oprofile-0.9.7/opjitconv/parse_dump.c - nest-learning-thermostat/5.1/oprofile - Git at Google

 /**
  * @file parse_dump.c
  * parse a jit dump file
  *
  * @remark Copyright 2007 OProfile authors
  * @remark Read the file COPYING
  *
  * @author Jens Wilke
  * @Modifications Maynard Johnson
  * @Modifications Philippe Elie
  * @Modifications Daniel Hansel
  *
  * Copyright IBM Corporation 2007
  *
  */

 #include "opjitconv.h"
 #include "jitdump.h"
 #include "opd_printf.h"
 #include "op_libiberty.h"

 #include <string.h>
 #include <stdio.h>

 /* parse a code load record and add the entry to the jitentry list */
 static int parse_code_load(void const * ptr_arg, int size,
 			   unsigned long long end_time)
 {
 	struct jitentry * entry;
 	int rc = OP_JIT_CONV_OK;
 	char const * ptr = ptr_arg;
 	struct jr_code_load const * rec = ptr_arg;
 	char const * end;
 	size_t padding_count, rec_totalsize;
 	end = rec->code_addr ? ptr + size : NULL;

 	entry = xcalloc(1, sizeof(struct jitentry));

 	// jitentry constructor
 	entry->next = NULL;
 	ptr += sizeof(*rec);
 	/* symbol_name can be malloced so we cast away the constness. */
 	entry->symbol_name = (char *)ptr;
 	entry->sym_name_malloced = 0;
 	ptr += strlen(ptr) + 1;
 	entry->code = rec->code_addr ? ptr : NULL;
 	entry->vma = rec->vma;
 	entry->code_size = rec->code_size;
 	entry->section = NULL;
 	entry->life_start = rec->timestamp;
 	// if nothing else is known the symbol lives till the end of the
 	// sampling run, this value may be overwritten by an unload record1
 	// later
 	entry->life_end = end_time;

 	// build list
 	entry->next = jitentry_list;
 	jitentry_list = entry;

 	/* padding bytes are calculated over the complete record
 	 * (i.e. header + symbol name + code)
 	 */
 	rec_totalsize = sizeof(*rec) + strlen(entry->symbol_name) + 1 + entry->code_size;
 	padding_count = PADDING_8ALIGNED(rec_totalsize);

 	verbprintf(debug, "record0: name=%s, vma=%llx, code_size=%i, "
 		   "padding_count=%llu, life_start=%lli, life_end=%lli\n", entry->symbol_name,
 		   entry->vma, entry->code_size, (unsigned long long)padding_count, entry->life_start,
 		   entry->life_end);
 	/* If end == NULL, the dump does not include code, and this sanity
 	 * check is skipped.
 	 */
 	if (end && (ptr + entry->code_size + padding_count != end)) {
 		verbprintf(debug, "record total size mismatch\n");
 		rc = OP_JIT_CONV_FAIL;
 	}
 	return rc;
 }


 /*
  * parse a code unload record. Search for existing record with this code
  * address and fill life_end field with the timestamp. linear search not very
  * efficient. FIXME: inefficient
  */
 static void parse_code_unload(void const * ptr, unsigned long long end_time)
 {
 	struct jr_code_unload const * rec = ptr;
 	struct jitentry * entry;

 	verbprintf(debug,"record1: vma=%llx, life_end=%lli\n",
 		   rec->vma, rec->timestamp);
 	/**
 	 * Normally we won't get a jr_code_unload with a zero time stamp or
 	 * a zero code address. The code address is directly provided by the JVMTI.
 	 * The documentation of JVMTI does not say anything about the address value if
 	 * it could be zero or not. Therefore it is only a sanity check at the moment.
 	 */
 	if (rec->timestamp > 0 && rec->vma != 0) {
 		for (entry = jitentry_list; entry; entry = entry->next) {
 			if (entry->vma == rec->vma &&
 			    entry->life_end == end_time) {
 				entry->life_end = rec->timestamp;
 				verbprintf(debug,"matching record found\n");
 				break;
 			}
 		}
 	}
 }


 /*
  * There is no real parsing here, we just record a pointer to the data,
  * we will interpret on the fly the record when building the bfd file.
  */
 static void parse_code_debug_info(void const * ptr, void const * end,
 				  unsigned long long end_time)
 {
 	struct jr_code_debug_info const * rec = ptr;
 	struct jitentry_debug_line * debug_line =
 		xmalloc(sizeof(struct jitentry_debug_line));

 	debug_line->data = rec;
 	debug_line->end = end;
 	debug_line->life_start = rec->timestamp;
 	debug_line->life_end = end_time;

 	debug_line->next = jitentry_debug_line_list;
 	jitentry_debug_line_list = debug_line;
 }


 /* parse all entries in the jit dump file and build jitentry_list.
  * the code needs to check always whether there is enough
  * to read remaining. this is because the file may be written to
  * concurrently. */
 static int parse_entries(void const * ptr, void const * end,
 			 unsigned long long end_time)
 {
 	int rc = OP_JIT_CONV_OK;
 	struct jr_prefix const * rec = ptr;

 	while ((void *)rec + sizeof(struct jr_prefix) < end) {
 		if (((void *) rec + rec->total_size) > end) {
 			verbprintf(debug, "record past end of file\n");
 			rc = OP_JIT_CONV_FAIL;
 			break;
 		}

 		switch (rec->id) {
 		case JIT_CODE_LOAD:
 			if (parse_code_load(rec, rec->total_size, end_time)) {
 				rc = OP_JIT_CONV_FAIL;
 				break;
 			}
 			break;

 		case JIT_CODE_UNLOAD:
 			parse_code_unload(rec, end_time);
 			break;

 		// end of VM live time, no action
 		case JIT_CODE_CLOSE:
 			break;

 		case JIT_CODE_DEBUG_INFO:
 			if (rec->total_size == 0) {
 				/* op_write_debug_line_info() ensures to write records with
 				 * totalsize > 0.
 				 */
 				rc = OP_JIT_CONV_FAIL;
 				break;
 			}

 			parse_code_debug_info(rec, end, end_time);
 			break;

 		default:
 			verbprintf(debug, "unknown record type\n");
 			rc = OP_JIT_CONV_FAIL;
 			break;
 		}

 		/* advance to next record (incl. possible padding bytes) */
 		rec = (void *)rec + rec->total_size;
 	}

 	return rc;
 }


 /* parse the jit dump header information
  * The ptr arg is the address of the pointer to the mmapped
  * file, which we modify below.
  */
 static int parse_header(char const ** ptr, char const * end)
 {
 	int rc = OP_JIT_CONV_OK;
 	struct jitheader const * header;

 	if (*ptr + sizeof(struct jitheader) >= end) {
 		verbprintf(debug,
 			   "opjitconv: EOF in jitdump file, no header\n");
 		rc = OP_JIT_CONV_FAIL;
 		goto out;
 	}
 	header = (struct jitheader *)*ptr;
 	if (header->magic != JITHEADER_MAGIC) {
 		verbprintf(debug, "opjitconv: Wrong jitdump file magic\n");
 		rc = OP_JIT_CONV_FAIL;
 		goto out;
 	}
 	if (header->version != JITHEADER_VERSION) {
 		verbprintf(debug, "opjitconv: Wrong jitdump file version\n");
 		rc = OP_JIT_CONV_FAIL;
 		goto out;
 	}
 	if (*ptr + header->totalsize > end) {
 		verbprintf(debug, "opjitconv: EOF in jitdump file, not enough "
 			   "data for header\n");
 		rc = OP_JIT_CONV_FAIL;
 		goto out;
 	}
 	dump_bfd_arch = header->bfd_arch;
 	dump_bfd_mach = header->bfd_mach;
 	dump_bfd_target_name = header->bfd_target;
 	verbprintf(debug, "header: bfd-arch=%i, bfd-mach=%i,"
 		   " bfd_target_name=%s\n", dump_bfd_arch, dump_bfd_mach,
 		   dump_bfd_target_name);
 	*ptr = *ptr + header->totalsize;
 out:
 	return rc;
 }


 /* Read in the memory mapped jitdump file.
  * Build up jitentry structure and set global variables.
 */
 int parse_all(void const * start, void const * end,
 	      unsigned long long end_time)
 {
 	char const * ptr = start;
 	if (!parse_header(&ptr, end))
 		return parse_entries(ptr, end, end_time);
 	else
 		return OP_JIT_CONV_FAIL;
 }
	/**
	* @file parse_dump.c
	* parse a jit dump file
	*
	* @remark Copyright 2007 OProfile authors
	* @remark Read the file COPYING
	*
	* @author Jens Wilke
	* @Modifications Maynard Johnson
	* @Modifications Philippe Elie
	* @Modifications Daniel Hansel
	*
	* Copyright IBM Corporation 2007
	*
	*/

	#include "opjitconv.h"
	#include "jitdump.h"
	#include "opd_printf.h"
	#include "op_libiberty.h"

	#include <string.h>
	#include <stdio.h>

	/* parse a code load record and add the entry to the jitentry list */
	static int parse_code_load(void const * ptr_arg, int size,
	unsigned long long end_time)
	{
	struct jitentry * entry;
	int rc = OP_JIT_CONV_OK;
	char const * ptr = ptr_arg;
	struct jr_code_load const * rec = ptr_arg;
	char const * end;
	size_t padding_count, rec_totalsize;
	end = rec->code_addr ? ptr + size : NULL;

	entry = xcalloc(1, sizeof(struct jitentry));

	// jitentry constructor
	entry->next = NULL;
	ptr += sizeof(*rec);
	/* symbol_name can be malloced so we cast away the constness. */
	entry->symbol_name = (char *)ptr;
	entry->sym_name_malloced = 0;
	ptr += strlen(ptr) + 1;
	entry->code = rec->code_addr ? ptr : NULL;
	entry->vma = rec->vma;
	entry->code_size = rec->code_size;
	entry->section = NULL;
	entry->life_start = rec->timestamp;
	// if nothing else is known the symbol lives till the end of the
	// sampling run, this value may be overwritten by an unload record1
	// later
	entry->life_end = end_time;

	// build list
	entry->next = jitentry_list;
	jitentry_list = entry;

	/* padding bytes are calculated over the complete record
	* (i.e. header + symbol name + code)
	*/
	rec_totalsize = sizeof(*rec) + strlen(entry->symbol_name) + 1 + entry->code_size;
	padding_count = PADDING_8ALIGNED(rec_totalsize);

	verbprintf(debug, "record0: name=%s, vma=%llx, code_size=%i, "
	"padding_count=%llu, life_start=%lli, life_end=%lli\n", entry->symbol_name,
	entry->vma, entry->code_size, (unsigned long long)padding_count, entry->life_start,
	entry->life_end);
	/* If end == NULL, the dump does not include code, and this sanity
	* check is skipped.
	*/
	if (end && (ptr + entry->code_size + padding_count != end)) {
	verbprintf(debug, "record total size mismatch\n");
	rc = OP_JIT_CONV_FAIL;
	}
	return rc;
	}


	/*
	* parse a code unload record. Search for existing record with this code
	* address and fill life_end field with the timestamp. linear search not very
	* efficient. FIXME: inefficient
	*/
	static void parse_code_unload(void const * ptr, unsigned long long end_time)
	{
	struct jr_code_unload const * rec = ptr;
	struct jitentry * entry;

	verbprintf(debug,"record1: vma=%llx, life_end=%lli\n",
	rec->vma, rec->timestamp);
	/**
	* Normally we won't get a jr_code_unload with a zero time stamp or
	* a zero code address. The code address is directly provided by the JVMTI.
	* The documentation of JVMTI does not say anything about the address value if
	* it could be zero or not. Therefore it is only a sanity check at the moment.
	*/
	if (rec->timestamp > 0 && rec->vma != 0) {
	for (entry = jitentry_list; entry; entry = entry->next) {
	if (entry->vma == rec->vma &&
	entry->life_end == end_time) {
	entry->life_end = rec->timestamp;
	verbprintf(debug,"matching record found\n");
	break;
	}
	}
	}
	}


	/*
	* There is no real parsing here, we just record a pointer to the data,
	* we will interpret on the fly the record when building the bfd file.
	*/
	static void parse_code_debug_info(void const * ptr, void const * end,
	unsigned long long end_time)
	{
	struct jr_code_debug_info const * rec = ptr;
	struct jitentry_debug_line * debug_line =
	xmalloc(sizeof(struct jitentry_debug_line));

	debug_line->data = rec;
	debug_line->end = end;
	debug_line->life_start = rec->timestamp;
	debug_line->life_end = end_time;

	debug_line->next = jitentry_debug_line_list;
	jitentry_debug_line_list = debug_line;
	}


	/* parse all entries in the jit dump file and build jitentry_list.
	* the code needs to check always whether there is enough
	* to read remaining. this is because the file may be written to
	* concurrently. */
	static int parse_entries(void const * ptr, void const * end,
	unsigned long long end_time)
	{
	int rc = OP_JIT_CONV_OK;
	struct jr_prefix const * rec = ptr;

	while ((void *)rec + sizeof(struct jr_prefix) < end) {
	if (((void *) rec + rec->total_size) > end) {
	verbprintf(debug, "record past end of file\n");
	rc = OP_JIT_CONV_FAIL;
	break;
	}

	switch (rec->id) {
	case JIT_CODE_LOAD:
	if (parse_code_load(rec, rec->total_size, end_time)) {
	rc = OP_JIT_CONV_FAIL;
	break;
	}
	break;

	case JIT_CODE_UNLOAD:
	parse_code_unload(rec, end_time);
	break;

	// end of VM live time, no action
	case JIT_CODE_CLOSE:
	break;

	case JIT_CODE_DEBUG_INFO:
	if (rec->total_size == 0) {
	/* op_write_debug_line_info() ensures to write records with
	* totalsize > 0.
	*/
	rc = OP_JIT_CONV_FAIL;
	break;
	}

	parse_code_debug_info(rec, end, end_time);
	break;

	default:
	verbprintf(debug, "unknown record type\n");
	rc = OP_JIT_CONV_FAIL;
	break;
	}

	/* advance to next record (incl. possible padding bytes) */
	rec = (void *)rec + rec->total_size;
	}

	return rc;
	}


	/* parse the jit dump header information
	* The ptr arg is the address of the pointer to the mmapped
	* file, which we modify below.
	*/
	static int parse_header(char const ** ptr, char const * end)
	{
	int rc = OP_JIT_CONV_OK;
	struct jitheader const * header;

	if (*ptr + sizeof(struct jitheader) >= end) {
	verbprintf(debug,
	"opjitconv: EOF in jitdump file, no header\n");
	rc = OP_JIT_CONV_FAIL;
	goto out;
	}
	header = (struct jitheader )ptr;
	if (header->magic != JITHEADER_MAGIC) {
	verbprintf(debug, "opjitconv: Wrong jitdump file magic\n");
	rc = OP_JIT_CONV_FAIL;
	goto out;
	}
	if (header->version != JITHEADER_VERSION) {
	verbprintf(debug, "opjitconv: Wrong jitdump file version\n");
	rc = OP_JIT_CONV_FAIL;
	goto out;
	}
	if (*ptr + header->totalsize > end) {
	verbprintf(debug, "opjitconv: EOF in jitdump file, not enough "
	"data for header\n");
	rc = OP_JIT_CONV_FAIL;
	goto out;
	}
	dump_bfd_arch = header->bfd_arch;
	dump_bfd_mach = header->bfd_mach;
	dump_bfd_target_name = header->bfd_target;
	verbprintf(debug, "header: bfd-arch=%i, bfd-mach=%i,"
	" bfd_target_name=%s\n", dump_bfd_arch, dump_bfd_mach,
	dump_bfd_target_name);
	ptr = ptr + header->totalsize;
	out:
	return rc;
	}


	/* Read in the memory mapped jitdump file.
	* Build up jitentry structure and set global variables.
	*/
	int parse_all(void const * start, void const * end,
	unsigned long long end_time)
	{
	char const * ptr = start;
	if (!parse_header(&ptr, end))
	return parse_entries(ptr, end, end_time);
	else
	return OP_JIT_CONV_FAIL;
	}