X-Git-Url: https://gerrit.o-ran-sc.org/r/gitweb?a=blobdiff_plain;f=fhi_lib%2Flib%2Fsrc%2Fxran_cp_api.c;h=02ba81c8ba9d4d7289e2db9f673f3f6c4f3cdd02;hb=2de97529a4c5a1922214ba0e6f0fb84cacbd0bc7;hp=620f93f57064b1ee03780755a171966e7da9552e;hpb=0134817ddd14e0a57f3476fdc5eaa5e7cb75c692;p=o-du%2Fphy.git diff --git a/fhi_lib/lib/src/xran_cp_api.c b/fhi_lib/lib/src/xran_cp_api.c index 620f93f..02ba81c 100644 --- a/fhi_lib/lib/src/xran_cp_api.c +++ b/fhi_lib/lib/src/xran_cp_api.c @@ -1,2052 +1,2773 @@ -/****************************************************************************** -* -* Copyright (c) 2019 Intel. -* -* Licensed under the Apache License, Version 2.0 (the "License"); -* you may not use this file except in compliance with the License. -* You may obtain a copy of the License at -* -* http://www.apache.org/licenses/LICENSE-2.0 -* -* Unless required by applicable law or agreed to in writing, software -* distributed under the License is distributed on an "AS IS" BASIS, -* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. -* See the License for the specific language governing permissions and -* limitations under the License. -* -*******************************************************************************/ - -/** - * @brief This file provides the API functions to build Control Plane Messages - * for XRAN Front Haul layer as defined in XRAN-FH.CUS.0-v02.01. - * - * @file xran_cp_api.c - * @ingroup group_lte_source_xran - * @author Intel Corporation - * - **/ - -#include - -#include "xran_common.h" -#include "xran_transport.h" -#include "xran_cp_api.h" -#include "xran_printf.h" -#include "xran_compression.h" - - -/** - * This structure to store the section information of C-Plane - * in order to generate and parse corresponding U-Plane */ -struct xran_sectioninfo_db { - uint32_t cur_index; /**< Current index to store for this eAXC */ - struct xran_section_info list[XRAN_MAX_NUM_SECTIONS]; /**< The array of section information */ - }; - -static struct xran_sectioninfo_db sectiondb[XRAN_MAX_SECTIONDB_CTX][XRAN_DIR_MAX][XRAN_COMPONENT_CARRIERS_MAX][XRAN_MAX_ANTENNA_NR*2 + XRAN_MAX_ANT_ARRAY_ELM_NR]; - -static const uint8_t zeropad[XRAN_SECTIONEXT_ALIGN] = { 0, 0, 0, 0 }; -static const uint8_t bitmask[] = { 0x00, 0x03, 0x07, 0x0f, 0x1f, 0x3f, 0x7f, 0xff }; - - -/** - * @brief Initialize section database. - * Allocate required memory space to store section information. - * Each eAxC allocates dedicated storage and the entry size is the maximum number of sections. - * Total entry size : number of CC * number of antenna * max number of sections * 2(direction) - * - * @ingroup xran_cp_pkt - * - * @param pHandle - * handle for xRAN interface, currently not being used - * @return - * XRAN_STATUS_SUCCESS on success - * XRAN_STATUS_RESOURCE, if memory is not enough to allocate database area - */ -int xran_cp_init_sectiondb(void *pHandle) -{ - int ctx, dir, cc, ant; - - for(ctx=0; ctx < XRAN_MAX_SECTIONDB_CTX; ctx++) - for(dir=0; dir < XRAN_DIR_MAX; dir++) - for(cc=0; cc < XRAN_COMPONENT_CARRIERS_MAX; cc++) - for(ant=0; ant < XRAN_MAX_ANTENNA_NR*2 + XRAN_MAX_ANT_ARRAY_ELM_NR; ant++) - sectiondb[ctx][dir][cc][ant].cur_index = 0; - - return (XRAN_STATUS_SUCCESS); -} - -/** - * @brief Release and free section database - * - * @ingroup xran_cp_pkt - * - * @param pHandle - * handle for xRAN interface, currently not being used - * @return - * XRAN_STATUS_SUCCESS on success - */ -int xran_cp_free_sectiondb(void *pHandle) -{ - return (XRAN_STATUS_SUCCESS); -} - -static inline struct xran_sectioninfo_db *xran_get_section_db(void *pHandle, - uint8_t dir, uint8_t cc_id, uint8_t ruport_id, uint8_t ctx_id) -{ - struct xran_sectioninfo_db *ptr; - - - if(unlikely(ctx_id >= XRAN_MAX_SECTIONDB_CTX)) { - print_err("Invalid Context id - %d", ctx_id); - return (NULL); - } - - if(unlikely(dir >= XRAN_DIR_MAX)) { - print_err("Invalid direction - %d", dir); - return (NULL); - } - - if(unlikely(cc_id >= XRAN_COMPONENT_CARRIERS_MAX)) { - print_err("Invalid CC id - %d", cc_id); - return (NULL); - } - - if(unlikely(ruport_id >= XRAN_MAX_ANTENNA_NR*2 + XRAN_MAX_ANT_ARRAY_ELM_NR)) { - print_err("Invalid eAxC id - %d", ruport_id); - return (NULL); - } - - ptr = §iondb[ctx_id][dir][cc_id][ruport_id]; - - return(ptr); -} - -static inline struct xran_section_info *xran_get_section_info(struct xran_sectioninfo_db *ptr, uint16_t index) -{ - if(unlikely(ptr == NULL)) - return (NULL); - - if(unlikely(index > XRAN_MAX_NUM_SECTIONS)) { - print_err("Index is out of range - %d", index); - return (NULL); - } - - return(&(ptr->list[index])); -} - -/** - * @brief Add a section information of C-Plane to dabase. - * - * @ingroup xran_cp_pkt - * - * @param pHandle - * handle for xRAN interface, currently not being used - * @param dir - * Direction of C-Plane message for the section to store - * @param cc_id - * CC ID of C-Plane message for the section to store - * @param ruport_id - * RU port ID of C-Plane message for the section to store - * @param ctx_id - * Context index for the section database - * @param info - * The information of this section to store - * @return - * XRAN_STATUS_SUCCESS on success - * XRAN_STATUS_INVALID_PARAM, if direction, CC ID or RU port ID is incorrect - * XRAN_STATUS_RESOURCE, if no more space to add on database - */ -int xran_cp_add_section_info(void *pHandle, - uint8_t dir, uint8_t cc_id, uint8_t ruport_id, uint8_t ctx_id, - struct xran_section_info *info) -{ - struct xran_sectioninfo_db *ptr; - struct xran_section_info *list; - - - ptr = xran_get_section_db(pHandle, dir, cc_id, ruport_id, ctx_id); - if(unlikely(ptr == NULL)) { - return (XRAN_STATUS_INVALID_PARAM); - } - - if(unlikely(ptr->cur_index >= XRAN_MAX_NUM_SECTIONS)) { - print_err("No more space to add section information!"); - return (XRAN_STATUS_RESOURCE); - } - - list = xran_get_section_info(ptr, ptr->cur_index); - - rte_memcpy(list, info, sizeof(struct xran_section_info)); - - ptr->cur_index++; - - return (XRAN_STATUS_SUCCESS); -} - -int xran_cp_add_multisection_info(void *pHandle, - uint8_t cc_id, uint8_t ruport_id, uint8_t ctx_id, - struct xran_cp_gen_params *gen_info) -{ - int i; - uint8_t dir, num_sections; - struct xran_sectioninfo_db *ptr; - struct xran_section_info *list; - - - dir = gen_info->dir; - num_sections = gen_info->numSections; - - ptr = xran_get_section_db(pHandle, dir, cc_id, ruport_id, ctx_id); - if(unlikely(ptr == NULL)) { - return (XRAN_STATUS_INVALID_PARAM); - } - - if(unlikely(ptr->cur_index+num_sections >= XRAN_MAX_NUM_SECTIONS)) { - print_err("No more space to add section information!"); - return (XRAN_STATUS_RESOURCE); - } - - list = xran_get_section_info(ptr, ptr->cur_index); - - for(i=0; isections[i].info, sizeof(struct xran_section_info)); - ptr->cur_index++; - } - - return (XRAN_STATUS_SUCCESS); -} - -/** - * @brief Find a section information of C-Plane from dabase - * by given information - * - * @ingroup xran_cp_pkt - * - * @param pHandle - * handle for xRAN interface, currently not being used - * @param dir - * The direction of the section to find - * @param cc_id - * The CC ID of the section to find - * @param ruport_id - * RU port ID of the section to find - * @param ctx_id - * Context index for the section database - * @param section_id - * The ID of section to find - * @return - * The pointer of section information if matched section is found - * NULL if failed to find matched section - */ -struct xran_section_info *xran_cp_find_section_info(void *pHandle, - uint8_t dir, uint8_t cc_id, uint8_t ruport_id, - uint8_t ctx_id, uint16_t section_id) -{ - int index, num_index; - struct xran_sectioninfo_db *ptr; - - - ptr = xran_get_section_db(pHandle, dir, cc_id, ruport_id, ctx_id); - if(unlikely(ptr == NULL)) - return (NULL); - - if(ptr->cur_index > XRAN_MAX_NUM_SECTIONS) - num_index = XRAN_MAX_NUM_SECTIONS; - else - num_index = ptr->cur_index; - - for(index=0; index < num_index; index++) { - if(ptr->list[index].id == section_id) { - return (xran_get_section_info(ptr, index)); - } - } - - print_dbg("No section ID in the list - %d", section_id); - return (NULL); -} - -/** - * @brief Iterate each section information of C-Plane - * from the database of eAxC by given information - * - * @ingroup xran_cp_pkt - * - * @param pHandle - * handle for xRAN interface, currently not being used - * @param dir - * The direction of the section to find - * @param cc_id - * The CC ID of the section to find - * @param ruport_id - * RU port ID of the section to find - * @param ctx_id - * Context index for the section database - * @param next - * The pointer to store the position of next entry - * @return - * The pointer of section information in the list - * NULL if reached at the end of the list - */ -struct xran_section_info *xran_cp_iterate_section_info(void *pHandle, - uint8_t dir, uint8_t cc_id, uint8_t ruport_id, - uint8_t ctx_id, uint32_t *next) -{ - int index; - struct xran_sectioninfo_db *ptr; - - - ptr = xran_get_section_db(pHandle, dir, cc_id, ruport_id, ctx_id); - if(unlikely(ptr == NULL)) - return (NULL); - - index = *next; - if(*next < ptr->cur_index) { - (*next)++; - return (xran_get_section_info(ptr, index)); - } - else { - print_dbg("No more sections in the list"); - return (NULL); - } -} - -/** - * @brief Get the size of stored entries - * for the database of eAxC by given information - * - * @ingroup xran_cp_pkt - * - * @param pHandle - * handle for xRAN interface, currently not being used - * @param dir - * The direction of the section to find - * @param cc_id - * The CC ID of the section to find - * @param ruport_id - * RU port ID of the section to find - * @param ctx_id - * Context index for the section database - * @return - * The size of stored entries - * -1 if failed to find matched database - */ -int32_t xran_cp_getsize_section_info(void *pHandle, uint8_t dir, uint8_t cc_id, uint8_t ruport_id, uint8_t ctx_id) -{ - int index; - struct xran_sectioninfo_db *ptr; - - - ptr = xran_get_section_db(pHandle, dir, cc_id, ruport_id, ctx_id); - if(unlikely(ptr == NULL)) - return (-1); - - return (ptr->cur_index); -} - -/** - * @brief Reset a database of eAxC by given information - * - * @ingroup xran_cp_pkt - * - * @param pHandle - * handle for xRAN interface, currently not being used - * @param dir - * The direction of the section to find - * @param cc_id - * The CC ID of the section to find - * @param ruport_id - * RU port ID of the section to find - * @param ctx_id - * Context index for the section database - * @return - * XRAN_STATUS_SUCCESS on success - * XRAN_STATUS_INVALID_PARM if failed to find matched database - */ -int xran_cp_reset_section_info(void *pHandle, uint8_t dir, uint8_t cc_id, uint8_t ruport_id, uint8_t ctx_id) -{ - struct xran_sectioninfo_db *ptr; - - ptr = xran_get_section_db(pHandle, dir, cc_id, ruport_id, ctx_id); - if(unlikely(ptr == NULL)) { - return (XRAN_STATUS_INVALID_PARAM); - } - - ptr->cur_index = 0; - - return (XRAN_STATUS_SUCCESS); -} - - -int xran_dump_sectiondb(void) -{ - // TODO: - return (0); -} - -int32_t xran_cp_populate_section_ext_1(int8_t *p_ext1_dst, /**< destination buffer */ - uint16_t ext1_dst_len, /**< dest buffer size */ - int16_t *p_bfw_iq_src, /**< source buffer of IQs */ - uint16_t rbNum, /* number RBs to ext1 chain */ - uint16_t bfwNumPerRb, /* number of bf weights per RB (i.e. antenna elements) */ - uint8_t bfwiqWidth, /* bit size of IQs */ - uint8_t bfwCompMeth) /* compression method */ -{ - struct xran_cp_radioapp_section_ext1 *p_ext1; - - uint8_t *p_bfw_content = NULL; - int32_t parm_size = 0; - int32_t bfw_iq_bits = 0; - int32_t total_len = 0; - int32_t comp_len = 0; - uint8_t ext_flag = XRAN_EF_F_ANOTHER_ONE; - int16_t idxRb = 0; - int16_t cur_ext_len = 0; - int8_t *p_ext1_dst_cur = NULL; - - struct xranlib_compress_request bfp_com_req; - struct xranlib_compress_response bfp_com_rsp; - - memset(&bfp_com_req, 0, sizeof(struct xranlib_compress_request)); - memset(&bfp_com_rsp, 0, sizeof(struct xranlib_compress_response)); - - print_dbg("%s comp %d\n", __FUNCTION__, bfwCompMeth); - print_dbg("bfwNumPerRb %d bfwiqWidth %d\n", bfwNumPerRb, bfwiqWidth); - - if(p_ext1_dst) - p_ext1_dst_cur = p_ext1_dst; - else - return (XRAN_STATUS_INVALID_PARAM); - - /* create extType=1 section for each RB */ - for (idxRb = 0; idxRb < rbNum; idxRb++) { - print_dbg("%s RB %d\n", __FUNCTION__, idxRb); - - if(total_len >= ext1_dst_len){ - print_err("p_ext1_dst overflow\n"); - return -1; - } - - cur_ext_len = 0; /** populate one extType=1 section with BFW for 1 RB */ - parm_size = sizeof(struct xran_cp_radioapp_section_ext1); - p_ext1 = (struct xran_cp_radioapp_section_ext1 *)p_ext1_dst_cur; - if(p_ext1 == NULL) { - print_err("p_ext1 is null!\n"); - return (XRAN_STATUS_INVALID_PARAM); - } - - cur_ext_len += parm_size; - - if(idxRb+1 == rbNum) - ext_flag = XRAN_EF_F_LAST; - - p_ext1->extType = XRAN_CP_SECTIONEXTCMD_1; - p_ext1->ef = ext_flag; - p_ext1->bfwCompMeth = bfwCompMeth; - p_ext1->bfwIqWidth = XRAN_CONVERT_BFWIQWIDTH(bfwiqWidth); - - switch(bfwCompMeth) { - case XRAN_BFWCOMPMETHOD_BLKFLOAT: - p_bfw_content = (uint8_t *)(p_ext1+1); - if(p_bfw_content == NULL) { - print_err("Fail to allocate the space for section extension 1"); - return (XRAN_STATUS_RESOURCE); - } - bfp_com_req.data_in = (int16_t*)p_bfw_iq_src; - bfp_com_req.len = bfwNumPerRb*4; - bfp_com_req.compMethod = p_ext1->bfwCompMeth; - bfp_com_req.iqWidth = p_ext1->bfwIqWidth; - - print_dbg("req 0x%08p iqWidth %d\n",bfp_com_req.data_in, bfp_com_req.iqWidth); - - parm_size = 1; /* exponent as part of bfwCompParam 1 octet */ - break; - case XRAN_BFWCOMPMETHOD_BLKSCALE: - rte_panic("XRAN_BFWCOMPMETHOD_BLKSCALE"); - break; - - case XRAN_BFWCOMPMETHOD_ULAW: - rte_panic("XRAN_BFWCOMPMETHOD_BLKSCALE"); - break; - - case XRAN_BFWCOMPMETHOD_BEAMSPACE: - rte_panic("XRAN_BFWCOMPMETHOD_BLKSCALE"); - break; - - case XRAN_BFWCOMPMETHOD_NONE: - default: - p_bfw_content = (uint8_t *)(p_ext1+1); - /* bfwCompParam is absent for no compression case */ - parm_size = 0; - } - - if(p_bfw_content == NULL) { - print_err("Fail to allocate the space for section extension 1"); - return (XRAN_STATUS_RESOURCE); - } - - bfw_iq_bits = bfwNumPerRb* bfwiqWidth * 2; - - parm_size += bfw_iq_bits>>3; - if(bfw_iq_bits%8) - parm_size++; - - print_dbg("copy BF W %p -> %p size %d \n", p_bfw_iq_src, p_bfw_content, parm_size); - if (p_ext1->bfwIqWidth == 0 || p_ext1->bfwIqWidth == 16){ - rte_memcpy(p_bfw_content, p_bfw_iq_src, parm_size); - } else { - bfp_com_rsp.data_out = (int8_t*)p_bfw_content; - if(xranlib_compress_avx512_bfw(&bfp_com_req, &bfp_com_rsp) == 0){ - comp_len = bfp_com_rsp.len; - print_dbg("comp_len %d\n", comp_len); - } else { - print_err("compression failed\n"); - return (XRAN_STATUS_FAIL); - } - } - - p_bfw_content = (uint8_t *)(p_bfw_content + parm_size); - - cur_ext_len += parm_size; - parm_size = cur_ext_len % XRAN_SECTIONEXT_ALIGN; - if(parm_size) { - parm_size = XRAN_SECTIONEXT_ALIGN - parm_size; - p_bfw_content = (uint8_t *)(p_bfw_content + parm_size); - rte_memcpy(p_bfw_content, zeropad, parm_size); - cur_ext_len += parm_size; - print_dbg("zeropad %d cur_ext_len %d\n", parm_size, cur_ext_len); - } - - if(cur_ext_len % XRAN_SECTIONEXT_ALIGN) - rte_panic("ext1 should be aligned on 4-bytes boundary"); - - p_ext1->extLen = cur_ext_len / XRAN_SECTIONEXT_ALIGN; - print_dbg("p_ext1->extLen %d\n", p_ext1->extLen); - - /* update for next RB */ - p_ext1_dst_cur += cur_ext_len; - p_bfw_iq_src = p_bfw_iq_src + bfwNumPerRb*2; - - total_len += cur_ext_len; - } - - print_dbg("total_len %d\n", total_len); - return (total_len); -} - - -// Cyclic Prefix Length 5.4.4.14 -// CP_length = cpLength * Ts, Ts = 1/30.72MHz -// i.e cpLength = CP_length / Ts ? -#define CPLEN_TS (30720000) -inline uint16_t xran_get_cplength(int CP_length) -{ - return (CP_length); -} - -// Frequency offset 5.4.5.11 -// frequency_offset = freqOffset * SCS * 0.5 -// i.e freqOffset = (frequency_offset *2 )/ SCS ? -inline int32_t xran_get_freqoffset(int32_t freqOffset, int32_t scs) -{ - return (freqOffset); -} - -static int xran_copy_sectionext_1(struct rte_mbuf *mbuf, - struct xran_sectionext1_info *params, int last_flag) -{ - int32_t total_len; - int8_t *p_dst = (int8_t *)rte_pktmbuf_append(mbuf, params->bfwIQ_sz); - if(p_dst == NULL) { - print_err("Fail to allocate the space for section extension 1 [%d]", params->bfwIQ_sz); - return (XRAN_STATUS_RESOURCE); - } - if(params->p_bfwIQ){ - /* copy formated extType1 with all the headers */ - rte_memcpy(p_dst, params->p_bfwIQ, params->bfwIQ_sz); - total_len = params->bfwIQ_sz; - } - else - total_len = 0; - - - return (total_len); -} - - -static int xran_prepare_sectionext_1(struct rte_mbuf *mbuf, - struct xran_sectionext1_info *params, int last_flag) -{ - struct xran_cp_radioapp_section_ext1 *ext1; - uint8_t *data; - int parm_size, iq_size; - int total_len; - - total_len = 0; - - print_dbg("%s %d\n", __FUNCTION__, last_flag); - - parm_size = sizeof(struct xran_cp_radioapp_section_ext1); - ext1 = (struct xran_cp_radioapp_section_ext1 *)rte_pktmbuf_append(mbuf, parm_size); - if(ext1 == NULL) { - print_err("Fail to allocate the space for section extension 1 [%d]", parm_size); - return (XRAN_STATUS_RESOURCE); - } - - total_len += parm_size; - - ext1->extType = XRAN_CP_SECTIONEXTCMD_1; - ext1->ef = last_flag; - ext1->bfwCompMeth = params->bfwCompMeth; - ext1->bfwIqWidth = XRAN_CONVERT_BFWIQWIDTH(params->bfwiqWidth); - - switch(params->bfwCompMeth) { - case XRAN_BFWCOMPMETHOD_BLKFLOAT: - parm_size = 1; - data = (uint8_t *)rte_pktmbuf_append(mbuf, parm_size); - if(data == NULL) { - print_err("Fail to allocate the space for section extension 1 [%d]", parm_size); - return (XRAN_STATUS_RESOURCE); - } - total_len += parm_size; - *data = (params->bfwCompParam.exponent & 0x0f); - break; - - case XRAN_BFWCOMPMETHOD_BLKSCALE: - parm_size = 1; - data = (uint8_t *)rte_pktmbuf_append(mbuf, parm_size); - if(data == NULL) { - print_err("Fail to allocate the space for section extension 1 [%d]", parm_size); - return (XRAN_STATUS_RESOURCE); - } - total_len += parm_size; - *data = params->bfwCompParam.blockScaler; - break; - - case XRAN_BFWCOMPMETHOD_ULAW: - parm_size = 1; - data = (uint8_t *)rte_pktmbuf_append(mbuf, parm_size); - if(data == NULL) { - print_err("Fail to allocate the space for section extension 1 [%d]", parm_size); - return (XRAN_STATUS_RESOURCE); - } - total_len += parm_size; - *data = params->bfwCompParam.compBitWidthShift; - break; - - case XRAN_BFWCOMPMETHOD_BEAMSPACE: - parm_size = params->bfwNumber>>3; - if(params->bfwNumber%8) parm_size++; - parm_size *= 8; - data = (uint8_t *)rte_pktmbuf_append(mbuf, parm_size); - if(data == NULL) { - print_err("Fail to allocate the space for section extension 1 [%d]", parm_size); - return (XRAN_STATUS_RESOURCE); - } - rte_memcpy(data, params->bfwCompParam.activeBeamspaceCoeffMask, parm_size); - total_len += parm_size; - break; - - case XRAN_BFWCOMPMETHOD_NONE: - default: - parm_size = 0; - } - - print_dbg("params->bfwNumber %d params->bfwiqWidth %d\n", params->bfwNumber, params->bfwiqWidth); - - iq_size = params->bfwNumber * params->bfwiqWidth * 2; - - parm_size = iq_size>>3; - if(iq_size%8) - parm_size++; - - data = (uint8_t *)rte_pktmbuf_append(mbuf, parm_size); - if(data == NULL) { - print_err("Fail to allocate the space for section extension 1 BF W iq_size: [%d]", parm_size); - return (XRAN_STATUS_RESOURCE); - } - rte_memcpy(data, params->p_bfwIQ, parm_size); - - total_len += parm_size; - parm_size = total_len % XRAN_SECTIONEXT_ALIGN; - if(parm_size) { - parm_size = XRAN_SECTIONEXT_ALIGN - parm_size; - data = (uint8_t *)rte_pktmbuf_append(mbuf, parm_size); - if(data == NULL) { - print_err("Fail to allocate the space for section extension 1 [%d]", parm_size); - return (XRAN_STATUS_RESOURCE); - } - rte_memcpy(data, zeropad, parm_size); - total_len += parm_size; - } - - ext1->extLen = total_len / XRAN_SECTIONEXT_ALIGN; - - return (total_len); -} - -static int xran_prepare_sectionext_2(struct rte_mbuf *mbuf, - struct xran_sectionext2_info *params, int last_flag) -{ - struct xran_cp_radioapp_section_ext2 *ext2; - uint8_t *data; - int total_len; - int parm_size; - uint32_t val, shift_val; - int val_size, pad_size; - - - total_len = 0; - - parm_size = sizeof(struct xran_cp_radioapp_section_ext2); - ext2 = (struct xran_cp_radioapp_section_ext2 *)rte_pktmbuf_append(mbuf, parm_size); - if(ext2 == NULL) { - print_err("Fail to allocate the space for section extension 2"); - return (XRAN_STATUS_RESOURCE); - } - total_len += parm_size; - - ext2->extType = XRAN_CP_SECTIONEXTCMD_2; - ext2->ef = last_flag; - ext2->bfZe3ddWidth = params->bfZe3ddWidth; - ext2->bfAz3ddWidth = params->bfAz3ddWidth; - ext2->bfZePtWidth = params->bfZePtWidth; - ext2->bfAzPtWidth = params->bfAzPtWidth; - ext2->bfaCompResv0 = 0; - ext2->bfaCompResv1 = 0; - - val = 0; - shift_val = 0; - if(params->bfAzPtWidth) { - val += params->bfAzPt & bitmask[params->bfAzPtWidth]; - shift_val += 8 - (params->bfAzPtWidth+1); - } - else - shift_val += 8; - - if(params->bfZePtWidth) { - val = val << (params->bfZePtWidth+1); - val += params->bfZePt & bitmask[params->bfZePtWidth]; - shift_val += 8 - (params->bfZePtWidth+1); - } - else - shift_val += 8; - - if(params->bfAz3ddWidth) { - val = val << (params->bfAz3ddWidth+1); - val += params->bfAz3dd & bitmask[params->bfAz3ddWidth]; - shift_val += 8 - (params->bfAz3ddWidth+1); - } - else - shift_val += 8; - - if(params->bfZe3ddWidth) { - val = val << (params->bfZe3ddWidth+1); - val += params->bfZe3dd & bitmask[params->bfZe3ddWidth]; - shift_val += 8 - (params->bfZe3ddWidth+1); - } - else - shift_val += 8; - - if(val) { - val = val << shift_val; - val = rte_cpu_to_be_32(val); - } - - val_size = 4 - (shift_val/8); /* ceil(total bit/8) */ - parm_size = val_size + 1; /* additional 1 byte for bfxxSI */ - - // alignment - total_len += parm_size; - pad_size = total_len % XRAN_SECTIONEXT_ALIGN; - if(pad_size) { - pad_size = XRAN_SECTIONEXT_ALIGN - pad_size; - parm_size += pad_size; - total_len += pad_size; - } - - data = (uint8_t *)rte_pktmbuf_append(mbuf, parm_size); - if(data == NULL) { - print_err("Fail to allocate the space for section extension 2"); - return (XRAN_STATUS_RESOURCE); - } - - rte_memcpy(data, &val, val_size); - data += val_size; - *data = ((params->bfAzSI) << 3) + (params->bfZeSI); - data++; - rte_memcpy(data, zeropad, pad_size); - - ext2->extLen = total_len / XRAN_SECTIONEXT_ALIGN; - *(uint32_t *)ext2 = rte_cpu_to_be_32(*(uint32_t *)ext2); - - return (total_len); -} - -static int xran_prepare_sectionext_4(struct rte_mbuf *mbuf, - struct xran_sectionext4_info *params, int last_flag) -{ - struct xran_cp_radioapp_section_ext4 *ext4; - int parm_size; - int total_len; - int ret; - - - total_len = 0; - - parm_size = sizeof(struct xran_cp_radioapp_section_ext4); - ext4 = (struct xran_cp_radioapp_section_ext4 *)rte_pktmbuf_append(mbuf, parm_size); - if(ext4 == NULL) { - print_err("Fail to allocate the space for section extension 4"); - return(XRAN_STATUS_RESOURCE); - } - else { - total_len += parm_size; - - ext4->extType = XRAN_CP_SECTIONEXTCMD_4; - ext4->ef = last_flag; - ext4->modCompScaler = params->modCompScaler; - ext4->csf = params->csf?1:0; - ext4->extLen = total_len / XRAN_SECTIONEXT_ALIGN; - - *(uint32_t *)ext4 = rte_cpu_to_be_32(*(uint32_t*)ext4); - } - - return (total_len); -} - -static int xran_prepare_sectionext_5(struct rte_mbuf *mbuf, - struct xran_sectionext5_info *params, int last_flag) -{ - struct xran_cp_radioapp_section_ext_hdr *ext_hdr; - struct xran_cp_radioapp_section_ext5 ext5; - int padding; - int total_len; - uint8_t *data; - int i; - - - if(params->num_sets > XRAN_MAX_MODCOMP_ADDPARMS) { - print_err("Exceeds maximum number of parameters(%d). Skipping.", params->num_sets); - return (0); - } - - total_len = sizeof(struct xran_cp_radioapp_section_ext_hdr) - + (sizeof(struct xran_cp_radioapp_section_ext5)*params->num_sets)/2 - - (params->num_sets>>1); // 8bits are added by every two sets, so needs to adjust - - /* for alignment */ - padding = total_len % XRAN_SECTIONEXT_ALIGN; - if(padding) { - padding = XRAN_SECTIONEXT_ALIGN - padding; - total_len += padding; - } - - ext_hdr = (struct xran_cp_radioapp_section_ext_hdr *)rte_pktmbuf_append(mbuf, total_len); - if(ext_hdr == NULL) { - print_err("Fail to allocate the space for section extension 5"); - return (XRAN_STATUS_RESOURCE); - } - - ext_hdr->extType = XRAN_CP_SECTIONEXTCMD_5; - ext_hdr->ef = last_flag; - ext_hdr->extLen = total_len / XRAN_SECTIONEXT_ALIGN; - - *(uint16_t *)ext_hdr = rte_cpu_to_be_16(*((uint16_t *)ext_hdr)); - - data = (uint8_t *)(ext_hdr + 1); - i = 0; - while(i < params->num_sets) { - if(i%2) { // odd index - ext5.mcScaleOffset2 = params->mc[i].mcScaleOffset; - ext5.csf2 = params->mc[i].csf; - ext5.mcScaleReMask2 = params->mc[i].mcScaleReMask; - ext5.reserved0 = 0; - i++; - - // adding two sets at once (due to the definition of structure) - *((uint64_t *)&ext5) = rte_cpu_to_be_64(*((uint64_t *)&ext5)); - rte_memcpy(data, &ext5, sizeof(struct xran_cp_radioapp_section_ext5)); - data += sizeof(struct xran_cp_radioapp_section_ext5); - } - else { // even index - ext5.mcScaleOffset1 = params->mc[i].mcScaleOffset; - ext5.csf1 = params->mc[i].csf; - ext5.mcScaleReMask1 = params->mc[i].mcScaleReMask; - ext5.mcScaleReMask2 = 0; - i++; - - if(i == params->num_sets) { // adding last even index - *((uint64_t *)&ext5) = rte_cpu_to_be_64(*((uint64_t *)&ext5)); - rte_memcpy(data, &ext5, sizeof(struct xran_cp_radioapp_section_ext5)/2); - data += sizeof(struct xran_cp_radioapp_section_ext5)/2; - break; - } - } - } - - /* zero padding */ - if(padding) - rte_memcpy(data, zeropad, padding); - - return (total_len); -} - -/** - * @brief add section extension to C-Plane packet - * - * @param mbuf - * A pointer to the packet buffer - * @param params - * A porinter to the information to generate a C-Plane packet - * @return - * XRAN_STATUS_SUCCESS on success - * XRAN_STATUS_INVALID_PARM - * XRAN_STATUS_RESOURCE if failed to allocate the space to packet buffer - */ -int xran_append_section_extensions(struct rte_mbuf *mbuf, struct xran_section_gen_info *params) -{ - int i, ret; - uint32_t totalen; - int last_flag; - int ext_size; - - if(unlikely(params->exDataSize > XRAN_MAX_NUM_EXTENSIONS)) { - print_err("Invalid total number of extensions - %d", params->exDataSize); - return (XRAN_STATUS_INVALID_PARAM); - } - - totalen = 0; - - ret = XRAN_STATUS_SUCCESS; - - print_dbg("params->exDataSize %d\n", params->exDataSize); - for(i=0; i < params->exDataSize; i++) { - if(params->exData[i].data == NULL) { - print_err("Invalid parameter - extension data %d is NULL", i); - ret = XRAN_STATUS_INVALID_PARAM; - continue; - } - - last_flag = (params->exDataSize == (i+1))?0:1; - - switch(params->exData[i].type) { - case XRAN_CP_SECTIONEXTCMD_1: - ext_size = xran_copy_sectionext_1(mbuf, params->exData[i].data, last_flag); - //xran_prepare_sectionext_1(mbuf, params->exData[i].data, last_flag); - break; - case XRAN_CP_SECTIONEXTCMD_2: - ext_size = xran_prepare_sectionext_2(mbuf, params->exData[i].data, last_flag); - break; - case XRAN_CP_SECTIONEXTCMD_4: - ext_size = xran_prepare_sectionext_4(mbuf, params->exData[i].data, last_flag); - break; - case XRAN_CP_SECTIONEXTCMD_5: - ext_size = xran_prepare_sectionext_5(mbuf, params->exData[i].data, last_flag); - break; - case XRAN_CP_SECTIONEXTCMD_0: - case XRAN_CP_SECTIONEXTCMD_3: - default: - print_err("Extension Type %d is not supported!", params->exData[i].type); - ret = XRAN_STATUS_INVALID_PARAM; - ext_size = 0; - } - - if(ext_size == XRAN_STATUS_RESOURCE) { - break; - } - - totalen += ext_size; - } - - return (totalen); -} - - -/** - * @brief Fill the section body of type 0 in C-Plane packet - * - * @param section - * A pointer to the section in the packet buffer - * @param params - * A porinter to the information to generate a C-Plane packet - * @return - * XRAN_STATUS_SUCCESS on success - * XRAN_STATUS_INVALID_PARM if the number of symbol is invalid - */ -static int xran_prepare_section0( - struct xran_cp_radioapp_section0 *section, - struct xran_section_gen_info *params) -{ -#if (XRAN_STRICT_PARM_CHECK) - if(unlikely(params->info.numSymbol > XRAN_SYMBOLNUMBER_MAX)) { - print_err("Invalid number of Symbols - %d", params->info.numSymbol); - return (XRAN_STATUS_INVALID_PARAM); - } -#endif - - section->hdr.sectionId = params->info.id; - section->hdr.rb = params->info.rb; - section->hdr.symInc = params->info.symInc; - section->hdr.startPrbc = params->info.startPrbc; - section->hdr.numPrbc = XRAN_CONVERT_NUMPRBC(params->info.numPrbc); - - section->hdr.u.s0.reMask = params->info.reMask; - section->hdr.u.s0.numSymbol = params->info.numSymbol; - section->hdr.u.s0.reserved = 0; - - // for network byte order - *((uint64_t *)section) = rte_cpu_to_be_64(*((uint64_t *)section)); - - return (XRAN_STATUS_SUCCESS); -} -/** - * @brief Fill the section header of type 0 in C-Plane packet - * - * @param s0hdr - * A pointer to the section header in the packet buffer - * @param params - * A porinter to the information to generate a C-Plane packet - * @return - * XRAN_STATUS_SUCCESS always - */ -static int xran_prepare_section0_hdr( - struct xran_cp_radioapp_section0_header *s0hdr, - struct xran_cp_gen_params *params) - -{ - s0hdr->timeOffset = rte_cpu_to_be_16(params->hdr.timeOffset); - s0hdr->frameStructure.fftSize = params->hdr.fftSize; - s0hdr->frameStructure.uScs = params->hdr.scs; - s0hdr->cpLength = rte_cpu_to_be_16(params->hdr.cpLength); - s0hdr->reserved = 0; - - return (XRAN_STATUS_SUCCESS); -} - -/** - * @brief Fill the section body of type 1 in C-Plane packet - * Extension is not supported. - * - * @param section - * A pointer to the section header in the packet buffer - * @param params - * A porinter to the information to generate a C-Plane packet - * @return - * XRAN_STATUS_SUCCESS on success - * XRAN_STATUS_INVALID_PARM if the number of symbol is invalid - */ -static int xran_prepare_section1( - struct xran_cp_radioapp_section1 *section, - struct xran_section_gen_info *params) -{ -#if (XRAN_STRICT_PARM_CHECK) - if(unlikely(params->info.numSymbol > XRAN_SYMBOLNUMBER_MAX)) { - print_err("Invalid number of Symbols - %d", params->info.numSymbol); - return (XRAN_STATUS_INVALID_PARAM); - } -#endif - - section->hdr.sectionId = params->info.id; - section->hdr.rb = params->info.rb; - section->hdr.symInc = params->info.symInc; - section->hdr.startPrbc = params->info.startPrbc; - section->hdr.numPrbc = XRAN_CONVERT_NUMPRBC(params->info.numPrbc); - - section->hdr.u.s1.reMask = params->info.reMask; - section->hdr.u.s1.numSymbol = params->info.numSymbol; - section->hdr.u.s1.beamId = params->info.beamId; - - section->hdr.u.s1.ef = params->info.ef; - - // for network byte order - *((uint64_t *)section) = rte_cpu_to_be_64(*((uint64_t *)section)); - - return (XRAN_STATUS_SUCCESS); -} -/** - * @brief Fill the section header of type 1 in C-Plane packet - * - * @param s1hdr - * A pointer to the section header in the packet buffer - * @param params - * A porinter to the information to generate a C-Plane packet - * @return - * XRAN_STATUS_SUCCESS always - */ -static int xran_prepare_section1_hdr( - struct xran_cp_radioapp_section1_header *s1hdr, - struct xran_cp_gen_params *params) -{ - s1hdr->udComp.udIqWidth = params->hdr.iqWidth; - s1hdr->udComp.udCompMeth = params->hdr.compMeth; - s1hdr->reserved = 0; - - return (XRAN_STATUS_SUCCESS); -} - -/** - * @brief Fill the section body of type 3 in C-Plane packet - * Extension is not supported. - * - * @param section - * A pointer to the section header in the packet buffer - * @param params - * A porinter to the information to generate a C-Plane packet - * @return - * XRAN_STATUS_SUCCESS on success - * XRAN_STATUS_INVALID_PARM if the number of symbol is invalid - */ -static int xran_prepare_section3( - struct xran_cp_radioapp_section3 *section, - struct xran_section_gen_info *params) -{ -#if (XRAN_STRICT_PARM_CHECK) - if(unlikely(params->info.numSymbol > XRAN_SYMBOLNUMBER_MAX)) { - print_err("Invalid number of Symbols - %d", params->info.numSymbol); - return (XRAN_STATUS_INVALID_PARAM); - } -#endif - - section->hdr.sectionId = params->info.id; - section->hdr.rb = params->info.rb; - section->hdr.symInc = params->info.symInc; - section->hdr.startPrbc = params->info.startPrbc; - section->hdr.numPrbc = XRAN_CONVERT_NUMPRBC(params->info.numPrbc); - - section->hdr.u.s3.reMask = params->info.reMask; - section->hdr.u.s3.numSymbol = params->info.numSymbol; - section->hdr.u.s3.beamId = params->info.beamId; - - section->freqOffset = rte_cpu_to_be_32(params->info.freqOffset)>>8; - section->reserved = 0; - - section->hdr.u.s3.ef = params->info.ef; - - // for network byte order (header, 8 bytes) - *((uint64_t *)section) = rte_cpu_to_be_64(*((uint64_t *)section)); - - return (XRAN_STATUS_SUCCESS); -} -/** - * @brief Fill the section header of type 3 in C-Plane packet - * - * @param s3hdr - * A pointer to the section header in the packet buffer - * @param params - * A porinter to the information to generate a C-Plane packet - * @return - * XRAN_STATUS_SUCCESS always - */ -static int xran_prepare_section3_hdr( - struct xran_cp_radioapp_section3_header *s3hdr, - struct xran_cp_gen_params *params) - -{ - s3hdr->timeOffset = rte_cpu_to_be_16(params->hdr.timeOffset); - s3hdr->frameStructure.fftSize = params->hdr.fftSize; - s3hdr->frameStructure.uScs = params->hdr.scs; - s3hdr->cpLength = rte_cpu_to_be_16(params->hdr.cpLength); - s3hdr->udComp.udIqWidth = params->hdr.iqWidth; - s3hdr->udComp.udCompMeth = params->hdr.compMeth; - - return (XRAN_STATUS_SUCCESS); -} - -/** - * @brief add sections to C-Plane packet - * Section type 1 and 3 are supported. - * - * @param mbuf - * A pointer to the packet buffer - * @param params - * A porinter to the information to generate a C-Plane packet - * @return - * XRAN_STATUS_SUCCESS on success - * XRAN_STATUS_INVALID_PARM if section type is not 1 or 3, or handler is NULL - * XRAN_STATUS_RESOURCE if failed to allocate the space to packet buffer - */ -int xran_append_control_section(struct rte_mbuf *mbuf, struct xran_cp_gen_params *params) -{ - int i, ret, ext_flag; - uint32_t totalen; - void *section; - int section_size; - int (*xran_prepare_section_func)(void *section, void *params); - - - totalen = 0; - switch(params->sectionType) { - case XRAN_CP_SECTIONTYPE_0: /* Unused RB or Symbols in DL or UL, not supportted */ - section_size = sizeof(struct xran_cp_radioapp_section0); - xran_prepare_section_func = (int (*)(void *, void *))xran_prepare_section0; - break; - - case XRAN_CP_SECTIONTYPE_1: /* Most DL/UL Radio Channels */ - section_size = sizeof(struct xran_cp_radioapp_section1); - xran_prepare_section_func = (int (*)(void *, void *))xran_prepare_section1; - break; - - case XRAN_CP_SECTIONTYPE_3: /* PRACH and Mixed-numerology Channels */ - section_size = sizeof(struct xran_cp_radioapp_section3); - xran_prepare_section_func = (int (*)(void *, void *))xran_prepare_section3; - break; - - case XRAN_CP_SECTIONTYPE_5: /* UE scheduling information, not supported */ - case XRAN_CP_SECTIONTYPE_6: /* Channel Information, not supported */ - case XRAN_CP_SECTIONTYPE_7: /* LAA, not supported */ - default: - section_size = 0; - xran_prepare_section_func = NULL; - print_err("Section Type %d is not supported!", params->sectionType); - return (XRAN_STATUS_INVALID_PARAM); - } - - if(unlikely(xran_prepare_section_func == NULL)) { - print_err("Section Type %d is not supported!", params->sectionType); - return (XRAN_STATUS_INVALID_PARAM); - } - - for(i=0; i < params->numSections; i++) { - section = rte_pktmbuf_append(mbuf, section_size); - if(section == NULL) { - print_err("Fail to allocate the space for section[%d]!", i); - return (XRAN_STATUS_RESOURCE); - } - print_dbg("%s %d ef %d\n", __FUNCTION__, i, params->sections[i].info.ef); - ret = xran_prepare_section_func((void *)section, - (void *)¶ms->sections[i]); - if(ret < 0){ - print_err("%s %d\n", __FUNCTION__, ret); - return (ret); - } - totalen += section_size; - - if(params->sections[i].info.ef) { - print_dbg("sections[%d].info.ef %d exDataSize %d type %d\n", i, params->sections[i].info.ef, - params->sections[i].exDataSize, params->sections[i].exData[0].type); - ret = xran_append_section_extensions(mbuf, ¶ms->sections[i]); - if(ret < 0) - return (ret); - totalen += ret; - } - } - - return (totalen); -} - -/** - * @brief fill the information of a radio application header in a C-Plane packet - * - * @param apphdr - * A pointer to the application header in the packet buffer - * @param params - * A porinter to the information to generate a C-Plane packet - * @return - * XRAN_STATUS_SUCCESS on success - * XRAN_STATUS_INVALID_PARM if direction, slot index or symbold index is invalid - */ -static inline int xran_prepare_radioapp_common_header( - struct xran_cp_radioapp_common_header *apphdr, - struct xran_cp_gen_params *params) -{ - -#if (XRAN_STRICT_PARM_CHECK) - if(unlikely(params->dir != XRAN_DIR_DL && params->dir != XRAN_DIR_UL)) { - print_err("Invalid direction!"); - return (XRAN_STATUS_INVALID_PARAM); - } - if(unlikely(params->hdr.slotId > XRAN_SLOTID_MAX)) { - print_err("Invalid Slot ID!"); - return (XRAN_STATUS_INVALID_PARAM); - } - if(unlikely(params->hdr.startSymId > XRAN_SYMBOLNUMBER_MAX)) { - print_err("Invalid Symbol ID!"); - return (XRAN_STATUS_INVALID_PARAM); - } -#endif - - apphdr->dataDirection = params->dir; - apphdr->payloadVer = XRAN_PAYLOAD_VER; - apphdr->filterIndex = params->hdr.filterIdx; - apphdr->frameId = params->hdr.frameId; - apphdr->subframeId = params->hdr.subframeId; - apphdr->slotId = params->hdr.slotId; - apphdr->startSymbolId = params->hdr.startSymId; - apphdr->numOfSections = params->numSections; - apphdr->sectionType = params->sectionType; - - /* radio app header has common parts of 4bytes for all section types */ - *((uint32_t *)apphdr) = rte_cpu_to_be_32(*((uint32_t *)apphdr)); - - return (XRAN_STATUS_SUCCESS); -} - -/** - * @brief add a radio application header in a C-Plane packet - * - * @param mbuf - * A pointer to the packet buffer - * @param params - * A porinter to the information to generate a C-Plane packet - * @return - * The length of added section (>0) on success - * XRAN_STATUS_INVALID_PARM if section type is invalid, or handler is NULL - * XRAN_STATUS_RESOURCE if failed to allocate the space to packet buffer - */ -int xran_append_radioapp_header(struct rte_mbuf *mbuf, struct xran_cp_gen_params *params) -{ - int ret; - uint32_t totalen; - struct xran_cp_radioapp_common_header *apphdr; - int (*xran_prepare_radioapp_section_hdr_func)(void *hdr, void *params); - - -#if (XRAN_STRICT_PARM_CHECK) - if(unlikely(params->sectionType >= XRAN_CP_SECTIONTYPE_MAX)) { - print_err("Invalid Section Type - %d", params->sectionType); - return (XRAN_STATUS_INVALID_PARAM); - } -#endif - - switch(params->sectionType) { - case XRAN_CP_SECTIONTYPE_0: /* Unused RB or Symbols in DL or UL, not supportted */ - xran_prepare_radioapp_section_hdr_func = (int (*)(void *, void*))xran_prepare_section0_hdr; - totalen = sizeof(struct xran_cp_radioapp_section0_header); - break; - - case XRAN_CP_SECTIONTYPE_1: /* Most DL/UL Radio Channels */ - xran_prepare_radioapp_section_hdr_func = (int (*)(void *, void*))xran_prepare_section1_hdr; - totalen = sizeof(struct xran_cp_radioapp_section1_header); - break; - - case XRAN_CP_SECTIONTYPE_3: /* PRACH and Mixed-numerology Channels */ - xran_prepare_radioapp_section_hdr_func = (int (*)(void *, void*))xran_prepare_section3_hdr; - totalen = sizeof(struct xran_cp_radioapp_section3_header); - break; - - case XRAN_CP_SECTIONTYPE_5: /* UE scheduling information, not supported */ - case XRAN_CP_SECTIONTYPE_6: /* Channel Information, not supported */ - case XRAN_CP_SECTIONTYPE_7: /* LAA, not supported */ - default: - print_err("Section Type %d is not supported!", params->sectionType); - xran_prepare_radioapp_section_hdr_func = NULL; - totalen = 0; - return (XRAN_STATUS_INVALID_PARAM); - } - - apphdr = (struct xran_cp_radioapp_common_header *)rte_pktmbuf_append(mbuf, totalen); - if(unlikely(apphdr == NULL)) { - print_err("Fail to reserve the space for radio application header!"); - return (XRAN_STATUS_RESOURCE); - } - - ret = xran_prepare_radioapp_common_header(apphdr, params); - if(unlikely(ret < 0)) { - return (ret); - } - - if(likely(xran_prepare_radioapp_section_hdr_func)) { - totalen += xran_prepare_radioapp_section_hdr_func(apphdr, params); - } - else { - print_err("xran_prepare_radioapp_section_hdr_func is NULL!"); - return (XRAN_STATUS_INVALID_PARAM); - } - - return (totalen); -} - -/** - * @brief Create a C-Plane packet - * Transport layer fragmentation is not supported. - * - * @ingroup xran_cp_pkt - * - * @param mbuf - * A pointer to the packet buffer - * @param params - * A porinter to the information to generate a C-Plane packet - * @param CC_ID - * Component Carrier ID for this C-Plane message - * @param Ant_ID - * Antenna ID(RU Port ID) for this C-Plane message - * @param seq_id - * Sequence ID for this C-Plane message - * @return - * XRAN_STATUS_SUCCESS on success - * XRAN_STATUS_RESOURCE if failed to allocate the space to packet buffer - * XRAN_STATUS_INVALID_PARM if section type is invalid - */ -int xran_prepare_ctrl_pkt(struct rte_mbuf *mbuf, - struct xran_cp_gen_params *params, - uint8_t CC_ID, uint8_t Ant_ID, - uint8_t seq_id) -{ - int ret; - uint32_t payloadlen; - struct xran_ecpri_hdr *ecpri_hdr; - - - payloadlen = xran_build_ecpri_hdr(mbuf, CC_ID, Ant_ID, seq_id, &ecpri_hdr); - - ret = xran_append_radioapp_header(mbuf, params); - if(ret < 0) { - print_err("%s %d\n", __FUNCTION__, ret); - return (ret); - } - payloadlen += ret; - - ret = xran_append_control_section(mbuf, params); - if(ret < 0) { - print_err("%s %d\n", __FUNCTION__, ret); - return (ret); - } - payloadlen += ret; - - /* set payload length */ - ecpri_hdr->cmnhdr.ecpri_payl_size = rte_cpu_to_be_16(payloadlen); - - return (XRAN_STATUS_SUCCESS); -} - - -/////////////////////////////////////// -// for RU emulation -int xran_parse_section_ext1(void *ext, - struct xran_sectionext1_info *extinfo) -{ - int len; - int total_len; - struct xran_cp_radioapp_section_ext1 *ext1; - uint8_t *data; - int parm_size, iq_size; - int N; - void *pHandle; - - pHandle = NULL; - N = xran_get_conf_num_bfweights(pHandle); - extinfo->bfwNumber = N; - - ext1 = (struct xran_cp_radioapp_section_ext1 *)ext; - data = (uint8_t *)ext; - - len = 0; - total_len = ext1->extLen * XRAN_SECTIONEXT_ALIGN; /* from word to byte */ - - extinfo->bfwCompMeth = ext1->bfwCompMeth; - extinfo->bfwiqWidth = (ext1->bfwIqWidth==0)?16:ext1->bfwIqWidth; - - len += sizeof(struct xran_cp_radioapp_section_ext1); - data += sizeof(struct xran_cp_radioapp_section_ext1); - - switch(ext1->bfwCompMeth) { - case XRAN_BFWCOMPMETHOD_NONE: - parm_size = 0; - break; - - case XRAN_BFWCOMPMETHOD_BLKFLOAT: - parm_size = 1; - extinfo->bfwCompParam.exponent = *data & 0x0f; - break; - - case XRAN_BFWCOMPMETHOD_BLKSCALE: - parm_size = 1; - extinfo->bfwCompParam.blockScaler = *data; - break; - - case XRAN_BFWCOMPMETHOD_ULAW: - parm_size = 1; - extinfo->bfwCompParam.compBitWidthShift = *data; - break; - - case XRAN_BFWCOMPMETHOD_BEAMSPACE: - parm_size = N>>3; if(N%8) parm_size++; parm_size *= 8; - rte_memcpy(data, extinfo->bfwCompParam.activeBeamspaceCoeffMask, parm_size); - break; - - default: - print_err("Invalid BfComp method - %d", ext1->bfwCompMeth); - parm_size = 0; - } - - len += parm_size; - data += parm_size; - - /* Get BF weights */ - iq_size = N * extinfo->bfwiqWidth * 2; // total in bits - parm_size = iq_size>>3; // total in bytes (/8) - if(iq_size%8) parm_size++; // round up - - //rte_memcpy(data, extinfo->p_bfwIQ, parm_size); - extinfo->p_bfwIQ = (int16_t*)data; - - len += parm_size; - - parm_size = len % XRAN_SECTIONEXT_ALIGN; - if(parm_size) - len += (XRAN_SECTIONEXT_ALIGN - parm_size); - - if(len != total_len) { - // TODO: fix this print_err("The size of extension 1 is not correct! [%d:%d]", len, total_len); - } - - return (total_len); -} - -int xran_parse_section_ext2(void *ext, - struct xran_sectionext2_info *extinfo) -{ - int len; - int total_len; - struct xran_cp_radioapp_section_ext2 *ext2; - uint8_t *data; - int parm_size; - uint32_t val; - int val_size; - - - ext2 = (struct xran_cp_radioapp_section_ext2 *)ext; - data = (uint8_t *)ext; - *(uint32_t *)ext2 = rte_cpu_to_be_32(*(uint32_t *)ext2); - - len = 0; - total_len = ext2->extLen * XRAN_SECTIONEXT_ALIGN; /* from word to byte */ - - parm_size = sizeof(struct xran_cp_radioapp_section_ext2); - - extinfo->bfAzPtWidth = ext2->bfAzPtWidth; - extinfo->bfZePtWidth = ext2->bfZePtWidth; - extinfo->bfAz3ddWidth = ext2->bfAz3ddWidth; - extinfo->bfZe3ddWidth = ext2->bfZe3ddWidth; - - if(ext2->bfaCompResv0 || ext2->bfaCompResv1) - print_err("Incorrect reserved field - %d, %d", ext2->bfaCompResv0, ext2->bfaCompResv1); - - data += parm_size; - len += parm_size; - - val_size = (extinfo->bfAzPtWidth ? extinfo->bfAzPtWidth+1 : 0) - + (extinfo->bfZePtWidth ? extinfo->bfZePtWidth+1 : 0) - + (extinfo->bfAz3ddWidth ? extinfo->bfAz3ddWidth+1 : 0) - + (extinfo->bfZe3ddWidth ? extinfo->bfZe3ddWidth+ 1: 0); - if(val_size) { - val = rte_cpu_to_be_32(*(uint32_t *)data); - val >>= (32 - val_size); - - if(extinfo->bfZe3ddWidth) { - extinfo->bfZe3dd = val & bitmask[extinfo->bfZe3ddWidth]; - val >>= (extinfo->bfZe3ddWidth + 1); - } - if(extinfo->bfAz3ddWidth) { - extinfo->bfAz3dd = val & bitmask[extinfo->bfAz3ddWidth]; - val >>= (extinfo->bfAz3ddWidth + 1); - } - if(extinfo->bfZePtWidth) { - extinfo->bfZePt = val & bitmask[extinfo->bfZePtWidth]; - val >>= (extinfo->bfZePtWidth + 1); - } - if(extinfo->bfAzPtWidth) { - extinfo->bfAzPt = val & bitmask[extinfo->bfAzPtWidth]; - val >>= (extinfo->bfAzPtWidth + 1); - } - } - - parm_size = val_size/8; - if(val_size%8) parm_size += 1; - - data += parm_size; - len += parm_size; - - extinfo->bfAzSI = (*data >> 3) & 0x07; - extinfo->bfZeSI = *data & 0x07; - - data++; - len++; - - parm_size = len % XRAN_SECTIONEXT_ALIGN; - if(parm_size) - len += (XRAN_SECTIONEXT_ALIGN - parm_size); - - if(len != total_len) { - print_err("The size of extension 2 is not correct! [%d:%d]", len, total_len); - } - - return (total_len); - -} - -int xran_parse_section_ext4(void *ext, - struct xran_sectionext4_info *extinfo) -{ - int len; - struct xran_cp_radioapp_section_ext4 *ext4; - int total_len; - - - ext4 = (struct xran_cp_radioapp_section_ext4 *)ext; - - *(uint32_t *)ext4 = rte_cpu_to_be_32(*(uint32_t *)ext4); - - len = 0; - total_len = ext4->extLen * XRAN_SECTIONEXT_ALIGN; /* from word to byte */ - - extinfo->modCompScaler = ext4->modCompScaler; - extinfo->csf = ext4->csf; -// extinfo->pad0; - - len += sizeof(struct xran_cp_radioapp_section_ext4); - if(len != total_len) { - print_err("The size of extension 4 is not correct! [%d:%d]", len, total_len); - } - - return (total_len); -} - -int xran_parse_section_ext5(void *ext, - struct xran_sectionext5_info *extinfo) -{ - int len; - struct xran_cp_radioapp_section_ext_hdr *ext_hdr; - struct xran_cp_radioapp_section_ext5 ext5; - int parm_size; - int total_len; - uint8_t *data; - uint16_t i; - - - ext_hdr = (struct xran_cp_radioapp_section_ext_hdr *)ext; - *(uint16_t *)ext_hdr = rte_cpu_to_be_16(*(uint16_t *)ext_hdr); - - total_len = ext_hdr->extLen * XRAN_SECTIONEXT_ALIGN; /* from word to byte */ - - // one set has 3.5 bytes, so enforcing double to do integer calculation - parm_size = ((total_len-sizeof(struct xran_cp_radioapp_section_ext_hdr))*2) / 7; - - if(parm_size > XRAN_MAX_MODCOMP_ADDPARMS) { - print_err("Exceeds maximum number of parameters - %d", parm_size); - parm_size = XRAN_MAX_MODCOMP_ADDPARMS; - } - - len = 0; - data = (uint8_t *)(ext_hdr + 1); - - i = 0; - while(i < parm_size) { - // For odd number set, more data can be copied - *((uint64_t *)&ext5) = rte_cpu_to_be_64(*((uint64_t *)data)); - - extinfo->mc[i].mcScaleOffset = ext5.mcScaleOffset1; - extinfo->mc[i].csf = ext5.csf1; - extinfo->mc[i].mcScaleReMask = ext5.mcScaleReMask1; - i++; - - extinfo->mc[i].mcScaleOffset = ext5.mcScaleOffset2; - extinfo->mc[i].csf = ext5.csf2; - extinfo->mc[i].mcScaleReMask = ext5.mcScaleReMask2; - i++; - - data += sizeof(struct xran_cp_radioapp_section_ext5); - } - - // check the values of last set - // due to alignment, it cannot be identified by the length that 3 or 4, 11 or 12 and etc - // don't check mcScaleOffset might not be zero (some part is out of zero-padding) - i--; - if(i < XRAN_MAX_MODCOMP_ADDPARMS) { - if(extinfo->mc[i].csf == 0 && extinfo->mc[i].mcScaleReMask == 0) - extinfo->num_sets = i; - else - extinfo->num_sets = i+1; - }else { - print_err("Maximum total number %d is not correct!", i); - } - - return (total_len); -} - -int xran_parse_section_extension(struct rte_mbuf *mbuf, - void *ext, - struct xran_section_gen_info *section) -{ - int total_len, len, numext; - uint8_t *ptr; - int flag_last; - int ext_type; - int i; - - total_len = 0; - ptr = (uint8_t *)ext; - - numext = 0; - - flag_last = 1; - i = 0; - while(flag_last) { - /* check ef */ - flag_last = (*ptr & 0x80); - - ext_type = *ptr & 0x7f; - section->exData[numext].type = ext_type; - switch(ext_type) { - case XRAN_CP_SECTIONEXTCMD_1: - section->exData[numext].data = §ion->m_ext1[numext]; - len = xran_parse_section_ext1(ptr, section->exData[numext].data); - section->exData[numext].len = len; - break; - case XRAN_CP_SECTIONEXTCMD_2: - section->exData[numext].data = §ion->m_ext2[numext]; - len = xran_parse_section_ext2(ptr, section->exData[numext].data); - break; - case XRAN_CP_SECTIONEXTCMD_4: - section->exData[numext].data = §ion->m_ext4[numext]; - len = xran_parse_section_ext4(ptr, section->exData[numext].data); - break; - case XRAN_CP_SECTIONEXTCMD_5: - section->exData[numext].data = §ion->m_ext5[numext]; - len = xran_parse_section_ext5(ptr, section->exData[numext].data); - break; - - case XRAN_CP_SECTIONEXTCMD_0: - case XRAN_CP_SECTIONEXTCMD_3: - default: - print_err("Extension %d is not supported!", ext_type); - len = 0; - } - - section->exData[numext].len = len; - ptr += len; total_len += len; - - i++; - if(++numext < XRAN_MAX_NUM_EXTENSIONS) continue; - - /* exceeds maximum number of extensions */ - break; - } - - section->exDataSize = numext; - - return (total_len); - -} - -/** - * @brief Parse a C-Plane packet (for RU emulation) - * Transport layer fragmentation is not supported. - * - * @ingroup xran_cp_pkt - * - * @param mbuf - * The pointer of the packet buffer to be parsed - * @param params - * The pointer of structure to store the information of parsed packet - * @param eaxc - * The pointer of sturcture to store the decomposed information of ecpriRtcid/ecpriPcid - * @return - * XRAN_STATUS_SUCCESS on success - * XRAN_STATUS_INVALID_PACKET if failed to parse the packet - */ -int xran_parse_cp_pkt(struct rte_mbuf *mbuf, - struct xran_cp_gen_params *result, - struct xran_recv_packet_info *pkt_info) -{ - struct xran_ecpri_hdr *ecpri_hdr; - struct xran_cp_radioapp_common_header *apphdr; - int i, ret; - int extlen; - - - ret = xran_parse_ecpri_hdr(mbuf, &ecpri_hdr, pkt_info); - if(ret < 0 && ecpri_hdr == NULL) - return (XRAN_STATUS_INVALID_PACKET); - - /* Process radio header. */ - apphdr = (void *)rte_pktmbuf_adj(mbuf, sizeof(struct xran_ecpri_hdr)); - if(apphdr == NULL) { - print_err("Invalid packet - radio app hedaer!"); - return (XRAN_STATUS_INVALID_PACKET); - } - - *((uint32_t *)apphdr) = rte_cpu_to_be_32(*((uint32_t *)apphdr)); - - if(apphdr->payloadVer != XRAN_PAYLOAD_VER) { - print_err("Invalid Payload version - %d", apphdr->payloadVer); - ret = XRAN_STATUS_INVALID_PACKET; - } - - result->dir = apphdr->dataDirection; - result->hdr.filterIdx = apphdr->filterIndex; - result->hdr.frameId = apphdr->frameId; - result->hdr.subframeId = apphdr->subframeId; - result->hdr.slotId = apphdr->slotId; - result->hdr.startSymId = apphdr->startSymbolId; - result->sectionType = apphdr->sectionType; - result->numSections = apphdr->numOfSections; - -#if 0 - printf("[CP%5d] eAxC[%d:%d:%02d:%02d] %s seq[%03d-%03d-%d] sec[%d-%d] frame[%3d-%2d-%2d] sym%02d\n", - pkt_info->payload_len, - pkt_info->eaxc.cuPortId, pkt_info->eaxc.bandSectorId, - pkt_info->eaxc.ccId, pkt_info->eaxc.ruPortId, - result->dir?"DL":"UL", - pkt_info->seq_id, pkt_info->subseq_id, pkt_info->ebit, - result->sectionType, result->numSections, - result->hdr.frameId, result->hdr.subframeId, result->hdr.slotId, - result->hdr.startSymId - ); -#endif - - switch(apphdr->sectionType) { - case XRAN_CP_SECTIONTYPE_0: // Unused RB or Symbols in DL or UL, not supportted - { - struct xran_cp_radioapp_section0_header *hdr; - struct xran_cp_radioapp_section0 *section; - - hdr = (struct xran_cp_radioapp_section0_header*)apphdr; - - result->hdr.fftSize = rte_be_to_cpu_16(hdr->timeOffset); - result->hdr.scs = hdr->frameStructure.fftSize; - result->hdr.timeOffset = hdr->frameStructure.uScs; - result->hdr.cpLength = rte_be_to_cpu_16(hdr->cpLength); - //hdr->reserved; /* should be zero */ - - section = (void *)rte_pktmbuf_adj(mbuf, sizeof(struct xran_cp_radioapp_section0_header)); - if(section == NULL) { - print_err("Invalid packet 0 - radio app hedaer!"); - return (XRAN_STATUS_INVALID_PACKET); - } - for(i=0; inumSections; i++) { - *((uint64_t *)section) = rte_be_to_cpu_64(*((uint64_t *)section)); - - result->sections[i].info.type = apphdr->sectionType; - result->sections[i].info.id = section->hdr.sectionId; - result->sections[i].info.rb = section->hdr.rb; - result->sections[i].info.symInc = section->hdr.symInc; - result->sections[i].info.startPrbc = section->hdr.startPrbc; - result->sections[i].info.numPrbc = section->hdr.numPrbc, - result->sections[i].info.numSymbol = section->hdr.u.s0.numSymbol; - result->sections[i].info.reMask = section->hdr.u.s0.reMask; - //section->hdr.u.s0.reserved; /* should be zero */ - - section = (void *)rte_pktmbuf_adj(mbuf, sizeof(struct xran_cp_radioapp_section0)); - if(section == NULL) { - print_err("Invalid packet 0 - number of section [%d:%d]!", - result->numSections, i); - result->numSections = i; - ret = XRAN_STATUS_INVALID_PACKET; - break; - } - } - } - break; - - case XRAN_CP_SECTIONTYPE_1: // Most DL/UL Radio Channels - { - struct xran_cp_radioapp_section1_header *hdr; - struct xran_cp_radioapp_section1 *section; - - hdr = (struct xran_cp_radioapp_section1_header*)apphdr; - - result->hdr.iqWidth = hdr->udComp.udIqWidth; - result->hdr.compMeth = hdr->udComp.udCompMeth; - - section = (void *)rte_pktmbuf_adj(mbuf, sizeof(struct xran_cp_radioapp_section1_header)); - if(section == NULL) { - print_err("Invalid packet 1 - radio app hedaer!"); - return (XRAN_STATUS_INVALID_PACKET); - } - - for(i=0; inumSections; i++) { - *((uint64_t *)section) = rte_be_to_cpu_64(*((uint64_t *)section)); - - result->sections[i].info.type = apphdr->sectionType; - result->sections[i].info.id = section->hdr.sectionId; - result->sections[i].info.rb = section->hdr.rb; - result->sections[i].info.symInc = section->hdr.symInc; - result->sections[i].info.startPrbc = section->hdr.startPrbc; - result->sections[i].info.numPrbc = section->hdr.numPrbc, - result->sections[i].info.numSymbol = section->hdr.u.s1.numSymbol; - result->sections[i].info.reMask = section->hdr.u.s1.reMask; - result->sections[i].info.beamId = section->hdr.u.s1.beamId; - result->sections[i].info.ef = section->hdr.u.s1.ef; - - section = (void *)rte_pktmbuf_adj(mbuf, - sizeof(struct xran_cp_radioapp_section1)); - if(section == NULL) { - print_err("Invalid packet 1 - number of section [%d:%d]!", - result->numSections, i); - result->numSections = i; - ret = XRAN_STATUS_INVALID_PACKET; - break; - } - - if(result->sections[i].info.ef) { - // parse section extension - extlen = xran_parse_section_extension(mbuf, (void *)section, &result->sections[i]); - if(extlen > 0) { - section = (void *)rte_pktmbuf_adj(mbuf, extlen); - if(section == NULL) { - print_err("Invalid packet 1 - section extension [%d]!", i); - ret = XRAN_STATUS_INVALID_PACKET; - break; - } - } - } - else extlen = 0; - } - } - break; - - case XRAN_CP_SECTIONTYPE_3: // PRACH and Mixed-numerology Channels - { - struct xran_cp_radioapp_section3_header *hdr; - struct xran_cp_radioapp_section3 *section; - - hdr = (struct xran_cp_radioapp_section3_header*)apphdr; - - result->hdr.timeOffset = rte_be_to_cpu_16(hdr->timeOffset); - result->hdr.scs = hdr->frameStructure.uScs; - result->hdr.fftSize = hdr->frameStructure.fftSize; - result->hdr.cpLength = rte_be_to_cpu_16(hdr->cpLength); - result->hdr.iqWidth = hdr->udComp.udIqWidth; - result->hdr.compMeth = hdr->udComp.udCompMeth; - - section = (void *)rte_pktmbuf_adj(mbuf, sizeof(struct xran_cp_radioapp_section3_header)); - if(section == NULL) { - print_err("Invalid packet 3 - radio app hedaer!"); - return (XRAN_STATUS_INVALID_PACKET); - } - - for(i=0; inumSections; i++) { - *((uint64_t *)section) = rte_be_to_cpu_64(*((uint64_t *)section)); - - result->sections[i].info.type = apphdr->sectionType; - result->sections[i].info.id = section->hdr.sectionId; - result->sections[i].info.rb = section->hdr.rb; - result->sections[i].info.symInc = section->hdr.symInc; - result->sections[i].info.startPrbc = section->hdr.startPrbc; - result->sections[i].info.numPrbc = section->hdr.numPrbc, - result->sections[i].info.numSymbol = section->hdr.u.s3.numSymbol; - result->sections[i].info.reMask = section->hdr.u.s3.reMask; - result->sections[i].info.beamId = section->hdr.u.s3.beamId; - result->sections[i].info.ef = section->hdr.u.s3.ef; - result->sections[i].info.freqOffset = ((int32_t)rte_be_to_cpu_32(section->freqOffset))>>8; - - if(section->reserved) { - print_err("Invalid packet 3 - section[%d:%d]", i, section->reserved); - ret = XRAN_STATUS_INVALID_PACKET; - } - - section = (void *)rte_pktmbuf_adj(mbuf, sizeof(struct xran_cp_radioapp_section3)); - if(section == NULL) { - print_err("Invalid packet 3 - number of section [%d:%d]!", - result->numSections, i); - result->numSections = i; - ret = XRAN_STATUS_INVALID_PACKET; - break; - } - - if(result->sections[i].info.ef) { - // parse section extension - extlen = xran_parse_section_extension(mbuf, (void *)section, &result->sections[i]); - if(extlen > 0) { - section = (void *)rte_pktmbuf_adj(mbuf, extlen); - if(section == NULL) { - print_err("Invalid packet 3 - section extension [%d]!", i); - ret = XRAN_STATUS_INVALID_PACKET; - break; - } - } - } - else extlen = 0; - } - } - break; - - case XRAN_CP_SECTIONTYPE_5: // UE scheduling information, not supported - case XRAN_CP_SECTIONTYPE_6: // Channel Information, not supported - case XRAN_CP_SECTIONTYPE_7: // LAA, not supported - default: - ret = XRAN_STATUS_INVALID_PARAM; - print_err("Non-supported Section Type - %d", apphdr->sectionType); - } - -#if 0 - printf("[CP-%s] [%3d:%2d:%2d] section%d[%d] startSym=%d filterIdx=%X IQwidth=%d CompMeth=%d\n", - result->dir?"DL":"UL", - result->hdr.frameId, result->hdr.subframeId, result->hdr.slotId, - result->sectionType, result->numSections, - result->hdr.startSymId, - result->hdr.filterIdx, - result->hdr.iqWidth, result->hdr.compMeth); - - for(i=0; inumSections; i++) { - printf(" || %3d:%04X| rb=%d symInc=%d numSym=%d startPrbc=%02d numPrbc=%d reMask=%03X beamId=%04X freqOffset=%d ef=%d\n", - i, result->sections[i].info.id, - result->sections[i].info.rb, - result->sections[i].info.symInc, result->sections[i].info.numSymbol, - result->sections[i].info.startPrbc, result->sections[i].info.numPrbc, - result->sections[i].info.reMask, - result->sections[i].info.beamId, - result->sections[i].info.freqOffset, - result->sections[i].info.ef); - - if(result->sections[i].info.ef) { - for(int j=0; jsections[i].exDataSize; j++) { - printf(" || %2d : type=%d len=%d\n", - j, result->sections[i].exData[j].type, result->sections[i].exData[j].len); - switch(result->sections[i].exData[j].type) { - case XRAN_CP_SECTIONEXTCMD_1: - { - struct xran_sectionext1_info *ext1; - ext1 = result->sections[i].exData[j].data; - printf(" || bfwNumber=%d bfwiqWidth=%d bfwCompMeth=%d\n", - ext1->bfwNumber, ext1->bfwiqWidth, ext1->bfwCompMeth); - } - break; - case XRAN_CP_SECTIONEXTCMD_2: - { - struct xran_sectionext2_info *ext2; - ext2 = result->sections[i].exData[j].data; - printf(" || AzPt=%02x(%d) ZePt=%02x(%d) Az3dd=%02x(%d) Ze3dd=%02x(%d) AzSI=%02x ZeSI=%02x\n", - ext2->bfAzPt, ext2->bfAzPtWidth, - ext2->bfZePt, ext2->bfZePtWidth, - ext2->bfAz3dd, ext2->bfAz3ddWidth, - ext2->bfZe3dd, ext2->bfZe3ddWidth, - ext2->bfAzSI, ext2->bfZeSI); - } - break; - case XRAN_CP_SECTIONEXTCMD_4: - { - struct xran_sectionext4_info *ext4; - ext4 = result->sections[i].exData[j].data; - printf(" || csf=%d modCompScaler=%d\n", - ext4->csf, ext4->modCompScaler); - } - break; - case XRAN_CP_SECTIONEXTCMD_5: - { - struct xran_sectionext5_info *ext5; - ext5 = result->sections[i].exData[j].data; - printf(" || num_sets=%d\n", ext5->num_sets); - for(int k=0; knum_sets; k++) { - printf(" || %d - csf=%d mcScaleReMask=%04x mcScaleOffset=%04x\n", - k, ext5->mc[k].csf, - ext5->mc[k].mcScaleReMask, ext5->mc[k].mcScaleOffset); - } - } - break; - - case XRAN_CP_SECTIONEXTCMD_0: - case XRAN_CP_SECTIONEXTCMD_3: - default: - printf("Invalid section extension type!\n"); - } - } - } - } -#endif - - return(ret); -} - +/****************************************************************************** +* +* Copyright (c) 2020 Intel. +* +* Licensed under the Apache License, Version 2.0 (the "License"); +* you may not use this file except in compliance with the License. +* You may obtain a copy of the License at +* +* http://www.apache.org/licenses/LICENSE-2.0 +* +* Unless required by applicable law or agreed to in writing, software +* distributed under the License is distributed on an "AS IS" BASIS, +* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +* See the License for the specific language governing permissions and +* limitations under the License. +* +*******************************************************************************/ + +/** + * @brief This file provides the API functions to build Control Plane Messages + * for XRAN Front Haul layer as defined in XRAN-FH.CUS.0-v02.01. + * + * @file xran_cp_api.c + * @ingroup group_lte_source_xran + * @author Intel Corporation + * + **/ +#include +#include +#include + +#include "ethdi.h" +#include "xran_common.h" +#include "xran_transport.h" +#include "xran_cp_api.h" +#include "xran_printf.h" +#include "xran_compression.h" +#include "xran_dev.h" + +PSECTION_DB_TYPE p_sectiondb[XRAN_PORTS_NUM] = {NULL, NULL, NULL, NULL}; + +static const uint8_t zeropad[XRAN_SECTIONEXT_ALIGN] = { 0, 0, 0, 0 }; +static const uint8_t bitmask[] = { 0x00, 0x03, 0x07, 0x0f, 0x1f, 0x3f, 0x7f, 0xff }; + + +/** + * @brief Initialize section database. + * Allocate required memory space to store section information. + * Each eAxC allocates dedicated storage and the entry size is the maximum number of sections. + * Total entry size : number of CC * number of antenna * max number of sections * 2(direction) + * + * @ingroup xran_cp_pkt + * + * @param pHandle + * handle for xRAN interface, currently not being used + * @return + * XRAN_STATUS_SUCCESS on success + * XRAN_STATUS_RESOURCE, if memory is not enough to allocate database area + */ +int32_t +xran_cp_init_sectiondb(void *pHandle) +{ + int32_t ctx, dir, cc, ant; + struct xran_device_ctx* p_dev = NULL; + uint8_t xran_port_id = 0; + PSECTION_DB_TYPE p_sec_db = NULL; + struct xran_sectioninfo_db* p_sec_db_elm = NULL; + + if(pHandle) { + p_dev = (struct xran_device_ctx* )pHandle; + xran_port_id = p_dev->xran_port_id; + } else { + print_err("Invalid pHandle - %p", pHandle); + return (XRAN_STATUS_FAIL); + } + + if (p_sectiondb[xran_port_id] == NULL){ + p_sec_db = rte_zmalloc(NULL,sizeof(SECTION_DB_TYPE), 0); + if(p_sec_db){ + p_sectiondb[xran_port_id] = p_sec_db; + memset(p_sec_db, 0, sizeof(SECTION_DB_TYPE)); + print_dbg("xran_port_id %d %p\n",xran_port_id, p_sectiondb[xran_port_id]); + for (ctx = 0; ctx < XRAN_MAX_SECTIONDB_CTX; ctx++) { + for (dir = 0; dir < XRAN_DIR_MAX; dir++) { + for (cc = 0; cc < p_dev->fh_cfg.nCC && cc < XRAN_COMPONENT_CARRIERS_MAX; cc++) { + for (ant = 0; ant < (p_dev->fh_cfg.neAxc*2 + p_dev->fh_cfg.nAntElmTRx) && ant < (XRAN_MAX_ANTENNA_NR*2 + XRAN_MAX_ANT_ARRAY_ELM_NR); ant++) { + p_sec_db_elm = (struct xran_sectioninfo_db*)rte_zmalloc(NULL,sizeof(struct xran_sectioninfo_db), 0); + if(p_sec_db_elm) { + memset(p_sec_db_elm, 0, sizeof(struct xran_sectioninfo_db)); + p_sec_db->p_sectiondb_elm[ctx][dir][cc][ant] = p_sec_db_elm; + } else { + print_err("Memory Allocation Failed [port %d sz %ld]\n", xran_port_id, sizeof(struct xran_sectioninfo_db)); + return (XRAN_STATUS_RESOURCE); + } + } + } + } + } + } else { + print_err("Memory Allocation Failed [port %d sz %ld]\n", xran_port_id, sizeof(SECTION_DB_TYPE)); + return (XRAN_STATUS_RESOURCE); + } + }else { + p_sec_db = p_sectiondb[xran_port_id]; + } + + for(ctx=0; ctx < XRAN_MAX_SECTIONDB_CTX; ctx++) + for(dir=0; dir < XRAN_DIR_MAX; dir++) + for (cc = 0; cc < p_dev->fh_cfg.nCC && cc < XRAN_COMPONENT_CARRIERS_MAX; cc++) + for (ant = 0; ant < (p_dev->fh_cfg.neAxc*2 + p_dev->fh_cfg.nAntElmTRx) && ant < (XRAN_MAX_ANTENNA_NR*2 + XRAN_MAX_ANT_ARRAY_ELM_NR); ant++) + if(p_sec_db->p_sectiondb_elm[ctx][dir][cc][ant]) + p_sec_db->p_sectiondb_elm[ctx][dir][cc][ant]->cur_index = 0; + + return (XRAN_STATUS_SUCCESS); +} + +/** + * @brief Release and free section database + * + * @ingroup xran_cp_pkt + * + * @param pHandle + * handle for xRAN interface, currently not being used + * @return + * XRAN_STATUS_SUCCESS on success + */ +int32_t +xran_cp_free_sectiondb(void *pHandle) +{ + int32_t ctx, dir, cc, ant; + struct xran_device_ctx* p_dev = NULL; + uint8_t xran_port_id = 0; + PSECTION_DB_TYPE p_sec_db = NULL; + + if(pHandle) { + p_dev = (struct xran_device_ctx* )pHandle; + xran_port_id = p_dev->xran_port_id; + } else { + print_err("Invalid pHandle - %p", pHandle); + return (XRAN_STATUS_FAIL); + } + + if (p_sectiondb[xran_port_id] == NULL){ + return (XRAN_STATUS_INVALID_PARAM); + } else { + p_sec_db = p_sectiondb[xran_port_id]; + for (ctx = 0; ctx < XRAN_MAX_SECTIONDB_CTX; ctx++) { + for (dir = 0; dir < XRAN_DIR_MAX; dir++) { + for (cc = 0; cc < XRAN_COMPONENT_CARRIERS_MAX; cc++) { + for (ant = 0; ant < (XRAN_MAX_ANTENNA_NR*2 + XRAN_MAX_ANT_ARRAY_ELM_NR); ant++) { + if(p_sec_db->p_sectiondb_elm[ctx][dir][cc][ant]) + rte_free(p_sec_db->p_sectiondb_elm[ctx][dir][cc][ant]); + } + } + } + } + rte_free(p_sec_db); + p_sectiondb[xran_port_id] = NULL; + } + + return (XRAN_STATUS_SUCCESS); +} + +static inline struct xran_sectioninfo_db * +xran_get_section_db(void *pHandle, + uint8_t dir, uint8_t cc_id, uint8_t ruport_id, uint8_t ctx_id) +{ + struct xran_sectioninfo_db *ptr; + struct xran_device_ctx* p_dev = NULL; + uint8_t xran_port_id = 0; + PSECTION_DB_TYPE p_sec_db = NULL; + + if(pHandle) { + p_dev = (struct xran_device_ctx* )pHandle; + xran_port_id = p_dev->xran_port_id; + } else { + print_err("Invalid pHandle - %p", pHandle); + return (NULL); + } + + if(unlikely(xran_port_id >= XRAN_PORTS_NUM)) { + print_err("Invalid Port id - %d", p_dev->xran_port_id); + return (NULL); + } + + if (p_sectiondb[xran_port_id] == NULL){ + print_err("p_sectiondb xran_port %d\n", xran_port_id); + return (NULL); + }else { + p_sec_db = p_sectiondb[xran_port_id]; + } + if(unlikely(ctx_id >= XRAN_MAX_SECTIONDB_CTX)) { + print_err("Invalid Context id - %d", ctx_id); + return (NULL); + } + + if(unlikely(dir >= XRAN_DIR_MAX)) { + print_err("Invalid direction - %d", dir); + return (NULL); + } + + if(unlikely(cc_id >= XRAN_COMPONENT_CARRIERS_MAX)) { + print_err("Invalid CC id - %d", cc_id); + return (NULL); + } + + if(unlikely(ruport_id >= XRAN_MAX_ANTENNA_NR*2 + XRAN_MAX_ANT_ARRAY_ELM_NR)) { + print_err("Invalid eAxC id - %d", ruport_id); + return (NULL); + } + + ptr = p_sec_db->p_sectiondb_elm[ctx_id][dir][cc_id][ruport_id]; + + return(ptr); +} + +static inline struct xran_section_info * +xran_get_section_info(struct xran_sectioninfo_db *ptr, uint16_t index) +{ + if(unlikely(ptr == NULL)) + return (NULL); + + if(unlikely(index > XRAN_MAX_NUM_SECTIONS)) { + print_err("Index is out of range - %d", index); + return (NULL); + } + + return(&(ptr->list[index])); +} + +/** + * @brief Add a section information of C-Plane to dabase. + * + * @ingroup xran_cp_pkt + * + * @param pHandle + * handle for xRAN interface, currently not being used + * @param dir + * Direction of C-Plane message for the section to store + * @param cc_id + * CC ID of C-Plane message for the section to store + * @param ruport_id + * RU port ID of C-Plane message for the section to store + * @param ctx_id + * Context index for the section database + * @param info + * The information of this section to store + * @return + * XRAN_STATUS_SUCCESS on success + * XRAN_STATUS_INVALID_PARAM, if direction, CC ID or RU port ID is incorrect + * XRAN_STATUS_RESOURCE, if no more space to add on database + */ +int32_t +xran_cp_add_section_info(void *pHandle, uint8_t dir, uint8_t cc_id, uint8_t ruport_id, uint8_t ctx_id, struct xran_section_info *info) +{ + struct xran_sectioninfo_db *ptr; + struct xran_section_info *list; + + ptr = xran_get_section_db(pHandle, dir, cc_id, ruport_id, ctx_id); + if(unlikely(ptr == NULL)) { + return (XRAN_STATUS_INVALID_PARAM); + } + + if(unlikely(ptr->cur_index >= XRAN_MAX_NUM_SECTIONS)) { + print_err("No more space to add section information!"); + return (XRAN_STATUS_RESOURCE); + } + + list = xran_get_section_info(ptr, ptr->cur_index); + if (list) + memcpy(list, info, sizeof(struct xran_section_info)); + else + { + print_err("Null list in section db\n!"); + return (XRAN_STATUS_INVALID_PARAM); + } + + ptr->cur_index++; + + return (XRAN_STATUS_SUCCESS); +} + +int32_t +xran_cp_add_multisection_info(void *pHandle, uint8_t cc_id, uint8_t ruport_id, uint8_t ctx_id, struct xran_cp_gen_params *gen_info) +{ + int32_t i; + uint8_t dir, num_sections; + struct xran_sectioninfo_db *ptr; + struct xran_section_info *list; + + dir = gen_info->dir; + num_sections = gen_info->numSections; + + ptr = xran_get_section_db(pHandle, dir, cc_id, ruport_id, ctx_id); + if(unlikely(ptr == NULL)) { + return (XRAN_STATUS_INVALID_PARAM); + } + + if(unlikely(ptr->cur_index+num_sections >= XRAN_MAX_NUM_SECTIONS)) { + print_err("No more space to add section information!"); + return (XRAN_STATUS_RESOURCE); + } + + list = xran_get_section_info(ptr, ptr->cur_index); + if (list) + { + for(i=0; isections[i].info, sizeof(struct xran_section_info)); + ptr->cur_index++; + } + } + else + { + print_err("Null list in section db\n!"); + return (XRAN_STATUS_INVALID_PARAM); + } + + return (XRAN_STATUS_SUCCESS); +} + +/** + * @brief Find a section information of C-Plane from database + * by given information + * + * @ingroup xran_cp_pkt + * + * @param pHandle + * handle for xRAN interface, currently not being used + * @param dir + * The direction of the section to find + * @param cc_id + * The CC ID of the section to find + * @param ruport_id + * RU port ID of the section to find + * @param ctx_id + * Context index for the section database + * @param section_id + * The ID of section to find + * @return + * The pointer of section information if matched section is found + * NULL if failed to find matched section + */ +struct xran_section_info * +xran_cp_find_section_info(void *pHandle, uint8_t dir, uint8_t cc_id, uint8_t ruport_id, uint8_t ctx_id, uint16_t section_id) +{ + int32_t index, num_index; + struct xran_sectioninfo_db *ptr; + + ptr = xran_get_section_db(pHandle, dir, cc_id, ruport_id, ctx_id); + if(unlikely(ptr == NULL)) + return (NULL); + + if(ptr->cur_index > XRAN_MAX_NUM_SECTIONS) + num_index = XRAN_MAX_NUM_SECTIONS; + else + num_index = ptr->cur_index; + + for(index=0; index < num_index; index++) { + if(ptr->list[index].id == section_id) { + return (xran_get_section_info(ptr, index)); + } + } + + print_dbg("No section ID in the list - %d", section_id); + return (NULL); +} + +/** + * @brief Iterate each section information of C-Plane + * from the database of eAxC by given information + * + * @ingroup xran_cp_pkt + * + * @param pHandle + * handle for xRAN interface, currently not being used + * @param dir + * The direction of the section to find + * @param cc_id + * The CC ID of the section to find + * @param ruport_id + * RU port ID of the section to find + * @param ctx_id + * Context index for the section database + * @param next + * The pointer to store the position of next entry + * @return + * The pointer of section information in the list + * NULL if reached at the end of the list + */ +struct xran_section_info * +xran_cp_iterate_section_info(void *pHandle, uint8_t dir, uint8_t cc_id, uint8_t ruport_id, uint8_t ctx_id, uint32_t *next) +{ + int32_t index; + struct xran_sectioninfo_db *ptr; + + ptr = xran_get_section_db(pHandle, dir, cc_id, ruport_id, ctx_id); + if(unlikely(ptr == NULL)) + return (NULL); + + index = *next; + if(*next < ptr->cur_index) { + (*next)++; + return (xran_get_section_info(ptr, index)); + } + else { + print_dbg("No more sections in the list"); + return (NULL); + } +} + +/** + * @brief Get the size of stored entries + * for the database of eAxC by given information + * + * @ingroup xran_cp_pkt + * + * @param pHandle + * handle for xRAN interface, currently not being used + * @param dir + * The direction of the section to find + * @param cc_id + * The CC ID of the section to find + * @param ruport_id + * RU port ID of the section to find + * @param ctx_id + * Context index for the section database + * @return + * The size of stored entries + * -1 if failed to find matched database + */ +int32_t +xran_cp_getsize_section_info(void *pHandle, uint8_t dir, uint8_t cc_id, uint8_t ruport_id, uint8_t ctx_id) +{ + int32_t index; + struct xran_sectioninfo_db *ptr; + + ptr = xran_get_section_db(pHandle, dir, cc_id, ruport_id, ctx_id); + if(unlikely(ptr == NULL)) + return (-1); + + return (ptr->cur_index); +} + +/** + * @brief Reset a database of eAxC by given information + * + * @ingroup xran_cp_pkt + * + * @param pHandle + * handle for xRAN interface, currently not being used + * @param dir + * The direction of the section to find + * @param cc_id + * The CC ID of the section to find + * @param ruport_id + * RU port ID of the section to find + * @param ctx_id + * Context index for the section database + * @return + * XRAN_STATUS_SUCCESS on success + * XRAN_STATUS_INVALID_PARM if failed to find matched database + */ +int32_t +xran_cp_reset_section_info(void *pHandle, uint8_t dir, uint8_t cc_id, uint8_t ruport_id, uint8_t ctx_id) +{ + struct xran_sectioninfo_db *ptr; + + ptr = xran_get_section_db(pHandle, dir, cc_id, ruport_id, ctx_id); + if(unlikely(ptr == NULL)) { + return (XRAN_STATUS_INVALID_PARAM); + } + + ptr->cur_index = 0; + + return (XRAN_STATUS_SUCCESS); +} + +int32_t xran_cp_populate_section_ext_1(int8_t *p_ext1_dst, /**< destination buffer */ + uint16_t ext1_dst_len, /**< dest buffer size */ + int16_t *p_bfw_iq_src, /**< source buffer of IQs */ + uint16_t rbNum, /* number RBs to ext1 chain */ + uint16_t bfwNumPerRb, /* number of bf weights per RB (i.e. antenna elements) */ + uint8_t bfwiqWidth, /* bit size of IQs */ + uint8_t bfwCompMeth) /* compression method */ +{ + struct xran_cp_radioapp_section_ext1 *p_ext1; + + uint8_t *p_bfw_content = NULL; + int32_t parm_size = 0; + int32_t bfw_iq_bits = 0; + int32_t total_len = 0; + int32_t comp_len = 0; + uint8_t ext_flag = XRAN_EF_F_ANOTHER_ONE; + int16_t idxRb = 0; + int16_t cur_ext_len = 0; + int8_t *p_ext1_dst_cur = NULL; + + struct xranlib_compress_request bfp_com_req; + struct xranlib_compress_response bfp_com_rsp; + + memset(&bfp_com_req, 0, sizeof(struct xranlib_compress_request)); + memset(&bfp_com_rsp, 0, sizeof(struct xranlib_compress_response)); + + print_dbg("%s comp %d\n", __FUNCTION__, bfwCompMeth); + print_dbg("bfwNumPerRb %d bfwiqWidth %d\n", bfwNumPerRb, bfwiqWidth); + + if(p_ext1_dst) + p_ext1_dst_cur = p_ext1_dst; + else + return (XRAN_STATUS_INVALID_PARAM); + + /* create extType=1 section for each RB */ + for (idxRb = 0; idxRb < rbNum; idxRb++) { + print_dbg("%s RB %d\n", __FUNCTION__, idxRb); + + if(total_len >= ext1_dst_len){ + print_err("p_ext1_dst overflow\n"); + return -1; + } + + cur_ext_len = 0; /** populate one extType=1 section with BFW for 1 RB */ + parm_size = sizeof(struct xran_cp_radioapp_section_ext1); + p_ext1 = (struct xran_cp_radioapp_section_ext1 *)p_ext1_dst_cur; + if(p_ext1 == NULL) { + print_err("p_ext1 is null!\n"); + return (XRAN_STATUS_INVALID_PARAM); + } + + cur_ext_len += parm_size; + + if(idxRb+1 == rbNum) + ext_flag = XRAN_EF_F_LAST; + + p_ext1->extType = XRAN_CP_SECTIONEXTCMD_1; + p_ext1->ef = ext_flag; + p_ext1->bfwCompMeth = bfwCompMeth; + p_ext1->bfwIqWidth = XRAN_CONVERT_BFWIQWIDTH(bfwiqWidth); + + switch(bfwCompMeth) { + case XRAN_BFWCOMPMETHOD_BLKFLOAT: + p_bfw_content = (uint8_t *)(p_ext1+1); + if(p_bfw_content == NULL) { + print_err("Fail to allocate the space for section extension 1"); + return (XRAN_STATUS_RESOURCE); + } + bfp_com_req.data_in = (int16_t*)p_bfw_iq_src; + bfp_com_req.numRBs = 1; + bfp_com_req.numDataElements = bfwNumPerRb*2; + bfp_com_req.len = bfwNumPerRb*4; + bfp_com_req.compMethod = p_ext1->bfwCompMeth; + bfp_com_req.iqWidth = p_ext1->bfwIqWidth; + + print_dbg("req 0x%08p iqWidth %d\n",bfp_com_req.data_in, bfp_com_req.iqWidth); + + parm_size = 1; /* exponent as part of bfwCompParam 1 octet */ + break; + case XRAN_BFWCOMPMETHOD_BLKSCALE: + rte_panic("XRAN_BFWCOMPMETHOD_BLKSCALE"); + break; + + case XRAN_BFWCOMPMETHOD_ULAW: + rte_panic("XRAN_BFWCOMPMETHOD_ULAW"); + break; + + case XRAN_BFWCOMPMETHOD_BEAMSPACE: + rte_panic("XRAN_BFWCOMPMETHOD_BEAMSPACE"); + break; + + case XRAN_BFWCOMPMETHOD_NONE: + default: + p_bfw_content = (uint8_t *)(p_ext1+1); + /* bfwCompParam is absent for no compression case */ + parm_size = 0; + } + + if(p_bfw_content == NULL) { + print_err("Fail to allocate the space for section extension 1"); + return (XRAN_STATUS_RESOURCE); + } + + bfw_iq_bits = bfwNumPerRb* bfwiqWidth * 2; + + parm_size += bfw_iq_bits>>3; + if(bfw_iq_bits%8) + parm_size++; + + print_dbg("copy BF W %p -> %p size %d \n", p_bfw_iq_src, p_bfw_content, parm_size); + if (p_ext1->bfwIqWidth == 0 || p_ext1->bfwIqWidth == 16){ + memcpy(p_bfw_content, p_bfw_iq_src, parm_size); + } else { + bfp_com_rsp.data_out = (int8_t*)p_bfw_content; + if(xranlib_compress_bfw(&bfp_com_req, &bfp_com_rsp) == 0){ + comp_len = bfp_com_rsp.len; + print_dbg("comp_len %d parm_size %d\n", comp_len, parm_size); + } else { + print_err("compression failed\n"); + return (XRAN_STATUS_FAIL); + } + } + + p_bfw_content = (uint8_t *)(p_bfw_content + parm_size); + + cur_ext_len += parm_size; + parm_size = cur_ext_len % XRAN_SECTIONEXT_ALIGN; + if(parm_size) { + parm_size = XRAN_SECTIONEXT_ALIGN - parm_size; + p_bfw_content = (uint8_t *)(p_bfw_content + parm_size); + memcpy(p_bfw_content, zeropad, RTE_MIN(parm_size, sizeof(zeropad))); + cur_ext_len += parm_size; + print_dbg("zeropad %d cur_ext_len %d\n", parm_size, cur_ext_len); + } + + if(cur_ext_len % XRAN_SECTIONEXT_ALIGN) + rte_panic("ext1 should be aligned on 4-bytes boundary"); + + p_ext1->extLen = cur_ext_len / XRAN_SECTIONEXT_ALIGN; + print_dbg("[%d] %p iq %p p_ext1->extLen %d\n",idxRb, p_ext1, p_ext1+1, p_ext1->extLen); + + /* update for next RB */ + p_ext1_dst_cur += cur_ext_len; + p_bfw_iq_src = p_bfw_iq_src + bfwNumPerRb*2; + + total_len += cur_ext_len; + } + + print_dbg("total_len %d\n", total_len); + return (total_len); +} + +// TODO: Need to decide to add calculation or not +// Frequency offset 5.4.5.11 +// frequency_offset = freqOffset * SCS * 0.5 +// i.e freqOffset = (frequency_offset *2 )/ SCS ? +inline int32_t +xran_get_freqoffset(int32_t freqOffset, int32_t scs) +{ + return (freqOffset); +} + +static int32_t +xran_append_sectionext_1(struct rte_mbuf *mbuf, struct xran_sectionext1_info *params, int32_t last_flag) +{ + int32_t total_len = 0; + + if(params->bfwIQ_sz) { + int8_t *p_dst = (int8_t *)rte_pktmbuf_append(mbuf, params->bfwIQ_sz); + + if(p_dst == NULL) { + print_err("Fail to allocate the space for section extension 1 [%d]", params->bfwIQ_sz); + return (XRAN_STATUS_RESOURCE); + } + + /* extType1 with all the headers created by xran_cp_populate_section_ext_1() earlier */ + total_len = params->bfwIQ_sz; + } + + return (total_len); +} + +static int32_t +xran_prepare_sectionext_2(struct rte_mbuf *mbuf, struct xran_sectionext2_info *params, int32_t last_flag) +{ + struct xran_cp_radioapp_section_ext2 *ext2; + uint8_t *data; + int32_t total_len; + int32_t parm_size; + uint32_t val, shift_val; + int32_t val_size, pad_size; + + total_len = 0; + + parm_size = sizeof(struct xran_cp_radioapp_section_ext2); + ext2 = (struct xran_cp_radioapp_section_ext2 *)rte_pktmbuf_append(mbuf, parm_size); + if(ext2 == NULL) { + print_err("Fail to allocate the space for section extension 2"); + return (XRAN_STATUS_RESOURCE); + } + total_len += parm_size; + + ext2->extType = XRAN_CP_SECTIONEXTCMD_2; + ext2->ef = last_flag; + ext2->bfZe3ddWidth = params->bfZe3ddWidth; + ext2->bfAz3ddWidth = params->bfAz3ddWidth; + ext2->bfZePtWidth = params->bfZePtWidth; + ext2->bfAzPtWidth = params->bfAzPtWidth; + ext2->bfaCompResv0 = 0; + ext2->bfaCompResv1 = 0; + + val = 0; + shift_val = 0; + if(params->bfAzPtWidth) { + val += params->bfAzPt & bitmask[params->bfAzPtWidth]; + shift_val += 8 - (params->bfAzPtWidth+1); + } else + shift_val += 8; + + if(params->bfZePtWidth) { + val = val << (params->bfZePtWidth+1); + val += params->bfZePt & bitmask[params->bfZePtWidth]; + shift_val += 8 - (params->bfZePtWidth+1); + } else + shift_val += 8; + + if(params->bfAz3ddWidth) { + val = val << (params->bfAz3ddWidth+1); + val += params->bfAz3dd & bitmask[params->bfAz3ddWidth]; + shift_val += 8 - (params->bfAz3ddWidth+1); + } else + shift_val += 8; + + if(params->bfZe3ddWidth) { + val = val << (params->bfZe3ddWidth+1); + val += params->bfZe3dd & bitmask[params->bfZe3ddWidth]; + shift_val += 8 - (params->bfZe3ddWidth+1); + } else + shift_val += 8; + + if(val) { + val = val << shift_val; + val = rte_cpu_to_be_32(val); + } + + val_size = 4 - (shift_val/8); /* ceil(total bit/8) */ + parm_size = val_size + 1; /* additional 1 byte for bfxxSI */ + + // alignment + total_len += parm_size; + pad_size = total_len % XRAN_SECTIONEXT_ALIGN; + if(pad_size) { + pad_size = XRAN_SECTIONEXT_ALIGN - pad_size; + parm_size += pad_size; + total_len += pad_size; + } + + data = (uint8_t *)rte_pktmbuf_append(mbuf, parm_size); + if(data == NULL) { + print_err("Fail to allocate the space for section extension 2"); + return (XRAN_STATUS_RESOURCE); + } + + memcpy(data, &val, val_size); + data += val_size; + *data = ((params->bfAzSI) << 3) + (params->bfZeSI); + data++; + memcpy(data, zeropad, pad_size); + + ext2->extLen = total_len / XRAN_SECTIONEXT_ALIGN; + *(uint32_t *)ext2 = rte_cpu_to_be_32(*(uint32_t *)ext2); + + return (total_len); +} + +static int32_t +xran_prepare_sectionext_3(struct rte_mbuf *mbuf, struct xran_sectionext3_info *params, int32_t last_flag) +{ + int32_t total_len; + int32_t adj; + int32_t data_first_byte, data_second_byte; + int32_t data_third_byte, data_fourth_byte; + int32_t extLen; + + if(params->layerId == XRAN_LAYERID_0 + || params->layerId == XRAN_LAYERID_TXD) { /* first data layer */ + + union xran_cp_radioapp_section_ext3_first *ext3_f; + uint64_t *tmp; + + total_len = sizeof(union xran_cp_radioapp_section_ext3_first); + ext3_f = (union xran_cp_radioapp_section_ext3_first *)rte_pktmbuf_append(mbuf, total_len); + if(ext3_f == NULL) { + print_err("Fail to allocate the space for section extension 3"); + return (XRAN_STATUS_RESOURCE); + } + + /*ext3_f->data_field.data_field1 = _mm_setzero_si128(); + + ext3_f->all_bits.layerId = params->layerId; + ext3_f->all_bits.ef = last_flag; + ext3_f->all_bits.extType = XRAN_CP_SECTIONEXTCMD_3; + ext3_f->all_bits.crsSymNum = params->crsSymNum; + ext3_f->all_bits.crsShift = params->crsShift; + ext3_f->all_bits.crsReMask = params->crsReMask; + ext3_f->all_bits.txScheme = params->txScheme; + ext3_f->all_bits.numLayers = params->numLayers; + ext3_f->all_bits.codebookIndex = params->codebookIdx; + + if(params->numAntPort == 2) { + ext3_f->all_bits.beamIdAP3 = params->beamIdAP1; + ext3_f->all_bits.extLen = 3; + adj = 4; + total_len -= adj; + } + else { + ext3_f->all_bits.beamIdAP3 = params->beamIdAP1; + ext3_f->all_bits.beamIdAP2 = params->beamIdAP2; + ext3_f->all_bits.beamIdAP1 = params->beamIdAP3; + ext3_f->all_bits.extLen = 4; + adj = 0; + }*/ + + if(params->numAntPort == 2) { + data_third_byte = 0; + extLen = 3; + adj = 4; + total_len -= adj; + }else + { + data_third_byte = (params->beamIdAP2 << 16) | params->beamIdAP3; + extLen = 4; + adj = 0; + } + + data_first_byte = (params->txScheme << xran_cp_radioapp_sec_ext3_TxScheme) + | (params->crsReMask << xran_cp_radioapp_sec_ext3_CrcReMask) + | (params->crsShift << xran_cp_radioapp_sec_ext3_CrcShift) + | (params->crsSymNum << xran_cp_radioapp_sec_ext3_CrcSymNum); + data_second_byte = (last_flag << xran_cp_radioapp_sec_ext3_EF) + | (XRAN_CP_SECTIONEXTCMD_3 << xran_cp_radioapp_sec_ext3_ExtType) + | (extLen << xran_cp_radioapp_sec_ext3_ExtLen) + | (params->codebookIdx << xran_cp_radioapp_sec_ext3_CodebookIdx) + | (params->layerId << xran_cp_radioapp_sec_ext3_LayerId) + | (params->numLayers << xran_cp_radioapp_sec_ext3_NumLayers); + data_fourth_byte = params->beamIdAP1; + ext3_f->data_field.data_field1 = _mm_set_epi32(data_fourth_byte, data_third_byte, data_second_byte, data_first_byte); + + /* convert byte order */ + tmp = (uint64_t *)ext3_f; + *tmp = rte_cpu_to_be_64(*tmp); tmp++; + *tmp = rte_cpu_to_be_64(*tmp); + + if(adj) + rte_pktmbuf_trim(mbuf, adj); + } + else { /* non-first data layer */ + union xran_cp_radioapp_section_ext3_non_first *ext3_nf; + + total_len = sizeof(union xran_cp_radioapp_section_ext3_non_first); + ext3_nf = (union xran_cp_radioapp_section_ext3_non_first *)rte_pktmbuf_append(mbuf, total_len); + if(ext3_nf == NULL) { + print_err("Fail to allocate the space for section extension 3"); + return (XRAN_STATUS_RESOURCE); + } + + /*ext3_nf->all_bits.layerId = params->layerId; + ext3_nf->all_bits.ef = last_flag; + ext3_nf->all_bits.extType = XRAN_CP_SECTIONEXTCMD_3; + ext3_nf->all_bits.numLayers = params->numLayers; + ext3_nf->all_bits.codebookIndex = params->codebookIdx; + + ext3_nf->all_bits.extLen = sizeof(union xran_cp_radioapp_section_ext3_non_first)/XRAN_SECTIONEXT_ALIGN;*/ + + ext3_nf->data_field = (last_flag << xran_cp_radioapp_sec_ext3_EF) + | (XRAN_CP_SECTIONEXTCMD_3 << xran_cp_radioapp_sec_ext3_ExtType) + | ((sizeof(union xran_cp_radioapp_section_ext3_non_first)/XRAN_SECTIONEXT_ALIGN) << xran_cp_radioapp_sec_ext3_ExtLen) + | (params->codebookIdx << xran_cp_radioapp_sec_ext3_CodebookIdx) + | (params->layerId << xran_cp_radioapp_sec_ext3_LayerId) + | (params->numLayers << xran_cp_radioapp_sec_ext3_NumLayers); + + *(uint32_t *)ext3_nf = rte_cpu_to_be_32(*(uint32_t *)ext3_nf); + } + + return (total_len); +} + +static int32_t +xran_prepare_sectionext_4(struct rte_mbuf *mbuf, struct xran_sectionext4_info *params, int32_t last_flag) +{ + struct xran_cp_radioapp_section_ext4 *ext4; + int32_t parm_size; + + parm_size = sizeof(struct xran_cp_radioapp_section_ext4); + ext4 = (struct xran_cp_radioapp_section_ext4 *)rte_pktmbuf_append(mbuf, parm_size); + if(ext4 == NULL) { + print_err("Fail to allocate the space for section extension 4"); + return(XRAN_STATUS_RESOURCE); + } + + ext4->extType = XRAN_CP_SECTIONEXTCMD_4; + ext4->ef = last_flag; + ext4->modCompScaler = params->modCompScaler; + ext4->csf = params->csf?1:0; + ext4->extLen = parm_size / XRAN_SECTIONEXT_ALIGN; + + *(uint32_t *)ext4 = rte_cpu_to_be_32(*(uint32_t*)ext4); + + return (parm_size); +} + +static int32_t +xran_prepare_sectionext_5(struct rte_mbuf *mbuf, struct xran_sectionext5_info *params, int32_t last_flag) +{ + struct xran_cp_radioapp_section_ext_hdr *ext_hdr; + struct xran_cp_radioapp_section_ext5 ext5; + int32_t padding; + int32_t total_len; + uint8_t *data; + int32_t i; + + if(params->num_sets > XRAN_MAX_MODCOMP_ADDPARMS) { + print_err("Exceeds maximum number of parameters(%d). Skipping.", params->num_sets); + return (0); + } + + total_len = sizeof(struct xran_cp_radioapp_section_ext_hdr) + + (sizeof(struct xran_cp_radioapp_section_ext5)*params->num_sets)/2 + - (params->num_sets>>1); // 8bits are added by every two sets, so needs to adjust + + /* for alignment */ + padding = total_len % XRAN_SECTIONEXT_ALIGN; + if(padding) { + padding = XRAN_SECTIONEXT_ALIGN - padding; + total_len += padding; + } + + ext_hdr = (struct xran_cp_radioapp_section_ext_hdr *)rte_pktmbuf_append(mbuf, total_len); + if(ext_hdr == NULL) { + print_err("Fail to allocate the space for section extension 5"); + return (XRAN_STATUS_RESOURCE); + } + + ext_hdr->extType = XRAN_CP_SECTIONEXTCMD_5; + ext_hdr->ef = last_flag; + ext_hdr->extLen = total_len / XRAN_SECTIONEXT_ALIGN; + + *(uint16_t *)ext_hdr = rte_cpu_to_be_16(*((uint16_t *)ext_hdr)); + + data = (uint8_t *)(ext_hdr + 1); + i = 0; + while(i < params->num_sets) { + if(i%2) { // odd index + ext5.mcScaleOffset2 = params->mc[i].mcScaleOffset; + ext5.csf2 = params->mc[i].csf; + ext5.mcScaleReMask2 = params->mc[i].mcScaleReMask; + ext5.reserved0 = 0; + i++; + + // adding two sets at once (due to the definition of structure) + *((uint64_t *)&ext5) = rte_cpu_to_be_64(*((uint64_t *)&ext5)); + memcpy(data, &ext5, sizeof(struct xran_cp_radioapp_section_ext5)); + data += sizeof(struct xran_cp_radioapp_section_ext5); + } + else { // even index + ext5.mcScaleOffset1 = params->mc[i].mcScaleOffset; + ext5.csf1 = params->mc[i].csf; + ext5.mcScaleReMask1 = params->mc[i].mcScaleReMask; + ext5.mcScaleReMask2 = 0; + i++; + + if(i == params->num_sets) { // adding last even index + *((uint64_t *)&ext5) = rte_cpu_to_be_64(*((uint64_t *)&ext5)); + memcpy(data, &ext5, sizeof(struct xran_cp_radioapp_section_ext5)/2); + data += sizeof(struct xran_cp_radioapp_section_ext5)/2; + break; + } + } + } + + /* zero padding */ + if(padding) + memcpy(data, zeropad, padding); + + return (total_len); +} + +static int32_t +xran_prepare_sectionext_6(struct rte_mbuf *mbuf, + struct xran_sectionext6_info *params, int32_t last_flag) +{ + union xran_cp_radioapp_section_ext6 *ext6; + int32_t parm_size; + + parm_size = sizeof(union xran_cp_radioapp_section_ext6); + ext6 = (union xran_cp_radioapp_section_ext6 *)rte_pktmbuf_append(mbuf, parm_size); + if(ext6 == NULL) { + print_err("Fail to allocate the space for section extension 6"); + return(XRAN_STATUS_RESOURCE); + } + + ext6->data_field.data_field1 = 0x0LL; + ext6->all_bits.extType = XRAN_CP_SECTIONEXTCMD_6; + ext6->all_bits.ef = last_flag; + ext6->all_bits.rbgSize = params->rbgSize; + ext6->all_bits.rbgMask = params->rbgMask; + ext6->all_bits.symbolMask = params->symbolMask; + ext6->all_bits.extLen = parm_size / XRAN_SECTIONEXT_ALIGN; + //ext6->reserved0 = 0; + //ext6->reserved1 = 0; + + *(uint64_t *)ext6 = rte_cpu_to_be_64(*(uint64_t*)ext6); + + return (parm_size); +} + +static int32_t +xran_prepare_sectionext_10(struct rte_mbuf *mbuf, + struct xran_sectionext10_info *params, int32_t last_flag) +{ + union xran_cp_radioapp_section_ext10 *ext10; + int32_t parm_size; + int32_t total_len; + int32_t padding; + int32_t i; + uint16_t *id_ptr; + + +#if (XRAN_STRICT_PARM_CHECK) + if(params->beamGrpType != XRAN_BEAMGT_COMMON + && params->beamGrpType != XRAN_BEAMGT_MATRIXIND + && params->beamGrpType != XRAN_BEAMGT_VECTORLIST) { + print_err("Invalid beam group Type - %d\n", params->beamGrpType); + return (XRAN_STATUS_INVALID_PARAM); + } +#endif + /* should be checked since it will be used for the index of array */ + if(params->numPortc > XRAN_MAX_NUMPORTC_EXT10) { + print_err("Invalid Number of eAxC in extension 10 - %d\n", params->numPortc); + return (XRAN_STATUS_INVALID_PARAM); + } + + parm_size = sizeof(union xran_cp_radioapp_section_ext10); + ext10 = (union xran_cp_radioapp_section_ext10 *)rte_pktmbuf_append(mbuf, parm_size); + if(ext10 == NULL) { + print_err("Fail to allocate the space for section extension 10"); + return(XRAN_STATUS_RESOURCE); + } + + ext10->all_bits.extType = XRAN_CP_SECTIONEXTCMD_10; + ext10->all_bits.ef = last_flag; + ext10->all_bits.numPortc = params->numPortc; + ext10->all_bits.beamGroupType = params->beamGrpType; + ext10->all_bits.reserved = 0; + + total_len = parm_size; + + if(params->beamGrpType == XRAN_BEAMGT_VECTORLIST) { + /* Calculate required size, it needs to be reduced by one byte + * since beam ID starts from reserved field(fourth octet). */ + parm_size = params->numPortc * 2 - 1; + + /* for alignment */ + padding = (parm_size + total_len) % XRAN_SECTIONEXT_ALIGN; + if(padding) { + padding = XRAN_SECTIONEXT_ALIGN - padding; + parm_size += padding; + } + + id_ptr = (uint16_t *)rte_pktmbuf_append(mbuf, parm_size); + if(id_ptr == NULL) { + print_err("Fail to allocate the space for beam IDs in section extension 10"); + return(XRAN_STATUS_RESOURCE); + } + + /* Need to advance pointer by one-byte since beam IDs start from fourth octet */ + id_ptr = (uint16_t *)(((uint8_t *)id_ptr) - 1); + + /* this might not be optimal since the alignment is broken */ + for(i = 0; i < params->numPortc; i++) + id_ptr[i] = rte_cpu_to_be_16(params->beamID[i]); + + /* zero padding */ + if(padding) + memcpy((uint8_t *)&id_ptr[params->numPortc], zeropad, padding); + } + + total_len += parm_size; + ext10->all_bits.extLen = total_len / XRAN_SECTIONEXT_ALIGN; + + ext10->data_field = 0; + ext10->data_field = (XRAN_CP_SECTIONEXTCMD_10 << xran_cp_radioapp_sec_ext10_ExtType) + | (last_flag << xran_cp_radioapp_sec_ext10_EF) + | ((total_len / XRAN_SECTIONEXT_ALIGN) << xran_cp_radioapp_sec_ext10_ExtLen) + | (params->numPortc << xran_cp_radioapp_sec_ext10_NumPortc) + | (params->beamGrpType << xran_cp_radioapp_sec_ext10_BeamGroupType); + + + return (total_len); +} + +/** + * @brief Estimates how many BFW sets can be fit to given MTU size + * + * @ingroup xran_cp_pkt + * + * @param numBFW the number of BFW I/Qs + * @param iqWidth the bitwidth of BFW + * @param compMeth Compression method for BFW + * @param mtu MTU size + * + * @return + * the number of maximum set of BFWs on success + * XRAN_STATUS_INVALID_PARAM, if compression method is not supported. + */ +int32_t +xran_cp_estimate_max_set_bfws(uint8_t numBFWs, uint8_t iqWidth, uint8_t compMeth, uint16_t mtu) +{ + int32_t avail_len; + int32_t bfw_bitsize; + int32_t bundle_size; + + /* Exclude headers can be present */ + avail_len = mtu - ( RTE_PKTMBUF_HEADROOM \ + + sizeof(struct xran_ecpri_hdr) \ + + sizeof(struct xran_cp_radioapp_common_header) \ + + sizeof(struct xran_cp_radioapp_section1) \ + + sizeof(union xran_cp_radioapp_section_ext6) \ + + sizeof(union xran_cp_radioapp_section_ext10) ); + + /* Calculate the size of BFWs I/Q in bytes */ + bfw_bitsize = numBFWs * iqWidth * 2; + bundle_size = bfw_bitsize>>3; + if(bfw_bitsize%8) bundle_size++; + + bundle_size += 2; /* two bytes for Beam ID */ + switch(compMeth) { + case XRAN_BFWCOMPMETHOD_NONE: + break; + + case XRAN_BFWCOMPMETHOD_BLKFLOAT: + bundle_size += 1; /* for bfwCompParam */ + break; + + default: + print_err("Compression method %d is not supported!", compMeth); + return (XRAN_STATUS_INVALID_PARAM); + } + + return (avail_len / bundle_size); +} + +inline static uint32_t +xran_cp_get_hdroffset_section1(uint32_t exthdr_size) +{ + uint32_t hdr_len; + + hdr_len = ( RTE_PKTMBUF_HEADROOM \ + + sizeof(struct xran_ecpri_hdr) \ + + sizeof(struct xran_cp_radioapp_common_header) \ + + sizeof(struct xran_cp_radioapp_section1) \ + + exthdr_size ); + return (hdr_len); +} + +/** + * @brief Prepare Beam Forming Weights(BFWs) for Section Extension 11 + * Copy sets of BFWs to buffer after compression if required. + * + * @ingroup xran_cp_pkt + * + * @param numSetBFW the number of set of BFWs + * @param numBFW the number of BFWs in a set + * @param iqWidth the bitwidth of BFW + * @param compMeth Compression method for BFW + * @param bfwIQ the array of BFW I/Q source + * @param dst the pointer of destination buffer (external buffer) + * @param dst_maxlen the maximum length of destination buffer + * need to exclude headroom from MTU + * @param bfwInfo Extension 11 PRB bundle information array. + * BFW size, offset and pointer will be set. + * + * @return + * XRAN_STATUS_SUCCESS on success + * XRAN_STATUS_RESOURCE, if destination memory is not enough to store all BFWs + */ +int32_t xran_cp_prepare_ext11_bfws(uint8_t numSetBFW, uint8_t numBFW, + uint8_t iqWidth, uint8_t compMeth, + uint8_t *dst, int16_t dst_maxlen, + struct xran_ext11_bfw_info bfwInfo[]) +{ + int32_t i; + int32_t iq_bitsize, iq_size; + int32_t parm_size; + int32_t total_len; + uint32_t hdr_offset; + uint8_t *ptr; + + struct xranlib_compress_request bfpComp_req; + struct xranlib_compress_response bfpComp_rsp; + + if(dst == NULL) { + print_err("Invalid destination pointer!"); + return (XRAN_STATUS_INVALID_PARAM); + } + + /* Calculate the size of BFWs I/Q in bytes */ + iq_bitsize = numBFW * iqWidth * 2; + iq_size = iq_bitsize>>3; + if(iq_bitsize%8) + iq_size++; + + /* Check maximum size */ + parm_size = ((compMeth == XRAN_BFWCOMPMETHOD_NONE)?0:1) + 2; /* bfwCompParam + beamID(2) */ + total_len = numSetBFW * (parm_size + iq_size); + + if(total_len >= dst_maxlen) { + print_err("Exceed maximum length to fit the set of BFWs - (%d/%d)", + total_len, dst_maxlen); + return (XRAN_STATUS_RESOURCE); + } + + hdr_offset = xran_cp_get_hdroffset_section1(sizeof(union xran_cp_radioapp_section_ext11)); + + /* Copy BFWs to destination buffer */ + ptr = dst + hdr_offset + 2; + switch(compMeth) { + /* No compression */ + case XRAN_BFWCOMPMETHOD_NONE: + for(i = 0; i < numSetBFW; i++) { + *((uint16_t *)ptr) = rte_cpu_to_be_16((bfwInfo[i].beamId & 0x7fff)); + memcpy((ptr + 2), bfwInfo[i].pBFWs, iq_size); + ptr += iq_size + 2; /* beam ID + IQ size */ + } + break; + + /* currently only supports BFP compression */ + case XRAN_BFWCOMPMETHOD_BLKFLOAT: + memset(&bfpComp_req, 0, sizeof(struct xranlib_compress_request)); + memset(&bfpComp_rsp, 0, sizeof(struct xranlib_compress_response)); + + for(i = 0; i < numSetBFW; i++) { + bfpComp_req.numRBs = 1; + bfpComp_req.numDataElements = numBFW*2; + bfpComp_req.len = numBFW*2*2; + bfpComp_req.compMethod = compMeth; + bfpComp_req.iqWidth = iqWidth; + bfpComp_req.data_in = (int16_t *)bfwInfo[i].pBFWs; + bfpComp_rsp.data_out = (int8_t*)(ptr + 2); /* exponent will be stored at first byte */ + + if(xranlib_compress_bfw(&bfpComp_req, &bfpComp_rsp) == 0) { + print_dbg("comp_len %d iq_size %d\n", bfpComp_rsp.len, iq_size); + } else { + print_err("compression failed\n"); + return (XRAN_STATUS_FAIL); + } + /* move exponent, it is stored at first byte of output */ + *ptr = *(ptr + 2); + + /* beamId */ + *((uint16_t *)(ptr+1)) = rte_cpu_to_be_16((bfwInfo[i].beamId & 0x7fff)); + ptr += iq_size + 3; + } + break; + + default: + print_err("Compression method %d is not supported!", compMeth); + return (XRAN_STATUS_INVALID_PARAM); + } + + /* Update the length of extension with padding */ + parm_size = (total_len + sizeof(union xran_cp_radioapp_section_ext11)) + % XRAN_SECTIONEXT_ALIGN; + if(parm_size) { + /* Add padding */ + parm_size = XRAN_SECTIONEXT_ALIGN - parm_size; + memcpy(ptr, zeropad, parm_size); + total_len += parm_size; + } + + return (total_len); +} + + +static void free_ext_buf(void *addr, void *opaque) +{ + /* free is not required for external buffers */ +} + +/* + * extbuf_start : the pointer of the external buffer, + * It can be the start address of whole external buffer. + * extbuf_len : total length of the external buffer (available space to access) + * To use the length of the data, offset2data should be zero. + * */ +int32_t xran_cp_attach_ext_buf(struct rte_mbuf *mbuf, + uint8_t *extbuf_start, uint16_t extbuf_len, + struct rte_mbuf_ext_shared_info *shinfo) +{ + rte_iova_t extbuf_iova; + + + if(unlikely(mbuf == NULL)) { + print_err("Invalid mbuf to attach!\n"); + return (XRAN_STATUS_INVALID_PARAM); + } + + /* Update shared information */ + shinfo->free_cb = free_ext_buf; + rte_mbuf_ext_refcnt_update(shinfo, 1); + + extbuf_iova = rte_malloc_virt2iova(extbuf_start); + if(unlikely(extbuf_iova == RTE_BAD_IOVA)) { + print_err("Failed rte_mem_virt2iova RTE_BAD_IOVA \n"); + return (XRAN_STATUS_INVALID_PARAM); + } + + rte_pktmbuf_attach_extbuf(mbuf, extbuf_start, extbuf_iova, extbuf_len, shinfo); + + rte_pktmbuf_reset_headroom(mbuf); + + return (XRAN_STATUS_SUCCESS); +} + + +static int32_t +xran_prepare_sectionext_11(struct rte_mbuf *mbuf, + struct xran_sectionext11_info *params, int32_t last_flag) +{ + union xran_cp_radioapp_section_ext11 *ext11; + int32_t total_len; + + +#if (XRAN_STRICT_PARM_CHECK) + if(unlikely((params->numSetBFWs == 0) + || (params->numSetBFWs > XRAN_MAX_SET_BFWS))) { + print_err("Invalid number of the set of PRB bundle [%d]", params->numSetBFWs); + return (XRAN_STATUS_INVALID_PARAM); + } +#endif + + /* BFWs are already present in the external buffer, just update the length */ + total_len = sizeof(union xran_cp_radioapp_section_ext11) + params->totalBfwIQLen; + + ext11 = (union xran_cp_radioapp_section_ext11 *)rte_pktmbuf_append(mbuf, total_len); + if(ext11 == NULL) { + print_err("Fail to allocate the space for section extension 11 [%d]", total_len); + return (XRAN_STATUS_RESOURCE); + } + + /*ext11->all_bits.extType = XRAN_CP_SECTIONEXTCMD_11; + ext11->all_bits.ef = last_flag; + ext11->all_bits.reserved = 0; + ext11->all_bits.RAD = params->RAD; + ext11->all_bits.disableBFWs = params->disableBFWs; + ext11->all_bits.numBundPrb = params->numBundPrb; + ext11->all_bits.bfwCompMeth = params->bfwCompMeth; + ext11->all_bits.bfwIqWidth = XRAN_CONVERT_BFWIQWIDTH(params->bfwIqWidth); + + ext11->all_bits.extLen = total_len / XRAN_SECTIONEXT_ALIGN;*/ + + ext11->data_field.data_field1 = (last_flag << xran_cp_radioapp_sec_ext11_bitfield_Ef) + | (XRAN_CP_SECTIONEXTCMD_11 << xran_cp_radioapp_sec_ext11_bitfield_ExtType) + | ((total_len / XRAN_SECTIONEXT_ALIGN) << xran_cp_radioapp_sec_ext11_bitfield_ExtLen) + | (params->disableBFWs << xran_cp_radioapp_sec_ext11_bitfield_DisBFWs) + | (params->RAD << xran_cp_radioapp_sec_ext11_bitfield_RAD); + ext11->data_field.data_field2 = ((XRAN_CONVERT_BFWIQWIDTH(params->bfwIqWidth)) << xran_cp_radioapp_sec_ext11_bitfield_BFWIQWidth) + | (params->bfwCompMeth << xran_cp_radioapp_sec_ext11_bitfield_BFWCompMeth) + | params->numBundPrb; + + *(uint32_t *)ext11 = rte_cpu_to_be_32(*(uint32_t*)ext11); + + return (total_len); +} + +/** + * @brief add section extension to C-Plane packet + * + * @param mbuf + * A pointer to the packet buffer + * @param params + * A porinter to the information to generate a C-Plane packet + * @return + * XRAN_STATUS_SUCCESS on success + * XRAN_STATUS_INVALID_PARM + * XRAN_STATUS_RESOURCE if failed to allocate the space to packet buffer + */ +int32_t xran_append_section_extensions(struct rte_mbuf *mbuf, struct xran_section_gen_info *params) +{ + int32_t i, ret; + uint32_t totalen; + int32_t last_flag; + int32_t ext_size; + + if(unlikely(params->exDataSize > XRAN_MAX_NUM_EXTENSIONS)) { + print_err("Invalid total number of extensions - %d", params->exDataSize); + return (XRAN_STATUS_INVALID_PARAM); + } + + totalen = 0; + + ret = XRAN_STATUS_SUCCESS; + + print_dbg("params->exDataSize %d\n", params->exDataSize); + for(i=0; i < params->exDataSize; i++) { + if(params->exData[i].data == NULL) { + print_err("Invalid parameter - extension data %d is NULL", i); + ret = XRAN_STATUS_INVALID_PARAM; + continue; + } + + last_flag = (params->exDataSize == (i+1))?0:1; + + switch(params->exData[i].type) { + case XRAN_CP_SECTIONEXTCMD_1: + ext_size = xran_append_sectionext_1(mbuf, params->exData[i].data, last_flag); + break; + case XRAN_CP_SECTIONEXTCMD_2: + ext_size = xran_prepare_sectionext_2(mbuf, params->exData[i].data, last_flag); + break; + case XRAN_CP_SECTIONEXTCMD_3: + ext_size = xran_prepare_sectionext_3(mbuf, params->exData[i].data, last_flag); + break; + case XRAN_CP_SECTIONEXTCMD_4: + ext_size = xran_prepare_sectionext_4(mbuf, params->exData[i].data, last_flag); + break; + case XRAN_CP_SECTIONEXTCMD_5: + ext_size = xran_prepare_sectionext_5(mbuf, params->exData[i].data, last_flag); + break; + case XRAN_CP_SECTIONEXTCMD_6: + ext_size = xran_prepare_sectionext_6(mbuf, params->exData[i].data, last_flag); + break; + case XRAN_CP_SECTIONEXTCMD_10: + ext_size = xran_prepare_sectionext_10(mbuf, params->exData[i].data, last_flag); + break; + case XRAN_CP_SECTIONEXTCMD_11: + ext_size = xran_prepare_sectionext_11(mbuf, params->exData[i].data, last_flag); + break; + default: + print_err("Extension Type %d is not supported!", params->exData[i].type); + ret = XRAN_STATUS_INVALID_PARAM; + ext_size = 0; + } + + if(ext_size == XRAN_STATUS_RESOURCE) { + break; + } + + totalen += ext_size; + } + + return (totalen); +} + + +/** + * @brief Fill the section body of type 0 in C-Plane packet + * + * @param section + * A pointer to the section in the packet buffer + * @param params + * A porinter to the information to generate a C-Plane packet + * @return + * XRAN_STATUS_SUCCESS on success + * XRAN_STATUS_INVALID_PARM if the number of symbol is invalid + */ +static int32_t +xran_prepare_section0(struct xran_cp_radioapp_section0 *section, struct xran_section_gen_info *params) +{ +#if (XRAN_STRICT_PARM_CHECK) + if(unlikely(params->info.numSymbol > XRAN_SYMBOLNUMBER_MAX)) { + print_err("Invalid number of Symbols - %d", params->info.numSymbol); + return (XRAN_STATUS_INVALID_PARAM); + } +#endif + + section->hdr.u1.common.sectionId = params->info.id; + section->hdr.u1.common.rb = params->info.rb; + section->hdr.u1.common.symInc = params->info.symInc; + section->hdr.u1.common.startPrbc = params->info.startPrbc; + section->hdr.u1.common.numPrbc = XRAN_CONVERT_NUMPRBC(params->info.numPrbc); + + section->hdr.u.s0.reMask = params->info.reMask; + section->hdr.u.s0.numSymbol = params->info.numSymbol; + section->hdr.u.s0.reserved = 0; + + // for network byte order + *((uint64_t *)section) = rte_cpu_to_be_64(*((uint64_t *)section)); + + return (XRAN_STATUS_SUCCESS); +} + +/** + * @brief Fill the section header of type 0 in C-Plane packet + * + * @param s0hdr + * A pointer to the section header in the packet buffer + * @param params + * A porinter to the information to generate a C-Plane packet + * @return + * XRAN_STATUS_SUCCESS always + */ +static int32_t +xran_prepare_section0_hdr( struct xran_cp_radioapp_section0_header *s0hdr, + struct xran_cp_gen_params *params) +{ + s0hdr->timeOffset = rte_cpu_to_be_16(params->hdr.timeOffset); + s0hdr->frameStructure.fftSize = params->hdr.fftSize; + s0hdr->frameStructure.uScs = params->hdr.scs; + s0hdr->cpLength = rte_cpu_to_be_16(params->hdr.cpLength); + s0hdr->reserved = 0; + + return (XRAN_STATUS_SUCCESS); +} + +/** + * @brief Fill the section body of type 1 in C-Plane packet + * Extension is not supported. + * + * @param section + * A pointer to the section header in the packet buffer + * @param params + * A porinter to the information to generate a C-Plane packet + * @return + * XRAN_STATUS_SUCCESS on success + * XRAN_STATUS_INVALID_PARM if the number of symbol is invalid + */ +static int32_t +xran_prepare_section1(struct xran_cp_radioapp_section1 *section, + struct xran_section_gen_info *params) +{ +#if (XRAN_STRICT_PARM_CHECK) + if(unlikely(params->info.numSymbol > XRAN_SYMBOLNUMBER_MAX)) { + print_err("Invalid number of Symbols - %d", params->info.numSymbol); + return (XRAN_STATUS_INVALID_PARAM); + } +#endif + + /*section->hdr.u1.common.sectionId = params->info.id; + section->hdr.u1.common.rb = params->info.rb; + section->hdr.u1.common.symInc = params->info.symInc; + section->hdr.u1.common.startPrbc = params->info.startPrbc; + section->hdr.u1.common.numPrbc = XRAN_CONVERT_NUMPRBC(params->info.numPrbc); + + section->hdr.u.s1.reMask = params->info.reMask; + section->hdr.u.s1.numSymbol = params->info.numSymbol; + section->hdr.u.s1.beamId = params->info.beamId; + section->hdr.u.s1.ef = params->info.ef;*/ + + section->hdr.u.first_4byte = (params->info.reMask << xran_cp_radioapp_sec_hdr_sc_ReMask) + | (params->info.numSymbol << xran_cp_radioapp_sec_hdr_sc_NumSym) + | (params->info.ef << xran_cp_radioapp_sec_hdr_sc_Ef) + | (params->info.beamId << xran_cp_radioapp_sec_hdr_sc_BeamID); + section->hdr.u1.second_4byte = (params->info.id << xran_cp_radioapp_sec_hdr_c_SecId) + | (params->info.rb << xran_cp_radioapp_sec_hdr_c_RB) + | (params->info.symInc << xran_cp_radioapp_sec_hdr_c_SymInc) + | (params->info.startPrbc << xran_cp_radioapp_sec_hdr_c_StartPrbc) + | ((XRAN_CONVERT_NUMPRBC(params->info.numPrbc)) << xran_cp_radioapp_sec_hdr_c_NumPrbc); + + // for network byte order + *((uint64_t *)section) = rte_cpu_to_be_64(*((uint64_t *)section)); + + return (XRAN_STATUS_SUCCESS); +} + +/** + * @brief Fill the section header of type 1 in C-Plane packet + * + * @param s1hdr + * A pointer to the section header in the packet buffer + * @param params + * A porinter to the information to generate a C-Plane packet + * @return + * XRAN_STATUS_SUCCESS always + */ +static int32_t +xran_prepare_section1_hdr(struct xran_cp_radioapp_section1_header *s1hdr, + struct xran_cp_gen_params *params) +{ + s1hdr->udComp.udIqWidth = params->hdr.iqWidth; + s1hdr->udComp.udCompMeth = params->hdr.compMeth; + s1hdr->reserved = 0; + + return (XRAN_STATUS_SUCCESS); +} + +/** + * @brief Fill the section body of type 3 in C-Plane packet + * Extension is not supported. + * + * @param section + * A pointer to the section header in the packet buffer + * @param params + * A porinter to the information to generate a C-Plane packet + * @return + * XRAN_STATUS_SUCCESS on success + * XRAN_STATUS_INVALID_PARM if the number of symbol is invalid + */ +static int32_t +xran_prepare_section3(struct xran_cp_radioapp_section3 *section, + struct xran_section_gen_info *params) +{ +#if (XRAN_STRICT_PARM_CHECK) + if(unlikely(params->info.numSymbol > XRAN_SYMBOLNUMBER_MAX)) { + print_err("Invalid number of Symbols - %d", params->info.numSymbol); + return (XRAN_STATUS_INVALID_PARAM); + } +#endif + + /*section->hdr.u1.common.sectionId = params->info.id; + section->hdr.u1.common.rb = params->info.rb; + section->hdr.u1.common.symInc = params->info.symInc; + section->hdr.u1.common.startPrbc = params->info.startPrbc; + section->hdr.u1.common.numPrbc = XRAN_CONVERT_NUMPRBC(params->info.numPrbc); + + section->hdr.u.s3.reMask = params->info.reMask; + section->hdr.u.s3.numSymbol = params->info.numSymbol; + section->hdr.u.s3.beamId = params->info.beamId; + section->hdr.u.s3.ef = params->info.ef;*/ + + section->hdr.u.first_4byte = (params->info.reMask << xran_cp_radioapp_sec_hdr_sc_ReMask) + | (params->info.numSymbol << xran_cp_radioapp_sec_hdr_sc_NumSym) + | (params->info.ef << xran_cp_radioapp_sec_hdr_sc_Ef) + | (params->info.beamId << xran_cp_radioapp_sec_hdr_sc_BeamID); + section->hdr.u1.second_4byte = (params->info.id << xran_cp_radioapp_sec_hdr_c_SecId) + | (params->info.rb << xran_cp_radioapp_sec_hdr_c_RB) + | (params->info.symInc << xran_cp_radioapp_sec_hdr_c_SymInc) + | (params->info.startPrbc << xran_cp_radioapp_sec_hdr_c_StartPrbc) + | ((XRAN_CONVERT_NUMPRBC(params->info.numPrbc)) << xran_cp_radioapp_sec_hdr_c_NumPrbc); + + section->freqOffset = rte_cpu_to_be_32(params->info.freqOffset)>>8; + section->reserved = 0; + + /* for network byte order (header, 8 bytes) */ + *((uint64_t *)section) = rte_cpu_to_be_64(*((uint64_t *)section)); + + return (XRAN_STATUS_SUCCESS); +} + +/** + * @brief Fill the section header of type 3 in C-Plane packet + * + * @param s3hdr + * A pointer to the section header in the packet buffer + * @param params + * A porinter to the information to generate a C-Plane packet + * @return + * XRAN_STATUS_SUCCESS always + */ +static int32_t +xran_prepare_section3_hdr(struct xran_cp_radioapp_section3_header *s3hdr, + struct xran_cp_gen_params *params) +{ + s3hdr->timeOffset = rte_cpu_to_be_16(params->hdr.timeOffset); + s3hdr->frameStructure.fftSize = params->hdr.fftSize; + s3hdr->frameStructure.uScs = params->hdr.scs; + s3hdr->cpLength = rte_cpu_to_be_16(params->hdr.cpLength); + s3hdr->udComp.udIqWidth = params->hdr.iqWidth; + s3hdr->udComp.udCompMeth = params->hdr.compMeth; + + return (XRAN_STATUS_SUCCESS); +} + +/** + * @brief add sections to C-Plane packet + * Section type 1 and 3 are supported. + * + * @param mbuf + * A pointer to the packet buffer + * @param params + * A porinter to the information to generate a C-Plane packet + * @return + * XRAN_STATUS_SUCCESS on success + * XRAN_STATUS_INVALID_PARM if section type is not 1 or 3, or handler is NULL + * XRAN_STATUS_RESOURCE if failed to allocate the space to packet buffer + */ +int32_t +xran_append_control_section(struct rte_mbuf *mbuf, struct xran_cp_gen_params *params) +{ + int32_t i, ret, ext_flag; + uint32_t totalen; + void *section; + int32_t section_size; + int32_t (*xran_prepare_section_func)(void *section, void *params); + + totalen = 0; + switch(params->sectionType) { + case XRAN_CP_SECTIONTYPE_0: /* Unused RB or Symbols in DL or UL, not supportted */ + section_size = sizeof(struct xran_cp_radioapp_section0); + xran_prepare_section_func = (int32_t (*)(void *, void *))xran_prepare_section0; + break; + + case XRAN_CP_SECTIONTYPE_1: /* Most DL/UL Radio Channels */ + section_size = sizeof(struct xran_cp_radioapp_section1); + xran_prepare_section_func = (int32_t (*)(void *, void *))xran_prepare_section1; + break; + + case XRAN_CP_SECTIONTYPE_3: /* PRACH and Mixed-numerology Channels */ + section_size = sizeof(struct xran_cp_radioapp_section3); + xran_prepare_section_func = (int32_t (*)(void *, void *))xran_prepare_section3; + break; + + case XRAN_CP_SECTIONTYPE_5: /* UE scheduling information, not supported */ + case XRAN_CP_SECTIONTYPE_6: /* Channel Information, not supported */ + case XRAN_CP_SECTIONTYPE_7: /* LAA, not supported */ + default: + section_size = 0; + xran_prepare_section_func = NULL; + print_err("Section Type %d is not supported!", params->sectionType); + return (XRAN_STATUS_INVALID_PARAM); + } + + if(unlikely(xran_prepare_section_func == NULL)) { + print_err("Section Type %d is not supported!", params->sectionType); + return (XRAN_STATUS_INVALID_PARAM); + } + + for(i=0; i < params->numSections; i++) { + section = rte_pktmbuf_append(mbuf, section_size); + if(section == NULL) { + print_err("Fail to allocate the space for section[%d]!", i); + return (XRAN_STATUS_RESOURCE); + } + print_dbg("%s %d ef %d\n", __FUNCTION__, i, params->sections[i].info.ef); + ret = xran_prepare_section_func((void *)section, + (void *)¶ms->sections[i]); + if(ret < 0){ + print_err("%s %d\n", __FUNCTION__, ret); + return (ret); + } + totalen += section_size; + + if(params->sections[i].info.ef) { + print_dbg("sections[%d].info.ef %d exDataSize %d type %d\n", i, params->sections[i].info.ef, + params->sections[i].exDataSize, params->sections[i].exData[0].type); + ret = xran_append_section_extensions(mbuf, ¶ms->sections[i]); + if(ret < 0) + return (ret); + totalen += ret; + } + } + + return (totalen); +} + +/** + * @brief fill the information of a radio application header in a C-Plane packet + * + * @param apphdr + * A pointer to the application header in the packet buffer + * @param params + * A porinter to the information to generate a C-Plane packet + * @return + * XRAN_STATUS_SUCCESS on success + * XRAN_STATUS_INVALID_PARM if direction, slot index or symbold index is invalid + */ +static inline int32_t +xran_prepare_radioapp_common_header(struct xran_cp_radioapp_common_header *apphdr, + struct xran_cp_gen_params *params) +{ + +#if (XRAN_STRICT_PARM_CHECK) + if(unlikely(params->dir != XRAN_DIR_DL && params->dir != XRAN_DIR_UL)) { + print_err("Invalid direction!"); + return (XRAN_STATUS_INVALID_PARAM); + } + if(unlikely(params->hdr.slotId > XRAN_SLOTID_MAX)) { + print_err("Invalid Slot ID!"); + return (XRAN_STATUS_INVALID_PARAM); + } + if(unlikely(params->hdr.startSymId > XRAN_SYMBOLNUMBER_MAX)) { + print_err("Invalid Symbol ID!"); + return (XRAN_STATUS_INVALID_PARAM); + } +#endif + + /*apphdr->field.all_bits = XRAN_PAYLOAD_VER << 28; + apphdr->field.dataDirection = params->dir; + //apphdr->field.payloadVer = XRAN_PAYLOAD_VER; + apphdr->field.filterIndex = params->hdr.filterIdx; + apphdr->field.frameId = params->hdr.frameId; + apphdr->field.subframeId = params->hdr.subframeId; + apphdr->field.slotId = xran_slotid_convert(params->hdr.slotId, 0); + apphdr->field.startSymbolId = params->hdr.startSymId;*/ + + apphdr->field.all_bits = (params->dir << xran_cp_radioapp_cmn_hdr_bitwidth_DataDir) + | (XRAN_PAYLOAD_VER << xran_cp_radioapp_cmn_hdr_bitwidth_PayLoadVer) + | (params->hdr.filterIdx << xran_cp_radioapp_cmn_hdr_bitwidth_FilterIdex) + | (params->hdr.frameId << xran_cp_radioapp_cmn_hdr_bitwidth_FrameId) + | (params->hdr.subframeId << xran_cp_radioapp_cmn_hdr_bitwidth_SubFrameId) + | (xran_slotid_convert(params->hdr.slotId, 0) << xran_cp_radioapp_cmn_hdr_bitwidth_SlotId) + | (params->hdr.startSymId << xran_cp_radioapp_cmn_hdr_bitwidth_StartSymId); + + apphdr->numOfSections = params->numSections; + apphdr->sectionType = params->sectionType; + + /* radio app header has common parts of 4bytes for all section types */ + //*((uint32_t *)apphdr) = rte_cpu_to_be_32(*((uint32_t *)apphdr)); + *((uint32_t *)apphdr) = rte_cpu_to_be_32(apphdr->field.all_bits); + return (XRAN_STATUS_SUCCESS); +} + +/** + * @brief add a radio application header in a C-Plane packet + * + * @param mbuf + * A pointer to the packet buffer + * @param params + * A porinter to the information to generate a C-Plane packet + * @return + * The length of added section (>0) on success + * XRAN_STATUS_INVALID_PARM if section type is invalid, or handler is NULL + * XRAN_STATUS_RESOURCE if failed to allocate the space to packet buffer + */ +int32_t +xran_append_radioapp_header(struct rte_mbuf *mbuf, struct xran_cp_gen_params *params) +{ + int32_t ret; + uint32_t totalen; + struct xran_cp_radioapp_common_header *apphdr; + int32_t (*xran_prepare_radioapp_section_hdr_func)(void *hdr, void *params); + + +#if (XRAN_STRICT_PARM_CHECK) + if(unlikely(params->sectionType >= XRAN_CP_SECTIONTYPE_MAX)) { + print_err("Invalid Section Type - %d", params->sectionType); + return (XRAN_STATUS_INVALID_PARAM); + } +#endif + + switch(params->sectionType) { + case XRAN_CP_SECTIONTYPE_0: /* Unused RB or Symbols in DL or UL, not supportted */ + xran_prepare_radioapp_section_hdr_func = (int32_t (*)(void *, void*))xran_prepare_section0_hdr; + totalen = sizeof(struct xran_cp_radioapp_section0_header); + break; + + case XRAN_CP_SECTIONTYPE_1: /* Most DL/UL Radio Channels */ + xran_prepare_radioapp_section_hdr_func = (int32_t (*)(void *, void*))xran_prepare_section1_hdr; + totalen = sizeof(struct xran_cp_radioapp_section1_header); + break; + + case XRAN_CP_SECTIONTYPE_3: /* PRACH and Mixed-numerology Channels */ + xran_prepare_radioapp_section_hdr_func = (int32_t (*)(void *, void*))xran_prepare_section3_hdr; + totalen = sizeof(struct xran_cp_radioapp_section3_header); + break; + + case XRAN_CP_SECTIONTYPE_5: /* UE scheduling information, not supported */ + case XRAN_CP_SECTIONTYPE_6: /* Channel Information, not supported */ + case XRAN_CP_SECTIONTYPE_7: /* LAA, not supported */ + default: + print_err("Section Type %d is not supported!", params->sectionType); + xran_prepare_radioapp_section_hdr_func = NULL; + totalen = 0; + return (XRAN_STATUS_INVALID_PARAM); + } + + apphdr = (struct xran_cp_radioapp_common_header *)rte_pktmbuf_append(mbuf, totalen); + if(unlikely(apphdr == NULL)) { + print_err("Fail to reserve the space for radio application header!"); + return (XRAN_STATUS_RESOURCE); + } + + ret = xran_prepare_radioapp_common_header(apphdr, params); + if(unlikely(ret < 0)) { + return (ret); + } + + if(likely(xran_prepare_radioapp_section_hdr_func)) { + totalen += xran_prepare_radioapp_section_hdr_func(apphdr, params); + } + else { + print_err("xran_prepare_radioapp_section_hdr_func is NULL!"); + return (XRAN_STATUS_INVALID_PARAM); + } + + return (totalen); +} + +/** + * @brief Create a C-Plane packet + * Transport layer fragmentation is not supported. + * + * @ingroup xran_cp_pkt + * + * @param mbuf + * A pointer to the packet buffer + * @param params + * A porinter to the information to generate a C-Plane packet + * @param CC_ID + * Component Carrier ID for this C-Plane message + * @param Ant_ID + * Antenna ID(RU Port ID) for this C-Plane message + * @param seq_id + * Sequence ID for this C-Plane message + * @return + * XRAN_STATUS_SUCCESS on success + * XRAN_STATUS_RESOURCE if failed to allocate the space to packet buffer + * XRAN_STATUS_INVALID_PARM if section type is invalid + */ +int32_t +xran_prepare_ctrl_pkt(struct rte_mbuf *mbuf, + struct xran_cp_gen_params *params, + uint8_t CC_ID, uint8_t Ant_ID, + uint8_t seq_id) +{ + int32_t ret; + uint32_t payloadlen; + struct xran_ecpri_hdr *ecpri_hdr; + + payloadlen = xran_build_ecpri_hdr(mbuf, CC_ID, Ant_ID, seq_id, &ecpri_hdr); + + ret = xran_append_radioapp_header(mbuf, params); + if(ret < 0) { + print_err("%s %d\n", __FUNCTION__, ret); + return (ret); + } + payloadlen += ret; + + ret = xran_append_control_section(mbuf, params); + if(ret < 0) { + print_err("%s %d\n", __FUNCTION__, ret); + return (ret); + } + payloadlen += ret; + + /* set payload length */ + ecpri_hdr->cmnhdr.bits.ecpri_payl_size = rte_cpu_to_be_16(payloadlen); + + return (XRAN_STATUS_SUCCESS); +} + +/////////////////////////////////////// +// for RU emulation +int32_t +xran_parse_section_ext1(void *ext, struct xran_sectionext1_info *extinfo) +{ + int32_t len; + int32_t total_len; + struct xran_cp_radioapp_section_ext1 *ext1; + uint8_t *data; + int32_t parm_size, iq_size; + int32_t N; + void *pHandle; + + pHandle = NULL; + N = xran_get_conf_num_bfweights(pHandle); + extinfo->bfwNumber = N; + + ext1 = (struct xran_cp_radioapp_section_ext1 *)ext; + data = (uint8_t *)ext; + + len = 0; + total_len = ext1->extLen * XRAN_SECTIONEXT_ALIGN; /* from word to byte */ + + extinfo->bfwCompMeth = ext1->bfwCompMeth; + extinfo->bfwIqWidth = (ext1->bfwIqWidth==0)?16:ext1->bfwIqWidth; + + len += sizeof(struct xran_cp_radioapp_section_ext1); + data += sizeof(struct xran_cp_radioapp_section_ext1); + + switch(ext1->bfwCompMeth) { + case XRAN_BFWCOMPMETHOD_NONE: + parm_size = 0; + break; + + case XRAN_BFWCOMPMETHOD_BLKFLOAT: + parm_size = 1; + extinfo->bfwCompParam.exponent = *data & 0x0f; + break; + + case XRAN_BFWCOMPMETHOD_BLKSCALE: + parm_size = 1; + extinfo->bfwCompParam.blockScaler = *data; + break; + + case XRAN_BFWCOMPMETHOD_ULAW: + parm_size = 1; + extinfo->bfwCompParam.compBitWidthShift = *data; + break; + + case XRAN_BFWCOMPMETHOD_BEAMSPACE: + parm_size = N>>3; if(N%8) parm_size++; parm_size *= 8; + memcpy(data, extinfo->bfwCompParam.activeBeamspaceCoeffMask, parm_size); + break; + + default: + print_err("Invalid BfComp method - %d", ext1->bfwCompMeth); + parm_size = 0; + } + + len += parm_size; + data += parm_size; + + /* Get BF weights */ + iq_size = N * extinfo->bfwIqWidth * 2; // total in bits + parm_size = iq_size>>3; // total in bytes (/8) + if(iq_size%8) parm_size++; // round up + + //memcpy(data, extinfo->p_bfwIQ, parm_size); + extinfo->p_bfwIQ = (int16_t*)data; + + len += parm_size; + + parm_size = len % XRAN_SECTIONEXT_ALIGN; + if(parm_size) + len += (XRAN_SECTIONEXT_ALIGN - parm_size); + + if(len != total_len) { + // TODO: fix this print_err("The size of extension 1 is not correct! [%d:%d]", len, total_len); + } + + return (total_len); +} + +int32_t +xran_parse_section_ext2(void *ext, struct xran_sectionext2_info *extinfo) +{ + int32_t len; + int32_t total_len; + struct xran_cp_radioapp_section_ext2 *ext2; + uint8_t *data; + int32_t parm_size; + uint32_t val; + int32_t val_size; + + ext2 = (struct xran_cp_radioapp_section_ext2 *)ext; + data = (uint8_t *)ext; + *(uint32_t *)ext2 = rte_be_to_cpu_32(*(uint32_t *)ext2); + + len = 0; + total_len = ext2->extLen * XRAN_SECTIONEXT_ALIGN; /* from word to byte */ + + parm_size = sizeof(struct xran_cp_radioapp_section_ext2); + + extinfo->bfAzPtWidth = ext2->bfAzPtWidth; + extinfo->bfZePtWidth = ext2->bfZePtWidth; + extinfo->bfAz3ddWidth = ext2->bfAz3ddWidth; + extinfo->bfZe3ddWidth = ext2->bfZe3ddWidth; + + if(ext2->bfaCompResv0 || ext2->bfaCompResv1) + print_err("Incorrect reserved field - %d, %d", ext2->bfaCompResv0, ext2->bfaCompResv1); + + data += parm_size; + len += parm_size; + + val_size = (extinfo->bfAzPtWidth ? extinfo->bfAzPtWidth+1 : 0) + + (extinfo->bfZePtWidth ? extinfo->bfZePtWidth+1 : 0) + + (extinfo->bfAz3ddWidth ? extinfo->bfAz3ddWidth+1 : 0) + + (extinfo->bfZe3ddWidth ? extinfo->bfZe3ddWidth+ 1: 0); + if(val_size) { + val = rte_be_to_cpu_32(*(uint32_t *)data); + val >>= (32 - val_size); + + if(extinfo->bfZe3ddWidth) { + extinfo->bfZe3dd = val & bitmask[extinfo->bfZe3ddWidth]; + val >>= (extinfo->bfZe3ddWidth + 1); + } + if(extinfo->bfAz3ddWidth) { + extinfo->bfAz3dd = val & bitmask[extinfo->bfAz3ddWidth]; + val >>= (extinfo->bfAz3ddWidth + 1); + } + if(extinfo->bfZePtWidth) { + extinfo->bfZePt = val & bitmask[extinfo->bfZePtWidth]; + val >>= (extinfo->bfZePtWidth + 1); + } + if(extinfo->bfAzPtWidth) { + extinfo->bfAzPt = val & bitmask[extinfo->bfAzPtWidth]; + val >>= (extinfo->bfAzPtWidth + 1); + } + } + + parm_size = val_size/8; + if(val_size%8) parm_size += 1; + + data += parm_size; + len += parm_size; + + extinfo->bfAzSI = (*data >> 3) & 0x07; + extinfo->bfZeSI = *data & 0x07; + + data++; + len++; + + parm_size = len % XRAN_SECTIONEXT_ALIGN; + if(parm_size) + len += (XRAN_SECTIONEXT_ALIGN - parm_size); + + if(len != total_len) { + print_err("The size of extension 2 is not correct! [%d:%d]", len, total_len); + } + + return (total_len); + +} + +int32_t +xran_parse_section_ext3(void *ext, struct xran_sectionext3_info *extinfo) +{ + int32_t len; + int32_t total_len; + + total_len = 0; + len = *((uint8_t *)ext + 1); + + switch(len) { + case 1: /* non-first data layer */ + { + union xran_cp_radioapp_section_ext3_non_first *ext3_nf; + + ext3_nf = (union xran_cp_radioapp_section_ext3_non_first *)ext; + *(uint32_t *)ext3_nf = rte_be_to_cpu_32(*(uint32_t *)ext3_nf); + + total_len = ext3_nf->all_bits.extLen * XRAN_SECTIONEXT_ALIGN; /* from word to byte */ + + extinfo->codebookIdx= ext3_nf->all_bits.codebookIndex; + extinfo->layerId = ext3_nf->all_bits.layerId; + extinfo->numLayers = ext3_nf->all_bits.numLayers; + } + break; + + case 3: /* first data layer with two antenna */ + case 4: /* first data layer with four antenna */ + { + union xran_cp_radioapp_section_ext3_first *ext3_f; + uint16_t *beamid; + + ext3_f = (union xran_cp_radioapp_section_ext3_first *)ext; + *(uint64_t *)ext3_f = rte_be_to_cpu_64(*(uint64_t *)ext3_f); + + total_len = ext3_f->all_bits.extLen * XRAN_SECTIONEXT_ALIGN; /* from word to byte */ + + extinfo->codebookIdx= ext3_f->all_bits.codebookIndex; + extinfo->layerId = ext3_f->all_bits.layerId; + extinfo->numLayers = ext3_f->all_bits.numLayers; + extinfo->txScheme = ext3_f->all_bits.txScheme; + extinfo->crsReMask = ext3_f->all_bits.crsReMask; + extinfo->crsShift = ext3_f->all_bits.crsShift; + extinfo->crsSymNum = ext3_f->all_bits.crsSymNum; + + /* beam IDs are stored from 10th octet */ + beamid = (uint16_t *)((uint8_t *)ext + 10); + + extinfo->beamIdAP1 = rte_be_to_cpu_16(*beamid++); + if(len == 4) { + extinfo->beamIdAP2 = rte_be_to_cpu_16(*beamid++); + extinfo->beamIdAP3 = rte_be_to_cpu_16(*beamid); + extinfo->numAntPort = 4; + } + else { + extinfo->numAntPort = 2; + } + } + break; + + default: + print_err("Invalid length of extension 3 - %d", len); + } + + return (total_len); +} + +int32_t +xran_parse_section_ext4(void *ext, struct xran_sectionext4_info *extinfo) +{ + int32_t len; + struct xran_cp_radioapp_section_ext4 *ext4; + int32_t total_len; + + ext4 = (struct xran_cp_radioapp_section_ext4 *)ext; + + *(uint32_t *)ext4 = rte_be_to_cpu_32(*(uint32_t *)ext4); + + len = 0; + total_len = ext4->extLen * XRAN_SECTIONEXT_ALIGN; /* from word to byte */ + + extinfo->modCompScaler = ext4->modCompScaler; + extinfo->csf = ext4->csf; + + len += sizeof(struct xran_cp_radioapp_section_ext4); + if(len != total_len) { + print_err("The size of extension 4 is not correct! [%d:%d]", len, total_len); + } + + return (total_len); +} + +int32_t +xran_parse_section_ext5(void *ext, + struct xran_sectionext5_info *extinfo) +{ + int32_t len; + struct xran_cp_radioapp_section_ext_hdr *ext_hdr; + struct xran_cp_radioapp_section_ext5 ext5; + int32_t parm_size; + int32_t total_len; + uint8_t *data; + uint16_t i; + + ext_hdr = (struct xran_cp_radioapp_section_ext_hdr *)ext; + *(uint16_t *)ext_hdr = rte_be_to_cpu_16(*(uint16_t *)ext_hdr); + + total_len = ext_hdr->extLen * XRAN_SECTIONEXT_ALIGN; /* from word to byte */ + + /* one set has 3.5 bytes, so enforcing double to do integer calculation */ + parm_size = ((total_len-sizeof(struct xran_cp_radioapp_section_ext_hdr))*2) / 7; + + if(parm_size > XRAN_MAX_MODCOMP_ADDPARMS) { + print_err("Exceeds maximum number of parameters - %d", parm_size); + parm_size = XRAN_MAX_MODCOMP_ADDPARMS; + } + + len = 0; + data = (uint8_t *)(ext_hdr + 1); + + i = 0; + while(i < parm_size) { + // For odd number set, more data can be copied + *((uint64_t *)&ext5) = rte_be_to_cpu_64(*((uint64_t *)data)); + + extinfo->mc[i].mcScaleOffset = ext5.mcScaleOffset1; + extinfo->mc[i].csf = ext5.csf1; + extinfo->mc[i].mcScaleReMask = ext5.mcScaleReMask1; + i++; + + extinfo->mc[i].mcScaleOffset = ext5.mcScaleOffset2; + extinfo->mc[i].csf = ext5.csf2; + extinfo->mc[i].mcScaleReMask = ext5.mcScaleReMask2; + i++; + + data += sizeof(struct xran_cp_radioapp_section_ext5); + } + + /* check the values of last set + * due to alignment, it cannot be identified by the length that 3 or 4, 11 or 12 and etc + * don't check mcScaleOffset might not be zero (some part is out of zero-padding) */ + i--; + if(i < XRAN_MAX_MODCOMP_ADDPARMS) { + if(extinfo->mc[i].csf == 0 && extinfo->mc[i].mcScaleReMask == 0) + extinfo->num_sets = i; + else + extinfo->num_sets = i+1; + }else { + print_err("Maximum total number %d is not correct!", i); + } + + return (total_len); +} + +int32_t +xran_parse_section_ext6(void *ext, + struct xran_sectionext6_info *extinfo) +{ + int32_t len; + union xran_cp_radioapp_section_ext6 *ext6; + int32_t total_len; + + ext6 = (union xran_cp_radioapp_section_ext6 *)ext; + *(uint64_t *)ext6 = rte_be_to_cpu_64(*(uint64_t *)ext6); + + total_len = ext6->all_bits.extLen * XRAN_SECTIONEXT_ALIGN; /* from word to byte */ + + extinfo->rbgSize = ext6->all_bits.rbgSize; + extinfo->rbgMask = ext6->all_bits.rbgMask; + extinfo->symbolMask = ext6->all_bits.symbolMask; + + len = sizeof(union xran_cp_radioapp_section_ext6); + if(len != total_len) { + print_err("The size of extension 6 is not correct! [%d:%d]", len, total_len); + } + + return (total_len); +} + +int32_t +xran_parse_section_ext10(void *ext, + struct xran_sectionext10_info *extinfo) +{ + int32_t len, padding; + int32_t i; + union xran_cp_radioapp_section_ext10 *ext10; + int32_t total_len; + uint16_t *ptr; + + ext10 = (union xran_cp_radioapp_section_ext10 *)ext; + + total_len = ext10->all_bits.extLen * XRAN_SECTIONEXT_ALIGN; /* from word to byte */ + + extinfo->numPortc = ext10->all_bits.numPortc; + extinfo->beamGrpType= ext10->all_bits.beamGroupType; + + len = sizeof(union xran_cp_radioapp_section_ext10); + if(ext10->all_bits.beamGroupType == XRAN_BEAMGT_VECTORLIST) { + len += extinfo->numPortc * 2 - 1; + padding = len % XRAN_SECTIONEXT_ALIGN; + if(padding) { + padding = XRAN_SECTIONEXT_ALIGN - padding; + len += padding; + } + + ptr = (uint16_t *)&ext10->all_bits.reserved; + for(i=0; i < extinfo->numPortc; i++) + extinfo->beamID[i] = rte_be_to_cpu_16(ptr[i]); + } + + if(len != total_len) { + print_err("The size of extension 10 is not correct! [%d:%d]", len, total_len); + } + + return (total_len); +} + +int32_t +xran_parse_section_ext11(void *ext, + struct xran_sectionext11_recv_info *extinfo) +{ + int32_t len; + int32_t total_len; + union xran_cp_radioapp_section_ext11 *ext11; + uint8_t *data; + int32_t parm_size, iq_size; + int32_t N; + void *pHandle; + + pHandle = NULL; + N = xran_get_conf_num_bfweights(pHandle); + + ext11 = (union xran_cp_radioapp_section_ext11 *)ext; + data = (uint8_t *)ext; + + *(uint32_t *)ext11 = rte_cpu_to_be_32(*(uint32_t*)ext11); + total_len = ext11->all_bits.extLen * XRAN_SECTIONEXT_ALIGN; /* from word to byte */ + + extinfo->RAD = ext11->all_bits.RAD; + extinfo->disableBFWs = ext11->all_bits.disableBFWs; + extinfo->numBundPrb = ext11->all_bits.numBundPrb; + extinfo->bfwCompMeth = ext11->all_bits.bfwCompMeth; + extinfo->bfwIqWidth = (ext11->all_bits.bfwIqWidth==0)?16:ext11->all_bits.bfwIqWidth; + + len = sizeof(union xran_cp_radioapp_section_ext11); + data += sizeof(union xran_cp_radioapp_section_ext11); + + extinfo->numSetBFWs = 0; + while((len+4) < total_len) { /* adding 4 is to consider zero pads */ + /* Get bfwCompParam */ + switch(ext11->all_bits.bfwCompMeth) { + case XRAN_BFWCOMPMETHOD_NONE: + parm_size = 0; + break; + + case XRAN_BFWCOMPMETHOD_BLKFLOAT: + parm_size = 1; + extinfo->bundInfo[extinfo->numSetBFWs].bfwCompParam.exponent = *data & 0x0f; + break; +#if 0 /* Not supported */ + case XRAN_BFWCOMPMETHOD_BLKSCALE: + parm_size = 1; + extinfo->bundInfo[extinfo->numSetBFWs].bfwCompParam.blockScaler = *data; + break; + + case XRAN_BFWCOMPMETHOD_ULAW: + parm_size = 1; + extinfo->bundInfo[extinfo->numSetBFWs].bfwCompParam.compBitWidthShift = *data; + break; + + case XRAN_BFWCOMPMETHOD_BEAMSPACE: + parm_size = N>>3; if(N%8) parm_size++; parm_size *= 8; + memcpy(data, extinfo->bundInfo[extinfo->numSetBFWs].bfwCompParam.activeBeamspaceCoeffMask, parm_size); + break; +#endif + default: + print_err("Invalid BfComp method - %d", ext11->all_bits.bfwCompMeth); + parm_size = 0; + } + len += parm_size; + data += parm_size; + + /* Get beam ID */ + extinfo->bundInfo[extinfo->numSetBFWs].beamId = rte_be_to_cpu_16(*((int16_t *)data)); + len += sizeof(int16_t); + data += sizeof(int16_t); + + /* Get BF weights */ + iq_size = N * extinfo->bfwIqWidth * 2; // total in bits + parm_size = iq_size>>3; // total in bytes (/8) + if(iq_size%8) parm_size++; // round up + + if(extinfo->bundInfo[extinfo->numSetBFWs].pBFWs) { + memcpy(extinfo->bundInfo[extinfo->numSetBFWs].pBFWs, data, parm_size); + } + extinfo->bundInfo[extinfo->numSetBFWs].BFWSize = parm_size; + + len += parm_size; + data += parm_size; + extinfo->numSetBFWs++; + } + + parm_size = len % XRAN_SECTIONEXT_ALIGN; + if(parm_size) + len += (XRAN_SECTIONEXT_ALIGN - parm_size); + + if(len != total_len) { + print_err("The size of extension 11 is not correct! [%d:%d]", len, total_len); + } + + return (total_len); +} + +int32_t +xran_parse_section_extension(struct rte_mbuf *mbuf, + void *ext, + struct xran_section_recv_info *section) +{ + int32_t total_len, len, numext; + uint8_t *ptr; + int32_t flag_last; + int32_t ext_type; + int32_t i; + + total_len = 0; + ptr = (uint8_t *)ext; + + numext = 0; + + flag_last = 1; + i = 0; + while(flag_last) { + /* check ef */ + flag_last = (*ptr & 0x80); + + ext_type = *ptr & 0x7f; + section->exts[numext].type = ext_type; + switch(ext_type) { + case XRAN_CP_SECTIONEXTCMD_1: + len = xran_parse_section_ext1(ptr, §ion->exts[numext].u.ext1); + break; + case XRAN_CP_SECTIONEXTCMD_2: + len = xran_parse_section_ext2(ptr, §ion->exts[numext].u.ext2); + break; + case XRAN_CP_SECTIONEXTCMD_3: + len = xran_parse_section_ext3(ptr, §ion->exts[numext].u.ext3); + break; + case XRAN_CP_SECTIONEXTCMD_4: + len = xran_parse_section_ext4(ptr, §ion->exts[numext].u.ext4); + break; + case XRAN_CP_SECTIONEXTCMD_5: + len = xran_parse_section_ext5(ptr, §ion->exts[numext].u.ext5); + break; + case XRAN_CP_SECTIONEXTCMD_6: + len = xran_parse_section_ext6(ptr, §ion->exts[numext].u.ext6); + break; + case XRAN_CP_SECTIONEXTCMD_10: + len = xran_parse_section_ext10(ptr, §ion->exts[numext].u.ext10); + break; + case XRAN_CP_SECTIONEXTCMD_11: + len = xran_parse_section_ext11(ptr, §ion->exts[numext].u.ext11); + break; + + default: + print_err("Extension %d is not supported!", ext_type); + len = 0; + } + + section->exts[numext].size = len; + ptr += len; total_len += len; + + i++; + if(++numext < XRAN_MAX_NUM_EXTENSIONS) continue; + + /* exceeds maximum number of extensions */ + break; + } + + section->numExts = numext; + + return (total_len); +} + +/** + * @brief Parse a C-Plane packet (for RU emulation) + * Transport layer fragmentation is not supported. + * + * @ingroup xran_cp_pkt + * + * @param mbuf + * The pointer of the packet buffer to be parsed + * @param params + * The pointer of structure to store the information of parsed packet + * @param eaxc + * The pointer of sturcture to store the decomposed information of ecpriRtcid/ecpriPcid + * @return + * XRAN_STATUS_SUCCESS on success + * XRAN_STATUS_INVALID_PACKET if failed to parse the packet + */ +int32_t +xran_parse_cp_pkt(struct rte_mbuf *mbuf, + struct xran_cp_recv_params *result, + struct xran_recv_packet_info *pkt_info) +{ + struct xran_ecpri_hdr *ecpri_hdr; + struct xran_cp_radioapp_common_header *apphdr; + int32_t i, ret; + int32_t extlen; + + ret = xran_parse_ecpri_hdr(mbuf, &ecpri_hdr, pkt_info); + if(ret < 0 && ecpri_hdr == NULL) + return (XRAN_STATUS_INVALID_PACKET); + + /* Process radio header. */ + apphdr = (void *)rte_pktmbuf_adj(mbuf, sizeof(struct xran_ecpri_hdr)); + if(apphdr == NULL) { + print_err("Invalid packet - radio app hedaer!"); + return (XRAN_STATUS_INVALID_PACKET); + } + + *((uint32_t *)apphdr) = rte_be_to_cpu_32(*((uint32_t *)apphdr)); + + if(apphdr->field.payloadVer != XRAN_PAYLOAD_VER) { + print_err("Invalid Payload version - %d", apphdr->field.payloadVer); + ret = XRAN_STATUS_INVALID_PACKET; + } + + result->dir = apphdr->field.dataDirection; + result->hdr.filterIdx = apphdr->field.filterIndex; + result->hdr.frameId = apphdr->field.frameId; + result->hdr.subframeId = apphdr->field.subframeId; + result->hdr.slotId = apphdr->field.slotId; + result->hdr.startSymId = apphdr->field.startSymbolId; + result->sectionType = apphdr->sectionType; + result->numSections = apphdr->numOfSections; + +#if 0 + printf("[CP%5d] eAxC[%d:%d:%02d:%02d] %s seq[%03d-%03d-%d] sec[%d-%d] frame[%3d-%2d-%2d] sym%02d\n", + pkt_info->payload_len, + pkt_info->eaxc.cuPortId, pkt_info->eaxc.bandSectorId, + pkt_info->eaxc.ccId, pkt_info->eaxc.ruPortId, + result->dir?"DL":"UL", + pkt_info->seq_id, pkt_info->subseq_id, pkt_info->ebit, + result->sectionType, result->numSections, + result->hdr.frameId, result->hdr.subframeId, result->hdr.slotId, + result->hdr.startSymId + ); +#endif + + switch(apphdr->sectionType) { + case XRAN_CP_SECTIONTYPE_0: // Unused RB or Symbols in DL or UL, not supportted + { + struct xran_cp_radioapp_section0_header *hdr; + struct xran_cp_radioapp_section0 *section; + + hdr = (struct xran_cp_radioapp_section0_header*)apphdr; + + result->hdr.fftSize = rte_be_to_cpu_16(hdr->timeOffset); + result->hdr.scs = hdr->frameStructure.fftSize; + result->hdr.timeOffset = hdr->frameStructure.uScs; + result->hdr.cpLength = rte_be_to_cpu_16(hdr->cpLength); + //hdr->reserved; /* should be zero */ + + section = (void *)rte_pktmbuf_adj(mbuf, sizeof(struct xran_cp_radioapp_section0_header)); + if(section == NULL) { + print_err("Invalid packet: section type0 - radio app hedaer!"); + return (XRAN_STATUS_INVALID_PACKET); + } + for(i=0; inumSections; i++) { + *((uint64_t *)section) = rte_be_to_cpu_64(*((uint64_t *)section)); + + result->sections[i].info.type = apphdr->sectionType; + result->sections[i].info.id = section->hdr.u1.common.sectionId; + result->sections[i].info.rb = section->hdr.u1.common.rb; + result->sections[i].info.symInc = section->hdr.u1.common.symInc; + result->sections[i].info.startPrbc = section->hdr.u1.common.startPrbc; + result->sections[i].info.numPrbc = section->hdr.u1.common.numPrbc, + result->sections[i].info.numSymbol = section->hdr.u.s0.numSymbol; + result->sections[i].info.reMask = section->hdr.u.s0.reMask; + //section->hdr.u.s0.reserved; /* should be zero */ + + section = (void *)rte_pktmbuf_adj(mbuf, sizeof(struct xran_cp_radioapp_section0)); + if(section == NULL) { + print_err("Invalid packet: section type0 - number of section [%d:%d]!", + result->numSections, i); + result->numSections = i; + ret = XRAN_STATUS_INVALID_PACKET; + break; + } + } + } + break; + + case XRAN_CP_SECTIONTYPE_1: // Most DL/UL Radio Channels + { + struct xran_cp_radioapp_section1_header *hdr; + struct xran_cp_radioapp_section1 *section; + + hdr = (struct xran_cp_radioapp_section1_header*)apphdr; + + result->hdr.iqWidth = hdr->udComp.udIqWidth; + result->hdr.compMeth = hdr->udComp.udCompMeth; + + section = (void *)rte_pktmbuf_adj(mbuf, sizeof(struct xran_cp_radioapp_section1_header)); + if(section == NULL) { + print_err("Invalid packet: section type1 - radio app hedaer!"); + return (XRAN_STATUS_INVALID_PACKET); + } + + for(i=0; inumSections; i++) { + *((uint64_t *)section) = rte_be_to_cpu_64(*((uint64_t *)section)); + + result->sections[i].info.type = apphdr->sectionType; + result->sections[i].info.id = section->hdr.u1.common.sectionId; + result->sections[i].info.rb = section->hdr.u1.common.rb; + result->sections[i].info.symInc = section->hdr.u1.common.symInc; + result->sections[i].info.startPrbc = section->hdr.u1.common.startPrbc; + result->sections[i].info.numPrbc = section->hdr.u1.common.numPrbc, + result->sections[i].info.numSymbol = section->hdr.u.s1.numSymbol; + result->sections[i].info.reMask = section->hdr.u.s1.reMask; + result->sections[i].info.beamId = section->hdr.u.s1.beamId; + result->sections[i].info.ef = section->hdr.u.s1.ef; + + section = (void *)rte_pktmbuf_adj(mbuf, + sizeof(struct xran_cp_radioapp_section1)); + if(section == NULL) { + print_err("Invalid packet: section type1 - number of section [%d:%d]!", + result->numSections, i); + result->numSections = i; + ret = XRAN_STATUS_INVALID_PACKET; + break; + } + + if(result->sections[i].info.ef) { + // parse section extension + extlen = xran_parse_section_extension(mbuf, (void *)section, &result->sections[i]); + if(extlen > 0) { + section = (void *)rte_pktmbuf_adj(mbuf, extlen); + if(section == NULL) { + print_err("Invalid packet: section type1 - section extension [%d]!", i); + ret = XRAN_STATUS_INVALID_PACKET; + break; + } + } + } + else extlen = 0; + } + } + break; + + case XRAN_CP_SECTIONTYPE_3: // PRACH and Mixed-numerology Channels + { + struct xran_cp_radioapp_section3_header *hdr; + struct xran_cp_radioapp_section3 *section; + + hdr = (struct xran_cp_radioapp_section3_header*)apphdr; + + result->hdr.timeOffset = rte_be_to_cpu_16(hdr->timeOffset); + result->hdr.scs = hdr->frameStructure.uScs; + result->hdr.fftSize = hdr->frameStructure.fftSize; + result->hdr.cpLength = rte_be_to_cpu_16(hdr->cpLength); + result->hdr.iqWidth = hdr->udComp.udIqWidth; + result->hdr.compMeth = hdr->udComp.udCompMeth; + + section = (void *)rte_pktmbuf_adj(mbuf, sizeof(struct xran_cp_radioapp_section3_header)); + if(section == NULL) { + print_err("Invalid packet: section type3 - radio app hedaer!"); + return (XRAN_STATUS_INVALID_PACKET); + } + + for(i=0; inumSections; i++) { + *((uint64_t *)section) = rte_be_to_cpu_64(*((uint64_t *)section)); + + result->sections[i].info.type = apphdr->sectionType; + result->sections[i].info.id = section->hdr.u1.common.sectionId; + result->sections[i].info.rb = section->hdr.u1.common.rb; + result->sections[i].info.symInc = section->hdr.u1.common.symInc; + result->sections[i].info.startPrbc = section->hdr.u1.common.startPrbc; + result->sections[i].info.numPrbc = section->hdr.u1.common.numPrbc, + result->sections[i].info.numSymbol = section->hdr.u.s3.numSymbol; + result->sections[i].info.reMask = section->hdr.u.s3.reMask; + result->sections[i].info.beamId = section->hdr.u.s3.beamId; + result->sections[i].info.ef = section->hdr.u.s3.ef; + result->sections[i].info.freqOffset = ((int32_t)rte_be_to_cpu_32(section->freqOffset))>>8; + + if(section->reserved) { + print_err("Invalid packet: section type3 - section[%d] reserved[%d]", i, section->reserved); + ret = XRAN_STATUS_INVALID_PACKET; + } + + section = (void *)rte_pktmbuf_adj(mbuf, sizeof(struct xran_cp_radioapp_section3)); + if(section == NULL) { + print_err("Invalid packet: section type3 - number of section [%d:%d]!", + result->numSections, i); + result->numSections = i; + ret = XRAN_STATUS_INVALID_PACKET; + break; + } + + if(result->sections[i].info.ef) { + // parse section extension + extlen = xran_parse_section_extension(mbuf, (void *)section, &result->sections[i]); + if(extlen > 0) { + section = (void *)rte_pktmbuf_adj(mbuf, extlen); + if(section == NULL) { + print_err("Invalid packet: section type3 - section extension [%d]!", i); + ret = XRAN_STATUS_INVALID_PACKET; + break; + } + } + } + else extlen = 0; + } + } + break; + + case XRAN_CP_SECTIONTYPE_5: // UE scheduling information, not supported + case XRAN_CP_SECTIONTYPE_6: // Channel Information, not supported + case XRAN_CP_SECTIONTYPE_7: // LAA, not supported + default: + ret = XRAN_STATUS_INVALID_PARAM; + print_err("Non-supported Section Type - %d", apphdr->sectionType); + } + +#if 0 + printf("[CP-%s] [%3d:%2d:%2d] section%d[%d] startSym=%d filterIdx=%X IQwidth=%d CompMeth=%d\n", + result->dir?"DL":"UL", + result->hdr.frameId, result->hdr.subframeId, result->hdr.slotId, + result->sectionType, result->numSections, + result->hdr.startSymId, + result->hdr.filterIdx, + result->hdr.iqWidth, result->hdr.compMeth); + + for(i=0; inumSections; i++) { + printf(" || %3d:%04X| rb=%d symInc=%d numSym=%d startPrbc=%02d numPrbc=%d reMask=%03X beamId=%04X freqOffset=%d ef=%d\n", + i, result->sections[i].info.id, + result->sections[i].info.rb, + result->sections[i].info.symInc, result->sections[i].info.numSymbol, + result->sections[i].info.startPrbc, result->sections[i].info.numPrbc, + result->sections[i].info.reMask, + result->sections[i].info.beamId, + result->sections[i].info.freqOffset, + result->sections[i].info.ef); + + if(result->sections[i].info.ef) { + for(int32_t j=0; jsections[i].exDataSize; j++) { + printf(" || %2d : type=%d len=%d\n", + j, result->sections[i].exData[j].type, result->sections[i].exData[j].len); + switch(result->sections[i].exData[j].type) { + case XRAN_CP_SECTIONEXTCMD_1: + { + struct xran_sectionext1_info *ext1; + ext1 = result->sections[i].exData[j].data; + printf(" || bfwNumber=%d bfwIqWidth=%d bfwCompMeth=%d\n", + ext1->bfwNumber, ext1->bfwIqWidth, ext1->bfwCompMeth); + } + break; + case XRAN_CP_SECTIONEXTCMD_2: + { + struct xran_sectionext2_info *ext2; + ext2 = result->sections[i].exData[j].data; + printf(" || AzPt=%02x(%d) ZePt=%02x(%d) Az3dd=%02x(%d) Ze3dd=%02x(%d) AzSI=%02x ZeSI=%02x\n", + ext2->bfAzPt, ext2->bfAzPtWidth, + ext2->bfZePt, ext2->bfZePtWidth, + ext2->bfAz3dd, ext2->bfAz3ddWidth, + ext2->bfZe3dd, ext2->bfZe3ddWidth, + ext2->bfAzSI, ext2->bfZeSI); + } + break; + case XRAN_CP_SECTIONEXTCMD_4: + { + struct xran_sectionext4_info *ext4; + ext4 = result->sections[i].exData[j].data; + printf(" || csf=%d modCompScaler=%d\n", + ext4->csf, ext4->modCompScaler); + } + break; + case XRAN_CP_SECTIONEXTCMD_5: + { + struct xran_sectionext5_info *ext5; + ext5 = result->sections[i].exData[j].data; + printf(" || num_sets=%d\n", ext5->num_sets); + for(int32_t k=0; knum_sets; k++) { + printf(" || %d - csf=%d mcScaleReMask=%04x mcScaleOffset=%04x\n", + k, ext5->mc[k].csf, + ext5->mc[k].mcScaleReMask, ext5->mc[k].mcScaleOffset); + } + } + break; + + case XRAN_CP_SECTIONEXTCMD_0: + case XRAN_CP_SECTIONEXTCMD_3: + default: + printf("Invalid section extension type!\n"); + } + } + } + } +#endif + + return(ret); +}