///////////////////////////////////////////////////////////////////////// // $Id$ ///////////////////////////////////////////////////////////////////////// // // Copyright (C) 2001-2011 The Bochs Project // // This library is free software; you can redistribute it and/or // modify it under the terms of the GNU Lesser General Public // License as published by the Free Software Foundation; either // version 2 of the License, or (at your option) any later version. // // This library 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 // Lesser General Public License for more details. // // You should have received a copy of the GNU Lesser General Public // License along with this library; if not, write to the Free Software // Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA // // Common networking and helper code to find and create pktmover classes // Peter Grehan (grehan@iprg.nokia.com) coded the initial version of the // NE2000/ether stuff. // Define BX_PLUGGABLE in files that can be compiled into plugins. For // platforms that require a special tag on exported symbols, BX_PLUGGABLE // is used to know when we are exporting symbols and when we are importing. #define BX_PLUGGABLE #include "iodev.h" #if BX_NETWORKING #include "netmod.h" #define LOG_THIS netdev-> bx_netmod_ctl_c* theNetModCtl = NULL; int libnetmod_LTX_plugin_init(plugin_t *plugin, plugintype_t type, int argc, char *argv[]) { if (type == PLUGTYPE_CORE) { theNetModCtl = new bx_netmod_ctl_c; bx_devices.pluginNetModCtl = theNetModCtl; return 0; // Success } else { return -1; } } void libnetmod_LTX_plugin_fini(void) { delete theNetModCtl; } void* bx_netmod_ctl_c::init_module(bx_list_c *base, void *rxh, void *rxstat, bx_devmodel_c *netdev) { eth_pktmover_c *ethmod; // Attach to the selected ethernet module const char *modname = SIM->get_param_enum("ethmod", base)->get_selected(); ethmod = eth_locator_c::create(modname, SIM->get_param_string("ethdev", base)->getptr(), (const char *) SIM->get_param_string("macaddr", base)->getptr(), (eth_rx_handler_t)rxh, (eth_rx_status_t)rxstat, netdev, SIM->get_param_string("script", base)->getptr()); if (ethmod == NULL) { BX_PANIC(("could not find eth module %s", modname)); // if they continue, use null. BX_INFO(("could not find eth module %s - using null instead", modname)); ethmod = eth_locator_c::create("null", NULL, (const char *) SIM->get_param_string("macaddr", base)->getptr(), (eth_rx_handler_t)rxh, (eth_rx_status_t)rxstat, netdev, ""); if (ethmod == NULL) BX_PANIC(("could not locate null module")); } return ethmod; } eth_locator_c *eth_locator_c::all; // // Each pktmover module has a static locator class that registers // here // eth_locator_c::eth_locator_c(const char *type) { next = all; all = this; this->type = type; } extern class bx_null_locator_c bx_null_match; #if BX_NETMOD_FBSD extern class bx_fbsd_locator_c bx_fbsd_match; #endif #if BX_NETMOD_LINUX extern class bx_linux_locator_c bx_linux_match; #endif #if BX_NETMOD_WIN32 extern class bx_win32_locator_c bx_win32_match; #endif #if BX_NETMOD_TAP extern class bx_tap_locator_c bx_tap_match; #endif #if BX_NETMOD_TUNTAP extern class bx_tuntap_locator_c bx_tuntap_match; #endif #if BX_NETMOD_VDE extern class bx_vde_locator_c bx_vde_match; #endif #if BX_NETMOD_SLIRP extern class bx_slirp_locator_c bx_slirp_match; #endif extern class bx_vnet_locator_c bx_vnet_match; // // Called by ethernet chip emulations to locate and create a pktmover // object // eth_pktmover_c * eth_locator_c::create(const char *type, const char *netif, const char *macaddr, eth_rx_handler_t rxh, eth_rx_status_t rxstat, bx_devmodel_c *dev, const char *script) { #ifdef eth_static_constructors for (eth_locator_c *p = all; p != NULL; p = p->next) { if (strcmp(type, p->type) == 0) return (p->allocate(netif, macaddr, rxh, rxstat, dev, script)); } #else eth_locator_c *ptr = 0; if (!strcmp(type, "null")) { ptr = (eth_locator_c *) &bx_null_match; } #if BX_NETMOD_FBSD { if (!strcmp(type, "fbsd")) ptr = (eth_locator_c *) &bx_fbsd_match; } #endif #if BX_NETMOD_LINUX { if (!strcmp(type, "linux")) ptr = (eth_locator_c *) &bx_linux_match; } #endif #if BX_NETMOD_TUNTAP { if (!strcmp(type, "tuntap")) ptr = (eth_locator_c *) &bx_tuntap_match; } #endif #if BX_NETMOD_VDE { if (!strcmp(type, "vde")) ptr = (eth_locator_c *) &bx_vde_match; } #endif #if BX_NETMOD_SLIRP { if (!strcmp(type, "slirp")) ptr = (eth_locator_c *) &bx_slirp_match; } #endif #if BX_NETMOD_TAP { if (!strcmp(type, "tap")) ptr = (eth_locator_c *) &bx_tap_match; } #endif #if BX_NETMOD_WIN32 { if(!strcmp(type, "win32")) ptr = (eth_locator_c *) &bx_win32_match; } #endif if (!strcmp(type, "vnet")) { ptr = (eth_locator_c *) &bx_vnet_match; } if (ptr) { return (ptr->allocate(netif, macaddr, rxh, rxstat, dev, script)); } #endif return (NULL); } #if (BX_NETMOD_TAP==1) || (BX_NETMOD_TUNTAP==1) || (BX_NETMOD_VDE==1) extern "C" { #include }; // This is a utility script used for tuntap or ethertap int execute_script(bx_devmodel_c *netdev, const char* scriptname, char* arg1) { int pid,status; if (!(pid=fork())) { char filename[BX_PATHNAME_LEN]; if (scriptname[0]=='/') { strcpy(filename, scriptname); } else { getcwd(filename, BX_PATHNAME_LEN); strcat(filename, "/"); strcat(filename, scriptname); } // execute the script BX_INFO(("Executing script '%s %s'", filename, arg1)); execle(filename, scriptname, arg1, NULL, NULL); // if we get here there has been a problem exit(-1); } wait (&status); if (!WIFEXITED(status)) { return -1; } return WEXITSTATUS(status); } #endif void write_pktlog_txt(FILE *pktlog_txt, const Bit8u *buf, unsigned len, bx_bool host_to_guest) { Bit8u *charbuf = (Bit8u *)buf; unsigned n; if (!host_to_guest) { fprintf(pktlog_txt, "a packet from guest to host, length %u\n", len); } else { fprintf(pktlog_txt, "a packet from host to guest, length %u\n", len); } for (n = 0; n < len; n++) { if (((n % 16) == 0) && (n > 0)) fprintf(pktlog_txt, "\n"); fprintf(pktlog_txt, "%02x ", (unsigned)charbuf[n]); } fprintf(pktlog_txt, "\n--\n"); fflush(pktlog_txt); } Bit16u ip_checksum(const Bit8u *buf, unsigned buf_len) { Bit32u sum = 0; unsigned n; for (n = 0; n < buf_len; n++) { if (n & 1) { sum += (Bit32u)(*buf++); } else { sum += (Bit32u)(*buf++) << 8; } } while (sum > 0xffff) { sum = (sum >> 16) + (sum & 0xffff); } return (Bit16u)sum; } // DHCP server #define BOOTREQUEST 1 #define BOOTREPLY 2 #define BOOTPOPT_PADDING 0 #define BOOTPOPT_END 255 #define BOOTPOPT_SUBNETMASK 1 #define BOOTPOPT_TIMEOFFSET 2 #define BOOTPOPT_ROUTER_OPTION 3 #define BOOTPOPT_DOMAIN_NAMESERVER 6 #define BOOTPOPT_HOST_NAME 12 #define BOOTPOPT_DOMAIN_NAME 15 #define BOOTPOPT_MAX_DATAGRAM_SIZE 22 #define BOOTPOPT_DEFAULT_IP_TTL 23 #define BOOTPOPT_BROADCAST_ADDRESS 28 #define BOOTPOPT_ARPCACHE_TIMEOUT 35 #define BOOTPOPT_DEFAULT_TCP_TTL 37 #define BOOTPOPT_NTP_SERVER 42 #define BOOTPOPT_NETBIOS_NAMESERVER 44 #define BOOTPOPT_X_FONTSERVER 48 #define BOOTPOPT_REQUESTED_IP_ADDRESS 50 #define BOOTPOPT_IP_ADDRESS_LEASE_TIME 51 #define BOOTPOPT_OPTION_OVRLOAD 52 #define BOOTPOPT_DHCP_MESSAGETYPE 53 #define BOOTPOPT_SERVER_IDENTIFIER 54 #define BOOTPOPT_PARAMETER_REQUEST_LIST 55 #define BOOTPOPT_MAX_DHCP_MESSAGE_SIZE 57 #define BOOTPOPT_RENEWAL_TIME 58 #define BOOTPOPT_REBINDING_TIME 59 #define BOOTPOPT_CLASS_IDENTIFIER 60 #define BOOTPOPT_CLIENT_IDENTIFIER 61 #define DHCPDISCOVER 1 #define DHCPOFFER 2 #define DHCPREQUEST 3 #define DHCPDECLINE 4 #define DHCPACK 5 #define DHCPNAK 6 #define DHCPRELEASE 7 #define DHCPINFORM 8 #define DEFAULT_LEASE_TIME 28800 // TFTP server support by EaseWay #define TFTP_RRQ 1 #define TFTP_WRQ 2 #define TFTP_DATA 3 #define TFTP_ACK 4 #define TFTP_ERROR 5 #define TFTP_OPTACK 6 static const Bit8u subnetmask_ipv4addr[4] = {0xff,0xff,0xff,0x00}; static const Bit8u broadcast_ipv4addr1[4] = {0xff,0xff,0xff,0xff}; int process_dhcp(bx_devmodel_c *netdev, const Bit8u *data, unsigned data_len, Bit8u *reply, dhcp_cfg_t *dhcp) { const Bit8u *opts; unsigned opts_len; unsigned extcode; unsigned extlen; const Bit8u *extdata; unsigned dhcpmsgtype = 0; bx_bool found_serverid = false; bx_bool found_leasetime = false; bx_bool found_guest_ipaddr = false; bx_bool found_host_name = false; Bit32u leasetime = BX_MAX_BIT32U; const Bit8u *dhcpreqparams = NULL; unsigned dhcpreqparams_len = 0; Bit8u dhcpreqparam_default[8]; bx_bool dhcpreqparam_default_validflag = false; unsigned dhcpreqparams_default_len = 0; Bit8u *replyopts; Bit8u replybuf[576]; char *hostname = NULL; unsigned hostname_len = 0; if (data_len < (236U+4U)) return 0; if (data[0] != BOOTREQUEST) return 0; if (data[1] != 1 || data[2] != 6) return 0; if (memcmp(&data[28U], dhcp->guest_macaddr, 6)) return 0; if (data[236] != 0x63 || data[237] != 0x82 || data[238] != 0x53 || data[239] != 0x63) return 0; opts = &data[240]; opts_len = data_len - 240U; while (1) { if (opts_len < 1) { BX_ERROR(("dhcp: invalid request")); return 0; } extcode = *opts++; opts_len--; if (extcode == BOOTPOPT_PADDING) continue; if (extcode == BOOTPOPT_END) break; if (opts_len < 1) { BX_ERROR(("dhcp: invalid request")); return 0; } extlen = *opts++; opts_len--; if (opts_len < extlen) { BX_ERROR(("dhcp: invalid request")); return 0; } extdata = opts; opts += extlen; opts_len -= extlen; switch (extcode) { case BOOTPOPT_DHCP_MESSAGETYPE: if (extlen != 1) break; dhcpmsgtype = *extdata; break; case BOOTPOPT_PARAMETER_REQUEST_LIST: if (extlen < 1) break; dhcpreqparams = extdata; dhcpreqparams_len = extlen; break; case BOOTPOPT_SERVER_IDENTIFIER: if (extlen != 4) break; if (memcmp(extdata, dhcp->host_ipv4addr, 4)) { BX_INFO(("dhcp: request to another server")); return 0; } found_serverid = true; break; case BOOTPOPT_IP_ADDRESS_LEASE_TIME: if (extlen != 4) break; leasetime = get_net4(&extdata[0]); found_leasetime = true; break; case BOOTPOPT_REQUESTED_IP_ADDRESS: if (extlen != 4) break; if (!memcmp(extdata, dhcp->default_guest_ipv4addr,4)) { found_guest_ipaddr = true; memcpy(dhcp->guest_ipv4addr, dhcp->default_guest_ipv4addr, 4); } break; case BOOTPOPT_HOST_NAME: if (extlen < 1) break; hostname = (char*)malloc(extlen); memcpy(hostname, extdata, extlen); hostname_len = extlen; found_host_name = true; break; default: BX_ERROR(("extcode %d not supported yet", extcode)); break; } } memset(&dhcpreqparam_default,0,sizeof(dhcpreqparam_default)); memset(&replybuf[0],0,sizeof(replybuf)); replybuf[0] = BOOTREPLY; replybuf[1] = 1; replybuf[2] = 6; memcpy(&replybuf[4],&data[4],4); memcpy(&replybuf[16], dhcp->default_guest_ipv4addr, 4); memcpy(&replybuf[20], dhcp->host_ipv4addr, 4); memcpy(&replybuf[28],&data[28],6); memcpy(&replybuf[44],"vnet",4); memcpy(&replybuf[108],"pxelinux.0",10); replybuf[236] = 0x63; replybuf[237] = 0x82; replybuf[238] = 0x53; replybuf[239] = 0x63; replyopts = &replybuf[240]; opts_len = sizeof(replybuf)/sizeof(replybuf[0])-240; switch (dhcpmsgtype) { case DHCPDISCOVER: BX_INFO(("dhcp server: DHCPDISCOVER")); // reset guest address; answer must be broadcasted to unconfigured IP memcpy(dhcp->guest_ipv4addr, broadcast_ipv4addr1, 4); *replyopts ++ = BOOTPOPT_DHCP_MESSAGETYPE; *replyopts ++ = 1; *replyopts ++ = DHCPOFFER; opts_len -= 3; dhcpreqparam_default[0] = BOOTPOPT_IP_ADDRESS_LEASE_TIME; dhcpreqparam_default[1] = BOOTPOPT_SERVER_IDENTIFIER; if (found_host_name) { dhcpreqparam_default[2] = BOOTPOPT_HOST_NAME; } dhcpreqparam_default_validflag = true; break; case DHCPREQUEST: BX_INFO(("dhcp server: DHCPREQUEST")); // check ciaddr. if (found_serverid || found_guest_ipaddr || (!memcmp(&data[12], dhcp->default_guest_ipv4addr, 4))) { *replyopts ++ = BOOTPOPT_DHCP_MESSAGETYPE; *replyopts ++ = 1; *replyopts ++ = DHCPACK; opts_len -= 3; dhcpreqparam_default[0] = BOOTPOPT_IP_ADDRESS_LEASE_TIME; if (!found_serverid) { dhcpreqparam_default[1] = BOOTPOPT_SERVER_IDENTIFIER; } dhcpreqparam_default_validflag = true; } else { *replyopts ++ = BOOTPOPT_DHCP_MESSAGETYPE; *replyopts ++ = 1; *replyopts ++ = DHCPNAK; opts_len -= 3; if (found_leasetime) { dhcpreqparam_default[dhcpreqparams_default_len++] = BOOTPOPT_IP_ADDRESS_LEASE_TIME; dhcpreqparam_default_validflag = true; } if (!found_serverid) { dhcpreqparam_default[dhcpreqparams_default_len++] = BOOTPOPT_SERVER_IDENTIFIER; dhcpreqparam_default_validflag = true; } } break; default: BX_ERROR(("dhcp server: unsupported message type %u",dhcpmsgtype)); return 0; } while (1) { while (dhcpreqparams_len-- > 0) { switch (*dhcpreqparams++) { case BOOTPOPT_SUBNETMASK: BX_INFO(("provide BOOTPOPT_SUBNETMASK")); if (opts_len < 6) { BX_ERROR(("option buffer is insufficient")); return 0; } opts_len -= 6; *replyopts ++ = BOOTPOPT_SUBNETMASK; *replyopts ++ = 4; memcpy(replyopts,subnetmask_ipv4addr,4); replyopts += 4; break; case BOOTPOPT_ROUTER_OPTION: BX_INFO(("provide BOOTPOPT_ROUTER_OPTION")); if (opts_len < 6) { BX_ERROR(("option buffer is insufficient")); return 0; } opts_len -= 6; *replyopts ++ = BOOTPOPT_ROUTER_OPTION; *replyopts ++ = 4; memcpy(replyopts, dhcp->host_ipv4addr, 4); replyopts += 4; break; case BOOTPOPT_DOMAIN_NAMESERVER: if (dhcp->dns_ipv4addr[0] != 0) { BX_INFO(("provide BOOTPOPT_DOMAIN_NAMESERVER")); if (opts_len < 6) { BX_ERROR(("option buffer is insufficient")); return 0; } opts_len -= 6; *replyopts ++ = BOOTPOPT_DOMAIN_NAMESERVER; *replyopts ++ = 4; memcpy(replyopts, dhcp->dns_ipv4addr, 4); replyopts += 4; } break; case BOOTPOPT_BROADCAST_ADDRESS: BX_INFO(("provide BOOTPOPT_BROADCAST_ADDRESS")); if (opts_len < 6) { BX_ERROR(("option buffer is insufficient")); return 0; } opts_len -= 6; *replyopts ++ = BOOTPOPT_BROADCAST_ADDRESS; *replyopts ++ = 4; memcpy(replyopts, dhcp->host_ipv4addr, 3); replyopts += 3; *replyopts ++ = 0xff; break; case BOOTPOPT_IP_ADDRESS_LEASE_TIME: BX_INFO(("provide BOOTPOPT_IP_ADDRESS_LEASE_TIME")); if (opts_len < 6) { BX_ERROR(("option buffer is insufficient")); return 0; } opts_len -= 6; *replyopts ++ = BOOTPOPT_IP_ADDRESS_LEASE_TIME; *replyopts ++ = 4; if (leasetime < DEFAULT_LEASE_TIME) { put_net4(replyopts, leasetime); } else { put_net4(replyopts, DEFAULT_LEASE_TIME); } replyopts += 4; break; case BOOTPOPT_SERVER_IDENTIFIER: BX_INFO(("provide BOOTPOPT_SERVER_IDENTIFIER")); if (opts_len < 6) { BX_ERROR(("option buffer is insufficient")); return 0; } opts_len -= 6; *replyopts ++ = BOOTPOPT_SERVER_IDENTIFIER; *replyopts ++ = 4; memcpy(replyopts, dhcp->host_ipv4addr,4); replyopts += 4; break; case BOOTPOPT_RENEWAL_TIME: BX_INFO(("provide BOOTPOPT_RENEWAL_TIME")); if (opts_len < 6) { BX_ERROR(("option buffer is insufficient")); return 0; } opts_len -= 6; *replyopts ++ = BOOTPOPT_RENEWAL_TIME; *replyopts ++ = 4; put_net4(replyopts, 600); replyopts += 4; break; case BOOTPOPT_REBINDING_TIME: BX_INFO(("provide BOOTPOPT_REBINDING_TIME")); if (opts_len < 6) { BX_ERROR(("option buffer is insufficient")); return 0; } opts_len -= 6; *replyopts ++ = BOOTPOPT_REBINDING_TIME; *replyopts ++ = 4; put_net4(replyopts, 1800); replyopts += 4; break; case BOOTPOPT_HOST_NAME: if (hostname != NULL) { BX_INFO(("provide BOOTPOPT_HOST_NAME")); if (opts_len < (hostname_len + 2)) { free(hostname); BX_ERROR(("option buffer is insufficient")); return 0; } opts_len -= (hostname_len + 2); *replyopts ++ = BOOTPOPT_HOST_NAME; *replyopts ++ = hostname_len; memcpy(replyopts, hostname, hostname_len); replyopts += hostname_len; free(hostname); hostname = NULL; break; } default: if (*(dhcpreqparams-1) != 0) { BX_ERROR(("dhcp server: requested parameter %u not supported yet",*(dhcpreqparams-1))); } break; } } if (!dhcpreqparam_default_validflag) break; dhcpreqparams = &dhcpreqparam_default[0]; dhcpreqparams_len = sizeof(dhcpreqparam_default); dhcpreqparam_default_validflag = false; } if (opts_len < 1) { BX_ERROR(("option buffer is insufficient")); return 0; } opts_len -= 2; *replyopts ++ = BOOTPOPT_END; opts_len = replyopts - &replybuf[0]; if (opts_len < (236U+64U)) { opts_len = (236U+64U); // BOOTP } if (opts_len < (548U)) { opts_len = 548U; // DHCP } memcpy(reply, replybuf, opts_len); return opts_len; } int tftp_send_error(Bit8u *buffer, unsigned code, const char *msg, tftp_data_t *tftp) { put_net2(buffer, TFTP_ERROR); put_net2(buffer + 2, code); strcpy((char*)buffer + 4, msg); tftp->tid = 0; return (strlen(msg) + 5); } int tftp_send_data(Bit8u *buffer, unsigned block_nr, tftp_data_t *tftp) { char path[BX_PATHNAME_LEN]; char msg[BX_PATHNAME_LEN]; int rd; if (strlen(tftp->filename) == 0) { return tftp_send_error(buffer, 1, "File not found", tftp); } if ((strlen(tftp->rootdir) + strlen(tftp->filename)) > BX_PATHNAME_LEN) { return tftp_send_error(buffer, 1, "Path name too long", tftp); } sprintf(path, "%s/%s", tftp->rootdir, tftp->filename); FILE *fp = fopen(path, "rb"); if (!fp) { sprintf(msg, "File not found: %s", tftp->filename); return tftp_send_error(buffer, 1, msg, tftp); } if (fseek(fp, (block_nr - 1) * TFTP_BUFFER_SIZE, SEEK_SET) < 0) { return tftp_send_error(buffer, 3, "Block not seekable", tftp); } rd = fread(buffer + 4, 1, TFTP_BUFFER_SIZE, fp); fclose(fp); if (rd < 0) { return tftp_send_error(buffer, 3, "Block not readable", tftp); } put_net2(buffer, TFTP_DATA); put_net2(buffer + 2, block_nr); if (rd < TFTP_BUFFER_SIZE) { tftp->tid = 0; } return (rd + 4); } int tftp_send_ack(Bit8u *buffer, unsigned block_nr) { put_net2(buffer, TFTP_ACK); put_net2(buffer + 2, block_nr); return 4; } int tftp_send_optack(Bit8u *buffer, size_t tsize_option, unsigned blksize_option) { Bit8u *p = buffer; put_net2(p, TFTP_OPTACK); p += 2; if (tsize_option > 0) { *p++='t'; *p++='s'; *p++='i'; *p++='z'; *p++='e'; *p++='\0'; sprintf((char *)p, "%lu", (unsigned long)tsize_option); p += strlen((const char *)p) + 1; } if (blksize_option > 0) { *p++='b'; *p++='l'; *p++='k'; *p++='s'; *p++='i'; *p++='z'; *p++='e'; *p++='\0'; sprintf((char *)p, "%d", blksize_option); p += strlen((const char *)p) + 1; } return (p - buffer); } // duplicate the part of tftp_send_data() that constructs the filename // but ignore errors since tftp_send_data() will respond for us static size_t get_file_size(bx_devmodel_c *netdev, const char *tpath, const char *tname) { struct stat stbuf; char path[BX_PATHNAME_LEN]; if (strlen(tname) == 0) return 0; if ((strlen(tpath) + strlen(tname)) > BX_PATHNAME_LEN) return 0; sprintf(path, "%s/%s", tpath, tname); if (stat(path, &stbuf) < 0) return 0; BX_INFO(("tftp filesize: %lu", (unsigned long)stbuf.st_size)); return (size_t)stbuf.st_size; } int process_tftp(bx_devmodel_c *netdev, const Bit8u *data, unsigned data_len, Bit16u req_tid, Bit8u *reply, tftp_data_t *tftp) { char path[BX_PATHNAME_LEN]; FILE *fp; unsigned block_nr; unsigned tftp_len; switch (get_net2(data)) { case TFTP_RRQ: if (tftp->tid == 0) { strncpy((char*)reply, (const char*)data + 2, data_len - 2); reply[data_len - 4] = 0; // options size_t tsize_option = 0; int blksize_option = 0; if (strlen((char*)reply) < data_len - 2) { const char *mode = (const char*)data + 2 + strlen((char*)reply) + 1; int octet_option = 0; while (mode < (const char*)data + data_len) { if (memcmp(mode, "octet\0", 6) == 0) { mode += 6; octet_option = 1; } else if (memcmp(mode, "tsize\0", 6) == 0) { mode += 6; tsize_option = 1; // size needed mode += strlen(mode)+1; } else if (memcmp(mode, "blksize\0", 8) == 0) { mode += 8; blksize_option = atoi(mode); mode += strlen(mode)+1; } else { BX_INFO(("tftp req: unknown option %s", mode)); break; } } if (!octet_option) { return tftp_send_error(reply, 4, "Unsupported transfer mode", tftp); } } strcpy(tftp->filename, (char*)reply); BX_INFO(("tftp req: %s", tftp->filename)); if (tsize_option) { tsize_option = get_file_size(netdev, tftp->rootdir, tftp->filename); if (tsize_option > 0) { // if tsize requested and file exists, send optack and return // optack ack will pick up where we leave off here. // if blksize_option is less than TFTP_BUFFER_SIZE should // probably use blksize_option... return tftp_send_optack(reply, tsize_option, TFTP_BUFFER_SIZE); } } if (blksize_option) { BX_INFO(("tftp req: blksize (val = %d) unused", blksize_option)); } tftp->tid = req_tid; tftp->write = 0; return tftp_send_data(reply, 1, tftp); } else { return tftp_send_error(reply, 4, "Illegal request", tftp); } break; case TFTP_WRQ: if (tftp->tid == 0) { strncpy((char*)reply, (const char*)data + 2, data_len - 2); reply[data_len - 4] = 0; // transfer mode if (strlen((char*)reply) < data_len - 2) { const char *mode = (const char*)data + 2 + strlen((char*)reply) + 1; if (memcmp(mode, "octet\0", 6) != 0) { return tftp_send_error(reply, 4, "Unsupported transfer mode", tftp); } } strcpy(tftp->filename, (char*)reply); sprintf(path, "%s/%s", tftp->rootdir, tftp->filename); fp = fopen(path, "rb"); if (fp) { fclose(fp); return tftp_send_error(reply, 6, "File exists", tftp); } fp = fopen(path, "wb"); if (!fp) { return tftp_send_error(reply, 2, "Access violation", tftp); } fclose(fp); tftp->tid = req_tid; tftp->write = 1; return tftp_send_ack(reply, 0); } else { return tftp_send_error(reply, 4, "Illegal request", tftp); } break; case TFTP_DATA: if ((tftp->tid == req_tid) && (tftp->write == 1)) { block_nr = get_net2(data + 2); strncpy((char*)reply, (const char*)data + 4, data_len - 4); tftp_len = data_len - 4; reply[tftp_len] = 0; if (tftp_len <= 512) { sprintf(path, "%s/%s", tftp->rootdir, tftp->filename); fp = fopen(path, "ab"); if (!fp) { return tftp_send_error(reply, 2, "Access violation", tftp); } if (fseek(fp, (block_nr - 1) * TFTP_BUFFER_SIZE, SEEK_SET) < 0) { return tftp_send_error(reply, 3, "Block not seekable", tftp); } fwrite(reply, 1, tftp_len, fp); fclose(fp); if (tftp_len < 512) { tftp->tid = 0; } return tftp_send_ack(reply, block_nr); } else { return tftp_send_error(reply, 4, "Illegal request", tftp); } } else { return tftp_send_error(reply, 4, "Illegal request", tftp); } break; case TFTP_ACK: return tftp_send_data(reply, get_net2(data + 2) + 1, tftp); case TFTP_ERROR: // silently ignore error packets break; default: BX_ERROR(("TFTP unknown opt %d", get_net2(data))); } return 0; } #endif /* if BX_NETWORKING */