/**************************************************************************** * Visual Boy Advance GX * * Tantric December 2008 * * http.cpp * * HTTP operations * Written by dhewg/bushing, modified by Tantric ***************************************************************************/ #ifdef HW_RVL #include #include #include #include #include #include #include #include #include #include #include "menu.h" #include "http.h" #define TCP_CONNECT_TIMEOUT 4000 // 4 secs to make a connection #define TCP_SEND_SIZE (32 * 1024) #define TCP_RECV_SIZE (32 * 1024) #define TCP_BLOCK_RECV_TIMEOUT 4000 // 4 secs to receive #define TCP_BLOCK_SEND_TIMEOUT 4000 // 4 secs to send #define TCP_BLOCK_SIZE 1024 #define HTTP_TIMEOUT 10000 // 10 secs to get an http response #define IOS_O_NONBLOCK 0x04 static s32 tcp_socket(void) { s32 s, res; s = net_socket(PF_INET, SOCK_STREAM, IPPROTO_IP); if (s < 0) return s; // Switch off Nagle with TCP_NODELAY u32 nodelay = 1; net_setsockopt(s,IPPROTO_TCP,TCP_NODELAY,&nodelay,sizeof(nodelay)); res = net_fcntl(s, F_GETFL, 0); if (res < 0) { net_close(s); return res; } res = net_fcntl(s, F_SETFL, res | IOS_O_NONBLOCK); if (res < 0) { net_close(s); return res; } return s; } static s32 tcp_connect(char *host, const u16 port) { struct hostent *hp; struct sockaddr_in sa; struct in_addr val; s32 s, res; u64 t1; s = tcp_socket(); if (s < 0) return s; memset(&sa, 0, sizeof(struct sockaddr_in)); sa.sin_family= PF_INET; sa.sin_len = sizeof(struct sockaddr_in); sa.sin_port= htons(port); if(strlen(host) < 16 && inet_aton(host, &val)) { sa.sin_addr.s_addr = val.s_addr; } else { hp = net_gethostbyname (host); if (!hp || !(hp->h_addrtype == PF_INET)) return errno; memcpy((char *) &sa.sin_addr, hp->h_addr_list[0], hp->h_length); } t1=ticks_to_secs(gettime()); do { res = net_connect(s,(struct sockaddr*) &sa, sizeof (sa)); if(ticks_to_secs(gettime())-t1 > TCP_CONNECT_TIMEOUT*1000) break; usleep(500); }while(res != -EISCONN); if(res != -EISCONN) { net_close(s); return -1; } return s; } static int tcp_readln(const s32 s, char *buf, const u16 max_length) { s32 res = -1; s32 ret; u64 start_time = gettime(); u16 c = 0; while (c < max_length) { if (ticks_to_millisecs(diff_ticks(start_time, gettime())) > HTTP_TIMEOUT) break; ret = net_read(s, &buf[c], 1); if (ret == -EAGAIN) { usleep(20 * 1000); continue; } if (ret <= 0) break; if (c > 0 && buf[c - 1] == '\r' && buf[c] == '\n') { res = 0; buf[c-1] = 0; break; } c++; start_time = gettime(); usleep(100); } return res; } static u32 tcp_read(const s32 s, u8 *buffer, const u32 length) { char *p; u32 left, block, received, step=0; u64 t; s32 res; p = (char *)buffer; left = length; received = 0; t = gettime(); while (left) { if (ticks_to_millisecs(diff_ticks(t, gettime())) > TCP_BLOCK_RECV_TIMEOUT) { break; } block = left; if (block > TCP_RECV_SIZE) block = TCP_RECV_SIZE; res = net_read(s, p, block); if (res == -EAGAIN) { usleep(20 * 1000); continue; } if(res<=0) break; received += res; left -= res; p += res; usleep(1000); if ((received / TCP_BLOCK_SIZE) > step) { t = gettime (); step++; } } return received; } static u32 tcp_write(const s32 s, const u8 *buffer, const u32 length) { const u8 *p; u32 left, block, sent, step=0; s64 t; s32 res; p = buffer; left = length; sent = 0; t = gettime(); while (left) { if (ticks_to_millisecs(diff_ticks(t, gettime())) > TCP_BLOCK_SEND_TIMEOUT) { break; } block = left; if (block > TCP_SEND_SIZE) block = TCP_SEND_SIZE; res = net_write(s, p, block); if ((res == 0) || (res == -56)) { usleep(20 * 1000); continue; } if (res < 0) break; sent += res; left -= res; p += res; usleep(100); if ((sent / TCP_BLOCK_SIZE) > step) { t = gettime (); step++; } } return left == 0; } static bool http_split_url(char *host, char *path, const char *url) { const char *p; char *c; if (strncasecmp(url, "http://", 7)) return false; p = url + 7; c = strchr(p, '/'); if (c == NULL || c[0] == 0) return false; snprintf(host, c-p+1, "%s", p); strcpy(path, c); return true; } #define MAX_SIZE (1024*1024*15) /**************************************************************************** * http_request * Retrieves the specified URL, and stores it in the specified file or buffer ***************************************************************************/ int http_request(const char *url, FILE *hfile, u8 *buffer, u32 maxsize, bool silent) { int res = 0; char http_host[1024]; char http_path[1024]; u16 http_port; http_res result; u32 http_status; u32 sizeread = 0, content_length = 0; int linecount; if(maxsize > MAX_SIZE) return 0; if (url == NULL || (hfile == NULL && buffer == NULL)) return 0; if (!http_split_url(http_host, http_path, url)) return 0; http_port = 80; http_status = 404; int s = tcp_connect(http_host, http_port); if (s < 0) { result = HTTPR_ERR_CONNECT; return 0; } char request[1024]; char *r = request; r += sprintf(r, "GET %s HTTP/1.1\r\n", http_path); r += sprintf(r, "Host: %s\r\n", http_host); r += sprintf(r, "Cache-Control: no-cache\r\n\r\n"); res = tcp_write(s, (u8 *) request, strlen(request)); char line[256]; for (linecount = 0; linecount < 32; linecount++) { if (tcp_readln(s, line, 255) != 0) { http_status = 404; result = HTTPR_ERR_REQUEST; break; } if (strlen(line) < 1) break; sscanf(line, "HTTP/1.%*u %u", &http_status); sscanf(line, "Content-Length: %u", &content_length); } if (http_status != 200) { result = HTTPR_ERR_STATUS; net_close(s); return 0; } // length unknown - just read as much as we can if(content_length == 0) { content_length = maxsize; } else if (content_length > maxsize) { result = HTTPR_ERR_TOOBIG; net_close(s); return 0; } if (buffer != NULL) { if(!silent) ShowAction("Downloading..."); sizeread = tcp_read(s, buffer, content_length); if(!silent) CancelAction(); } else { // read into file u32 bufSize = (1024 * 32); u32 bytesLeft = content_length; u32 readSize; if(!silent) ShowProgress("Downloading...", 0, content_length); u8 * fbuffer = (u8 *) malloc(bufSize); if(fbuffer) { while (bytesLeft > 0) { if (bytesLeft < bufSize) readSize = bytesLeft; else readSize = bufSize; res = tcp_read(s, fbuffer, readSize); if (!res) break; sizeread += res; bytesLeft -= res; res = fwrite(fbuffer, 1, res, hfile); if (!res) break; if(!silent) ShowProgress("Downloading...", (content_length - bytesLeft), content_length); } free(fbuffer); } if(!silent) CancelAction(); } net_close(s); if (content_length < maxsize && sizeread != content_length) { result = HTTPR_ERR_RECEIVE; return 0; } result = HTTPR_OK; return sizeread; } #endif