/* $Id$ */ /* * Copyright (c) 2001-2010 Aaron Turner * Copyright (c) 2013-2018 Fred Klassen - AppNeta * * The Tcpreplay Suite of tools is free software: you can redistribute it * and/or modify it under the terms of the GNU General Public License as * published by the Free Software Foundation, either version 3 of the * License, or with the authors permission any later version. * * The Tcpreplay Suite 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. * * You should have received a copy of the GNU General Public License * along with the Tcpreplay Suite. If not, see . */ #include #include #include "tcpedit.h" #include "common.h" #include "tcpr.h" #include "dlt_utils.h" #include "tcpedit_stub.h" #include "hdlc.h" static char dlt_name[] = "hdlc"; static char _U_ dlt_prefix[] = "hdlc"; static uint16_t dlt_value = DLT_C_HDLC; /* * Function to register ourselves. This function is always called, regardless * of what DLT types are being used, so it shouldn't be allocating extra buffers * or anything like that (use the dlt_hdlc_init() function below for that). * Tasks: * - Create a new plugin struct * - Fill out the provides/requires bit masks. Note: Only specify which fields are * actually in the header. * - Add the plugin to the context's plugin chain * Returns: TCPEDIT_ERROR | TCPEDIT_OK | TCPEDIT_WARN */ int dlt_hdlc_register(tcpeditdlt_t *ctx) { tcpeditdlt_plugin_t *plugin; assert(ctx); /* create a new plugin structure */ plugin = tcpedit_dlt_newplugin(); /* FIXME: set what we provide & require */ plugin->provides += PLUGIN_MASK_PROTO; plugin->requires += PLUGIN_MASK_PROTO; /* what is our DLT value? */ plugin->dlt = dlt_value; /* set the prefix name of our plugin. This is also used as the prefix for our options */ plugin->name = safe_strdup(dlt_prefix); /* * Point to our functions, note, you need a function for EVERY method. * Even if it is only an empty stub returning success. */ plugin->plugin_init = dlt_hdlc_init; plugin->plugin_cleanup = dlt_hdlc_cleanup; plugin->plugin_parse_opts = dlt_hdlc_parse_opts; plugin->plugin_decode = dlt_hdlc_decode; plugin->plugin_encode = dlt_hdlc_encode; plugin->plugin_proto = dlt_hdlc_proto; plugin->plugin_l2addr_type = dlt_hdlc_l2addr_type; plugin->plugin_l2len = dlt_hdlc_l2len; plugin->plugin_get_layer3 = dlt_hdlc_get_layer3; plugin->plugin_merge_layer3 = dlt_hdlc_merge_layer3; plugin->plugin_get_mac = dlt_hdlc_get_mac; /* add it to the available plugin list */ return tcpedit_dlt_addplugin(ctx, plugin); } /* * Initializer function. This function is called only once, if and only if * this plugin will be utilized. Remember, if you need to keep track of any state, * store it in your plugin->config, not a global! * Returns: TCPEDIT_ERROR | TCPEDIT_OK | TCPEDIT_WARN */ int dlt_hdlc_init(tcpeditdlt_t *ctx) { tcpeditdlt_plugin_t *plugin; hdlc_config_t *config; assert(ctx); if ((plugin = tcpedit_dlt_getplugin(ctx, dlt_value)) == NULL) { tcpedit_seterr(ctx->tcpedit, "Unable to initialize unregistered plugin %s", dlt_name); return TCPEDIT_ERROR; } /* allocate memory for our deocde extra data */ ctx->decoded_extra_size = sizeof(hdlc_extra_t); ctx->decoded_extra = safe_malloc(ctx->decoded_extra_size); /* allocate memory for our config data */ plugin->config_size = sizeof(hdlc_config_t); plugin->config = safe_malloc(plugin->config_size); config = (hdlc_config_t *)plugin->config; /* default to unset */ config->address = 65535; config->control = 65535; return TCPEDIT_OK; /* success */ } /* * Since this is used in a library, we should manually clean up after ourselves * Unless you allocated some memory in dlt_hdlc_init(), this is just an stub. * Returns: TCPEDIT_ERROR | TCPEDIT_OK | TCPEDIT_WARN */ int dlt_hdlc_cleanup(tcpeditdlt_t *ctx) { tcpeditdlt_plugin_t *plugin; assert(ctx); if ((plugin = tcpedit_dlt_getplugin(ctx, dlt_value)) == NULL) { tcpedit_seterr(ctx->tcpedit, "Unable to cleanup unregistered plugin %s", dlt_name); return TCPEDIT_ERROR; } if (ctx->decoded_extra != NULL) { safe_free(ctx->decoded_extra); ctx->decoded_extra = NULL; ctx->decoded_extra_size = 0; } if (plugin->config != NULL) { safe_free(plugin->config); plugin->config = NULL; plugin->config_size = 0; } return TCPEDIT_OK; /* success */ } /* * This is where you should define all your AutoGen AutoOpts option parsing. * Any user specified option should have it's bit turned on in the 'provides' * bit mask. * Returns: TCPEDIT_ERROR | TCPEDIT_OK | TCPEDIT_WARN */ int dlt_hdlc_parse_opts(tcpeditdlt_t *ctx) { tcpeditdlt_plugin_t *plugin; hdlc_config_t *config; assert(ctx); plugin = tcpedit_dlt_getplugin(ctx, dlt_value); if (!plugin) return TCPEDIT_ERROR; config = plugin->config; if (plugin->config_size < sizeof(*config)) return TCPEDIT_ERROR; if (HAVE_OPT(HDLC_CONTROL)) { config->control = (uint16_t)OPT_VALUE_HDLC_CONTROL; } if (HAVE_OPT(HDLC_ADDRESS)) { config->address = (uint16_t)OPT_VALUE_HDLC_ADDRESS; } return TCPEDIT_OK; /* success */ } /* * Function to decode the layer 2 header in the packet. * You need to fill out: * - ctx->l2len * - ctx->srcaddr * - ctx->dstaddr * - ctx->proto * - ctx->decoded_extra * Returns: TCPEDIT_ERROR | TCPEDIT_OK | TCPEDIT_WARN */ int dlt_hdlc_decode(tcpeditdlt_t *ctx, const u_char *packet, const int pktlen) { cisco_hdlc_t *hdlc; hdlc_extra_t *extra; assert(ctx); assert(packet); if ((size_t)pktlen < sizeof(*hdlc)) return TCPEDIT_ERROR; if (ctx->decoded_extra_size < sizeof(*extra)) return TCPEDIT_ERROR; extra = (hdlc_extra_t *)ctx->decoded_extra; hdlc = (cisco_hdlc_t *)packet; ctx->proto = hdlc->protocol; ctx->l2len = 4; extra->address = hdlc->address; extra->control = hdlc->control; return TCPEDIT_OK; /* success */ } /* * Function to encode the layer 2 header back into the packet. * Returns: total packet len or TCPEDIT_ERROR */ int dlt_hdlc_encode(tcpeditdlt_t *ctx, u_char *packet, int pktlen, _U_ tcpr_dir_t dir) { cisco_hdlc_t *hdlc; hdlc_config_t *config = NULL; hdlc_extra_t *extra = NULL; tcpeditdlt_plugin_t *plugin = NULL; int newpktlen; assert(ctx); assert(packet); if ((size_t)pktlen < sizeof(*hdlc)) return TCPEDIT_ERROR; if (ctx->decoded_extra_size < sizeof(*extra)) return TCPEDIT_ERROR; /* Make room for our new l2 header if old l2len != 4 */ if (ctx->l2len > 4) { memmove(packet + 4, packet + ctx->l2len, pktlen - ctx->l2len); } else if (ctx->l2len < 4) { u_char *tmpbuff = safe_malloc(pktlen); memcpy(tmpbuff, packet, pktlen); memcpy(packet + 4, (tmpbuff + ctx->l2len), pktlen - ctx->l2len); safe_free(tmpbuff); } /* update the total packet length */ newpktlen = pktlen + 4 - ctx->l2len; /* * HDLC doesn't support direction, since we have no real src/dst addresses * to deal with, so we just use the original packet data or option data */ hdlc = (cisco_hdlc_t *)packet; plugin = tcpedit_dlt_getplugin(ctx, dlt_value); if (!plugin) return TCPEDIT_ERROR; config = plugin->config; if (plugin->config_size < sizeof(*config)) return TCPEDIT_ERROR; extra = (hdlc_extra_t *)ctx->decoded_extra; if (ctx->decoded_extra_size < sizeof(*extra)) return TCPEDIT_ERROR; /* set the address field */ if (config->address < 65535) { hdlc->address = (uint8_t)config->address; } else if (extra->hdlc) { hdlc->address = extra->hdlc; } else { tcpedit_seterr(ctx->tcpedit, "%s", "Non-HDLC packet requires --hdlc-address"); return TCPEDIT_ERROR; } /* set the control field */ if (config->control < 65535) { hdlc->control = (uint8_t)config->control; } else if (extra->hdlc) { hdlc->control = extra->hdlc; } else { tcpedit_seterr(ctx->tcpedit, "%s", "Non-HDLC packet requires --hdlc-control"); return TCPEDIT_ERROR; } /* copy over our protocol */ hdlc->protocol = ctx->proto; return newpktlen; /* success */ } /* * Function returns the Layer 3 protocol type of the given packet, or TCPEDIT_ERROR on error */ int dlt_hdlc_proto(tcpeditdlt_t *ctx, const u_char *packet, const int pktlen) { cisco_hdlc_t *hdlc; assert(ctx); assert(packet); if (pktlen < 4) return TCPEDIT_ERROR; hdlc = (cisco_hdlc_t *)packet; return hdlc->protocol; } /* * Function returns a pointer to the layer 3 protocol header or NULL on error */ u_char * dlt_hdlc_get_layer3(tcpeditdlt_t *ctx, u_char *packet, const int pktlen) { int l2len; assert(ctx); assert(packet); l2len = dlt_hdlc_l2len(ctx, packet, pktlen); if (l2len == -1 || pktlen < l2len) return NULL; return tcpedit_dlt_l3data_copy(ctx, packet, pktlen, l2len); } /* * function merges the packet (containing L2 and old L3) with the l3data buffer * containing the new l3 data. Note, if L2 % 4 == 0, then they're pointing to the * same buffer, otherwise there was a memcpy involved on strictly aligned architectures * like SPARC */ u_char * dlt_hdlc_merge_layer3(tcpeditdlt_t *ctx, u_char *packet, const int pktlen, u_char *l3data) { int l2len; assert(ctx); assert(packet); assert(l3data); l2len = dlt_hdlc_l2len(ctx, packet, pktlen); if (l2len == -1 || pktlen < l2len) return NULL; return tcpedit_dlt_l3data_merge(ctx, packet, pktlen, l3data, l2len); } /* * return the length of the L2 header of the current packet */ int dlt_hdlc_l2len(tcpeditdlt_t *ctx, const u_char *packet, const int pktlen) { assert(ctx); assert(packet); if (pktlen < 4) return -1; /* HDLC is a static 4 bytes */ return 4; } /* * return a static pointer to the source/destination MAC address * return NULL on error/address doesn't exist */ u_char * dlt_hdlc_get_mac(tcpeditdlt_t *ctx, tcpeditdlt_mac_type_t mac, const u_char *packet, const int pktlen) { assert(ctx); assert(packet); if (pktlen < 14) return NULL; /* FIXME: return a ptr to the source or dest mac address. */ switch(mac) { case SRC_MAC: return(NULL); break; case DST_MAC: memcpy(ctx->dstmac, packet, 2); return(ctx->dstmac); break; default: errx(-1, "Invalid tcpeditdlt_mac_type_t: %d", mac); } return(NULL); } tcpeditdlt_l2addr_type_t dlt_hdlc_l2addr_type(void) { return C_HDLC; }