FreeCalypso > hg > fc-magnetite
view src/cs/drivers/drv_app/abb/board/abb_inth.c @ 636:57e67ca2e1cb
pcmdata.c: default +CGMI to "FreeCalypso" and +CGMM to model
The present change has no effect whatsoever on Falconia-made and Openmoko-made
devices on which /pcm/CGMI and /pcm/CGMM files have been programmed in FFS
with sensible ID strings by the respective factories, but what should AT+CGMI
and AT+CGMM queries return when the device is a Huawei GTM900 or Tango modem
that has been converted to FreeCalypso with a firmware change? Before the
present change they would return compiled-in defaults of "<manufacturer>" and
"<model>", respectively; with the present change the firmware will self-identify
as "FreeCalypso GTM900-FC" or "FreeCalypso Tango" on the two respective targets.
This firmware identification will become important if someone incorporates an
FC-converted GTM900 or Tango modem into a ZeroPhone-style smartphone where some
high-level software like ofono will be talking to the modem and will need to
properly identify this modem as FreeCalypso, as opposed to some other AT command
modem flavor with different quirks.
In technical terms, the compiled-in default for the AT+CGMI query (which will
always be overridden by the /pcm/CGMI file in FFS if one is present) is now
"FreeCalypso" in all configs on all targets; the compiled-in default for the
AT+CGMM query (likewise always overridden by /pcm/CGMM if present) is
"GTM900-FC" if CONFIG_TARGET_GTM900 or "Tango" if CONFIG_TARGET_TANGO or the
original default of "<model>" otherwise.
| author | Mychaela Falconia <falcon@freecalypso.org> |
|---|---|
| date | Sun, 19 Jan 2020 20:14:58 +0000 |
| parents | 92dbfa906f66 |
| children |
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/**********************************************************************************/ /* TEXAS INSTRUMENTS INCORPORATED PROPRIETARY INFORMATION */ /* */ /* Property of Texas Instruments -- For Unrestricted Internal Use Only */ /* Unauthorized reproduction and/or distribution is strictly prohibited. This */ /* product is protected under copyright law and trade secret law as an */ /* unpublished work. Created 1987, (C) Copyright 1997 Texas Instruments. All */ /* rights reserved. */ /* */ /* */ /* Filename : abb_inth.c */ /* */ /* Description : Functions to manage the ABB device interrupt. */ /* The Serial Port Interface is used to connect the TI */ /* Analog BaseBand (ABB). */ /* It is assumed that the ABB is connected as the SPI */ /* device 0, and ABB interrupt is mapped as external IT. */ /* */ /* Author : Pascal PUEL */ /* */ /* Version number : 1.2 */ /* */ /* Date and time : 07/02/03 */ /* */ /* Previous delta : Creation */ /* */ /**********************************************************************************/ /* */ /* 17/12/03 */ /* The original abb_inth.c has been splitted between the actual abb_inth.c */ /* located in drv_apps directory and abb_inth_core.c located in drv_core */ /* directory. */ /* */ /**********************************************************************************/ #include "l1sw.cfg" #include "chipset.cfg" #include "swconfig.cfg" #include "sys.cfg" #include "fc-target.h" #include "l1_macro.h" #include "l1_confg.h" #include <string.h> #include "abb/abb_inth.h" #include "nucleus.h" #include "rv/rv_defined_swe.h" // for RVM_PWR_SWE #if (CHIPSET == 12) #include "sys_inth.h" #else #include "inth/iq.h" #endif #include "cust_os.h" #include "l1_signa.h" #include "abb/abb.h" #if defined (OP_WCP) #include "ffs/ffs.h" #include "ffs/board/ffspcm.h" #endif #include "rvm/rvm_use_id_list.h" // for SPI_USE_ID #include "spi/spi_env.h" #include "spi/spi_process.h" // for ABB_EXT_IRQ_EVT #include "kpd/kpd_power_api.h" // for kpd_power_key_pressed() #include "power/power.h" #ifdef RVM_LCC_SWE #include "lcc/lcc_api.h" #include "lcc/lcc_cfg_i.h" #include "lcc/lcc.h" #include "lcc/lcc_env.h" #endif #ifdef RVM_FCHG_SWE #include "fchg/fchg_struct.h" #include "fchg/fchg_messages.h" #endif /********************************************************************************/ /* */ /* Function Name: spi_abb_read_int_reg_callback */ /* */ /* Purpose: Callback function */ /* Called when an external interrupt has occured and the */ /* ABB interrupt register has been read. */ /* */ /********************************************************************************/ void spi_abb_read_int_reg_callback(SYS_UWORD16 *read_value) { SYS_UWORD16 loop_count; SYS_UWORD16 status_value; xSignalHeaderRec *adc_msg; volatile SYS_UWORD8 i; #if (defined(RVM_LCC_SWE) || defined(RVM_FCHG_SWE)) struct pwr_adc_ind_s *addr; extern T_PWR_CTRL_BLOCK *pwr_ctrl; #endif // check all the possible causes of the ABB IT if (*read_value & PUSHOFF_IT_STS) { /* Push Button from ON to OFF */ if (SPI_GBL_INFO_PTR->is_gsm_on == TRUE) { NU_Sleep(SHORT_OFF_KEY_PRESSED); // WCP Patch #if (OP_WCP == 1) // Backup of GSM FFS is remotely handled by MPU-S // we trigger the backup upon each ON->OFF transition ffs_backup (); #else /* Since this callback function is called from the SPI task it can't be interrupted by another task so we can directly access the SPI through the low-level driver */ #if ((ANLG_FAM == 1) || (ANLG_FAM == 2)) status_value = (ABB_Read_Status() & ONREFLT); #elif (ANLG_FAM == 3) status_value = (ABB_Read_Register_on_page(PAGE1, VRPCCFG) & PWOND); #endif if (status_value == PWR_OFF_KEY_PRESSED) { /* Inform keypad that key ON/OFF has been pressed */ #ifndef CONFIG_TARGET_COMPAL kpd_power_key_pressed(); #endif loop_count = 0; /* Wait loop for Power-OFF */ while ((loop_count < OFF_LOOP_COUNT) && (status_value == PWR_OFF_KEY_PRESSED)) { NU_Sleep(SHORT_OFF_KEY_PRESSED); #if ((ANLG_FAM == 1) || (ANLG_FAM == 2)) status_value = (ABB_Read_Status() & ONREFLT); #elif (ANLG_FAM == 3) status_value = (ABB_Read_Register_on_page(PAGE1, VRPCCFG) & PWOND); #endif loop_count++; } if (status_value == PWR_OFF_KEY_PRESSED) /* Power-OFF request detected */ { rvf_send_trace("IQ EXT: Power Off request",25, NULL_PARAM, RV_TRACE_LEVEL_DEBUG_LOW, SPI_USE_ID); Power_OFF_Button(); } } #endif //WCP } else /* GSM OFF */ { rvf_send_trace("IQ EXT: Power On request",24, NULL_PARAM, RV_TRACE_LEVEL_DEBUG_LOW, SPI_USE_ID); Power_ON_Button(); } } else if (*read_value & REMOT_IT_STS) { rvf_send_trace("IQ EXT: Power Off remote request",32, NULL_PARAM, RV_TRACE_LEVEL_DEBUG_LOW, SPI_USE_ID); /* 'Remote Power' from ON to OFF */ Power_OFF_Remote(); } else if (*read_value & ADCEND_IT_STS) { rvf_send_trace("IQ EXT: ADC End",15, NULL_PARAM, RV_TRACE_LEVEL_DEBUG_LOW, SPI_USE_ID); /* ADC end of conversion */ ABB_Read_ADC(&SPI_GBL_INFO_PTR->adc_result[0]); adc_msg = os_alloc_sig(sizeof(T_CST_ADC_RESULT)); if(adc_msg != NULL) { adc_msg->SignalCode = CST_ADC_RESULT; for(i=0;i<MADC_NUMBER_OF_MEAS;i++) { ((T_CST_ADC_RESULT *)(adc_msg->SigP))->adc_result[i] = SPI_GBL_INFO_PTR->adc_result[i]; } os_send_sig(adc_msg, RRM1_QUEUE); #if (defined(RVM_LCC_SWE) || defined(RVM_FCHG_SWE)) // Send ADC measurement to PWR (LCC) task // NOTE that memory is allocated externally in the PWR task if (rvf_get_buf(pwr_ctrl->prim_id, sizeof(struct pwr_adc_ind_s), (void *)&addr) == RVF_RED) { rvf_send_trace("rvf_get_buf failed",18, NULL_PARAM, RV_TRACE_LEVEL_DEBUG_LOW, LCC_USE_ID); /* Unmask External interrupt */ IQ_Unmask(IQ_EXT); // rvf_dump_mem(); return; } addr->header.msg_id = PWR_ADC_IND; addr->header.src_addr_id = SPI_GBL_INFO_PTR->addr_id; addr->header.dest_addr_id = pwr_ctrl->addr_id; addr->header.callback_func = NULL; // FIXME: memcpy from SPI_GBL_INFO_PTR->adc_result - make sure it has not been de-allocated memcpy(addr->data, SPI_GBL_INFO_PTR->adc_result, 8*2); addr->data[9] = ABB_Read_Status();; // Read & assign ITSTATREG status so we save the polling in PWR task!! if (rvf_send_msg(pwr_ctrl->addr_id, addr) != RV_OK) { rvf_send_trace("SPI FATAL: Send failed!",23, NULL_PARAM, RV_TRACE_LEVEL_DEBUG_LOW, LCC_USE_ID); } #endif } } #if (defined(RVM_PWR_SWE) || defined(RVM_LCC_SWE) || defined(RVM_FCHG_SWE)) else if (*read_value & CHARGER_IT_STS) { /* Charger plug IN or OUT */ #if ((ANLG_FAM == 1) || (ANLG_FAM == 2)) status_value = ABB_Read_Status(); #elif (ANLG_FAM == 3) status_value = ABB_Read_Register_on_page(PAGE1, VRPCCFG); #endif if (status_value & CHGPRES) { rvf_send_trace("IQ EXT: Charger Plug",20, NULL_PARAM, RV_TRACE_LEVEL_DEBUG_LOW, SPI_USE_ID); #ifdef RVM_PWR_SWE PWR_Charger_Plug(); /* charger plugged IN */ #endif #if (defined(RVM_LCC_SWE) || defined(RVM_FCHG_SWE)) // Forward charger plug indication to PWR (LCC) task // NOTE that memory is allocated externally in the PWR task if (rvf_get_buf(pwr_ctrl->prim_id, sizeof(struct pwr_req_s), (void *)&addr) == RVF_RED) { rvf_send_trace("rvf_get_buf failed#1",20, NULL_PARAM, RV_TRACE_LEVEL_DEBUG_LOW, LCC_USE_ID); rvf_dump_mem(); } addr->header.msg_id = PWR_CHARGER_PLUGGED_IND; addr->header.src_addr_id = SPI_GBL_INFO_PTR->addr_id; addr->header.dest_addr_id = pwr_ctrl->addr_id; addr->header.callback_func = NULL; if (rvf_send_msg(pwr_ctrl->addr_id, addr) != RV_OK) { rvf_send_trace("SPI FATAL: Send failed!",23, NULL_PARAM, RV_TRACE_LEVEL_DEBUG_LOW, LCC_USE_ID); } #endif } else { rvf_send_trace("IQ EXT: Charger Unplug",22, NULL_PARAM, RV_TRACE_LEVEL_DEBUG_LOW, SPI_USE_ID); #ifdef RVM_PWR_SWE PWR_Charger_Unplug(); /* charger plugged OUT */ #endif #if (defined(RVM_LCC_SWE) || defined(RVM_FCHG_SWE)) // Forward charger unplug indication to PWR (LCC) task // NOTE that memory is allocated externally in the PWR task if (rvf_get_buf(pwr_ctrl->prim_id, sizeof(struct pwr_req_s), (void *)&addr) == RVF_RED) { rvf_send_trace("rvf_get_buf failed#2",20, NULL_PARAM, RV_TRACE_LEVEL_DEBUG_LOW, LCC_USE_ID); rvf_dump_mem(); } addr->header.msg_id = PWR_CHARGER_UNPLUGGED_IND; addr->header.src_addr_id = SPI_GBL_INFO_PTR->addr_id; addr->header.dest_addr_id = pwr_ctrl->addr_id; addr->header.callback_func = NULL; if (rvf_send_msg(pwr_ctrl->addr_id, addr) != RV_OK) { rvf_send_trace("SPI FATAL: Send failed!",23, NULL_PARAM, RV_TRACE_LEVEL_DEBUG_LOW, LCC_USE_ID); } #endif } } #endif /* RVM_PWR_SWE || RVM_LCC_SWE */ /* Unmask External interrupt */ #if (CHIPSET == 12) // Unmask ABB ext interrupt F_INTH_ENABLE_ONE_IT(C_INTH_ABB_IRQ_IT); #else // Unmask external (ABB) interrupt IQ_Unmask(IQ_EXT); #endif }