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--- dyld/dyld-655.1.1/dyld3/MachOFile.cpp
+++ dyld/dyld-832.7.3/dyld3/MachOFile.cpp
@@ -25,34 +25,63 @@
#include <assert.h>
#include <string.h>
#include <stdio.h>
+#include <sys/stat.h>
+#include <sys/types.h>
+#include <sys/errno.h>
+#include <sys/fcntl.h>
+#include <unistd.h>
#include <TargetConditionals.h>
#include <mach/host_info.h>
#include <mach/mach.h>
#include <mach/mach_host.h>
+#include "Array.h"
#include "MachOFile.h"
#include "SupportedArchs.h"
-#ifndef EXPORT_SYMBOL_FLAGS_KIND_ABSOLUTE
- #define EXPORT_SYMBOL_FLAGS_KIND_ABSOLUTE 0x02
-#endif
-
-#ifndef CPU_SUBTYPE_ARM64_E
- #define CPU_SUBTYPE_ARM64_E 2
-#endif
-
-#ifndef CPU_SUBTYPE_ARM64_32_V8
- #define CPU_SUBTYPE_ARM64_32_V8 1
-#endif
-
-#ifndef CPU_TYPE_ARM64_32
- #ifndef CPU_ARCH_ABI64_32
- #define CPU_ARCH_ABI64_32 0x02000000
- #endif
- #define CPU_TYPE_ARM64_32 (CPU_TYPE_ARM | CPU_ARCH_ABI64_32)
+#if BUILDING_DYLD || BUILDING_LIBDYLD
+ // define away restrict until rdar://60166935 is fixed
+ #define restrict
+ #include <subsystem.h>
#endif
namespace dyld3 {
+
+//////////////////////////// posix wrappers ////////////////////////////////////////
+
+// <rdar://problem/10111032> wrap calls to stat() with check for EAGAIN
+int stat(const char* path, struct stat* buf)
+{
+ int result;
+ do {
+#if BUILDING_DYLD || BUILDING_LIBDYLD
+ result = ::stat_with_subsystem(path, buf);
+#else
+ result = ::stat(path, buf);
+#endif
+ } while ((result == -1) && ((errno == EAGAIN) || (errno == EINTR)));
+
+ return result;
+}
+
+// <rdar://problem/13805025> dyld should retry open() if it gets an EGAIN
+int open(const char* path, int flag, int other)
+{
+ int result;
+ do {
+#if BUILDING_DYLD || BUILDING_LIBDYLD
+ if (flag & O_CREAT)
+ result = ::open(path, flag, other);
+ else
+ result = ::open_with_subsystem(path, flag);
+#else
+ result = ::open(path, flag, other);
+#endif
+ } while ((result == -1) && ((errno == EAGAIN) || (errno == EINTR)));
+
+ return result;
+}
+
//////////////////////////// FatFile ////////////////////////////////////////
@@ -65,27 +94,63 @@
return nullptr;
}
+bool FatFile::isValidSlice(Diagnostics& diag, uint64_t fileLen, uint32_t sliceIndex,
+ uint32_t sliceCpuType, uint32_t sliceCpuSubType, uint64_t sliceOffset, uint64_t sliceLen) const {
+ if ( greaterThanAddOrOverflow(sliceOffset, sliceLen, fileLen) ) {
+ diag.error("slice %d extends beyond end of file", sliceIndex);
+ return false;
+ }
+ const dyld3::MachOFile* mf = (const dyld3::MachOFile*)((uint8_t*)this+sliceOffset);
+ if (!mf->isMachO(diag, sliceLen))
+ return false;
+ if ( (mf->cputype != (cpu_type_t)sliceCpuType) || (mf->cpusubtype != (cpu_subtype_t)sliceCpuSubType) ) {
+ diag.error("cpu type/subtype mismatch");
+ return false;
+ }
+ uint32_t pageSizeMask = mf->uses16KPages() ? 0x3FFF : 0xFFF;
+ if ( (sliceOffset & pageSizeMask) != 0 ) {
+ // slice not page aligned
+ if ( strncmp((char*)this+sliceOffset, "!<arch>", 7) == 0 )
+ diag.error("file is static library");
+ else
+ diag.error("slice is not page aligned");
+ return false;
+ }
+ return true;
+}
+
void FatFile::forEachSlice(Diagnostics& diag, uint64_t fileLen, void (^callback)(uint32_t sliceCpuType, uint32_t sliceCpuSubType, const void* sliceStart, uint64_t sliceSize, bool& stop)) const
{
if ( this->magic == OSSwapBigToHostInt32(FAT_MAGIC) ) {
- if ( OSSwapBigToHostInt32(nfat_arch) > ((4096 - sizeof(fat_header)) / sizeof(fat_arch)) ) {
- diag.error("fat header too large: %u entries", OSSwapBigToHostInt32(nfat_arch));
+ const uint64_t maxArchs = ((4096 - sizeof(fat_header)) / sizeof(fat_arch));
+ const uint32_t numArchs = OSSwapBigToHostInt32(nfat_arch);
+ if ( numArchs > maxArchs ) {
+ diag.error("fat header too large: %u entries", numArchs);
return;
}
bool stop = false;
const fat_arch* const archs = (fat_arch*)(((char*)this)+sizeof(fat_header));
- for (uint32_t i=0; i < OSSwapBigToHostInt32(nfat_arch); ++i) {
+ for (uint32_t i=0; i < numArchs; ++i) {
uint32_t cpuType = OSSwapBigToHostInt32(archs[i].cputype);
uint32_t cpuSubType = OSSwapBigToHostInt32(archs[i].cpusubtype);
uint32_t offset = OSSwapBigToHostInt32(archs[i].offset);
uint32_t len = OSSwapBigToHostInt32(archs[i].size);
- if ( greaterThanAddOrOverflow(offset, len, fileLen) ) {
- diag.error("slice %d extends beyond end of file", i);
- return;
- }
- callback(cpuType, cpuSubType, (uint8_t*)this+offset, len, stop);
+ if (isValidSlice(diag, fileLen, i, cpuType, cpuSubType, offset, len))
+ callback(cpuType, cpuSubType, (uint8_t*)this+offset, len, stop);
if ( stop )
break;
+ }
+
+ // Look for one more slice
+ if ( numArchs != maxArchs ) {
+ uint32_t cpuType = OSSwapBigToHostInt32(archs[numArchs].cputype);
+ uint32_t cpuSubType = OSSwapBigToHostInt32(archs[numArchs].cpusubtype);
+ uint32_t offset = OSSwapBigToHostInt32(archs[numArchs].offset);
+ uint32_t len = OSSwapBigToHostInt32(archs[numArchs].size);
+ if ((cpuType == CPU_TYPE_ARM64) && ((cpuSubType == CPU_SUBTYPE_ARM64_ALL || cpuSubType == CPU_SUBTYPE_ARM64_V8))) {
+ if (isValidSlice(diag, fileLen, numArchs, cpuType, cpuSubType, offset, len))
+ callback(cpuType, cpuSubType, (uint8_t*)this+offset, len, stop);
+ }
}
}
else if ( this->magic == OSSwapBigToHostInt32(FAT_MAGIC_64) ) {
@@ -100,11 +165,8 @@
uint32_t cpuSubType = OSSwapBigToHostInt32(archs[i].cpusubtype);
uint64_t offset = OSSwapBigToHostInt64(archs[i].offset);
uint64_t len = OSSwapBigToHostInt64(archs[i].size);
- if ( greaterThanAddOrOverflow(offset, len, fileLen) ) {
- diag.error("slice %d extends beyond end of file", i);
- return;
- }
- callback(cpuType, cpuSubType, (uint8_t*)this+offset, len, stop);
+ if (isValidSlice(diag, fileLen, i, cpuType, cpuSubType, offset, len))
+ callback(cpuType, cpuSubType, (uint8_t*)this+offset, len, stop);
if ( stop )
break;
}
@@ -114,215 +176,83 @@
}
}
-bool FatFile::isFatFileWithSlice(Diagnostics& diag, uint64_t fileLen, const char* archName, uint64_t& sliceOffset, uint64_t& sliceLen, bool& missingSlice) const
+bool FatFile::isFatFileWithSlice(Diagnostics& diag, uint64_t fileLen, const GradedArchs& archs, bool isOSBinary,
+ uint64_t& sliceOffset, uint64_t& sliceLen, bool& missingSlice) const
{
missingSlice = false;
if ( (this->magic != OSSwapBigToHostInt32(FAT_MAGIC)) && (this->magic != OSSwapBigToHostInt32(FAT_MAGIC_64)) )
return false;
- __block bool found = false;
+ __block int bestGrade = 0;
forEachSlice(diag, fileLen, ^(uint32_t sliceCpuType, uint32_t sliceCpuSubType, const void* sliceStart, uint64_t sliceSize, bool& stop) {
- const char* sliceArchName = MachOFile::archName(sliceCpuType, sliceCpuSubType);
- if ( strcmp(sliceArchName, archName) == 0 ) {
- sliceOffset = (char*)sliceStart - (char*)this;
- sliceLen = sliceSize;
- found = true;
- stop = true;
+ if (int sliceGrade = archs.grade(sliceCpuType, sliceCpuSubType, isOSBinary)) {
+ if ( sliceGrade > bestGrade ) {
+ sliceOffset = (char*)sliceStart - (char*)this;
+ sliceLen = sliceSize;
+ bestGrade = sliceGrade;
+ }
}
});
if ( diag.hasError() )
return false;
- if ( !found )
+ if ( bestGrade == 0 )
missingSlice = true;
- // when looking for x86_64h fallback to x86_64
- if ( !found && (strcmp(archName, "x86_64h") == 0) )
- return isFatFileWithSlice(diag, fileLen, "x86_64", sliceOffset, sliceLen, missingSlice);
-
- return found;
-}
-
-
-//////////////////////////// MachOFile ////////////////////////////////////////
-
-
-const MachOFile::ArchInfo MachOFile::_s_archInfos[] = {
- { "x86_64", CPU_TYPE_X86_64, CPU_SUBTYPE_X86_64_ALL },
- { "x86_64h", CPU_TYPE_X86_64, CPU_SUBTYPE_X86_64_H },
- { "i386", CPU_TYPE_I386, CPU_SUBTYPE_I386_ALL },
- { "arm64", CPU_TYPE_ARM64, CPU_SUBTYPE_ARM64_ALL },
+ return (bestGrade != 0);
+}
+
+
+//////////////////////////// GradedArchs ////////////////////////////////////////
+
+
+#define GRADE_i386 CPU_TYPE_I386, CPU_SUBTYPE_I386_ALL, false
+#define GRADE_x86_64 CPU_TYPE_X86_64, CPU_SUBTYPE_X86_64_ALL, false
+#define GRADE_x86_64h CPU_TYPE_X86_64, CPU_SUBTYPE_X86_64_H, false
+#define GRADE_armv7 CPU_TYPE_ARM, CPU_SUBTYPE_ARM64_ALL, false
+#define GRADE_armv7s CPU_TYPE_ARM, CPU_SUBTYPE_ARM_V7, false
+#define GRADE_armv7k CPU_TYPE_ARM, CPU_SUBTYPE_ARM_V7K, false
+#define GRADE_arm64 CPU_TYPE_ARM64, CPU_SUBTYPE_ARM64_ALL, false
+#define GRADE_arm64e CPU_TYPE_ARM64, CPU_SUBTYPE_ARM64E, false
+#define GRADE_arm64e_pb CPU_TYPE_ARM64, CPU_SUBTYPE_ARM64E, true
+#define GRADE_arm64_32 CPU_TYPE_ARM64_32, CPU_SUBTYPE_ARM64_32_V8, false
+
+const GradedArchs GradedArchs::i386 = { {{GRADE_i386, 1}} };
+const GradedArchs GradedArchs::x86_64 = { {{GRADE_x86_64, 1}} };
+const GradedArchs GradedArchs::x86_64h = { {{GRADE_x86_64h, 2}, {GRADE_x86_64, 1}} };
+const GradedArchs GradedArchs::arm64 = { {{GRADE_arm64, 1}} };
#if SUPPORT_ARCH_arm64e
- { "arm64e", CPU_TYPE_ARM64, CPU_SUBTYPE_ARM64_E },
-#endif
+const GradedArchs GradedArchs::arm64e_keysoff = { {{GRADE_arm64e, 2}, {GRADE_arm64, 1}} };
+const GradedArchs GradedArchs::arm64e_keysoff_pb = { {{GRADE_arm64e_pb, 2}, {GRADE_arm64, 1}} };
+const GradedArchs GradedArchs::arm64e = { {{GRADE_arm64e, 1}} };
+const GradedArchs GradedArchs::arm64e_pb = { {{GRADE_arm64e_pb, 1}} };
+#endif
+const GradedArchs GradedArchs::armv7 = { {{GRADE_armv7, 1}} };
+const GradedArchs GradedArchs::armv7s = { {{GRADE_armv7s, 2}, {GRADE_armv7, 1}} };
+const GradedArchs GradedArchs::armv7k = { {{GRADE_armv7k, 1}} };
#if SUPPORT_ARCH_arm64_32
- { "arm64_32", CPU_TYPE_ARM64_32, CPU_SUBTYPE_ARM64_32_V8 },
-#endif
- { "armv7k", CPU_TYPE_ARM, CPU_SUBTYPE_ARM_V7K },
- { "armv7s", CPU_TYPE_ARM, CPU_SUBTYPE_ARM_V7S },
- { "armv7", CPU_TYPE_ARM, CPU_SUBTYPE_ARM_V7 }
-};
-
-const MachOFile::PlatformInfo MachOFile::_s_platformInfos[] = {
- { "macOS", Platform::macOS, LC_VERSION_MIN_MACOSX },
- { "iOS", Platform::iOS, LC_VERSION_MIN_IPHONEOS },
- { "tvOS", Platform::tvOS, LC_VERSION_MIN_TVOS },
- { "watchOS", Platform::watchOS, LC_VERSION_MIN_WATCHOS },
- { "bridgeOS", Platform::bridgeOS, LC_BUILD_VERSION },
- { "iOSMac", Platform::iOSMac, LC_BUILD_VERSION },
- { "iOS-sim", Platform::iOS_simulator, LC_BUILD_VERSION },
- { "tvOS-sim", Platform::tvOS_simulator, LC_BUILD_VERSION },
- { "watchOS-sim", Platform::watchOS_simulator, LC_BUILD_VERSION },
-};
-
-
-bool MachOFile::is64() const
-{
- return (this->magic == MH_MAGIC_64);
-}
-
-uint32_t MachOFile::pointerSize() const
-{
- if (this->magic == MH_MAGIC_64)
- return 8;
- else
- return 4;
-}
-
-bool MachOFile::uses16KPages() const
-{
- switch (this->cputype) {
- case CPU_TYPE_ARM64:
- case CPU_TYPE_ARM:
- case CPU_TYPE_ARM64_32:
- return true;
- default:
- return false;
- }
-}
-
-bool MachOFile::isArch(const char* aName) const
-{
- return (strcmp(aName, archName(this->cputype, this->cpusubtype)) == 0);
-}
-
-const char* MachOFile::archName(uint32_t cputype, uint32_t cpusubtype)
-{
- for (const ArchInfo& info : _s_archInfos) {
- if ( (cputype == info.cputype) && ((cpusubtype & ~CPU_SUBTYPE_MASK) == info.cpusubtype) ) {
- return info.name;
- }
- }
- return "unknown";
-}
-
-uint32_t MachOFile::cpuTypeFromArchName(const char* archName)
-{
- for (const ArchInfo& info : _s_archInfos) {
- if ( strcmp(archName, info.name) == 0 ) {
- return info.cputype;
+const GradedArchs GradedArchs::arm64_32 = { {{GRADE_arm64_32, 1}} };
+#endif
+
+int GradedArchs::grade(uint32_t cputype, uint32_t cpusubtype, bool isOSBinary) const
+{
+ for (const CpuGrade* p = _orderedCpuTypes; p->type != 0; ++p) {
+ if ( (p->type == cputype) && (p->subtype == (cpusubtype & ~CPU_SUBTYPE_MASK)) ) {
+ if ( p->osBinary ) {
+ if ( isOSBinary )
+ return p->grade;
+ }
+ else {
+ return p->grade;
+ }
}
}
return 0;
}
-uint32_t MachOFile::cpuSubtypeFromArchName(const char* archName)
-{
- for (const ArchInfo& info : _s_archInfos) {
- if ( strcmp(archName, info.name) == 0 ) {
- return info.cpusubtype;
- }
- }
- return 0;
-}
-
-const char* MachOFile::archName() const
-{
- return archName(this->cputype, this->cpusubtype);
-}
-
-static void appendDigit(char*& s, unsigned& num, unsigned place, bool& startedPrinting)
-{
- if ( num >= place ) {
- unsigned dig = (num/place);
- *s++ = '0' + dig;
- num -= (dig*place);
- startedPrinting = true;
- }
- else if ( startedPrinting ) {
- *s++ = '0';
- }
-}
-
-static void appendNumber(char*& s, unsigned num)
-{
- assert(num < 99999);
- bool startedPrinting = false;
- appendDigit(s, num, 10000, startedPrinting);
- appendDigit(s, num, 1000, startedPrinting);
- appendDigit(s, num, 100, startedPrinting);
- appendDigit(s, num, 10, startedPrinting);
- appendDigit(s, num, 1, startedPrinting);
- if ( !startedPrinting )
- *s++ = '0';
-}
-
-void MachOFile::packedVersionToString(uint32_t packedVersion, char versionString[32])
-{
- // sprintf(versionString, "%d.%d.%d", (packedVersion >> 16), ((packedVersion >> 8) & 0xFF), (packedVersion & 0xFF));
- char* s = versionString;
- appendNumber(s, (packedVersion >> 16));
- *s++ = '.';
- appendNumber(s, (packedVersion >> 8) & 0xFF);
- *s++ = '.';
- appendNumber(s, (packedVersion & 0xFF));
- *s++ = '\0';
-}
-
-bool MachOFile::supportsPlatform(Platform reqPlatform) const
-{
- __block bool foundRequestedPlatform = false;
- __block bool foundOtherPlatform = false;
- forEachSupportedPlatform(^(Platform platform, uint32_t minOS, uint32_t sdk) {
- if ( platform == reqPlatform )
- foundRequestedPlatform = true;
- else
- foundOtherPlatform = true;
- });
- if ( foundRequestedPlatform )
- return true;
-
- // we did find some platform info, but not requested, so return false
- if ( foundOtherPlatform )
- return false;
-
- // binary has no explict load command to mark platform
- // could be an old macOS binary, look at arch
- if ( reqPlatform == Platform::macOS ) {
- if ( this->cputype == CPU_TYPE_X86_64 )
- return true;
- if ( this->cputype == CPU_TYPE_I386 )
- return true;
- }
-
- return false;
-}
-
-Platform MachOFile::currentPlatform()
-{
-#if TARGET_OS_BRIDGE
- return Platform::bridgeOS;
-#elif TARGET_OS_WATCH
- return Platform::watchOS;
-#elif TARGET_OS_TV
- return Platform::tvOS;
-#elif TARGET_OS_IOS
- return Platform::iOS;
-#elif TARGET_OS_MAC
- return Platform::macOS;
-#else
- #error unknown platform
-#endif
+const char* GradedArchs::name() const
+{
+ return MachOFile::archName(_orderedCpuTypes[0].type, _orderedCpuTypes[0].subtype);
}
#if __x86_64__
@@ -343,6 +273,335 @@
return sHaswell;
}
#endif
+
+const GradedArchs& GradedArchs::forCurrentOS(bool keysOff, bool osBinariesOnly)
+{
+#if __arm64e__
+ if ( osBinariesOnly )
+ return (keysOff ? arm64e_keysoff_pb : arm64e_pb);
+ else
+ return (keysOff ? arm64e_keysoff : arm64e);
+#elif __ARM64_ARCH_8_32__
+ return arm64_32;
+#elif __arm64__
+ return arm64;
+#elif __ARM_ARCH_7K__
+ return armv7k;
+#elif __ARM_ARCH_7S__
+ return armv7s;
+#elif __ARM_ARCH_7A__
+ return armv7;
+#elif __x86_64__
+ return isHaswell() ? x86_64h : x86_64;
+#elif __i386__
+ return i386;
+#else
+ #error unknown platform
+#endif
+}
+
+const GradedArchs& GradedArchs::forName(const char* archName, bool keysOff)
+{
+ if (strcmp(archName, "x86_64h") == 0 )
+ return x86_64h;
+ else if (strcmp(archName, "x86_64") == 0 )
+ return x86_64;
+#if SUPPORT_ARCH_arm64e
+ else if (strcmp(archName, "arm64e") == 0 )
+ return keysOff ? arm64e_keysoff : arm64e;
+#endif
+ else if (strcmp(archName, "arm64") == 0 )
+ return arm64;
+ else if (strcmp(archName, "armv7k") == 0 )
+ return armv7k;
+ else if (strcmp(archName, "armv7s") == 0 )
+ return armv7s;
+ else if (strcmp(archName, "armv7") == 0 )
+ return armv7;
+#if SUPPORT_ARCH_arm64_32
+ else if (strcmp(archName, "arm64_32") == 0 )
+ return arm64_32;
+#endif
+ else if (strcmp(archName, "i386") == 0 )
+ return i386;
+ assert(0 && "unknown arch name");
+}
+
+
+
+//////////////////////////// MachOFile ////////////////////////////////////////
+
+
+const MachOFile::ArchInfo MachOFile::_s_archInfos[] = {
+ { "x86_64", CPU_TYPE_X86_64, CPU_SUBTYPE_X86_64_ALL },
+ { "x86_64h", CPU_TYPE_X86_64, CPU_SUBTYPE_X86_64_H },
+ { "i386", CPU_TYPE_I386, CPU_SUBTYPE_I386_ALL },
+ { "arm64", CPU_TYPE_ARM64, CPU_SUBTYPE_ARM64_ALL },
+#if SUPPORT_ARCH_arm64e
+ { "arm64e", CPU_TYPE_ARM64, CPU_SUBTYPE_ARM64E },
+#endif
+#if SUPPORT_ARCH_arm64_32
+ { "arm64_32", CPU_TYPE_ARM64_32, CPU_SUBTYPE_ARM64_32_V8 },
+#endif
+ { "armv7k", CPU_TYPE_ARM, CPU_SUBTYPE_ARM_V7K },
+ { "armv7s", CPU_TYPE_ARM, CPU_SUBTYPE_ARM_V7S },
+ { "armv7", CPU_TYPE_ARM, CPU_SUBTYPE_ARM_V7 }
+};
+
+const MachOFile::PlatformInfo MachOFile::_s_platformInfos[] = {
+ { "macOS", Platform::macOS, LC_VERSION_MIN_MACOSX },
+ { "iOS", Platform::iOS, LC_VERSION_MIN_IPHONEOS },
+ { "tvOS", Platform::tvOS, LC_VERSION_MIN_TVOS },
+ { "watchOS", Platform::watchOS, LC_VERSION_MIN_WATCHOS },
+ { "bridgeOS", Platform::bridgeOS, LC_BUILD_VERSION },
+ { "MacCatalyst", Platform::iOSMac, LC_BUILD_VERSION },
+ { "iOS-sim", Platform::iOS_simulator, LC_BUILD_VERSION },
+ { "tvOS-sim", Platform::tvOS_simulator, LC_BUILD_VERSION },
+ { "watchOS-sim", Platform::watchOS_simulator, LC_BUILD_VERSION },
+};
+
+
+
+bool MachOFile::is64() const
+{
+ return (this->magic == MH_MAGIC_64);
+}
+
+size_t MachOFile::machHeaderSize() const
+{
+ return is64() ? sizeof(mach_header_64) : sizeof(mach_header);
+}
+
+uint32_t MachOFile::maskedCpuSubtype() const
+{
+ return (this->cpusubtype & ~CPU_SUBTYPE_MASK);
+}
+
+uint32_t MachOFile::pointerSize() const
+{
+ if (this->magic == MH_MAGIC_64)
+ return 8;
+ else
+ return 4;
+}
+
+bool MachOFile::uses16KPages() const
+{
+ switch (this->cputype) {
+ case CPU_TYPE_ARM64:
+ case CPU_TYPE_ARM64_32:
+ return true;
+ case CPU_TYPE_ARM:
+ // iOS is 16k aligned for armv7/armv7s and watchOS armv7k is 16k aligned
+ return this->cpusubtype == CPU_SUBTYPE_ARM_V7K;
+ default:
+ return false;
+ }
+}
+
+bool MachOFile::isArch(const char* aName) const
+{
+ return (strcmp(aName, archName(this->cputype, this->cpusubtype)) == 0);
+}
+
+const char* MachOFile::archName(uint32_t cputype, uint32_t cpusubtype)
+{
+ for (const ArchInfo& info : _s_archInfos) {
+ if ( (cputype == info.cputype) && ((cpusubtype & ~CPU_SUBTYPE_MASK) == info.cpusubtype) ) {
+ return info.name;
+ }
+ }
+ return "unknown";
+}
+
+uint32_t MachOFile::cpuTypeFromArchName(const char* archName)
+{
+ for (const ArchInfo& info : _s_archInfos) {
+ if ( strcmp(archName, info.name) == 0 ) {
+ return info.cputype;
+ }
+ }
+ return 0;
+}
+
+uint32_t MachOFile::cpuSubtypeFromArchName(const char* archName)
+{
+ for (const ArchInfo& info : _s_archInfos) {
+ if ( strcmp(archName, info.name) == 0 ) {
+ return info.cpusubtype;
+ }
+ }
+ return 0;
+}
+
+const char* MachOFile::archName() const
+{
+ return archName(this->cputype, this->cpusubtype);
+}
+
+static void appendDigit(char*& s, unsigned& num, unsigned place, bool& startedPrinting)
+{
+ if ( num >= place ) {
+ unsigned dig = (num/place);
+ *s++ = '0' + dig;
+ num -= (dig*place);
+ startedPrinting = true;
+ }
+ else if ( startedPrinting ) {
+ *s++ = '0';
+ }
+}
+
+static void appendNumber(char*& s, unsigned num)
+{
+ assert(num < 99999);
+ bool startedPrinting = false;
+ appendDigit(s, num, 10000, startedPrinting);
+ appendDigit(s, num, 1000, startedPrinting);
+ appendDigit(s, num, 100, startedPrinting);
+ appendDigit(s, num, 10, startedPrinting);
+ appendDigit(s, num, 1, startedPrinting);
+ if ( !startedPrinting )
+ *s++ = '0';
+}
+
+void MachOFile::packedVersionToString(uint32_t packedVersion, char versionString[32])
+{
+ // sprintf(versionString, "%d.%d.%d", (packedVersion >> 16), ((packedVersion >> 8) & 0xFF), (packedVersion & 0xFF));
+ char* s = versionString;
+ appendNumber(s, (packedVersion >> 16));
+ *s++ = '.';
+ appendNumber(s, (packedVersion >> 8) & 0xFF);
+ *s++ = '.';
+ appendNumber(s, (packedVersion & 0xFF));
+ *s++ = '\0';
+}
+
+bool MachOFile::builtForPlatform(Platform reqPlatform, bool onlyOnePlatform) const
+{
+ __block bool foundRequestedPlatform = false;
+ __block bool foundOtherPlatform = false;
+ forEachSupportedPlatform(^(Platform platform, uint32_t minOS, uint32_t sdk) {
+ if ( platform == reqPlatform )
+ foundRequestedPlatform = true;
+ else
+ foundOtherPlatform = true;
+ });
+ // if checking that this binary is built for exactly one platform, fail if more
+ if ( foundOtherPlatform && onlyOnePlatform )
+ return false;
+ if ( foundRequestedPlatform )
+ return true;
+
+ // binary has no explict load command to mark platform
+ // could be an old macOS binary, look at arch
+ if ( !foundOtherPlatform && (reqPlatform == Platform::macOS) ) {
+ if ( this->cputype == CPU_TYPE_X86_64 )
+ return true;
+ if ( this->cputype == CPU_TYPE_I386 )
+ return true;
+ }
+
+#if BUILDING_DYLDINFO
+ // Allow offline tools to analyze binaries dyld doesn't load, ie, those with platforms
+ if ( !foundOtherPlatform && (reqPlatform == Platform::unknown) )
+ return true;
+#endif
+
+ return false;
+}
+
+bool MachOFile::loadableIntoProcess(Platform processPlatform, const char* path) const
+{
+ if ( this->builtForPlatform(processPlatform) )
+ return true;
+
+ // Some host macOS dylibs can be loaded into simulator processes
+ if ( MachOFile::isSimulatorPlatform(processPlatform) && this->builtForPlatform(Platform::macOS)) {
+ static const char* macOSHost[] = {
+ "/usr/lib/system/libsystem_kernel.dylib",
+ "/usr/lib/system/libsystem_platform.dylib",
+ "/usr/lib/system/libsystem_pthread.dylib",
+ "/usr/lib/system/libsystem_platform_debug.dylib",
+ "/usr/lib/system/libsystem_pthread_debug.dylib",
+ "/usr/lib/system/host/liblaunch_sim.dylib",
+ };
+ for (const char* libPath : macOSHost) {
+ if (strcmp(libPath, path) == 0)
+ return true;
+ }
+ }
+
+ // If this is being called on main executable where we expect a macOS program, Catalyst programs are also runnable
+ if ( (this->filetype == MH_EXECUTE) && (processPlatform == Platform::macOS) && this->builtForPlatform(Platform::iOSMac, true) )
+ return true;
+#if (TARGET_OS_OSX && TARGET_CPU_ARM64)
+ if ( (this->filetype == MH_EXECUTE) && (processPlatform == Platform::macOS) && this->builtForPlatform(Platform::iOS, true) )
+ return true;
+#endif
+
+ bool iOSonMac = (processPlatform == Platform::iOSMac);
+#if (TARGET_OS_OSX && TARGET_CPU_ARM64)
+ // allow iOS binaries in iOSApp
+ if ( processPlatform == Platform::iOS ) {
+ // can load Catalyst binaries into iOS process
+ if ( this->builtForPlatform(Platform::iOSMac) )
+ return true;
+ iOSonMac = true;
+ }
+#endif
+ // macOS dylibs can be loaded into iOSMac processes
+ if ( (iOSonMac) && this->builtForPlatform(Platform::macOS, true) )
+ return true;
+
+ return false;
+}
+
+bool MachOFile::isZippered() const
+{
+ __block bool macOS = false;
+ __block bool iOSMac = false;
+ forEachSupportedPlatform(^(Platform platform, uint32_t minOS, uint32_t sdk) {
+ if ( platform == Platform::macOS )
+ macOS = true;
+ else if ( platform == Platform::iOSMac )
+ iOSMac = true;
+ });
+ return macOS && iOSMac;
+}
+
+bool MachOFile::inDyldCache() const {
+ return (this->flags & 0x80000000);
+}
+
+Platform MachOFile::currentPlatform()
+{
+
+#if TARGET_OS_SIMULATOR
+#if TARGET_OS_WATCH
+ return Platform::watchOS_simulator;
+#elif TARGET_OS_TV
+ return Platform::tvOS_simulator;
+#else
+ return Platform::iOS_simulator;
+#endif
+#elif TARGET_OS_BRIDGE
+ return Platform::bridgeOS;
+#elif TARGET_OS_WATCH
+ return Platform::watchOS;
+#elif TARGET_OS_TV
+ return Platform::tvOS;
+#elif TARGET_OS_IOS
+ return Platform::iOS;
+#elif TARGET_OS_OSX
+ return Platform::macOS;
+#elif TARGET_OS_DRIVERKIT
+ return Platform::driverKit;
+#else
+ #error unknown platform
+#endif
+}
+
const char* MachOFile::currentArchName()
{
@@ -369,6 +628,12 @@
#endif
}
+bool MachOFile::isSimulatorPlatform(Platform platform)
+{
+ return ( (platform == Platform::iOS_simulator) ||
+ (platform == Platform::watchOS_simulator) ||
+ (platform == Platform::tvOS_simulator) );
+}
bool MachOFile::isDylib() const
{
@@ -391,20 +656,36 @@
return false;
// static executables do not have dyld load command
- __block bool hasDyldLoad = false;
- Diagnostics diag;
- forEachLoadCommand(diag, ^(const load_command* cmd, bool& stop) {
- if ( cmd->cmd == LC_LOAD_DYLINKER ) {
- hasDyldLoad = true;
- stop = true;
- }
- });
- return hasDyldLoad;
+ return hasLoadCommand(LC_LOAD_DYLINKER);
+}
+
+bool MachOFile::isStaticExecutable() const
+{
+ if ( this->filetype != MH_EXECUTE )
+ return false;
+
+ // static executables do not have dyld load command
+ return !hasLoadCommand(LC_LOAD_DYLINKER);
+}
+
+bool MachOFile::isKextBundle() const
+{
+ return (this->filetype == MH_KEXT_BUNDLE);
+}
+
+bool MachOFile::isFileSet() const
+{
+ return (this->filetype == MH_FILESET);
}
bool MachOFile::isPIE() const
{
return (this->flags & MH_PIE);
+}
+
+bool MachOFile::isPreload() const
+{
+ return (this->filetype == MH_PRELOAD);
}
const char* MachOFile::platformName(Platform reqPlatform)
@@ -456,10 +737,12 @@
bool MachOFile::isMachO(Diagnostics& diag, uint64_t fileSize) const
{
if ( !hasMachOMagic() ) {
- diag.error("file does not start with MH_MAGIC[_64]");
- return false;
- }
- if ( this->sizeofcmds + sizeof(mach_header_64) > fileSize ) {
+ // old PPC slices are not currently valid "mach-o" but should not cause an error
+ if ( !hasMachOBigEndianMagic() )
+ diag.error("file does not start with MH_MAGIC[_64]");
+ return false;
+ }
+ if ( this->sizeofcmds + machHeaderSize() > fileSize ) {
diag.error("load commands exceed length of first segment");
return false;
}
@@ -471,6 +754,12 @@
{
return ( (this->magic == MH_MAGIC) || (this->magic == MH_MAGIC_64) );
}
+
+bool MachOFile::hasMachOBigEndianMagic() const
+{
+ return ( (this->magic == MH_CIGAM) || (this->magic == MH_CIGAM_64) );
+}
+
void MachOFile::forEachLoadCommand(Diagnostics& diag, void (^callback)(const load_command* cmd, bool& stop)) const
{
@@ -480,6 +769,8 @@
startCmds = (load_command*)((char *)this + sizeof(mach_header_64));
else if ( this->magic == MH_MAGIC )
startCmds = (load_command*)((char *)this + sizeof(mach_header));
+ else if ( hasMachOBigEndianMagic() )
+ return; // can't process big endian mach-o
else {
const uint32_t* h = (uint32_t*)this;
diag.error("file does not start with MH_MAGIC[_64]: 0x%08X 0x%08X", h[0], h [1]);
@@ -502,6 +793,52 @@
return;
cmd = nextCmd;
}
+}
+
+void MachOFile::removeLoadCommand(Diagnostics& diag, void (^callback)(const load_command* cmd, bool& remove, bool& stop))
+{
+ bool stop = false;
+ const load_command* startCmds = nullptr;
+ if ( this->magic == MH_MAGIC_64 )
+ startCmds = (load_command*)((char *)this + sizeof(mach_header_64));
+ else if ( this->magic == MH_MAGIC )
+ startCmds = (load_command*)((char *)this + sizeof(mach_header));
+ else if ( hasMachOBigEndianMagic() )
+ return; // can't process big endian mach-o
+ else {
+ const uint32_t* h = (uint32_t*)this;
+ diag.error("file does not start with MH_MAGIC[_64]: 0x%08X 0x%08X", h[0], h [1]);
+ return; // not a mach-o file
+ }
+ const load_command* const cmdsEnd = (load_command*)((char*)startCmds + this->sizeofcmds);
+ auto cmd = (load_command*)startCmds;
+ const uint32_t origNcmds = this->ncmds;
+ unsigned bytesRemaining = this->sizeofcmds;
+ for (uint32_t i = 0; i < origNcmds; ++i) {
+ bool remove = false;
+ auto nextCmd = (load_command*)((char *)cmd + cmd->cmdsize);
+ if ( cmd->cmdsize < 8 ) {
+ diag.error("malformed load command #%d of %d at %p with mh=%p, size (0x%X) too small", i, this->ncmds, cmd, this, cmd->cmdsize);
+ return;
+ }
+ if ( (nextCmd > cmdsEnd) || (nextCmd < startCmds) ) {
+ diag.error("malformed load command #%d of %d at %p with mh=%p, size (0x%X) is too large, load commands end at %p", i, this->ncmds, cmd, this, cmd->cmdsize, cmdsEnd);
+ return;
+ }
+ callback(cmd, remove, stop);
+ if ( remove ) {
+ this->sizeofcmds -= cmd->cmdsize;
+ ::memmove((void*)cmd, (void*)nextCmd, bytesRemaining);
+ this->ncmds--;
+ } else {
+ bytesRemaining -= cmd->cmdsize;
+ cmd = nextCmd;
+ }
+ if ( stop )
+ break;
+ }
+ if ( cmd )
+ ::bzero(cmd, bytesRemaining);
}
const char* MachOFile::installName() const
@@ -616,6 +953,7 @@
if ( minOS >= 0x00030000 ) // bridgeOS 3.0
result = false;
break;
+ case Platform::driverKit:
case Platform::iOSMac:
result = false;
break;
@@ -624,6 +962,48 @@
}
});
return result;
+}
+
+const thread_command* MachOFile::unixThreadLoadCommand() const {
+ Diagnostics diag;
+ __block const thread_command* command = nullptr;
+ forEachLoadCommand(diag, ^(const load_command* cmd, bool& stop) {
+ if ( cmd->cmd == LC_UNIXTHREAD ) {
+ command = (const thread_command*)cmd;
+ stop = true;
+ }
+ });
+ return command;
+}
+
+
+uint32_t MachOFile::entryAddrRegisterIndexForThreadCmd() const
+{
+ switch ( this->cputype ) {
+ case CPU_TYPE_I386:
+ return 10; // i386_thread_state_t.eip
+ case CPU_TYPE_X86_64:
+ return 16; // x86_thread_state64_t.rip
+ case CPU_TYPE_ARM:
+ return 15; // arm_thread_state_t.pc
+ case CPU_TYPE_ARM64:
+ return 32; // arm_thread_state64_t.__pc
+ }
+ return ~0U;
+}
+
+
+uint64_t MachOFile::entryAddrFromThreadCmd(const thread_command* cmd) const
+{
+ assert(cmd->cmd == LC_UNIXTHREAD);
+ const uint32_t* regs32 = (uint32_t*)(((char*)cmd) + 16);
+ const uint64_t* regs64 = (uint64_t*)(((char*)cmd) + 16);
+
+ uint32_t index = entryAddrRegisterIndexForThreadCmd();
+ if (index == ~0U)
+ return 0;
+
+ return is64() ? regs64[index] : regs32[index];
}
@@ -651,8 +1031,11 @@
info.vmSize = segCmd->vmsize;
info.sizeOfSections = sizeOfSections;
info.segName = segCmd->segname;
+ info.loadCommandOffset = (uint32_t)((uint8_t*)segCmd - (uint8_t*)this);
info.protections = segCmd->initprot;
info.textRelocs = false;
+ info.readOnlyData = ((segCmd->flags & SG_READ_ONLY) != 0);
+ info.isProtected = (segCmd->flags & SG_PROTECTED_VERSION_1) ? 1 : 0;
info.p2align = p2align;
info.segIndex = segIndex;
callback(info, stop);
@@ -679,8 +1062,11 @@
info.vmSize = segCmd->vmsize;
info.sizeOfSections = sizeOfSections;
info.segName = segCmd->segname;
+ info.loadCommandOffset = (uint32_t)((uint8_t*)segCmd - (uint8_t*)this);
info.protections = segCmd->initprot;
info.textRelocs = intel32 && !info.writable() && hasTextRelocs;
+ info.readOnlyData = ((segCmd->flags & SG_READ_ONLY) != 0);
+ info.isProtected = (segCmd->flags & SG_PROTECTED_VERSION_1) ? 1 : 0;
info.p2align = p2align;
info.segIndex = segIndex;
callback(info, stop);
@@ -693,6 +1079,7 @@
void MachOFile::forEachSection(void (^callback)(const SectionInfo& sectInfo, bool malformedSectionRange, bool& stop)) const
{
Diagnostics diag;
+ BLOCK_ACCCESSIBLE_ARRAY(char, sectNameCopy, 20); // read as: char sectNameCopy[20];
const bool intel32 = (this->cputype == CPU_TYPE_I386);
__block uint32_t segIndex = 0;
forEachLoadCommand(diag, ^(const load_command* cmd, bool& stop) {
@@ -714,13 +1101,15 @@
sectInfo.segInfo.vmSize = segCmd->vmsize;
sectInfo.segInfo.sizeOfSections = sizeOfSections;
sectInfo.segInfo.segName = segCmd->segname;
+ sectInfo.segInfo.loadCommandOffset = (uint32_t)((uint8_t*)segCmd - (uint8_t*)this);
sectInfo.segInfo.protections = segCmd->initprot;
sectInfo.segInfo.textRelocs = false;
+ sectInfo.segInfo.readOnlyData = ((segCmd->flags & SG_READ_ONLY) != 0);
+ sectInfo.segInfo.isProtected = (segCmd->flags & SG_PROTECTED_VERSION_1) ? 1 : 0;
sectInfo.segInfo.p2align = p2align;
sectInfo.segInfo.segIndex = segIndex;
for (const section_64* sect=sectionsStart; !stop && (sect < sectionsEnd); ++sect) {
const char* sectName = sect->sectname;
- char sectNameCopy[20];
if ( sectName[15] != '\0' ) {
strlcpy(sectNameCopy, sectName, 17);
sectName = sectNameCopy;
@@ -758,13 +1147,15 @@
sectInfo.segInfo.vmSize = segCmd->vmsize;
sectInfo.segInfo.sizeOfSections = sizeOfSections;
sectInfo.segInfo.segName = segCmd->segname;
+ sectInfo.segInfo.loadCommandOffset = (uint32_t)((uint8_t*)segCmd - (uint8_t*)this);
sectInfo.segInfo.protections = segCmd->initprot;
sectInfo.segInfo.textRelocs = intel32 && !sectInfo.segInfo.writable() && hasTextRelocs;
+ sectInfo.segInfo.readOnlyData = ((segCmd->flags & SG_READ_ONLY) != 0);
+ sectInfo.segInfo.isProtected = (segCmd->flags & SG_PROTECTED_VERSION_1) ? 1 : 0;
sectInfo.segInfo.p2align = p2align;
sectInfo.segInfo.segIndex = segIndex;
for (const section* sect=sectionsStart; !stop && (sect < sectionsEnd); ++sect) {
const char* sectName = sect->sectname;
- char sectNameCopy[20];
if ( sectName[15] != '\0' ) {
strlcpy(sectNameCopy, sectName, 17);
sectName = sectNameCopy;
@@ -805,8 +1196,108 @@
return (strcmp(&str[strLen-suffixLen], suffix) == 0);
}
+bool MachOFile::isSharedCacheEligiblePath(const char* dylibName) {
+ return ( (strncmp(dylibName, "/usr/lib/", 9) == 0)
+ || (strncmp(dylibName, "/System/Library/", 16) == 0)
+ || (strncmp(dylibName, "/System/iOSSupport/usr/lib/", 27) == 0)
+ || (strncmp(dylibName, "/System/iOSSupport/System/Library/", 34) == 0)
+ || (strncmp(dylibName, "/Library/Apple/usr/lib/", 23) == 0)
+ || (strncmp(dylibName, "/Library/Apple/System/Library/", 30) == 0) );
+}
+
+static bool startsWith(const char* buffer, const char* valueToFind) {
+ return strncmp(buffer, valueToFind, strlen(valueToFind)) == 0;
+}
+
+static bool platformExcludesSharedCache_macOS(const char* installName) {
+ // Note: This function basically matches dontCache() from update dyld shared cache
+
+ if ( startsWith(installName, "/usr/lib/system/introspection/") )
+ return true;
+ if ( startsWith(installName, "/System/Library/QuickTime/") )
+ return true;
+ if ( startsWith(installName, "/System/Library/Tcl/") )
+ return true;
+ if ( startsWith(installName, "/System/Library/Perl/") )
+ return true;
+ if ( startsWith(installName, "/System/Library/MonitorPanels/") )
+ return true;
+ if ( startsWith(installName, "/System/Library/Accessibility/") )
+ return true;
+ if ( startsWith(installName, "/usr/local/") )
+ return true;
+ if ( startsWith(installName, "/usr/lib/pam/") )
+ return true;
+ // We no longer support ROSP, so skip all paths which start with the special prefix
+ if ( startsWith(installName, "/System/Library/Templates/Data/") )
+ return true;
+
+ // anything inside a .app bundle is specific to app, so should not be in shared cache
+ if ( strstr(installName, ".app/") != NULL )
+ return true;
+
+ return false;
+}
+
+static bool platformExcludesSharedCache_iOS(const char* installName) {
+ if ( strcmp(installName, "/System/Library/Caches/com.apple.xpc/sdk.dylib") == 0 )
+ return true;
+ if ( strcmp(installName, "/System/Library/Caches/com.apple.xpcd/xpcd_cache.dylib") == 0 )
+ return true;
+ return false;
+}
+
+static bool platformExcludesSharedCache_tvOS(const char* installName) {
+ return platformExcludesSharedCache_iOS(installName);
+}
+
+static bool platformExcludesSharedCache_watchOS(const char* installName) {
+ return platformExcludesSharedCache_iOS(installName);
+}
+
+static bool platformExcludesSharedCache_bridgeOS(const char* installName) {
+ return platformExcludesSharedCache_iOS(installName);
+}
+
+// Returns true if the current platform requires that this install name be excluded from the shared cache
+// Note that this overrides any exclusion from anywhere else.
+static bool platformExcludesSharedCache(Platform platform, const char* installName) {
+ switch (platform) {
+ case dyld3::Platform::unknown:
+ return false;
+ case dyld3::Platform::macOS:
+ return platformExcludesSharedCache_macOS(installName);
+ case dyld3::Platform::iOS:
+ return platformExcludesSharedCache_iOS(installName);
+ case dyld3::Platform::tvOS:
+ return platformExcludesSharedCache_tvOS(installName);
+ case dyld3::Platform::watchOS:
+ return platformExcludesSharedCache_watchOS(installName);
+ case dyld3::Platform::bridgeOS:
+ return platformExcludesSharedCache_bridgeOS(installName);
+ case dyld3::Platform::iOSMac:
+ return platformExcludesSharedCache_macOS(installName);
+ case dyld3::Platform::iOS_simulator:
+ return false;
+ case dyld3::Platform::tvOS_simulator:
+ return false;
+ case dyld3::Platform::watchOS_simulator:
+ return false;
+ case dyld3::Platform::driverKit:
+ return false;
+ }
+}
+
+
+
bool MachOFile::canBePlacedInDyldCache(const char* path, void (^failureReason)(const char*)) const
{
+
+ if ( !isSharedCacheEligiblePath(path) ) {
+ // Dont spam the user with an error about paths when we know these are never eligible.
+ return false;
+ }
+
// only dylibs can go in cache
if ( this->filetype != MH_DYLIB ) {
failureReason("Not MH_DYLIB");
@@ -814,16 +1305,41 @@
}
// only dylibs built for /usr/lib or /System/Library can go in cache
- bool retval = true;
+
const char* dylibName = installName();
if ( dylibName[0] != '/' ) {
- retval = false;
failureReason("install name not an absolute path");
- }
- else if ( (strncmp(dylibName, "/usr/lib/", 9) != 0) && (strncmp(dylibName, "/System/Library/", 16) != 0) ) {
- retval = false;
- failureReason("Not in '/usr/lib/' or '/System/Library/'");
- }
+ // Don't continue as we don't want to spam the log with errors we don't need.
+ return false;
+ }
+ else if ( strcmp(dylibName, path) != 0 ) {
+ failureReason("install path does not match install name");
+ return false;
+ }
+ else if ( strstr(dylibName, "//") != 0 ) {
+ failureReason("install name should not include //");
+ return false;
+ }
+ else if ( strstr(dylibName, "./") != 0 ) {
+ failureReason("install name should not include ./");
+ return false;
+ }
+
+ __block bool platformExcludedFile = false;
+ forEachSupportedPlatform(^(Platform platform, uint32_t minOS, uint32_t sdk) {
+ if ( platformExcludedFile )
+ return;
+ if ( platformExcludesSharedCache(platform, dylibName) ) {
+ platformExcludedFile = true;
+ return;
+ }
+ });
+ if ( platformExcludedFile ) {
+ failureReason("install name is not shared cache eligible on platform");
+ return false;
+ }
+
+ bool retval = true;
// flat namespace files cannot go in cache
if ( (this->flags & MH_TWOLEVEL) == 0 ) {
@@ -840,26 +1356,36 @@
// dylib must have extra info for moving DATA and TEXT segments apart
__block bool hasExtraInfo = false;
__block bool hasDyldInfo = false;
+ __block bool hasExportTrie = false;
+ __block bool hasLazyLoad = false;
Diagnostics diag;
forEachLoadCommand(diag, ^(const load_command* cmd, bool& stop) {
if ( cmd->cmd == LC_SEGMENT_SPLIT_INFO )
hasExtraInfo = true;
if ( cmd->cmd == LC_DYLD_INFO_ONLY )
hasDyldInfo = true;
+ if ( cmd->cmd == LC_DYLD_EXPORTS_TRIE )
+ hasExportTrie = true;
+ if ( cmd->cmd == LC_LAZY_LOAD_DYLIB )
+ hasLazyLoad = true;
});
if ( !hasExtraInfo ) {
retval = false;
failureReason("Missing split seg info");
}
- if ( !hasDyldInfo ) {
+ if ( !hasDyldInfo && !hasExportTrie ) {
retval = false;
- failureReason("Old binary, missing dyld info");
+ failureReason("Old binary, missing dyld info or export trie");
+ }
+ if ( hasLazyLoad ) {
+ retval = false;
+ failureReason("Has lazy load");
}
// dylib can only depend on other dylibs in the shared cache
__block bool allDepPathsAreGood = true;
forEachDependentDylib(^(const char* loadPath, bool isWeak, bool isReExport, bool isUpward, uint32_t compatVersion, uint32_t curVersion, bool& stop) {
- if ( (strncmp(loadPath, "/usr/lib/", 9) != 0) && (strncmp(loadPath, "/System/Library/", 16) != 0) ) {
+ if ( !isSharedCacheEligiblePath(loadPath) ) {
allDepPathsAreGood = false;
stop = true;
}
@@ -867,6 +1393,103 @@
if ( !allDepPathsAreGood ) {
retval = false;
failureReason("Depends on dylibs ineligable for dyld cache");
+ }
+
+ // dylibs with interposing info cannot be in cache
+ if ( hasInterposingTuples() ) {
+ retval = false;
+ failureReason("Has interposing tuples");
+ }
+
+ // Temporarily kick out swift binaries out of dyld cache on watchOS simulators as they have missing split seg
+ if ( (this->cputype == CPU_TYPE_I386) && builtForPlatform(Platform::watchOS_simulator) ) {
+ if ( strncmp(dylibName, "/usr/lib/swift/", 15) == 0 ) {
+ retval = false;
+ failureReason("i386 swift binary");
+ }
+ }
+
+ return retval;
+}
+
+#if BUILDING_APP_CACHE_UTIL
+bool MachOFile::canBePlacedInKernelCollection(const char* path, void (^failureReason)(const char*)) const
+{
+ // only dylibs and the kernel itself can go in cache
+ if ( this->filetype == MH_EXECUTE ) {
+ // xnu
+ } else if ( this->isKextBundle() ) {
+ // kext's
+ } else {
+ failureReason("Not MH_KEXT_BUNDLE");
+ return false;
+ }
+
+ if ( this->filetype == MH_EXECUTE ) {
+ // xnu
+
+ // two-level namespace binaries cannot go in cache
+ if ( (this->flags & MH_TWOLEVEL) != 0 ) {
+ failureReason("Built with two level namespaces");
+ return false;
+ }
+
+ // xnu kernel cannot have a page zero
+ __block bool foundPageZero = false;
+ forEachSegment(^(const SegmentInfo &segmentInfo, bool &stop) {
+ if ( strcmp(segmentInfo.segName, "__PAGEZERO") == 0 ) {
+ foundPageZero = true;
+ stop = true;
+ }
+ });
+ if (foundPageZero) {
+ failureReason("Has __PAGEZERO");
+ return false;
+ }
+
+ // xnu must have an LC_UNIXTHREAD to point to the entry point
+ __block bool foundMainLC = false;
+ __block bool foundUnixThreadLC = false;
+ Diagnostics diag;
+ forEachLoadCommand(diag, ^(const load_command* cmd, bool& stop) {
+ if ( cmd->cmd == LC_MAIN ) {
+ foundMainLC = true;
+ stop = true;
+ }
+ else if ( cmd->cmd == LC_UNIXTHREAD ) {
+ foundUnixThreadLC = true;
+ }
+ });
+ if (foundMainLC) {
+ failureReason("Found LC_MAIN");
+ return false;
+ }
+ if (!foundUnixThreadLC) {
+ failureReason("Expected LC_UNIXTHREAD");
+ return false;
+ }
+
+ if (diag.hasError()) {
+ failureReason("Error parsing load commands");
+ return false;
+ }
+
+ // The kernel should be a static executable, not a dynamic one
+ if ( !isStaticExecutable() ) {
+ failureReason("Expected static executable");
+ return false;
+ }
+
+ // The kernel must be built with -pie
+ if ( !isPIE() ) {
+ failureReason("Expected pie");
+ return false;
+ }
+ }
+
+ if ( isArch("arm64e") && isKextBundle() && !hasChainedFixups() ) {
+ failureReason("Missing fixup information");
+ return false;
}
// dylibs with interposing info cannot be in cache
@@ -876,13 +1499,142 @@
hasInterposing = true;
});
if ( hasInterposing ) {
+ failureReason("Has interposing tuples");
+ return false;
+ }
+
+ return true;
+}
+#endif
+
+static bool platformExcludesPrebuiltClosure_macOS(const char* path) {
+ // We no longer support ROSP, so skip all paths which start with the special prefix
+ if ( startsWith(path, "/System/Library/Templates/Data/") )
+ return true;
+
+ // anything inside a .app bundle is specific to app, so should not get a prebuilt closure
+ if ( strstr(path, ".app/") != NULL )
+ return true;
+
+ return false;
+}
+
+static bool platformExcludesPrebuiltClosure_iOS(const char* path) {
+ if ( strcmp(path, "/System/Library/Caches/com.apple.xpc/sdk.dylib") == 0 )
+ return true;
+ if ( strcmp(path, "/System/Library/Caches/com.apple.xpcd/xpcd_cache.dylib") == 0 )
+ return true;
+ return false;
+}
+
+static bool platformExcludesPrebuiltClosure_tvOS(const char* path) {
+ return platformExcludesPrebuiltClosure_iOS(path);
+}
+
+static bool platformExcludesPrebuiltClosure_watchOS(const char* path) {
+ return platformExcludesPrebuiltClosure_iOS(path);
+}
+
+static bool platformExcludesPrebuiltClosure_bridgeOS(const char* path) {
+ return platformExcludesPrebuiltClosure_iOS(path);
+}
+
+// Returns true if the current platform requires that this install name be excluded from the shared cache
+// Note that this overrides any exclusion from anywhere else.
+static bool platformExcludesPrebuiltClosure(Platform platform, const char* path) {
+ switch (platform) {
+ case dyld3::Platform::unknown:
+ return false;
+ case dyld3::Platform::macOS:
+ return platformExcludesPrebuiltClosure_macOS(path);
+ case dyld3::Platform::iOS:
+ return platformExcludesPrebuiltClosure_iOS(path);
+ case dyld3::Platform::tvOS:
+ return platformExcludesPrebuiltClosure_tvOS(path);
+ case dyld3::Platform::watchOS:
+ return platformExcludesPrebuiltClosure_watchOS(path);
+ case dyld3::Platform::bridgeOS:
+ return platformExcludesPrebuiltClosure_bridgeOS(path);
+ case dyld3::Platform::iOSMac:
+ return platformExcludesPrebuiltClosure_macOS(path);
+ case dyld3::Platform::iOS_simulator:
+ return false;
+ case dyld3::Platform::tvOS_simulator:
+ return false;
+ case dyld3::Platform::watchOS_simulator:
+ return false;
+ case dyld3::Platform::driverKit:
+ return false;
+ }
+}
+
+bool MachOFile::canHavePrecomputedDlopenClosure(const char* path, void (^failureReason)(const char*)) const
+{
+ __block bool retval = true;
+
+ // only dylibs can go in cache
+ if ( (this->filetype != MH_DYLIB) && (this->filetype != MH_BUNDLE) ) {
retval = false;
- failureReason("Has interposing tuples");
+ failureReason("not MH_DYLIB or MH_BUNDLE");
+ }
+
+ // flat namespace files cannot go in cache
+ if ( (this->flags & MH_TWOLEVEL) == 0 ) {
+ retval = false;
+ failureReason("not built with two level namespaces");
+ }
+
+ // can only depend on other dylibs with absolute paths
+ __block bool allDepPathsAreGood = true;
+ forEachDependentDylib(^(const char* loadPath, bool isWeak, bool isReExport, bool isUpward, uint32_t compatVersion, uint32_t curVersion, bool& stop) {
+ if ( loadPath[0] != '/' ) {
+ allDepPathsAreGood = false;
+ stop = true;
+ }
+ });
+ if ( !allDepPathsAreGood ) {
+ retval = false;
+ failureReason("depends on dylibs that are not absolute paths");
+ }
+
+ __block bool platformExcludedFile = false;
+ forEachSupportedPlatform(^(Platform platform, uint32_t minOS, uint32_t sdk) {
+ if ( platformExcludedFile )
+ return;
+ if ( platformExcludesPrebuiltClosure(platform, path) ) {
+ platformExcludedFile = true;
+ return;
+ }
+ });
+ if ( platformExcludedFile ) {
+ failureReason("file cannot get a prebuilt closure on this platform");
+ return false;
+ }
+
+ // dylibs with interposing info cannot have dlopen closure pre-computed
+ if ( hasInterposingTuples() ) {
+ retval = false;
+ failureReason("has interposing tuples");
+ }
+
+ // special system dylib overrides cannot have closure pre-computed
+ if ( strncmp(path, "/usr/lib/system/introspection/", 30) == 0 ) {
+ retval = false;
+ failureReason("override of OS dylib");
}
return retval;
}
+bool MachOFile::hasInterposingTuples() const
+{
+ __block bool hasInterposing = false;
+ forEachSection(^(const SectionInfo& info, bool malformedSectionRange, bool &stop) {
+ if ( ((info.sectFlags & SECTION_TYPE) == S_INTERPOSING) || ((strcmp(info.sectName, "__interpose") == 0) && (strcmp(info.segInfo.segName, "__DATA") == 0)) )
+ hasInterposing = true;
+ });
+ return hasInterposing;
+}
bool MachOFile::isFairPlayEncrypted(uint32_t& textOffset, uint32_t& size) const
{
@@ -921,14 +1673,46 @@
}
+bool MachOFile::hasLoadCommand(uint32_t cmdNum) const
+{
+ __block bool hasLC = false;
+ Diagnostics diag;
+ forEachLoadCommand(diag, ^(const load_command* cmd, bool& stop) {
+ if ( cmd->cmd == cmdNum ) {
+ hasLC = true;
+ stop = true;
+ }
+ });
+ return hasLC;
+}
+
+bool MachOFile::allowsAlternatePlatform() const
+{
+ __block bool result = false;
+ forEachSection(^(const SectionInfo& info, bool malformedSectionRange, bool& stop) {
+ if ( (strcmp(info.sectName, "__allow_alt_plat") == 0) && (strncmp(info.segInfo.segName, "__DATA", 6) == 0) ) {
+ result = true;
+ stop = true;
+ }
+ });
+ return result;
+}
+
bool MachOFile::hasChainedFixups() const
{
#if SUPPORT_ARCH_arm64e
- // for now only arm64e uses chained fixups
- return ( strcmp(archName(), "arm64e") == 0 );
-#else
- return false;
-#endif
+ // arm64e always uses chained fixups
+ if ( (this->cputype == CPU_TYPE_ARM64) && (this->maskedCpuSubtype() == CPU_SUBTYPE_ARM64E) ) {
+ // Not all binaries have fixups at all so check for the load commands
+ return hasLoadCommand(LC_DYLD_INFO_ONLY) || hasLoadCommand(LC_DYLD_CHAINED_FIXUPS);
+ }
+#endif
+ return hasLoadCommand(LC_DYLD_CHAINED_FIXUPS);
+}
+
+bool MachOFile::hasChainedFixupsLoadCommand() const
+{
+ return hasLoadCommand(LC_DYLD_CHAINED_FIXUPS);
}
uint64_t MachOFile::read_uleb128(Diagnostics& diag, const uint8_t*& p, const uint8_t* end)
@@ -971,7 +1755,7 @@
bit += 7;
} while (byte & 0x80);
// sign extend negative numbers
- if ( (byte & 0x40) != 0 )
+ if ( ((byte & 0x40) != 0) && (bit < 64) )
result |= (~0ULL) << bit;
return result;
}