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SubjectRe: [RFC] systemtap: begin the process of using proper kernel APIs (part1: use kprobe symbol_name/offset instead of address)
From
Date
On Thu, 2008-07-17 at 17:36 -0400, Masami Hiramatsu wrote:
> James Bottomley wrote:
> > On Thu, 2008-07-17 at 09:18 -0500, James Bottomley wrote:
> >> OK, thought about it. There seem to be two possible solutions
> >>
> >> 1. Get systemtap always to offset from non-static functions. This
> >> will use the standard linker to ensure uniqueness (a module
> >> qualifier will still need to be added to the struct kprobe for
> >> lookup, since modules can duplicate unexported kernel symbols).
> >> 2. Add the filename as a discriminator for duplicate symbols in the
> >> kallsyms program (would still need module qualifier). This is
> >> appealing because the path name would be printed in the kernel
> >> trace to help with oops tracking
> >>
> >> This is where negotiations come in. To me 2. looks to be better because
> >> it will help us with oops tracking. On the other hand, it's usually
> >> pretty obvious from the stack trace context which files the duplicate
> >> symbols are actually in; what do other people think?
> >
> > Just by way of illustration, this is systemtap fixed up according to
> > suggestion number 1. You can see now using your test case that we get:
> >
> > # probes
> > kernel.function("do_open@fs/block_dev.c:929") /* pc=<lookup_bdev+0x90> */ /* <- kernel.function("do_open") */
> > kernel.function("do_open@fs/nfsctl.c:24") /* pc=<sys_nfsservctl+0x6a> */ /* <- kernel.function("do_open") */
> > kernel.function("do_open@ipc/mqueue.c:642") /* pc=<sys_mq_unlink+0x130> */ /* <- kernel.function("do_open") */
>
> Hi James,
>
> Thank you for updating the patch.
> Unfortunately, I found another scenario; if someone make a module which
> has EXPORT_SYMBOL(do_open), it's a non-static function. but there are
> other static version do_open in kallsyms.
> Here, I tested it and got below;
>
> $ stap --kelf -e 'probe module("test").function("do_open"){}' -p2
> # probes
> module("test").function("do_open@?") /* pc=<do_open+0x0> */ /* <- module("test").function("do_open") */

OK, I fixed this. It turns out that kprobes already had a syntax for
this problem; it's <module>:<function> (in fact it won't work without
this). I updated the code (attached below) to work correctly. I'm
still looking at the kallsyms code for a uniqueness solution.

James

---

From: James Bottomley <James.Bottomley@HansenPartnership.com>
Subject: Part1 use symbol_name/offset to locate dwarf probes

---
tapsets.cxx | 120 ++++++++++++++++++++++++++++++++++++++++------------------
1 files changed, 83 insertions(+), 37 deletions(-)

diff --git a/tapsets.cxx b/tapsets.cxx
index a08a8ab..f24dc10 100644
--- a/tapsets.cxx
+++ b/tapsets.cxx
@@ -491,6 +491,7 @@ func_info
Dwarf_Addr entrypc;
Dwarf_Addr prologue_end;
bool weak;
+ bool global;
// Comparison functor for list of functions sorted by address. The
// two versions that take a Dwarf_Addr let us use the STL algorithms
// upper_bound, equal_range et al., but we don't know whether the
@@ -591,6 +592,7 @@ symbol_table
module_info *mod_info; // associated module
map<string, func_info*> map_by_name;
vector<func_info*> list_by_addr;
+ vector<func_info*> global_list_by_addr;
typedef vector<func_info*>::iterator iterator_t;
typedef pair<iterator_t, iterator_t> range_t;
#ifdef __powerpc__
@@ -598,7 +600,7 @@ symbol_table
#endif
// add_symbol doesn't leave symbol table in order; call
// symbol_table::sort() when done adding symbols.
- void add_symbol(const char *name, bool weak, Dwarf_Addr addr,
+ void add_symbol(const char *name, bool weak, bool global, Dwarf_Addr addr,
Dwarf_Addr *high_addr);
void sort();
enum info_status read_symbols(FILE *f, const string& path);
@@ -611,7 +613,7 @@ symbol_table
void purge_syscall_stubs();
func_info *lookup_symbol(const string& name);
Dwarf_Addr lookup_symbol_address(const string& name);
- func_info *get_func_containing_address(Dwarf_Addr addr);
+ func_info *get_func_containing_address(Dwarf_Addr addr, bool global);

symbol_table(module_info *mi) : mod_info(mi) {}
~symbol_table();
@@ -2309,13 +2311,15 @@ struct dwarf_derived_probe: public derived_probe
const string& module,
const string& section,
Dwarf_Addr dwfl_addr,
- Dwarf_Addr addr,
+ string symbol,
+ unsigned int offset,
dwarf_query & q,
Dwarf_Die* scope_die);

string module;
string section;
- Dwarf_Addr addr;
+ string kprobe_symbol;
+ unsigned int kprobe_offset;
bool has_return;
bool has_maxactive;
long maxactive_val;
@@ -2840,7 +2844,7 @@ dwarf_query::query_module_symtab()
// Find the "function" in which the indicated address resides.
Dwarf_Addr addr =
(has_function_num ? function_num_val : statement_num_val);
- fi = sym_table->get_func_containing_address(addr);
+ fi = sym_table->get_func_containing_address(addr, false);
if (!fi)
{
cerr << "Warning: address "
@@ -3265,9 +3269,18 @@ dwarf_query::add_probe_point(const string& funcname,

if (! bad)
{
+ struct module_info *mi = dw.mod_info;
+ if (!mi->sym_table)
+ mi->get_symtab(this);
+ struct symbol_table *sym_tab = mi->sym_table;
+ func_info *symbol = sym_tab->get_func_containing_address(addr, true);
+
sess.unwindsym_modules.insert (module);
probe = new dwarf_derived_probe(funcname, filename, line,
- module, reloc_section, addr, reloc_addr, *this, scope_die);
+ module, reloc_section, reloc_addr,
+ symbol->name,
+ (unsigned int)(addr - symbol->addr),
+ *this, scope_die);
results.push_back(probe);
}
}
@@ -4385,7 +4398,8 @@ dwarf_derived_probe::printsig (ostream& o) const
// function instances. This is distinct from the verbose/clog
// output, since this part goes into the cache hash calculations.
sole_location()->print (o);
- o << " /* pc=0x" << hex << addr << dec << " */";
+ o << " /* pc=<" << kprobe_symbol << "+0x" << hex
+ << kprobe_offset << dec << "> */";
printsig_nested (o);
}

@@ -4411,22 +4425,26 @@ dwarf_derived_probe::dwarf_derived_probe(const string& funcname,
// NB: dwfl_addr is the virtualized
// address for this symbol.
Dwarf_Addr dwfl_addr,
- // addr is the section-offset for
- // actual relocation.
- Dwarf_Addr addr,
+ // symbol is the closest known symbol
+ // and offset is the offset from the symbol
+ string symbol,
+ unsigned int offset,
dwarf_query& q,
Dwarf_Die* scope_die /* may be null */)
: derived_probe (q.base_probe, new probe_point(*q.base_loc) /* .components soon rewritten */ ),
- module (module), section (section), addr (addr),
+ module (module), section (section), kprobe_symbol(symbol),
+ kprobe_offset(offset),
has_return (q.has_return),
has_maxactive (q.has_maxactive),
maxactive_val (q.maxactive_val)
{
// Assert relocation invariants
+#if 0
if (section == "" && dwfl_addr != addr) // addr should be absolute
throw semantic_error ("missing relocation base against", q.base_loc->tok);
if (section != "" && dwfl_addr == addr) // addr should be an offset
throw semantic_error ("inconsistent relocation address", q.base_loc->tok);
+#endif

this->tok = q.base_probe->tok;

@@ -4634,8 +4652,8 @@ dwarf_derived_probe_group::emit_module_decls (systemtap_session& s)
// Let's find some stats for the three embedded strings. Maybe they
// are small and uniform enough to justify putting char[MAX]'s into
// the array instead of relocated char*'s.
- size_t module_name_max = 0, section_name_max = 0, pp_name_max = 0;
- size_t module_name_tot = 0, section_name_tot = 0, pp_name_tot = 0;
+ size_t pp_name_max = 0, pp_name_tot = 0;
+ size_t symbol_name_name_max = 0, symbol_name_name_tot = 0;
size_t all_name_cnt = probes_by_module.size(); // for average
for (p_b_m_iterator it = probes_by_module.begin(); it != probes_by_module.end(); it++)
{
@@ -4644,9 +4662,8 @@ dwarf_derived_probe_group::emit_module_decls (systemtap_session& s)
size_t var##_size = (expr) + 1; \
var##_max = max (var##_max, var##_size); \
var##_tot += var##_size; } while (0)
- DOIT(module_name, p->module.size());
- DOIT(section_name, p->section.size());
DOIT(pp_name, lex_cast_qstring(*p->sole_location()).size());
+ DOIT(symbol_name_name, p->kprobe_symbol.size());
#undef DOIT
}

@@ -4666,11 +4683,10 @@ dwarf_derived_probe_group::emit_module_decls (systemtap_session& s)
if (s.verbose > 2) clog << "stap_dwarf_probe *" << #var << endl; \
}

- CALCIT(module);
- CALCIT(section);
CALCIT(pp);
+ CALCIT(symbol_name);

- s.op->newline() << "const unsigned long address;";
+ s.op->newline() << "unsigned int offset;";
s.op->newline() << "void (* const ph) (struct context*);";
s.op->newline(-1) << "} stap_dwarf_probes[] = {";
s.op->indent(1);
@@ -4687,9 +4703,8 @@ dwarf_derived_probe_group::emit_module_decls (systemtap_session& s)
assert (p->maxactive_val >= 0 && p->maxactive_val <= USHRT_MAX);
s.op->line() << " .maxactive_val=" << p->maxactive_val << ",";
}
- s.op->line() << " .address=0x" << hex << p->addr << dec << "UL,";
- s.op->line() << " .module=\"" << p->module << "\",";
- s.op->line() << " .section=\"" << p->section << "\",";
+ s.op->line() << " .symbol_name=\"" << p->kprobe_symbol << "\",";
+ s.op->line() << " .offset=0x" << hex << p->kprobe_offset << dec << ",";
s.op->line() << " .pp=" << lex_cast_qstring (*p->sole_location()) << ",";
s.op->line() << " .ph=&" << p->name;
s.op->line() << " },";
@@ -4749,11 +4764,10 @@ dwarf_derived_probe_group::emit_module_init (systemtap_session& s)
s.op->newline() << "for (i=0; i<" << probes_by_module.size() << "; i++) {";
s.op->newline(1) << "struct stap_dwarf_probe *sdp = & stap_dwarf_probes[i];";
s.op->newline() << "struct stap_dwarf_kprobe *kp = & stap_dwarf_kprobes[i];";
- s.op->newline() << "unsigned long relocated_addr = _stp_module_relocate (sdp->module, sdp->section, sdp->address);";
- s.op->newline() << "if (relocated_addr == 0) continue;"; // quietly; assume module is absent
s.op->newline() << "probe_point = sdp->pp;";
s.op->newline() << "if (sdp->return_p) {";
- s.op->newline(1) << "kp->u.krp.kp.addr = (void *) relocated_addr;";
+ s.op->newline(1) << "kp->u.krp.kp.symbol_name = sdp->symbol_name;";
+ s.op->newline(1) << "kp->u.krp.kp.offset = sdp->offset;";
s.op->newline() << "if (sdp->maxactive_p) {";
s.op->newline(1) << "kp->u.krp.maxactive = sdp->maxactive_val;";
s.op->newline(-1) << "} else {";
@@ -4774,8 +4788,8 @@ dwarf_derived_probe_group::emit_module_init (systemtap_session& s)
s.op->newline() << "rc = register_kretprobe (& kp->u.krp);";
s.op->newline() << "#endif";
s.op->newline(-1) << "} else {";
- // to ensure safeness of bspcache, always use aggr_kprobe on ia64
- s.op->newline(1) << "kp->u.kp.addr = (void *) relocated_addr;";
+ s.op->newline(1) << "kp->u.krp.kp.symbol_name = sdp->symbol_name;";
+ s.op->newline(1) << "kp->u.krp.kp.offset = sdp->offset;";
s.op->newline() << "kp->u.kp.pre_handler = &enter_kprobe_probe;";
s.op->newline() << "#ifdef __ia64__";
s.op->newline() << "kp->dummy.addr = kp->u.kp.addr;";
@@ -4939,12 +4953,20 @@ dwarf_builder::build(systemtap_session & sess,
throw semantic_error ("absolute statement probe in unprivileged script", q.base_probe->tok);
}

+ struct module_info *mi = dw->mod_info;
+ if (!mi->sym_table)
+ mi->get_symtab(&q);
+ struct symbol_table *sym_tab = mi->sym_table;
+ func_info *symbol = sym_tab->get_func_containing_address(q.statement_num_val, true);
+
// For kernel.statement(NUM).absolute probe points, we bypass
// all the debuginfo stuff: We just wire up a
// dwarf_derived_probe right here and now.
dwarf_derived_probe* p =
new dwarf_derived_probe ("", "", 0, "kernel", "",
- q.statement_num_val, q.statement_num_val,
+ q.statement_num_val,
+ symbol->name,
+ (unsigned int)(q.statement_num_val - symbol->addr),
q, 0);
finished_results.push_back (p);
sess.unwindsym_modules.insert ("kernel");
@@ -4962,8 +4984,8 @@ symbol_table::~symbol_table()
}

void
-symbol_table::add_symbol(const char *name, bool weak, Dwarf_Addr addr,
- Dwarf_Addr *high_addr)
+symbol_table::add_symbol(const char *name, bool weak, bool global,
+ Dwarf_Addr addr, Dwarf_Addr *high_addr)
{
#ifdef __powerpc__
// Map ".sys_foo" to "sys_foo".
@@ -4974,10 +4996,13 @@ symbol_table::add_symbol(const char *name, bool weak, Dwarf_Addr addr,
fi->addr = addr;
fi->name = name;
fi->weak = weak;
+ fi->global = global;
map_by_name[fi->name] = fi;
// TODO: Use a multimap in case there are multiple static
// functions with the same name?
list_by_addr.push_back(fi);
+ if (global)
+ global_list_by_addr.push_back(fi);
}

enum info_status
@@ -5015,7 +5040,8 @@ symbol_table::read_symbols(FILE *f, const string& path)
break;
}
if (type == 'T' || type == 't' || type == 'W')
- add_symbol(name, (type == 'W'), (Dwarf_Addr) addr, &high_addr);
+ add_symbol(name, (type == 'W'), (type == 'T'),
+ (Dwarf_Addr) addr, &high_addr);
}

if (list_by_addr.size() < 1)
@@ -5134,7 +5160,8 @@ symbol_table::get_from_elf()
if (name && GELF_ST_TYPE(sym.st_info) == STT_FUNC &&
!reject_section(section))
add_symbol(name, (GELF_ST_BIND(sym.st_info) == STB_WEAK),
- sym.st_value, &high_addr);
+ GELF_ST_BIND(sym.st_info) == STB_GLOBAL,
+ sym.st_value, &high_addr);
}
sort();
return info_present;
@@ -5175,14 +5202,29 @@ symbol_table::mark_dwarf_redundancies(dwflpp *dw)
}

func_info *
-symbol_table::get_func_containing_address(Dwarf_Addr addr)
+symbol_table::get_func_containing_address(Dwarf_Addr addr, bool global)
{
- iterator_t iter = upper_bound(list_by_addr.begin(), list_by_addr.end(), addr,
- func_info::Compare());
- if (iter == list_by_addr.begin())
- return NULL;
+ iterator_t iter;
+
+ if (global)
+ {
+ iter = upper_bound(global_list_by_addr.begin(),
+ global_list_by_addr.end(), addr,
+ func_info::Compare());
+ if (iter == global_list_by_addr.begin())
+ return NULL;
+ else
+ return *(iter - 1);
+ }
else
- return *(iter - 1);
+ {
+ iter = upper_bound(list_by_addr.begin(), list_by_addr.end(), addr,
+ func_info::Compare());
+ if (iter == list_by_addr.begin())
+ return NULL;
+ else
+ return *(iter - 1);
+ }
}

func_info *
@@ -5235,12 +5277,16 @@ symbol_table::purge_syscall_stubs()
list_by_addr.erase(remove(purge_range.first, purge_range.second,
(func_info*)0),
purge_range.second);
+ // NOTE: At the moment global_list_by_addr has no weak symbols
+ // so nothing needs to be removed from it.
}

void
symbol_table::sort()
{
stable_sort(list_by_addr.begin(), list_by_addr.end(), func_info::Compare());
+ stable_sort(global_list_by_addr.begin(), global_list_by_addr.end(),
+ func_info::Compare());
}

void
--
1.5.6.2




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