(errno)); gg_http_error(GG_ERROR_CONNECTING); } h->state = GG_STATE_CONNECTING; h->check = GG_CHECK_WRITE; h->timeout = GG_DEFAULT_TIMEOUT; return 0; } if (h->state == GG_STATE_CONNECTING) { int res = 0; int res_size = sizeof(res); if (h->async && (gg_getsockopt(h->fd, SOL_SOCKET, SO_ERROR, &res, &res_size) || res)) { gg_debug(GG_DEBUG_MISC, "=> http, async connection failed (errno=%d, %s)\n", (res) ? res : errno , strerror((res) ? res : errno)); gg_sock_close(h->fd); h->fd = -1; h->state = GG_STATE_ERROR; h->error = GG_ERROR_CONNECTING; if (res) errno = res; return 0; } gg_debug(GG_DEBUG_MISC, "=> http, connected, sending request\n"); h->state = GG_STATE_SENDING_QUERY; } if (h->state == GG_STATE_SENDING_QUERY) { int res; if ((res = gg_sock_write(h->fd, h->query, (int)strlen(h->query))) < 1) { gg_debug(GG_DEBUG_MISC, "=> http, write() failed (len=%d, res=%d, errno=%d)\n", strlen(h->query), res, errno); gg_http_error(GG_ERROR_WRITING); } if (res < (int)strlen(h->query)) { gg_debug(GG_DEBUG_MISC, "=> http, partial header sent (led=%d, sent=%d)\n", strlen(h->query), res); memmove(h->query, h->query + res, strlen(h->query) - res + 1); h->state = GG_STATE_SENDING_QUERY; h->check = GG_CHECK_WRITE; h->timeout = GG_DEFAULT_TIMEOUT; } else { gg_debug(GG_DEBUG_MISC, "=> http, request sent (len=%d)\n", strlen(h->query)); free(h->query); h->query = NULL; h->state = GG_STATE_READING_HEADER; h->check = GG_CHECK_READ; h->timeout = GG_DEFAULT_TIMEOUT; } return 0; } if (h->state == GG_STATE_READING_HEADER) { char buf[1024], *tmp; int res; if ((res = gg_sock_read(h->fd, buf, sizeof(buf))) == -1) { gg_debug(GG_DEBUG_MISC, "=> http, reading header failed (errno=%d)\n", errno); if (h->header) { free(h->header); h->header = NULL; } gg_http_error(GG_ERROR_READING); } if (!res) { gg_debug(GG_DEBUG_MISC, "=> http, connection reset by peer\n"); if (h->header) { free(h->header); h->header = NULL; } gg_http_error(GG_ERROR_READING); } gg_debug(GG_DEBUG_MISC, "=> http, read %d bytes of header\n", res); if (!(tmp = (char*)realloc(h->header, h->header_size + res + 1))) { gg_debug(GG_DEBUG_MISC, "=> http, not enough memory for header\n"); free(h->header); h->header = NULL; gg_http_error(GG_ERROR_READING); } h->header = tmp; memcpy(h->header + h->header_size, buf, res); h->header_size += res; gg_debug(GG_DEBUG_MISC, "=> http, header_buf=%p, header_size=%d\n", h->header, h->header_size); h->header[h->header_size] = 0; if ((tmp = strstr(h->header, "\r\n\r\n")) || (tmp = strstr(h->header, "\n\n"))) { int sep_len = (*tmp == '\r') ? 4 : 2; unsigned int left; char *line; left = h->header_size - ((INT_PTR)tmp - (INT_PTR)(h->header) + sep_len); gg_debug(GG_DEBUG_MISC, "=> http, got all header (%d bytes, %d left)\n", h->header_size - left, left); /* HTTP/1.1 200 OK */ if (strlen(h->header) < 16 || strncmp(h->header + 9, "200", 3)) { gg_debug(GG_DEBUG_MISC, "=> -----BEGIN-HTTP-HEADER-----\n%s\n=> -----END-HTTP-HEADER-----\n", h->header); gg_debug(GG_DEBUG_MISC, "=> http, didn't get 200 OK -- no results\n"); free(h->header); h->header = NULL; gg_http_error(GG_ERROR_CONNECTING); } h->body_size = 0; line = h->header; *tmp = 0; gg_debug(GG_DEBUG_MISC, "=> -----BEGIN-HTTP-HEADER-----\n%s\n=> -----END-HTTP-HEADER-----\n", h->header); while (line) { if (!strncasecmp(line, "Content-length: ", 16)) { h->body_size = atoi(line + 16); } line = strchr(line, '\n'); if (line) line++; } if (h->body_size <= 0) { gg_debug(GG_DEBUG_MISC, "=> http, content-length not found\n"); h->body_size = left; } if (h->body_size > GG_HTTP_MAX_LENGTH) { gg_debug(GG_DEBUG_MISC, "=> http, content-length too big\n"); h->body_size = GG_HTTP_MAX_LENGTH; } if (left > h->body_size) { gg_debug(GG_DEBUG_MISC, "=> http, oversized reply (%d bytes needed, %d bytes left)\n", h->body_size, left); h->body_size = left; } gg_debug(GG_DEBUG_MISC, "=> http, body_size=%d\n", h->body_size); if (!(h->body = (char*)malloc(h->body_size + 1))) { gg_debug(GG_DEBUG_MISC, "=> http, not enough memory (%d bytes for body_buf)\n", h->body_size + 1); free(h->header); h->header = NULL; gg_http_error(GG_ERROR_READING); } if (left) { memcpy(h->body, tmp + sep_len, left); h->body_done = left; } h->body[left] = 0; h->state = GG_STATE_READING_DATA; h->check = GG_CHECK_READ; h->timeout = GG_DEFAULT_TIMEOUT; } return 0; } if (h->state == GG_STATE_READING_DATA) { char buf[1024]; int res; if ((res = gg_sock_read(h->fd, buf, sizeof(buf))) == -1) { gg_debug(GG_DEBUG_MISC, "=> http, reading body failed (errno=%d)\n", errno); if (h->body) { free(h->body); h->body = NULL; } gg_http_error(GG_ERROR_READING); } if (!res) { if (h->body_done >= h->body_size) { gg_debug(GG_DEBUG_MISC, "=> http, we're done, closing socket\n"); h->state = GG_STATE_PARSING; gg_sock_close(h->fd); h->fd = -1; } else { gg_debug(GG_DEBUG_MISC, "=> http, connection closed while reading (have %d, need %d)\n", h->body_done, h->body_size); if (h->body) { free(h->body); h->body = NULL; } gg_http_error(GG_ERROR_READING); } return 0; } gg_debug(GG_DEBUG_MISC, "=> http, read %d bytes of body\n", res); if (h->body_done + res > h->body_size) { char *tmp; gg_debug(GG_DEBUG_MISC, "=> http, too much data (%d bytes, %d needed), enlarging buffer\n", h->body_done + res, h->body_size); if (!(tmp = (char*)realloc(h->body, h->body_done + res + 1))) { gg_debug(GG_DEBUG_MISC, "=> http, not enough memory for data (%d needed)\n", h->body_done + res + 1); free(h->body); h->body = NULL; gg_http_error(GG_ERROR_READING); } h->body = tmp; h->body_size = h->body_done + res; } h->body[h->body_done + res] = 0; memcpy(h->body + h->body_done, buf, res); h->body_done += res; gg_debug(GG_DEBUG_MISC, "=> body_done=%d, body_size=%d\n", h->body_done, h->body_size); return 0; } if (h->fd != -1) gg_sock_close(h->fd); h->fd = -1; h->state = GG_STATE_ERROR; h->error = 0; return -1; } /** * Kończy asynchroniczne połączenie HTTP. * * Po zatrzymaniu należy zwolnić zasoby funkcją \c gg_http_free(). * * \param h Struktura połączenia * * \ingroup http */ void gg_http_stop(struct gg_http *h) { if (!h) return; if (h->state == GG_STATE_ERROR || h->state == GG_STATE_DONE) return; if (h->fd != -1) { gg_sock_close(h->fd); h->fd = -1; } h->resolver_cleanup(&h->resolver, 1); } /** * \internal Zwalnia pola struktury \c gg_http. * * Funkcja zwalnia same pola, nie zwalnia struktury. * * \param h Struktura połączenia */ void gg_http_free_fields(struct gg_http *h) { if (!h) return; if (h->body) { free(h->body); h->body = NULL; } if (h->query) { free(h->query); h->query = NULL; } if (h->header) { free(h->header); h->header = NULL; } } /** * Zwalnia zasoby po połączeniu HTTP. * * Jeśli połączenie nie zostało jeszcze zakończone, jest przerywane. * * \param h Struktura połączenia * * \ingroup http */ void gg_http_free(struct gg_http *h) { if (!h) return; gg_http_stop(h); gg_http_free_fields(h); free(h); } /* * Local variables: * c-indentation-style: k&r * c-basic-offset: 8 * indent-tabs-mode: notnil * End: * * vim: shiftwidth=8: */