/* Copyright (C) 2007-2008 The Android Open Source Project ** ** This software is licensed under the terms of the GNU General Public ** License version 2, as published by the Free Software Foundation, and ** may be copied, distributed, and modified under those terms. ** ** 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 General Public License for more details. */ #include "proxy_int.h" #include "sockets.h" #include #include #include #include #include "android/utils/misc.h" #include "android/utils/system.h" #include "iolooper.h" #include int proxy_log = 0; void proxy_LOG(const char* fmt, ...) { va_list args; va_start(args, fmt); vfprintf(stderr, fmt, args); va_end(args); fprintf(stderr, "\n"); } void proxy_set_verbose(int mode) { proxy_log = mode; } /** Global connection list **/ static ProxyConnection s_connections[1]; #define MAX_HEX_DUMP 512 static void hex_dump( void* base, int size, const char* prefix ) { STRALLOC_DEFINE(s); if (size > MAX_HEX_DUMP) size = MAX_HEX_DUMP; stralloc_add_hexdump(s, base, size, prefix); proxy_LOG( "%s", stralloc_cstr(s) ); stralloc_reset(s); } void proxy_connection_init( ProxyConnection* conn, int socket, SockAddress* address, ProxyService* service, ProxyConnectionFreeFunc conn_free, ProxyConnectionSelectFunc conn_select, ProxyConnectionPollFunc conn_poll ) { conn->socket = socket; conn->address = address[0]; conn->service = service; conn->next = NULL; conn->conn_free = conn_free; conn->conn_select = conn_select; conn->conn_poll = conn_poll; socket_set_nonblock(socket); { SocketType type = socket_get_type(socket); snprintf( conn->name, sizeof(conn->name), "%s:%s(%d)", (type == SOCKET_STREAM) ? "tcp" : "udp", sock_address_to_string(address), socket ); /* just in case */ conn->name[sizeof(conn->name)-1] = 0; } stralloc_reset(conn->str); conn->str_pos = 0; } void proxy_connection_done( ProxyConnection* conn ) { stralloc_reset( conn->str ); if (conn->socket >= 0) { socket_close(conn->socket); conn->socket = -1; } } void proxy_connection_rewind( ProxyConnection* conn ) { stralloc_t* str = conn->str; /* only keep a small buffer in the heap */ conn->str_pos = 0; str->n = 0; if (str->a > 1024) stralloc_reset(str); } DataStatus proxy_connection_send( ProxyConnection* conn, int fd ) { stralloc_t* str = conn->str; int avail = str->n - conn->str_pos; conn->str_sent = 0; if (avail <= 0) return 1; if (proxy_log) { PROXY_LOG("%s: sending %d bytes:", conn->name, avail ); hex_dump( str->s + conn->str_pos, avail, ">> " ); } while (avail > 0) { int n = socket_send(fd, str->s + conn->str_pos, avail); if (n == 0) { PROXY_LOG("%s: connection reset by peer (send)", conn->name); return DATA_ERROR; } if (n < 0) { if (errno == EWOULDBLOCK || errno == EAGAIN) return DATA_NEED_MORE; PROXY_LOG("%s: error: %s", conn->name, errno_str); return DATA_ERROR; } conn->str_pos += n; conn->str_sent += n; avail -= n; } proxy_connection_rewind(conn); return DATA_COMPLETED; } DataStatus proxy_connection_receive( ProxyConnection* conn, int fd, int wanted ) { stralloc_t* str = conn->str; conn->str_recv = 0; while (wanted > 0) { int n; stralloc_readyplus( str, wanted ); n = socket_recv(fd, str->s + str->n, wanted); if (n == 0) { PROXY_LOG("%s: connection reset by peer (receive)", conn->name); return DATA_ERROR; } if (n < 0) { if (errno == EWOULDBLOCK || errno == EAGAIN) return DATA_NEED_MORE; PROXY_LOG("%s: error: %s", conn->name, errno_str); return DATA_ERROR; } if (proxy_log) { PROXY_LOG("%s: received %d bytes:", conn->name, n ); hex_dump( str->s + str->n, n, "<< " ); } str->n += n; wanted -= n; conn->str_recv += n; } return DATA_COMPLETED; } DataStatus proxy_connection_receive_line( ProxyConnection* conn, int fd ) { stralloc_t* str = conn->str; for (;;) { char c; int n = socket_recv(fd, &c, 1); if (n == 0) { PROXY_LOG("%s: disconnected from server", conn->name ); return DATA_ERROR; } if (n < 0) { if (errno == EWOULDBLOCK || errno == EAGAIN) { PROXY_LOG("%s: blocked", conn->name); return DATA_NEED_MORE; } PROXY_LOG("%s: error: %s", conn->name, errno_str); return DATA_ERROR; } stralloc_add_c(str, c); if (c == '\n') { str->s[--str->n] = 0; if (str->n > 0 && str->s[str->n-1] == '\r') str->s[--str->n] = 0; PROXY_LOG("%s: received '%s'", conn->name, quote_bytes(str->s, str->n)); return DATA_COMPLETED; } } } static void proxy_connection_insert( ProxyConnection* conn, ProxyConnection* after ) { conn->next = after->next; after->next->prev = conn; after->next = conn; conn->prev = after; } static void proxy_connection_remove( ProxyConnection* conn ) { conn->prev->next = conn->next; conn->next->prev = conn->prev; conn->next = conn->prev = conn; } /** Global service list **/ #define MAX_SERVICES 4 static ProxyService* s_services[ MAX_SERVICES ]; static int s_num_services; static int s_init; static void proxy_manager_atexit( void ); static void proxy_manager_init(void) { s_init = 1; s_connections->next = s_connections; s_connections->prev = s_connections; atexit( proxy_manager_atexit ); } extern int proxy_manager_add_service( ProxyService* service ) { if (!service || s_num_services >= MAX_SERVICES) return -1; if (!s_init) proxy_manager_init(); s_services[s_num_services++] = service; return 0; } extern void proxy_manager_atexit( void ) { ProxyConnection* conn = s_connections->next; int n; /* free all proxy connections */ while (conn != s_connections) { ProxyConnection* next = conn->next; conn->conn_free( conn ); conn = next; } conn->next = conn; conn->prev = conn; /* free all proxy services */ for (n = s_num_services; n-- > 0;) { ProxyService* service = s_services[n]; service->serv_free( service->opaque ); } s_num_services = 0; } void proxy_connection_free( ProxyConnection* conn, int keep_alive, ProxyEvent event ) { if (conn) { int fd = conn->socket; proxy_connection_remove(conn); if (event != PROXY_EVENT_NONE) conn->ev_func( conn->ev_opaque, fd, event ); if (keep_alive) conn->socket = -1; conn->conn_free(conn); } } int proxy_manager_add( SockAddress* address, SocketType sock_type, ProxyEventFunc ev_func, void* ev_opaque ) { int n; if (!s_init) { proxy_manager_init(); } for (n = 0; n < s_num_services; n++) { ProxyService* service = s_services[n]; ProxyConnection* conn = service->serv_connect( service->opaque, sock_type, address ); if (conn != NULL) { conn->ev_func = ev_func; conn->ev_opaque = ev_opaque; proxy_connection_insert(conn, s_connections->prev); return 0; } } return -1; } /* remove an on-going proxified socket connection from the manager's list. * this is only necessary when the socket connection must be canceled before * the connection accept/refusal occured */ void proxy_manager_del( void* ev_opaque ) { ProxyConnection* conn = s_connections->next; for ( ; conn != s_connections; conn = conn->next ) { if (conn->ev_opaque == ev_opaque) { proxy_connection_remove(conn); conn->conn_free(conn); return; } } } void proxy_select_set( ProxySelect* sel, int fd, unsigned flags ) { if (fd < 0 || !flags) return; if (*sel->pcount < fd+1) *sel->pcount = fd+1; if (flags & PROXY_SELECT_READ) { FD_SET( fd, sel->reads ); } else { FD_CLR( fd, sel->reads ); } if (flags & PROXY_SELECT_WRITE) { FD_SET( fd, sel->writes ); } else { FD_CLR( fd, sel->writes ); } if (flags & PROXY_SELECT_ERROR) { FD_SET( fd, sel->errors ); } else { FD_CLR( fd, sel->errors ); } } unsigned proxy_select_poll( ProxySelect* sel, int fd ) { unsigned flags = 0; if (fd >= 0) { if ( FD_ISSET(fd, sel->reads) ) flags |= PROXY_SELECT_READ; if ( FD_ISSET(fd, sel->writes) ) flags |= PROXY_SELECT_WRITE; if ( FD_ISSET(fd, sel->errors) ) flags |= PROXY_SELECT_ERROR; } return flags; } /* this function is called to update the select file descriptor sets * with those of the proxified connection sockets that are currently managed */ void proxy_manager_select_fill( int *pcount, fd_set* read_fds, fd_set* write_fds, fd_set* err_fds) { ProxyConnection* conn; ProxySelect sel[1]; if (!s_init) proxy_manager_init(); sel->pcount = pcount; sel->reads = read_fds; sel->writes = write_fds; sel->errors = err_fds; conn = s_connections->next; while (conn != s_connections) { ProxyConnection* next = conn->next; conn->conn_select(conn, sel); conn = next; } } /* this function is called to act on proxified connection sockets when network events arrive */ void proxy_manager_poll( fd_set* read_fds, fd_set* write_fds, fd_set* err_fds ) { ProxyConnection* conn = s_connections->next; ProxySelect sel[1]; sel->pcount = NULL; sel->reads = read_fds; sel->writes = write_fds; sel->errors = err_fds; while (conn != s_connections) { ProxyConnection* next = conn->next; conn->conn_poll( conn, sel ); conn = next; } } int proxy_base64_encode( const char* src, int srclen, char* dst, int dstlen ) { static const char cb64[64]="ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/"; const char* srcend = src + srclen; int result = 0; while (src+3 <= srcend && result+4 <= dstlen) { dst[result+0] = cb64[ src[0] >> 2 ]; dst[result+1] = cb64[ ((src[0] & 3) << 4) | ((src[1] & 0xf0) >> 4) ]; dst[result+2] = cb64[ ((src[1] & 0xf) << 2) | ((src[2] & 0xc0) >> 6) ]; dst[result+3] = cb64[ src[2] & 0x3f ]; src += 3; result += 4; } if (src < srcend) { unsigned char in[4]; if (result+4 > dstlen) return -1; in[0] = src[0]; in[1] = src+1 < srcend ? src[1] : 0; in[2] = src+2 < srcend ? src[2] : 0; dst[result+0] = cb64[ in[0] >> 2 ]; dst[result+1] = cb64[ ((in[0] & 3) << 4) | ((in[1] & 0xf0) >> 4) ]; dst[result+2] = (unsigned char) (src+1 < srcend ? cb64[ ((in[1] & 0xf) << 2) | ((in[2] & 0xc0) >> 6) ] : '='); dst[result+3] = (unsigned char) (src+2 < srcend ? cb64[ in[2] & 0x3f ] : '='); result += 4; } return result; } int proxy_resolve_server( SockAddress* addr, const char* servername, int servernamelen, int serverport ) { char name0[64], *name = name0; int result = -1; if (servernamelen < 0) servernamelen = strlen(servername); if (servernamelen >= sizeof(name0)) { AARRAY_NEW(name, servernamelen+1); } memcpy(name, servername, servernamelen); name[servernamelen] = 0; if (sock_address_init_resolve( addr, name, serverport, 0 ) < 0) { PROXY_LOG("%s: can't resolve proxy server name '%s'", __FUNCTION__, name); goto Exit; } PROXY_LOG("server name '%s' resolved to %s", name, sock_address_to_string(addr)); result = 0; Exit: if (name != name0) AFREE(name); return result; } int proxy_check_connection( const char* proxyname, int proxyname_len, int proxyport, int timeout_ms ) { SockAddress addr; int sock; IoLooper* looper; int ret; if (proxy_resolve_server(&addr, proxyname, proxyname_len, proxyport) < 0) { return -1; } sock = socket_create(addr.family, SOCKET_STREAM); if (sock < 0) { PROXY_LOG("%s: Could not create socket !?: %s", __FUNCTION__, errno_str); return -1; } socket_set_nonblock(sock); /* An immediate connection is very unlikely, but deal with it, just in case */ if (socket_connect(sock, &addr) == 0) { PROXY_LOG("%s: Immediate connection to %.*s:%d: %s !", __FUNCTION__, proxyname_len, proxyname, proxyport); socket_close(sock); return 0; } /* Ok, create an IoLooper object to wait for the connection */ looper = iolooper_new(); iolooper_add_write(looper, sock); ret = iolooper_wait(looper, timeout_ms); iolooper_free(looper); socket_close(sock); if (ret == 0) { errno = ETIMEDOUT; ret = -1; } return ret; }