//===-- Symbols.cpp ---------------------------------------------*- C++ -*-===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// #include "lldb/Host/Symbols.h" // C Includes #include <dirent.h> #include <pwd.h> #include "llvm/Support/MachO.h" // C++ Includes // Other libraries and framework includes #include <CoreFoundation/CoreFoundation.h> // Project includes #include "lldb/Core/ArchSpec.h" #include "lldb/Core/DataBuffer.h" #include "lldb/Core/DataExtractor.h" #include "lldb/Core/Module.h" #include "lldb/Core/ModuleSpec.h" #include "lldb/Core/StreamString.h" #include "lldb/Core/Timer.h" #include "lldb/Core/UUID.h" #include "lldb/Host/Endian.h" #include "lldb/Host/Host.h" #include "lldb/Utility/CleanUp.h" #include "Host/macosx/cfcpp/CFCBundle.h" #include "Host/macosx/cfcpp/CFCData.h" #include "Host/macosx/cfcpp/CFCReleaser.h" #include "Host/macosx/cfcpp/CFCString.h" #include "mach/machine.h" using namespace lldb; using namespace lldb_private; using namespace llvm::MachO; #if !defined (__arm__) // No DebugSymbols on the iOS devices extern "C" { CFURLRef DBGCopyFullDSYMURLForUUID (CFUUIDRef uuid, CFURLRef exec_url); CFDictionaryRef DBGCopyDSYMPropertyLists (CFURLRef dsym_url); } #endif static bool SkinnyMachOFileContainsArchAndUUID ( const FileSpec &file_spec, const ArchSpec *arch, const lldb_private::UUID *uuid, // the UUID we are looking for off_t file_offset, DataExtractor& data, lldb::offset_t data_offset, const uint32_t magic ) { assert(magic == HeaderMagic32 || magic == HeaderMagic32Swapped || magic == HeaderMagic64 || magic == HeaderMagic64Swapped); if (magic == HeaderMagic32 || magic == HeaderMagic64) data.SetByteOrder (lldb::endian::InlHostByteOrder()); else if (lldb::endian::InlHostByteOrder() == eByteOrderBig) data.SetByteOrder (eByteOrderLittle); else data.SetByteOrder (eByteOrderBig); uint32_t i; const uint32_t cputype = data.GetU32(&data_offset); // cpu specifier const uint32_t cpusubtype = data.GetU32(&data_offset); // machine specifier data_offset+=4; // Skip mach file type const uint32_t ncmds = data.GetU32(&data_offset); // number of load commands const uint32_t sizeofcmds = data.GetU32(&data_offset); // the size of all the load commands data_offset+=4; // Skip flags // Check the architecture if we have a valid arch pointer if (arch) { ArchSpec file_arch(eArchTypeMachO, cputype, cpusubtype); if (!file_arch.IsCompatibleMatch(*arch)) return false; } // The file exists, and if a valid arch pointer was passed in we know // if already matches, so we can return if we aren't looking for a specific // UUID if (uuid == NULL) return true; if (magic == HeaderMagic64Swapped || magic == HeaderMagic64) data_offset += 4; // Skip reserved field for in mach_header_64 // Make sure we have enough data for all the load commands if (magic == HeaderMagic64Swapped || magic == HeaderMagic64) { if (data.GetByteSize() < sizeof(struct mach_header_64) + sizeofcmds) { DataBufferSP data_buffer_sp (file_spec.ReadFileContents (file_offset, sizeof(struct mach_header_64) + sizeofcmds)); data.SetData (data_buffer_sp); } } else { if (data.GetByteSize() < sizeof(struct mach_header) + sizeofcmds) { DataBufferSP data_buffer_sp (file_spec.ReadFileContents (file_offset, sizeof(struct mach_header) + sizeofcmds)); data.SetData (data_buffer_sp); } } for (i=0; i<ncmds; i++) { const lldb::offset_t cmd_offset = data_offset; // Save this data_offset in case parsing of the segment goes awry! uint32_t cmd = data.GetU32(&data_offset); uint32_t cmd_size = data.GetU32(&data_offset); if (cmd == LoadCommandUUID) { lldb_private::UUID file_uuid (data.GetData(&data_offset, 16), 16); if (file_uuid == *uuid) return true; return false; } data_offset = cmd_offset + cmd_size; } return false; } bool UniversalMachOFileContainsArchAndUUID ( const FileSpec &file_spec, const ArchSpec *arch, const lldb_private::UUID *uuid, off_t file_offset, DataExtractor& data, lldb::offset_t data_offset, const uint32_t magic ) { assert(magic == UniversalMagic || magic == UniversalMagicSwapped); // Universal mach-o files always have their headers encoded as BIG endian data.SetByteOrder(eByteOrderBig); uint32_t i; const uint32_t nfat_arch = data.GetU32(&data_offset); // number of structs that follow const uint32_t fat_header_and_arch_size = sizeof(struct fat_header) + nfat_arch * sizeof(struct fat_arch); if (data.GetByteSize() < fat_header_and_arch_size) { DataBufferSP data_buffer_sp (file_spec.ReadFileContents (file_offset, fat_header_and_arch_size)); data.SetData (data_buffer_sp); } for (i=0; i<nfat_arch; i++) { cpu_type_t arch_cputype = data.GetU32(&data_offset); // cpu specifier (int) cpu_subtype_t arch_cpusubtype = data.GetU32(&data_offset); // machine specifier (int) uint32_t arch_offset = data.GetU32(&data_offset); // file offset to this object file // uint32_t arch_size = data.GetU32(&data_offset); // size of this object file // uint32_t arch_align = data.GetU32(&data_offset); // alignment as a power of 2 data_offset += 8; // Skip size and align as we don't need those // Only process this slice if the cpu type/subtype matches if (arch) { ArchSpec fat_arch(eArchTypeMachO, arch_cputype, arch_cpusubtype); if (!fat_arch.IsExactMatch(*arch)) continue; } // Create a buffer with only the arch slice date in it DataExtractor arch_data; DataBufferSP data_buffer_sp (file_spec.ReadFileContents (file_offset + arch_offset, 0x1000)); arch_data.SetData(data_buffer_sp); lldb::offset_t arch_data_offset = 0; uint32_t arch_magic = arch_data.GetU32(&arch_data_offset); switch (arch_magic) { case HeaderMagic32: case HeaderMagic32Swapped: case HeaderMagic64: case HeaderMagic64Swapped: if (SkinnyMachOFileContainsArchAndUUID (file_spec, arch, uuid, file_offset + arch_offset, arch_data, arch_data_offset, arch_magic)) return true; break; } } return false; } static bool FileAtPathContainsArchAndUUID ( const FileSpec &file_spec, const ArchSpec *arch, const lldb_private::UUID *uuid ) { DataExtractor data; off_t file_offset = 0; DataBufferSP data_buffer_sp (file_spec.ReadFileContents (file_offset, 0x1000)); if (data_buffer_sp && data_buffer_sp->GetByteSize() > 0) { data.SetData(data_buffer_sp); lldb::offset_t data_offset = 0; uint32_t magic = data.GetU32(&data_offset); switch (magic) { // 32 bit mach-o file case HeaderMagic32: case HeaderMagic32Swapped: case HeaderMagic64: case HeaderMagic64Swapped: return SkinnyMachOFileContainsArchAndUUID (file_spec, arch, uuid, file_offset, data, data_offset, magic); // fat mach-o file case UniversalMagic: case UniversalMagicSwapped: return UniversalMachOFileContainsArchAndUUID (file_spec, arch, uuid, file_offset, data, data_offset, magic); default: break; } } return false; } FileSpec Symbols::FindSymbolFileInBundle (const FileSpec& dsym_bundle_fspec, const lldb_private::UUID *uuid, const ArchSpec *arch) { char path[PATH_MAX]; FileSpec dsym_fspec; if (dsym_bundle_fspec.GetPath(path, sizeof(path))) { ::strncat (path, "/Contents/Resources/DWARF", sizeof(path) - strlen(path) - 1); lldb_utility::CleanUp <DIR *, int> dirp (opendir(path), NULL, closedir); if (dirp.is_valid()) { dsym_fspec.GetDirectory().SetCString(path); struct dirent* dp; while ((dp = readdir(dirp.get())) != NULL) { // Only search directories if (dp->d_type == DT_DIR || dp->d_type == DT_UNKNOWN) { if (dp->d_namlen == 1 && dp->d_name[0] == '.') continue; if (dp->d_namlen == 2 && dp->d_name[0] == '.' && dp->d_name[1] == '.') continue; } if (dp->d_type == DT_REG || dp->d_type == DT_UNKNOWN) { dsym_fspec.GetFilename().SetCString(dp->d_name); if (FileAtPathContainsArchAndUUID (dsym_fspec, arch, uuid)) return dsym_fspec; } } } } dsym_fspec.Clear(); return dsym_fspec; } static int LocateMacOSXFilesUsingDebugSymbols ( const ModuleSpec &module_spec, FileSpec *out_exec_fspec, // If non-NULL, try and find the executable FileSpec *out_dsym_fspec // If non-NULL try and find the debug symbol file ) { int items_found = 0; if (out_exec_fspec) out_exec_fspec->Clear(); if (out_dsym_fspec) out_dsym_fspec->Clear(); #if !defined (__arm__) // No DebugSymbols on the iOS devices const UUID *uuid = module_spec.GetUUIDPtr(); const ArchSpec *arch = module_spec.GetArchitecturePtr(); if (uuid && uuid->IsValid()) { // Try and locate the dSYM file using DebugSymbols first const UInt8 *module_uuid = (const UInt8 *)uuid->GetBytes(); if (module_uuid != NULL) { CFCReleaser<CFUUIDRef> module_uuid_ref(::CFUUIDCreateWithBytes (NULL, module_uuid[0], module_uuid[1], module_uuid[2], module_uuid[3], module_uuid[4], module_uuid[5], module_uuid[6], module_uuid[7], module_uuid[8], module_uuid[9], module_uuid[10], module_uuid[11], module_uuid[12], module_uuid[13], module_uuid[14], module_uuid[15])); if (module_uuid_ref.get()) { CFCReleaser<CFURLRef> exec_url; const FileSpec *exec_fspec = module_spec.GetFileSpecPtr(); if (exec_fspec) { char exec_cf_path[PATH_MAX]; if (exec_fspec->GetPath(exec_cf_path, sizeof(exec_cf_path))) exec_url.reset(::CFURLCreateFromFileSystemRepresentation (NULL, (const UInt8 *)exec_cf_path, strlen(exec_cf_path), FALSE)); } CFCReleaser<CFURLRef> dsym_url (::DBGCopyFullDSYMURLForUUID(module_uuid_ref.get(), exec_url.get())); char path[PATH_MAX]; if (dsym_url.get()) { if (out_dsym_fspec) { if (::CFURLGetFileSystemRepresentation (dsym_url.get(), true, (UInt8*)path, sizeof(path)-1)) { out_dsym_fspec->SetFile(path, path[0] == '~'); if (out_dsym_fspec->GetFileType () == FileSpec::eFileTypeDirectory) { *out_dsym_fspec = Symbols::FindSymbolFileInBundle (*out_dsym_fspec, uuid, arch); if (*out_dsym_fspec) ++items_found; } else { ++items_found; } } } CFCReleaser<CFDictionaryRef> dict(::DBGCopyDSYMPropertyLists (dsym_url.get())); CFDictionaryRef uuid_dict = NULL; if (dict.get()) { CFCString uuid_cfstr (uuid->GetAsString().c_str()); uuid_dict = static_cast<CFDictionaryRef>(::CFDictionaryGetValue (dict.get(), uuid_cfstr.get())); if (uuid_dict) { CFStringRef actual_src_cfpath = static_cast<CFStringRef>(::CFDictionaryGetValue (uuid_dict, CFSTR("DBGSourcePath"))); if (actual_src_cfpath) { CFStringRef build_src_cfpath = static_cast<CFStringRef>(::CFDictionaryGetValue (uuid_dict, CFSTR("DBGBuildSourcePath"))); if (build_src_cfpath) { char actual_src_path[PATH_MAX]; char build_src_path[PATH_MAX]; ::CFStringGetFileSystemRepresentation (actual_src_cfpath, actual_src_path, sizeof(actual_src_path)); ::CFStringGetFileSystemRepresentation (build_src_cfpath, build_src_path, sizeof(build_src_path)); if (actual_src_path[0] == '~') { FileSpec resolved_source_path(actual_src_path, true); resolved_source_path.GetPath(actual_src_path, sizeof(actual_src_path)); } module_spec.GetSourceMappingList().Append (ConstString(build_src_path), ConstString(actual_src_path), true); } } } } if (out_exec_fspec) { bool success = false; if (uuid_dict) { CFStringRef exec_cf_path = static_cast<CFStringRef>(::CFDictionaryGetValue (uuid_dict, CFSTR("DBGSymbolRichExecutable"))); if (exec_cf_path && ::CFStringGetFileSystemRepresentation (exec_cf_path, path, sizeof(path))) { ++items_found; out_exec_fspec->SetFile(path, path[0] == '~'); if (out_exec_fspec->Exists()) success = true; } } if (!success) { // No dictionary, check near the dSYM bundle for an executable that matches... if (::CFURLGetFileSystemRepresentation (dsym_url.get(), true, (UInt8*)path, sizeof(path)-1)) { char *dsym_extension_pos = ::strstr (path, ".dSYM"); if (dsym_extension_pos) { *dsym_extension_pos = '\0'; FileSpec file_spec (path, true); switch (file_spec.GetFileType()) { case FileSpec::eFileTypeDirectory: // Bundle directory? { CFCBundle bundle (path); CFCReleaser<CFURLRef> bundle_exe_url (bundle.CopyExecutableURL ()); if (bundle_exe_url.get()) { if (::CFURLGetFileSystemRepresentation (bundle_exe_url.get(), true, (UInt8*)path, sizeof(path)-1)) { FileSpec bundle_exe_file_spec (path, true); if (FileAtPathContainsArchAndUUID (bundle_exe_file_spec, arch, uuid)) { ++items_found; *out_exec_fspec = bundle_exe_file_spec; } } } } break; case FileSpec::eFileTypePipe: // Forget pipes case FileSpec::eFileTypeSocket: // We can't process socket files case FileSpec::eFileTypeInvalid: // File doesn't exist... break; case FileSpec::eFileTypeUnknown: case FileSpec::eFileTypeRegular: case FileSpec::eFileTypeSymbolicLink: case FileSpec::eFileTypeOther: if (FileAtPathContainsArchAndUUID (file_spec, arch, uuid)) { ++items_found; *out_exec_fspec = file_spec; } break; } } } } } } } } } #endif // #if !defined (__arm__) return items_found; } static bool LocateDSYMInVincinityOfExecutable (const ModuleSpec &module_spec, FileSpec &dsym_fspec) { const FileSpec *exec_fspec = module_spec.GetFileSpecPtr(); if (exec_fspec) { char path[PATH_MAX]; if (exec_fspec->GetPath(path, sizeof(path))) { // Make sure the module isn't already just a dSYM file... if (strcasestr(path, ".dSYM/Contents/Resources/DWARF") == NULL) { size_t obj_file_path_length = strlen(path); strlcat(path, ".dSYM/Contents/Resources/DWARF/", sizeof(path)); strlcat(path, exec_fspec->GetFilename().AsCString(), sizeof(path)); dsym_fspec.SetFile(path, false); if (dsym_fspec.Exists() && FileAtPathContainsArchAndUUID (dsym_fspec, module_spec.GetArchitecturePtr(), module_spec.GetUUIDPtr())) { return true; } else { path[obj_file_path_length] = '\0'; char *last_dot = strrchr(path, '.'); while (last_dot != NULL && last_dot[0]) { char *next_slash = strchr(last_dot, '/'); if (next_slash != NULL) { *next_slash = '\0'; strlcat(path, ".dSYM/Contents/Resources/DWARF/", sizeof(path)); strlcat(path, exec_fspec->GetFilename().AsCString(), sizeof(path)); dsym_fspec.SetFile(path, false); if (dsym_fspec.Exists() && FileAtPathContainsArchAndUUID (dsym_fspec, module_spec.GetArchitecturePtr(), module_spec.GetUUIDPtr())) return true; else { *last_dot = '\0'; char *prev_slash = strrchr(path, '/'); if (prev_slash != NULL) *prev_slash = '\0'; else break; } } else { break; } } } } } } dsym_fspec.Clear(); return false; } FileSpec Symbols::LocateExecutableObjectFile (const ModuleSpec &module_spec) { const FileSpec *exec_fspec = module_spec.GetFileSpecPtr(); const ArchSpec *arch = module_spec.GetArchitecturePtr(); const UUID *uuid = module_spec.GetUUIDPtr(); Timer scoped_timer (__PRETTY_FUNCTION__, "LocateExecutableObjectFile (file = %s, arch = %s, uuid = %p)", exec_fspec ? exec_fspec->GetFilename().AsCString ("<NULL>") : "<NULL>", arch ? arch->GetArchitectureName() : "<NULL>", uuid); FileSpec objfile_fspec; if (exec_fspec && FileAtPathContainsArchAndUUID (exec_fspec, arch, uuid)) objfile_fspec = exec_fspec; else LocateMacOSXFilesUsingDebugSymbols (module_spec, &objfile_fspec, NULL); return objfile_fspec; } FileSpec Symbols::LocateExecutableSymbolFile (const ModuleSpec &module_spec) { const FileSpec *exec_fspec = module_spec.GetFileSpecPtr(); const ArchSpec *arch = module_spec.GetArchitecturePtr(); const UUID *uuid = module_spec.GetUUIDPtr(); Timer scoped_timer (__PRETTY_FUNCTION__, "LocateExecutableSymbolFile (file = %s, arch = %s, uuid = %p)", exec_fspec ? exec_fspec->GetFilename().AsCString ("<NULL>") : "<NULL>", arch ? arch->GetArchitectureName() : "<NULL>", uuid); FileSpec symbol_fspec; // First try and find the dSYM in the same directory as the executable or in // an appropriate parent directory if (LocateDSYMInVincinityOfExecutable (module_spec, symbol_fspec) == false) { // We failed to easily find the dSYM above, so use DebugSymbols LocateMacOSXFilesUsingDebugSymbols (module_spec, NULL, &symbol_fspec); } return symbol_fspec; } static bool GetModuleSpecInfoFromUUIDDictionary (CFDictionaryRef uuid_dict, ModuleSpec &module_spec) { bool success = false; if (uuid_dict != NULL && CFGetTypeID (uuid_dict) == CFDictionaryGetTypeID ()) { std::string str; CFStringRef cf_str; cf_str = (CFStringRef)CFDictionaryGetValue ((CFDictionaryRef) uuid_dict, CFSTR("DBGSymbolRichExecutable")); if (cf_str && CFGetTypeID (cf_str) == CFStringGetTypeID ()) { if (CFCString::FileSystemRepresentation(cf_str, str)) module_spec.GetFileSpec().SetFile (str.c_str(), true); } cf_str = (CFStringRef)CFDictionaryGetValue ((CFDictionaryRef) uuid_dict, CFSTR("DBGDSYMPath")); if (cf_str && CFGetTypeID (cf_str) == CFStringGetTypeID ()) { if (CFCString::FileSystemRepresentation(cf_str, str)) { module_spec.GetSymbolFileSpec().SetFile (str.c_str(), true); success = true; } } cf_str = (CFStringRef)CFDictionaryGetValue ((CFDictionaryRef) uuid_dict, CFSTR("DBGArchitecture")); if (cf_str && CFGetTypeID (cf_str) == CFStringGetTypeID ()) { if (CFCString::FileSystemRepresentation(cf_str, str)) module_spec.GetArchitecture().SetTriple(str.c_str()); } std::string DBGBuildSourcePath; std::string DBGSourcePath; cf_str = (CFStringRef)CFDictionaryGetValue ((CFDictionaryRef) uuid_dict, CFSTR("DBGBuildSourcePath")); if (cf_str && CFGetTypeID (cf_str) == CFStringGetTypeID ()) { CFCString::FileSystemRepresentation(cf_str, DBGBuildSourcePath); } cf_str = (CFStringRef)CFDictionaryGetValue ((CFDictionaryRef) uuid_dict, CFSTR("DBGSourcePath")); if (cf_str && CFGetTypeID (cf_str) == CFStringGetTypeID ()) { CFCString::FileSystemRepresentation(cf_str, DBGSourcePath); } if (!DBGBuildSourcePath.empty() && !DBGSourcePath.empty()) { module_spec.GetSourceMappingList().Append (ConstString(DBGBuildSourcePath.c_str()), ConstString(DBGSourcePath.c_str()), true); } } return success; } bool Symbols::DownloadObjectAndSymbolFile (ModuleSpec &module_spec, bool force_lookup) { bool success = false; const UUID *uuid_ptr = module_spec.GetUUIDPtr(); const FileSpec *file_spec_ptr = module_spec.GetFileSpecPtr(); // It's expensive to check for the DBGShellCommands defaults setting, only do it once per // lldb run and cache the result. static bool g_have_checked_for_dbgshell_command = false; static const char *g_dbgshell_command = NULL; if (g_have_checked_for_dbgshell_command == false) { g_have_checked_for_dbgshell_command = true; CFTypeRef defaults_setting = CFPreferencesCopyAppValue (CFSTR ("DBGShellCommands"), CFSTR ("com.apple.DebugSymbols")); if (defaults_setting && CFGetTypeID (defaults_setting) == CFStringGetTypeID()) { char cstr_buf[PATH_MAX]; if (CFStringGetCString ((CFStringRef) defaults_setting, cstr_buf, sizeof (cstr_buf), kCFStringEncodingUTF8)) { g_dbgshell_command = strdup (cstr_buf); // this malloc'ed memory will never be freed } } if (defaults_setting) { CFRelease (defaults_setting); } } // When g_dbgshell_command is NULL, the user has not enabled the use of an external program // to find the symbols, don't run it for them. if (force_lookup == false && g_dbgshell_command == NULL) { return false; } if (uuid_ptr || (file_spec_ptr && file_spec_ptr->Exists())) { static bool g_located_dsym_for_uuid_exe = false; static bool g_dsym_for_uuid_exe_exists = false; static char g_dsym_for_uuid_exe_path[PATH_MAX]; if (!g_located_dsym_for_uuid_exe) { g_located_dsym_for_uuid_exe = true; const char *dsym_for_uuid_exe_path_cstr = getenv("LLDB_APPLE_DSYMFORUUID_EXECUTABLE"); FileSpec dsym_for_uuid_exe_spec; if (dsym_for_uuid_exe_path_cstr) { dsym_for_uuid_exe_spec.SetFile(dsym_for_uuid_exe_path_cstr, true); g_dsym_for_uuid_exe_exists = dsym_for_uuid_exe_spec.Exists(); } if (!g_dsym_for_uuid_exe_exists) { dsym_for_uuid_exe_spec.SetFile("/usr/local/bin/dsymForUUID", false); g_dsym_for_uuid_exe_exists = dsym_for_uuid_exe_spec.Exists(); if (!g_dsym_for_uuid_exe_exists) { long bufsize; if ((bufsize = sysconf(_SC_GETPW_R_SIZE_MAX)) != -1) { char buffer[bufsize]; struct passwd pwd; struct passwd *tilde_rc = NULL; // we are a library so we need to use the reentrant version of getpwnam() if (getpwnam_r ("rc", &pwd, buffer, bufsize, &tilde_rc) == 0 && tilde_rc && tilde_rc->pw_dir) { std::string dsymforuuid_path(tilde_rc->pw_dir); dsymforuuid_path += "/bin/dsymForUUID"; dsym_for_uuid_exe_spec.SetFile(dsymforuuid_path.c_str(), false); g_dsym_for_uuid_exe_exists = dsym_for_uuid_exe_spec.Exists(); } } } } if (!g_dsym_for_uuid_exe_exists && g_dbgshell_command != NULL) { dsym_for_uuid_exe_spec.SetFile(g_dbgshell_command, true); g_dsym_for_uuid_exe_exists = dsym_for_uuid_exe_spec.Exists(); } if (g_dsym_for_uuid_exe_exists) dsym_for_uuid_exe_spec.GetPath (g_dsym_for_uuid_exe_path, sizeof(g_dsym_for_uuid_exe_path)); } if (g_dsym_for_uuid_exe_exists) { std::string uuid_str; char file_path[PATH_MAX]; file_path[0] = '\0'; if (uuid_ptr) uuid_str = uuid_ptr->GetAsString(); if (file_spec_ptr) file_spec_ptr->GetPath(file_path, sizeof(file_path)); StreamString command; if (!uuid_str.empty()) command.Printf("%s --ignoreNegativeCache --copyExecutable %s", g_dsym_for_uuid_exe_path, uuid_str.c_str()); else if (file_path && file_path[0]) command.Printf("%s --ignoreNegativeCache --copyExecutable %s", g_dsym_for_uuid_exe_path, file_path); if (!command.GetString().empty()) { int exit_status = -1; int signo = -1; std::string command_output; Error error = Host::RunShellCommand (command.GetData(), NULL, // current working directory &exit_status, // Exit status &signo, // Signal int * &command_output, // Command output 30, // Large timeout to allow for long dsym download times NULL); // Don't run in a shell (we don't need shell expansion) if (error.Success() && exit_status == 0 && !command_output.empty()) { CFCData data (CFDataCreateWithBytesNoCopy (NULL, (const UInt8 *)command_output.data(), command_output.size(), kCFAllocatorNull)); CFCReleaser<CFDictionaryRef> plist((CFDictionaryRef)::CFPropertyListCreateFromXMLData (NULL, data.get(), kCFPropertyListImmutable, NULL)); if (plist.get() && CFGetTypeID (plist.get()) == CFDictionaryGetTypeID ()) { if (!uuid_str.empty()) { CFCString uuid_cfstr(uuid_str.c_str()); CFDictionaryRef uuid_dict = (CFDictionaryRef)CFDictionaryGetValue (plist.get(), uuid_cfstr.get()); success = GetModuleSpecInfoFromUUIDDictionary (uuid_dict, module_spec); } else { const CFIndex num_values = ::CFDictionaryGetCount(plist.get()); if (num_values > 0) { std::vector<CFStringRef> keys (num_values, NULL); std::vector<CFDictionaryRef> values (num_values, NULL); ::CFDictionaryGetKeysAndValues(plist.get(), NULL, (const void **)&values[0]); if (num_values == 1) { return GetModuleSpecInfoFromUUIDDictionary (values[0], module_spec); } else { for (CFIndex i=0; i<num_values; ++i) { ModuleSpec curr_module_spec; if (GetModuleSpecInfoFromUUIDDictionary (values[i], curr_module_spec)) { if (module_spec.GetArchitecture().IsCompatibleMatch(curr_module_spec.GetArchitecture())) { module_spec = curr_module_spec; return true; } } } } } } } } } } } return success; }