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gnu / binutils-gdb / 3c71833c67492ff23bf7f59b25720f06c5a4956f / . / gprofng / src / parse.cc
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/* Copyright (C) 2021 Free Software Foundation, Inc.
Contributed by Oracle.
This file is part of GNU Binutils.
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 3, or (at your option)
any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, 51 Franklin Street - Fifth Floor, Boston,
MA 02110-1301, USA. */
#include "config.h"
#include <sys/param.h>
#include <sys/mman.h>
#include "util.h"
#include "DbeFile.h"
#include "DbeSession.h"
#include "Experiment.h"
#include "Emsg.h"
#include "Function.h"
#include "LoadObject.h"
#include "Module.h"
#include "PRBTree.h"
#include "Sample.h"
#include "Elf.h"
#include "StringBuilder.h"
void
Experiment::mrec_insert (MapRecord *mrec)
{
int sz = mrecs->size ();
MapRecord *tmp = sz > 0 ? mrecs->fetch (sz - 1) : NULL;
// The following should work in most cases
if (tmp == NULL || tmp->ts <= mrec->ts)
{
mrecs->append (mrec);
return;
}
// If it didn't...
int lo = 0;
int hi = sz - 1;
while (lo <= hi)
{
int md = (lo + hi) / 2;
tmp = mrecs->fetch (md);
if (tmp->ts < mrec->ts)
lo = md + 1;
else
hi = md - 1;
}
mrecs->insert (lo, mrec);
}
int
Experiment::process_arglist_cmd (char *, char *arglist)
{
uarglist = arglist;
// find argv[0], and extract its basename
if (strcmp (uarglist, NTXT ("(fork)")) == 0)
return 0; // leaving target name NULL
char *p = uarglist;
char *pp = uarglist;
char *pl;
for (;;)
{
if (*p == '/')
pp = p + 1;
if (*p == ' ' || *p == 0)
{
pl = p;
break;
}
p++;
}
size_t len = pl - pp;
if (len > 0)
utargname = dbe_sprintf (NTXT ("%.*s"), (int) len, pp);
return 0;
}
int
Experiment::process_desc_start_cmd (char *, hrtime_t ts, char *flavor,
char *nexp, int follow, char *txt)
{
char *str;
Emsg *m;
if (follow == 1)
str = dbe_sprintf (GTXT ("Starting %s %ld.%09ld, exp %s.er, \"%s\""),
flavor, (long) (ts / NANOSEC), (long) (ts % NANOSEC),
nexp, txt);
else
str = dbe_sprintf (GTXT ("Starting %s %ld.%09ld, no experiment, \"%s\""),
flavor, (long) (ts / NANOSEC), (long) (ts % NANOSEC),
txt);
m = new Emsg (CMSG_COMMENT, str);
free (str);
runlogq->append (m);
free (flavor);
free (nexp);
free (txt);
return 0;
}
int
Experiment::process_desc_started_cmd (char *, hrtime_t ts, char *flavor,
char *nexp, int follow, char *txt)
{
char *str;
Emsg *m;
if (follow == 1)
str = dbe_sprintf (GTXT ("Started %s %ld.%09ld, exp %s.er, \"%s\""),
flavor, (long) (ts / NANOSEC), (long) (ts % NANOSEC),
nexp, txt);
else
str = dbe_sprintf (GTXT ("Started %s %ld.%09ld, no experiment, \"%s\""),
flavor, (long) (ts / NANOSEC), (long) (ts % NANOSEC),
txt);
m = new Emsg (CMSG_COMMENT, str);
free (str);
runlogq->append (m);
free (flavor);
free (nexp);
free (txt);
return 0;
}
LoadObject *
Experiment::get_dynfunc_lo (const char *loName)
{
LoadObject *lo = loadObjMap->get (loName);
if (lo == NULL)
{
lo = createLoadObject (loName, expIdx);// DYNFUNC_SEGMENT is always unique
lo->dbeFile->filetype |= DbeFile::F_FICTION;
lo->flags |= SEG_FLAG_DYNAMIC;
lo->type = LoadObject::SEG_TEXT;
lo->set_platform (platform, wsize);
append (lo);
}
return lo;
}
Function *
Experiment::create_dynfunc (Module *mod, char *fname, int64_t vaddr,
int64_t fsize)
{
Function *f = dbeSession->createFunction ();
f->set_name (fname);
f->flags |= FUNC_FLAG_DYNAMIC;
f->size = fsize;
f->img_offset = vaddr;
f->module = mod;
mod->functions->append (f);
mod->loadobject->functions->append (f);
return f;
}
static int
func_cmp (const void *a, const void *b)
{
Function *fp1 = *((Function **) a);
Function *fp2 = *((Function **) b);
uint64_t i1 = fp1->img_offset;
uint64_t i2 = fp2->img_offset;
return i1 < i2 ? -1 : i1 == i2 ? 0 : 1;
}
int
Experiment::process_fn_load_cmd (Module *mod, char *fname, Vaddr vaddr,
int fsize, hrtime_t ts)
{
Dprintf (DEBUG_MAPS,
"process_fn_load_cmd:%s (%s) vaddr=0x%llx msize=%lld ts=%lld\n",
STR (mod ? mod->get_name () : NULL), STR (fname),
(unsigned long long) vaddr, (long long) fsize, (long long) ts);
if (mod != NULL)
{
mod->functions->sort (func_cmp);
uint64_t lastVaddr = vaddr;
for (int i = 0, sz = mod->functions->size (); i < sz; i++)
{
Function *f = mod->functions->fetch (i);
if (lastVaddr < f->img_offset)
{
char *fnm = dbe_sprintf (GTXT ("<static>@0x%llx (%s)"),
(unsigned long long) lastVaddr, fname);
create_dynfunc (mod, fnm, lastVaddr, f->img_offset - lastVaddr);
free (fnm);
}
lastVaddr = f->img_offset + f->size;
}
if (lastVaddr < vaddr + fsize)
{
char *fnm = dbe_sprintf (GTXT ("<static>@0x%llx (%s)"),
(unsigned long long) lastVaddr, fname);
create_dynfunc (mod, fnm, lastVaddr, vaddr + fsize - lastVaddr);
free (fnm);
}
mod->functions->sort (func_cmp);
for (int i = 0, sz = mod->functions->size (); i < sz; i++)
{
Function *f = mod->functions->fetch (i);
MapRecord *mrec = new MapRecord;
mrec->kind = MapRecord::LOAD;
mrec->obj = f;
mrec->base = f->img_offset;
mrec->size = f->size;
mrec->ts = ts;
mrec->foff = 0;
mrec_insert (mrec);
}
return 0;
}
LoadObject *ds = get_dynfunc_lo (DYNFUNC_SEGMENT);
Function *dfunc = create_dynfunc (ds->noname, fname, vaddr, fsize);
// check for special functions, USER, IDLE, TRUNC to disable offsets in disassembly
// XXX -- check based on name now
// Optimization: use pre-initialized localized strings
static const char * localized_USER_MODE = NULL;
static const char * localized_IDLE = NULL;
static const char * localized_TRUNCATED_STACK = NULL;
if (localized_USER_MODE == NULL)
{
localized_USER_MODE = GTXT ("<USER_MODE>");
localized_IDLE = GTXT ("<IDLE>");
localized_TRUNCATED_STACK = GTXT ("<TRUNCATED_STACK>");
}
if (strcmp (fname, localized_USER_MODE) == 0
|| strcmp (fname, localized_IDLE) == 0
|| strcmp (fname, localized_TRUNCATED_STACK) == 0)
dfunc->flags |= FUNC_FLAG_NO_OFFSET;
MapRecord *mrec = new MapRecord;
mrec->kind = MapRecord::LOAD;
mrec->obj = dfunc;
mrec->base = vaddr;
mrec->size = fsize;
mrec->ts = ts;
mrec->foff = 0;
mrec_insert (mrec);
return 0;
}
int
Experiment::process_fn_unload_cmd (char *, Vaddr vaddr, hrtime_t ts)
{
MapRecord *mrec = new MapRecord;
mrec->kind = MapRecord::UNLOAD;
mrec->base = vaddr;
mrec->ts = ts;
mrec_insert (mrec);
return 0;
}
void
Experiment::register_metric (Metric::Type type)
{
BaseMetric *mtr = dbeSession->register_metric (type);
metrics->append (mtr);
}
void
Experiment::register_metric (Hwcentry *ctr, const char* aux, const char* uname)
{
BaseMetric *mtr = dbeSession->register_metric (ctr, aux, uname);
metrics->append (mtr);
if (mtr->get_dependent_bm ())
metrics->append (mtr->get_dependent_bm ());
}
int
Experiment::process_hwcounter_cmd (char *, int cpuver, char *counter,
char * int_name, int interval, int tag,
int i_tpc, char *modstr)
{
char *str;
Emsg *m;
Hwcentry *ctr;
ABST_type tpc = (ABST_type) i_tpc;
// Use previously ignored tag to associate counter packets.
if (tag < 0 || tag >= MAX_HWCOUNT)
{
// invalid tag specified, warn user
str = dbe_sprintf (GTXT ("*** Error: HW counter tag %d out of range [%d - %d]; ignored"),
tag, 0, MAX_HWCOUNT - 1);
m = new Emsg (CMSG_ERROR, str);
free (str);
errorq->append (m);
free (counter);
return 0;
}
if (coll_params.hw_aux_name[tag])
{
// duplicate tag used, warn user
str = dbe_sprintf (GTXT ("*** Error: Duplicate HW counter tag %d specified; ignored"),
tag);
m = new Emsg (CMSG_ERROR, str);
free (str);
errorq->append (m);
free (counter);
return 0;
}
hw_cpuver = cpuver;
// map it to a machinemodel string
if (hw_cpuver != CPUVER_UNDEFINED)
{
free (machinemodel);
if (hw_cpuver == 1104)
machinemodel = dbe_strdup (NTXT ("t4"));
else if (hw_cpuver == 1110)
machinemodel = dbe_strdup (NTXT ("t5"));
else if (hw_cpuver == 1204)
machinemodel = dbe_strdup (NTXT ("m4"));
else if (hw_cpuver == 1210)
machinemodel = dbe_strdup (NTXT ("m5"));
else if (hw_cpuver == 1220)
machinemodel = dbe_strdup (NTXT ("m6"));
else if (hw_cpuver == 1230)
machinemodel = dbe_strdup (NTXT ("m7"));
else
machinemodel = dbe_strdup (NTXT ("generic"));
}
// Find the entry in the machine table, and dup it
ctr = new Hwcentry;
dbeSession->append (ctr);
hwc_post_lookup (ctr, counter, int_name, cpuver);
ctr->sort_order = tag;
ctr->memop = tpc;
// Check if HWC name is to be modified
if (modstr != NULL)
{
char *s = ctr->name;
ctr->name = dbe_sprintf (NTXT ("%s%s"), modstr, s);
s = ctr->int_name;
ctr->int_name = dbe_sprintf (NTXT ("%s%s"), modstr, s);
s = ctr->metric;
if (s)
ctr->metric = dbe_sprintf (NTXT ("%s%s"), modstr, s);
}
char * cname = dbe_strdup (ctr->name);
char * uname = dbe_strdup (hwc_i18n_metric (ctr));
coll_params.hw_aux_name[tag] = cname;
coll_params.hw_username[tag] = uname;
coll_params.hw_interval[tag] = interval;
coll_params.hw_tpc[tag] = tpc;
coll_params.hw_cpu_ver[tag] = cpuver;
// set hw_mode and xhw_mode?
coll_params.hw_mode = 1;
if (ABST_MEMSPACE_ENABLED (tpc))
{
// yes, dataspace data available
coll_params.xhw_mode = 1;
// set dataspace available
dataspaceavail = true;
}
register_metric (ctr, cname, uname);
free (counter);
return 0;
}
// TBR:?
int
Experiment::process_hwsimctr_cmd (char *, int cpuver, char *nm, char *int_name,
char *metric, int reg,
int interval, int timecvt, int i_tpc, int tag)
{
char *str;
Emsg *m;
Hwcentry *ctr;
ABST_type tpc = (ABST_type) i_tpc;
// Use previously ignored tag to associate counter packets.
if (tag < 0 || tag >= MAX_HWCOUNT)
{
// invalid tag specified, warn user
str = dbe_sprintf (GTXT ("*** Error: HW counter tag %d out of range [%d - %d]; ignored"),
tag, 0, MAX_HWCOUNT - 1);
m = new Emsg (CMSG_ERROR, str);
free (str);
errorq->append (m);
free (nm);
free (int_name);
free (metric);
return 0;
}
if (coll_params.hw_aux_name[tag])
{
// duplicate tag used, warn user
str = dbe_sprintf (GTXT ("*** Error: Duplicate HW counter tag %d specified; ignored"),
tag);
m = new Emsg (CMSG_ERROR, str);
free (str);
errorq->append (m);
free (nm);
free (int_name);
free (metric);
return 0;
}
hw_cpuver = cpuver;
ctr = new Hwcentry;
{
static Hwcentry empty;
*ctr = empty;
}
ctr->name = nm;
ctr->int_name = int_name;
ctr->metric = metric;
ctr->reg_num = reg;
ctr->val = interval;
ctr->timecvt = timecvt;
ctr->memop = tpc;
ctr->sort_order = tag;
char *cname = dbe_strdup (ctr->name);
char *uname = dbe_strdup (hwc_i18n_metric (ctr));
coll_params.hw_aux_name[tag] = cname;
coll_params.hw_username[tag] = uname;
coll_params.hw_interval[tag] = interval;
coll_params.hw_tpc[tag] = tpc;
coll_params.hw_cpu_ver[tag] = cpuver;
// set hw_mode and xhw_mode?
coll_params.hw_mode = 1;
if (ABST_MEMSPACE_ENABLED (tpc))
{
coll_params.xhw_mode = 1;
// set dataspace available
if (getenv ("ANALYZER_DATASPACE_COUNT") != 0)
dataspaceavail = true;
}
register_metric (ctr, cname, uname);
return 0;
}
int
Experiment::process_jcm_load_cmd (char *, Vaddr mid, Vaddr vaddr,
int msize, hrtime_t ts)
{
if (jmaps == NULL)
return 1;
JMethod *jfunc = (JMethod*) jmaps->locate_exact_match (mid, ts);
if (jfunc == NULL || jfunc->get_type () != Histable::FUNCTION)
return 1;
LoadObject *ds = get_dynfunc_lo (JAVA_COMPILED_METHODS);
Module *jmodule = jfunc->module;
Module *dmodule = ds->noname;
if (jmodule)
{
dmodule = dbeSession->createModule (ds, jmodule->get_name ());
dmodule->lang_code = Sp_lang_java;
dmodule->set_file_name (dbe_strdup (jmodule->file_name));
}
JMethod *dfunc = dbeSession->createJMethod ();
dfunc->flags |= FUNC_FLAG_DYNAMIC;
dfunc->size = msize;
dfunc->module = dmodule;
dfunc->usrfunc = jfunc;
dfunc->set_addr (vaddr);
dfunc->set_mid (mid);
dfunc->set_signature (jfunc->get_signature ());
dfunc->set_name (jfunc->get_mangled_name ());
ds->functions->append (dfunc);
dmodule->functions->append (dfunc);
MapRecord *mrec = new MapRecord;
mrec->kind = MapRecord::LOAD;
mrec->obj = dfunc;
mrec->base = vaddr;
mrec->size = msize;
mrec->ts = ts;
mrec->foff = 0;
mrec_insert (mrec);
return 0;
}
int
Experiment::process_jcm_unload_cmd (char *, Vaddr /*mid*/, hrtime_t /*ts*/)
{
if (jmaps == NULL)
return 1;
// We are ignoring this record because of the flaw in
// JVMPI desing that doesn't distinguish between two or more
// compiled instances of a method when an unload event is
// generated:
// JVMPI_COMPILED_METHOD_LOAD( mid, addr1, ... )
// JVMPI_COMPILED_METHOD_LOAD( mid, addr2, ... )
// JVMPI_COMPILED_METHOD_UNLOAD( mid ) -- which one?
// We rely on the ability of the PRBTree algorithms to
// perform mapping appropriately based on timestamps.
return 0;
}
int
Experiment::process_jthr_end_cmd (char *, uint64_t tid64, Vaddr jthr,
Vaddr jenv, hrtime_t ts)
{
int lt = 0;
int rt = jthreads_idx->size () - 1;
uint32_t ttid = mapTagValue (PROP_THRID, tid64);
while (lt <= rt)
{
int md = (lt + rt) / 2;
JThread *jthread = jthreads_idx->fetch (md);
if (jthread->tid < ttid)
lt = md + 1;
else if (jthread->tid > ttid)
rt = md - 1;
else
{
for (; jthread; jthread = jthread->next)
{
if (jthread->jenv == jenv)
{
jthread->end = ts;
return 0;
}
}
return 0;
}
}
JThread *jthread = new JThread;
jthread->tid = mapTagValue (PROP_THRID, tid64);
jthread->jthr = jthr;
jthread->jenv = jenv;
jthread->jthr_id = jthreads->size ();
jthread->start = ZERO_TIME;
jthread->end = ts;
jthread->next = NULL;
jthreads->append (jthread);
if (lt == jthreads_idx->size ())
jthreads_idx->append (jthread);
else
jthreads_idx->insert (lt, jthread);
return 0;
}
int
Experiment::process_jthr_start_cmd (char *, char *thread_name, char *group_name,
char *parent_name, uint64_t tid64,
Vaddr jthr, Vaddr jenv, hrtime_t ts)
{
JThread *jthread = new JThread;
jthread->name = thread_name;
jthread->group_name = group_name;
jthread->parent_name = parent_name;
jthread->tid = mapTagValue (PROP_THRID, tid64);
jthread->jthr = jthr;
jthread->jenv = jenv;
jthread->jthr_id = jthreads->size ();
jthread->start = ts;
jthread->end = MAX_TIME;
jthread->next = NULL;
jthreads->append (jthread);
int lt = 0;
int rt = jthreads_idx->size () - 1;
while (lt <= rt)
{
int md = (lt + rt) / 2;
JThread *jtmp = jthreads_idx->fetch (md);
if (jtmp->tid < jthread->tid)
lt = md + 1;
else if (jtmp->tid > jthread->tid)
rt = md - 1;
else
{
jthread->next = jtmp;
jthreads_idx->store (md, jthread);
return 0;
}
}
if (lt == jthreads_idx->size ())
jthreads_idx->append (jthread);
else
jthreads_idx->insert (lt, jthread);
return 0;
}
int
Experiment::process_gc_end_cmd (
hrtime_t ts)
{
if (gcevents->size () == 0)
{
GCEvent *gcevent = new GCEvent;
gcevent->start = ZERO_TIME;
gcevent->end = ts;
gcevent->id = gcevents->size () + 1;
gcevents->append (gcevent);
return 0;
}
GCEvent *gcevent = gcevents->fetch (gcevents->size () - 1);
if (gcevent->end == MAX_TIME)
gcevent->end = ts;
else
// Weird: gc_end followed by another gc_end
gcevent->end = ts; // extend the previous event
return 0;
}
int
Experiment::process_gc_start_cmd (
hrtime_t ts)
{
if (gcevents->size () != 0)
{
GCEvent *gcevent = gcevents->fetch (gcevents->size () - 1);
// Weird: gc_start followed by another gc_start
if (gcevent->end == MAX_TIME)
return 0; // ignore nested gc_starts
}
GCEvent *gcevent = new GCEvent;
gcevent->start = ts;
gcevent->end = MAX_TIME;
gcevent->id = gcevents->size () + 1;
gcevents->append (gcevent);
return 0;
}
int
Experiment::process_sample_cmd (char */*cmd*/, hrtime_t /*log_xml_time*/,
int sample_number, char *label)
{
// sample 0 is not a sample but the starting point
if (sample_number == 0)
{
first_sample_label = label;
return 0;
}
Sample *prev_sample = samples->size () > 0 ?
samples->fetch (samples->size () - 1) : NULL;
char *start_lable = prev_sample ?
prev_sample->end_label : first_sample_label;
Sample *sample = new Sample (sample_number);
sample->start_label = dbe_strdup (start_lable);
sample->end_label = label;
samples->append (sample);
return 0;
}
int
Experiment::process_sample_sig_cmd (char *, int sig)
{
char *str;
Emsg *m;
str = dbe_sprintf (GTXT ("Sample signal %d"), sig);
m = new Emsg (CMSG_COMMENT, str);
free (str);
runlogq->append (m);
return 0;
}
int
Experiment::process_seg_map_cmd (char */*cmd*/, hrtime_t ts, Vaddr vaddr,
int mapsize, int /*pagesize*/, int64_t offset,
int64_t modeflags, int64_t chk, char *nm)
{
if (nm == NULL ||
strncmp (nm + 1, SP_MAP_UNRESOLVABLE, strlen (SP_MAP_UNRESOLVABLE)) == 0)
return 0;
LoadObject *lo = loadObjMap->get (nm);
if (lo == NULL)
{
if (chk == 0)
{
char *archName = checkFileInArchive (nm, false);
if (archName)
{
Elf *elf = new Elf (archName);
if (elf->status == Elf::ELF_ERR_NONE)
{
chk = elf->elf_checksum ();
}
free (archName);
delete elf;
}
}
lo = dbeSession->find_lobj_by_name (nm, chk);
if (lo == NULL)
{
// Skip non-text segments
if (modeflags != (PROT_READ | PROT_EXEC))
return 0;
// A new segment
lo = createLoadObject (nm, chk);
if (strstr (nm, NTXT ("libjvm.so")))
{
lo->flags |= SEG_FLAG_JVM;
// Make sure <JVM-System> is created
(void) dbeSession->get_jvm_Function ();
}
else if (strstr (nm, NTXT ("libmtsk.so")))
{
lo->flags |= SEG_FLAG_OMP;
// Make sure all pseudo functions are created
for (int i = 0; i < OMP_LAST_STATE; i++)
(void) dbeSession->get_OMP_Function (i);
}
else if (dbe_strcmp (utargname, get_basename (nm)) == 0)
{
lo->flags |= SEG_FLAG_EXE;
(void) dbeSession->comp_lobjs->get ((char *) COMP_EXE_NAME, lo);
}
lo->checksum = chk;
// This is the default segment type
lo->type = LoadObject::SEG_TEXT;
lo->flags = lo->flags | SEG_FLAG_REORDER;
lo->set_platform (platform, wsize);
}
if (lo->dbeFile->get_location (false) == NULL)
{
char *archName = checkFileInArchive (nm, false);
if (archName)
{
lo->dbeFile->set_location (archName);
lo->dbeFile->inArchive = true;
lo->dbeFile->check_access (archName); // init 'sbuf'
lo->dbeFile->sbuf.st_mtime = 0; // Don't check timestamps
free (archName);
}
else
{
archName = checkFileInArchive (nm, true);
if (archName)
{
lo->set_archname (archName);
lo->need_swap_endian = need_swap_endian;
}
}
if (!dbeSession->archive_mode)
lo->sync_read_stabs ();
}
append (lo);
}
if (lo->size == 0)
lo->size = mapsize;
MapRecord *mrec = new MapRecord;
mrec->kind = MapRecord::LOAD;
mrec->obj = lo;
mrec->base = vaddr;
mrec->size = mapsize;
mrec->ts = ts;
mrec->foff = offset;
mrec_insert (mrec);
return 0;
}
int
Experiment::process_seg_unmap_cmd (char */*cmd*/, hrtime_t ts, Vaddr vaddr)
{
MapRecord *mrec = new MapRecord;
mrec->kind = MapRecord::UNLOAD;
mrec->base = vaddr;
mrec->ts = ts;
mrec_insert (mrec);
return 0;
}
static bool
strstarts (const char *var, const char *x)
{
return strncmp (var, x, strlen (x)) == 0;
}
int
Experiment::process_Linux_kernel_cmd (hrtime_t ts)
{
LoadObject *lo = createLoadObject ("LinuxKernel");
lo->flags |= SEG_FLAG_EXE;
lo->type = LoadObject::SEG_TEXT;
lo->set_platform (platform, wsize);
append (lo);
long long unsigned lo_min = (long long unsigned) (-1);
long long unsigned lo_max = 0;
Module *mod = dbeSession->createModule (lo, "LinuxKernel");
/*
* XXX need to review mod initialization
* A specific issue is mod->file_name. Options include:
* *) NULL
* This leads to seg faults in, e.g., Timeline view.
* *) "/lib/modules/$(uname -r)/kernel/kernel/ctf/ctf.ko"
* This leads to garbage in the Source view.
* *) "/boot/vmlinuz-$(uname -r)"
* This cannot be parsed for DWARF and is sometimes not found,
* but the Analyzer seems to handle such problems.
* *) "LinuxKernel"
* This is not a proper file name,
* but again Analyzer handles the case of not finding the file or not reading DWARF from it.
*/
mod->set_file_name (dbe_strdup ("LinuxKernel"));
char kallmodsyms_copy[MAXPATHLEN];
snprintf (kallmodsyms_copy, sizeof (kallmodsyms_copy), "%s/kallmodsyms",
expt_name);
FILE *fd = fopen (kallmodsyms_copy, "r");
if (fd == NULL)
{
char *s = dbe_sprintf (GTXT ("*** Error: Cannot find kernel module symbols file %s; ignored"),
kallmodsyms_copy);
Emsg *m = new Emsg (CMSG_ERROR, s);
free (s);
errorq->append (m);
lo_min = 0;
}
else
{
size_t line_n = 0;
char *line = NULL;
while (getline (&line, &line_n, fd) > 0)
{
long long unsigned sym_addr;
long long unsigned sym_size;
char sym_type;
int sym_text;
char sym_name[256];
char mod_name[256] = "vmlinux]"; /* note trailing ] */
sscanf (line, "%llx %llx %c %s [%s", &sym_addr, &sym_size, &sym_type,
sym_name, mod_name);
if (line[0] == '\n' || line[0] == 0)
continue;
sym_text = (sym_type == 't' || sym_type == 'T');
mod_name[strlen (mod_name) - 1] = '\0'; /* chop trailing ] */
if (strcmp (mod_name, "ctf") == 0)
strcpy (mod_name, "shared_ctf");
if (strcmp (sym_name, "__per_cpu_start") == 0
|| strcmp (sym_name, "__per_cpu_end") == 0
|| strstarts (sym_name, "__crc_")
|| strstarts (sym_name, "__ksymtab_")
|| strstarts (sym_name, "__kcrctab_")
|| strstarts (sym_name, "__kstrtab_")
|| strstarts (sym_name, "__param_")
|| strstarts (sym_name, "__syscall_meta__")
|| strstarts (sym_name, "__p_syscall_meta__")
|| strstarts (sym_name, "__event_")
|| strstarts (sym_name, "event_")
|| strstarts (sym_name, "ftrace_event_")
|| strstarts (sym_name, "types__")
|| strstarts (sym_name, "args__")
|| strstarts (sym_name, "__tracepoint_")
|| strstarts (sym_name, "__tpstrtab_")
|| strstarts (sym_name, "__tpstrtab__")
|| strstarts (sym_name, "__initcall_")
|| strstarts (sym_name, "__setup_")
|| strstarts (sym_name, "__pci_fixup_")
|| strstarts (sym_name, "__dta_")
|| strstarts (sym_name, "__dtrace_probe_")
|| (strstr (sym_name, ".") != NULL
&& strstr (sym_name, ".clone.") == NULL))
continue;
if (sym_text)
{
StringBuilder sb;
sb.appendf ("%s`%s", mod_name, sym_name);
char *fname = sb.toString ();
Function *func = dbeSession->createFunction ();
func->set_name (fname);
free (fname);
func->size = sym_size;
func->img_offset = sym_addr;
func->module = mod;
lo->functions->append (func);
mod->functions->append (func);
if (lo_min > sym_addr)
lo_min = sym_addr;
if (lo_max < sym_addr + sym_size)
lo_max = sym_addr + sym_size;
}
}
fclose (fd);
free (line);
}
lo->size = lo_max;
lo->functions->sort (func_cmp);
mod->functions->sort (func_cmp);
MapRecord *mrec = new MapRecord;
mrec->kind = MapRecord::LOAD;
mrec->obj = lo;
mrec->base = lo_min;
mrec->size = lo_max - lo_min;
mrec->ts = ts;
mrec->foff = lo_min;
mrec_insert (mrec);
return 0;
}