#include "http.h" #include "gecko/gecko.hpp" /** * Emptyblock is a statically defined variable for functions to return if they are unable * to complete a request */ const struct block emptyblock = {0, NULL}; //The maximum amount of bytes to send per net_write() call //#define NET_BUFFER_SIZE 1024 #define NET_BUFFER_SIZE 3600 static u8 retryloop = 0; // Write our message to the server static s32 send_message(s32 server, char *msg) { s32 bytes_transferred = 0, remaining = strlen(msg); while (remaining) { if((bytes_transferred = net_write(server, msg, remaining > NET_BUFFER_SIZE ? NET_BUFFER_SIZE : remaining)) > 0) { remaining -= bytes_transferred; msg += bytes_transferred; usleep (20 * 1000); } else if(bytes_transferred < 0) return bytes_transferred; else return -ENODATA; } return 0; } /** * Connect to a remote server via TCP on a specified port * * @param u32 ip address of the server to connect to * @param u32 the port to connect to on the server * @return s32 The connection to the server (negative number if connection could not be established) */ static s32 server_connect(u32 ipaddress, u16 socket_port) { //Initialize socket s32 connection = net_socket(AF_INET, SOCK_STREAM, IPPROTO_IP); if(connection < 0) return connection; //Set the connection parameters for the socket struct sockaddr_in connect_addr; memset(&connect_addr, 0, sizeof(connect_addr)); connect_addr.sin_family = AF_INET; connect_addr.sin_port = htons(socket_port); connect_addr.sin_addr.s_addr= ipaddress; //Attemt to open a connection on the socket if(net_connect(connection, (struct sockaddr*)&connect_addr, sizeof(connect_addr)) == -1) { net_close(connection); return -1; } return connection; } //The amount of memory in bytes reserved initially to store the HTTP response in //Be careful in increasing this number, reading from a socket on the Wii //will fail if you request more than 20k or so #define HTTP_BUFFER_SIZE 1024 * 5 //The amount of memory the buffer should expanded with if the buffer is full #define HTTP_BUFFER_GROWTH 1024 * 5 /** * This function reads all the data from a connection into a buffer which it returns. * It will return an empty buffer if something doesn't go as planned * * @param s32 connection The connection identifier to suck the response out of * @return block A 'block' struct (see http.h) in which the buffer is located */ struct block read_message(s32 connection) { //Create a block of memory to put in the response struct block buffer; buffer.data = malloc(HTTP_BUFFER_SIZE); buffer.size = HTTP_BUFFER_SIZE; if (buffer.data == NULL) { return emptyblock; } //The offset variable always points to the first byte of memory that is free in the buffer u32 offset = 0; while(true) { //Fill the buffer with a new batch of bytes from the connection, //starting from where we left of in the buffer till the end of the buffer s32 bytes_read = net_read(connection, buffer.data + offset, buffer.size - offset); //Anything below 0 is an error in the connection if(bytes_read < 0) { //printf("Connection error from net_read() Errorcode: %i\n", bytes_read); return emptyblock; } //No more bytes were read into the buffer, //we assume this means the HTTP response is done if(bytes_read == 0) { break; } offset += bytes_read; //Check if we have enough buffer left over, //if not expand it with an additional HTTP_BUFFER_GROWTH worth of bytes if (offset >= buffer.size) { buffer.size += HTTP_BUFFER_GROWTH; u8 * tmp = realloc(buffer.data, buffer.size); if (tmp == NULL) { free(buffer.data); return emptyblock; } else buffer.data = tmp; } } //At the end of above loop offset should be precisely the amount of bytes that were read from the connection buffer.size = offset; //Shrink the size of the buffer so the data fits exactly in it buffer.data = realloc(buffer.data, buffer.size); return buffer; } /* Downloads the contents of a URL to memory * This method is not threadsafe (because networking is not threadsafe on the Wii) */ struct block downloadfile(const char *url) { //Check if the url starts with "http://", if not it is not considered a valid url if(strncmp(url, "http://", strlen("http://")) != 0) return emptyblock; //Locate the path part of the url by searching for '/' past "http://" char *path = strchr(url + strlen("http://"), '/'); if(path == NULL) return emptyblock; //Extract the domain part out of the url int domainlength = path - url - strlen("http://"); if(domainlength == 0) return emptyblock; char domain[domainlength + 1]; strlcpy(domain, url + strlen("http://"), domainlength + 1); //Parsing of the URL is done, start making an actual connection u32 ipaddress = getipbynamecached(domain); if(ipaddress == 0) return emptyblock; s32 connection = server_connect(ipaddress, 80); if(connection < 0) return emptyblock; //Form a nice request header to send to the webserver char* headerformat = "GET %s HTTP/1.0\r\nHost: %s\r\nUser-Agent: WiiFlow 2.1\r\n\r\n"; char header[strlen(headerformat) + strlen(domain) + strlen(path)]; sprintf(header, headerformat, path, domain); //Do the request and get the response send_message(connection, header); struct block response = read_message(connection); net_close(connection); //Search for the 4-character sequence \r\n\r\n in the response which signals the start of the http payload (file) unsigned char *filestart = NULL; u32 filesize = 0; u32 i; char newURL[512]; bool redirect = false; for(i = 3; i < response.size; i++) { if(response.data[i] == '\n' && response.data[i-1] == '\r' && response.data[i-2] == '\n' && response.data[i-3] == '\r') { filestart = response.data + i + 1; filesize = response.size - i - 1; // Check the HTTP response code if (response.size > 10 && strncmp((char*)response.data, "HTTP/", 5)==0) { char htstat[i]; strncpy(htstat, (char*)response.data, i); htstat[i] = 0; char *codep; codep = strchr(htstat, ' '); if (codep) { int code; if (sscanf(codep+1, "%d", &code) == 1) { //gprintf("HTTP response code: %d\n", code); if (code == 302) // 302 FOUND (redirected link) { char *ptr = strcasestr((char*)response.data, "Location: "); if(ptr) { ptr += strlen("Location: "); strncpy(newURL, ptr, sizeof(newURL)); *(strchr(newURL, '\r'))=0; redirect = true; //gprintf("New URL to download = %s \n", newURL); } else { //gprintf("HTTP ERROR: %s\n", htstat); free(response.data); return emptyblock; } } if (code >= 400) // Not found { //gprintf("HTTP ERROR: %s\n", htstat); free(response.data); return emptyblock; } } } } break; } } if(redirect) { // Prevent endless loop retryloop++; if(retryloop > 3) { retryloop = 0; free(response.data); return emptyblock; } struct block redirected = downloadfile(newURL); // copy the newURL data into the original data u8 * tmp = realloc(response.data, redirected.size); if (tmp == NULL) { //gprintf("Could not allocate enough memory for new URL. Download canceled.\n"); free(response.data); free(redirected.data); return emptyblock; } response.data = tmp; memcpy(response.data, redirected.data, redirected.size); // Set filestart's new size based on redirected file filestart = response.data; filesize = redirected.size; free(redirected.data); } retryloop = 0; if(filestart == NULL) { free(response.data); return emptyblock; } //Copy the file part of the response into a new memoryblock to return struct block file; file.data = malloc(filesize); file.size = filesize; if (file.data == NULL) { //printf("No more memory to copy file from HTTP response\n"); free(response.data); return emptyblock; } memcpy(file.data, filestart, filesize); //Dispose of the original response free(response.data); return file; }