#include #include #include #include #include #include "options.h" #include "files.h" #include "fs.h" #include #include #include using namespace std; bool g_debug = getenv("ATREE_DEBUG") != NULL; vector g_listFiles; vector g_inputBases; map g_variables; string g_outputBase; string g_dependency; bool g_useHardLinks = false; const char* USAGE = "\n" "Usage: atree OPTIONS\n" "\n" "Options:\n" " -f FILELIST Specify one or more files containing the\n" " list of files to copy.\n" " -I INPUTDIR Specify one or more base directories in\n" " which to look for the files\n" " -o OUTPUTDIR Specify the directory to copy all of the\n" " output files to.\n" " -l Use hard links instead of copying the files.\n" " -m DEPENDENCY Output a make-formatted file containing the list.\n" " of files included. It sets the variable ATREE_FILES.\n" " -v VAR=VAL Replaces ${VAR} by VAL when reading input files.\n" " -d Verbose debug mode.\n" "\n" "FILELIST file format:\n" " The FILELIST files contain the list of files that will end up\n" " in the final OUTPUTDIR. Atree will look for files in the INPUTDIR\n" " directories in the order they are specified.\n" "\n" " In a FILELIST file, comment lines start with a #. Other lines\n" " are of the format:\n" "\n" " [rm|strip] DEST\n" " SRC [strip] DEST\n" " -SRCPATTERN\n" "\n" " DEST should be path relative to the output directory.\n" " 'rm DEST' removes the destination file and fails if it's missing.\n" " 'strip DEST' strips the binary destination file.\n" " If SRC is supplied, the file names can be different.\n" " SRCPATTERN is a pattern for the filenames.\n" "\n"; int usage() { fwrite(USAGE, strlen(USAGE), 1, stderr); return 1; } static bool add_variable(const char* arg) { const char* p = arg; while (*p && *p != '=') p++; if (*p == 0 || p == arg || p[1] == 0) { return false; } ostringstream var; var << "${" << string(arg, p-arg) << "}"; g_variables[var.str()] = string(p+1); return true; } static void debug_printf(const char* format, ...) { if (g_debug) { fflush(stderr); va_list ap; va_start(ap, format); vprintf(format, ap); va_end(ap); fflush(stdout); } } // Escape the filename so that it can be added to the makefile properly. static string escape_filename(const string& name) { ostringstream new_name; for (string::const_iterator iter = name.begin(); iter != name.end(); ++iter) { switch (*iter) { case '$': new_name << "$$"; break; default: new_name << *iter; break; } } return new_name.str(); } int main(int argc, char* const* argv) { int err; bool done = false; while (!done) { int opt = getopt(argc, argv, "f:I:o:hlm:v:d"); switch (opt) { case -1: done = true; break; case 'f': g_listFiles.push_back(string(optarg)); break; case 'I': g_inputBases.push_back(string(optarg)); break; case 'o': if (g_outputBase.length() != 0) { fprintf(stderr, "%s: -o may only be supplied once -- " "-o %s\n", argv[0], optarg); return usage(); } g_outputBase = optarg; break; case 'l': g_useHardLinks = true; break; case 'm': if (g_dependency.length() != 0) { fprintf(stderr, "%s: -m may only be supplied once -- " "-m %s\n", argv[0], optarg); return usage(); } g_dependency = optarg; break; case 'v': if (!add_variable(optarg)) { fprintf(stderr, "%s Invalid expression in '-v %s': " "expected format is '-v VAR=VALUE'.\n", argv[0], optarg); return usage(); } break; case 'd': g_debug = true; break; default: case '?': case 'h': return usage(); } } if (optind != argc) { fprintf(stderr, "%s: invalid argument -- %s\n", argv[0], argv[optind]); return usage(); } if (g_listFiles.size() == 0) { fprintf(stderr, "%s: At least one -f option must be supplied.\n", argv[0]); return usage(); } if (g_inputBases.size() == 0) { fprintf(stderr, "%s: At least one -I option must be supplied.\n", argv[0]); return usage(); } if (g_outputBase.length() == 0) { fprintf(stderr, "%s: -o option must be supplied.\n", argv[0]); return usage(); } #if 0 for (vector::iterator it=g_listFiles.begin(); it!=g_listFiles.end(); it++) { printf("-f \"%s\"\n", it->c_str()); } for (vector::iterator it=g_inputBases.begin(); it!=g_inputBases.end(); it++) { printf("-I \"%s\"\n", it->c_str()); } printf("-o \"%s\"\n", g_outputBase.c_str()); if (g_useHardLinks) { printf("-l\n"); } #endif vector files; vector more; vector excludes; set directories; set deleted; // read file lists for (vector::iterator it=g_listFiles.begin(); it!=g_listFiles.end(); it++) { err = read_list_file(*it, g_variables, &files, &excludes); if (err != 0) { return err; } } // look for input files err = 0; for (vector::iterator it=files.begin(); it!=files.end(); it++) { err |= locate(&(*it), g_inputBases); } // expand the directories that we should copy into a list of files for (vector::iterator it=files.begin(); it!=files.end(); it++) { if (it->sourceIsDir) { err |= list_dir(*it, excludes, &more); } } for (vector::iterator it=more.begin(); it!=more.end(); it++) { files.push_back(*it); } // get the name and modtime of the output files for (vector::iterator it=files.begin(); it!=files.end(); it++) { stat_out(g_outputBase, &(*it)); } if (err != 0) { return 1; } // gather directories for (vector::iterator it=files.begin(); it!=files.end(); it++) { if (it->sourceIsDir) { directories.insert(it->outPath); } else { string s = dir_part(it->outPath); if (s != ".") { directories.insert(s); } } } // gather files that should become directores // and directories that should become files for (vector::iterator it=files.begin(); it!=files.end(); it++) { if (it->outMod != 0 && it->sourceIsDir != it->outIsDir) { deleted.insert(it->outPath); } } // delete files for (set::iterator it=deleted.begin(); it!=deleted.end(); it++) { debug_printf("deleting %s\n", it->c_str()); err = remove_recursively(*it); if (err != 0) { return err; } } // remove all files or directories as requested from the input atree file. // must be done before create new directories. for (vector::iterator it=files.begin(); it!=files.end(); it++) { if (!it->sourceIsDir) { if (it->fileOp == FILE_OP_REMOVE && deleted.count(it->outPath) == 0) { debug_printf("remove %s\n", it->outPath.c_str()); err = remove_recursively(it->outPath); if (err != 0) { return err; } } } } // make directories for (set::iterator it=directories.begin(); it!=directories.end(); it++) { debug_printf("mkdir %s\n", it->c_str()); err = mkdir_recursively(*it); if (err != 0) { return err; } } // copy (or link) files that are newer or of different size for (vector::iterator it=files.begin(); it!=files.end(); it++) { if (!it->sourceIsDir) { if (it->fileOp == FILE_OP_REMOVE) { continue; } debug_printf("copy %s(%ld) ==> %s(%ld)", it->sourcePath.c_str(), it->sourceMod, it->outPath.c_str(), it->outMod); if (it->outSize != it->sourceSize || it->outMod < it->sourceMod) { err = copy_file(it->sourcePath, it->outPath); debug_printf(" done.\n"); if (err != 0) { return err; } } else { debug_printf(" skipping.\n"); } if (it->fileOp == FILE_OP_STRIP) { debug_printf("strip %s\n", it->outPath.c_str()); err = strip_file(it->outPath); if (err != 0) { return err; } } } } // output the dependency file if (g_dependency.length() != 0) { FILE *f = fopen(g_dependency.c_str(), "w"); if (f != NULL) { fprintf(f, "ATREE_FILES := $(ATREE_FILES) \\\n"); for (vector::iterator it=files.begin(); it!=files.end(); it++) { if (!it->sourceIsDir) { fprintf(f, "%s \\\n", escape_filename(it->sourcePath).c_str()); } } fprintf(f, "\n"); fclose(f); } else { fprintf(stderr, "error opening manifest file for write: %s\n", g_dependency.c_str()); } } return 0; }