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// Copyright 2014 The Crashpad Authors. All rights reserved.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
#include "util/mach/symbolic_constants_mach.h"
#include <string.h>
#include <sys/types.h>
#include "base/stl_util.h"
#include "base/strings/stringprintf.h"
#include "util/mach/exception_behaviors.h"
#include "util/mach/mach_extensions.h"
#include "util/misc/implicit_cast.h"
#include "util/stdlib/string_number_conversion.h"
namespace {
constexpr const char* kExceptionNames[] = {
nullptr,
// sed -Ene 's/^#define[[:space:]]EXC_([[:graph:]]+)[[:space:]]+[[:digit:]]{1,2}([[:space:]]|$).*/ "\1",/p'
// /usr/include/mach/exception_types.h
"BAD_ACCESS",
"BAD_INSTRUCTION",
"ARITHMETIC",
"EMULATION",
"SOFTWARE",
"BREAKPOINT",
"SYSCALL",
"MACH_SYSCALL",
"RPC_ALERT",
"CRASH",
"RESOURCE",
"GUARD",
"CORPSE_NOTIFY",
};
static_assert(base::size(kExceptionNames) == EXC_TYPES_COUNT,
"kExceptionNames length");
constexpr char kExcPrefix[] = "EXC_";
constexpr char kExcMaskPrefix[] = "EXC_MASK_";
constexpr const char* kBehaviorNames[] = {
nullptr,
// sed -Ene 's/^# define[[:space:]]EXCEPTION_([[:graph:]]+)[[:space:]]+[[:digit:]]{1,2}([[:space:]]|$).*/ "\1",/p'
// /usr/include/mach/exception_types.h
"DEFAULT",
"STATE",
"STATE_IDENTITY",
};
constexpr char kBehaviorPrefix[] = "EXCEPTION_";
constexpr char kMachExceptionCodesFull[] = "MACH_EXCEPTION_CODES";
constexpr char kMachExceptionCodesShort[] = "MACH";
constexpr const char* kFlavorNames[] = {
"THREAD_STATE_FLAVOR_LIST",
#if defined(__i386__) || defined(__x86_64__)
// sed -Ene 's/^#define ((x86|THREAD)_[[:graph:]]+)[[:space:]]+[[:digit:]]{1,2}.*$/ "\1",/p'
// /usr/include/mach/i386/thread_status.h
// and then fix up by adding x86_SAVED_STATE32 and x86_SAVED_STATE64.
"x86_THREAD_STATE32",
"x86_FLOAT_STATE32",
"x86_EXCEPTION_STATE32",
"x86_THREAD_STATE64",
"x86_FLOAT_STATE64",
"x86_EXCEPTION_STATE64",
"x86_THREAD_STATE",
"x86_FLOAT_STATE",
"x86_EXCEPTION_STATE",
"x86_DEBUG_STATE32",
"x86_DEBUG_STATE64",
"x86_DEBUG_STATE",
"THREAD_STATE_NONE",
"x86_SAVED_STATE32",
"x86_SAVED_STATE64",
"x86_AVX_STATE32",
"x86_AVX_STATE64",
"x86_AVX_STATE",
#elif defined(__ppc__) || defined(__ppc64__)
// sed -Ene 's/^#define ((PPC|THREAD)_[[:graph:]]+)[[:space:]]+[[:digit:]]{1,2}.*$/ "\1",/p'
// usr/include/mach/ppc/thread_status.h
// (Mac OS X 10.6 SDK)
"PPC_THREAD_STATE",
"PPC_FLOAT_STATE",
"PPC_EXCEPTION_STATE",
"PPC_VECTOR_STATE",
"PPC_THREAD_STATE64",
"PPC_EXCEPTION_STATE64",
"THREAD_STATE_NONE",
#elif defined(__arm__) || defined(__aarch64__)
// sed -Ene 's/^#define ((ARM|THREAD)_[[:graph:]]+)[[:space:]]+[[:digit:]]{1,2}.*$/ "\1",/p'
// usr/include/mach/arm/thread_status.h
// (iOS 7 SDK)
// and then fix up by making the list sparse as appropriate.
"ARM_THREAD_STATE",
"ARM_VFP_STATE",
"ARM_EXCEPTION_STATE",
"ARM_DEBUG_STATE",
"THREAD_STATE_NONE",
"ARM_THREAD_STATE64",
"ARM_EXCEPTION_STATE64",
nullptr,
"ARM_THREAD_STATE32",
nullptr,
nullptr,
nullptr,
nullptr,
"ARM_DEBUG_STATE32",
"ARM_DEBUG_STATE64",
"ARM_NEON_STATE",
"ARM_NEON_STATE64",
#endif
};
// Certain generic flavors have high constants not contiguous with the flavors
// above. List them separately alongside their constants.
constexpr struct {
thread_state_flavor_t flavor;
const char* name;
} kGenericFlavorNames[] = {
{THREAD_STATE_FLAVOR_LIST_NEW, "THREAD_STATE_FLAVOR_LIST_NEW"},
{THREAD_STATE_FLAVOR_LIST_10_9, "THREAD_STATE_FLAVOR_LIST_10_9"},
};
// Returns the short name for a flavor name, given its full flavor name.
std::string ThreadStateFlavorFullToShort(const base::StringPiece& flavor) {
// For generic flavors like THREAD_STATE_NONE and THREAD_STATE_FLAVOR_LIST_*.
static constexpr char kThreadState[] = "THREAD_STATE_";
size_t prefix_len = strlen(kThreadState);
const char* flavor_data = flavor.data();
size_t flavor_len = flavor.size();
if (flavor_len >= prefix_len &&
strncmp(flavor_data, kThreadState, prefix_len) == 0) {
return std::string(flavor_data + prefix_len, flavor_len - prefix_len);
}
// For architecture-specific flavors.
#if defined(__i386__) || defined(__x86_64__)
static constexpr char kArchPrefix[] = "x86_";
#elif defined(__ppc__) || defined(__ppc64__)
static constexpr char kArchPrefix[] = "PPC_";
#elif defined(__arm__) || defined(__aarch64__)
static constexpr char kArchPrefix[] = "ARM_"
#endif
prefix_len = strlen(kArchPrefix);
if (flavor_len >= prefix_len &&
strncmp(flavor_data, kArchPrefix, prefix_len) == 0) {
// Shorten the suffix by removing _STATE. If the suffix contains a
// significant designation like 32 or 64, keep it, so that a full name like
// x86_THREAD_STATE64 becomes a short name like THREAD64.
static constexpr struct {
const char* orig;
const char* repl;
} kStateSuffixes[] = {
{"_STATE", ""},
{"_STATE32", "32"},
{"_STATE64", "64"},
};
for (size_t suffix_index = 0; suffix_index < base::size(kStateSuffixes);
++suffix_index) {
const char* suffix = kStateSuffixes[suffix_index].orig;
size_t suffix_len = strlen(suffix);
if (flavor_len >= suffix_len &&
strncmp(flavor_data + flavor_len - suffix_len, suffix, suffix_len) ==
0) {
std::string s(flavor_data + prefix_len,
flavor_len - prefix_len - suffix_len);
return s.append(kStateSuffixes[suffix_index].repl);
}
}
}
return std::string(flavor_data, flavor_len);
}
} // namespace
namespace crashpad {
std::string ExceptionToString(exception_type_t exception,
SymbolicConstantToStringOptions options) {
const char* exception_name =
implicit_cast<size_t>(exception) < base::size(kExceptionNames)
? kExceptionNames[exception]
: nullptr;
if (!exception_name) {
if (options & kUnknownIsNumeric) {
return base::StringPrintf("%d", exception);
}
return std::string();
}
if (options & kUseShortName) {
return std::string(exception_name);
}
return base::StringPrintf("%s%s", kExcPrefix, exception_name);
}
bool StringToException(const base::StringPiece& string,
StringToSymbolicConstantOptions options,
exception_type_t* exception) {
if ((options & kAllowFullName) || (options & kAllowShortName)) {
bool can_match_full =
(options & kAllowFullName) &&
string.substr(0, strlen(kExcPrefix)).compare(kExcPrefix) == 0;
base::StringPiece short_string =
can_match_full ? string.substr(strlen(kExcPrefix)) : string;
for (exception_type_t index = 0;
index < implicit_cast<exception_type_t>(base::size(kExceptionNames));
++index) {
const char* exception_name = kExceptionNames[index];
if (!exception_name) {
continue;
}
if (can_match_full && short_string.compare(exception_name) == 0) {
*exception = index;
return true;
}
if ((options & kAllowShortName) && string.compare(exception_name) == 0) {
*exception = index;
return true;
}
}
}
if (options & kAllowNumber) {
return StringToNumber(std::string(string.data(), string.length()),
reinterpret_cast<unsigned int*>(exception));
}
return false;
}
std::string ExceptionMaskToString(exception_mask_t exception_mask,
SymbolicConstantToStringOptions options) {
exception_mask_t local_exception_mask = exception_mask;
std::string mask_string;
bool has_forbidden_or = false;
for (size_t exception = 0; exception < base::size(kExceptionNames);
++exception) {
const char* exception_name = kExceptionNames[exception];
exception_mask_t exception_mask_value = 1 << exception;
if (exception_name && (local_exception_mask & exception_mask_value)) {
if (!mask_string.empty()) {
if (!(options & kUseOr)) {
has_forbidden_or = true;
break;
}
mask_string.append("|");
}
if (!(options & kUseShortName)) {
mask_string.append(kExcMaskPrefix);
}
mask_string.append(exception_name);
local_exception_mask &= ~exception_mask_value;
}
}
if (has_forbidden_or) {
local_exception_mask = exception_mask;
mask_string.clear();
}
// Deal with any remainder.
if (local_exception_mask) {
if (!(options & kUnknownIsNumeric)) {
return std::string();
}
if (!mask_string.empty()) {
mask_string.append("|");
}
mask_string.append(base::StringPrintf("%#x", local_exception_mask));
}
return mask_string;
}
bool StringToExceptionMask(const base::StringPiece& string,
StringToSymbolicConstantOptions options,
exception_mask_t* exception_mask) {
if (options & kAllowOr) {
options &= ~kAllowOr;
exception_mask_t build_mask = 0;
size_t pos = -1;
do {
++pos;
const char* substring_begin = string.begin() + pos;
pos = string.find('|', pos);
const char* substring_end = (pos == base::StringPiece::npos)
? string.end()
: (string.begin() + pos);
base::StringPiece substring = string.substr(
substring_begin - string.begin(), substring_end - substring_begin);
exception_mask_t temp_mask;
if (!StringToExceptionMask(substring, options, &temp_mask)) {
return false;
}
build_mask |= temp_mask;
} while (pos != base::StringPiece::npos);
*exception_mask = build_mask;
return true;
}
if ((options & kAllowFullName) || (options & kAllowShortName)) {
bool can_match_full =
(options & kAllowFullName) &&
string.substr(0, strlen(kExcMaskPrefix)).compare(kExcMaskPrefix) == 0;
base::StringPiece short_string =
can_match_full ? string.substr(strlen(kExcMaskPrefix)) : string;
for (exception_type_t index = 0;
index < implicit_cast<exception_type_t>(base::size(kExceptionNames));
++index) {
const char* exception_name = kExceptionNames[index];
if (!exception_name) {
continue;
}
if (can_match_full && short_string.compare(exception_name) == 0) {
*exception_mask = 1 << index;
return true;
}
if ((options & kAllowShortName) && string.compare(exception_name) == 0) {
*exception_mask = 1 << index;
return true;
}
}
// EXC_MASK_ALL is a special case: it is not in kExceptionNames as it exists
// only as a mask value.
static constexpr char kExcMaskAll[] = "ALL";
if ((can_match_full && short_string.compare(kExcMaskAll) == 0) ||
((options & kAllowShortName) && string.compare(kExcMaskAll) == 0)) {
*exception_mask = ExcMaskAll();
return true;
}
}
if (options & kAllowNumber) {
return StringToNumber(std::string(string.data(), string.length()),
reinterpret_cast<unsigned int*>(exception_mask));
}
return false;
}
std::string ExceptionBehaviorToString(exception_behavior_t behavior,
SymbolicConstantToStringOptions options) {
const exception_behavior_t basic_behavior = ExceptionBehaviorBasic(behavior);
const char* behavior_name =
implicit_cast<size_t>(basic_behavior) < base::size(kBehaviorNames)
? kBehaviorNames[basic_behavior]
: nullptr;
if (!behavior_name) {
if (options & kUnknownIsNumeric) {
return base::StringPrintf("%#x", behavior);
}
return std::string();
}
std::string behavior_string;
if (options & kUseShortName) {
behavior_string.assign(behavior_name);
} else {
behavior_string.assign(base::StringPrintf(
"%s%s", kBehaviorPrefix, behavior_name));
}
if (ExceptionBehaviorHasMachExceptionCodes(behavior)) {
behavior_string.append("|");
behavior_string.append((options & kUseShortName) ? kMachExceptionCodesShort
: kMachExceptionCodesFull);
}
return behavior_string;
}
bool StringToExceptionBehavior(const base::StringPiece& string,
StringToSymbolicConstantOptions options,
exception_behavior_t* behavior) {
base::StringPiece sp = string;
exception_behavior_t build_behavior = 0;
size_t pos = sp.find('|', 0);
if (pos != base::StringPiece::npos) {
base::StringPiece left = sp.substr(0, pos);
base::StringPiece right = sp.substr(pos + 1, sp.length() - pos - 1);
if (options & kAllowFullName) {
if (left.compare(kMachExceptionCodesFull) == 0) {
build_behavior |= MACH_EXCEPTION_CODES;
sp = right;
} else if (right.compare(kMachExceptionCodesFull) == 0) {
build_behavior |= MACH_EXCEPTION_CODES;
sp = left;
}
}
if (!(build_behavior & MACH_EXCEPTION_CODES) &&
(options & kAllowShortName)) {
if (left.compare(kMachExceptionCodesShort) == 0) {
build_behavior |= MACH_EXCEPTION_CODES;
sp = right;
} else if (right.compare(kMachExceptionCodesShort) == 0) {
build_behavior |= MACH_EXCEPTION_CODES;
sp = left;
}
}
if (!(build_behavior & MACH_EXCEPTION_CODES)) {
return false;
}
}
if ((options & kAllowFullName) || (options & kAllowShortName)) {
bool can_match_full =
(options & kAllowFullName) &&
sp.substr(0, strlen(kBehaviorPrefix)).compare(kBehaviorPrefix) == 0;
base::StringPiece short_string =
can_match_full ? sp.substr(strlen(kBehaviorPrefix)) : sp;
for (exception_behavior_t index = 0;
index <
implicit_cast<exception_behavior_t>(base::size(kBehaviorNames));
++index) {
const char* behavior_name = kBehaviorNames[index];
if (!behavior_name) {
continue;
}
if (can_match_full && short_string.compare(behavior_name) == 0) {
build_behavior |= index;
*behavior = build_behavior;
return true;
}
if ((options & kAllowShortName) && sp.compare(behavior_name) == 0) {
build_behavior |= index;
*behavior = build_behavior;
return true;
}
}
}
if (options & kAllowNumber) {
exception_behavior_t temp_behavior;
if (!StringToNumber(std::string(sp.data(), sp.length()),
reinterpret_cast<unsigned int*>(&temp_behavior))) {
return false;
}
build_behavior |= temp_behavior;
*behavior = build_behavior;
return true;
}
return false;
}
std::string ThreadStateFlavorToString(thread_state_flavor_t flavor,
SymbolicConstantToStringOptions options) {
const char* flavor_name =
implicit_cast<size_t>(flavor) < base::size(kFlavorNames)
? kFlavorNames[flavor]
: nullptr;
if (!flavor_name) {
for (size_t generic_flavor_index = 0;
generic_flavor_index < base::size(kGenericFlavorNames);
++generic_flavor_index) {
if (flavor == kGenericFlavorNames[generic_flavor_index].flavor) {
flavor_name = kGenericFlavorNames[generic_flavor_index].name;
break;
}
}
}
if (!flavor_name) {
if (options & kUnknownIsNumeric) {
return base::StringPrintf("%d", flavor);
}
return std::string();
}
if (options & kUseShortName) {
return ThreadStateFlavorFullToShort(flavor_name);
}
return std::string(flavor_name);
}
bool StringToThreadStateFlavor(const base::StringPiece& string,
StringToSymbolicConstantOptions options,
thread_state_flavor_t* flavor) {
if ((options & kAllowFullName) || (options & kAllowShortName)) {
for (thread_state_flavor_t index = 0;
index < implicit_cast<thread_state_flavor_t>(base::size(kFlavorNames));
++index) {
const char* flavor_name = kFlavorNames[index];
if (!flavor_name) {
continue;
}
if ((options & kAllowFullName) && string.compare(flavor_name) == 0) {
*flavor = index;
return true;
}
if (options & kAllowShortName) {
std::string short_name = ThreadStateFlavorFullToShort(flavor_name);
if (string.compare(short_name) == 0) {
*flavor = index;
return true;
}
}
}
for (size_t generic_flavor_index = 0;
generic_flavor_index < base::size(kGenericFlavorNames);
++generic_flavor_index) {
const char* flavor_name = kGenericFlavorNames[generic_flavor_index].name;
thread_state_flavor_t flavor_number =
kGenericFlavorNames[generic_flavor_index].flavor;
if ((options & kAllowFullName) && string.compare(flavor_name) == 0) {
*flavor = flavor_number;
return true;
}
if (options & kAllowShortName) {
std::string short_name = ThreadStateFlavorFullToShort(flavor_name);
if (string.compare(short_name) == 0) {
*flavor = flavor_number;
return true;
}
}
}
}
if (options & kAllowNumber) {
return StringToNumber(std::string(string.data(), string.length()),
reinterpret_cast<unsigned int*>(flavor));
}
return false;
}
} // namespace crashpad