FreeCalypso > hg > fc-magnetite
view src/aci2/aci/aci_aci.c @ 361:9e0608dc9170
l1_cust.c: madc_vbat_inverse() function added for the new FCHG
| author | Mychaela Falconia <falcon@freecalypso.org> |
|---|---|
| date | Fri, 29 Dec 2017 05:51:08 +0000 |
| parents | 93999a60b835 |
| children |
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/* +----------------------------------------------------------------------------- | Project : GSM-F&D (8411) | Modul : ACI +----------------------------------------------------------------------------- | Copyright 2002 Texas Instruments Berlin, AG | All rights reserved. | | This file is confidential and a trade secret of Texas | Instruments Berlin, AG | The receipt of or possession of this file does not convey | any rights to reproduce or disclose its contents or to | manufacture, use, or sell anything it may describe, in | whole, or in part, without the specific written consent of | Texas Instruments Berlin, AG. +----------------------------------------------------------------------------- | Purpose : This Modul holds the main functions | for the AT Command Interpreter +----------------------------------------------------------------------------- */ #ifndef ACI_ACI_C #define ACI_ACI_C #include "aci_all.h" #include "aci_cmh.h" #ifdef _SIMULATION_ #include "dti.h" #include "dti_conn_mng.h" #ifdef UART #include "psa_uart.h" #endif #ifdef FF_PSI #include "psa_psi.h" #endif /*FF_PSI*/ #include "ati_src_tst.h" #endif #ifdef FAX_AND_DATA #include "aci_fd.h" #endif /* of #ifdef FAX_AND_DATA */ #include "psa.h" #include "psa_cc.h" #include "cmh.h" #include "cmh_cc.h" #include "aci_lst.h" #include "ati_cmd.h" #include "ati_ext_mech.h" #ifdef FF_ATI #include "aci_io.h" #endif #ifdef FAX_AND_DATA #include "psa_ra.h" #include "cmh_ra.h" #endif /* of #ifdef FAX_AND_DATA */ #ifdef BT_ADAPTER #include "dti.h" #include "bti.h" #include "bti_int.h" #include "bti_aci.h" #include "ati_src_bt.h" #endif #ifdef FF_ATI_BAT #include "p_bat.h" #include "aci_bat.h" #ifdef _SIMULATION_ #include "line_edit.h" #include "ati_bat.h" #endif #endif /*===== EXPORT =====================================================*/ /*===== PRIVATE ====================================================*/ /*===== VARIABLES ==================================================*/ T_ACI_CMD_MODE _mode=CMD_MODE_NONE; UBYTE srcId_cb; GLOBAL BOOL _g_ati_trc_enabled = FALSE; /* 0 (CMD_SRC_LCL) are reserved */ GLOBAL USHORT used_sources = 1; /*===== EXTERNALS ==================================================*/ EXTERN T_ACI_LIST *ati_src_list; /*===== FUNCTIONS ==================================================*/ /* +--------------------------------------------------------------------+ | PROJECT : GSM-F&D (8411) MODULE : ACI | | STATE : code ROUTINE : aci_aci_cmd_req | +--------------------------------------------------------------------+ PURPOSE : handle ACI command request primitive. The original comment said "It is only a signal and must not be freed by PFREE", but it appears to have been wrong even before we touched this code. FreeCalypso change: this primitive (not signal!) was originally used for by TI's _SIMULATION_ environment (the code in ati_src_tst.c, removed in the TCS3.2 version we got), but we have repurposed it for our AT-over-RVTMUX implementation in ati_src_rvt.c. */ GLOBAL void aci_aci_cmd_req (T_ACI_CMD_REQ *cmd) { TRACE_FUNCTION("aci_aci_cmd_req()"); #ifdef FF_ATI if ( cmd->cmd_len < MAX_TRC_LEN ) { cmd->cmd_seq[cmd->cmd_len] = '\0'; TRACE_EVENT_P1 ("%s", cmd->cmd_seq); } #if defined _SIMULATION_ AND defined DTI if (cmd->cmd_src >= CMD_SRC_EXT AND cmd->cmd_src <= MAX_TST_SRC) { #ifdef FF_ATI_BAT U8 src_id = tst_src_id[cmd->cmd_src - 1]; #endif ati_src_tst_proc_cmd (cmd); #ifdef FF_ATI_BAT if (aci_cmd_src_mode_get(src_id) EQ CMD_MODE_BAT) /* simulation with BAT library */ { T_ATI_SRC_PARAMS *src_params = find_element (ati_src_list, src_id, search_ati_src_id); T_ACI_DTI_PRC_PSI *src_infos_psi = find_element (psi_src_params, src_id, cmhPSItest_srcId); while (ledit_ctrl(src_params->src_id,LEDIT_CTRL_MORE_CMDS, NULL) EQ LEDIT_CMPL) { ati_bat_response_simulation(&(src_infos_psi->res)); /* intermediate response */ } if (src_params->cmd_state NEQ CMD_IDLE) { if (src_infos_psi->res.response AND (src_params->curAtCmd NEQ AT_CMD_CMGS)) { ati_bat_response_simulation(&(src_infos_psi->res)); /* final response */ Perform_ati_bat_maint(src_id); } src_infos_psi->bat_client[src_infos_psi->active_client].curCmd = (T_BAT_ctrl_params)-1; } } #endif /* FF_ATI_BAT */ } else { TRACE_EVENT_P1 ("aci_aci_cmd_req(): [WRN] srcId=%d, but must be 0x01 or 0x02", cmd->cmd_src); } #elif 1 //CONFIG_AT_RVTMUX ati_src_rvt_proc_cmd (cmd); #endif /* old _SIMULATION_ vs FreeCalypso AT-over-RVTMUX */ #endif /* FF_ATI */ PFREE (cmd); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-F&D (8411) MODULE : ACI | | STATE : code ROUTINE : aci_aci_cmd_req | +--------------------------------------------------------------------+ PURPOSE : handle ACI command request primitive. It is only a signal and must not be freed by PFREE. */ #ifdef BT_ADAPTER GLOBAL void aci_aci_cmd_req_bt (T_ACI_CMD_REQ_BT *cmd) { TRACE_FUNCTION("aci_aci_cmd_req_bt()"); #ifdef FF_ATI if ( cmd->cmd_len <= 80 ) { if( !strchr((char *)cmd->cmd_seq,'%')) TRACE_EVENT ((char *)cmd->cmd_seq); } if (cmd->cmd_src EQ CMD_SRC_EXT) { ati_src_bt_proc_cmd(cmd); } #endif PFREE(cmd); } #endif /* BT_ADAPTER */ /* +--------------------------------------------------------------------+ | PROJECT : GSM-F&D (8411) MODULE : ACI | | STATE : code ROUTINE : aci_aci_abort_req | +--------------------------------------------------------------------+ PURPOSE : handle aci data mode abort request */ GLOBAL void aci_aci_abort_req (T_ACI_ABORT_REQ *aci_abort_req) { EXTERN void aciAbort (UBYTE srcId); UBYTE srcId; TRACE_FUNCTION ("aci_aci_abort_req()"); srcId = aci_abort_req->cmd_src; #ifdef DTI #ifdef _SIMULATION_ if (srcId >= CMD_SRC_EXT && srcId <= MAX_TST_SRC) { ati_src_tst_abort(srcId); return; } #endif /* _SIMULATION_ */ #endif /* DTI */ if (aci_abort_req->cause EQ ABT_ABORT_CMD) aciAbort (srcId); #ifdef FAX_AND_DATA if (aci_abort_req->cause EQ ABT_ABORT_DATA) cmhRA_Escape (); #endif #ifdef BT_ADAPTER btiaci_at_abort_res(srcId); #endif /* BT_ADAPTER */ PFREE (aci_abort_req); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-F&D (8411) MODULE : ACI | | STATE : code ROUTINE : aci_aci_abort_req | +--------------------------------------------------------------------+ PURPOSE : handle aci (data mode) abort request for BT */ #ifdef BT_ADAPTER GLOBAL void aci_aci_abort_req_bt (T_ACI_ABORT_REQ_BT *aci_abort_req) { /* EXTERN void aciAbort (UBYTE srcId);*/ UBYTE srcId; TRACE_FUNCTION ("aci_aci_abort_req_bt()"); srcId = aci_abort_req->src_id; if (aci_abort_req->cause EQ ABT_ABORT_CMD) aciAbort (srcId); #ifdef FAX_AND_DATA if (aci_abort_req->cause EQ ABT_ABORT_DATA) cmhRA_Escape (); #endif btiaci_at_abort_res(get_port_by_srcID(srcId)); PFREE (aci_abort_req); } #endif /* BT_ADAPTER */ #ifdef FF_ATI GLOBAL UBYTE aci_init (T_ATI_SRC_TYPE src_type) { int i; UBYTE tst_src; TRACE_FUNCTION ("aci_init ()"); #ifdef _SIMULATION_ if (src_type EQ ATI_SRC_TYPE_TST) { for (i = (CMD_SRC_MAX-1); i >= 0; i--) { tst_src = (0x01 << i) & used_sources; if (!tst_src) break; } if (tst_src) { return (0); } used_sources |= (0x01 << i); return (UBYTE) (i); } #endif for (i = 0; i < CMD_SRC_MAX; i++) { tst_src = (0x01 << i) & used_sources; if (!tst_src) break; } if (tst_src) { TRACE_EVENT_P1("No more sources available ! used_sources: %04X", used_sources); return (0); } used_sources |= (0x01 << i); if (src_type EQ ATI_SRC_TYPE_BLUETOOTH) { used_sources |= (0x01 << (i + 8)); } TRACE_EVENT_P2("New source %d ! used_sources: %04X", i, used_sources); return (i); } #endif /* FF_ATI */ GLOBAL void aci_finit (UBYTE src_id) { UBYTE tst_src; TRACE_FUNCTION ("aci_finit ()"); tst_src = 0x01 << src_id; if (!(used_sources & tst_src)) { TRACE_EVENT ("[ERR] aci_finit(): invalid source"); return; } used_sources = used_sources & ~tst_src; /* for BT */ tst_src = 0x01 << (src_id + 8); used_sources = used_sources & ~tst_src; } #ifdef BT_ADAPTER /* +--------------------------------------------------------------------+ | PROJECT : GSM-F&D (8411) MODULE : ACI | | STATE : code ROUTINE : aci_aci_cmd_res | +--------------------------------------------------------------------+ PURPOSE : handle aci_cmd_res */ GLOBAL void aci_aci_cmd_res (T_ACI_CMD_RES *aci_cmd_res) { TRACE_FUNCTION ("aci_aci_cmd_res()"); /* This is currently just ignored ! Actually ACI_CMD_RES is an acknowledgement for ACI_CMD_IND. It should be used to determine if an ACI_CMD_IND may be sent. After sending one ACI_CMD_IND should wait for ACI_CMD_RES before another ACI_CMD_IND may be sent. This behaviour shall be implemented later. */ PFREE (aci_cmd_res); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-F&D (8411) MODULE : ACI | | STATE : code ROUTINE : aci_aci_cmd_res | +--------------------------------------------------------------------+ PURPOSE : handle aci_cmd_res_bt */ GLOBAL void aci_aci_cmd_res_bt (T_ACI_CMD_RES_BT *aci_cmd_res) { ULONG port_nb; T_ATI_BT_OUTPUT *cur_cmd; TRACE_FUNCTION ("aci_aci_cmd_res()"); /* This is currently just ignored ! Actually ACI_CMD_RES is an acknowledgement for ACI_CMD_IND. It should be used to determine if an ACI_CMD_IND may be sent. After sending one ACI_CMD_IND should wait for ACI_CMD_RES before another ACI_CMD_IND may be sent. This behaviour shall be implemented later. */ port_nb = get_port_by_srcID(aci_cmd_res->src_id); PFREE (aci_cmd_res); if (bti_port_table[port_nb].atqueue EQ NULL) { bti_port_table[port_nb].at_flow_on = TRUE; TRACE_EVENT("BTA queue empty"); return; } cur_cmd = bti_port_table[port_nb].atqueue; if (cur_cmd->output_type & ATI_BT_CONFIRM_COMMAND) { TRACE_EVENT("BTA confirm in queue"); bti_port_table[port_nb].atqueue = cur_cmd->next; btiaci_at_cmd_res(port_nb, (char *)(cur_cmd->output)); MFREE(cur_cmd); if (bti_port_table[port_nb].atqueue EQ NULL) { TRACE_EVENT("BTA queue empty"); bti_port_table[port_nb].at_flow_on = TRUE; return; } else { cur_cmd = bti_port_table[port_nb].atqueue; } } if ((cur_cmd->output_type & ATI_BT_NORMAL_COMMAND) || (cur_cmd->output_type & ATI_BT_INDICATION_COMMAND)) { TRACE_EVENT("BTA command in queue"); bti_port_table[port_nb].at_flow_on = FALSE; bti_port_table[port_nb].atqueue = cur_cmd->next; TRACE_EVENT_P1("sending %s", cur_cmd->output); btiaci_at_cmd_req(port_nb, (char *)(cur_cmd->output)); MFREE(cur_cmd); #ifdef _SIMULATION_ cur_cmd = bti_port_table[port_nb].atqueue; while (cur_cmd->next NEQ NULL) /* search end of queue */ { TRACE_EVENT_P1("in queue: %s", cur_cmd->output); /* just for debugging */ cur_cmd = cur_cmd->next; } #endif } return; } /* +--------------------------------------------------------------------+ | PROJECT : GSM-F&D (8411) MODULE : ACI | | STATE : code ROUTINE : aci_aci_init_res | +--------------------------------------------------------------------+ PURPOSE : handle aci_init_res */ GLOBAL void aci_aci_init_res (T_ACI_INIT_RES *aci_init_res) { TRACE_FUNCTION ("aci_aci_init_res()"); PFREE (aci_init_res); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-F&D (8411) MODULE : ACI | | STATE : code ROUTINE : aci_aci_deinit_req | +--------------------------------------------------------------------+ PURPOSE : handle aci_deinit_req */ GLOBAL void aci_aci_deinit_req (T_ACI_DEINIT_REQ *aci_deinit_req) { TRACE_FUNCTION ("aci_aci_deinit_req()"); io_closePort(0); btiaci_at_deinit_res(); PFREE (aci_deinit_req); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-F&D (8411) MODULE : ACI | | STATE : code ROUTINE : aci_aci_open_port_req| +--------------------------------------------------------------------+ PURPOSE : handle aci_open_port_req */ GLOBAL void aci_aci_open_port_req (T_ACI_OPEN_PORT_REQ *aci_open_port_req) { ULONG port; T_BTI_ACK result; TRACE_FUNCTION ("aci_aci_open_port_req()"); port = aci_open_port_req->port_nb; result = io_openPort(port); PFREE (aci_open_port_req); btiaci_at_open_port_res(port, result); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-F&D (8411) MODULE : ACI | | STATE : code ROUTINE : aci_aci_close_port_req| +--------------------------------------------------------------------+ PURPOSE : handle aci_close_port_req */ GLOBAL void aci_aci_close_port_req (T_ACI_CLOSE_PORT_REQ *aci_close_port_req) { ULONG port; TRACE_FUNCTION ("aci_aci_close_port_req()"); port = aci_close_port_req->port_nb; io_closePort(port); PFREE (aci_close_port_req); btiaci_at_close_port_res(port); } #endif /* BT_ADAPTER */ /* +--------------------------------------------------------------------+ | PROJECT : GSM-F&D (8411) MODULE : ACI | | STATE : code ROUTINE : aci_aci_trc_ind | +--------------------------------------------------------------------+ PURPOSE : This function call is only relevant for the acia_adater. The acia_adapter sends for every AT-cmd a psignal to aci (task switch). */ #ifdef FF_MMI_RIV EXTERN void acia_callback_for_ACI (void *AT_command_ptr); GLOBAL void aci_aci_riv_cmd_req (T_ACI_RIV_CMD_REQ *cmd_ptr) { TRACE_FUNCTION ("aci_aci_riv_cmd_req()"); acia_callback_for_ACI ((void *)cmd_ptr); } #endif /* FF_MMI_RIV */ /* +--------------------------------------------------------------------+ | PROJECT : GSM-F&D (8411) MODULE : ACI | | STATE : code ROUTINE : aci_aci_trc_ind | +--------------------------------------------------------------------+ PURPOSE : handle ACI trace indication primitive. */ GLOBAL void aci_aci_trc_ind (T_ACI_TRC_IND *trc_ind) { T_ATI_SRC_PARAMS *src_params; TRACE_FUNCTION("aci_aci_trc_ind()"); if (!_g_ati_trc_enabled) { PFREE (trc_ind); return; } trc_ind->trc_buf[MAX_TRC_LEN-1] = '\0'; #ifdef FF_ATI if ( trc_ind->trc_len >= MAX_TRC_LEN ) { UBYTE c; c = trc_ind->trc_buf[MAX_TRC_LEN-1]; trc_ind->trc_buf[MAX_TRC_LEN-1] = '\0'; TRACE_EVENT_P1 ("%s", trc_ind->trc_buf); trc_ind->trc_buf[MAX_TRC_LEN-1] = c; } else { TRACE_EVENT_P1 ("%s", trc_ind->trc_buf); } #endif /* FF_ATI */ /* check if the src is valid */ src_params = find_element (ati_src_list, trc_ind->cmd_src, search_ati_src_id); #ifdef FF_PSI if ((src_params EQ NULL) OR ((src_params->src_type NEQ ATI_SRC_TYPE_UART) AND (src_params->src_type NEQ ATI_SRC_TYPE_PSI))) #else if ((src_params EQ NULL) OR (src_params->src_type NEQ ATI_SRC_TYPE_UART)) #endif /*FF_PSI*/ { src_params = get_next_element (ati_src_list, NULL);/* first element */ while (src_params NEQ NULL) { #ifdef FF_PSI if (src_params->src_type EQ ATI_SRC_TYPE_UART OR src_params->src_type EQ ATI_SRC_TYPE_PSI) #else if (src_params->src_type EQ ATI_SRC_TYPE_UART) #endif /*FF_PSI*/ { break; } src_params = get_next_element (ati_src_list, src_params); } } if (src_params NEQ NULL) { io_sendIndication(src_params->src_id, (CHAR *)trc_ind->trc_buf, ATI_FORCED_OUTPUT); } PFREE (trc_ind); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-F&D (8411) MODULE : ACI | | STATE : code ROUTINE : aci_aci_ext_ind | +--------------------------------------------------------------------+ PURPOSE : handle ACI extension signal indication primitive. */ GLOBAL void aci_aci_ext_ind (T_ACI_EXT_IND *aci_ext_ind) { TRACE_FUNCTION ("aci_aci_ext_ind()"); rEXT_Signal (aci_ext_ind); PFREE (aci_ext_ind); } #endif /* ACI_ACI_C */