FreeCalypso > hg > fc-magnetite
view src/cs/riviera/rvf/rvf_trace_adapt.c @ 547:c3f2f79dc5b8
l1_rf12.c compiled-in default RF band tables: a round of cleanup
* Uncalibrated default g_magic values changed from old Clara RF numbers
(yes, Clara, not even Leonardo) to the approximately correct value
for our current hw;
* Uncalibrated default Rx and Tx channel calibration tables providing
neutral correction values: fixed bogus ARFCNs from blind copy-n-paste
between different bands;
* Restored #if (ORDER2_TX_TEMP_CAL==1) in the Tx temperature compensation
tables;
* Fully rewrote the big comment before these rf_XXX structures to reflect
the current situation.
This change is part of the larger transition in FreeCalypso from reverse
to forward engineering, from reconstruction of lost original bits to
ongoing forward development and maintenance.
| author | Mychaela Falconia <falcon@freecalypso.org> |
|---|---|
| date | Sat, 17 Nov 2018 19:57:34 +0000 |
| parents | 945cf7f506b2 |
| children |
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/****************************************************************************/ /* */ /* Name rvf_trace_adapt.c */ /* */ /* Function this file is used to trace messages if TRACE module is */ /* activated or not */ /* */ /* Version 0.1 */ /* */ /* Date Modification */ /* ------------------------------------ */ /* 03/19/2001 Create */ /* */ /* Author Pascal Puel (p-puel@tif.ti.com) */ /* */ /* (C) Copyright 1999 by Texas Instruments Incorporated, All Rights Reserved*/ /****************************************************************************/ #ifndef _WINDOWS #include "config/rv.cfg" #include "config/trace.cfg" #endif #include "rv/general.h" #include "rv/rv.h" #include "rv/rv_general.h" #include "rvf/rvf_api.h" #include "rvt/rvt_gen.h" #include "rvm/rvm_use_id_list.h" #include <string.h> /* DAR files used to redirect trace to DAR entity */ //#ifdef RVM_DAR_SWE // #include "dar_api.h" // #include "dar_gen.h" // #include "dar_structs_i.h" // #include "dar_diagnose_i.h" /* Define a pointer to the DAR Global Environment Control block */ // extern T_DAR_ENV_CTRL_BLK *dar_gbl_var_p; //#endif UINT8 rvf_trace_level = TRACE_LEVEL_FILTER; UINT32 rvf_layer_mask = LAYER_DBG; /* Decimal to hexadecimal conversion table */ static const char Num2Char[] = {'0','1','2','3','4','5','6','7','8','9','A','B','C','D','E','F'}; extern T_RVT_USER_ID rv_trace_user_id; #ifndef FRAMING_PROTOCOL void rvf_send_trace1 (char * msg, UINT8 msg_length, UINT32 val, UINT8 TRACE_LEVEL, UINT32 swe_use_id) { UINT32 trace_type = swe_use_id; /* Apply the appropriate compilation flags to filter trace messages based on their type and level */ if ((TRACE_LEVEL < RV_TRACE_LEVEL_WARNING) || ((TRACE_LEVEL <= rvf_trace_level) && (((trace_type & rvf_layer_mask & 0x0000FFFF) == (trace_type & 0x0000FFFF)) || ((trace_type & rvf_layer_mask & 0xFFFF0000) != (trace_type & 0xFFFF0000))))) { char * buff; if (val == NULL_PARAM) { rvt_mem_alloc (rv_trace_user_id, msg_length, (T_RVT_BUFFER *)&buff); if (buff != NULL) /* Check if there is enough memory for the buffer */ { /* Copy the body of the message */ memcpy( buff, msg, msg_length); rvt_send_trace_no_cpy( buff, rv_trace_user_id, msg_length, RVT_ASCII_FORMAT); } } else { rvt_mem_alloc (rv_trace_user_id, msg_length +11, (T_RVT_BUFFER *)&buff); if (buff != NULL) /* Check if there is enough memory for the buffer */ { UINT8 i; /* Copy the body of the message */ memcpy( buff, msg, msg_length); ((char *)buff)[msg_length] = ' '; ((char *)buff)[msg_length + 1] = '0'; ((char *)buff)[msg_length + 2] = 'x'; for (i=0; i<8; i++) { ((char *)buff)[msg_length+3+i] = Num2Char[(UINT8)((val<<(i<<2))>>28)]; } rvt_send_trace_no_cpy(buff, rv_trace_user_id, msg_length + 11, RVT_BINARY_FORMAT); } } } } #else /********************************* VERSION WITH TRACE MUX **************************/ void rvf_send_trace1 (char * msg, UINT8 msg_length, UINT32 val, UINT8 TRACE_LEVEL, UINT32 swe_use_id) { UINT32 trace_type = swe_use_id; /* Apply the appropriate compilation flags to filter trace messages based on their type and level */ if ((TRACE_LEVEL < RV_TRACE_LEVEL_WARNING) || ((TRACE_LEVEL <= rvf_trace_level) && (((trace_type & rvf_layer_mask & 0x0000FFFF) == (trace_type & 0x0000FFFF)) || ((trace_type & rvf_layer_mask & 0xFFFF0000) != (trace_type & 0xFFFF0000))))) { char * buff; if (val == NULL_PARAM) { rvt_mem_alloc (rv_trace_user_id, msg_length+5, (T_RVT_BUFFER *)&buff); if (buff != NULL) /* Check if there is enough memory for the buffer */ { /* Add the trace type (MSB and LSB) and Trace level */ buff [0] = (char) (trace_type >> 24); buff [1] = (char) (trace_type >> 16); buff [2] = (char) (trace_type >> 8); buff [3] = (char) (trace_type & 0xff); buff [4] = (char) TRACE_LEVEL; /* Copy the message in the new buffer */ memcpy(buff+5, msg, msg_length); /* Send the trace message */ rvt_send_trace_no_cpy ((T_RVT_BUFFER) buff, rv_trace_user_id, msg_length+5, RVT_BINARY_FORMAT); } } else { rvt_mem_alloc (rv_trace_user_id, msg_length+16, (T_RVT_BUFFER *)&buff); if (buff != NULL) /* Check if there is enough memory for the buffer */ { UINT8 i; /* Add the trace type (MSB and LSB) and Trace level */ buff [0] = (char) (trace_type >> 24); buff [1] = (char) (trace_type >> 16); buff [2] = (char) (trace_type >> 8); buff [3] = (char) (trace_type & 0xff); buff [4] = (char) TRACE_LEVEL; /* Copy the message in the new buffer */ memcpy( buff + 5, msg, msg_length); buff[5+msg_length] = ' '; buff[5+msg_length + 1] = '0'; buff[5+msg_length + 2] = 'x'; for (i=0; i<8; i++) { ((char *)buff)[8+msg_length+i] = Num2Char[(UINT8)((val<<(i<<2))>>28)]; } /* Send the trace message */ rvt_send_trace_no_cpy ((T_RVT_BUFFER) buff, rv_trace_user_id, msg_length+16, RVT_BINARY_FORMAT); } } } } #endif