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|
/* IBM_PROLOG_BEGIN_TAG */
/* This is an automatically generated prolog. */
/* */
/* $Source: src/usr/errl/parser/errlparser.C $ */
/* */
/* IBM CONFIDENTIAL */
/* */
/* COPYRIGHT International Business Machines Corp. 2011,2013 */
/* */
/* p1 */
/* */
/* Object Code Only (OCO) source materials */
/* Licensed Internal Code Source Materials */
/* IBM HostBoot Licensed Internal Code */
/* */
/* The source code for this program is not published or otherwise */
/* divested of its trade secrets, irrespective of what has been */
/* deposited with the U.S. Copyright Office. */
/* */
/* Origin: 30 */
/* */
/* IBM_PROLOG_END_TAG */
/**
* @file errlparser.C
*
* @brief This program spawns the FipS x86 errl tool to display
* a Hostboot error log in full detail. This program can also show a
* brief list of error logs without the detail. When the user
* wants the full detail, this program extracts the error log from
* the Hostboot image (or dump) and puts it into a temporary file. When
* saved to file, then this program execs "errl -d..." to display
* the error log PEL data.
*
* There are other options, such as "-p" which writes all the PEL files
* and does not exec errl. This is useful for debugging.
*
* Enter errlparser ? (or -? or -h or --help) to print help.
* This program can be run standalone using a Simics
* L3 memory image and the HB syms file, however it is more likely
* spawned via "simics> hb-errl"
*/
#include <stdio.h>
#include <stdlib.h>
#include <netinet/in.h>
#include <fcntl.h>
#include <sys/stat.h>
#include <unistd.h>
#include <string.h>
#include <errno.h>
#include <assert.h>
#include <string>
#include <vector>
using namespace std;
#include <errl/hberrltypes.H>
#include <hbotcompid.H>
// These should be included from plugin code.
// #include <errl/parser/errlusrparser.H>
// #include <hostBootSrcParse.H>
using namespace ERRORLOG;
#define USAGE "\
Usage:\n\
\n\
errlparser [-i]<image> [[-s]<syms>] [-l|-d[<logid>|all]] [-t <stringfile>]\n\
\n\
Arguments:\n\
<image> data file name\n\
<syms> symbols file name\n\
-l summarize all error logs (default)\n\
-d id print detail from specific error log\n\
-i name explicitly name the image file\n\
-s name explicitly name the symbols file\n\
-t name name the hbotStringFile\n\
-v verbose output to stdout\n\
\n\
Sample command lines:\n\
errlparser image.bin hbicore.syms # list logs from a full L3 image\n\
errlparser image.bin hbicore.syms -d 1 # display log 1\n\
errlparser image.bin hbicore.syms -d 1 -t hbotStringFile # display traces\n\
errlparser buffer.bin # list logs from pre-extracted storage buffer\n\
errlparser buffer.bin -d 1 # detail log 1 from pre-extracted storage buffer\n\
\n\
Remarks:\n\
[] If no symbols file name is given, <imagefile> is assumed to be an error\n\
log storage buffer, usually 64KB in size, that has been pre-extracted\n\
from an L3 image.\n\
[] All output written to stdout\n\
[] '-s' is optional if the symbols file name contains 'syms'\n\
[] '-i' can be optional in most cases\n\
\n\
Developer switches:\n\
-p -o <dirname> Extract all as PEL binaries to output <dirname>\n\
Contact: Monte Copeland\n\
"
//------------------------------------------------------------------------
// Stop the program with a message. This message is often USAGE. Since
// this program will be spawned from traceHB.py, I think we're better
// served sending the error message to stdout, not stderr. I don't
// think Simics is piping stderr to its console.
void halt( const char * msg )
{
// stdout out because Simics does not appear to display stderr (?)
fprintf( stdout, "%s", msg );
// exit the process with a non-zero process exit level.
exit(2);
}
//-------------------------------------------------------------------------
// The file src/include/usr/hbotcompid.H provide a mapping from compId_t
// to component name.
// that maps comp id to a string label for it.
struct _errlcompname
{
const char * pszName;
uint32_t value;
};
typedef _errlcompname ERRLCOMPNAME_t;
ERRLCOMPNAME_t g_errlcompnames[] = {
// comps.C generated at build time by a script
// that parses data from src/include/usr/hbotcompid.H.
// Refer to src/usr/errl/parser/makefile
#include <comps.C>
};
//-------------------------------------------------------------
// Given a reason code which has a comp id mangled into
// it, return a char* to the component name. Return
// null if not found, which printf seems to handle
// OK by printing (null).
const char * FindComp( uint16_t reasoncode )
{
const char * pch = NULL;
uint32_t id = (reasoncode & 0xFF00 );
int c = sizeof( g_errlcompnames ) / sizeof( g_errlcompnames[0] );
for( int i = 0; i < c; i++ )
{
if( id == g_errlcompnames[i].value )
{
pch = g_errlcompnames[i].pszName;
break;
}
}
return pch;
}
//-------------------------------------------------------------
// endian switch a uint64
uint64_t ntohll( uint64_t i )
{
uint64_t hi;
uint64_t lo;
uint32_t * pword = reinterpret_cast<uint32_t*>(&i);
hi = ntohl( *pword );
lo = ntohl( *(pword+1) );
return (hi<<32)|lo;
}
//-------------------------------------------------------------
// endian stuff, convert a errl storage marker in place
marker_t* ConvertMarker( marker_t* p)
{
p->offsetNext = ntohl( p->offsetNext );
p->length = ntohl( p->length );
return p;
}
//-------------------------------------------------------------
// endian stuff, convert the data stored at the beginning of the
// errl storage buffer
storage_header_t * ConvertStorageHeader( storage_header_t * p )
{
p->cbStorage = ntohl( p->cbStorage );
p->cInserted = ntohl( p->cInserted );
p->offsetMarker = ntohl( p->offsetMarker );
p->offsetStart = ntohl( p->offsetStart );
return p;
}
//-------------------------------------------------------------
// endian stuff,convert in place, return a pointer to what
// you passed in. PEL is made up of multiple sections, each
// one starting with a header that has these 8 bytes.
pelSectionHeader_t * ConvertPELSectionHeader( pelSectionHeader_t * p )
{
p->sid = ntohs( p->sid );
p->len = ntohs( p->len );
// byte: p->ver
// byte: p->sst
p->compId = ntohs( p->compId );
return p;
}
//-------------------------------------------------------------
// endian stuff, convert in place. This converts the first section
// encountered in PEL, the PH section (private header).
pelPrivateHeaderSection_t* ConvertPrivateHeader(pelPrivateHeaderSection_t* p)
{
ConvertPELSectionHeader( &p->sectionheader );
p->creationTime = ntohll( p->creationTime );
p->commitTime = ntohll( p->commitTime );
p->creatorImplementation = ntohll( p->creatorImplementation );
p->plid = ntohl( p->plid );
p->eid = ntohl( p->eid );
return p;
}
//-------------------------------------------------------------
// endian stuff, convert in place. Convert the 2nd section in PEL,
// the UH (user header).
pelUserHeaderSection_t * ConvertUserHeader( pelUserHeaderSection_t * p )
{
ConvertPELSectionHeader( &p->sectionheader );
// mostly byte sized stuff
p->actions = ntohs( p->actions );
return p;
}
//-------------------------------------------------------------
// endian stuff, convert in place. The PS (primary SRC) section
// in PEL is the 3rd section.
pelSRCSection_t * ConvertSRC( pelSRCSection_t * p )
{
ConvertPELSectionHeader( &p->sectionheader );
// mostly byte sized stuff
p->srcLength = ntohs( p->srcLength );
p->reserved1 = ntohs( p->reserved1 );
p->word2 = ntohl( p->word2 );
p->word3 = ntohs( p->word3 );
p->word4 = ntohl( p->word4 );
p->word5 = ntohl( p->word5 );
p->word6 = ntohll( p->word6 );
p->word8 = ntohll( p->word8 );
return p;
}
//-----------------------------------------------------------------------
// Given the binary image file name, return the errl storage part of the file.
// Caller must endian convert anything/everything in the output buffer.
// This function will allocate (malloc) the buffer and return a pointer to it.
// On fatal error, this function will print a diagnostic and end the process.
// Return how many bytes allocated for the buffer in io_cbBuffer.
char* ReadStorageBuffer(char* i_Image, uint32_t i_ulAddr, uint32_t &io_cbBuffer)
{
int fd;
int rc;
int cb;
off_t offsetEnd;
char * l_pchBuffer = NULL; // pointer to return
storage_header_t header;
// open the image file and read the errl log buffer
fd = open( i_Image, O_RDONLY );
if ( fd == -1 )
{
// write the error to stdout because more likely to be seen in Simics
fprintf(stdout, "Unable to open %s for reading.\n", i_Image);
fprintf(stdout, "Failed with errno %s\n", strerror(errno) );
exit(2);
}
offsetEnd = lseek( fd, 0, SEEK_END );
if( i_ulAddr >= offsetEnd )
{
fprintf( stdout, "Image file %s appears to be truncated. "
"Offset 0x%X exceeds size of image file.\n",
i_Image, i_ulAddr );
exit(2);
}
rc = lseek( fd, i_ulAddr, SEEK_SET );
assert( -1 != rc );
// Read just the header for the size of the buffer is
// stored in the header.
cb = read( fd, &header, sizeof( header ));
assert( -1 != cb );
// endian convert this copy of the header
ConvertStorageHeader( &header );
// io_cbBuffer is a count of bytes in storage
io_cbBuffer = header.cbStorage;
if( io_cbBuffer > ( 5 * ERRL_STORAGE_SIZE ))
{
// Unreasonable
fprintf( stdout, "Problem with image file %s\n", i_Image );
fprintf( stdout, "Buffer size %d is unreasonable.\n", io_cbBuffer );
exit(2);
}
if( ( i_ulAddr + io_cbBuffer ) > offsetEnd )
{
fprintf( stdout, "Image file %s appears to be truncated. "
"Offset 0x%X exceeds size of image file.\n",
i_Image, i_ulAddr+io_cbBuffer );
exit(2);
}
if( io_cbBuffer == 0 )
{
// The committing of the very first error log would have put
// data into the storage buffer header. However, the data
// is zero, meaning no error log was ever committed.
fprintf( stdout, "No error logs to report.\n" );
exit(0);
}
// re-seek and re-read entire buffer this time.
rc = lseek( fd, i_ulAddr, SEEK_SET );
assert( -1 != rc );
l_pchBuffer = static_cast<char *>(malloc( io_cbBuffer ));
assert( l_pchBuffer );
cb = read( fd, l_pchBuffer, io_cbBuffer );
assert( -1 != cb );
close( fd );
#if 0
{
// Write the error log storage buffer to its own file.
// Offsets stored in the buffer are relative to the
// start of the buffer. When this file is saved in
// its own file, the same offsets are relative to the
// start of the file. This is convenient when debugging.
fd = open( "storagebuffer.bin", O_CREAT | O_RDWR, 0666 );
if( -1 != fd )
{
write( fd, l_pchBuffer, io_cbBuffer );
close( fd );
}
}
#endif
return l_pchBuffer;
}
//----------------------------------------------------------------------------
// Open the given symbols file name, a text file, and find the storage address
// of error logs given by the symbol in pszSearch.
uint32_t FindSymbol( char * pszSymbolFile, const char * pszSearch )
{
char * pszAddr = NULL;
char * pch;
char szWork[ 1024 ];
uint32_t ulAddr = 0;
FILE * f;
f = fopen( pszSymbolFile, "r" );
if ( !f )
{
fprintf(stdout, "Unable to open file %s for reading.\n", pszSymbolFile);
fprintf(stdout, "Failed with errno %s\n", strerror(errno) );
exit(2);
}
while( fgets( szWork, sizeof( szWork ), f ))
{
pch = strstr( szWork, pszSearch );
if( pch )
{
// tease out the address for this symbol
pszAddr = szWork + 2;
pch = strchr( pszAddr, ',' );
assert( pch );
*pch = 0;
break;
}
}
fclose(f);
if( NULL == pszAddr )
{
fprintf( stdout, "Cannot find %s in syms file.\n", pszSearch );
exit(2);
}
// Convert ascii hex representation of address to a unsigned long
int c = sscanf( pszAddr, "%x", &ulAddr );
if( 1 != c )
{
fprintf( stdout,
"Error, expecting '%s' to convert to hexidecimal.\n",
pszAddr );
exit(2);
}
return ulAddr;
}
//-----------------------------------------------------------------------------
// Output a vector of endian-converted PEL sections, without altering the caller's
// pchNativePEL input buffer. The vector will have pointers to PEL section
// headers, and the user of the vector contents will have to cast according to
// pelSectionHeader_t.sid (section id ).
bool ParseForPEL( char * i_pchNativePEL,
int i_cbPEL,
vector<pelSectionHeader_t*> &o_vector )
{
// use pch to bump along through the PEL sections
char * pch = i_pchNativePEL;
while( pch < (i_pchNativePEL+i_cbPEL))
{
void * pvoid;
pelSectionHeader_t sectionHeader;
// Convert a copy of just the PEL section header so I can look at the
// sid (section id/type) and the overall section length.
memcpy( §ionHeader, pch, sizeof( pelSectionHeader_t ));
ConvertPELSectionHeader( §ionHeader );
// For each section, allocate space for it, endian convert the
// section, then insert into output vector.
switch( sectionHeader.sid ) {
case ERRL_SID_PRIVATE_HEADER:
{
pvoid = malloc(sectionHeader.len);
pelPrivateHeaderSection_t * p;
p = static_cast<pelPrivateHeaderSection_t*>(pvoid);
memcpy( p, pch, sectionHeader.len );
ConvertPrivateHeader( p );
o_vector.push_back( reinterpret_cast<pelSectionHeader_t*>(p) );
}
break;
case ERRL_SID_USER_HEADER:
{
pvoid = malloc(sectionHeader.len);
pelUserHeaderSection_t * p;
p = static_cast<pelUserHeaderSection_t*>(pvoid);
memcpy( p, pch, sectionHeader.len );
ConvertUserHeader( p );
o_vector.push_back( reinterpret_cast<pelSectionHeader_t*>(p) );
}
break;
case ERRL_SID_PRIMARY_SRC:
{
pvoid = malloc(sectionHeader.len);
pelSRCSection_t * p;
p = static_cast<pelSRCSection_t*>(pvoid);
memcpy( p, pch, sectionHeader.len );
ConvertSRC( p );
o_vector.push_back( reinterpret_cast<pelSectionHeader_t*>(p) );
}
break;
case ERRL_SID_USER_DEFINED:
{
pvoid = malloc(sectionHeader.len);
pelSectionHeader_t * p;
p = static_cast<pelSectionHeader_t*>(pvoid);
memcpy( p, pch, sectionHeader.len );
// Only converts the PEL section header, but none of the
// user-defined content. No way to know what's in there.
ConvertPELSectionHeader(p);
o_vector.push_back(p);
}
break;
default:
assert( 0 );
break;
}
pch += sectionHeader.len;
}
return true;
}
//-----------------------------------------------------------------------------
// Scan the vector of endian-converted PEL sections. Locate the target section
// and return it. Return NULL if not found. Caller will have to cast
// the returned section header pointer to the desired PEL section struct.
pelSectionHeader_t * FindPELSection( unsigned int i_target,
vector<pelSectionHeader_t*> &o_vector )
{
pelSectionHeader_t * p = NULL;
vector<pelSectionHeader_t*>::iterator it;
for( it = o_vector.begin(); it != o_vector.end(); it++ )
{
if( (*it)->sid == i_target )
{
p = *it;
break;
}
}
return p;
}
//-------------------------------------------------------------
int main( int argc, char *argv[] )
{
char * pch;
char * pchNativePEL;
const char * pszErrlTool = NULL;
char * pszImageFile = NULL;
char * pszSymbolFile = NULL;
char * pszStringFile = NULL;
char * pszOutputDir = NULL;
char szWork[ 1024 ];
char szTmpFilename[ 1024 ];
char szCommand[ 128 ];
unsigned char * puch;
char * pszSearch;
char * pszAddr = NULL;
char * pchBuffer;
uint32_t ulAddr = 0;
char szDivider[ 256 ];
uint32_t ulLogId = 0;
int c;
int cb;
int cbSearch;
int fd;
int i;
int k;
int item;
int fOK;
int rc;
int exitcode = 0;
uint32_t cbBuffer = 0;
off_t offset;
off_t offsetEnd;
int fVerbose = 0;
int fList = 1;
int fListHead = 0;
int fDetail = 0;
int fAll = 0;
int fFound = 0;
int fExtractPEL = 0;
void * pvoid;
struct stat statbuffer;
// build a =========== divider for printfing
cb = 78;
assert( cb < sizeof( szDivider ));
memset( szDivider, '=', sizeof( szDivider ));
szDivider[ cb ] = 0;
// Examine args.
i = 1;
while ( i < argc )
{
if( 0 == strcmp( "-v", argv[i] ))
{
fVerbose = 1;
}
else if( 0 == strcmp( "-d", argv[i] ))
{
i++;
if( i >= argc )
{
// nothing after -d
fAll = 1;
}
else if( 0 == strcmp( argv[i], "all" ))
{
fAll = 1;
}
else
{
int c = sscanf( argv[i], "%x", &ulLogId );
if( c != 1 )
{
fprintf( stdout, "Provide -d <hex log ID>\n" );
exit( 2 );
}
}
fList = 0;
fDetail = 1;
}
else if( 0 == strcmp( "-i", argv[i] ))
{
i++;
if( i >= argc )
{
fprintf( stdout, "Provide -i <imagefile>\n" );
exit( 2 );
}
pszImageFile = strdup( argv[i] );
}
else if( 0 == strcmp( "-o", argv[i] ))
{
i++;
if( i >= argc )
{
fprintf( stdout, "Provide -o <dirname>\n" );
exit( 2 );
}
pszOutputDir = strdup( argv[i] );
}
else if( 0 == strcmp( "-p", argv[i] ))
{
fExtractPEL = 1;
fList = 0;
fDetail = 0;
}
else if( 0 == strcmp( "-t", argv[i] ))
{
i++;
if( i >= argc )
{
fprintf( stdout, "Provide -t <string file>\n" );
exit( 2 );
}
pszStringFile = strdup( argv[i] );
// errl messes up ~ somehow, I thought bash
// would substitute this.
pch = strchr( pszStringFile, '~' );
if( pch )
{
printf( "Don't use ~ for file naming.\n" );
exit(2);
}
}
else if( 0 == strcmp( "-s", argv[i] ))
{
i++;
if( i >= argc )
{
fprintf( stdout, "Provide -s <symsfile>\n" );
exit( 2 );
}
pszSymbolFile = strdup( argv[i] );
}
else if( 0 == strcmp( "-l", argv[i] ))
{
fList = 1;
fDetail = 0;
}
else if( 0 == strcmp("?", argv[i]) ||
0 == strcmp("-?", argv[i]) ||
0 == strcmp("-h", argv[i]) ||
0 == strcmp("--help", argv[i]))
{
// help
halt( USAGE );
}
else if( 0 == strcmp( "-", argv[i] ))
{
// unrecognized switch
halt( USAGE );
}
else
{
// must be a file name
pch = strstr( argv[i], "syms" );
if( pch )
{
if( pszSymbolFile )
{
halt( USAGE );
}
pszSymbolFile = strdup( argv[i] );
}
else
{
if( pszImageFile )
{
halt( USAGE );
}
pszImageFile = strdup( argv[i] );
}
}
i++;
}
// Check args.
if( !pszImageFile )
{
halt( USAGE );
}
if(( fExtractPEL ) && ( NULL == pszOutputDir ))
{
printf( "Provide output dir for PEL extraction.\n" );
exit(1);
}
// There is a copy of FSP x86 errl tool in the simics dir.
pszErrlTool = "./errl";
rc = stat( pszErrlTool, &statbuffer );
if( -1 == rc )
{
// Not found, so this one should be found for most users.
pszErrlTool =
"/esw/fips730/Builds/b0829a_1130.730/obj/x86.nfp/errl/nfp/tool/errl";
rc = stat( pszErrlTool, &statbuffer );
if( -1 == rc )
{
printf( "Unable to find a copy of errl, including %s.\n",
pszErrlTool );
exit(2);
}
}
if( fVerbose )
{
printf( "Using errl tool %s\n", pszErrlTool );
}
if( pszStringFile )
{
int fd = open( pszStringFile, O_RDONLY );
if( -1 == fd )
{
printf( "String file %s not found.\n", pszStringFile );
exit(2);
}
rc = fstat( fd, &statbuffer );
close(fd);
if( ( -1 == rc ) || !(S_ISREG(statbuffer.st_mode)))
{
printf( "String file %s is not valid.\n", pszStringFile );
exit(2);
}
}
if( pszSymbolFile )
{
// Given the symbols file, locate the address/offset of the
// errl storage buffer.
ulAddr = FindSymbol( pszSymbolFile, "g_ErrlStorage" );
if( fVerbose )
{
printf( "Error log storage buffer offset: 0x%08x\n", ulAddr );
}
}
else
{
// No symbols file name given.
// Proceed as though the image file is the 64KB storage buffer,
// already extracted for me. This is the case for awan.
ulAddr = 0;
if( fVerbose )
{
printf( "Assuming '%s' is errl storage buffer.\n", pszImageFile );
}
}
// Given the image file, read the portion that contains the
// error log storage buffer.
pchBuffer = ReadStorageBuffer( pszImageFile, ulAddr, cbBuffer );
assert( pchBuffer );
assert( cbBuffer );
if( fVerbose )
{
printf("Errlog storage buffer size: %d (decimal) bytes\n", cbBuffer );
}
// Convert the endianess of the storage header.
storage_header_t* pHeader = reinterpret_cast<storage_header_t*>(pchBuffer);
ConvertStorageHeader( pHeader );
if( fVerbose )
{
printf( "%d error logs were committed.\n", pHeader->cInserted );
printf( "Start offset: 0x%08x\n", pHeader->offsetStart );
printf( "Ending offset: 0x%08x\n", pHeader->offsetMarker );
}
/** @brief Convert an offset to a marker_t pointer. */
#define OFFSET2MARKER(offset) (reinterpret_cast<marker_t*>(pchBuffer+offset))
/** @brief Convert a marker_t pointer to an offset within the buffer. */
#define MARKER2OFFSET(p) ((reinterpret_cast<char*>(p))-pchBuffer)
// Count how many error logs found
int logcount = 0;
// Traverse the list of error logs in the buffer. At this time, the
// buffer does not wrap. It is a straight shot from start to finish.
// Follow the markers. The start-of-list marker:
marker_t* pMarker = ConvertMarker( OFFSET2MARKER(pHeader->offsetStart));
while( 1 )
{
if( fVerbose )
{
cb = printf( "Marker at 0x%06x: next 0x%06x, length 0x%06x\n",
MARKER2OFFSET(pMarker),
pMarker->offsetNext,
pMarker->length );
}
if( pMarker->offsetNext == 0 )
{
// This is the list-ending marker.
break;
}
assert( pMarker->length );
logcount++;
// Flattened PEL of an error log resides just past marker
// for a length of pMarker->length. It is "native" meaning big endian.
pchNativePEL = reinterpret_cast<char*>(pMarker+1);
// Make a copy of PH that I can endian convert without screwing up
// the native one.
pvoid = malloc( pMarker->length );
pelPrivateHeaderSection_t * pPrivateHdr;
pPrivateHdr = static_cast<pelPrivateHeaderSection_t*>(pvoid);
memcpy( pPrivateHdr, pchNativePEL, pMarker->length );
// Convert the PEL private header copy to local endianness.
ConvertPrivateHeader( pPrivateHdr );
if( fList )
{
// print a simple list of error log IDs
if( !fListHead )
{
// print a head line
printf( "%-16s %8s\n", "Component", "PLID" );
printf( "%s\n", szDivider );
fListHead = 1;
}
printf( "%-16s 0X%8X\n",
FindComp(pPrivateHdr->sectionheader.compId),
pPrivateHdr->eid );
}
else if(( fDetail ) && (( pPrivateHdr->eid == ulLogId ) || (fAll)))
{
// Write the native PEL to a temporary file
// for x86 errl tool to display.
sprintf( szTmpFilename, "/tmp/pel%X.bin", pPrivateHdr->eid );
int fd = open( szTmpFilename, O_RDWR | O_CREAT , 0664 );
if( -1 == fd )
{
printf( "Unable to write %s. Exiting.\n", szTmpFilename );
exit(2);
}
cb = write( fd, pchNativePEL, pMarker->length );
assert( cb == pMarker->length );
close(fd);
// Spawn the FSP x86 errl tool to display
// the detail for this error log.
cb=sprintf(szCommand,"%s -d --file=%s",pszErrlTool,szTmpFilename);
if( pszStringFile )
{
sprintf( &szCommand[cb], " --trace=%s", pszStringFile );
}
// Run errl -d to display the error log.
system( szCommand );
// Build a vector containing pointers to each PEL section
// in the error log. On return, each section will be endian
// converted as much as possible. Do not alter the endianness
// of the native pel buffer, however.
vector<pelSectionHeader_t*> vectorPEL;
ParseForPEL( pchNativePEL, pMarker->length, vectorPEL );
assert( vectorPEL.size() );
// Print the tag detail gleaned from the code by
// the errl tag parser. That requires getting the reason
// code and module ID from the error log. They live in
// the Primary SRC section.
uint32_t l_reasonCode = 0;
// Find the PS section in the vector of PEL sections.
pelSectionHeader_t* pPELHead;
pPELHead = FindPELSection( ERRL_SID_PRIMARY_SRC, vectorPEL );
assert( pPELHead );
// Cast to Primary SRC section.
pelSRCSection_t * pSRCSection;
pSRCSection = reinterpret_cast<pelSRCSection_t*>(pPELHead);
#if 0
// reasonCode has been "stringified" into the SRC string
pch = strchr( pSRCSection->srcString, ' ' );
assert( pch );
*pch = 0;
assert( 8 == strlen( pSRCSection->srcString));
sscanf( pSRCSection->srcString + 4, "%X", &l_reasonCode );
#else
// I have cheated and put reasonCode here:
l_reasonCode = pSRCSection->reserved1;
#endif
// done with this tmp file
unlink( szTmpFilename );
// found at least one
fFound = 1;
}
if( fExtractPEL )
{
// Write the native PEL to a temporary file for debug later.
sprintf( szTmpFilename, "%s/pel%X.bin", pszOutputDir, pPrivateHdr->eid );
int fd = open( szTmpFilename, O_RDWR | O_CREAT , 0664 );
if( -1 == fd )
{
printf( "Unable to write %s. Exiting.\n", szTmpFilename );
exit(2);
}
cb = write( fd, pchNativePEL, pMarker->length );
assert( cb == pMarker->length );
close(fd);
printf( "Saved as %s\n", szTmpFilename );
}
// next marker/error log
pMarker = ConvertMarker( OFFSET2MARKER(pMarker->offsetNext) );
}
if( fVerbose )
{
printf( "%d error logs found.\n", logcount );
}
if( fDetail && !fFound )
{
printf( "Error log %d not found.\n", ulLogId );
exitcode = 2;
}
return exitcode;
}
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