/* Distributed under the OSI-approved BSD 3-Clause License. See accompanying file Copyright.txt or https://cmake.org/licensing for details. */ #include "cmFileCommand.h" #include #include #include #include #include #include #include #include #include #include #include #include #include "cmsys/FStream.hxx" #include "cmsys/Glob.hxx" #include "cmsys/RegularExpression.hxx" #include "cm_kwiml.h" #include "cm_static_string_view.hxx" #include "cm_sys_stat.h" #include "cmAlgorithms.h" #include "cmArgumentParser.h" #include "cmCryptoHash.h" #include "cmExecutionStatus.h" #include "cmFileCopier.h" #include "cmFileInstaller.h" #include "cmFileLockPool.h" #include "cmFileTimes.h" #include "cmGeneratorExpression.h" #include "cmGlobalGenerator.h" #include "cmHexFileConverter.h" #include "cmListFileCache.h" #include "cmMakefile.h" #include "cmMessageType.h" #include "cmPolicies.h" #include "cmRange.h" #include "cmRuntimeDependencyArchive.h" #include "cmState.h" #include "cmStringAlgorithms.h" #include "cmSubcommandTable.h" #include "cmSystemTools.h" #include "cmTimestamp.h" #include "cmake.h" #if !defined(CMAKE_BOOTSTRAP) # include "cm_curl.h" # include "cmCurl.h" # include "cmFileLockResult.h" #endif #if defined(CMAKE_USE_ELF_PARSER) # include "cmELF.h" #endif #if defined(_WIN32) # include #endif namespace { #if defined(_WIN32) // libcurl doesn't support file:// urls for unicode filenames on Windows. // Convert string from UTF-8 to ACP if this is a file:// URL. std::string fix_file_url_windows(const std::string& url) { std::string ret = url; if (strncmp(url.c_str(), "file://", 7) == 0) { std::wstring wurl = cmsys::Encoding::ToWide(url); if (!wurl.empty()) { int mblen = WideCharToMultiByte(CP_ACP, 0, wurl.c_str(), -1, NULL, 0, NULL, NULL); if (mblen > 0) { std::vector chars(mblen); mblen = WideCharToMultiByte(CP_ACP, 0, wurl.c_str(), -1, &chars[0], mblen, NULL, NULL); if (mblen > 0) { ret = &chars[0]; } } } } return ret; } #endif bool HandleWriteImpl(std::vector const& args, bool append, cmExecutionStatus& status) { auto i = args.begin(); i++; // Get rid of subcommand std::string fileName = *i; if (!cmsys::SystemTools::FileIsFullPath(*i)) { fileName = cmStrCat(status.GetMakefile().GetCurrentSourceDirectory(), '/', *i); } i++; if (!status.GetMakefile().CanIWriteThisFile(fileName)) { std::string e = "attempted to write a file: " + fileName + " into a source directory."; status.SetError(e); cmSystemTools::SetFatalErrorOccured(); return false; } std::string dir = cmSystemTools::GetFilenamePath(fileName); cmSystemTools::MakeDirectory(dir); mode_t mode = 0; bool writable = false; // Set permissions to writable if (cmSystemTools::GetPermissions(fileName, mode)) { #if defined(_MSC_VER) || defined(__MINGW32__) writable = (mode & S_IWRITE) != 0; mode_t newMode = mode | S_IWRITE; #else writable = mode & S_IWUSR; mode_t newMode = mode | S_IWUSR | S_IWGRP; #endif if (!writable) { cmSystemTools::SetPermissions(fileName, newMode); } } // If GetPermissions fails, pretend like it is ok. File open will fail if // the file is not writable cmsys::ofstream file(fileName.c_str(), append ? std::ios::app : std::ios::out); if (!file) { std::string error = cmStrCat("failed to open for writing (", cmSystemTools::GetLastSystemError(), "):\n ", fileName); status.SetError(error); return false; } std::string message = cmJoin(cmMakeRange(i, args.end()), std::string()); file << message; if (!file) { std::string error = cmStrCat("write failed (", cmSystemTools::GetLastSystemError(), "):\n ", fileName); status.SetError(error); return false; } file.close(); if (mode && !writable) { cmSystemTools::SetPermissions(fileName, mode); } return true; } bool HandleWriteCommand(std::vector const& args, cmExecutionStatus& status) { return HandleWriteImpl(args, false, status); } bool HandleAppendCommand(std::vector const& args, cmExecutionStatus& status) { return HandleWriteImpl(args, true, status); } bool HandleReadCommand(std::vector const& args, cmExecutionStatus& status) { if (args.size() < 3) { status.SetError("READ must be called with at least two additional " "arguments"); return false; } std::string const& fileNameArg = args[1]; std::string const& variable = args[2]; struct Arguments { std::string Offset; std::string Limit; bool Hex = false; }; static auto const parser = cmArgumentParser{} .Bind("OFFSET"_s, &Arguments::Offset) .Bind("LIMIT"_s, &Arguments::Limit) .Bind("HEX"_s, &Arguments::Hex); Arguments const arguments = parser.Parse(cmMakeRange(args).advance(3)); std::string fileName = fileNameArg; if (!cmsys::SystemTools::FileIsFullPath(fileName)) { fileName = cmStrCat(status.GetMakefile().GetCurrentSourceDirectory(), '/', fileNameArg); } // Open the specified file. #if defined(_WIN32) || defined(__CYGWIN__) cmsys::ifstream file(fileName.c_str(), arguments.Hex ? (std::ios::binary | std::ios::in) : std::ios::in); #else cmsys::ifstream file(fileName.c_str()); #endif if (!file) { std::string error = cmStrCat("failed to open for reading (", cmSystemTools::GetLastSystemError(), "):\n ", fileName); status.SetError(error); return false; } // is there a limit? long sizeLimit = -1; if (!arguments.Limit.empty()) { sizeLimit = atoi(arguments.Limit.c_str()); } // is there an offset? long offset = 0; if (!arguments.Offset.empty()) { offset = atoi(arguments.Offset.c_str()); } file.seekg(offset, std::ios::beg); // explicit ios::beg for IBM VisualAge 6 std::string output; if (arguments.Hex) { // Convert part of the file into hex code char c; while ((sizeLimit != 0) && (file.get(c))) { char hex[4]; sprintf(hex, "%.2x", c & 0xff); output += hex; if (sizeLimit > 0) { sizeLimit--; } } } else { std::string line; bool has_newline = false; while ( sizeLimit != 0 && cmSystemTools::GetLineFromStream(file, line, &has_newline, sizeLimit)) { if (sizeLimit > 0) { sizeLimit = sizeLimit - static_cast(line.size()); if (has_newline) { sizeLimit--; } if (sizeLimit < 0) { sizeLimit = 0; } } output += line; if (has_newline) { output += "\n"; } } } status.GetMakefile().AddDefinition(variable, output); return true; } bool HandleHashCommand(std::vector const& args, cmExecutionStatus& status) { #if !defined(CMAKE_BOOTSTRAP) if (args.size() != 3) { status.SetError( cmStrCat(args[0], " requires a file name and output variable")); return false; } std::unique_ptr hash(cmCryptoHash::New(args[0])); if (hash) { std::string out = hash->HashFile(args[1]); if (!out.empty()) { status.GetMakefile().AddDefinition(args[2], out); return true; } status.SetError(cmStrCat(args[0], " failed to read file \"", args[1], "\": ", cmSystemTools::GetLastSystemError())); } return false; #else status.SetError(cmStrCat(args[0], " not available during bootstrap")); return false; #endif } bool HandleStringsCommand(std::vector const& args, cmExecutionStatus& status) { if (args.size() < 3) { status.SetError("STRINGS requires a file name and output variable"); return false; } // Get the file to read. std::string fileName = args[1]; if (!cmsys::SystemTools::FileIsFullPath(fileName)) { fileName = cmStrCat(status.GetMakefile().GetCurrentSourceDirectory(), '/', args[1]); } // Get the variable in which to store the results. std::string outVar = args[2]; // Parse the options. enum { arg_none, arg_limit_input, arg_limit_output, arg_limit_count, arg_length_minimum, arg_length_maximum, arg__maximum, arg_regex, arg_encoding }; unsigned int minlen = 0; unsigned int maxlen = 0; int limit_input = -1; int limit_output = -1; unsigned int limit_count = 0; cmsys::RegularExpression regex; bool have_regex = false; bool newline_consume = false; bool hex_conversion_enabled = true; enum { encoding_none = cmsys::FStream::BOM_None, encoding_utf8 = cmsys::FStream::BOM_UTF8, encoding_utf16le = cmsys::FStream::BOM_UTF16LE, encoding_utf16be = cmsys::FStream::BOM_UTF16BE, encoding_utf32le = cmsys::FStream::BOM_UTF32LE, encoding_utf32be = cmsys::FStream::BOM_UTF32BE }; int encoding = encoding_none; int arg_mode = arg_none; for (unsigned int i = 3; i < args.size(); ++i) { if (args[i] == "LIMIT_INPUT") { arg_mode = arg_limit_input; } else if (args[i] == "LIMIT_OUTPUT") { arg_mode = arg_limit_output; } else if (args[i] == "LIMIT_COUNT") { arg_mode = arg_limit_count; } else if (args[i] == "LENGTH_MINIMUM") { arg_mode = arg_length_minimum; } else if (args[i] == "LENGTH_MAXIMUM") { arg_mode = arg_length_maximum; } else if (args[i] == "REGEX") { arg_mode = arg_regex; } else if (args[i] == "NEWLINE_CONSUME") { newline_consume = true; arg_mode = arg_none; } else if (args[i] == "NO_HEX_CONVERSION") { hex_conversion_enabled = false; arg_mode = arg_none; } else if (args[i] == "ENCODING") { arg_mode = arg_encoding; } else if (arg_mode == arg_limit_input) { if (sscanf(args[i].c_str(), "%d", &limit_input) != 1 || limit_input < 0) { status.SetError(cmStrCat("STRINGS option LIMIT_INPUT value \"", args[i], "\" is not an unsigned integer.")); return false; } arg_mode = arg_none; } else if (arg_mode == arg_limit_output) { if (sscanf(args[i].c_str(), "%d", &limit_output) != 1 || limit_output < 0) { status.SetError(cmStrCat("STRINGS option LIMIT_OUTPUT value \"", args[i], "\" is not an unsigned integer.")); return false; } arg_mode = arg_none; } else if (arg_mode == arg_limit_count) { int count; if (sscanf(args[i].c_str(), "%d", &count) != 1 || count < 0) { status.SetError(cmStrCat("STRINGS option LIMIT_COUNT value \"", args[i], "\" is not an unsigned integer.")); return false; } limit_count = count; arg_mode = arg_none; } else if (arg_mode == arg_length_minimum) { int len; if (sscanf(args[i].c_str(), "%d", &len) != 1 || len < 0) { status.SetError(cmStrCat("STRINGS option LENGTH_MINIMUM value \"", args[i], "\" is not an unsigned integer.")); return false; } minlen = len; arg_mode = arg_none; } else if (arg_mode == arg_length_maximum) { int len; if (sscanf(args[i].c_str(), "%d", &len) != 1 || len < 0) { status.SetError(cmStrCat("STRINGS option LENGTH_MAXIMUM value \"", args[i], "\" is not an unsigned integer.")); return false; } maxlen = len; arg_mode = arg_none; } else if (arg_mode == arg_regex) { if (!regex.compile(args[i])) { status.SetError(cmStrCat("STRINGS option REGEX value \"", args[i], "\" could not be compiled.")); return false; } have_regex = true; arg_mode = arg_none; } else if (arg_mode == arg_encoding) { if (args[i] == "UTF-8") { encoding = encoding_utf8; } else if (args[i] == "UTF-16LE") { encoding = encoding_utf16le; } else if (args[i] == "UTF-16BE") { encoding = encoding_utf16be; } else if (args[i] == "UTF-32LE") { encoding = encoding_utf32le; } else if (args[i] == "UTF-32BE") { encoding = encoding_utf32be; } else { status.SetError(cmStrCat("STRINGS option ENCODING \"", args[i], "\" not recognized.")); return false; } arg_mode = arg_none; } else { status.SetError( cmStrCat("STRINGS given unknown argument \"", args[i], "\"")); return false; } } if (hex_conversion_enabled) { // TODO: should work without temp file, but just on a memory buffer std::string binaryFileName = cmStrCat(status.GetMakefile().GetCurrentBinaryDirectory(), "/CMakeFiles/FileCommandStringsBinaryFile"); if (cmHexFileConverter::TryConvert(fileName, binaryFileName)) { fileName = binaryFileName; } } // Open the specified file. #if defined(_WIN32) || defined(__CYGWIN__) cmsys::ifstream fin(fileName.c_str(), std::ios::in | std::ios::binary); #else cmsys::ifstream fin(fileName.c_str()); #endif if (!fin) { status.SetError( cmStrCat("STRINGS file \"", fileName, "\" cannot be read.")); return false; } // If BOM is found and encoding was not specified, use the BOM int bom_found = cmsys::FStream::ReadBOM(fin); if (encoding == encoding_none && bom_found != cmsys::FStream::BOM_None) { encoding = bom_found; } unsigned int bytes_rem = 0; if (encoding == encoding_utf16le || encoding == encoding_utf16be) { bytes_rem = 1; } if (encoding == encoding_utf32le || encoding == encoding_utf32be) { bytes_rem = 3; } // Parse strings out of the file. int output_size = 0; std::vector strings; std::string s; while ((!limit_count || strings.size() < limit_count) && (limit_input < 0 || static_cast(fin.tellg()) < limit_input) && fin) { std::string current_str; int c = fin.get(); for (unsigned int i = 0; i < bytes_rem; ++i) { int c1 = fin.get(); if (!fin) { fin.putback(static_cast(c1)); break; } c = (c << 8) | c1; } if (encoding == encoding_utf16le) { c = ((c & 0xFF) << 8) | ((c & 0xFF00) >> 8); } else if (encoding == encoding_utf32le) { c = (((c & 0xFF) << 24) | ((c & 0xFF00) << 8) | ((c & 0xFF0000) >> 8) | ((c & 0xFF000000) >> 24)); } if (c == '\r') { // Ignore CR character to make output always have UNIX newlines. continue; } if (c >= 0 && c <= 0xFF && (isprint(c) || c == '\t' || (c == '\n' && newline_consume))) { // This is an ASCII character that may be part of a string. // Cast added to avoid compiler warning. Cast is ok because // c is guaranteed to fit in char by the above if... current_str += static_cast(c); } else if (encoding == encoding_utf8) { // Check for UTF-8 encoded string (up to 4 octets) static const unsigned char utf8_check_table[3][2] = { { 0xE0, 0xC0 }, { 0xF0, 0xE0 }, { 0xF8, 0xF0 }, }; // how many octets are there? unsigned int num_utf8_bytes = 0; for (unsigned int j = 0; num_utf8_bytes == 0 && j < 3; j++) { if ((c & utf8_check_table[j][0]) == utf8_check_table[j][1]) { num_utf8_bytes = j + 2; } } // get subsequent octets and check that they are valid for (unsigned int j = 0; j < num_utf8_bytes; j++) { if (j != 0) { c = fin.get(); if (!fin || (c & 0xC0) != 0x80) { fin.putback(static_cast(c)); break; } } current_str += static_cast(c); } // if this was an invalid utf8 sequence, discard the data, and put // back subsequent characters if ((current_str.length() != num_utf8_bytes)) { for (unsigned int j = 0; j < current_str.size() - 1; j++) { c = current_str[current_str.size() - 1 - j]; fin.putback(static_cast(c)); } current_str.clear(); } } if (c == '\n' && !newline_consume) { // The current line has been terminated. Check if the current // string matches the requirements. The length may now be as // low as zero since blank lines are allowed. if (s.length() >= minlen && (!have_regex || regex.find(s))) { output_size += static_cast(s.size()) + 1; if (limit_output >= 0 && output_size >= limit_output) { s.clear(); break; } strings.push_back(s); } // Reset the string to empty. s.clear(); } else if (current_str.empty()) { // A non-string character has been found. Check if the current // string matches the requirements. We require that the length // be at least one no matter what the user specified. if (s.length() >= minlen && !s.empty() && (!have_regex || regex.find(s))) { output_size += static_cast(s.size()) + 1; if (limit_output >= 0 && output_size >= limit_output) { s.clear(); break; } strings.push_back(s); } // Reset the string to empty. s.clear(); } else { s += current_str; } if (maxlen > 0 && s.size() == maxlen) { // Terminate a string if the maximum length is reached. if (s.length() >= minlen && (!have_regex || regex.find(s))) { output_size += static_cast(s.size()) + 1; if (limit_output >= 0 && output_size >= limit_output) { s.clear(); break; } strings.push_back(s); } s.clear(); } } // If there is a non-empty current string we have hit the end of the // input file or the input size limit. Check if the current string // matches the requirements. if ((!limit_count || strings.size() < limit_count) && !s.empty() && s.length() >= minlen && (!have_regex || regex.find(s))) { output_size += static_cast(s.size()) + 1; if (limit_output < 0 || output_size < limit_output) { strings.push_back(s); } } // Encode the result in a CMake list. const char* sep = ""; std::string output; for (std::string const& sr : strings) { // Separate the strings in the output to make it a list. output += sep; sep = ";"; // Store the string in the output, but escape semicolons to // make sure it is a list. for (char i : sr) { if (i == ';') { output += '\\'; } output += i; } } // Save the output in a makefile variable. status.GetMakefile().AddDefinition(outVar, output); return true; } bool HandleGlobImpl(std::vector const& args, bool recurse, cmExecutionStatus& status) { // File commands has at least one argument assert(args.size() > 1); auto i = args.begin(); i++; // Get rid of subcommand std::string variable = *i; i++; cmsys::Glob g; g.SetRecurse(recurse); bool explicitFollowSymlinks = false; cmPolicies::PolicyStatus policyStatus = status.GetMakefile().GetPolicyStatus(cmPolicies::CMP0009); if (recurse) { switch (policyStatus) { case cmPolicies::REQUIRED_IF_USED: case cmPolicies::REQUIRED_ALWAYS: case cmPolicies::NEW: g.RecurseThroughSymlinksOff(); break; case cmPolicies::OLD: case cmPolicies::WARN: g.RecurseThroughSymlinksOn(); break; } } std::vector files; bool configureDepends = false; bool warnConfigureLate = false; bool warnFollowedSymlinks = false; const cmake::WorkingMode workingMode = status.GetMakefile().GetCMakeInstance()->GetWorkingMode(); while (i != args.end()) { if (*i == "LIST_DIRECTORIES") { ++i; // skip LIST_DIRECTORIES if (i != args.end()) { if (cmIsOn(*i)) { g.SetListDirs(true); g.SetRecurseListDirs(true); } else if (cmIsOff(*i)) { g.SetListDirs(false); g.SetRecurseListDirs(false); } else { status.SetError("LIST_DIRECTORIES missing bool value."); return false; } ++i; } else { status.SetError("LIST_DIRECTORIES missing bool value."); return false; } } else if (*i == "FOLLOW_SYMLINKS") { ++i; // skip FOLLOW_SYMLINKS if (recurse) { explicitFollowSymlinks = true; g.RecurseThroughSymlinksOn(); if (i == args.end()) { status.SetError( "GLOB_RECURSE requires a glob expression after FOLLOW_SYMLINKS."); return false; } } } else if (*i == "RELATIVE") { ++i; // skip RELATIVE if (i == args.end()) { status.SetError("GLOB requires a directory after the RELATIVE tag."); return false; } g.SetRelative(i->c_str()); ++i; if (i == args.end()) { status.SetError( "GLOB requires a glob expression after the directory."); return false; } } else if (*i == "CONFIGURE_DEPENDS") { // Generated build system depends on glob results if (!configureDepends && warnConfigureLate) { status.GetMakefile().IssueMessage( MessageType::AUTHOR_WARNING, "CONFIGURE_DEPENDS flag was given after a glob expression was " "already evaluated."); } if (workingMode != cmake::NORMAL_MODE) { status.GetMakefile().IssueMessage( MessageType::FATAL_ERROR, "CONFIGURE_DEPENDS is invalid for script and find package modes."); return false; } configureDepends = true; ++i; if (i == args.end()) { status.SetError( "GLOB requires a glob expression after CONFIGURE_DEPENDS."); return false; } } else { std::string expr = *i; if (!cmsys::SystemTools::FileIsFullPath(*i)) { expr = status.GetMakefile().GetCurrentSourceDirectory(); // Handle script mode if (!expr.empty()) { expr += "/" + *i; } else { expr = *i; } } cmsys::Glob::GlobMessages globMessages; g.FindFiles(expr, &globMessages); if (!globMessages.empty()) { bool shouldExit = false; for (cmsys::Glob::Message const& globMessage : globMessages) { if (globMessage.type == cmsys::Glob::cyclicRecursion) { status.GetMakefile().IssueMessage( MessageType::AUTHOR_WARNING, "Cyclic recursion detected while globbing for '" + *i + "':\n" + globMessage.content); } else { status.GetMakefile().IssueMessage( MessageType::FATAL_ERROR, "Error has occurred while globbing for '" + *i + "' - " + globMessage.content); shouldExit = true; } } if (shouldExit) { return false; } } if (recurse && !explicitFollowSymlinks && g.GetFollowedSymlinkCount() != 0) { warnFollowedSymlinks = true; } std::vector& foundFiles = g.GetFiles(); cmAppend(files, foundFiles); if (configureDepends) { std::sort(foundFiles.begin(), foundFiles.end()); foundFiles.erase(std::unique(foundFiles.begin(), foundFiles.end()), foundFiles.end()); status.GetMakefile().GetCMakeInstance()->AddGlobCacheEntry( recurse, (recurse ? g.GetRecurseListDirs() : g.GetListDirs()), (recurse ? g.GetRecurseThroughSymlinks() : false), (g.GetRelative() ? g.GetRelative() : ""), expr, foundFiles, variable, status.GetMakefile().GetBacktrace()); } else { warnConfigureLate = true; } ++i; } } switch (policyStatus) { case cmPolicies::REQUIRED_IF_USED: case cmPolicies::REQUIRED_ALWAYS: case cmPolicies::NEW: // Correct behavior, yay! break; case cmPolicies::OLD: // Probably not really the expected behavior, but the author explicitly // asked for the old behavior... no warning. case cmPolicies::WARN: // Possibly unexpected old behavior *and* we actually traversed // symlinks without being explicitly asked to: warn the author. if (warnFollowedSymlinks) { status.GetMakefile().IssueMessage( MessageType::AUTHOR_WARNING, cmPolicies::GetPolicyWarning(cmPolicies::CMP0009)); } break; } std::sort(files.begin(), files.end()); files.erase(std::unique(files.begin(), files.end()), files.end()); status.GetMakefile().AddDefinition(variable, cmJoin(files, ";")); return true; } bool HandleGlobCommand(std::vector const& args, cmExecutionStatus& status) { return HandleGlobImpl(args, false, status); } bool HandleGlobRecurseCommand(std::vector const& args, cmExecutionStatus& status) { return HandleGlobImpl(args, true, status); } bool HandleMakeDirectoryCommand(std::vector const& args, cmExecutionStatus& status) { // File command has at least one argument assert(args.size() > 1); std::string expr; for (std::string const& arg : cmMakeRange(args).advance(1)) // Get rid of subcommand { const std::string* cdir = &arg; if (!cmsys::SystemTools::FileIsFullPath(arg)) { expr = cmStrCat(status.GetMakefile().GetCurrentSourceDirectory(), '/', arg); cdir = &expr; } if (!status.GetMakefile().CanIWriteThisFile(*cdir)) { std::string e = "attempted to create a directory: " + *cdir + " into a source directory."; status.SetError(e); cmSystemTools::SetFatalErrorOccured(); return false; } if (!cmSystemTools::MakeDirectory(*cdir)) { std::string error = "problem creating directory: " + *cdir; status.SetError(error); return false; } } return true; } bool HandleTouchImpl(std::vector const& args, bool create, cmExecutionStatus& status) { // File command has at least one argument assert(args.size() > 1); for (std::string const& arg : cmMakeRange(args).advance(1)) // Get rid of subcommand { std::string tfile = arg; if (!cmsys::SystemTools::FileIsFullPath(tfile)) { tfile = cmStrCat(status.GetMakefile().GetCurrentSourceDirectory(), '/', arg); } if (!status.GetMakefile().CanIWriteThisFile(tfile)) { std::string e = "attempted to touch a file: " + tfile + " in a source directory."; status.SetError(e); cmSystemTools::SetFatalErrorOccured(); return false; } if (!cmSystemTools::Touch(tfile, create)) { std::string error = "problem touching file: " + tfile; status.SetError(error); return false; } } return true; } bool HandleTouchCommand(std::vector const& args, cmExecutionStatus& status) { return HandleTouchImpl(args, true, status); } bool HandleTouchNocreateCommand(std::vector const& args, cmExecutionStatus& status) { return HandleTouchImpl(args, false, status); } bool HandleDifferentCommand(std::vector const& args, cmExecutionStatus& status) { /* FILE(DIFFERENT FILES ) */ // Evaluate arguments. const char* file_lhs = nullptr; const char* file_rhs = nullptr; const char* var = nullptr; enum Doing { DoingNone, DoingVar, DoingFileLHS, DoingFileRHS }; Doing doing = DoingVar; for (unsigned int i = 1; i < args.size(); ++i) { if (args[i] == "FILES") { doing = DoingFileLHS; } else if (doing == DoingVar) { var = args[i].c_str(); doing = DoingNone; } else if (doing == DoingFileLHS) { file_lhs = args[i].c_str(); doing = DoingFileRHS; } else if (doing == DoingFileRHS) { file_rhs = args[i].c_str(); doing = DoingNone; } else { status.SetError(cmStrCat("DIFFERENT given unknown argument ", args[i])); return false; } } if (!var) { status.SetError("DIFFERENT not given result variable name."); return false; } if (!file_lhs || !file_rhs) { status.SetError("DIFFERENT not given FILES option with two file names."); return false; } // Compare the files. const char* result = cmSystemTools::FilesDiffer(file_lhs, file_rhs) ? "1" : "0"; status.GetMakefile().AddDefinition(var, result); return true; } bool HandleCopyCommand(std::vector const& args, cmExecutionStatus& status) { cmFileCopier copier(status); return copier.Run(args); } bool HandleRPathChangeCommand(std::vector const& args, cmExecutionStatus& status) { // Evaluate arguments. std::string file; const char* oldRPath = nullptr; const char* newRPath = nullptr; bool removeEnvironmentRPath = false; enum Doing { DoingNone, DoingFile, DoingOld, DoingNew }; Doing doing = DoingNone; for (unsigned int i = 1; i < args.size(); ++i) { if (args[i] == "OLD_RPATH") { doing = DoingOld; } else if (args[i] == "NEW_RPATH") { doing = DoingNew; } else if (args[i] == "FILE") { doing = DoingFile; } else if (args[i] == "INSTALL_REMOVE_ENVIRONMENT_RPATH") { removeEnvironmentRPath = true; } else if (doing == DoingFile) { file = args[i]; doing = DoingNone; } else if (doing == DoingOld) { oldRPath = args[i].c_str(); doing = DoingNone; } else if (doing == DoingNew) { newRPath = args[i].c_str(); doing = DoingNone; } else { status.SetError( cmStrCat("RPATH_CHANGE given unknown argument ", args[i])); return false; } } if (file.empty()) { status.SetError("RPATH_CHANGE not given FILE option."); return false; } if (!oldRPath) { status.SetError("RPATH_CHANGE not given OLD_RPATH option."); return false; } if (!newRPath) { status.SetError("RPATH_CHANGE not given NEW_RPATH option."); return false; } if (!cmSystemTools::FileExists(file, true)) { status.SetError( cmStrCat("RPATH_CHANGE given FILE \"", file, "\" that does not exist.")); return false; } bool success = true; cmFileTimes const ft(file); std::string emsg; bool changed; if (!cmSystemTools::ChangeRPath(file, oldRPath, newRPath, removeEnvironmentRPath, &emsg, &changed)) { status.SetError(cmStrCat("RPATH_CHANGE could not write new RPATH:\n ", newRPath, "\nto the file:\n ", file, "\n", emsg)); success = false; } if (success) { if (changed) { std::string message = cmStrCat("Set runtime path of \"", file, "\" to \"", newRPath, '"'); status.GetMakefile().DisplayStatus(message, -1); } ft.Store(file); } return success; } bool HandleRPathRemoveCommand(std::vector const& args, cmExecutionStatus& status) { // Evaluate arguments. std::string file; enum Doing { DoingNone, DoingFile }; Doing doing = DoingNone; for (unsigned int i = 1; i < args.size(); ++i) { if (args[i] == "FILE") { doing = DoingFile; } else if (doing == DoingFile) { file = args[i]; doing = DoingNone; } else { status.SetError( cmStrCat("RPATH_REMOVE given unknown argument ", args[i])); return false; } } if (file.empty()) { status.SetError("RPATH_REMOVE not given FILE option."); return false; } if (!cmSystemTools::FileExists(file, true)) { status.SetError( cmStrCat("RPATH_REMOVE given FILE \"", file, "\" that does not exist.")); return false; } bool success = true; cmFileTimes const ft(file); std::string emsg; bool removed; if (!cmSystemTools::RemoveRPath(file, &emsg, &removed)) { status.SetError( cmStrCat("RPATH_REMOVE could not remove RPATH from file: \n ", file, "\n", emsg)); success = false; } if (success) { if (removed) { std::string message = cmStrCat("Removed runtime path from \"", file, '"'); status.GetMakefile().DisplayStatus(message, -1); } ft.Store(file); } return success; } bool HandleRPathCheckCommand(std::vector const& args, cmExecutionStatus& status) { // Evaluate arguments. std::string file; const char* rpath = nullptr; enum Doing { DoingNone, DoingFile, DoingRPath }; Doing doing = DoingNone; for (unsigned int i = 1; i < args.size(); ++i) { if (args[i] == "RPATH") { doing = DoingRPath; } else if (args[i] == "FILE") { doing = DoingFile; } else if (doing == DoingFile) { file = args[i]; doing = DoingNone; } else if (doing == DoingRPath) { rpath = args[i].c_str(); doing = DoingNone; } else { status.SetError( cmStrCat("RPATH_CHECK given unknown argument ", args[i])); return false; } } if (file.empty()) { status.SetError("RPATH_CHECK not given FILE option."); return false; } if (!rpath) { status.SetError("RPATH_CHECK not given RPATH option."); return false; } // If the file exists but does not have the desired RPath then // delete it. This is used during installation to re-install a file // if its RPath will change. if (cmSystemTools::FileExists(file, true) && !cmSystemTools::CheckRPath(file, rpath)) { cmSystemTools::RemoveFile(file); } return true; } bool HandleReadElfCommand(std::vector const& args, cmExecutionStatus& status) { if (args.size() < 4) { status.SetError("READ_ELF must be called with at least three additional " "arguments."); return false; } std::string const& fileNameArg = args[1]; struct Arguments { std::string RPath; std::string RunPath; std::string Error; }; static auto const parser = cmArgumentParser{} .Bind("RPATH"_s, &Arguments::RPath) .Bind("RUNPATH"_s, &Arguments::RunPath) .Bind("CAPTURE_ERROR"_s, &Arguments::Error); Arguments const arguments = parser.Parse(cmMakeRange(args).advance(2)); if (!cmSystemTools::FileExists(fileNameArg, true)) { status.SetError(cmStrCat("READ_ELF given FILE \"", fileNameArg, "\" that does not exist.")); return false; } #if defined(CMAKE_USE_ELF_PARSER) cmELF elf(fileNameArg.c_str()); if (!arguments.RPath.empty()) { if (cmELF::StringEntry const* se_rpath = elf.GetRPath()) { std::string rpath(se_rpath->Value); std::replace(rpath.begin(), rpath.end(), ':', ';'); status.GetMakefile().AddDefinition(arguments.RPath, rpath); } } if (!arguments.RunPath.empty()) { if (cmELF::StringEntry const* se_runpath = elf.GetRunPath()) { std::string runpath(se_runpath->Value); std::replace(runpath.begin(), runpath.end(), ':', ';'); status.GetMakefile().AddDefinition(arguments.RunPath, runpath); } } return true; #else std::string error = "ELF parser not available on this platform."; if (arguments.Error.empty()) { status.SetError(error); return false; } status.GetMakefile().AddDefinition(arguments.Error, error); return true; #endif } bool HandleInstallCommand(std::vector const& args, cmExecutionStatus& status) { cmFileInstaller installer(status); return installer.Run(args); } bool HandleRelativePathCommand(std::vector const& args, cmExecutionStatus& status) { if (args.size() != 4) { status.SetError("RELATIVE_PATH called with incorrect number of arguments"); return false; } const std::string& outVar = args[1]; const std::string& directoryName = args[2]; const std::string& fileName = args[3]; if (!cmSystemTools::FileIsFullPath(directoryName)) { std::string errstring = "RELATIVE_PATH must be passed a full path to the directory: " + directoryName; status.SetError(errstring); return false; } if (!cmSystemTools::FileIsFullPath(fileName)) { std::string errstring = "RELATIVE_PATH must be passed a full path to the file: " + fileName; status.SetError(errstring); return false; } std::string res = cmSystemTools::RelativePath(directoryName, fileName); status.GetMakefile().AddDefinition(outVar, res); return true; } bool HandleRename(std::vector const& args, cmExecutionStatus& status) { if (args.size() != 3) { status.SetError("RENAME given incorrect number of arguments."); return false; } // Compute full path for old and new names. std::string oldname = args[1]; if (!cmsys::SystemTools::FileIsFullPath(oldname)) { oldname = cmStrCat(status.GetMakefile().GetCurrentSourceDirectory(), '/', args[1]); } std::string newname = args[2]; if (!cmsys::SystemTools::FileIsFullPath(newname)) { newname = cmStrCat(status.GetMakefile().GetCurrentSourceDirectory(), '/', args[2]); } if (!cmSystemTools::RenameFile(oldname, newname)) { std::string err = cmSystemTools::GetLastSystemError(); status.SetError(cmStrCat("RENAME failed to rename\n ", oldname, "\nto\n ", newname, "\nbecause: ", err, "\n")); return false; } return true; } bool HandleRemoveImpl(std::vector const& args, bool recurse, cmExecutionStatus& status) { std::string message; for (std::string const& arg : cmMakeRange(args).advance(1)) // Get rid of subcommand { std::string fileName = arg; if (fileName.empty()) { std::string const r = recurse ? "REMOVE_RECURSE" : "REMOVE"; status.GetMakefile().IssueMessage( MessageType::AUTHOR_WARNING, "Ignoring empty file name in " + r + "."); continue; } if (!cmsys::SystemTools::FileIsFullPath(fileName)) { fileName = cmStrCat(status.GetMakefile().GetCurrentSourceDirectory(), '/', arg); } if (cmSystemTools::FileIsDirectory(fileName) && !cmSystemTools::FileIsSymlink(fileName) && recurse) { cmSystemTools::RepeatedRemoveDirectory(fileName); } else { cmSystemTools::RemoveFile(fileName); } } return true; } bool HandleRemove(std::vector const& args, cmExecutionStatus& status) { return HandleRemoveImpl(args, false, status); } bool HandleRemoveRecurse(std::vector const& args, cmExecutionStatus& status) { return HandleRemoveImpl(args, true, status); } std::string ToNativePath(const std::string& path) { const auto& outPath = cmSystemTools::ConvertToOutputPath(path); if (outPath.size() > 1 && outPath.front() == '\"' && outPath.back() == '\"') { return outPath.substr(1, outPath.size() - 2); } return outPath; } std::string ToCMakePath(const std::string& path) { auto temp = path; cmSystemTools::ConvertToUnixSlashes(temp); return temp; } bool HandlePathCommand(std::vector const& args, std::string (*convert)(std::string const&), cmExecutionStatus& status) { if (args.size() != 3) { status.SetError("FILE([TO_CMAKE_PATH|TO_NATIVE_PATH] path result) must be " "called with exactly three arguments."); return false; } #if defined(_WIN32) && !defined(__CYGWIN__) char pathSep = ';'; #else char pathSep = ':'; #endif std::vector path = cmSystemTools::SplitString(args[1], pathSep); std::string value = cmJoin(cmMakeRange(path).transform(convert), ";"); status.GetMakefile().AddDefinition(args[2], value); return true; } bool HandleCMakePathCommand(std::vector const& args, cmExecutionStatus& status) { return HandlePathCommand(args, ToCMakePath, status); } bool HandleNativePathCommand(std::vector const& args, cmExecutionStatus& status) { return HandlePathCommand(args, ToNativePath, status); } #if !defined(CMAKE_BOOTSTRAP) // Stuff for curl download/upload using cmFileCommandVectorOfChar = std::vector; size_t cmWriteToFileCallback(void* ptr, size_t size, size_t nmemb, void* data) { int realsize = static_cast(size * nmemb); cmsys::ofstream* fout = static_cast(data); const char* chPtr = static_cast(ptr); fout->write(chPtr, realsize); return realsize; } size_t cmWriteToMemoryCallback(void* ptr, size_t size, size_t nmemb, void* data) { int realsize = static_cast(size * nmemb); const char* chPtr = static_cast(ptr); cmAppend(*static_cast(data), chPtr, chPtr + realsize); return realsize; } size_t cmFileCommandCurlDebugCallback(CURL*, curl_infotype type, char* chPtr, size_t size, void* data) { cmFileCommandVectorOfChar& vec = *static_cast(data); switch (type) { case CURLINFO_TEXT: case CURLINFO_HEADER_IN: case CURLINFO_HEADER_OUT: cmAppend(vec, chPtr, chPtr + size); break; case CURLINFO_DATA_IN: case CURLINFO_DATA_OUT: case CURLINFO_SSL_DATA_IN: case CURLINFO_SSL_DATA_OUT: { char buf[128]; int n = sprintf(buf, "[%" KWIML_INT_PRIu64 " bytes data]\n", static_cast(size)); if (n > 0) { cmAppend(vec, buf, buf + n); } } break; default: break; } return 0; } class cURLProgressHelper { public: cURLProgressHelper(cmMakefile* mf, const char* text) : Makefile(mf) , Text(text) { } bool UpdatePercentage(double value, double total, std::string& status) { long OldPercentage = this->CurrentPercentage; if (total > 0.0) { this->CurrentPercentage = std::lround(value / total * 100.0); if (this->CurrentPercentage > 100) { // Avoid extra progress reports for unexpected data beyond total. this->CurrentPercentage = 100; } } bool updated = (OldPercentage != this->CurrentPercentage); if (updated) { status = cmStrCat("[", this->Text, " ", this->CurrentPercentage, "% complete]"); } return updated; } cmMakefile* GetMakefile() { return this->Makefile; } private: long CurrentPercentage = -1; cmMakefile* Makefile; std::string Text; }; int cmFileDownloadProgressCallback(void* clientp, double dltotal, double dlnow, double ultotal, double ulnow) { cURLProgressHelper* helper = reinterpret_cast(clientp); static_cast(ultotal); static_cast(ulnow); std::string status; if (helper->UpdatePercentage(dlnow, dltotal, status)) { cmMakefile* mf = helper->GetMakefile(); mf->DisplayStatus(status, -1); } return 0; } int cmFileUploadProgressCallback(void* clientp, double dltotal, double dlnow, double ultotal, double ulnow) { cURLProgressHelper* helper = reinterpret_cast(clientp); static_cast(dltotal); static_cast(dlnow); std::string status; if (helper->UpdatePercentage(ulnow, ultotal, status)) { cmMakefile* mf = helper->GetMakefile(); mf->DisplayStatus(status, -1); } return 0; } class cURLEasyGuard { public: cURLEasyGuard(CURL* easy) : Easy(easy) { } ~cURLEasyGuard() { if (this->Easy) { ::curl_easy_cleanup(this->Easy); } } cURLEasyGuard(const cURLEasyGuard&) = delete; cURLEasyGuard& operator=(const cURLEasyGuard&) = delete; void release() { this->Easy = nullptr; } private: ::CURL* Easy; }; #endif #define check_curl_result(result, errstr) \ do { \ if (result != CURLE_OK) { \ std::string e(errstr); \ e += ::curl_easy_strerror(result); \ status.SetError(e); \ return false; \ } \ } while (false) bool HandleDownloadCommand(std::vector const& args, cmExecutionStatus& status) { #if !defined(CMAKE_BOOTSTRAP) auto i = args.begin(); if (args.size() < 3) { status.SetError("DOWNLOAD must be called with at least three arguments."); return false; } ++i; // Get rid of subcommand std::string url = *i; ++i; std::string file = *i; ++i; long timeout = 0; long inactivity_timeout = 0; std::string logVar; std::string statusVar; bool tls_verify = status.GetMakefile().IsOn("CMAKE_TLS_VERIFY"); const char* cainfo = status.GetMakefile().GetDefinition("CMAKE_TLS_CAINFO"); std::string netrc_level = status.GetMakefile().GetSafeDefinition("CMAKE_NETRC"); std::string netrc_file = status.GetMakefile().GetSafeDefinition("CMAKE_NETRC_FILE"); std::string expectedHash; std::string hashMatchMSG; std::unique_ptr hash; bool showProgress = false; std::string userpwd; std::vector curl_headers; while (i != args.end()) { if (*i == "TIMEOUT") { ++i; if (i != args.end()) { timeout = atol(i->c_str()); } else { status.SetError("DOWNLOAD missing time for TIMEOUT."); return false; } } else if (*i == "INACTIVITY_TIMEOUT") { ++i; if (i != args.end()) { inactivity_timeout = atol(i->c_str()); } else { status.SetError("DOWNLOAD missing time for INACTIVITY_TIMEOUT."); return false; } } else if (*i == "LOG") { ++i; if (i == args.end()) { status.SetError("DOWNLOAD missing VAR for LOG."); return false; } logVar = *i; } else if (*i == "STATUS") { ++i; if (i == args.end()) { status.SetError("DOWNLOAD missing VAR for STATUS."); return false; } statusVar = *i; } else if (*i == "TLS_VERIFY") { ++i; if (i != args.end()) { tls_verify = cmIsOn(*i); } else { status.SetError("TLS_VERIFY missing bool value."); return false; } } else if (*i == "TLS_CAINFO") { ++i; if (i != args.end()) { cainfo = i->c_str(); } else { status.SetError("TLS_CAFILE missing file value."); return false; } } else if (*i == "NETRC_FILE") { ++i; if (i != args.end()) { netrc_file = *i; } else { status.SetError("DOWNLOAD missing file value for NETRC_FILE."); return false; } } else if (*i == "NETRC") { ++i; if (i != args.end()) { netrc_level = *i; } else { status.SetError("DOWNLOAD missing level value for NETRC."); return false; } } else if (*i == "EXPECTED_MD5") { ++i; if (i == args.end()) { status.SetError("DOWNLOAD missing sum value for EXPECTED_MD5."); return false; } hash = cm::make_unique(cmCryptoHash::AlgoMD5); hashMatchMSG = "MD5 sum"; expectedHash = cmSystemTools::LowerCase(*i); } else if (*i == "SHOW_PROGRESS") { showProgress = true; } else if (*i == "EXPECTED_HASH") { ++i; if (i == args.end()) { status.SetError("DOWNLOAD missing ALGO=value for EXPECTED_HASH."); return false; } std::string::size_type pos = i->find("="); if (pos == std::string::npos) { std::string err = cmStrCat("DOWNLOAD EXPECTED_HASH expects ALGO=value but got: ", *i); status.SetError(err); return false; } std::string algo = i->substr(0, pos); expectedHash = cmSystemTools::LowerCase(i->substr(pos + 1)); hash = std::unique_ptr(cmCryptoHash::New(algo)); if (!hash) { std::string err = cmStrCat("DOWNLOAD EXPECTED_HASH given unknown ALGO: ", algo); status.SetError(err); return false; } hashMatchMSG = algo + " hash"; } else if (*i == "USERPWD") { ++i; if (i == args.end()) { status.SetError("DOWNLOAD missing string for USERPWD."); return false; } userpwd = *i; } else if (*i == "HTTPHEADER") { ++i; if (i == args.end()) { status.SetError("DOWNLOAD missing string for HTTPHEADER."); return false; } curl_headers.push_back(*i); } else { // Do not return error for compatibility reason. std::string err = cmStrCat("Unexpected argument: ", *i); status.GetMakefile().IssueMessage(MessageType::AUTHOR_WARNING, err); } ++i; } // If file exists already, and caller specified an expected md5 or sha, // and the existing file already has the expected hash, then simply // return. // if (cmSystemTools::FileExists(file) && hash.get()) { std::string msg; std::string actualHash = hash->HashFile(file); if (actualHash == expectedHash) { msg = cmStrCat("returning early; file already exists with expected ", hashMatchMSG, '"'); if (!statusVar.empty()) { status.GetMakefile().AddDefinition(statusVar, cmStrCat(0, ";\"", msg)); } return true; } } // Make sure parent directory exists so we can write to the file // as we receive downloaded bits from curl... // std::string dir = cmSystemTools::GetFilenamePath(file); if (!cmSystemTools::FileExists(dir) && !cmSystemTools::MakeDirectory(dir)) { std::string errstring = "DOWNLOAD error: cannot create directory '" + dir + "' - Specify file by full path name and verify that you " "have directory creation and file write privileges."; status.SetError(errstring); return false; } cmsys::ofstream fout(file.c_str(), std::ios::binary); if (!fout) { status.SetError("DOWNLOAD cannot open file for write."); return false; } # if defined(_WIN32) url = fix_file_url_windows(url); # endif ::CURL* curl; ::curl_global_init(CURL_GLOBAL_DEFAULT); curl = ::curl_easy_init(); if (!curl) { status.SetError("DOWNLOAD error initializing curl."); return false; } cURLEasyGuard g_curl(curl); ::CURLcode res = ::curl_easy_setopt(curl, CURLOPT_URL, url.c_str()); check_curl_result(res, "DOWNLOAD cannot set url: "); // enable HTTP ERROR parsing res = ::curl_easy_setopt(curl, CURLOPT_FAILONERROR, 1); check_curl_result(res, "DOWNLOAD cannot set http failure option: "); res = ::curl_easy_setopt(curl, CURLOPT_USERAGENT, "curl/" LIBCURL_VERSION); check_curl_result(res, "DOWNLOAD cannot set user agent option: "); res = ::curl_easy_setopt(curl, CURLOPT_WRITEFUNCTION, cmWriteToFileCallback); check_curl_result(res, "DOWNLOAD cannot set write function: "); res = ::curl_easy_setopt(curl, CURLOPT_DEBUGFUNCTION, cmFileCommandCurlDebugCallback); check_curl_result(res, "DOWNLOAD cannot set debug function: "); // check to see if TLS verification is requested if (tls_verify) { res = ::curl_easy_setopt(curl, CURLOPT_SSL_VERIFYPEER, 1); check_curl_result(res, "Unable to set TLS/SSL Verify on: "); } else { res = ::curl_easy_setopt(curl, CURLOPT_SSL_VERIFYPEER, 0); check_curl_result(res, "Unable to set TLS/SSL Verify off: "); } // check to see if a CAINFO file has been specified // command arg comes first std::string const& cainfo_err = cmCurlSetCAInfo(curl, cainfo); if (!cainfo_err.empty()) { status.SetError(cainfo_err); return false; } // check to see if netrc parameters have been specified // local command args takes precedence over CMAKE_NETRC* netrc_level = cmSystemTools::UpperCase(netrc_level); std::string const& netrc_option_err = cmCurlSetNETRCOption(curl, netrc_level, netrc_file); if (!netrc_option_err.empty()) { status.SetError(netrc_option_err); return false; } cmFileCommandVectorOfChar chunkDebug; res = ::curl_easy_setopt(curl, CURLOPT_WRITEDATA, &fout); check_curl_result(res, "DOWNLOAD cannot set write data: "); res = ::curl_easy_setopt(curl, CURLOPT_DEBUGDATA, &chunkDebug); check_curl_result(res, "DOWNLOAD cannot set debug data: "); res = ::curl_easy_setopt(curl, CURLOPT_FOLLOWLOCATION, 1L); check_curl_result(res, "DOWNLOAD cannot set follow-redirect option: "); if (!logVar.empty()) { res = ::curl_easy_setopt(curl, CURLOPT_VERBOSE, 1); check_curl_result(res, "DOWNLOAD cannot set verbose: "); } if (timeout > 0) { res = ::curl_easy_setopt(curl, CURLOPT_TIMEOUT, timeout); check_curl_result(res, "DOWNLOAD cannot set timeout: "); } if (inactivity_timeout > 0) { // Give up if there is no progress for a long time. ::curl_easy_setopt(curl, CURLOPT_LOW_SPEED_LIMIT, 1); ::curl_easy_setopt(curl, CURLOPT_LOW_SPEED_TIME, inactivity_timeout); } // Need the progress helper's scope to last through the duration of // the curl_easy_perform call... so this object is declared at function // scope intentionally, rather than inside the "if(showProgress)" // block... // cURLProgressHelper helper(&status.GetMakefile(), "download"); if (showProgress) { res = ::curl_easy_setopt(curl, CURLOPT_NOPROGRESS, 0); check_curl_result(res, "DOWNLOAD cannot set noprogress value: "); res = ::curl_easy_setopt(curl, CURLOPT_PROGRESSFUNCTION, cmFileDownloadProgressCallback); check_curl_result(res, "DOWNLOAD cannot set progress function: "); res = ::curl_easy_setopt(curl, CURLOPT_PROGRESSDATA, reinterpret_cast(&helper)); check_curl_result(res, "DOWNLOAD cannot set progress data: "); } if (!userpwd.empty()) { res = ::curl_easy_setopt(curl, CURLOPT_USERPWD, userpwd.c_str()); check_curl_result(res, "DOWNLOAD cannot set user password: "); } struct curl_slist* headers = nullptr; for (std::string const& h : curl_headers) { headers = ::curl_slist_append(headers, h.c_str()); } ::curl_easy_setopt(curl, CURLOPT_HTTPHEADER, headers); res = ::curl_easy_perform(curl); ::curl_slist_free_all(headers); /* always cleanup */ g_curl.release(); ::curl_easy_cleanup(curl); if (!statusVar.empty()) { status.GetMakefile().AddDefinition( statusVar, cmStrCat(static_cast(res), ";\"", ::curl_easy_strerror(res), "\"")); } ::curl_global_cleanup(); // Explicitly flush/close so we can measure the md5 accurately. // fout.flush(); fout.close(); // Verify MD5 sum if requested: // if (hash) { std::string actualHash = hash->HashFile(file); if (actualHash.empty()) { status.SetError("DOWNLOAD cannot compute hash on downloaded file"); return false; } if (expectedHash != actualHash) { if (!statusVar.empty() && res == 0) { status.GetMakefile().AddDefinition(statusVar, "1;HASH mismatch: " "expected: " + expectedHash + " actual: " + actualHash); } status.SetError(cmStrCat("DOWNLOAD HASH mismatch\n" " for file: [", file, "]\n" " expected hash: [", expectedHash, "]\n" " actual hash: [", actualHash, "]\n" " status: [", static_cast(res), ";\"", ::curl_easy_strerror(res), "\"]\n")); return false; } } if (!logVar.empty()) { chunkDebug.push_back(0); status.GetMakefile().AddDefinition(logVar, chunkDebug.data()); } return true; #else status.SetError("DOWNLOAD not supported by bootstrap cmake."); return false; #endif } bool HandleUploadCommand(std::vector const& args, cmExecutionStatus& status) { #if !defined(CMAKE_BOOTSTRAP) if (args.size() < 3) { status.SetError("UPLOAD must be called with at least three arguments."); return false; } auto i = args.begin(); ++i; std::string filename = *i; ++i; std::string url = *i; ++i; long timeout = 0; long inactivity_timeout = 0; std::string logVar; std::string statusVar; bool showProgress = false; std::string userpwd; std::string netrc_level = status.GetMakefile().GetSafeDefinition("CMAKE_NETRC"); std::string netrc_file = status.GetMakefile().GetSafeDefinition("CMAKE_NETRC_FILE"); std::vector curl_headers; while (i != args.end()) { if (*i == "TIMEOUT") { ++i; if (i != args.end()) { timeout = atol(i->c_str()); } else { status.SetError("UPLOAD missing time for TIMEOUT."); return false; } } else if (*i == "INACTIVITY_TIMEOUT") { ++i; if (i != args.end()) { inactivity_timeout = atol(i->c_str()); } else { status.SetError("UPLOAD missing time for INACTIVITY_TIMEOUT."); return false; } } else if (*i == "LOG") { ++i; if (i == args.end()) { status.SetError("UPLOAD missing VAR for LOG."); return false; } logVar = *i; } else if (*i == "STATUS") { ++i; if (i == args.end()) { status.SetError("UPLOAD missing VAR for STATUS."); return false; } statusVar = *i; } else if (*i == "SHOW_PROGRESS") { showProgress = true; } else if (*i == "NETRC_FILE") { ++i; if (i != args.end()) { netrc_file = *i; } else { status.SetError("UPLOAD missing file value for NETRC_FILE."); return false; } } else if (*i == "NETRC") { ++i; if (i != args.end()) { netrc_level = *i; } else { status.SetError("UPLOAD missing level value for NETRC."); return false; } } else if (*i == "USERPWD") { ++i; if (i == args.end()) { status.SetError("UPLOAD missing string for USERPWD."); return false; } userpwd = *i; } else if (*i == "HTTPHEADER") { ++i; if (i == args.end()) { status.SetError("UPLOAD missing string for HTTPHEADER."); return false; } curl_headers.push_back(*i); } else { // Do not return error for compatibility reason. std::string err = cmStrCat("Unexpected argument: ", *i); status.GetMakefile().IssueMessage(MessageType::AUTHOR_WARNING, err); } ++i; } // Open file for reading: // FILE* fin = cmsys::SystemTools::Fopen(filename, "rb"); if (!fin) { std::string errStr = cmStrCat("UPLOAD cannot open file '", filename, "' for reading."); status.SetError(errStr); return false; } unsigned long file_size = cmsys::SystemTools::FileLength(filename); # if defined(_WIN32) url = fix_file_url_windows(url); # endif ::CURL* curl; ::curl_global_init(CURL_GLOBAL_DEFAULT); curl = ::curl_easy_init(); if (!curl) { status.SetError("UPLOAD error initializing curl."); fclose(fin); return false; } cURLEasyGuard g_curl(curl); // enable HTTP ERROR parsing ::CURLcode res = ::curl_easy_setopt(curl, CURLOPT_FAILONERROR, 1); check_curl_result(res, "UPLOAD cannot set fail on error flag: "); // enable uploading res = ::curl_easy_setopt(curl, CURLOPT_UPLOAD, 1); check_curl_result(res, "UPLOAD cannot set upload flag: "); res = ::curl_easy_setopt(curl, CURLOPT_URL, url.c_str()); check_curl_result(res, "UPLOAD cannot set url: "); res = ::curl_easy_setopt(curl, CURLOPT_WRITEFUNCTION, cmWriteToMemoryCallback); check_curl_result(res, "UPLOAD cannot set write function: "); res = ::curl_easy_setopt(curl, CURLOPT_DEBUGFUNCTION, cmFileCommandCurlDebugCallback); check_curl_result(res, "UPLOAD cannot set debug function: "); cmFileCommandVectorOfChar chunkResponse; cmFileCommandVectorOfChar chunkDebug; res = ::curl_easy_setopt(curl, CURLOPT_WRITEDATA, &chunkResponse); check_curl_result(res, "UPLOAD cannot set write data: "); res = ::curl_easy_setopt(curl, CURLOPT_DEBUGDATA, &chunkDebug); check_curl_result(res, "UPLOAD cannot set debug data: "); res = ::curl_easy_setopt(curl, CURLOPT_FOLLOWLOCATION, 1L); check_curl_result(res, "UPLOAD cannot set follow-redirect option: "); if (!logVar.empty()) { res = ::curl_easy_setopt(curl, CURLOPT_VERBOSE, 1); check_curl_result(res, "UPLOAD cannot set verbose: "); } if (timeout > 0) { res = ::curl_easy_setopt(curl, CURLOPT_TIMEOUT, timeout); check_curl_result(res, "UPLOAD cannot set timeout: "); } if (inactivity_timeout > 0) { // Give up if there is no progress for a long time. ::curl_easy_setopt(curl, CURLOPT_LOW_SPEED_LIMIT, 1); ::curl_easy_setopt(curl, CURLOPT_LOW_SPEED_TIME, inactivity_timeout); } // Need the progress helper's scope to last through the duration of // the curl_easy_perform call... so this object is declared at function // scope intentionally, rather than inside the "if(showProgress)" // block... // cURLProgressHelper helper(&status.GetMakefile(), "upload"); if (showProgress) { res = ::curl_easy_setopt(curl, CURLOPT_NOPROGRESS, 0); check_curl_result(res, "UPLOAD cannot set noprogress value: "); res = ::curl_easy_setopt(curl, CURLOPT_PROGRESSFUNCTION, cmFileUploadProgressCallback); check_curl_result(res, "UPLOAD cannot set progress function: "); res = ::curl_easy_setopt(curl, CURLOPT_PROGRESSDATA, reinterpret_cast(&helper)); check_curl_result(res, "UPLOAD cannot set progress data: "); } // now specify which file to upload res = ::curl_easy_setopt(curl, CURLOPT_INFILE, fin); check_curl_result(res, "UPLOAD cannot set input file: "); // and give the size of the upload (optional) res = ::curl_easy_setopt(curl, CURLOPT_INFILESIZE, static_cast(file_size)); check_curl_result(res, "UPLOAD cannot set input file size: "); if (!userpwd.empty()) { res = ::curl_easy_setopt(curl, CURLOPT_USERPWD, userpwd.c_str()); check_curl_result(res, "UPLOAD cannot set user password: "); } // check to see if netrc parameters have been specified // local command args takes precedence over CMAKE_NETRC* netrc_level = cmSystemTools::UpperCase(netrc_level); std::string const& netrc_option_err = cmCurlSetNETRCOption(curl, netrc_level, netrc_file); if (!netrc_option_err.empty()) { status.SetError(netrc_option_err); return false; } struct curl_slist* headers = nullptr; for (std::string const& h : curl_headers) { headers = ::curl_slist_append(headers, h.c_str()); } ::curl_easy_setopt(curl, CURLOPT_HTTPHEADER, headers); res = ::curl_easy_perform(curl); ::curl_slist_free_all(headers); /* always cleanup */ g_curl.release(); ::curl_easy_cleanup(curl); if (!statusVar.empty()) { status.GetMakefile().AddDefinition( statusVar, cmStrCat(static_cast(res), ";\"", ::curl_easy_strerror(res), "\"")); } ::curl_global_cleanup(); fclose(fin); fin = nullptr; if (!logVar.empty()) { std::string log; if (!chunkResponse.empty()) { chunkResponse.push_back(0); log += "Response:\n"; log += chunkResponse.data(); log += "\n"; } if (!chunkDebug.empty()) { chunkDebug.push_back(0); log += "Debug:\n"; log += chunkDebug.data(); log += "\n"; } status.GetMakefile().AddDefinition(logVar, log); } return true; #else status.SetError("UPLOAD not supported by bootstrap cmake."); return false; #endif } void AddEvaluationFile(const std::string& inputName, const std::string& outputExpr, const std::string& condition, bool inputIsContent, cmExecutionStatus& status) { cmListFileBacktrace lfbt = status.GetMakefile().GetBacktrace(); cmGeneratorExpression outputGe(lfbt); std::unique_ptr outputCge = outputGe.Parse(outputExpr); cmGeneratorExpression conditionGe(lfbt); std::unique_ptr conditionCge = conditionGe.Parse(condition); status.GetMakefile().AddEvaluationFile( inputName, std::move(outputCge), std::move(conditionCge), inputIsContent); } bool HandleGenerateCommand(std::vector const& args, cmExecutionStatus& status) { if (args.size() < 5) { status.SetError("Incorrect arguments to GENERATE subcommand."); return false; } if (args[1] != "OUTPUT") { status.SetError("Incorrect arguments to GENERATE subcommand."); return false; } std::string condition; if (args.size() > 5) { if (args[5] != "CONDITION") { status.SetError("Incorrect arguments to GENERATE subcommand."); return false; } if (args.size() != 7) { status.SetError("Incorrect arguments to GENERATE subcommand."); return false; } condition = args[6]; if (condition.empty()) { status.SetError("CONDITION of sub-command GENERATE must not be empty if " "specified."); return false; } } std::string output = args[2]; const bool inputIsContent = args[3] != "INPUT"; if (inputIsContent && args[3] != "CONTENT") { status.SetError("Incorrect arguments to GENERATE subcommand."); return false; } std::string input = args[4]; AddEvaluationFile(input, output, condition, inputIsContent, status); return true; } bool HandleLockCommand(std::vector const& args, cmExecutionStatus& status) { #if !defined(CMAKE_BOOTSTRAP) // Default values bool directory = false; bool release = false; enum Guard { GUARD_FUNCTION, GUARD_FILE, GUARD_PROCESS }; Guard guard = GUARD_PROCESS; std::string resultVariable; unsigned long timeout = static_cast(-1); // Parse arguments if (args.size() < 2) { status.GetMakefile().IssueMessage( MessageType::FATAL_ERROR, "sub-command LOCK requires at least two arguments."); return false; } std::string path = args[1]; for (unsigned i = 2; i < args.size(); ++i) { if (args[i] == "DIRECTORY") { directory = true; } else if (args[i] == "RELEASE") { release = true; } else if (args[i] == "GUARD") { ++i; const char* merr = "expected FUNCTION, FILE or PROCESS after GUARD"; if (i >= args.size()) { status.GetMakefile().IssueMessage(MessageType::FATAL_ERROR, merr); return false; } if (args[i] == "FUNCTION") { guard = GUARD_FUNCTION; } else if (args[i] == "FILE") { guard = GUARD_FILE; } else if (args[i] == "PROCESS") { guard = GUARD_PROCESS; } else { status.GetMakefile().IssueMessage( MessageType::FATAL_ERROR, cmStrCat(merr, ", but got:\n \"", args[i], "\".")); return false; } } else if (args[i] == "RESULT_VARIABLE") { ++i; if (i >= args.size()) { status.GetMakefile().IssueMessage( MessageType::FATAL_ERROR, "expected variable name after RESULT_VARIABLE"); return false; } resultVariable = args[i]; } else if (args[i] == "TIMEOUT") { ++i; if (i >= args.size()) { status.GetMakefile().IssueMessage( MessageType::FATAL_ERROR, "expected timeout value after TIMEOUT"); return false; } long scanned; if (!cmStrToLong(args[i], &scanned) || scanned < 0) { status.GetMakefile().IssueMessage( MessageType::FATAL_ERROR, cmStrCat("TIMEOUT value \"", args[i], "\" is not an unsigned integer.")); return false; } timeout = static_cast(scanned); } else { status.GetMakefile().IssueMessage( MessageType::FATAL_ERROR, cmStrCat("expected DIRECTORY, RELEASE, GUARD, RESULT_VARIABLE or ", "TIMEOUT\nbut got: \"", args[i], "\".")); return false; } } if (directory) { path += "/cmake.lock"; } if (!cmsys::SystemTools::FileIsFullPath(path)) { path = status.GetMakefile().GetCurrentSourceDirectory() + "/" + path; } // Unify path (remove '//', '/../', ...) path = cmSystemTools::CollapseFullPath(path); // Create file and directories if needed std::string parentDir = cmSystemTools::GetParentDirectory(path); if (!cmSystemTools::MakeDirectory(parentDir)) { status.GetMakefile().IssueMessage( MessageType::FATAL_ERROR, cmStrCat("directory\n \"", parentDir, "\"\ncreation failed (check permissions).")); cmSystemTools::SetFatalErrorOccured(); return false; } FILE* file = cmsys::SystemTools::Fopen(path, "w"); if (!file) { status.GetMakefile().IssueMessage( MessageType::FATAL_ERROR, cmStrCat("file\n \"", path, "\"\ncreation failed (check permissions).")); cmSystemTools::SetFatalErrorOccured(); return false; } fclose(file); // Actual lock/unlock cmFileLockPool& lockPool = status.GetMakefile().GetGlobalGenerator()->GetFileLockPool(); cmFileLockResult fileLockResult(cmFileLockResult::MakeOk()); if (release) { fileLockResult = lockPool.Release(path); } else { switch (guard) { case GUARD_FUNCTION: fileLockResult = lockPool.LockFunctionScope(path, timeout); break; case GUARD_FILE: fileLockResult = lockPool.LockFileScope(path, timeout); break; case GUARD_PROCESS: fileLockResult = lockPool.LockProcessScope(path, timeout); break; default: cmSystemTools::SetFatalErrorOccured(); return false; } } const std::string result = fileLockResult.GetOutputMessage(); if (resultVariable.empty() && !fileLockResult.IsOk()) { status.GetMakefile().IssueMessage( MessageType::FATAL_ERROR, cmStrCat("error locking file\n \"", path, "\"\n", result, ".")); cmSystemTools::SetFatalErrorOccured(); return false; } if (!resultVariable.empty()) { status.GetMakefile().AddDefinition(resultVariable, result); } return true; #else static_cast(args); status.SetError("sub-command LOCK not implemented in bootstrap cmake"); return false; #endif } bool HandleTimestampCommand(std::vector const& args, cmExecutionStatus& status) { if (args.size() < 3) { status.SetError("sub-command TIMESTAMP requires at least two arguments."); return false; } if (args.size() > 5) { status.SetError("sub-command TIMESTAMP takes at most four arguments."); return false; } unsigned int argsIndex = 1; const std::string& filename = args[argsIndex++]; const std::string& outputVariable = args[argsIndex++]; std::string formatString; if (args.size() > argsIndex && args[argsIndex] != "UTC") { formatString = args[argsIndex++]; } bool utcFlag = false; if (args.size() > argsIndex) { if (args[argsIndex] == "UTC") { utcFlag = true; } else { std::string e = " TIMESTAMP sub-command does not recognize option " + args[argsIndex] + "."; status.SetError(e); return false; } } cmTimestamp timestamp; std::string result = timestamp.FileModificationTime(filename.c_str(), formatString, utcFlag); status.GetMakefile().AddDefinition(outputVariable, result); return true; } bool HandleSizeCommand(std::vector const& args, cmExecutionStatus& status) { if (args.size() != 3) { status.SetError( cmStrCat(args[0], " requires a file name and output variable")); return false; } unsigned int argsIndex = 1; const std::string& filename = args[argsIndex++]; const std::string& outputVariable = args[argsIndex++]; if (!cmSystemTools::FileExists(filename, true)) { status.SetError( cmStrCat("SIZE requested of path that is not readable:\n ", filename)); return false; } status.GetMakefile().AddDefinition( outputVariable, std::to_string(cmSystemTools::FileLength(filename))); return true; } bool HandleReadSymlinkCommand(std::vector const& args, cmExecutionStatus& status) { if (args.size() != 3) { status.SetError( cmStrCat(args[0], " requires a file name and output variable")); return false; } const std::string& filename = args[1]; const std::string& outputVariable = args[2]; std::string result; if (!cmSystemTools::ReadSymlink(filename, result)) { status.SetError(cmStrCat( "READ_SYMLINK requested of path that is not a symlink:\n ", filename)); return false; } status.GetMakefile().AddDefinition(outputVariable, result); return true; } bool HandleCreateLinkCommand(std::vector const& args, cmExecutionStatus& status) { if (args.size() < 3) { status.SetError("CREATE_LINK must be called with at least two additional " "arguments"); return false; } std::string const& fileName = args[1]; std::string const& newFileName = args[2]; struct Arguments { std::string Result; bool CopyOnError = false; bool Symbolic = false; }; static auto const parser = cmArgumentParser{} .Bind("RESULT"_s, &Arguments::Result) .Bind("COPY_ON_ERROR"_s, &Arguments::CopyOnError) .Bind("SYMBOLIC"_s, &Arguments::Symbolic); std::vector unconsumedArgs; Arguments const arguments = parser.Parse(cmMakeRange(args).advance(3), &unconsumedArgs); if (!unconsumedArgs.empty()) { status.SetError("unknown argument: \"" + unconsumedArgs.front() + '\"'); return false; } // The system error message generated in the operation. std::string result; // Check if the paths are distinct. if (fileName == newFileName) { result = "CREATE_LINK cannot use same file and newfile"; if (!arguments.Result.empty()) { status.GetMakefile().AddDefinition(arguments.Result, result); return true; } status.SetError(result); return false; } // Hard link requires original file to exist. if (!arguments.Symbolic && !cmSystemTools::FileExists(fileName)) { result = "Cannot hard link \'" + fileName + "\' as it does not exist."; if (!arguments.Result.empty()) { status.GetMakefile().AddDefinition(arguments.Result, result); return true; } status.SetError(result); return false; } // Check if the new file already exists and remove it. if ((cmSystemTools::FileExists(newFileName) || cmSystemTools::FileIsSymlink(newFileName)) && !cmSystemTools::RemoveFile(newFileName)) { std::ostringstream e; e << "Failed to create link '" << newFileName << "' because existing path cannot be removed: " << cmSystemTools::GetLastSystemError() << "\n"; if (!arguments.Result.empty()) { status.GetMakefile().AddDefinition(arguments.Result, e.str()); return true; } status.SetError(e.str()); return false; } // Whether the operation completed successfully. bool completed = false; // Check if the command requires a symbolic link. if (arguments.Symbolic) { completed = cmSystemTools::CreateSymlink(fileName, newFileName, &result); } else { completed = cmSystemTools::CreateLink(fileName, newFileName, &result); } // Check if copy-on-error is enabled in the arguments. if (!completed && arguments.CopyOnError) { completed = cmsys::SystemTools::CopyFileAlways(fileName, newFileName); if (!completed) { result = "Copy failed: " + cmSystemTools::GetLastSystemError(); } } // Check if the operation was successful. if (completed) { result = "0"; } else if (arguments.Result.empty()) { // The operation failed and the result is not reported in a variable. status.SetError(result); return false; } if (!arguments.Result.empty()) { status.GetMakefile().AddDefinition(arguments.Result, result); } return true; } bool HandleGetRuntimeDependenciesCommand(std::vector const& args, cmExecutionStatus& status) { static const std::set supportedPlatforms = { "Windows", "Linux", "Darwin" }; std::string platform = status.GetMakefile().GetSafeDefinition("CMAKE_HOST_SYSTEM_NAME"); if (!supportedPlatforms.count(platform)) { status.SetError( cmStrCat("GET_RUNTIME_DEPENDENCIES is not supported on system \"", platform, "\"")); cmSystemTools::SetFatalErrorOccured(); return false; } if (status.GetMakefile().GetState()->GetMode() == cmState::Project) { status.GetMakefile().IssueMessage( MessageType::AUTHOR_WARNING, "You have used file(GET_RUNTIME_DEPENDENCIES)" " in project mode. This is probably not what " "you intended to do. Instead, please consider" " using it in an install(CODE) or " "install(SCRIPT) command. For example:" "\n install(CODE [[" "\n file(GET_RUNTIME_DEPENDENCIES" "\n # ..." "\n )" "\n ]])"); } struct Arguments { std::string ResolvedDependenciesVar; std::string UnresolvedDependenciesVar; std::string ConflictingDependenciesPrefix; std::string BundleExecutable; std::vector Executables; std::vector Libraries; std::vector Directories; std::vector Modules; std::vector PreIncludeRegexes; std::vector PreExcludeRegexes; std::vector PostIncludeRegexes; std::vector PostExcludeRegexes; }; static auto const parser = cmArgumentParser{} .Bind("RESOLVED_DEPENDENCIES_VAR"_s, &Arguments::ResolvedDependenciesVar) .Bind("UNRESOLVED_DEPENDENCIES_VAR"_s, &Arguments::UnresolvedDependenciesVar) .Bind("CONFLICTING_DEPENDENCIES_PREFIX"_s, &Arguments::ConflictingDependenciesPrefix) .Bind("BUNDLE_EXECUTABLE"_s, &Arguments::BundleExecutable) .Bind("EXECUTABLES"_s, &Arguments::Executables) .Bind("LIBRARIES"_s, &Arguments::Libraries) .Bind("MODULES"_s, &Arguments::Modules) .Bind("DIRECTORIES"_s, &Arguments::Directories) .Bind("PRE_INCLUDE_REGEXES"_s, &Arguments::PreIncludeRegexes) .Bind("PRE_EXCLUDE_REGEXES"_s, &Arguments::PreExcludeRegexes) .Bind("POST_INCLUDE_REGEXES"_s, &Arguments::PostIncludeRegexes) .Bind("POST_EXCLUDE_REGEXES"_s, &Arguments::PostExcludeRegexes); std::vector unrecognizedArguments; std::vector keywordsMissingValues; auto parsedArgs = parser.Parse(cmMakeRange(args).advance(1), &unrecognizedArguments, &keywordsMissingValues); auto argIt = unrecognizedArguments.begin(); if (argIt != unrecognizedArguments.end()) { status.SetError(cmStrCat("Unrecognized argument: \"", *argIt, "\"")); cmSystemTools::SetFatalErrorOccured(); return false; } argIt = keywordsMissingValues.begin(); if (argIt != keywordsMissingValues.end()) { status.SetError(cmStrCat("Keyword missing value: ", *argIt)); cmSystemTools::SetFatalErrorOccured(); return false; } cmRuntimeDependencyArchive archive( status, parsedArgs.Directories, parsedArgs.BundleExecutable, parsedArgs.PreIncludeRegexes, parsedArgs.PreExcludeRegexes, parsedArgs.PostIncludeRegexes, parsedArgs.PostExcludeRegexes); if (!archive.Prepare()) { cmSystemTools::SetFatalErrorOccured(); return false; } if (!archive.GetRuntimeDependencies( parsedArgs.Executables, parsedArgs.Libraries, parsedArgs.Modules)) { cmSystemTools::SetFatalErrorOccured(); return false; } std::vector deps; std::vector unresolvedDeps; std::vector conflictingDeps; for (auto const& val : archive.GetResolvedPaths()) { bool unique = true; auto it = val.second.begin(); assert(it != val.second.end()); auto const& firstPath = *it; while (++it != val.second.end()) { if (!cmSystemTools::SameFile(firstPath, *it)) { unique = false; break; } } if (unique) { deps.push_back(firstPath); } else if (!parsedArgs.ConflictingDependenciesPrefix.empty()) { conflictingDeps.push_back(val.first); std::vector paths; paths.insert(paths.begin(), val.second.begin(), val.second.end()); std::string varName = parsedArgs.ConflictingDependenciesPrefix + "_" + val.first; std::string pathsStr = cmJoin(paths, ";"); status.GetMakefile().AddDefinition(varName, pathsStr); } else { std::ostringstream e; e << "Multiple conflicting paths found for " << val.first << ":"; for (auto const& path : val.second) { e << "\n " << path; } status.SetError(e.str()); cmSystemTools::SetFatalErrorOccured(); return false; } } if (!archive.GetUnresolvedPaths().empty()) { if (!parsedArgs.UnresolvedDependenciesVar.empty()) { unresolvedDeps.insert(unresolvedDeps.begin(), archive.GetUnresolvedPaths().begin(), archive.GetUnresolvedPaths().end()); } else { auto it = archive.GetUnresolvedPaths().begin(); assert(it != archive.GetUnresolvedPaths().end()); status.SetError(cmStrCat("Could not resolve file ", *it)); cmSystemTools::SetFatalErrorOccured(); return false; } } if (!parsedArgs.ResolvedDependenciesVar.empty()) { std::string val = cmJoin(deps, ";"); status.GetMakefile().AddDefinition(parsedArgs.ResolvedDependenciesVar, val); } if (!parsedArgs.UnresolvedDependenciesVar.empty()) { std::string val = cmJoin(unresolvedDeps, ";"); status.GetMakefile().AddDefinition(parsedArgs.UnresolvedDependenciesVar, val); } if (!parsedArgs.ConflictingDependenciesPrefix.empty()) { std::string val = cmJoin(conflictingDeps, ";"); status.GetMakefile().AddDefinition( parsedArgs.ConflictingDependenciesPrefix + "_FILENAMES", val); } return true; } } // namespace bool cmFileCommand(std::vector const& args, cmExecutionStatus& status) { if (args.size() < 2) { status.SetError("must be called with at least two arguments."); return false; } static cmSubcommandTable const subcommand{ { "WRITE"_s, HandleWriteCommand }, { "APPEND"_s, HandleAppendCommand }, { "DOWNLOAD"_s, HandleDownloadCommand }, { "UPLOAD"_s, HandleUploadCommand }, { "READ"_s, HandleReadCommand }, { "MD5"_s, HandleHashCommand }, { "SHA1"_s, HandleHashCommand }, { "SHA224"_s, HandleHashCommand }, { "SHA256"_s, HandleHashCommand }, { "SHA384"_s, HandleHashCommand }, { "SHA512"_s, HandleHashCommand }, { "SHA3_224"_s, HandleHashCommand }, { "SHA3_256"_s, HandleHashCommand }, { "SHA3_384"_s, HandleHashCommand }, { "SHA3_512"_s, HandleHashCommand }, { "STRINGS"_s, HandleStringsCommand }, { "GLOB"_s, HandleGlobCommand }, { "GLOB_RECURSE"_s, HandleGlobRecurseCommand }, { "MAKE_DIRECTORY"_s, HandleMakeDirectoryCommand }, { "RENAME"_s, HandleRename }, { "REMOVE"_s, HandleRemove }, { "REMOVE_RECURSE"_s, HandleRemoveRecurse }, { "COPY"_s, HandleCopyCommand }, { "INSTALL"_s, HandleInstallCommand }, { "DIFFERENT"_s, HandleDifferentCommand }, { "RPATH_CHANGE"_s, HandleRPathChangeCommand }, { "CHRPATH"_s, HandleRPathChangeCommand }, { "RPATH_CHECK"_s, HandleRPathCheckCommand }, { "RPATH_REMOVE"_s, HandleRPathRemoveCommand }, { "READ_ELF"_s, HandleReadElfCommand }, { "RELATIVE_PATH"_s, HandleRelativePathCommand }, { "TO_CMAKE_PATH"_s, HandleCMakePathCommand }, { "TO_NATIVE_PATH"_s, HandleNativePathCommand }, { "TOUCH"_s, HandleTouchCommand }, { "TOUCH_NOCREATE"_s, HandleTouchNocreateCommand }, { "TIMESTAMP"_s, HandleTimestampCommand }, { "GENERATE"_s, HandleGenerateCommand }, { "LOCK"_s, HandleLockCommand }, { "SIZE"_s, HandleSizeCommand }, { "READ_SYMLINK"_s, HandleReadSymlinkCommand }, { "CREATE_LINK"_s, HandleCreateLinkCommand }, { "GET_RUNTIME_DEPENDENCIES"_s, HandleGetRuntimeDependenciesCommand }, }; return subcommand(args[0], args, status); }