TI's CC3100. A test demo with very little testing done!
Fork of cc3100_Test_Demo2 by
simplelink/cc3100_trace.h
- Committer:
- gaoyang
- Date:
- 2017-07-30
- Revision:
- 9:b8da46b97970
- Parent:
- 6:778b081f6a13
File content as of revision 9:b8da46b97970:
/* * trace.h - CC31xx/CC32xx Host Driver Implementation * * Copyright (C) 2014 Texas Instruments Incorporated - http://www.ti.com/ * * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the * distribution. * * Neither the name of Texas Instruments Incorporated nor the names of * its contributors may be used to endorse or promote products derived * from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * */ #ifndef SIMPLELINK_TRACE_H_ #define SIMPLELINK_TRACE_H_ #include "cc3100_simplelink.h" /*****************************************************************************/ /* Macro declarations */ /*****************************************************************************/ /* This macro is for use by other macros to form a fully valid C statement. */ #define st(x) do { x } while (__LINE__ == -1) #define SL_SYNC_SCAN_THRESHOLD (( uint32_t )2000) #define _SlDrvAssert(line ) { while(1); } #define _SL_ASSERT(expr) { if(!(expr)){_SlDrvAssert(__LINE__); } } #define _SL_ERROR(expr, error) { if(!(expr)){return (error); } } #define SL_HANDLING_ASSERT 2 #define SL_HANDLING_ERROR 1 #define SL_HANDLING_NONE 0 #ifndef SL_TINY_EXT #define SL_SELF_COND_HANDLING SL_HANDLING_ASSERT #define SL_PROTOCOL_HANDLING SL_HANDLING_ASSERT #define SL_DRV_RET_CODE_HANDLING SL_HANDLING_ASSERT #define SL_NWP_IF_HANDLING SL_HANDLING_ASSERT #define SL_OSI_RET_OK_HANDLING SL_HANDLING_ASSERT #define SL_MALLOC_OK_HANDLING SL_HANDLING_ASSERT #define SL_USER_ARGS_HANDLING SL_HANDLING_ASSERT #else #define SL_SELF_COND_HANDLING SL_HANDLING_NONE #define SL_PROTOCOL_HANDLING SL_HANDLING_NONE #define SL_DRV_RET_CODE_HANDLING SL_HANDLING_NONE #define SL_NWP_IF_HANDLING SL_HANDLING_NONE #define SL_OSI_RET_OK_HANDLING SL_HANDLING_NONE #define SL_MALLOC_OK_HANDLING SL_HANDLING_NONE #define SL_USER_ARGS_HANDLING SL_HANDLING_NONE #endif #if (SL_DRV_RET_CODE_HANDLING == SL_HANDLING_ASSERT) #define VERIFY_RET_OK(Func) {_SlReturnVal_t _RetVal = (Func); _SL_ASSERT((_SlReturnVal_t)SL_OS_RET_CODE_OK == _RetVal)} #elif (SL_DRV_RET_CODE_HANDLING == SL_HANDLING_ERROR) #define VERIFY_RET_OK(Func) {_SlReturnVal_t _RetVal = (Func); if (SL_OS_RET_CODE_OK != _RetVal) return _RetVal;} #else #define VERIFY_RET_OK(Func) (Func); #endif #if (SL_PROTOCOL_HANDLING == SL_HANDLING_ASSERT) #define VERIFY_PROTOCOL(expr) _SL_ASSERT(expr) #elif (SL_PROTOCOL_HANDLING == SL_HANDLING_ERROR) #define VERIFY_PROTOCOL(expr) _SL_ERROR(expr, SL_RET_CODE_PROTOCOL_ERROR) #else #define VERIFY_PROTOCOL(expr) #endif #if (defined(PROTECT_SOCKET_ASYNC_RESP) && (SL_SELF_COND_HANDLING == SL_HANDLING_ASSERT)) #define VERIFY_SOCKET_CB(expr) _SL_ASSERT(expr) #elif (defined(PROTECT_SOCKET_ASYNC_RESP) && (SL_SELF_COND_HANDLING == SL_HANDLING_ERROR)) #define VERIFY_SOCKET_CB(expr) _SL_ERROR(expr, SL_RET_CODE_SELF_ERROR) #else #define VERIFY_SOCKET_CB(expr) #endif #if (SL_NWP_IF_HANDLING == SL_HANDLING_ASSERT) //#define NWP_IF_WRITE_CHECK(fd,pBuff,len) { int16_t RetSize, ExpSize = (len); RetSize = sl_IfWrite((fd),(pBuff),ExpSize); _SL_ASSERT(ExpSize == RetSize)} //#define NWP_IF_READ_CHECK(fd,pBuff,len) { int16_t RetSize, ExpSize = (len); RetSize = sl_IfRead((fd),(pBuff),ExpSize); _SL_ASSERT(ExpSize == RetSize)} #elif (SL_NWP_IF_HANDLING == SL_HANDLING_ERROR) //#define NWP_IF_WRITE_CHECK(fd,pBuff,len) { _SL_ERROR((len == sl_IfWrite((fd),(pBuff),(len))), SL_RET_CODE_NWP_IF_ERROR);} //#define NWP_IF_READ_CHECK(fd,pBuff,len) { _SL_ERROR((len == sl_IfRead((fd),(pBuff),(len))), SL_RET_CODE_NWP_IF_ERROR);} #else //#define NWP_IF_WRITE_CHECK(fd,pBuff,len) { sl_IfWrite((fd),(pBuff),(len));} //#define NWP_IF_READ_CHECK(fd,pBuff,len) { sl_IfRead((fd),(pBuff),(len));} #endif #if (SL_OSI_RET_OK_HANDLING == SL_HANDLING_ASSERT) #define OSI_RET_OK_CHECK(Func) {_SlReturnVal_t _RetVal = (Func); _SL_ASSERT((_SlReturnVal_t)SL_OS_RET_CODE_OK == _RetVal)} #elif (SL_OSI_RET_OK_HANDLING == SL_HANDLING_ERROR) #define OSI_RET_OK_CHECK(Func) {_SlReturnVal_t _RetVal = (Func); if (SL_OS_RET_CODE_OK != _RetVal) return _RetVal;} #else #define OSI_RET_OK_CHECK(Func) (Func); #endif #if (SL_MALLOC_OK_HANDLING == SL_HANDLING_ASSERT) #define MALLOC_OK_CHECK(Ptr) _SL_ASSERT(NULL != Ptr) #elif (SL_MALLOC_OK_HANDLING == SL_HANDLING_ERROR) #define MALLOC_OK_CHECK(Ptr) _SL_ERROR((NULL != Ptr), SL_RET_CODE_MALLOC_ERROR) #else #define MALLOC_OK_CHECK(Ptr) #endif #ifdef SL_INC_ARG_CHECK #if (SL_USER_ARGS_HANDLING == SL_HANDLING_ASSERT) #define ARG_CHECK_PTR(Ptr) _SL_ASSERT(NULL != Ptr) #elif (SL_USER_ARGS_HANDLING == SL_HANDLING_ERROR) #define ARG_CHECK_PTR(Ptr) _SL_ERROR((NULL != Ptr), SL_RET_CODE_INVALID_INPUT) #else #define ARG_CHECK_PTR(Ptr) #endif #else #define ARG_CHECK_PTR(Ptr) #endif //#define SL_DBG_TRACE_ENABLE #ifdef SL_DBG_TRACE_ENABLE #define SL_TRACE0(level,msg_id,str) printf(str) #define SL_TRACE1(level,msg_id,str,p1) printf(str,(p1)) #define SL_TRACE2(level,msg_id,str,p1,p2) printf(str,(p1),(p2)) #define SL_TRACE3(level,msg_id,str,p1,p2,p3) printf(str,(p1),(p2),(p3)) #define SL_TRACE4(level,msg_id,str,p1,p2,p3,p4) printf(str,(p1),(p2),(p3),(p4)) #define SL_ERROR_TRACE(msg_id,str) printf(str) #define SL_ERROR_TRACE1(msg_id,str,p1) printf(str,(p1)) #define SL_ERROR_TRACE2(msg_id,str,p1,p2) printf(str,(p1),(p2)) #define SL_ERROR_TRACE3(msg_id,str,p1,p2,p3) printf(str,(p1),(p2),(p3)) #define SL_ERROR_TRACE4(msg_id,str,p1,p2,p3,p4) printf(str,(p1),(p2),(p3),(p4)) #define SL_TRACE_FLUSH() #else #define SL_TRACE0(level,msg_id,str) #define SL_TRACE1(level,msg_id,str,p1) #define SL_TRACE2(level,msg_id,str,p1,p2) #define SL_TRACE3(level,msg_id,str,p1,p2,p3) #define SL_TRACE4(level,msg_id,str,p1,p2,p3,p4) #define SL_ERROR_TRACE(msg_id,str) #define SL_ERROR_TRACE1(msg_id,str,p1) #define SL_ERROR_TRACE2(msg_id,str,p1,p2) #define SL_ERROR_TRACE3(msg_id,str,p1,p2,p3) #define SL_ERROR_TRACE4(msg_id,str,p1,p2,p3,p4) #define SL_TRACE_FLUSH() #endif //#define SL_DBG_CNT_ENABLE #ifdef SL_DBG_CNT_ENABLE #define _SL_DBG_CNT_INC(Cnt) g_DbgCnt. ## Cnt++ #define _SL_DBG_SYNC_LOG(index,value) {if(index < SL_DBG_SYNC_LOG_SIZE){*(uint32_t *)&g_DbgCnt.SyncLog[index] = *(uint32_t *)(value);}} #else #define _SL_DBG_CNT_INC(Cnt) #define _SL_DBG_SYNC_LOG(index,value) #endif #define SL_DBG_LEVEL_1 1 #define SL_DBG_LEVEL_2 2 #define SL_DBG_LEVEL_3 4 #define SL_DBG_LEVEL_MASK (SL_DBG_LEVEL_2|SL_DBG_LEVEL_3) #define SL_INCLUDE_DBG_FUNC(Name) ((Name ## _DBG_LEVEL) & SL_DBG_LEVEL_MASK) #define _SlDrvPrintStat_DBG_LEVEL SL_DBG_LEVEL_3 #define _SlDrvOtherFunc_DBG_LEVEL SL_DBG_LEVEL_1 #endif /*__SIMPLELINK_TRACE_H__*/