#include #include #include "multipart.h" #include "cgi.h" #define BOUNDARY_SIZE 100 typedef enum { STATE_SEARCH_BOUNDARY = 0, // state: searching multipart boundary STATE_SEARCH_HEADER, // state: search multipart file header STATE_SEARCH_HEADER_END, // state: search the end of the file header STATE_UPLOAD_FILE, // state: read file content STATE_ERROR, // state: error (stop processing) } MultipartState; struct _MultipartCtx { MultipartCallback callBack; // callback for multipart events int position; // current file position int startTime; // timestamp when connection was initiated int recvPosition; // receive position (how many bytes was processed from the HTTP post) char * boundaryBuffer; // buffer used for boundary detection int boundaryBufferPtr; // pointer in the boundary buffer MultipartState state; // multipart processing state }; // this method is responsible for creating the multipart context MultipartCtx * ICACHE_FLASH_ATTR multipartCreateContext(MultipartCallback callback) { MultipartCtx * ctx = (MultipartCtx *)os_malloc(sizeof(MultipartCtx)); ctx->callBack = callback; ctx->position = ctx->startTime = ctx->recvPosition = ctx->boundaryBufferPtr = 0; ctx->boundaryBuffer = NULL; ctx->state = STATE_SEARCH_BOUNDARY; return ctx; } // for allocating buffer for multipart upload void ICACHE_FLASH_ATTR multipartAllocBoundaryBuffer(MultipartCtx * context) { if( context->boundaryBuffer == NULL ) context->boundaryBuffer = (char *)os_malloc(3*BOUNDARY_SIZE + 1); context->boundaryBufferPtr = 0; } // for freeing multipart buffer void ICACHE_FLASH_ATTR multipartFreeBoundaryBuffer(MultipartCtx * context) { if( context->boundaryBuffer != NULL ) { os_free(context->boundaryBuffer); context->boundaryBuffer = NULL; } } // for destroying the context void ICACHE_FLASH_ATTR multipartDestroyContext(MultipartCtx * context) { multipartFreeBoundaryBuffer(context); os_free(context); } // this is because of os_memmem is missing void * mp_memmem(const void *l, size_t l_len, const void *s, size_t s_len) { register char *cur, *last; const char *cl = (const char *)l; const char *cs = (const char *)s; /* we need something to compare */ if (l_len == 0 || s_len == 0) return NULL; /* "s" must be smaller or equal to "l" */ if (l_len < s_len) return NULL; /* special case where s_len == 1 */ if (s_len == 1) return memchr(l, (int)*cs, l_len); /* the last position where its possible to find "s" in "l" */ last = (char *)cl + l_len - s_len; for (cur = (char *)cl; cur <= last; cur++) if (cur[0] == cs[0] && memcmp(cur, cs, s_len) == 0) return cur; return NULL; } // this method is for processing data coming from the HTTP post request // context: the multipart context // boundary: a string which indicates boundary // data: the received data // len: the received data length (can't be bigger than BOUNDARY_SIZE) // last: last packet indicator // // Detecting a boundary is not easy. One has to take care of boundaries which are splitted in 2 packets // [Packet 1, 5 bytes of the boundary][Packet 2, remaining 10 bytes of the boundary]; // // Algorythm: // - create a buffer which size is 3*BOUNDARY_SIZE // - put data into the buffer as long as the buffer size is smaller than 2*BOUNDARY_SIZE // - search boundary in the received buffer, if found: boundary reached -> process data before boundary -> process boundary // - if not found -> process the first BOUNDARY_SIZE amount of bytes from the buffer // - remove processed data from the buffer // this algorythm guarantees that no boundary loss will happen int ICACHE_FLASH_ATTR multipartProcessData(MultipartCtx * context, char * boundary, char * data, int len, int last) { if( len != 0 ) // add data to the boundary buffer { os_memcpy(context->boundaryBuffer + context->boundaryBufferPtr, data, len); context->boundaryBufferPtr += len; context->boundaryBuffer[context->boundaryBufferPtr] = 0; } while( context->boundaryBufferPtr > 0 ) { if( ! last && context->boundaryBufferPtr <= 2 * BOUNDARY_SIZE ) // return if buffer is too small and not the last packet is processed return 0; int dataSize = BOUNDARY_SIZE; char * boundaryLoc = mp_memmem( context->boundaryBuffer, context->boundaryBufferPtr, boundary, os_strlen(boundary) ); if( boundaryLoc != NULL ) { int pos = boundaryLoc - context->boundaryBuffer; if( pos > BOUNDARY_SIZE ) // process in the next call boundaryLoc = NULL; else dataSize = pos; } if( dataSize != 0 ) // data to process { switch( context->state ) { case STATE_SEARCH_HEADER: case STATE_SEARCH_HEADER_END: { char * chr = os_strchr( context->boundaryBuffer, '\n' ); if( chr != NULL ) { // chop datasize to contain only one line int pos = chr - context->boundaryBuffer + 1; if( pos < dataSize ) // if chop smaller than the dataSize, delete the boundary { dataSize = pos; boundaryLoc = NULL; // process boundary next time } if( context->state == STATE_SEARCH_HEADER_END ) { if( pos == 1 || ( ( pos == 2 ) && ( context->boundaryBuffer[0] == '\r' ) ) ) // empty line? { context->state = STATE_UPLOAD_FILE; context->position = 0; } } else if( os_strncmp( context->boundaryBuffer, "Content-Disposition:", 20 ) == 0 ) { char * fnam = os_strstr( context->boundaryBuffer, "filename=" ); if( fnam != NULL ) { int pos = fnam - context->boundaryBuffer + 9; if( pos < dataSize ) { while(context->boundaryBuffer[pos] == ' ') pos++; // skip spaces if( context->boundaryBuffer[pos] == '"' ) // quote start { pos++; int start = pos; while( pos < context->boundaryBufferPtr ) { if( context->boundaryBuffer[pos] == '"' ) // quote end break; pos++; } if( pos < context->boundaryBufferPtr ) { context->boundaryBuffer[pos] = 0; // terminating zero for the file name os_printf("Uploading file: %s\n", context->boundaryBuffer + start); if( context->callBack( FILE_START, context->boundaryBuffer + start, pos - start, 0 ) ) // FILE_START callback return 1; // if an error happened context->boundaryBuffer[pos] = '"'; // restore the original quote context->state = STATE_SEARCH_HEADER_END; } } } } } } } break; case STATE_UPLOAD_FILE: { char c = context->boundaryBuffer[dataSize]; context->boundaryBuffer[dataSize] = 0; // add terminating zero (for easier handling) if( context->callBack( FILE_DATA, context->boundaryBuffer, dataSize, context->position ) ) // FILE_DATA callback return 1; context->boundaryBuffer[dataSize] = c; context->position += dataSize; } break; default: break; } } if( boundaryLoc != NULL ) // boundary found? { dataSize += os_strlen(boundary); // jump over the boundary if( context->state == STATE_UPLOAD_FILE ) { if( context->callBack( FILE_DONE, NULL, 0, context->position ) ) // file done callback return 1; // if an error happened os_printf("File upload done\n"); } context->state = STATE_SEARCH_HEADER; // search the next header } // move the buffer back with dataSize context->boundaryBufferPtr -= dataSize; os_memcpy(context->boundaryBuffer, context->boundaryBuffer + dataSize, context->boundaryBufferPtr); } return 0; } // for processing multipart requests int ICACHE_FLASH_ATTR multipartProcess(MultipartCtx * context, HttpdConnData * connData ) { if (connData->conn==NULL) return HTTPD_CGI_DONE; // Connection aborted. Clean up. if (connData->requestType == HTTPD_METHOD_POST) { HttpdPostData *post = connData->post; if( post->multipartBoundary == NULL ) { errorResponse(connData, 404, "Only multipart POST is supported"); return HTTPD_CGI_DONE; } if( connData->startTime != context->startTime ) { // reinitialize, as this is a new request context->position = 0; context->recvPosition = 0; context->startTime = connData->startTime; context->state = STATE_SEARCH_BOUNDARY; multipartAllocBoundaryBuffer(context); } if( context->state != STATE_ERROR ) { int feed = 0; while( feed < post->buffLen ) { int len = post->buffLen - feed; if( len > BOUNDARY_SIZE ) len = BOUNDARY_SIZE; if( multipartProcessData(context, post->multipartBoundary, post->buff + feed, len, 0) ) { context->state = STATE_ERROR; break; } feed += len; } } context->recvPosition += post->buffLen; if( context->recvPosition < post->len ) return HTTPD_CGI_MORE; if( context->state != STATE_ERROR ) { // this is the last package, process the remaining data if( multipartProcessData(context, post->multipartBoundary, NULL, 0, 1) ) context->state = STATE_ERROR; } multipartFreeBoundaryBuffer( context ); if( context->state == STATE_ERROR ) errorResponse(connData, 400, "Invalid file upload!"); else { httpdStartResponse(connData, 204); httpdEndHeaders(connData); } return HTTPD_CGI_DONE; } else { errorResponse(connData, 404, "Only multipart POST is supported"); return HTTPD_CGI_DONE; } }