/* * \file mem_buff_demo.cpp * \brief OpenCSD: using the library with memory buffers for data. * * \copyright Copyright (c) 2018, 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. */ /* Example showing techniques to drive library using only memory buffers as input data * and image data, avoiding file i/o in main processing routines. (File I/O used to * initially populate buffers but this can be replaced if data is generated by a client * environment running live.) */ #include #include #include #include #include #include "opencsd.h" // the library // uncomment below to use callback function for program memory image // #define EXAMPLE_USE_MEM_CALLBACK /* Input trace buffer */ static uint8_t *input_trace_data = 0; static uint32_t input_trace_data_size = 0; /* program memory image for decode */ static uint8_t *program_image_buffer = 0; // buffer for image data. static uint32_t program_image_size = 0; // size of program image data. static ocsd_vaddr_t program_image_address = 0; // load address on target of program image. /* a message logger to pass to the error logger / decoder. */ static ocsdMsgLogger logger; /* logger callback function - print out error strings */ class logCallback : public ocsdMsgLogStrOutI { public: logCallback() {}; virtual ~logCallback() {}; virtual void printOutStr(const std::string &outStr) { std::cout << outStr.c_str(); } }; static logCallback logCB; /* Decode tree is the main decoder framework - contains the frame unpacker, packet and trace stream decoders, plus memory image references */ static DecodeTree *pDecoder = 0; /* an error logger - Decode tree registers all components with the error logger so that errors can be correctly attributed and printed if required */ static ocsdDefaultErrorLogger err_log; /* callbacks used by the library */ #ifdef EXAMPLE_USE_MEM_CALLBACK // program memory image callback definition uint32_t mem_access_callback_fn(const void *p_context, const ocsd_vaddr_t address, const ocsd_mem_space_acc_t mem_space, const uint32_t reqBytes, uint8_t *byteBuffer); #endif // callback for the decoder output elements class DecoderOutputProcessor : public ITrcGenElemIn { public: DecoderOutputProcessor() {}; virtual ~DecoderOutputProcessor() {}; virtual ocsd_datapath_resp_t TraceElemIn(const ocsd_trc_index_t index_sop, const uint8_t trc_chan_id, const OcsdTraceElement &elem) { // must fully process or make a copy of data in here. // element reference only valid for scope of call. // for the example program we will stringise and print - // but this is a client program implmentation dependent. std::string elemStr; std::ostringstream oss; oss << "Idx:" << index_sop << "; ID:" << std::hex << (uint32_t)trc_chan_id << "; "; elem.toString(elemStr); oss << elemStr << std::endl; logger.LogMsg(oss.str()); return OCSD_RESP_CONT; } }; static DecoderOutputProcessor output; /* for test purposes we are initialising from files, but this could be generated test data as part of a larger program and / or compiled in memory images. We have hardcoded in one of the snapshots supplied with the library */ static int initDataBuffers() { FILE *fp; std::string filename; long size; size_t bytes_read; /* the file names to create the data buffers */ #ifdef _WIN32 static const char *default_base_snapshot_path = "..\\..\\..\\snapshots"; static const char *juno_snapshot = "\\juno_r1_1\\"; #else static const char *default_base_snapshot_path = "../../../snapshots"; static const char *juno_snapshot = "/juno_r1_1/"; #endif /* trace data and memory file dump names and values - taken from snapshot metadata */ static const char *trace_data_filename = "cstrace.bin"; static const char *memory_dump_filename = "kernel_dump.bin"; static ocsd_vaddr_t mem_dump_address = 0xFFFFFFC000081000; /* load up the trace data */ filename = default_base_snapshot_path; filename += (std::string)juno_snapshot; filename += (std::string)trace_data_filename; fp = fopen(filename.c_str(), "rb"); if (!fp) return OCSD_ERR_FILE_ERROR; fseek(fp, 0, SEEK_END); size = ftell(fp); input_trace_data_size = (uint32_t)size; input_trace_data = new (std::nothrow) uint8_t[input_trace_data_size]; if (!input_trace_data) { fclose(fp); return OCSD_ERR_MEM; } rewind(fp); bytes_read = fread(input_trace_data, 1, input_trace_data_size, fp); fclose(fp); if (bytes_read < (size_t)input_trace_data_size) return OCSD_ERR_FILE_ERROR; /* load up a memory image */ filename = default_base_snapshot_path; filename += (std::string)juno_snapshot; filename += (std::string)memory_dump_filename; fp = fopen(filename.c_str(), "rb"); if (!fp) return OCSD_ERR_FILE_ERROR; fseek(fp, 0, SEEK_END); size = ftell(fp); program_image_size = (uint32_t)size; program_image_buffer = new (std::nothrow) uint8_t[program_image_size]; if (!program_image_buffer) { fclose(fp); return OCSD_ERR_MEM; } rewind(fp); bytes_read = fread(program_image_buffer, 1, program_image_size, fp); fclose(fp); if (bytes_read < (size_t)program_image_size) return OCSD_ERR_FILE_ERROR; program_image_address = mem_dump_address; return OCSD_OK; } static ocsd_err_t createETMv4StreamDecoder() { ocsd_etmv4_cfg trace_config; ocsd_err_t err = OCSD_OK; EtmV4Config *pCfg = 0; /* * populate the ETMv4 configuration structure with * hard coded values from snapshot .ini files. */ trace_config.arch_ver = ARCH_V8; trace_config.core_prof = profile_CortexA; trace_config.reg_configr = 0x000000C1; trace_config.reg_traceidr = 0x00000010; /* this is the trace ID -> 0x10, change this to analyse other streams in snapshot.*/ trace_config.reg_idr0 = 0x28000EA1; trace_config.reg_idr1 = 0x4100F403; trace_config.reg_idr2 = 0x00000488; trace_config.reg_idr8 = 0x0; trace_config.reg_idr9 = 0x0; trace_config.reg_idr10 = 0x0; trace_config.reg_idr11 = 0x0; trace_config.reg_idr12 = 0x0; trace_config.reg_idr13 = 0x0; pCfg = new (std::nothrow) EtmV4Config(&trace_config); if (!pCfg) return OCSD_ERR_MEM; err = pDecoder->createDecoder(OCSD_BUILTIN_DCD_ETMV4I, /* etm v4 decoder */ OCSD_CREATE_FLG_FULL_DECODER, /* full trace decode */ pCfg); delete pCfg; return err; } /* Create the decode tree and add the error logger, stream decoder, memory image data to it. Also register the output callback that processes the decoded trace packets. */ static ocsd_err_t initialiseDecoder() { ocsd_err_t ret = OCSD_OK; /* use the creation function to get the type of decoder we want either OCSD_TRC_SRC_SINGLE : single trace source - not frame formatted OCSD_TRC_SRC_FRAME_FORMATTED :multi source - CoreSight trace frame and set the config flags for operation OCSD_DFRMTR_FRAME_MEM_ALIGN: input data mem aligned -> no syncs For this test we create a decode that can unpack frames and is not expecting sync packets. */ pDecoder = DecodeTree::CreateDecodeTree(OCSD_TRC_SRC_FRAME_FORMATTED, OCSD_DFRMTR_FRAME_MEM_ALIGN); if (!pDecoder) return OCSD_ERR_MEM; /* set up decoder logging - the message logger for output, and the error logger for the library */ logger.setLogOpts(ocsdMsgLogger::OUT_STR_CB); /* no IO from the logger, just a string callback. */ logger.setStrOutFn(&logCB); /* set the callback - in this example it will go to stdio but this is up to the implementor. */ // for debugging - stdio and file // logger.setLogOpts(ocsdMsgLogger::OUT_FILE | ocsdMsgLogger::OUT_STDOUT); err_log.initErrorLogger(OCSD_ERR_SEV_INFO); err_log.setOutputLogger(&logger); /* pass the output logger to the error logger. */ pDecoder->setAlternateErrorLogger(&err_log); /* pass the error logger to the decoder, do not use the library version. */ /* now set up the elements that the decoder needs */ /* we will decode one of the streams in this example create a Full decode ETMv4 stream decoder */ ret = createETMv4StreamDecoder(); if (ret != OCSD_OK) return ret; /* as this has full decode we must supply a memory image. */ ret = pDecoder->createMemAccMapper(); // the mapper is needed to add code images to. if (ret != OCSD_OK) return ret; #ifdef EXAMPLE_USE_MEM_CALLBACK // in this example we have a single buffer so we demonstrate how to use a callback. // we are passing the buffer pointer as context as we only have one buffer, but this // could be a structure that is a list of memory image buffers. Context is entirely // client defined. // Always use OCSD_MEM_SPACE_ANY unless there is a reason to restrict the image to a specific // memory space. pDecoder->addCallbackMemAcc(program_image_address, program_image_address + program_image_size-1, OCSD_MEM_SPACE_ANY,mem_access_callback_fn, program_image_buffer); #else // or we can use the built in memory buffer interface - split our one buffer into two to // demonstrate the addition of multiple regions ocsd_vaddr_t block1_st, block2_st; uint32_t block1_sz, block2_sz; uint8_t *p_block1, *p_block2; // break our single buffer into 2 buffers for demo purposes block1_sz = program_image_size / 2; block1_sz &= ~0x3; // align block2_sz = program_image_size - block1_sz; block1_st = program_image_address; // loaded program memory start address of program block2_st = program_image_address + block1_sz; p_block1 = program_image_buffer; p_block2 = program_image_buffer + block1_sz; /* how to add 2 "separate" buffers to the decoder */ // Always use OCSD_MEM_SPACE_ANY unless there is a reason to restrict the image to a specific // memory space. ret = pDecoder->addBufferMemAcc(block1_st, OCSD_MEM_SPACE_ANY, p_block1, block1_sz); if (ret != OCSD_OK) return ret; ret = pDecoder->addBufferMemAcc(block2_st, OCSD_MEM_SPACE_ANY, p_block2, block2_sz); if (ret != OCSD_OK) return ret; #endif /* finally we need to provide an output callback to recieve the decoded information */ pDecoder->setGenTraceElemOutI(&output); return ret; } /* get rid of the objects we created */ static void destroyDecoder() { delete pDecoder; delete [] input_trace_data; delete [] program_image_buffer; } #ifdef EXAMPLE_USE_MEM_CALLBACK /* if we set up to use a callback to access memory image then this is what will be called. */ /* In this case the client must do all the work in determining if the requested address is in the memory area. */ uint32_t mem_access_callback_fn(const void *p_context, const ocsd_vaddr_t address, const ocsd_mem_space_acc_t mem_space, const uint32_t reqBytes, uint8_t *byteBuffer) { ocsd_vaddr_t buf_end_address = program_image_address + program_image_size - 1; uint32_t read_bytes = reqBytes; /* context should be our memory image buffer - if not return 0 bytes read */ if (p_context != program_image_buffer) return 0; /* not concerned with memory spaces - assume all global */ if ((address < program_image_address) || (address > buf_end_address)) return 0; // requested address not in our buffer. // if requested bytes from address more than we have, only read to end of buffer if ((address + reqBytes - 1) > buf_end_address) read_bytes = (uint32_t)(buf_end_address - (address - 1)); // copy the requested data. memcpy(byteBuffer, program_image_buffer + (address - program_image_address), read_bytes); return read_bytes; } #endif /* use the decoder to process the global trace data buffer */ static ocsd_datapath_resp_t processTraceData(uint32_t *bytes_done) { /* process in blocks of fixed size. */ #define DATA_CHUNK_SIZE 2048 ocsd_datapath_resp_t resp = OCSD_RESP_CONT; uint32_t block_size, buff_offset, bytes_to_do = input_trace_data_size, bytes_processed; ocsd_trc_index_t index = 0; /* process the data in chunks, until either all done or * error occurs. */ while ((resp == OCSD_RESP_CONT) && (bytes_to_do)) { /* size up a block of input data */ block_size = (bytes_to_do >= DATA_CHUNK_SIZE) ? DATA_CHUNK_SIZE : bytes_to_do; buff_offset = input_trace_data_size - bytes_to_do; /* push it through the decoder */ resp = pDecoder->TraceDataIn(OCSD_OP_DATA, index, block_size, input_trace_data + buff_offset, &bytes_processed); /* adjust counter per bytes processed */ bytes_to_do -= bytes_processed; index += bytes_processed; } /* if all done then signal end of trace - flushes out any remaining data */ if (!bytes_to_do) resp = pDecoder->TraceDataIn(OCSD_OP_EOT, 0, 0, 0, 0); /* return amount processed */ *bytes_done = input_trace_data_size - bytes_to_do; return resp; } /* main routine - init input data, decode, finish ... */ int main(int argc, char* argv[]) { int ret = OCSD_OK; ocsd_datapath_resp_t retd; char msg[256]; uint32_t bytes_done; /* initialise all the data needed for decode */ if ((ret = initDataBuffers()) != OCSD_OK) { logger.LogMsg("Failed to create trace data buffers\n"); return ret; } /* initialise a decoder object */ if ((ret = initialiseDecoder()) == OCSD_OK) { retd = processTraceData(&bytes_done); if (!OCSD_DATA_RESP_IS_CONT(retd)) { ret = OCSD_ERR_DATA_DECODE_FATAL; logger.LogMsg("Processing failed with data error\n"); } /* get rid of the decoder and print a brief result. */ destroyDecoder(); sprintf(msg, "Processed %u bytes out of %u\n", bytes_done, input_trace_data_size); logger.LogMsg(msg); } else logger.LogMsg("Failed to create decoder for trace processing\n"); return ret; }