/* 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_http_int.h" #include #include #include "qemu-common.h" #include "android/utils/system.h" /* strsep */ /* this implements a transparent HTTP rewriting proxy * * this is needed because the HTTP spec mandates that * any query made to a proxy uses an absolute URI as * in: * * GET http://www.example.com/index.html HTTP/1.1 * * while the Android browser will think it's talking to * a normal web server and will issue a: * * GET /index.html HTTP/1.1 * Host: www.example.com * * what we do here is thus the following: * * - read the request header * - rewrite the request's URI to use absolute URI * - send the rewritten header to the proxy * - then read the rest of the request, and tunnel it to the * proxy as well * - read the answer as-is and send it back to the system * * this sounds all easy, but the rules for computing the * sizes of HTTP Message Bodies makes the implementation * a *bit* funky. */ /* define D_ACTIVE to 1 to dump additionnal debugging * info when -debug-proxy is used. These are only needed * when debugging the proxy code. */ #define D_ACTIVE 1 #if D_ACTIVE # define D(...) PROXY_LOG(__VA_ARGS__) #else # define D(...) ((void)0) #endif /** ************************************************************* ** ** HTTP HEADERS ** **/ /* HttpHeader is a simple structure used to hold a (key,value) * pair in a linked list. */ typedef struct HttpHeader { struct HttpHeader* next; const char* key; const char* value; } HttpHeader; static void http_header_free( HttpHeader* h ) { if (h) { g_free((char*)h->value); g_free(h); } } static int http_header_append( HttpHeader* h, const char* value ) { int old = strlen(h->value); int new = strlen(value); char* s = realloc((char*)h->value, old+new+1); if (s == NULL) return -1; memcpy(s + old, value, new+1); h->value = (const char*)s; return 0; } static HttpHeader* http_header_alloc( const char* key, const char* value ) { int len = strlen(key)+1; HttpHeader* h = malloc(sizeof(*h) + len+1); if (h) { h->next = NULL; h->key = (const char*)(h+1); memcpy( (char*)h->key, key, len ); h->value = g_strdup(value); } return h; } /** ************************************************************* ** ** HTTP HEADERS LIST ** **/ typedef struct { HttpHeader* first; HttpHeader* last; } HttpHeaderList; static void http_header_list_init( HttpHeaderList* l ) { l->first = l->last = NULL; } static void http_header_list_done( HttpHeaderList* l ) { while (l->first) { HttpHeader* h = l->first; l->first = h->next; http_header_free(h); } l->last = NULL; } static void http_header_list_add( HttpHeaderList* l, HttpHeader* h ) { if (!l->first) { l->first = h; } else { l->last->next = h; } h->next = NULL; l->last = h; } static const char* http_header_list_find( HttpHeaderList* l, const char* key ) { HttpHeader* h; for (h = l->first; h; h = h->next) if (!strcasecmp(h->key, key)) return h->value; return NULL; } /** ************************************************************* ** ** HTTP REQUEST AND REPLY ** **/ typedef enum { HTTP_REQUEST_UNSUPPORTED = 0, HTTP_REQUEST_GET, HTTP_REQUEST_HEAD, HTTP_REQUEST_POST, HTTP_REQUEST_PUT, HTTP_REQUEST_DELETE, } HttpRequestType; /* HttpRequest is used both to store information about a specific * request and the corresponding reply */ typedef struct { HttpRequestType req_type; /* request type */ char* req_method; /* "GET", "POST", "HEAD", etc... */ char* req_uri; /* the request URI */ char* req_version; /* "HTTP/1.0" or "HTTP/1.1" */ char* rep_version; /* reply version string */ int rep_code; /* reply code as decimal */ char* rep_readable; /* human-friendly reply/error message */ HttpHeaderList headers[1]; /* headers */ } HttpRequest; static HttpRequest* http_request_alloc( const char* method, const char* uri, const char* version ) { HttpRequest* r = malloc(sizeof(*r)); r->req_method = g_strdup(method); r->req_uri = g_strdup(uri); r->req_version = g_strdup(version); r->rep_version = NULL; r->rep_code = -1; r->rep_readable = NULL; if (!strcmp(method,"GET")) { r->req_type = HTTP_REQUEST_GET; } else if (!strcmp(method,"POST")) { r->req_type = HTTP_REQUEST_POST; } else if (!strcmp(method,"HEAD")) { r->req_type = HTTP_REQUEST_HEAD; } else if (!strcmp(method,"PUT")) { r->req_type = HTTP_REQUEST_PUT; } else if (!strcmp(method,"DELETE")) { r->req_type = HTTP_REQUEST_DELETE; } else r->req_type = HTTP_REQUEST_UNSUPPORTED; http_header_list_init(r->headers); return r; } static void http_request_replace_uri( HttpRequest* r, const char* uri ) { const char* old = r->req_uri; r->req_uri = g_strdup(uri); g_free((char*)old); } static void http_request_free( HttpRequest* r ) { if (r) { http_header_list_done(r->headers); g_free(r->req_method); g_free(r->req_uri); g_free(r->req_version); g_free(r->rep_version); g_free(r->rep_readable); g_free(r); } } static char* http_request_find_header( HttpRequest* r, const char* key ) { return (char*)http_header_list_find(r->headers, key); } static int http_request_add_header( HttpRequest* r, const char* key, const char* value ) { HttpHeader* h = http_header_alloc(key,value); if (h) { http_header_list_add(r->headers, h); return 0; } return -1; } static int http_request_add_to_last_header( HttpRequest* r, const char* line ) { if (r->headers->last) { return http_header_append( r->headers->last, line ); } else { return -1; } } static int http_request_set_reply( HttpRequest* r, const char* version, const char* code, const char* readable ) { if (strcmp(version,"HTTP/1.0") && strcmp(version,"HTTP/1.1")) { PROXY_LOG("%s: bad reply protocol: %s", __FUNCTION__, version); return -1; } r->rep_code = atoi(code); if (r->rep_code == 0) { PROXY_LOG("%s: bad reply code: %d", __FUNCTION__, code); return -1; } r->rep_version = g_strdup(version); r->rep_readable = g_strdup(readable); /* reset the list of headers */ http_header_list_done(r->headers); return 0; } /** ************************************************************* ** ** REWRITER CONNECTION ** **/ typedef enum { STATE_CONNECTING = 0, STATE_CREATE_SOCKET_PAIR, STATE_REQUEST_FIRST_LINE, STATE_REQUEST_HEADERS, STATE_REQUEST_SEND, STATE_REQUEST_BODY, STATE_REPLY_FIRST_LINE, STATE_REPLY_HEADERS, STATE_REPLY_SEND, STATE_REPLY_BODY, } ConnectionState; /* root->socket is connected to the proxy server. while * slirp_fd is connected to the slirp code through a * socket_pair() we created for this specific purpose. */ typedef enum { BODY_NONE = 0, BODY_KNOWN_LENGTH, BODY_UNTIL_CLOSE, BODY_CHUNKED, BODY_MODE_MAX } BodyMode; static const char* const body_mode_str[BODY_MODE_MAX] = { "NONE", "KNOWN_LENGTH", "UNTIL_CLOSE", "CHUNKED" }; enum { CHUNK_HEADER, // Waiting for a chunk header + CR LF CHUNK_DATA, // Waiting for chunk data CHUNK_DATA_END, // Waiting for the CR LF after the chunk data CHUNK_TRAILER // Waiting for the chunk trailer + CR LF }; typedef struct { ProxyConnection root[1]; int slirp_fd; ConnectionState state; HttpRequest* request; BodyMode body_mode; int64_t body_length; int64_t body_total; int64_t body_sent; int64_t chunk_length; int64_t chunk_total; int chunk_state; char body_has_data; char body_is_full; char body_is_closed; char parse_chunk_header; char parse_chunk_trailer; } RewriteConnection; static void rewrite_connection_free( ProxyConnection* root ) { RewriteConnection* conn = (RewriteConnection*)root; if (conn->slirp_fd >= 0) { socket_close(conn->slirp_fd); conn->slirp_fd = -1; } http_request_free(conn->request); proxy_connection_done(root); g_free(conn); } static int rewrite_connection_init( RewriteConnection* conn ) { HttpService* service = (HttpService*) conn->root->service; ProxyConnection* root = conn->root; conn->slirp_fd = -1; conn->state = STATE_CONNECTING; if (socket_connect( root->socket, &service->server_addr ) < 0) { if (errno == EINPROGRESS || errno == EWOULDBLOCK || errno == EAGAIN) { PROXY_LOG("%s: connecting", conn->root->name); } else { PROXY_LOG("%s: cannot connect to proxy: %s", root->name, errno_str); return -1; } } else { PROXY_LOG("%s: immediate connection", root->name); conn->state = STATE_CREATE_SOCKET_PAIR; } return 0; } static int rewrite_connection_create_sockets( RewriteConnection* conn ) { /* immediate connection to the proxy. now create a socket * pair and send a 'success' event to slirp */ int slirp_1; ProxyConnection* root = conn->root; if (socket_pair( &slirp_1, &conn->slirp_fd ) < 0) { PROXY_LOG("%s: coult not create socket pair: %s", root->name, errno_str); return -1; } root->ev_func( root->ev_opaque, slirp_1, PROXY_EVENT_CONNECTED ); conn->state = STATE_REQUEST_FIRST_LINE; return 0; } /* read the first line of a given HTTP request. returns -1/0/+1 */ static DataStatus rewrite_connection_read_request( RewriteConnection* conn ) { ProxyConnection* root = conn->root; DataStatus ret; ret = proxy_connection_receive_line(root, conn->slirp_fd); if (ret == DATA_COMPLETED) { /* now parse the first line to see if we can handle it */ char* line = root->str->s; char* method; char* uri; char* version; char* p = line; method = strsep(&p, " "); if (p == NULL) { PROXY_LOG("%s: can't parse method in '%'", root->name, line); return DATA_ERROR; } uri = strsep(&p, " "); if (p == NULL) { PROXY_LOG( "%s: can't parse URI in '%s'", root->name, line); return DATA_ERROR; } version = strsep(&p, " "); if (p != NULL) { PROXY_LOG( "%s: extra data after version in '%s'", root->name, line); return DATA_ERROR; } if (conn->request) http_request_free(conn->request); conn->request = http_request_alloc( method, uri, version ); if (!conn->request) return DATA_ERROR; proxy_connection_rewind(root); } return ret; } static DataStatus rewrite_connection_read_reply( RewriteConnection* conn ) { ProxyConnection* root = conn->root; DataStatus ret; ret = proxy_connection_receive_line( root, root->socket ); if (ret == DATA_COMPLETED) { HttpRequest* request = conn->request; char* line = stralloc_cstr( root->str ); char* p = line; char* protocol; char* number; char* readable; protocol = strsep(&p, " "); if (p == NULL) { PROXY_LOG("%s: can't parse response protocol: '%s'", root->name, line); return DATA_ERROR; } number = strsep(&p, " "); if (p == NULL) { PROXY_LOG("%s: can't parse response number: '%s'", root->name, line); return DATA_ERROR; } readable = p; if (http_request_set_reply(request, protocol, number, readable) < 0) return DATA_ERROR; proxy_connection_rewind(root); } return ret; } static DataStatus rewrite_connection_read_headers( RewriteConnection* conn, int fd ) { int ret; ProxyConnection* root = conn->root; for (;;) { char* line; stralloc_t* str = root->str; ret = proxy_connection_receive_line(root, fd); if (ret != DATA_COMPLETED) break; str->n = 0; line = str->s; if (line[0] == 0) { /* an empty line means the end of headers */ ret = 1; break; } /* it this a continuation ? */ if (line[0] == ' ' || line[0] == '\t') { ret = http_request_add_to_last_header( conn->request, line ); } else { char* key; char* value; value = line; key = strsep(&value, ":"); if (value == NULL) { PROXY_LOG("%s: can't parse header '%s'", root->name, line); ret = -1; break; } value += strspn(value, " "); if (http_request_add_header(conn->request, key, value) < 0) ret = -1; } if (ret == DATA_ERROR) break; } return ret; } static int rewrite_connection_rewrite_request( RewriteConnection* conn ) { ProxyConnection* root = conn->root; HttpService* service = (HttpService*) root->service; HttpRequest* r = conn->request; stralloc_t* str = root->str; HttpHeader* h; proxy_connection_rewind(conn->root); /* only rewrite the URI if it is not absolute */ if (r->req_uri[0] == '/') { char* host = http_request_find_header(r, "Host"); if (host == NULL) { PROXY_LOG("%s: uh oh, not Host: in request ?", root->name); } else { /* now create new URI */ stralloc_add_str(str, "http://"); stralloc_add_str(str, host); stralloc_add_str(str, r->req_uri); http_request_replace_uri(r, stralloc_cstr(str)); proxy_connection_rewind(root); } } stralloc_format( str, "%s %s %s\r\n", r->req_method, r->req_uri, r->req_version ); for (h = r->headers->first; h; h = h->next) { stralloc_add_format( str, "%s: %s\r\n", h->key, h->value ); } /* add the service's footer - includes final \r\n */ stralloc_add_bytes( str, service->footer, service->footer_len ); return 0; } static int rewrite_connection_rewrite_reply( RewriteConnection* conn ) { HttpRequest* r = conn->request; ProxyConnection* root = conn->root; stralloc_t* str = root->str; HttpHeader* h; proxy_connection_rewind(root); stralloc_format(str, "%s %d %s\r\n", r->rep_version, r->rep_code, r->rep_readable); for (h = r->headers->first; h; h = h->next) { stralloc_add_format(str, "%s: %s\r\n", h->key, h->value); } stralloc_add_str(str, "\r\n"); return 0; } static int rewrite_connection_get_body_length( RewriteConnection* conn, int is_request ) { HttpRequest* r = conn->request; ProxyConnection* root = conn->root; char* content_length; char* transfer_encoding; conn->body_mode = BODY_NONE; conn->body_length = 0; conn->body_total = 0; conn->body_sent = 0; conn->body_is_closed = 0; conn->body_is_full = 0; conn->body_has_data = 0; proxy_connection_rewind(root); if (is_request) { /* only POST and PUT should have a body */ if (r->req_type != HTTP_REQUEST_POST && r->req_type != HTTP_REQUEST_PUT) { return 0; } } else { /* HTTP 1.1 Section 4.3 Message Body states that HEAD requests must not have * a message body, as well as any 1xx, 204 and 304 replies */ if (r->req_type == HTTP_REQUEST_HEAD || r->rep_code/100 == 1 || r->rep_code == 204 || r->rep_code == 304) return 0; } content_length = http_request_find_header(r, "Content-Length"); if (content_length != NULL) { char* end; int64_t body_len = strtoll( content_length, &end, 10 ); if (*end != '\0' || *content_length == '\0' || body_len < 0) { PROXY_LOG("%s: bad content length: %s", root->name, content_length); return DATA_ERROR; } if (body_len > 0) { conn->body_mode = BODY_KNOWN_LENGTH; conn->body_length = body_len; } } else { transfer_encoding = http_request_find_header(r, "Transfer-Encoding"); if (transfer_encoding && !strcasecmp(transfer_encoding, "Chunked")) { conn->body_mode = BODY_CHUNKED; conn->parse_chunk_header = 0; conn->parse_chunk_trailer = 0; conn->chunk_length = -1; conn->chunk_total = 0; conn->chunk_state = CHUNK_HEADER; } } if (conn->body_mode == BODY_NONE) { char* connection = http_request_find_header(r, "Proxy-Connection"); if (!connection) connection = http_request_find_header(r, "Connection"); if (!connection || strcasecmp(connection, "Close")) { /* hum, we can't support this at all */ PROXY_LOG("%s: can't determine content length, and client wants" " to keep connection opened", root->name); return -1; } /* a negative value means that the data ends when the client * disconnects the connection. */ conn->body_mode = BODY_UNTIL_CLOSE; } D("%s: body_length=%lld body_mode=%s", root->name, conn->body_length, body_mode_str[conn->body_mode]); proxy_connection_rewind(root); return 0; } #define MAX_BODY_BUFFER 65536 static DataStatus rewrite_connection_read_body( RewriteConnection* conn, int fd ) { ProxyConnection* root = conn->root; stralloc_t* str = root->str; int wanted = 0, current, avail; DataStatus ret; if (conn->body_is_closed) { return DATA_NEED_MORE; } /* first, determine how many bytes we want to read. */ switch (conn->body_mode) { case BODY_NONE: D("%s: INTERNAL ERROR: SHOULDN'T BE THERE", root->name); return DATA_COMPLETED; case BODY_KNOWN_LENGTH: { if (conn->body_length == 0) return DATA_COMPLETED; if (conn->body_length > MAX_BODY_BUFFER) wanted = MAX_BODY_BUFFER; else wanted = (int)conn->body_length; } break; case BODY_UNTIL_CLOSE: wanted = MAX_BODY_BUFFER; break; case BODY_CHUNKED: if (conn->chunk_state == CHUNK_DATA_END) { /* We're waiting for the CR LF after the chunk data */ ret = proxy_connection_receive_line(root, fd); if (ret != DATA_COMPLETED) return ret; if (str->s[0] != 0) { /* this should be an empty line */ PROXY_LOG("%s: invalid chunk data end: '%s'", root->name, str->s); return DATA_ERROR; } /* proxy_connection_receive_line() did remove the * trailing \r\n, but we must preserve it when we * send the chunk size end to the proxy. */ stralloc_add_str(root->str, "\r\n"); conn->chunk_state = CHUNK_HEADER; /* fall-through */ } if (conn->chunk_state == CHUNK_HEADER) { char* line; char* end; long long length; /* Ensure that the previous chunk was flushed before * accepting a new header */ if (!conn->parse_chunk_header) { if (conn->body_has_data) return DATA_NEED_MORE; D("%s: waiting chunk header", root->name); conn->parse_chunk_header = 1; } ret = proxy_connection_receive_line(root, fd); if (ret != DATA_COMPLETED) { return ret; } conn->parse_chunk_header = 0; line = str->s; length = strtoll(line, &end, 16); if (line[0] == ' ' || (end[0] != '\0' && end[0] != ';')) { PROXY_LOG("%s: invalid chunk header: %s", root->name, line); return DATA_ERROR; } if (length < 0) { PROXY_LOG("%s: invalid chunk length %lld", root->name, length); return DATA_ERROR; } /* proxy_connection_receive_line() did remove the * trailing \r\n, but we must preserve it when we * send the chunk size to the proxy. */ stralloc_add_str(root->str, "\r\n"); conn->chunk_length = length; conn->chunk_total = 0; conn->chunk_state = CHUNK_DATA; if (length == 0) { /* the last chunk, no we need to add the trailer */ conn->chunk_state = CHUNK_TRAILER; conn->parse_chunk_trailer = 0; } } if (conn->chunk_state == CHUNK_TRAILER) { /* ensure that 'str' is flushed before reading the trailer */ if (!conn->parse_chunk_trailer) { if (conn->body_has_data) return DATA_NEED_MORE; conn->parse_chunk_trailer = 1; } ret = rewrite_connection_read_headers(conn, fd); if (ret == DATA_COMPLETED) { conn->body_is_closed = 1; } return ret; } /* if we get here, body_length > 0 */ if (conn->chunk_length > MAX_BODY_BUFFER) wanted = MAX_BODY_BUFFER; else wanted = (int)conn->chunk_length; break; default: ; } /* we don't want more than MAX_BODY_BUFFER bytes in the * buffer we used to pass the body */ current = str->n; avail = MAX_BODY_BUFFER - current; if (avail <= 0) { /* wait for some flush */ conn->body_is_full = 1; D("%s: waiting to flush %d bytes", root->name, current); return DATA_NEED_MORE; } if (wanted > avail) wanted = avail; ret = proxy_connection_receive(root, fd, wanted); conn->body_has_data = (str->n > 0); conn->body_is_full = (str->n == MAX_BODY_BUFFER); if (ret == DATA_ERROR) { if (conn->body_mode == BODY_UNTIL_CLOSE) { /* a disconnection here is normal and signals the * end of the body */ conn->body_total += root->str_recv; D("%s: body completed by close (%lld bytes)", root->name, conn->body_total); conn->body_is_closed = 1; ret = DATA_COMPLETED; } } else { avail = root->str_recv; ret = DATA_NEED_MORE; /* we're not really done yet */ switch (conn->body_mode) { case BODY_CHUNKED: conn->chunk_total += avail; conn->chunk_length -= avail; if (conn->chunk_length == 0) { D("%s: chunk completed (%lld bytes)", root->name, conn->chunk_total); conn->body_total += conn->chunk_total; conn->chunk_total = 0; conn->chunk_length = -1; conn->chunk_state = CHUNK_DATA; } break; case BODY_KNOWN_LENGTH: conn->body_length -= avail; conn->body_total += avail; if (conn->body_length == 0) { D("%s: body completed (%lld bytes)", root->name, conn->body_total); conn->body_is_closed = 1; ret = DATA_COMPLETED; } break; case BODY_UNTIL_CLOSE: conn->body_total += avail; break; default: ; } } return ret; } static DataStatus rewrite_connection_send_body( RewriteConnection* conn, int fd ) { ProxyConnection* root = conn->root; stralloc_t* str = root->str; DataStatus ret = DATA_NEED_MORE; if (conn->body_has_data) { ret = proxy_connection_send(root, fd); if (ret != DATA_ERROR) { int pos = root->str_pos; memmove(str->s, str->s+pos, str->n-pos); str->n -= pos; root->str_pos = 0; conn->body_is_full = (str->n == MAX_BODY_BUFFER); conn->body_has_data = (str->n > 0); conn->body_sent += root->str_sent; /* ensure that we return DATA_COMPLETED only when * we have sent everything, and there is no more * body pieces to read */ if (ret == DATA_COMPLETED) { if (!conn->body_is_closed || conn->body_has_data) ret = DATA_NEED_MORE; else { D("%s: sent all body (%lld bytes)", root->name, conn->body_sent); } } D("%s: sent closed=%d data=%d n=%d ret=%d", root->name, conn->body_is_closed, conn->body_has_data, str->n, ret); } } return ret; } static void rewrite_connection_select( ProxyConnection* root, ProxySelect* sel ) { RewriteConnection* conn = (RewriteConnection*)root; int slirp = conn->slirp_fd; int proxy = root->socket; switch (conn->state) { case STATE_CONNECTING: case STATE_CREATE_SOCKET_PAIR: /* try to connect to the proxy server */ proxy_select_set( sel, proxy, PROXY_SELECT_WRITE ); break; case STATE_REQUEST_FIRST_LINE: case STATE_REQUEST_HEADERS: proxy_select_set( sel, slirp, PROXY_SELECT_READ ); break; case STATE_REQUEST_SEND: proxy_select_set( sel, proxy, PROXY_SELECT_WRITE ); break; case STATE_REQUEST_BODY: if (!conn->body_is_closed && !conn->body_is_full) proxy_select_set( sel, slirp, PROXY_SELECT_READ ); if (conn->body_has_data) proxy_select_set( sel, proxy, PROXY_SELECT_WRITE ); break; case STATE_REPLY_FIRST_LINE: case STATE_REPLY_HEADERS: proxy_select_set( sel, proxy, PROXY_SELECT_READ ); break; case STATE_REPLY_SEND: proxy_select_set( sel, slirp, PROXY_SELECT_WRITE ); break; case STATE_REPLY_BODY: if (conn->body_has_data) proxy_select_set( sel, slirp, PROXY_SELECT_WRITE ); if (!conn->body_is_closed && !conn->body_is_full) proxy_select_set( sel, proxy, PROXY_SELECT_READ ); break; default: ; }; } static void rewrite_connection_poll( ProxyConnection* root, ProxySelect* sel ) { RewriteConnection* conn = (RewriteConnection*)root; int slirp = conn->slirp_fd; int proxy = root->socket; int has_slirp = proxy_select_poll(sel, slirp); int has_proxy = proxy_select_poll(sel, proxy); DataStatus ret = DATA_NEED_MORE; switch (conn->state) { case STATE_CONNECTING: if (has_proxy) { PROXY_LOG("%s: connected to proxy", root->name); conn->state = STATE_CREATE_SOCKET_PAIR; } break; case STATE_CREATE_SOCKET_PAIR: if (has_proxy) { if (rewrite_connection_create_sockets(conn) < 0) { ret = DATA_ERROR; } else { D("%s: socket pair created", root->name); conn->state = STATE_REQUEST_FIRST_LINE; } } break; case STATE_REQUEST_FIRST_LINE: if (has_slirp) { ret = rewrite_connection_read_request(conn); if (ret == DATA_COMPLETED) { PROXY_LOG("%s: request first line ok", root->name); conn->state = STATE_REQUEST_HEADERS; } } break; case STATE_REQUEST_HEADERS: if (has_slirp) { ret = rewrite_connection_read_headers(conn, slirp); if (ret == DATA_COMPLETED) { PROXY_LOG("%s: request headers ok", root->name); if (rewrite_connection_rewrite_request(conn) < 0) ret = DATA_ERROR; else conn->state = STATE_REQUEST_SEND; } } break; case STATE_REQUEST_SEND: if (has_proxy) { ret = proxy_connection_send(root, proxy); if (ret == DATA_COMPLETED) { if (rewrite_connection_get_body_length(conn, 1) < 0) { ret = DATA_ERROR; } else if (conn->body_mode != BODY_NONE) { PROXY_LOG("%s: request sent, waiting for body", root->name); conn->state = STATE_REQUEST_BODY; } else { PROXY_LOG("%s: request sent, waiting for reply", root->name); conn->state = STATE_REPLY_FIRST_LINE; } } } break; case STATE_REQUEST_BODY: if (has_slirp) { ret = rewrite_connection_read_body(conn, slirp); } if (ret != DATA_ERROR && has_proxy) { ret = rewrite_connection_send_body(conn, proxy); if (ret == DATA_COMPLETED) { PROXY_LOG("%s: request body ok, waiting for reply", root->name); conn->state = STATE_REPLY_FIRST_LINE; } } break; case STATE_REPLY_FIRST_LINE: if (has_proxy) { ret = rewrite_connection_read_reply(conn); if (ret == DATA_COMPLETED) { PROXY_LOG("%s: reply first line ok", root->name); conn->state = STATE_REPLY_HEADERS; } } break; case STATE_REPLY_HEADERS: if (has_proxy) { ret = rewrite_connection_read_headers(conn, proxy); if (ret == DATA_COMPLETED) { PROXY_LOG("%s: reply headers ok", root->name); if (rewrite_connection_rewrite_reply(conn) < 0) ret = DATA_ERROR; else conn->state = STATE_REPLY_SEND; } } break; case STATE_REPLY_SEND: if (has_slirp) { ret = proxy_connection_send(conn->root, slirp); if (ret == DATA_COMPLETED) { if (rewrite_connection_get_body_length(conn, 0) < 0) { ret = DATA_ERROR; } else if (conn->body_mode != BODY_NONE) { PROXY_LOG("%s: reply sent, waiting for body", root->name); conn->state = STATE_REPLY_BODY; } else { PROXY_LOG("%s: reply sent, looping to waiting request", root->name); conn->state = STATE_REQUEST_FIRST_LINE; } } } break; case STATE_REPLY_BODY: if (has_proxy) { ret = rewrite_connection_read_body(conn, proxy); } if (ret != DATA_ERROR && has_slirp) { ret = rewrite_connection_send_body(conn, slirp); if (ret == DATA_COMPLETED) { if (conn->body_mode == BODY_UNTIL_CLOSE) { PROXY_LOG("%s: closing connection", root->name); ret = DATA_ERROR; } else { PROXY_LOG("%s: reply body ok, looping to waiting request", root->name); conn->state = STATE_REQUEST_FIRST_LINE; } } } break; default: ; } if (ret == DATA_ERROR) proxy_connection_free(root, 0, PROXY_EVENT_NONE); return; } ProxyConnection* http_rewriter_connect( HttpService* service, SockAddress* address ) { RewriteConnection* conn; int s; s = socket_create(address->family, SOCKET_STREAM ); if (s < 0) return NULL; conn = g_malloc0(sizeof(*conn)); if (conn == NULL) { socket_close(s); return NULL; } proxy_connection_init( conn->root, s, address, service->root, rewrite_connection_free, rewrite_connection_select, rewrite_connection_poll ); if ( rewrite_connection_init( conn ) < 0 ) { rewrite_connection_free( conn->root ); return NULL; } return conn->root; }