FreeCalypso > hg > fc-magnetite
diff src/g23m-fad/ip/ip_kerf.c @ 174:90eb61ecd093
src/g23m-fad: initial import from TCS3.2/LoCosto
author | Mychaela Falconia <falcon@freecalypso.org> |
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date | Wed, 12 Oct 2016 05:40:46 +0000 |
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--- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/src/g23m-fad/ip/ip_kerf.c Wed Oct 12 05:40:46 2016 +0000 @@ -0,0 +1,2121 @@ +/* ++---------------------------------------------------------------------------- +| Project : +| Modul : ++---------------------------------------------------------------------------- +| Copyright 2002 Texas Instruments Berlin, AG +| All rights reserved. +| +| This file is confidential and a trade secret of Texas +| Instruments Berlin, AG +| The receipt of or possession of this file does not convey +| any rights to reproduce or disclose its contents or to +| manufacture, use, or sell anything it may describe, in +| whole, or in part, without the specific written consent of +| Texas Instruments Berlin, AG. ++---------------------------------------------------------------------------- +| Purpose : This Modul defines the functions for processing +| of incomming primitives for the component +| Internet Protocol of the mobile station ++---------------------------------------------------------------------------- +*/ + +#define ENTITY_IP + +/*==== INCLUDES ===================================================*/ + +#include <string.h> +#include "typedefs.h" +#include "pconst.cdg" +#include "vsi.h" +#include "macdef.h" /* Get PFREE_DESC2 */ +#include "pconst.cdg" +#include "custom.h" +#include "gsm.h" +#include "cnf_ip.h" +#include "mon_ip.h" +#include "prim.h" +#include "pei.h" +#include "tok.h" +#include "ccdapi.h" +#include "dti.h" +#include "ip.h" +#include "ip_udp.h" + +/* ++--------------------------------------------------------------------+ +| PROJECT : WAP MODULE : ip_kerf.c | +| STATE : code ROUTINE : ip_packet_validator | ++--------------------------------------------------------------------+ + + PURPOSE : Checks for IP packet validity +*/ +BOOL ip_packet_validator (T_desc_list2 * desc_list) +{ + TRACE_FUNCTION ("ip_packet_validator()"); + + if (desc_list == NULL) + { + TRACE_ERROR ("desc_list == NULL in IP validator."); + return FALSE; + } + + { + /* Loop once through all the list */ + register T_desc2 * desc = (T_desc2 *) desc_list->first; + register unsigned length = 0; + while (desc != NULL) + { + /* Check consistency of descs */ + if (desc->size < desc->offset + desc->len) + { + TRACE_ERROR ( + "Packet dropped: " + "desc->size < desc->offset + desc->len in IP validator." + ); + return FALSE; + /* This is a mistake. Must be DTI1. */ + /* desc->offset = 0; */ + /* desc->size = desc->len; */ + } + /* Make sure that all offsets are 0 */ + if (desc->offset != 0) + { + memmove (desc->buffer, desc->buffer + desc->offset, desc->len); + desc->offset = 0; + } + /* Calculate the sum of lengths */ + length += desc->len; + desc = (T_desc2 *) desc->next; + } + /* Check desc_list->list_len */ + if (desc_list->list_len != length) + { + TRACE_ERROR ( + "Packet dropped: " + "desc_list->list_len != length in IP validator." + ); + return FALSE; + /* This is a mistake. But we could live with it. */ + /* desc_list->list_len = (USHORT) length; */ + } + + /* Need at least LEN_IP_HEADER_B bytes for one header */ + if (length < LEN_IP_HEADER_B) + { + TRACE_ERROR ( + "Packet dropped: " + "length < LEN_IP_HEADER_B in IP validator." + ); + return FALSE; + } + + /* Have enough bytes, but they may be distributed */ + desc = (T_desc2 *) desc_list->first; + if (desc->len < LEN_IP_HEADER_B) + { + /* Collect all bytes in one desc */ + T_desc2 * bigdesc = M_ALLOC (offsetof (T_desc2, buffer) + length); + if (bigdesc == NULL) + { + TRACE_ERROR ("Not enough memory in IP validator."); + return FALSE; + } + + bigdesc->next = 0; + bigdesc->offset = 0; + bigdesc->len = (USHORT) length; + bigdesc->size = (USHORT) length; + + /* Loop again through all the list */ + length = 0; + while (desc != NULL) + { + T_desc2 * removable = desc; + memcpy (bigdesc->buffer + length, desc->buffer, desc->len); + length += desc->len; + desc = (T_desc2 *) desc->next; + MFREE (removable); + } + desc_list->first = (ULONG) bigdesc; + desc = bigdesc; + } + + /* Need at least GET_IP_HEADER_LEN_B() bytes for the IP header */ + if (length < (unsigned) GET_IP_HEADER_LEN_B (desc->buffer)) + { + TRACE_ERROR ( + "Packet dropped: " + "length < GET_IP_HEADER_LEN_B() in IP validator." + ); + return FALSE; + } + + /* Survived */ + return TRUE; + } +} + +/* ++--------------------------------------------------------------------+ +| PROJECT : GSM-FaD (8444) MODULE : IP_KERF | +| STATE : code ROUTINE : free_primitive_data_ind | ++--------------------------------------------------------------------+ + * + * Set a DTI_DATA_IND primitive free and the pointer to NULL + */ +void free_primitive_data_ind (T_DTI2_DATA_IND ** dti_data_ind) +{ + TRACE_FUNCTION ("free_primitive_data_ind()"); + + if (dti_data_ind != NULL && *dti_data_ind != NULL) { + PFREE_DESC2 (* dti_data_ind); + *dti_data_ind = NULL; + } +} + +/* ++--------------------------------------------------------------------+ +| PROJECT : GSM-FaD (8444) MODULE : IP_KERF | +| STATE : code ROUTINE : free_primitive_data_req | ++--------------------------------------------------------------------+ + * + * Set a DTI_DATA_REQ primitive free and the pointer to NULL + */ +void free_primitive_data_req (T_DTI2_DATA_REQ ** dti_data_req) +{ + TRACE_FUNCTION ("free_primitive_data_req()"); + + if (dti_data_req != NULL && *dti_data_req != NULL) { + PFREE_DESC2 (* dti_data_req); + *dti_data_req = NULL; + } +} + +/* ++--------------------------------------------------------------------+ +| PROJECT : WAP MODULE : IP | +| STATE : code ROUTINE : set_desc_len | ++--------------------------------------------------------------------+ + * + * Set the new desc length and fix desc_list length + */ +void set_desc_len (T_desc_list2 * desc_list, T_desc2 * desc, USHORT len_desc) +{ + TRACE_FUNCTION ("set_desc_len()"); + + desc_list->list_len = (USHORT) (desc_list->list_len + len_desc - desc->len); + desc->len = len_desc; +} + +/* ++--------------------------------------------------------------------+ +| PROJECT : WAP MODULE : IP | +| STATE : code ROUTINE : del_rest_descs | ++--------------------------------------------------------------------+ + * + * Free the next desc(s) from desc. Fix the list_len in desc_list + */ +void del_rest_descs (T_desc_list2 * desc_list, T_desc2 * desc) +{ + BOOL go = TRUE; + T_desc2 * p_desc_last, * p_desc_start; + + TRACE_FUNCTION ("del_rest_descs()"); + + if (desc->next > 0) + { + p_desc_start = desc; + desc = (T_desc2 *) desc->next; + + do + { + p_desc_last = desc; + + if (desc->next > 0) + desc = (T_desc2 *) desc->next; + else + go = FALSE; + + desc_list->list_len = (USHORT) + (desc_list->list_len - p_desc_last->len); + MFREE (p_desc_last); + } + while (go); + + desc = p_desc_start; + desc->next = 0; + } +} + +/* ++--------------------------------------------------------------------+ +| PROJECT : GSM-FaD (8444) MODULE : IP_KERF | +| STATE : code ROUTINE : del_descs | ++--------------------------------------------------------------------+ + * + * Free the desc(s) + */ +void del_descs (T_desc2 * desc) +{ + BOOL go = TRUE; + T_desc2 * p_desc_last; + + TRACE_FUNCTION ("del_descs()"); + + do + { + p_desc_last = desc; + + if (desc->next > 0) + desc = (T_desc2 *) desc->next; + else + go = FALSE; + + MFREE (p_desc_last); + } + while (go); +} + +/** filter_out_in_desc + * + * cuts length bytes out of a T_desc2::buffer, starting at 'start'. + * + * @param desc Pointer to a T_desc2 + * @param start Start of the block to be cut out + * @param length Length of the block to be cut out + * + * @return TRUE if parameters are valid, FALSE if parameters are invalid + */ +static BOOL filter_out_in_desc ( + T_desc2 * desc, + USHORT start, + USHORT length +) { + TRACE_FUNCTION ("filter_out_in_desc()"); + + if (desc != NULL && start + length <= desc->len) { + memmove ( + desc->buffer + start, + desc->buffer + start + length, + desc->len - start - length + ); + desc->len = (USHORT) (desc->len - length); + return TRUE; + } else { + TRACE_ERROR ("Parameters are invalid in filter_out_in_desc()."); + return FALSE; + } +} + +/** truncate_descs + * + * truncates a T_desc_list2 to no more than new_length bytes. + * + * @param desc_list Pointer to a T_desc_list2 + * @param new_length Maximal new length of that T_desc_list2 + */ +void truncate_descs (T_desc_list2 * desc_list, USHORT new_length) +{ + TRACE_FUNCTION ("truncate_descs()"); + + if (desc_list != NULL) + { + T_desc2 ** pp_desc = (T_desc2 **) & desc_list->first; + desc_list->list_len = 0; /* Will be recalculated, anyway */ + + /* First a loop over all T_descs which will remain. */ + while (*pp_desc != NULL && new_length != 0) + { + if (new_length < (*pp_desc)->len) + (*pp_desc)->len = new_length; + new_length = (USHORT) (new_length - (*pp_desc)->len); + desc_list->list_len = /* Recalculation */ + (USHORT) (desc_list->list_len + (*pp_desc)->len); + pp_desc = (T_desc2 **) & (*pp_desc)->next; + } + + /* Second a loop over all T_descs which have to be deleted, if any. */ + while (*pp_desc != NULL) + { + T_desc2 * p_desc_removable = *pp_desc; + *pp_desc = (T_desc2 *) p_desc_removable->next; + MFREE (p_desc_removable); + } + + /* This way, new_length==0 at function call results in + * desc_list->first==NULL at function return. */ + + /* Third a loop over all T_descs which have to be created, if any. + * (If it were Prokrustes, not truncation, + * we would have to allocate new T_descs here.) + * while (new_length != 0) { ... } */ + } + else + { + TRACE_ERROR ("truncate_descs() called without T_desc_list2."); + TRACE_ASSERT (0); + } +} + +/* ++--------------------------------------------------------------------+ +| PROJECT : GSM-FaD (8444) MODULE : IP_KERF | +| STATE : code ROUTINE : insert_sort_descs | ++--------------------------------------------------------------------+ + * + * Insert a new descriptor sorted by fragment offset. + * The less value at first. Filter out descs with same offset. + */ +static void insert_sort_desc (T_desc_list2 * desc_list, T_desc2 * p_new_desc) +{ + if (desc_list != NULL && p_new_desc != NULL) + { + T_desc2 * desc; + T_desc2 * p_desc_last; + UBYTE * ip_header; + USHORT offset, new_offset; + + offset = 0xffff; + ip_header = p_new_desc->buffer; + new_offset = (USHORT) GET_IP_FRAG_OFFSET (ip_header);/*lint !e415 !e416 (Warning -- access/creation of out-of-bounds pointer) */ + desc = (T_desc2 *) desc_list->first; + p_desc_last = NULL; + + while (desc NEQ NULL) + { + ip_header = desc->buffer; + offset = (USHORT) GET_IP_FRAG_OFFSET (ip_header);/*lint !e415 !e416 (Warning -- access/creation of out-of-bounds pointer) */ + if (new_offset <= offset) + break; + p_desc_last = desc; + desc = (T_desc2 *) desc->next; + } + + if (new_offset EQ offset) + { + /* Two descriptors with the same offset + * Throw away the new one */ + MFREE (p_new_desc); + } + else + { + /* Insert descriptor after p_desc_last */ + if (p_desc_last EQ NULL) + { + p_new_desc->next = desc_list->first; + desc_list->first = (ULONG) p_new_desc; + } + else + { + p_new_desc->next = p_desc_last->next; + p_desc_last->next = (ULONG) p_new_desc; + } + + /* Add the length of the new descriptor */ + desc_list->list_len = (USHORT) (desc_list->list_len + p_new_desc->len); + } + } +} + +/* ++--------------------------------------------------------------------+ +| PROJECT : GSM-FaD (8444) MODULE : IP_KERF | +| STATE : code ROUTINE : reassemble_fragments | ++--------------------------------------------------------------------+ + * + * Reassemble fragments coming in downlink + */ +void reassemble_fragments ( + T_DTI2_DATA_IND ** dti_data_ind, + T_LOLA * p_dl, + UBYTE * ip_header, + BOOL first_segment, + /* BOOL middle_segment, */ + BOOL last_segment /*,*/ + /* USHORT fragm_offset */ +) { + USHORT fragm_id, header_len_b, offset; + UBYTE fragm_prot; + ULONG server_source_addr; + BOOL found_source_addr = FALSE; + + TRACE_FUNCTION ("reassemble_fragments()"); + + fragm_id = (USHORT) GET_IP_IDENT (ip_header); + fragm_prot = GET_IP_PROT (ip_header); + server_source_addr = GET_IP_SOURCE_ADDR (ip_header); + + /* Check source address from server */ + p_dl->pos_server = 0; + do + { + if (p_dl->ip_source_addr_segment[p_dl->pos_server] NEQ server_source_addr) + p_dl->pos_server++; + else + found_source_addr = TRUE; + + } while (! found_source_addr && p_dl->pos_server < MAX_SEGM_SERVER); + + /* Select the server - by only one server p_dl->pos_server = 0 */ + if (p_dl->pos_server EQ MAX_SEGM_SERVER) + p_dl->pos_server = 0; + + p_dl->ip_source_addr_segment[p_dl->pos_server] = server_source_addr; + + /* Check if it is the first or the last segment */ + if (first_segment) + p_dl->got_first_segment[p_dl->pos_server] = TRUE; + + if (last_segment) + p_dl->got_last_segment[p_dl->pos_server] = TRUE; + + /* Is it the first of any segment type? */ + if (p_dl->state_reassembly[p_dl->pos_server] EQ NO_SEGMENTS) + { + p_dl->data_ind_reassembly[p_dl->pos_server] = *dti_data_ind; + p_dl->state_reassembly[p_dl->pos_server] = READ_SEGMENT; + p_dl->id_reassemble[p_dl->pos_server] = fragm_id; + p_dl->prot_reassemble[p_dl->pos_server] = fragm_prot; + + /* Start reassembly timer */ + + /* Implementation problem: the timer index must be + * layer * MAX_SEGM_SERVER + p_dl->pos_server. The + * layer variable is not forwarded to the function. + * It works, because layer is ever set to 0 in the moment. */ + + vsi_t_start (VSI_CALLER p_dl->pos_server, TIME_REASSEMBLY); + p_dl->timer_reass_running[p_dl->pos_server] = TRUE; + } + /* Check the fragment ID and protocol. If not the same - free resources */ + else if ( + (p_dl->id_reassemble[p_dl->pos_server] NEQ fragm_id) OR + (p_dl->prot_reassemble[p_dl->pos_server] NEQ fragm_prot) + ) { + if (p_dl->timer_reass_running[p_dl->pos_server]) + { + /* Implementation problem: the timer index must be + * layer * MAX_SEGM_SERVER + p_dl->pos_server. The + * layer variable is not forwarded to the function. + * It works, because layer is ever set to 0 in the moment. */ + + csf_stop_timer (p_dl->pos_server); + p_dl->timer_reass_running[p_dl->pos_server] = FALSE; + } + + p_dl->drop_packet = TRUE; + p_dl->state_reassembly[p_dl->pos_server] = NO_SEGMENTS; + + free_primitive_data_ind (p_dl->data_ind_reassembly + p_dl->pos_server); + + /* Note: We could generate an ICMP packet */ + return; + } + else /* Got correct segments before */ + { + /* Note: The whole datagram must be in the same descriptor */ + /* Note: The timeout value should be changed to MAX (TTL, TIME_REASSEMBLY) */ + + BOOL all_fragments_received = FALSE; + + T_desc_list2 * desc_list = & p_dl->data_ind_reassembly[p_dl->pos_server]->desc_list2; + T_desc2 * desc = (T_desc2 *) p_dl->dti_data_ind->desc_list2.first; + + if (desc == NULL || (T_desc2 *) desc_list->first == NULL) + { + TRACE_ERROR ("Pointer is NULL."); + return; + } + + /* Insert the descriptor in the right position, according to the offset */ + insert_sort_desc (desc_list, desc); + + /* Check if got all fragments */ + + if ( + p_dl->got_first_segment[p_dl->pos_server] AND + p_dl->got_last_segment[p_dl->pos_server] + ) { + BOOL go = TRUE; + USHORT data_len, next_offset; + UBYTE * ip_packet; + desc = (T_desc2 *) desc_list->first; + ip_packet = desc->buffer; + header_len_b = (USHORT) GET_IP_HEADER_LEN_B (ip_packet); + data_len = (USHORT) (desc->len - header_len_b); + next_offset = 0; + do + { + if ((T_desc2 *) desc->next != NULL) + { + desc = (T_desc2 *) desc->next; + ip_packet = desc->buffer; + next_offset = (USHORT) GET_IP_FRAG_OFFSET_B (ip_packet);/*lint !e415 !e416 (Warning -- access/creation of out-of-bounds pointer) */ + header_len_b = (USHORT) GET_IP_HEADER_LEN_B (ip_packet); + + if ((T_desc2 *) desc->next != NULL) + data_len = (USHORT) (data_len + desc->len - header_len_b); + } + else + go = FALSE; + } + while (go); + + if (data_len >= next_offset) + all_fragments_received = TRUE; + } + + /* Reassemble the fragments */ + + if (all_fragments_received) + { + BOOL go = TRUE; + USHORT len_fragments, header_len_b_first; + T_desc2 * p_desc_first, * p_desc_last; + UBYTE * ip_packet; + + p_dl->state_reassembly[p_dl->pos_server] = NO_SEGMENTS; + + if ( + desc_list == NULL || + (T_desc2 *) desc_list->first == NULL || + (T_desc2 *) ((T_desc2*)desc_list->first)->next == NULL + ) { + TRACE_ERROR ("Pointer is NULL."); + return; + } + + /* Fix the first desc */ + p_desc_first = (T_desc2 *) desc_list->first; + ip_packet = p_desc_first->buffer; + header_len_b_first = (USHORT) GET_IP_HEADER_LEN_B (ip_packet); + + /* Start from next desc */ + desc = (T_desc2 *) p_desc_first->next; + ip_packet = desc->buffer; + offset = (USHORT) GET_IP_FRAG_OFFSET_B (ip_packet);/*lint !e415 !e416 (Warning -- access/creation of out-of-bounds pointer) */ + p_desc_first->len = (USHORT) (offset + header_len_b_first); + len_fragments = offset; + + do + { + if (desc->next NEQ 0) + { + p_desc_last = desc; + desc = (T_desc2 *) desc->next; + + /* Get the fragment offset */ + ip_packet = desc->buffer; + header_len_b = (USHORT) GET_IP_HEADER_LEN_B (ip_packet); + offset = (USHORT) GET_IP_FRAG_OFFSET_B (ip_packet);/*lint !e415 !e416 (Warning -- access/creation of out-of-bounds pointer) */ + + /* Filter out IP header */ + ip_packet = p_desc_last->buffer; + header_len_b = (USHORT) GET_IP_HEADER_LEN_B (ip_packet); + filter_out_in_desc (p_desc_last, 0, header_len_b); + + len_fragments = (USHORT) (len_fragments + p_desc_last->len); + } + else + { + go = FALSE; + + /* Filter out last IP header */ + ip_packet = desc->buffer; + header_len_b = (USHORT) GET_IP_HEADER_LEN_B (ip_packet); + filter_out_in_desc (desc, 0, header_len_b); + + len_fragments = (USHORT) (len_fragments + desc->len); + } + } + while (go); + + /* Build the IP datagram */ + + /* Implementation problem: the timer index must be + * layer * MAX_SEGM_SERVER + p_dl->pos_server. The + * layer variable is not forwarded to the function. + * It works, because layer is ever set to 0 in the moment. */ + + csf_stop_timer (p_dl->pos_server); + p_dl->timer_reass_running[p_dl->pos_server] = FALSE; + /* PFREE (dti_data_ind); */ + /* Is being freed elsewhere. Would anyway have false level of indirection. */ + p_dl->data_ind_reassembly[p_dl->pos_server]->desc_list2.list_len = + (USHORT) (len_fragments + header_len_b_first); + + *dti_data_ind = p_dl->data_ind_reassembly[p_dl->pos_server]; + p_desc_first = (T_desc2 *) (*dti_data_ind)->desc_list2.first; + ip_packet = p_desc_first->buffer; + + { + ULONG dest_addr; + UBYTE ttl; + dest_addr = GET_IP_DEST_ADDR (ip_packet);/*lint !e415 !e416 (Warning -- access/creation of out-of-bounds pointer) */ + ttl = GET_IP_TTL (ip_packet);/*lint !e415 !e416 (Warning -- access/creation of out-of-bounds pointer) */ + + build_ip_header ( + ip_packet, + fragm_id, + (UBYTE) (header_len_b_first >> 2), + NORMAL_SERVICE, + ttl, + p_dl->ip_source_addr_segment[p_dl->pos_server], + dest_addr, + (UBYTE) (len_fragments + header_len_b_first), + NO_OFFSET_FRAG, + FLAG_NOT_SET, + FLAG_NOT_SET, + fragm_prot + ); + } + p_dl->data_ind_reassembly[p_dl->pos_server] = NULL; + } + /* else */ + /* PFREE (dti_data_ind); */ + /* Is being freed elsewhere. Would anyway have false level of indirection. */ + } + +} + +/* ++--------------------------------------------------------------------+ +| PROJECT : WAP MODULE : IP | +| STATE : code ROUTINE : put_desc_first_pos | ++--------------------------------------------------------------------+ + * + * Put desc on the first position of a desc_list. + * Set the new list_len in desc_list. + */ +void put_desc_first_pos (T_desc_list2 * desc_list, T_desc2 * p_desc_new) +{ + ULONG help; + T_desc2 * p_desc_help; + + TRACE_FUNCTION ("put_desc_first_pos()"); + + p_desc_help = (T_desc2 *) desc_list->first; + + if (p_desc_help NEQ p_desc_new) + { + help = desc_list->first; + desc_list->first = (ULONG) p_desc_new; + p_desc_new->next = help; + desc_list->list_len = (USHORT) (desc_list->list_len + p_desc_new->len); + } +} + +/* ++--------------------------------------------------------------------+ +| PROJECT : GSM-FaD (8444) MODULE : IP_KER | +| STATE : code ROUTINE : copy_from_descs_to_desc | ++--------------------------------------------------------------------+ + * + * Copy data from one or more descs into desc_new. Possible to use offset. + */ +void copy_from_descs_to_desc ( + T_desc2 ** desc, + T_desc2 * desc_new, + USHORT copy_len, + USHORT offset_desc, + USHORT offset_desc_new, + USHORT * pos_copy, + USHORT * total_len_copy +) { + BOOL go = TRUE; + *pos_copy = offset_desc; + *total_len_copy = 0; + + do + { + while ( + (*pos_copy < (*desc)->len) AND + (offset_desc_new < desc_new->len) AND + (*total_len_copy < copy_len) + ) { + desc_new->buffer[offset_desc_new] = (*desc)->buffer[*pos_copy]; + offset_desc_new ++; + (*pos_copy)++; + (*total_len_copy)++; + } + + if ( + (*total_len_copy >= copy_len) OR + (offset_desc_new >= desc_new->len) + ) { + go = FALSE; + } + else + { + if (*pos_copy >= (*desc)->len) + { + if ((*desc)->next > 0) + { + *desc = (T_desc2 *) (*desc)->next; + *pos_copy = 0; + } + else + { + go = FALSE; + } + } + } + } + while (go); +} + +/* ++--------------------------------------------------------------------+ +| PROJECT : WAP MODULE : IP | +| STATE : code ROUTINE : make_new_desc | ++--------------------------------------------------------------------+ + * + * Malloc a new desc. Init buffer 0 if buff_init_0 = TRUE + */ +BOOL make_new_desc ( + T_desc2 ** p_desc_new, + USHORT malloc_len, + BOOL buff_init_0 +) { + TRACE_FUNCTION ("make_new_desc()"); + + MALLOC (*p_desc_new, offsetof (T_desc2, buffer) + malloc_len); + /* The target compiler issues a warning + * "pointer type conversion may violate alignment constraints" + * here and everywhere where MALLOC is being used. */ + + if (*p_desc_new EQ 0) + return FALSE; + + if (buff_init_0) + { + USHORT i; + for (i = 0; i < malloc_len; i++) + (*p_desc_new)->buffer[i] = 0; + } + (*p_desc_new)->next = 0; + (*p_desc_new)->offset = 0; + (*p_desc_new)->len = malloc_len; + (*p_desc_new)->size = malloc_len; + return TRUE; +} + +#if 0 +/* ++--------------------------------------------------------------------+ +| PROJECT : GSM-FaD (8444) MODULE : IP_KERF | +| STATE : code ROUTINE : sort_descs_id_up | ++--------------------------------------------------------------------+ + * + * Sort the descs with fragment offset. The less value at + * first. Filter out descs with same offset. + */ +USHORT sort_descs_id_up ( + T_desc_list * desc_list, + ULONG sort_array[2][MAX_SEGMENTS] +) { + T_desc * desc; + USHORT i, n_descs, code; + BOOL go = TRUE; + ULONG addr, wert; + UBYTE * ip_header; + + TRACE_FUNCTION ("sort_descs_id_up()"); + + desc = (T_desc *) desc_list->first; + n_descs = 0; + code = GO_ON_SEGMENTING; + + if (desc->next > 0) + { + /* Write desc address and search-value into sort_array */ + + desc = (T_desc *) desc_list->first; + + i = 0; + ip_header = desc->buffer; + sort_array[1][i] = GET_IP_FRAG_OFFSET (ip_header); + sort_array[0][i++] = desc_list->first; + + do + { + if (desc->next > 0 AND i < MAX_SEGMENTS) + { + desc = (T_desc *) desc->next; + sort_array[0][i] = (ULONG) desc; + ip_header = desc->buffer; + sort_array[1][i++] = GET_IP_FRAG_OFFSET (ip_header); + } + else + go = FALSE; + } + while (go); + + /* Sort the array if not overflow */ + + if (i < MAX_SEGMENTS) + { + n_descs = i; + + for (i = 0; i < n_descs - 1; i++) + { + USHORT min, j; + min = i; + + for (j = i + 1; j < n_descs; j++) + if (sort_array[1][j] < sort_array[1][min]) + min = j; + + addr = sort_array[0][i]; + wert = sort_array[1][i]; + sort_array[0][i] = sort_array[0][min]; + sort_array[1][i] = sort_array[1][min]; + sort_array[0][min] = addr; + sort_array[1][min] = wert; + } + + /* Filter out descs with same fragment offset */ + { + ULONG v1; + USHORT j, k, len; + len = n_descs - 1; + i = 0; + while (i < len) + { + v1 = sort_array[1][i]; + j = i + 1; + if (v1 EQ sort_array[1][j]) + { + k = j; + n_descs--; + while (k <= len) + { + sort_array[0][k] = sort_array[0][k + 1]; + sort_array[1][k] = sort_array[1][k + 1]; + k++; + } + len--; + } + if (sort_array[1][i] NEQ sort_array[1][i + 1]) + i++; + } + } + + /* Put the descs together and correct the desc_list->list_len */ + + desc_list->first = sort_array[0][0]; + desc = (T_desc *) sort_array[0][0]; + desc_list->list_len = 0; + desc_list->list_len = desc->len; + + for (i = 1; i < n_descs; i++) + { + desc->next = sort_array[0][i]; + desc = (T_desc *) desc->next; + desc_list->list_len = desc_list->list_len + desc->len; + } + + desc->next = 0; + } + else + code = NO_SPACE_SEGMENTING; + + desc = (T_desc *) desc_list->first; + } + return code; +} +#endif + +/* ++--------------------------------------------------------------------+ +| PROJECT : GSM-FaD (8444) MODULE : IP_KERF | +| STATE : code ROUTINE : build_ip_header | ++--------------------------------------------------------------------+ + * + * Build IP header + */ +void build_ip_header ( + UBYTE * ip_header_new, + USHORT identity, + UBYTE header_len, + UBYTE type_of_service, + UBYTE ttl, + ULONG src_addr, + ULONG dest_addr, + USHORT total_len, + USHORT fragm_offset, + UBYTE df_flag, + UBYTE mf_flag, + UBYTE prot +) { + USHORT chk_sum; + + TRACE_FUNCTION ("build_ip_header()"); + + SET_IP_VERSION (ip_header_new, IP_VERSION); + /*lint -e{415, 416} (Warning -- access/creation of out-of-bounds pointer) */ + { + SET_IP_HEADER_LEN (ip_header_new, header_len); + SET_IP_TYPE_OF_SERVICE (ip_header_new, type_of_service); + SET_IP_TOTAL_LEN (ip_header_new, total_len); + SET_IP_IDENT (ip_header_new, identity); + SET_IP_OFF_FLAG (ip_header_new, FLAG_NOT_SET); + SET_IP_DF_FLAG (ip_header_new, df_flag); + SET_IP_MF_FLAG (ip_header_new, mf_flag); + SET_IP_FRAG_OFFSET (ip_header_new, fragm_offset); + SET_IP_PROT (ip_header_new, prot); + SET_IP_TTL (ip_header_new, ttl); + SET_IP_SOURCE_ADDR (ip_header_new, src_addr); + SET_IP_DEST_ADDR (ip_header_new, dest_addr); + RESET_IP_CHECKSUM (ip_header_new); + chk_sum = inet_checksum (ip_header_new, (USHORT) (header_len * 4)); + SET_IP_CHECKSUM (ip_header_new, chk_sum); + } +} + +/* ++--------------------------------------------------------------------+ +| PROJECT : GSM-FaD (8444) MODULE : IP_KERF | +| STATE : code ROUTINE : build_icmp_packet | ++--------------------------------------------------------------------+ + * + * Build IP icmp packet without payload + */ +void build_icmp_packet ( + USHORT header_len_b, + UBYTE typ, + UBYTE code, + UBYTE ttl, + UBYTE * ip_header, + USHORT identity, + ULONG dest_addr, + ULONG src_addr, + T_desc_list2 * desc_list +) { + USHORT chk_sum; + UBYTE header_len_b_bak; + + TRACE_FUNCTION ("build_icmp_packet()"); + + header_len_b_bak = (UBYTE) (header_len_b >> 2); + + /* Build ICMP header */ + + SET_ICMP_TYPE (ip_header, typ, header_len_b); + SET_ICMP_CODE (ip_header, code, header_len_b); + RESET_ICMP_CHK_SUM (ip_header, header_len_b); + chk_sum = desc_checksum (desc_list, header_len_b, 0); + SET_ICMP_CHK_SUM (ip_header, chk_sum, header_len_b); + + /* Build IP header */ + + build_ip_header ( + ip_header, + identity, + header_len_b_bak, + NORMAL_SERVICE, + ttl, + src_addr, + dest_addr, + desc_list->list_len, + NO_OFFSET_FRAG, + FLAG_NOT_SET, + FLAG_NOT_SET, + ICMP_PROT + ); +} + +/* ++-------------------------------------------------------------------+ +| PROJECT : WAP MODULE : IP | +| STATE : code ROUTINE : build_icmp_with_payload | ++-------------------------------------------------------------------+ + * + * Build a ICMP packet with payload of 64 bits + */ +void build_icmp_with_payload ( + T_DTI2_DATA_REQ * data_req, + USHORT identity, + UBYTE ttl, + ULONG src_addr, + UBYTE icmp_type, + UBYTE icmp_code +) { + T_desc2 * desc_new, * desc; + T_desc_list2 * desc_list; + USHORT malloc_len, header_len_b, chk_sum; + UBYTE * ip_header; + ULONG dest_addr; + +#define LEN_ICMP_HEADER_PAYLOAD 8 +#define LEN_PAYLOAD 8 + + TRACE_FUNCTION ("build_icmp_with_payload()"); + + desc_list = & data_req->desc_list2; + desc = (T_desc2 *) desc_list->first; + ip_header = desc->buffer; + dest_addr = GET_IP_SOURCE_ADDR (ip_header);/*lint !e415 !e416 (Warning -- access/creation of out-of-bounds pointer) */ + header_len_b = (USHORT) GET_IP_HEADER_LEN_B (ip_header); + + /* Up to 8 bytes payload of the old datagram */ + + { + USHORT help = (USHORT) (LEN_PAYLOAD + header_len_b); + if (help < desc->len) + set_desc_len (desc_list, desc, help); + } + + /* Throw away the rest descs if there are any */ + + del_rest_descs (desc_list, desc); + + /* Make a new desc for the ICMP packet header */ + + malloc_len = LEN_ICMP_HEADER_PAYLOAD + LEN_IP_HEADER_B; + make_new_desc (& desc_new, malloc_len, TRUE); + + /* Put the desc at the first place of the descs */ + + put_desc_first_pos (desc_list, desc_new); + + /* Build the ICMP packet and the IP header */ + + ip_header = desc_new->buffer; + header_len_b = LEN_IP_HEADER_B; + + SET_ICMP_TYPE (ip_header, icmp_type, header_len_b);/*lint !e415 !e416 (Warning -- access/creation of out-of-bounds pointer) */ + SET_ICMP_CODE (ip_header, icmp_code, header_len_b);/*lint !e415 !e416 (Warning -- access/creation of out-of-bounds pointer) */ + RESET_ICMP_CHK_SUM (ip_header, header_len_b);/*lint !e415 !e416 (Warning -- access/creation of out-of-bounds pointer) */ + chk_sum = desc_checksum (desc_list, header_len_b, 0); + SET_ICMP_CHK_SUM (ip_header, chk_sum, header_len_b);/*lint !e415 !e416 (Warning -- access/creation of out-of-bounds pointer) */ + + build_ip_header ( + ip_header, + identity, + MIN_HEADER_LEN, + NORMAL_SERVICE, + ttl, + src_addr, + dest_addr, + desc_list->list_len, + NO_OFFSET_FRAG, + FLAG_NOT_SET, + FLAG_NOT_SET, + ICMP_PROT + ); +} + +/* ++--------------------------------------------------------------------+ +| PROJECT : WAP MODULE : IP_KERF | +| STATE : code ROUTINE : init_ip | ++--------------------------------------------------------------------+ + * + * Init the global parameter + */ +void init_ip (void) +{ + T_HILA * p_ul = & ip_data->hila; + T_LOLA * p_dl = & ip_data->lola; + T_KER * p_ker = & ip_data->ker; + USHORT j; + + INIT_STATE (HILA, DOWN); + INIT_STATE (LOLA, DOWN); + INIT_STATE (KER, DEACTIVATED); + + p_ul->dti_data_req = NULL; + p_ul->drop_packet = FALSE; + p_ul->ttl = STANDARD_TTL; + p_ul->header_len = MIN_HEADER_LEN; + p_ul->state_segment = NO_SEGMENTS; + p_ul->segment_offset = 0; + p_ul->segment_prot = NO_PROT_ID; + p_ul->first_desc_segment = NULL; + p_ul->identity = IDENTITY_0; + + p_dl->drop_packet = FALSE; + p_dl->dti_data_ind= NULL; + p_dl->pos_server = 0; + + for (j = 0; j < MAX_SEGM_SERVER; j++) + { + p_dl->state_reassembly[j] = NO_SEGMENTS; + p_dl->got_first_segment[j] = FALSE; + p_dl->got_last_segment[j] = FALSE; + p_dl->ip_source_addr_segment[j] = NO_ADDR; + p_dl->data_ind_reassembly[j] = NULL; + p_dl->id_reassemble[j] = NO_ID_REASSBL; + p_dl->prot_reassemble[j] = NO_PROT_REASSBL; + } + + p_ker->peer_addr = NO_ADDR; + p_ker->netmask = INIT_NETMASK; + p_ker->source_addr = NO_ADDR; + p_ker->dst_addr = NO_ADDR; + +#ifdef _SIMULATION_ + p_ker->source_addr = TEST_SRC_ADDR; + p_ker->dst_addr = TEST_DEST_ADDR; +#endif + + p_ker->entity_name_hl[0] = 0; + p_ker->entity_name_ll[0] = 0; + + p_ker->link_id_ll = IPA_LINK_ID_DEFAULT; + p_ker->link_id_hl = IPA_LINK_ID_DEFAULT; + + p_ker->mtu = NO_MTU; + p_ker->icmp_dti_data_req = NULL; + p_ker->send_icmp = FALSE; +} + +/* ++--------------------------------------------------------------------+ +| PROJECT : GSM-FaD (8444) MODULE : IP_KERF | +| STATE : code ROUTINE : config_down_ll | ++--------------------------------------------------------------------+ + * + * Config down a lower layer entity + */ +void config_down_ll (void) +{ + T_HILA * p_ul = & ip_data->hila; + T_LOLA * p_dl = & ip_data->lola; + T_KER * p_ker = & ip_data->ker; + + USHORT j; + + TRACE_FUNCTION ("config_down_ll()"); + + free_primitive_data_ind (& p_dl->dti_data_ind); + free_primitive_data_req (& p_ker->icmp_dti_data_req); + + for (j = 0; j < MAX_SEGM_SERVER; j++) + { + /* free_primitive_data_ind (p_dl->data_ind_reassembly + j); */ + /* Has already been freed five lines above, */ + /* because p_dl->dti_data_ind == p_dl->data_ind_reassembly. */ + /* Please think anew when MAX_SEGM_SERVER becomes != 1. */ + + csf_stop_timer (j); + p_dl->timer_reass_running[j] = FALSE; + + p_dl->state_reassembly[j] = NO_SEGMENTS; + p_dl->got_first_segment[j] = FALSE; + p_dl->got_last_segment[j] = FALSE; + p_dl->ip_source_addr_segment[j] = NO_ADDR; + p_dl->data_ind_reassembly[j] = NULL; + p_dl->id_reassemble[j] = NO_ID_REASSBL; + p_dl->prot_reassemble[j] = NO_PROT_REASSBL; + } + + /* Keep STATE_WAIT are stored even if config down + * send READY_IND and set HILA STATE to IDLE if */ + + switch (GET_STATE (HILA)) { + case WAIT: /* Keep state */ + break; + case SEND: /* Send ready indication */ + dti_start ( + ip_hDTI, + IP_DTI_DEF_INSTANCE, + IP_DTI_HL_INTERFACE, + IP_DTI_DEF_CHANNEL + ); + default: + SET_STATE (HILA, IDLE); + break; + } + SET_STATE (HILA, IDLE) + + p_ul->drop_packet = FALSE; + p_ul->state_segment = NO_SEGMENTS; + p_ul->header_len = MIN_HEADER_LEN; + p_ul->ttl = STANDARD_TTL; + p_ul->segment_prot = NO_PROT_ID; + p_ul->segment_offset = 0; + p_ul->first_desc_segment = NULL; + + /* Be sure that STATE_WAIT are stored even if config down */ + + if (GET_STATE (LOLA) NEQ WAIT) + SET_STATE (LOLA, IDLE) + p_dl->drop_packet = FALSE; + + p_dl->pos_server = 0; + + p_ker->peer_addr = NO_ADDR; + p_ker->netmask = INIT_NETMASK; + p_ker->source_addr = NO_ADDR; + p_ker->dst_addr = NO_ADDR; + p_ker->entity_name_ll[0] = 0; + p_ker->mtu = NO_MTU; + p_ker->send_icmp = FALSE; +} + +/* ++--------------------------------------------------------------------+ +| PROJECT : GSM-FaD (8444) MODULE : IP_KERF | +| Sp_TATE : code ROUTINE : terminate_ip | ++--------------------------------------------------------------------+ + * + * Handle global parameter by terminate + */ +void terminate_ip (void) +{ + TRACE_FUNCTION ("terminate_ip()"); + + /* Shutdown lower entity interface */ + config_down_ll (); + + /* Parameter for higher layer entity */ + ip_data->ker.entity_name_hl[0] = 0; +} + +/* ++--------------------------------------------------------------------+ +| PROJECT : GSM-FaD (8444) MODULE : IP_KERF | +| STATE : code ROUTINE : ip_addr_int_to_byte | ++--------------------------------------------------------------------+ + * + * Build the IP address in ULONG to 4 bytes + */ +void ip_addr_int_to_byte (UBYTE * b_values, ULONG ul_value) +{ + TRACE_FUNCTION ("int_to_byte()"); + + b_values[3] = (UBYTE) (ul_value); + b_values[2] = (UBYTE) (ul_value>>8); + b_values[1] = (UBYTE) (ul_value>>16); + b_values[0] = (UBYTE) (ul_value>>24); +} + +/* ++--------------------------------------------------------------------+ +| PROJECT : GSM-FaD (8444) MODULE : IP_KERF | +| STATE : code ROUTINE : chk_packet_len | ++--------------------------------------------------------------------+ + * + * Check the IP packet length + */ +UBYTE chk_packet_len (UBYTE * ip_header, T_desc_list2 * desc_list) +{ + USHORT total_len, chk_len, mtu_len; + + TRACE_FUNCTION ("chk_packet_len()"); + + /* This is the calculated length */ + total_len = desc_list->list_len; + + /* This is the length indicated in the IP header */ + chk_len = (USHORT) GET_IP_TOTAL_LEN (ip_header); + + /* This is the max defined packet length */ + mtu_len = ip_data->ker.mtu; + + if ( + (chk_len < MIN_HEADER_LEN) OR (chk_len > total_len) OR + (total_len < MIN_HEADER_LEN) OR (chk_len > mtu_len) + ) + return ERR_PACKET_LEN; + else if (chk_len < total_len) + return CHANGE_PACKET_LEN; + else + return NO_ERROR; +} + +/* ++--------------------------------------------------------------------+ +| PROJECT : GSM-FaD (8444) MODULE : IP_KERF | +| STATE : code ROUTINE : build_ip_packet | ++--------------------------------------------------------------------+ + * + * Build the datagram or packets before sending + */ +void build_ip_packet (BOOL uplink, UBYTE select) +{ + UBYTE * ip_header; + USHORT total_len; + ULONG dest_addr, src_addr; + T_desc_list2 * desc_list; + T_desc2 * desc; + T_HILA * p_ul = & ip_data->hila; + T_LOLA * p_dl = & ip_data->lola; + T_KER * p_ker = & ip_data->ker; + + T_DTI2_DATA_REQ * data_req; + T_DTI2_DATA_IND * data_ind; + + TRACE_FUNCTION ("build_ip_packet()"); + + src_addr = p_ker->source_addr; + + /* Build uplink packets */ + + if (uplink) + { + data_req = p_ul->dti_data_req; + + switch (select) { + /* Build "standard" IP packet */ + case B_NORMAL_PACKET: + + desc_list = & p_ul->dti_data_req->desc_list2; + total_len = desc_list->list_len; + desc = (T_desc2 *) desc_list->first; + ip_header = desc->buffer; + dest_addr = GET_IP_DEST_ADDR (ip_header);/*lint !e415 !e416 (Warning -- access/creation of out-of-bounds pointer) */ + + build_ip_header ( + ip_header, + p_ul->identity, + (UBYTE) p_ul->header_len, + NORMAL_SERVICE, + p_ul->ttl, + src_addr, + dest_addr, + total_len, + NO_OFFSET_FRAG, + FLAG_NOT_SET, + FLAG_NOT_SET, + UDP_PROT + ); +#ifndef _SIMULATION_ + p_ul->identity++; +#endif + break; + + /* Build IP header for ICMP messages. Note only ICMP from higher layer. */ + case B_ICMP_PACKET: + + desc_list = & p_ul->dti_data_req->desc_list2; + total_len = desc_list->list_len; + desc = (T_desc2 *) desc_list->first; + ip_header = desc->buffer; + dest_addr = GET_IP_DEST_ADDR (ip_header);/*lint !e415 !e416 (Warning -- access/creation of out-of-bounds pointer) */ + + build_ip_header ( + ip_header, + p_ul->identity, + (UBYTE) p_ul->header_len, + NORMAL_SERVICE, + p_ul->ttl, + src_addr, + dest_addr, + total_len, + NO_OFFSET_FRAG, + FLAG_NOT_SET, + FLAG_NOT_SET, + ICMP_PROT + ); +#ifndef _SIMULATION_ + p_ul->identity++; +#endif + break; + + /* Build fragments. The first fragment use the original header from HL. */ + case B_SEGMENT: + { + /* Check if it is the first fragment */ + + if (p_ul->state_segment EQ NO_SEGMENTS) + { + T_desc2 * desc_new; + USHORT pos_copy, total_len_copy, malloc_len, header_len_b; + + desc_list = & p_ul->dti_data_req->desc_list2; + total_len = desc_list->list_len; + desc = (T_desc2 *) desc_list->first; + ip_header = desc->buffer; + dest_addr = GET_IP_DEST_ADDR (ip_header);/*lint !e415 !e416 (Warning -- access/creation of out-of-bounds pointer) */ + src_addr = p_ker->source_addr; + p_ul->header_len = (USHORT) GET_IP_HEADER_LEN (ip_header); + header_len_b = (USHORT) GET_IP_HEADER_LEN_B (ip_header); + + p_ul->state_segment = SEND_SEGMENT; + p_ul->sended_segment_len = p_ker->mtu; + p_ul->list_len_segment = total_len; + p_ul->segment_prot = GET_IP_PROT (ip_header);/*lint !e415 !e416 (Warning -- access/creation of out-of-bounds pointer) */ + p_ul->first_desc_segment = desc; + dest_addr = GET_IP_DEST_ADDR (ip_header);/*lint !e415 !e416 (Warning -- access/creation of out-of-bounds pointer) */ + + /* Make a new desc for the fragment */ + + malloc_len = p_ker->mtu; + make_new_desc (& desc_new, malloc_len, FALSE); + + data_req->desc_list2.first = (ULONG) desc_new; + data_req->desc_list2.list_len = malloc_len; + desc_new->next = 0; + + /* Build the first fragment */ + copy_from_descs_to_desc ( + & desc, desc_new, malloc_len, 0, 0, & pos_copy, & total_len_copy + ); + if (total_len_copy NEQ malloc_len) + { + /* Corrupted packet -> drop it */ + p_ul->drop_packet = TRUE; + + /* Clean up and free the descs */ + del_descs (p_ul->first_desc_segment); + p_ul->segment_offset = 0; + p_ul->next_segment_desc = 0; + p_ul->last_segment_pos = 0; + p_ul->sended_segment_len = 0; + p_ul->state_segment = NO_SEGMENTS; + } + else + { + p_ul->segment_id = p_ul->identity; + p_ul->segment_offset = 0; + + build_ip_header ( + desc_new->buffer, + p_ul->segment_id, + (UBYTE) p_ul->header_len, + NORMAL_SERVICE, + p_ul->ttl, + src_addr, + dest_addr, + malloc_len, + (USHORT) (p_ul->segment_offset >> 3), + FLAG_NOT_SET, + FLAG_SET, + p_ul->segment_prot + ); +#ifndef _SIMULATION_ + p_ul->identity++; +#endif + + /* For the next fragment */ + p_ul->segment_offset = (USHORT) (malloc_len - header_len_b); + p_ul->next_segment_desc = (ULONG) desc; + p_ul->last_segment_pos = pos_copy; + } + } + + /* Middle fragment */ + + else if (p_ul->sended_segment_len + p_ker->mtu < + p_ul->list_len_segment + LEN_IP_HEADER_B) + { + T_desc2 * desc_new; + + USHORT pos_copy, total_len_copy, malloc_len; + + /* Make a new primitive for the fragment */ + + PALLOC (dti_data_req, DTI2_DATA_REQ); + p_ul->dti_data_req = dti_data_req; + + /* Malloc the fragment desc */ + + malloc_len = p_ker->mtu; + make_new_desc (& desc_new, malloc_len, FALSE); + + dti_data_req->desc_list2.first = (ULONG) desc_new; + dti_data_req->desc_list2.list_len = malloc_len; + desc_new->next = 0; + + /* Copy the data into the fragment desc */ + + desc = (T_desc2 *) p_ul->next_segment_desc; + copy_from_descs_to_desc ( + & desc, + desc_new, + (USHORT) (malloc_len - LEN_IP_HEADER_B), + p_ul->last_segment_pos, + LEN_IP_HEADER_B, + & pos_copy, + & total_len_copy + ); + + if (total_len_copy NEQ malloc_len - LEN_IP_HEADER_B) + { + /* Corrupted packet -> drop it */ + p_ul->drop_packet = TRUE; + + /* Clean up and free the descs */ + del_descs (p_ul->first_desc_segment); + p_ul->segment_offset = 0; + p_ul->next_segment_desc = 0; + p_ul->last_segment_pos = 0; + p_ul->sended_segment_len = 0; + p_ul->state_segment = NO_SEGMENTS; + } + else + { + /* Build the IP fragment */ + + UBYTE * ip_header_first = p_ul->first_desc_segment->buffer; + dest_addr = GET_IP_DEST_ADDR (ip_header_first);/*lint !e415 !e416 (Warning -- access/creation of out-of-bounds pointer) */ + + build_ip_header ( + desc_new->buffer, + p_ul->segment_id, + MIN_HEADER_LEN, + NORMAL_SERVICE, + p_ul->ttl, + src_addr, + dest_addr, + malloc_len, + (USHORT) (p_ul->segment_offset >> 3), + FLAG_NOT_SET, + FLAG_SET, + p_ul->segment_prot + ); + + /* For the next fragment */ + p_ul->segment_offset = (USHORT) + (p_ul->segment_offset + malloc_len - LEN_IP_HEADER_B); + p_ul->next_segment_desc = (ULONG) desc; + p_ul->last_segment_pos = pos_copy; + p_ul->sended_segment_len = (USHORT) + (p_ul->sended_segment_len + malloc_len - LEN_IP_HEADER_B); + } + } + else /* Last fragment */ + { + T_desc2 * desc_new; + + USHORT pos_copy, total_len_copy, malloc_len; + + /* Make a new primitive for the fragment */ + + PALLOC (dti_data_req, DTI2_DATA_REQ); + p_ul->dti_data_req = dti_data_req; + + /* Calculate the correct len for fragment desc and malloc */ + + malloc_len = (USHORT) (LEN_IP_HEADER_B + + p_ul->list_len_segment - p_ul->sended_segment_len); + make_new_desc (& desc_new, malloc_len, FALSE); + + dti_data_req->desc_list2.first = (ULONG) desc_new; + dti_data_req->desc_list2.list_len = malloc_len; + desc_new->next = 0; + + /* Copy the data into the fragment desc */ + + desc = (T_desc2 *) p_ul->next_segment_desc; + + copy_from_descs_to_desc ( + & desc, + desc_new, + (USHORT) (malloc_len - LEN_IP_HEADER_B), + p_ul->last_segment_pos, + LEN_IP_HEADER_B, + & pos_copy, + & total_len_copy + ); + + if (total_len_copy NEQ malloc_len - LEN_IP_HEADER_B) + { + /* Corrupted packet -> drop it */ + p_ul->drop_packet = TRUE; + + /* Clean up and free the descs */ + del_descs (p_ul->first_desc_segment); + p_ul->segment_offset = 0; + p_ul->next_segment_desc = 0; + p_ul->last_segment_pos = 0; + p_ul->sended_segment_len = 0; + p_ul->state_segment = NO_SEGMENTS; + } + else + { + /* Build the fragment header */ + + UBYTE * ip_header_first = p_ul->first_desc_segment->buffer; + dest_addr = GET_IP_DEST_ADDR (ip_header_first);/*lint !e415 !e416 (Warning -- access/creation of out-of-bounds pointer) */ + + build_ip_header ( + desc_new->buffer, + p_ul->segment_id, + MIN_HEADER_LEN, + NORMAL_SERVICE, + p_ul->ttl, + src_addr, + dest_addr, + malloc_len, + (USHORT) (p_ul->segment_offset >> 3), + FLAG_NOT_SET, + FLAG_NOT_SET, + p_ul->segment_prot + ); + + /* Clean up and free the descs */ + + del_descs (p_ul->first_desc_segment); + + p_ul->segment_offset = 0; + p_ul->next_segment_desc = 0; + p_ul->last_segment_pos = 0; + p_ul->sended_segment_len = 0; + p_ul->state_segment = NO_SEGMENTS; + } + } + } + break; + + default: + break; + } + } + else + { + data_ind = p_dl->dti_data_ind; + + /* Compute DL packets */ + + switch (select) { + /* Ping request */ + case B_ICMP_ECHO_REPLY: + { + USHORT header_len_b; + + PPASS (data_ind, data_request, DTI2_DATA_REQ); + desc_list = & data_request->desc_list2; + desc = (T_desc2 *) desc_list->first; + ip_header = desc->buffer; + header_len_b = (USHORT) GET_IP_HEADER_LEN_B (ip_header); + + dest_addr = GET_IP_SOURCE_ADDR (ip_header);/*lint !e415 !e416 (Warning -- access/creation of out-of-bounds pointer) */ + + build_icmp_packet ( + (UBYTE) header_len_b, + ICMP_TYP_ECHO_REPLY, + ICMP_CODE_ECHO_REPLY, + p_ul->ttl, + ip_header, + p_ul->identity, + dest_addr, + src_addr, + desc_list + ); +#ifndef _SIMULATION_ + p_ul->identity++; +#endif + p_ker->icmp_dti_data_req = data_request; + } + break; + + case B_ICMP_REASSEMBLE_TIMEOUT: + { + /* Datagram for ICMP - reassembly - message */ + + data_ind = p_dl->data_ind_reassembly[p_dl->pos_server]; + + { + PPASS (data_ind, data_request, DTI2_DATA_REQ); + + build_icmp_with_payload ( + data_request, + p_ul->identity, + p_ul->ttl, + p_ker->source_addr, + ICMP_TYP_TIME_EXCEDED, + ICMP_CODE_FRAGM_TIME_EXC + ); +#ifndef _SIMULATION_ + p_ul->identity++; +#endif + p_ker->icmp_dti_data_req = data_request; + } + } + break; + + case B_ICMP_NO_FORWARD: + { + /* No destination address - build ICMP frame */ + + PPASS (data_ind, data_request, DTI2_DATA_REQ); + + build_icmp_with_payload ( + data_request, + p_ul->identity, + p_ul->ttl, + p_ker->source_addr, + ICMP_TYP_DEST_URECHBL, + ICMP_CODE_NO_HOST + ); +#ifndef _SIMULATION_ + p_ul->identity++; +#endif + p_ker->icmp_dti_data_req = data_request; + } + break; + + default: + break; + } + } +} + +/* ++--------------------------------------------------------------------+ +| PROJECT : GSM-FaD (8444) MODULE : IP_KERF | +| STATE : code ROUTINE : check_ip_address | ++--------------------------------------------------------------------+ + * + * Check the IP address + */ +void check_ip_address ( + BOOL * addr_type_dest, + BOOL * addr_type_src, + ULONG dest_addr, + ULONG src_addr +) { + UBYTE i; + UBYTE b_dest_addr[4], b_src_addr[4], first_nibbl_dest, first_nibbl_src; + +#define BCAST 0xFF +#define LOOP_BACK 0x7F +#define DEFAULT_ROUTE 0 +#define CLASS_A 0x0 +#define CLASS_B 0x2 +#define CLASS_C 0x6 +#define MULTICAST 0xE +#define CLASS_E 0xF +#define M_CAST_FF 0xFFFFFFFF + + TRACE_FUNCTION ("check_ip_address()"); + + ip_addr_int_to_byte (b_dest_addr, dest_addr); + ip_addr_int_to_byte (b_src_addr, src_addr); + + first_nibbl_dest = (UBYTE) (b_dest_addr[0] >> 4); + first_nibbl_src = (UBYTE) (b_src_addr[0] >> 4); + + for (i=0; i < MAX_ADDR_TYPES; i++) + { + addr_type_dest[i] = FALSE; + addr_type_src[i] = FALSE; + } + + /* Check if broadcast address */ + + if (dest_addr EQ M_CAST_FF) + addr_type_dest[BCAST_ADDR_255] = TRUE; + + if (src_addr EQ M_CAST_FF) + addr_type_src[BCAST_ADDR_255] = TRUE; + + /* Correct destination address? */ + + if (dest_addr NEQ src_addr) + { + addr_type_dest[NO_DEST_ADDR] = TRUE; + addr_type_src[NO_DEST_ADDR] = TRUE; + } + + /* Loop-back address? */ + + if (b_dest_addr[0] EQ LOOP_BACK) + addr_type_dest[LOOP_BACK_ADDR] = TRUE; + + if (b_src_addr[0] EQ LOOP_BACK) + addr_type_src[LOOP_BACK_ADDR] = TRUE; + + /* Check kind of class */ + + if ((first_nibbl_src >> 3) EQ CLASS_A) + addr_type_src[CLASS_A_ADDR] = TRUE; + + if ((first_nibbl_dest >> 3) EQ CLASS_A) + addr_type_dest[CLASS_A_ADDR] = TRUE; + + if ((first_nibbl_src >> 2) EQ CLASS_B) + addr_type_src[CLASS_B_ADDR] = TRUE; + + if ((first_nibbl_dest >> 2) EQ CLASS_B) + addr_type_dest[CLASS_B_ADDR] = TRUE; + + if ((first_nibbl_src >> 1) EQ CLASS_C) + addr_type_src[CLASS_C_ADDR] = TRUE; + + if ((first_nibbl_dest >> 1) EQ CLASS_C) + addr_type_dest[CLASS_C_ADDR] = TRUE; + + if (first_nibbl_src EQ CLASS_E AND dest_addr NEQ M_CAST_FF) + addr_type_src[CLASS_E_ADDR] = TRUE; + + if (first_nibbl_dest EQ CLASS_E AND src_addr NEQ M_CAST_FF) + addr_type_dest[CLASS_E_ADDR] = TRUE; + + /* Multicast or class D */ + + if (first_nibbl_dest EQ MULTICAST) + addr_type_dest[MCAST_ADDR] = TRUE; + + if (first_nibbl_src EQ MULTICAST) + addr_type_src[MCAST_ADDR] = TRUE; + + /* Default route */ + + if (dest_addr EQ DEFAULT_ROUTE) + addr_type_dest[DEFAULT_R_ADDR] = TRUE; + + if (src_addr EQ DEFAULT_ROUTE) + addr_type_src[DEFAULT_R_ADDR] = TRUE; + + /* Bad address? */ + + if ( + addr_type_src[BCAST_ADDR_255] OR + addr_type_src[LOOP_BACK_ADDR] OR + addr_type_src[DEFAULT_R_ADDR] + ) { + addr_type_src[BAD_UL_SRC_ADDR] = TRUE; + addr_type_src[BAD_DL_SRC_ADDR] = TRUE; + } + + if ( + addr_type_dest[BCAST_ADDR_255] OR + addr_type_dest[LOOP_BACK_ADDR] OR + addr_type_dest[DEFAULT_R_ADDR] + ) { + addr_type_dest[BAD_UL_DEST_ADDR] = TRUE; + addr_type_dest[BAD_DL_DEST_ADDR] = TRUE; + } +} + +/* Internet checksum calculations as needed in IP and UDP. + * See RFC 1071 for details. + * + * USHORT inet_checksum (UBYTE * block, USHORT len) + * Computes the Internet checksum over a simple data block. + * + * USHORT desc_checksum ( + * T_desc_list2 * dlist, + * USHORT start_offset, + * ULONG start_value + * ) + * Computes the Internet checksum over a DTI descriptor list, + * beginning at start_offset and with start_value. */ + +#define LITTLE_ENDIAN /* Change this for big-endian mode. */ + +/** Computes the Internet checksum [RFC 1071] over a simple data block. + * + * @param block pointer to data block + * @param len length of the block in octets + * @return the checksum + */ +USHORT inet_checksum (UBYTE * block, USHORT len) +{ + BOOL have_leftover = len % 2; /* If non-zero, there is a leftover + * octet at the end of the (odd-sized) + * data block. */ + ULONG value; /* Value to add. (Since we know + * nothing about the alignment of the + * block, we can't read the USHORTs + * directly from the block.) */ + ULONG checksum = 0; /* Checksum accumulator. */ + + len >>= 1; /* Count words now, not octets. */ + + while (len--) + { + /* Because we must read the data bytewise, we cannot profit from + * the independency of endianness of the original algorithm. + * That means that we have to make two different cases for big + * endian and little endian. */ + +#if defined LITTLE_ENDIAN + /*lint -e{661} (Warning -- access of out-of-bounds pointer) */ + value = block[1]<<8 | block[0]; +#elif defined BIG_ENDIAN + /*lint -e{662} (Warning -- creation of out-of-bounds pointer) */ + value = block[0]<<8 | block[1]; +#else + #error "LITTLE_ENDIAN or BIG_ENDIAN must be defined." +#endif + + checksum += value; + /*lint -e{662} (Warning -- creation of out-of-bounds pointer) */ + block +=2; + } + + if (have_leftover) + /*lint -e{661} (Warning -- access of out-of-bounds pointer) */ + checksum += *block; + + /* Fold into 16 bits. */ + while (checksum >> 16) + checksum = (checksum & 0xffff) + (checksum >> 16); + + return (USHORT) ~checksum; +} + +/** Computes a part of an Internet checksum over a data block. A + * leftover octet from a previous partial calculation is taken into + * account. If an octet is left over, it is returned as well as the + * fact that there is a leftover octet. This function is intended to + * be called only by desc_checksum() and partial_checksum(). + * + * @param block pointer to data block + * @param len length of the block in octets + * @param sum checksum value to begin with + * @param have_leftover_ptr if non-zero, a leftover octet is in *leftover_ptr + * @param leftover_ptr pointer to leftover octet; valid on input and + * output iff *have_leftover_ptr + * @return the part of the sum calculated + */ +static ULONG checksum_block_part ( + UBYTE * block, + USHORT len, + ULONG sum, + BOOL * have_leftover_ptr, + UBYTE * leftover_ptr +) { + /* This function is as complicated as it is for two reasons: + * + * (a) Each block may have an even or odd number of octets. Because + * this checksum is 16-bit based, an octet may be left over from the + * previous calculation and must be taken into account. Also in this + * calculation an octet may be left over. This fact and the value of + * the octet must be made known to the caller. + * + * (b) We must not make any assumptions about the alignment of the + * block. Therefore, in order not to cause alignment problems, all + * 16-bit values must be read bytewise. */ + + ULONG value; /* 16-bit value to be summed up */ + + TRACE_FUNCTION ("checksum_block_part()"); + + /* Previous calculation may have left over an octet. */ + if (*have_leftover_ptr) + { + if (len == 0) + return sum; + + /* See comment in inet_checksum() above for an explanation. */ + +#if defined LITTLE_ENDIAN + value = (*block++ << 8) | *leftover_ptr; +#elif defined BIG_ENDIAN + value = (*leftover_ptr << 8) | *block++; +#else + #error "LITTLE_ENDIAN or BIG_ENDIAN must be defined." +#endif + + len--; + sum += value; + } + + /* Main loop over word values. */ + *have_leftover_ptr = len % 2; + len >>= 1; + while (len--) + { + /* See comment in inet_checksum() above for an explanation. */ + +#if defined LITTLE_ENDIAN + value = block[1]<<8 | block[0]; +#elif defined BIG_ENDIAN + value = block[0]<<8 | block[1]; +#else + #error "LITTLE_ENDIAN or BIG_ENDIAN must be defined." +#endif + + sum += value; + block +=2; + } + + /* Check for leftover octet. */ + if (*have_leftover_ptr) + *leftover_ptr = *block; + + return sum; +} + +/** Compute a partial Internet checksum to be used as a astart_value + * for desc_checksum. The block must have even length. + * + * @param block data block to compute the checksum over + * @param len length of the block + * @return the partial sum calculated + */ +ULONG partial_checksum (UBYTE * block, USHORT len) +{ + BOOL dummy1 = 0; /* Needed to call checksum_block_part(). */ + UBYTE dummy2 = 0; + + return checksum_block_part (block, len, 0, & dummy1, & dummy2); +} + +/** Computes the Internet checksum over a DTI descriptor list. There + * may be a value from a previous partial calculation that is added to + * the sum as a start value. The function relies on the data length + * being at least start_offset. + * + * @param dlist descriptor list containing the data + * @param start_offset beginning position of interesting data + * @param start_value value from previous partial checksum calculation + * @return the checksum value + */ +USHORT desc_checksum ( + T_desc_list2 * dlist, + USHORT start_offset, + ULONG start_value +) { + ULONG checksum = start_value; /* The checksum to be calculated. */ + T_desc2 * desc_p; /* Pointer to current descriptor. */ + BOOL have_leftover = 0; /* True iff we have a leftover octet + * from the previous partial sum. */ + UBYTE leftover_octet = 0; /* An octet left over from the + * previous partial sum. */ + + TRACE_FUNCTION ("desc_checksum()"); + + /* Calculating the sum of the first buffer, we have to take the + * start offset into account. This includes finding the descriptor + * the offset lies in. */ + + desc_p = (T_desc2 *) dlist->first; + while (start_offset > desc_p->len) + { + start_offset = (USHORT) (start_offset - desc_p->len); + desc_p = (T_desc2 *) desc_p->next; + } + checksum = checksum_block_part ( + desc_p->buffer + start_offset, + (USHORT) (desc_p->len - start_offset), + checksum, + & have_leftover, + & leftover_octet + ); + + /* Now loop over the other descriptors. */ + for ( + desc_p = (T_desc2 *) desc_p->next; + desc_p != 0; + desc_p = (T_desc2 *) desc_p->next + ) { + checksum = checksum_block_part ( + desc_p->buffer, + desc_p->len, + checksum, + & have_leftover, + & leftover_octet + ); + } + + if (have_leftover) + checksum += leftover_octet; + + /* Fold into 16 bits. */ + while (checksum >> 16) + checksum = (checksum & 0xffff) + (checksum >> 16); + + return (USHORT) ~checksum; +} + +/*-------------------------------------------------------------------------*/ +