//===-- sanitizer_flags.cc ------------------------------------------------===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
//
// This file is a part of ThreadSanitizer/AddressSanitizer runtime.
//
//===----------------------------------------------------------------------===//
#include "sanitizer_flags.h"
#include "sanitizer_common.h"
#include "sanitizer_libc.h"
#include "sanitizer_list.h"
namespace __sanitizer {
CommonFlags common_flags_dont_use;
struct FlagDescription {
const char *name;
const char *description;
FlagDescription *next;
};
IntrusiveList<FlagDescription> flag_descriptions;
// If set, the tool will install its own SEGV signal handler by default.
#ifndef SANITIZER_NEEDS_SEGV
# define SANITIZER_NEEDS_SEGV 1
#endif
void SetCommonFlagsDefaults(CommonFlags *f) {
f->symbolize = true;
f->external_symbolizer_path = 0;
f->allow_addr2line = false;
f->strip_path_prefix = "";
f->fast_unwind_on_fatal = false;
f->fast_unwind_on_malloc = true;
f->handle_ioctl = false;
f->malloc_context_size = 1;
f->log_path = "stderr";
f->verbosity = 0;
f->detect_leaks = true;
f->leak_check_at_exit = true;
f->allocator_may_return_null = false;
f->print_summary = true;
f->check_printf = true;
// TODO(glider): tools may want to set different defaults for handle_segv.
f->handle_segv = SANITIZER_NEEDS_SEGV;
f->allow_user_segv_handler = false;
f->use_sigaltstack = true;
f->detect_deadlocks = false;
f->clear_shadow_mmap_threshold = 64 * 1024;
f->color = "auto";
f->legacy_pthread_cond = false;
f->intercept_tls_get_addr = false;
f->coverage = false;
f->coverage_direct = SANITIZER_ANDROID;
f->coverage_dir = ".";
f->full_address_space = false;
}
void ParseCommonFlagsFromString(CommonFlags *f, const char *str) {
ParseFlag(str, &f->symbolize, "symbolize",
"If set, use the online symbolizer from common sanitizer runtime to turn "
"virtual addresses to file/line locations.");
ParseFlag(str, &f->external_symbolizer_path, "external_symbolizer_path",
"Path to external symbolizer. If empty, the tool will search $PATH for "
"the symbolizer.");
ParseFlag(str, &f->allow_addr2line, "allow_addr2line",
"If set, allows online symbolizer to run addr2line binary to symbolize "
"stack traces (addr2line will only be used if llvm-symbolizer binary is "
"unavailable.");
ParseFlag(str, &f->strip_path_prefix, "strip_path_prefix",
"Strips this prefix from file paths in error reports.");
ParseFlag(str, &f->fast_unwind_on_fatal, "fast_unwind_on_fatal",
"If available, use the fast frame-pointer-based unwinder on fatal "
"errors.");
ParseFlag(str, &f->fast_unwind_on_malloc, "fast_unwind_on_malloc",
"If available, use the fast frame-pointer-based unwinder on "
"malloc/free.");
ParseFlag(str, &f->handle_ioctl, "handle_ioctl",
"Intercept and handle ioctl requests.");
ParseFlag(str, &f->malloc_context_size, "malloc_context_size",
"Max number of stack frames kept for each allocation/deallocation.");
ParseFlag(str, &f->log_path, "log_path",
"Write logs to \"log_path.pid\". The special values are \"stdout\" and "
"\"stderr\". The default is \"stderr\".");
ParseFlag(str, &f->verbosity, "verbosity",
"Verbosity level (0 - silent, 1 - a bit of output, 2+ - more output).");
ParseFlag(str, &f->detect_leaks, "detect_leaks",
"Enable memory leak detection.");
ParseFlag(str, &f->leak_check_at_exit, "leak_check_at_exit",
"Invoke leak checking in an atexit handler. Has no effect if "
"detect_leaks=false, or if __lsan_do_leak_check() is called before the "
"handler has a chance to run.");
ParseFlag(str, &f->allocator_may_return_null, "allocator_may_return_null",
"If false, the allocator will crash instead of returning 0 on "
"out-of-memory.");
ParseFlag(str, &f->print_summary, "print_summary",
"If false, disable printing error summaries in addition to error "
"reports.");
ParseFlag(str, &f->check_printf, "check_printf",
"Check printf arguments.");
ParseFlag(str, &f->handle_segv, "handle_segv",
"If set, registers the tool's custom SEGV handler (both SIGBUS and "
"SIGSEGV on OSX).");
ParseFlag(str, &f->allow_user_segv_handler, "allow_user_segv_handler",
"If set, allows user to register a SEGV handler even if the tool "
"registers one.");
ParseFlag(str, &f->use_sigaltstack, "use_sigaltstack",
"If set, uses alternate stack for signal handling.");
ParseFlag(str, &f->detect_deadlocks, "detect_deadlocks",
"If set, deadlock detection is enabled.");
ParseFlag(str, &f->clear_shadow_mmap_threshold,
"clear_shadow_mmap_threshold",
"Large shadow regions are zero-filled using mmap(NORESERVE) instead of "
"memset(). This is the threshold size in bytes.");
ParseFlag(str, &f->color, "color",
"Colorize reports: (always|never|auto).");
ParseFlag(str, &f->legacy_pthread_cond, "legacy_pthread_cond",
"Enables support for dynamic libraries linked with libpthread 2.2.5.");
ParseFlag(str, &f->intercept_tls_get_addr, "intercept_tls_get_addr",
"Intercept __tls_get_addr.");
ParseFlag(str, &f->help, "help", "Print the flag descriptions.");
ParseFlag(str, &f->mmap_limit_mb, "mmap_limit_mb",
"Limit the amount of mmap-ed memory (excluding shadow) in Mb; "
"not a user-facing flag, used mosly for testing the tools");
ParseFlag(str, &f->coverage, "coverage",
"If set, coverage information will be dumped at program shutdown (if the "
"coverage instrumentation was enabled at compile time).");
ParseFlag(str, &f->coverage_direct, "coverage_direct",
"If set, coverage information will be dumped directly to a memory "
"mapped file. This way data is not lost even if the process is "
"suddenly killed.");
ParseFlag(str, &f->coverage_dir, "coverage_dir",
"Target directory for coverage dumps. Defaults to the current "
"directory.");
ParseFlag(str, &f->full_address_space, "full_address_space",
"Sanitize complete address space; "
"by default kernel area on 32-bit platforms will not be sanitized");
// Do a sanity check for certain flags.
if (f->malloc_context_size < 1)
f->malloc_context_size = 1;
}
static bool GetFlagValue(const char *env, const char *name,
const char **value, int *value_length) {
if (env == 0)
return false;
const char *pos = 0;
for (;;) {
pos = internal_strstr(env, name);
if (pos == 0)
return false;
const char *name_end = pos + internal_strlen(name);
if ((pos != env &&
((pos[-1] >= 'a' && pos[-1] <= 'z') || pos[-1] == '_')) ||
*name_end != '=') {
// Seems to be middle of another flag name or value.
env = pos + 1;
continue;
}
pos = name_end;
break;
}
const char *end;
if (pos[0] != '=') {
end = pos;
} else {
pos += 1;
if (pos[0] == '"') {
pos += 1;
end = internal_strchr(pos, '"');
} else if (pos[0] == '\'') {
pos += 1;
end = internal_strchr(pos, '\'');
} else {
// Read until the next space or colon.
end = pos + internal_strcspn(pos, " :");
}
if (end == 0)
end = pos + internal_strlen(pos);
}
*value = pos;
*value_length = end - pos;
return true;
}
static bool StartsWith(const char *flag, int flag_length, const char *value) {
if (!flag || !value)
return false;
int value_length = internal_strlen(value);
return (flag_length >= value_length) &&
(0 == internal_strncmp(flag, value, value_length));
}
static LowLevelAllocator allocator_for_flags;
// The linear scan is suboptimal, but the number of flags is relatively small.
bool FlagInDescriptionList(const char *name) {
IntrusiveList<FlagDescription>::Iterator it(&flag_descriptions);
while (it.hasNext()) {
if (!internal_strcmp(it.next()->name, name)) return true;
}
return false;
}
void AddFlagDescription(const char *name, const char *description) {
if (FlagInDescriptionList(name)) return;
FlagDescription *new_description = new(allocator_for_flags) FlagDescription;
new_description->name = name;
new_description->description = description;
flag_descriptions.push_back(new_description);
}
// TODO(glider): put the descriptions inside CommonFlags.
void PrintFlagDescriptions() {
IntrusiveList<FlagDescription>::Iterator it(&flag_descriptions);
Printf("Available flags for %s:\n", SanitizerToolName);
while (it.hasNext()) {
FlagDescription *descr = it.next();
Printf("\t%s\n\t\t- %s\n", descr->name, descr->description);
}
}
void ParseFlag(const char *env, bool *flag,
const char *name, const char *descr) {
const char *value;
int value_length;
AddFlagDescription(name, descr);
if (!GetFlagValue(env, name, &value, &value_length))
return;
if (StartsWith(value, value_length, "0") ||
StartsWith(value, value_length, "no") ||
StartsWith(value, value_length, "false"))
*flag = false;
if (StartsWith(value, value_length, "1") ||
StartsWith(value, value_length, "yes") ||
StartsWith(value, value_length, "true"))
*flag = true;
}
void ParseFlag(const char *env, int *flag,
const char *name, const char *descr) {
const char *value;
int value_length;
AddFlagDescription(name, descr);
if (!GetFlagValue(env, name, &value, &value_length))
return;
*flag = static_cast<int>(internal_atoll(value));
}
void ParseFlag(const char *env, uptr *flag,
const char *name, const char *descr) {
const char *value;
int value_length;
AddFlagDescription(name, descr);
if (!GetFlagValue(env, name, &value, &value_length))
return;
*flag = static_cast<uptr>(internal_atoll(value));
}
void ParseFlag(const char *env, const char **flag,
const char *name, const char *descr) {
const char *value;
int value_length;
AddFlagDescription(name, descr);
if (!GetFlagValue(env, name, &value, &value_length))
return;
// Copy the flag value. Don't use locks here, as flags are parsed at
// tool startup.
char *value_copy = (char*)(allocator_for_flags.Allocate(value_length + 1));
internal_memcpy(value_copy, value, value_length);
value_copy[value_length] = '\0';
*flag = value_copy;
}
} // namespace __sanitizer