/* * \file ocsd_error.cpp * \brief OpenCSD : Library error class. * * \copyright Copyright (c) 2015, ARM Limited. All Rights Reserved. */ /* * Redistribution and use in source and binary forms, with or without modification, * are permitted provided that the following conditions are met: * * 1. Redistributions of source code must retain the above copyright notice, * this list of conditions and the following disclaimer. * * 2. 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. * * 3. Neither the name of the copyright holder 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 HOLDER 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. */ #include "common/ocsd_error.h" #include #include static const char *s_errorCodeDescs[][2] = { /* general return errors */ {"OCSD_OK", "No Error."}, {"OCSD_ERR_FAIL","General failure."}, {"OCSD_ERR_MEM","Internal memory allocation error."}, {"OCSD_ERR_NOT_INIT","Component not initialised."}, {"OCSD_ERR_INVALID_ID","Invalid CoreSight Trace Source ID."}, {"OCSD_ERR_BAD_HANDLE","Invalid handle passed to component."}, {"OCSD_ERR_INVALID_PARAM_VAL","Invalid value parameter passed to component."}, {"OCSD_ERR_INVALID_PARAM_TYPE","Type mismatch on abstract interface."}, {"OCSD_ERR_FILE_ERROR","File access error"}, {"OCSD_ERR_NO_PROTOCOL","Trace protocol unsupported"}, /* attachment point errors */ {"OCSD_ERR_ATTACH_TOO_MANY","Cannot attach - attach device limit reached."}, {"OCSD_ERR_ATTACH_INVALID_PARAM"," Cannot attach - invalid parameter."}, {"OCSD_ERR_ATTACH_COMP_NOT_FOUND","Cannot detach - component not found."}, /* source reader errors */ {"OCSD_ERR_RDR_FILE_NOT_FOUND","source reader - file not found."}, {"OCSD_ERR_RDR_INVALID_INIT", "source reader - invalid initialisation parameter."}, {"OCSD_ERR_RDR_NO_DECODER", "source reader - not trace decoder set."}, /* data path errors */ {"OCSD_ERR_DATA_DECODE_FATAL", "A decoder in the data path has returned a fatal error."}, /* frame deformatter errors */ {"OCSD_ERR_DFMTR_NOTCONTTRACE", "Trace input to deformatter none-continuous"}, {"OCSD_ERR_DFMTR_BAD_FHSYNC", "Bad frame or half frame sync in trace deformatter"}, /* packet processor errors - protocol issues etc */ {"OCSD_ERR_BAD_PACKET_SEQ","Bad packet sequence"}, {"OCSD_ERR_INVALID_PCKT_HDR","Invalid packet header"}, {"OCSD_ERR_PKT_INTERP_FAIL","Interpreter failed - cannot recover - bad data or sequence"}, /* packet decoder errors */ {"OCSD_ERR_UNSUPPORTED_ISA","ISA not supported in decoder"}, {"OCSD_ERR_HW_CFG_UNSUPP","Programmed trace configuration not supported by decodUer."}, {"OCSD_ERR_UNSUPP_DECODE_PKT","Packet not supported in decoder"}, {"OCSD_ERR_BAD_DECODE_PKT","Reserved or unknown packet in decoder."}, {"OCSD_ERR_COMMIT_PKT_OVERRUN","Overrun in commit packet stack - tried to commit more than available"}, {"OCSD_ERR_MEM_NACC","Unable to access required memory address."}, {"OCSD_ERR_RET_STACK_OVERFLOW","Internal return stack overflow checks failed - popped more than we pushed."}, /* decode tree errors */ {"OCSD_ERR_DCDT_NO_FORMATTER","No formatter in use - operation not valid."}, /* target memory access errors */ {"OCSD_ERR_MEM_ACC_OVERLAP","Attempted to set an overlapping range in memory access map."}, {"OCSD_ERR_MEM_ACC_FILE_NOT_FOUND","Memory access file could not be opened."}, {"OCSD_ERR_MEM_ACC_FILE_DIFF_RANGE","Attempt to re-use the same memory access file for a different address range."}, {"OCSD_ERR_MEM_ACC_BAD_LEN","Memory accessor returned a bad read length value (larger than requested."}, {"OCSD_ERR_MEM_ACC_RANGE_INVALID","Address range in accessor set to invalid values."}, /* test errors - errors generated only by the test code, not the library */ {"OCSD_ERR_TEST_SNAPSHOT_PARSE", "Test snapshot file parse error"}, {"OCSD_ERR_TEST_SNAPSHOT_PARSE_INFO", "Test snapshot file parse information"}, {"OCSD_ERR_TEST_SNAPSHOT_READ","test snapshot reader error"}, {"OCSD_ERR_TEST_SS_TO_DECODER","test snapshot to decode tree conversion error"}, /* decoder registration */ {"OCSD_ERR_DCDREG_NAME_REPEAT","Attempted to register a decoder with the same name as another one."}, {"OCSD_ERR_DCDREG_NAME_UNKNOWN","Attempted to find a decoder with a name that is not known in the library."}, {"OCSD_ERR_DCDREG_TYPE_UNKNOWN","Attempted to find a decoder with a type that is not known in the library."}, /* decoder config */ {"OCSD_ERR_DCD_INTERFACE_UNUSED","Attempt to connect or use and interface not supported by this decoder."}, /* end marker*/ {"OCSD_ERR_LAST", "No error - error code end marker"} }; ocsdError::ocsdError(const ocsd_err_severity_t sev_type, const ocsd_err_t code) : m_error_code(code), m_sev(sev_type), m_idx(OCSD_BAD_TRC_INDEX), m_chan_ID(OCSD_BAD_CS_SRC_ID) { } ocsdError::ocsdError(const ocsd_err_severity_t sev_type, const ocsd_err_t code, const ocsd_trc_index_t idx) : m_error_code(code), m_sev(sev_type), m_idx(idx), m_chan_ID(OCSD_BAD_CS_SRC_ID) { } ocsdError::ocsdError(const ocsd_err_severity_t sev_type, const ocsd_err_t code, const ocsd_trc_index_t idx, const uint8_t chan_id) : m_error_code(code), m_sev(sev_type), m_idx(idx), m_chan_ID(chan_id) { } ocsdError::ocsdError(const ocsd_err_severity_t sev_type, const ocsd_err_t code, const std::string &msg) : m_error_code(code), m_sev(sev_type), m_idx(OCSD_BAD_TRC_INDEX), m_chan_ID(OCSD_BAD_CS_SRC_ID), m_err_message(msg) { } ocsdError::ocsdError(const ocsd_err_severity_t sev_type, const ocsd_err_t code, const ocsd_trc_index_t idx, const std::string &msg) : m_error_code(code), m_sev(sev_type), m_idx(idx), m_chan_ID(OCSD_BAD_CS_SRC_ID), m_err_message(msg) { } ocsdError::ocsdError(const ocsd_err_severity_t sev_type, const ocsd_err_t code, const ocsd_trc_index_t idx, const uint8_t chan_id, const std::string &msg) : m_error_code(code), m_sev(sev_type), m_idx(idx), m_chan_ID(chan_id), m_err_message(msg) { } ocsdError::ocsdError(const ocsdError *pError) : m_error_code(pError->getErrorCode()), m_sev(pError->getErrorSeverity()), m_idx(pError->getErrorIndex()), m_chan_ID(pError->getErrorChanID()) { setMessage(pError->getMessage()); } ocsdError::ocsdError(const ocsdError &Error) : m_error_code(Error.getErrorCode()), m_sev(Error.getErrorSeverity()), m_idx(Error.getErrorIndex()), m_chan_ID(Error.getErrorChanID()) { setMessage(Error.getMessage()); } ocsdError::ocsdError(): m_error_code(OCSD_ERR_LAST), m_sev(OCSD_ERR_SEV_NONE), m_idx(OCSD_BAD_TRC_INDEX), m_chan_ID(OCSD_BAD_CS_SRC_ID) { } ocsdError::~ocsdError() { } const std::string ocsdError::getErrorString(const ocsdError &error) { std::string szErrStr = "LIBRARY INTERNAL ERROR: Invalid Error Object"; const char *sev_type_sz[] = { "NONE ", "ERROR:", "WARN :", "INFO :" }; switch(error.getErrorSeverity()) { default: case OCSD_ERR_SEV_NONE: break; case OCSD_ERR_SEV_ERROR: case OCSD_ERR_SEV_WARN: case OCSD_ERR_SEV_INFO: szErrStr = sev_type_sz[(int)error.getErrorSeverity()]; appendErrorDetails(szErrStr,error); break; } return szErrStr; } void ocsdError::appendErrorDetails(std::string &errStr, const ocsdError &error) { int numerrstr = sizeof(s_errorCodeDescs) / sizeof(s_errorCodeDescs[0]); int code = (int)error.getErrorCode(); ocsd_trc_index_t idx = error.getErrorIndex(); uint8_t chan_ID = error.getErrorChanID(); std::ostringstream oss; oss << "0x" << std::hex << std::setfill('0') << std::setw(4) << code; if(code < numerrstr) oss << " (" << s_errorCodeDescs[code][0] << ") [" << s_errorCodeDescs[code][1] << "]; "; else oss << " (unknown); "; if(idx != OCSD_BAD_TRC_INDEX) oss << "TrcIdx=" << std::dec << idx << "; "; if(chan_ID != OCSD_BAD_CS_SRC_ID) oss << "CS ID=" << std::hex << std::setfill('0') << std::setw(2) << (uint16_t)chan_ID << "; "; oss << error.getMessage(); errStr = oss.str(); } const char* ocsdDataRespStr::getStr() { static const char* szRespStr[] = { "OCSD_RESP_CONT: Continue processing.", "OCSD_RESP_WARN_CONT: Continue processing -> a component logged a warning.", "OCSD_RESP_ERR_CONT: Continue processing -> a component logged an error.", "OCSD_RESP_WAIT: Pause processing", "OCSD_RESP_WARN_WAIT: Pause processing -> a component logged a warning.", "OCSD_RESP_ERR_WAIT: Pause processing -> a component logged an error.", "OCSD_RESP_FATAL_NOT_INIT: Processing Fatal Error : component unintialised.", "OCSD_RESP_FATAL_INVALID_OP: Processing Fatal Error : invalid data path operation.", "OCSD_RESP_FATAL_INVALID_PARAM: Processing Fatal Error : invalid parameter in datapath call.", "OCSD_RESP_FATAL_INVALID_DATA: Processing Fatal Error : invalid trace data.", "OCSD_RESP_FATAL_SYS_ERR: Processing Fatal Error : internal system error." }; if ((m_type < OCSD_RESP_CONT) || (m_type > OCSD_RESP_FATAL_SYS_ERR)) return "Unknown OCSD_RESP type."; return szRespStr[m_type]; } /* End of File ocsd_error.cpp */