FreeCalypso > hg > fc-magnetite
view src/gpf3/ccd/ccddata_pdi.c @ 695:530f71d65c20
uartfax.c: pull from Tourmaline (GTM900 RI output)
In addition to the primary intent of bringing in GTM900 RI output support,
pulling uartfax.c wholesale from Tourmaline also changes the initial_time
argument in the two NU_Create_Timer() calls from 0 to 1. This change
is required for the new version of Nucleus used in Tourmaline and Selenite
(and apparently also used by TI in LoCosto), and it is harmless (no effect)
for the original TCS211 version of Nucleus used in Magnetite.
The new philosophical model being adopted is that Tourmaline is our new
development head firmware, whereas Magnetite will now be maintained
similarly to how Linux maintainers treat stable kernels: changes will be
backported from Tourmaline if they are deemed appropriate for stable
modem firmware.
author | Mychaela Falconia <falcon@freecalypso.org> |
---|---|
date | Sat, 24 Oct 2020 17:33:10 +0000 |
parents | c41a534f33c6 |
children |
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/* +----------------------------------------------------------------------------- | Project : | Modul : ccddata_pdi.c +----------------------------------------------------------------------------- | Copyright 2002 Texas Instruments Berlin, AG | All rights reserved. | | This file is confidential and a trade secret of Texas | Instruments Berlin, AG | The receipt of or possession of this file does not convey | any rights to reproduce or disclose its contents or to | manufacture, use, or sell anything it may describe, in | whole, or in part, without the specific written consent of | Texas Instruments Berlin, AG. +----------------------------------------------------------------------------- | Purpose : contains table with information to decode airmessages | depending on the carrier-primitive +----------------------------------------------------------------------------- */ #include "pdi.h" #include "ccdtable.h" #include "mconst.cdg" #include "pconst.cdg" /* declaration of special ccdmsg preparation handlers */ int invoke_ccd_setStore(T_PDI_CCDMSG* ccdmsg, ULONG values[], int len); int mphX_checker(T_PDI_CCDMSG* ccdmsg, ULONG values[], int len); int mphp_sing_block_req_checker(T_PDI_CCDMSG* ccdmsg, ULONG values[], int len); int mphp_sing_block_con_checker(T_PDI_CCDMSG* ccdmsg, ULONG values[], int len); int mphp_sing_block_con_edge_checker(T_PDI_CCDMSG* ccdmsg, ULONG values[], int len); int mphp_polling_resp_checker(T_PDI_CCDMSG* ccdmsg, ULONG values[], int len); int mac_data_checker(T_PDI_CCDMSG* ccdmsg, ULONG values[], int len); int mac_poll_checker(T_PDI_CCDMSG* ccdmsg, ULONG values[], int len); int rlc_data_0_checker(T_PDI_CCDMSG* ccdmsg, ULONG values[], int len); int rlc_data_1_checker(T_PDI_CCDMSG* ccdmsg, ULONG values[], int len); /* declaration of primitive members to be collected */ static char* ccd_loadstore_elements[]= { "loadstore_val0", "loadstore_val1", NULL }; static char* mphX_constrainer[]= { "error_flag", NULL }; static char* mphp_sing_block_constrainer[]= { "purpose", NULL }; static char* mphp_sing_block_con_edge_constrainer[]= { "purpose", "sb_status", "dl_error", NULL }; static char* mphp_polling_resp_constrainer[] = { "poll_resp_type", NULL }; static char* mac_data_constrainer[] = { "block_status", NULL }; static char* rlc_data_constrainer[] = { "rlc_id", NULL }; /* decode info filter */ static T_PDI_DECODEINFO m_dinfo[]={ /* type */ /* attrib */ /* prim */ /* entity */ /* mt */ /* pdi_prepare_ccdmsg */ /* primmbr */ {PDI_DECODETYPE_L3PDU_N, "sdu", "PH_*", "", 0xff, NULL, NULL}, {PDI_DECODETYPE_L3PDU_N, "sdu", "MPH_*", "", 0xff, NULL, NULL}, {PDI_DECODETYPE_RR_SHORT, "sdu", "DL_SHORT*", "RR_SHORT", 0xff, NULL, NULL}, #ifdef DL_DATA_REQ #if (DL_DATA_REQ & 0x4000) /* Toggle direction for old-style DL_* primtives */ {PDI_DECODETYPE_L3PDU_N, "sdu", "DL_*", "", 0xff, NULL, NULL}, #endif #endif {PDI_DECODETYPE_NOPD_N, "sdu", "XX_CCD_ASN1_DECODE_REQ", "ASN1_MSG", 0xff, NULL, NULL}, {PDI_DECODETYPE_NOPD, "sdu", "XX_CCD_ASN1_CODE_IND", "ASN1_MSG", 0xff, NULL, NULL}, {PDI_DECODETYPE_NOPD_N, "sdu", "XX_DYNARR_DECODE_REQ", "ASN1_MSG", 0xff, NULL, NULL}, {PDI_DECODETYPE_NOPD, "sdu", "XX_DYNARR_CODE_IND", "ASN1_MSG", 0xff, NULL, NULL}, {PDI_DECODETYPE_MAC_H_CHECK, "dl_block", "MAC_DATA_IND", "GRR", 0xff, mac_data_checker, mac_data_constrainer}, {PDI_DECODETYPE_MAC_H_CHECK, "dl_block", "MAC_DATA_IND_EGPRS", "GRR", 0xff, mac_data_checker, mac_data_constrainer}, {PDI_DECODETYPE_MAC_H_CHECK, "ul_block", "MAC_EGPRS_DATA_REQ", "GRR", 0xff, mac_data_checker, mac_data_constrainer}, {PDI_DECODETYPE_MAC_H_CHECK, "ul_block", "MAC_DATA_REQ", "GRR", 0xff, mac_data_checker, mac_data_constrainer}, {PDI_DECODETYPE_MAC_H_CHECK, "ul_block", "MAC_POLL_REQ", "GRR", 0xff, mac_poll_checker, mac_data_constrainer}, {PDI_DECODETYPE_NOPD, "sdu", "RRGRR_GPRS_SI13_IND", "RR", 0xff, NULL, NULL}, {PDI_DECODETYPE_NOPD, "sdu", "RRGRR_IA_IND", "RR", 0xff, NULL, NULL}, {PDI_DECODETYPE_NOPD, "sdu", "RRGRR_DATA_IND", "RR", 0xff, NULL, NULL}, {PDI_DECODETYPE_NOPD, "sdu", "RRGRR_IA_DOWNLINK_IND", "RR", 0xff, NULL, NULL}, {PDI_DECODETYPE_NOPD_N, "sdu", "RRGRR_SI_STATUS_IND", "GRR", 0xff, NULL, NULL}, {PDI_DECODETYPE_NOPD_N, "sdu", "TB_NCELL_SI_DATA_IND", "RR", 0xff, NULL, NULL}, {PDI_DECODETYPE_NOPD, "sdu", "RRGRR_IAEXT_IND", "RR", 0xff, NULL, NULL}, {PDI_DECODETYPE_NOPD, "sdu", "RRGRR_DATA_REQ", "RR", 0xff, NULL, NULL}, {PDI_DECODETYPE_NOPD_N, "sdu", "TB_SCELL_SI_DATA_IND", "RR", 0xff, NULL, NULL}, #ifdef MPHP_DATA_IND /* toggle direction for old 16bit MPHP* */ #if (MPHP_DATA_IND & 0x80000000) {PDI_DECODETYPE_MAC_H_CHECK, "frame_array", "MPHP_DATA_IND", "GRR", 0xff, mphX_checker, mphX_constrainer}, {PDI_DECODETYPE_MAC_H_CHECK, "data_array", "MPHP_SINGLE_BLOCK_CON", "GRR", 0xff, NULL, NULL}, {PDI_DECODETYPE_MAC_H_CHECK, "data_array", "MPHP_SINGLE_BLOCK_REQ", "GRR", 0xff, mphp_sing_block_req_checker, mphp_sing_block_constrainer}, #else {PDI_DECODETYPE_MAC_H_N_CHECK, "l2_frame", "MPHP_DATA_IND", "GRR", 0xff, mphX_checker, mphX_constrainer}, {PDI_DECODETYPE_MAC_H_N_CHECK, "l2_frame", "MPHP_SINGLE_BLOCK_CON", "GRR", 0xff, mphp_sing_block_con_edge_checker, mphp_sing_block_con_edge_constrainer}, {PDI_DECODETYPE_MAC_H_CHECK, "l2_frame", "MPHP_SINGLE_BLOCK_REQ", "GRR", 0xff, mphp_sing_block_req_checker, mphp_sing_block_constrainer}, #endif {PDI_DECODETYPE_MAC_H_CHECK, "poll_data", "MPHP_POLLING_RESPONSE_REQ", "GRR", 0xff, mphp_polling_resp_checker, mphp_polling_resp_constrainer}, #endif #ifdef MPHC_DATA_IND /* toggle direction for old 16bit MPHC* */ #if (MPHC_DATA_IND & 0x80000000) {PDI_DECODETYPE_AIM_CHECK, "l2_frame", "MPHC_NCELL_BCCH_IND", "RR", 0xff, mphX_checker, mphX_constrainer}, {PDI_DECODETYPE_AIM_CHECK, "l2_frame", "MPHC_DATA_IND", "RR", 0xff, mphX_checker, mphX_constrainer}, #else {PDI_DECODETYPE_AIM_N_CHECK, "l2_frame", "MPHC_NCELL_BCCH_IND", "RR", 0xff, mphX_checker, mphX_constrainer}, {PDI_DECODETYPE_AIM_N_CHECK, "l2_frame", "MPHC_DATA_IND", "RR", 0xff, mphX_checker, mphX_constrainer}, #endif #endif {PDI_DECODETYPE_MAC_H, "data_array", "CGRLC_DATA_*", "GRR", 0xff, NULL, NULL}, #ifdef CCDENT_UMTS_AS_ASN1_MSG // real sdu in test primitives // UMTS_AS_ASN1_UL_DCCH_MSG_MSG {PDI_DECODETYPE_NOPD_NOTYPE, "sdu", "RLC_TEST_SDU_UM_DATA_REQ", "UMTS_AS_ASN1_MSG", UMTS_AS_ASN1_UL_DCCH_MSG_MSG, rlc_data_1_checker, rlc_data_constrainer}, {PDI_DECODETYPE_NOPD_NOTYPE, "sdu", "RLC_UM_DATA_REQ", "UMTS_AS_ASN1_MSG", UMTS_AS_ASN1_UL_DCCH_MSG_MSG, rlc_data_1_checker, rlc_data_constrainer}, //rlc_id=1 {PDI_DECODETYPE_NOPD_NOTYPE, "sdu", "RLC_UM_DATA_IND", "UMTS_AS_ASN1_MSG", UMTS_AS_ASN1_DL_DCCH_MSG_MSG, NULL, NULL}, {PDI_DECODETYPE_NOPD_NOTYPE, "sdu", "RLC_TEST_SDU_AM_DATA_REQ", "UMTS_AS_ASN1_MSG", UMTS_AS_ASN1_UL_DCCH_MSG_MSG, NULL, NULL}, {PDI_DECODETYPE_NOPD_NOTYPE, "sdu", "RLC_TEST_SDU_AM_DATA_IND", "UMTS_AS_ASN1_MSG", UMTS_AS_ASN1_DL_DCCH_MSG_MSG, NULL, NULL}, {PDI_DECODETYPE_NOPD_NOTYPE, "sdu", "RLC_AM_DATA_REQ", "UMTS_AS_ASN1_MSG", UMTS_AS_ASN1_UL_DCCH_MSG_MSG, NULL, NULL}, {PDI_DECODETYPE_NOPD_NOTYPE, "sdu", "RLC_AM_DATA_IND", "UMTS_AS_ASN1_MSG", UMTS_AS_ASN1_DL_DCCH_MSG_MSG, NULL, NULL}, {PDI_DECODETYPE_NOPD_NOTYPE, "sdu", "RLC_TEST_SDU_UM_DATA_REQ", "UMTS_AS_ASN1_MSG", UMTS_AS_ASN1_UL_CCCH_MSG_MSG, rlc_data_0_checker, rlc_data_constrainer}, {PDI_DECODETYPE_NOPD_NOTYPE, "sdu", "RLC_UM_DATA_REQ", "UMTS_AS_ASN1_MSG", UMTS_AS_ASN1_UL_CCCH_MSG_MSG, rlc_data_0_checker, rlc_data_constrainer}, //rlc_id=0 {PDI_DECODETYPE_NOPD_NOTYPE, "sdu", "RLC_TEST_SDU_TR_DATA_REQ", "UMTS_AS_ASN1_MSG", UMTS_AS_ASN1_UL_CCCH_MSG_MSG, NULL, NULL}, {PDI_DECODETYPE_NOPD_NOTYPE, "sdu", "RLC_TR_DATA_REQ", "UMTS_AS_ASN1_MSG", UMTS_AS_ASN1_UL_CCCH_MSG_MSG, NULL, NULL}, {PDI_DECODETYPE_NOPD_NOTYPE, "sdu", "RLC_TR_DATA_IND", "UMTS_AS_ASN1_MSG", UMTS_AS_ASN1_DL_CCCH_MSG_MSG, NULL, NULL}, //RLC_AM_RETRANSMIT_CNF //RLC_CTCH_DATA_IND // only as mem handles, not suported yet // UMTS_AS_ASN1_DL_CCCH_MSG_MSG // UMTS_AS_ASN1_BCCH_BCH_MSG_MSG // UMTS_AS_ASN1_DL_DCCH_MSG_MSG // UMTS_AS_ASN1_DL_SHCCH_MSG_MSG // UMTS_AS_ASN1_UL_SHCCH_MSG_MSG // UMTS_AS_ASN1_PCCH_MSG_MSG // UMTS_AS_ASN1_HO_TO_UTRANCOMMAND_MSG // UMTS_AS_ASN1_MASTER_INFO_BLOCK_MSG // UMTS_AS_ASN1_BCCH_FACH_MSG_MSG // UMTS_AS_ASN1_PDSCH_SYS_INFO_LIST_MSG // UMTS_AS_ASN1_PUSCH_SYS_INFO_LIST_MSG /* the following make little sence to decode since they always comes cutted up in small peaces inside a UMTS_AS_ASN1_BCCH_BCH_MSG_MSG */ // UMTS_AS_ASN1_SYS_INFO_TYPE_1_MSG // UMTS_AS_ASN1_SYS_INFO_TYPE_2_MSG // UMTS_AS_ASN1_SYS_INFO_TYPE_3_MSG // UMTS_AS_ASN1_SYS_INFO_TYPE_4_MSG // UMTS_AS_ASN1_SYS_INFO_TYPE_5_MSG // UMTS_AS_ASN1_SYS_INFO_TYPE_6_MSG // UMTS_AS_ASN1_SYS_INFO_TYPE_7_MSG // UMTS_AS_ASN1_SYS_INFO_TYPE_8_MSG // UMTS_AS_ASN1_SYS_INFO_TYPE_9_MSG // UMTS_AS_ASN1_SYS_INFO_TYPE_10_MSG // UMTS_AS_ASN1_SYS_INFO_TYPE_11_MSG // UMTS_AS_ASN1_SYS_INFO_TYPE_12_MSG // UMTS_AS_ASN1_SYS_INFO_TYPE_13_MSG // UMTS_AS_ASN1_SYS_INFO_TYPE_13_1_MSG // UMTS_AS_ASN1_SYS_INFO_TYPE_13_2_MSG // UMTS_AS_ASN1_SYS_INFO_TYPE_13_3_MSG // UMTS_AS_ASN1_SYS_INFO_TYPE_13_4_MSG // UMTS_AS_ASN1_SYS_INFO_TYPE_14_MSG // UMTS_AS_ASN1_SYS_INFO_TYPE_15_MSG // UMTS_AS_ASN1_SYS_INFO_TYPE_15_1_MSG // UMTS_AS_ASN1_SYS_INFO_TYPE_15_2_MSG // UMTS_AS_ASN1_SYS_INFO_TYPE_15_3_MSG // UMTS_AS_ASN1_SYS_INFO_TYPE_15_4_MSG // UMTS_AS_ASN1_SYS_INFO_TYPE_16_MSG // UMTS_AS_ASN1_SYS_INFO_TYPE_17_MSG // UMTS_AS_ASN1_SYS_INFO_TYPE_18_MSG // UMTS_AS_ASN1_SYS_INFO_TYPE_SB_1_MSG // UMTS_AS_ASN1_SYS_INFO_TYPE_SB_2_MSG #endif /* CCDENT_UMTS_AS_ASN1_MSG */ /* test stack primitives */ {PDI_DECODETYPE_L3PDU_N, "sdu", "XX_TAP*", "", 0xff, NULL, NULL}, {PDI_DECODETYPE_NOPD_N, "sdu", "XX_LOADSTORE_*", "XX_CSN1", 0xff, invoke_ccd_setStore, ccd_loadstore_elements}, {PDI_DECODETYPE_NOPD_N, "sdu", "XX_CCD_2*", "XX_CSN1", 0xff, NULL, NULL}, {PDI_DECODETYPE_NOPD_N, "sdu", "XX_*", "XX", 0xff, NULL, NULL}, /* all other primitives */ {PDI_DECODETYPE_L3PDU, "sdu", "*", "", 0xff, NULL, NULL} }; #define DINFO_COUNT (sizeof(m_dinfo) / sizeof(*m_dinfo)) int ccddata_get_pdi_dinfo (const T_PDI_DECODEINFO* (*dinfo) ) { *dinfo=m_dinfo; return DINFO_COUNT; } /* definition of special ccdmsg preparation handlers */ int invoke_ccd_setStore(T_PDI_CCDMSG* ccdmsg, ULONG values[], int len) { int q; for (q=0; q<len; q++) { ccd_setStore(q,values[q]); } return PDI_CCDMSG; } int mphX_checker(T_PDI_CCDMSG* ccdmsg, ULONG values[], int len) { if (len >= 1 && values[0] == 0) //error_flag { return PDI_CCDMSG; } else { return PDI_NONE; } } int mphp_sing_block_req_checker(T_PDI_CCDMSG* ccdmsg, ULONG values[], int len) { if (len >= 1 && (values[0] == 4 || values[0] == 5)) //purpose { return PDI_CCDMSG; } else { return PDI_NONE; } } int mphp_sing_block_con_checker(T_PDI_CCDMSG* ccdmsg, ULONG values[], int len) { if (len >= 1 && values[0] == 3) //purpose { return PDI_CCDMSG; } else { return PDI_NONE; } } int mphp_polling_resp_checker(T_PDI_CCDMSG* ccdmsg, ULONG values[], int len) { if (len >= 1 && values[0] == 3) //poll_resp_type { return PDI_CCDMSG; } else { return PDI_NONE; } } int mphp_sing_block_con_edge_checker(T_PDI_CCDMSG* ccdmsg, ULONG values[], int len) { if (len >= 3 && values[0] == 3 //purpose && values[1] == 3 //sb_status && values[2] == 0) //dl_error { return PDI_CCDMSG; } else { return PDI_NONE; } } int mac_data_checker(T_PDI_CCDMSG* ccdmsg, ULONG values[], int len) { if (len >= 1 && values[0] == 2) //block_status { return PDI_CCDMSG; } else { return PDI_NONE; } } int mac_poll_checker(T_PDI_CCDMSG* ccdmsg, ULONG values[], int len) { if (len >= 1 && values[0] == 3) //block_status { return PDI_CCDMSG; } else { return PDI_NONE; } } int rlc_data_0_checker(T_PDI_CCDMSG* ccdmsg, ULONG values[], int len) { if (len >= 1 && values[0] == 0) //rlc_id { return PDI_CCDMSG; } else { return PDI_NONE; } } int rlc_data_1_checker(T_PDI_CCDMSG* ccdmsg, ULONG values[], int len) { if (len >= 1 && values[0] == 1) //rlc_id { return PDI_CCDMSG; } else { return PDI_NONE; } }