module package import os import util #flag -larchive #include "archive.h" struct C.archive {} // Create a new archive struct fn C.archive_read_new() &C.archive // Configure the archive to work with zstd compression fn C.archive_read_support_filter_zstd(&C.archive) // Configure the archive to work with a tarball content fn C.archive_read_support_format_tar(&C.archive) // Open an archive for reading fn C.archive_read_open_filename(&C.archive, &char, int) int // Go to next entry header in archive fn C.archive_read_next_header(&C.archive, &&C.archive_entry) int // Skip reading the current entry fn C.archive_read_data_skip(&C.archive) // Free an archive fn C.archive_read_free(&C.archive) int // Read an archive entry's contents into a pointer fn C.archive_read_data(&C.archive, voidptr, int) #include "archive_entry.h" struct C.archive_entry {} // Create a new archive_entry struct fn C.archive_entry_new() &C.archive_entry // Get the filename of the given entry fn C.archive_entry_pathname(&C.archive_entry) &char // Get an entry's file size // Note: this function actually returns an i64, but as this can't be used as an // arugment to malloc, we'll just roll with it & assume an entry is never // bigger than 4 gigs fn C.archive_entry_size(&C.archive_entry) int #include // Compare two C strings; 0 means they're equal fn C.strcmp(&char, &char) int // Represents a read archive struct Pkg { pub: path string [required] info PkgInfo [required] files []string [required] } // Represents the contents of a .PKGINFO file struct PkgInfo { pub mut: // Single values name string base string version string description string size i64 csize i64 url string arch string build_date i64 packager string // md5sum string // sha256sum string pgpsig string pgpsigsize i64 // Array values groups []string licenses []string replaces []string depends []string conflicts []string provides []string optdepends []string makedepends []string checkdepends []string } // checksum calculates the md5 & sha256 hash of the package pub fn (p &Pkg) checksum() ?(string, string) { return util.hash_file(p.path) } // parse_pkg_info_string parses a PkgInfo object from a string fn parse_pkg_info_string(pkg_info_str &string) ?PkgInfo { mut pkg_info := PkgInfo{} // Iterate over the entire string for line in pkg_info_str.split_into_lines() { // Skip any comment lines if line.starts_with('#') { continue } parts := line.split_nth('=', 2) if parts.len < 2 { return error('Invalid line detected.') } value := parts[1].trim_space() key := parts[0].trim_space() match key { // Single values 'pkgname' { pkg_info.name = value } 'pkgbase' { pkg_info.base = value } 'pkgver' { pkg_info.version = value } 'pkgdesc' { pkg_info.description = value } 'csize' { continue } 'size' { pkg_info.size = value.int() } 'url' { pkg_info.url = value } 'arch' { pkg_info.arch = value } 'builddate' { pkg_info.build_date = value.int() } 'packager' { pkg_info.packager = value } 'md5sum' { continue } 'sha256sum' { continue } 'pgpsig' { pkg_info.pgpsig = value } 'pgpsigsize' { pkg_info.pgpsigsize = value.int() } // Array values 'group' { pkg_info.groups << value } 'license' { pkg_info.licenses << value } 'replaces' { pkg_info.replaces << value } 'depend' { pkg_info.depends << value } 'conflict' { pkg_info.conflicts << value } 'provides' { pkg_info.provides << value } 'optdepend' { pkg_info.optdepends << value } 'makedepend' { pkg_info.makedepends << value } 'checkdepend' { pkg_info.checkdepends << value } else { return error("Invalid key '$key'.") } } } return pkg_info } // read_pkg extracts the file list & .PKGINFO contents from an archive // NOTE: this command currently only supports zstd-compressed tarballs pub fn read_pkg(pkg_path string) ?Pkg { if !os.is_file(pkg_path) { return error("'$pkg_path' doesn't exist or isn't a file.") } a := C.archive_read_new() entry := C.archive_entry_new() mut r := 0 // Sinds 2020, all newly built Arch packages use zstd C.archive_read_support_filter_zstd(a) // The content should always be a tarball C.archive_read_support_format_tar(a) // TODO find out where does this 10240 come from r = C.archive_read_open_filename(a, &char(pkg_path.str), 10240) defer { C.archive_read_free(a) } if r != C.ARCHIVE_OK { return error('Failed to open package.') } mut buf := voidptr(0) mut files := []string{} for C.archive_read_next_header(a, &entry) == C.ARCHIVE_OK { pathname := C.archive_entry_pathname(entry) ignored_names := [c'.BUILDINFO', c'.INSTALL', c'.MTREE', c'.PKGINFO', c'.CHANGELOG'] if ignored_names.all(C.strcmp(it, pathname) != 0) { unsafe { files << cstring_to_vstring(pathname) } } if C.strcmp(pathname, c'.PKGINFO') == 0 { size := C.archive_entry_size(entry) // TODO can this unsafe block be avoided? buf = unsafe { malloc(size) } C.archive_read_data(a, voidptr(buf), size) } else { C.archive_read_data_skip(a) } } mut pkg_info := parse_pkg_info_string(unsafe { cstring_to_vstring(&char(buf)) }) ? pkg_info.csize = i64(os.file_size(pkg_path)) return Pkg{ path: pkg_path info: pkg_info files: files } } fn format_entry(key string, value string) string { return '\n%$key%\n$value\n' } // filename returns the correct filename of the package file pub fn (pkg &Pkg) filename() string { p := pkg.info return '$p.name-$p.version-${p.arch}.pkg.tar.zst' } // to_desc returns a desc file valid string representation // TODO calculate md5 & sha256 instead of believing the file pub fn (pkg &Pkg) to_desc() string { p := pkg.info // filename mut desc := '%FILENAME%\n$pkg.filename()\n' desc += format_entry('NAME', p.name) desc += format_entry('BASE', p.base) desc += format_entry('VERSION', p.version) if p.description.len > 0 { desc += format_entry('DESC', p.description) } if p.groups.len > 0 { desc += format_entry('GROUPS', p.groups.join_lines()) } desc += format_entry('CSIZE', p.csize.str()) desc += format_entry('ISIZE', p.size.str()) md5sum, sha256sum := pkg.checksum() or { '', '' } desc += format_entry('MD5SUM', md5sum) // TODO add this // desc += format_entry('SHA256SUM', sha256sum) // TODO add pgpsig stuff if p.url.len > 0 { desc += format_entry('URL', p.url) } if p.licenses.len > 0 { desc += format_entry('LICENSE', p.licenses.join_lines()) } desc += format_entry('ARCH', p.arch) desc += format_entry('BUILDDATE', p.build_date.str()) desc += format_entry('PACKAGER', p.packager) if p.replaces.len > 0 { desc += format_entry('REPLACES', p.replaces.join_lines()) } if p.conflicts.len > 0 { desc += format_entry('CONFLICTS', p.conflicts.join_lines()) } if p.provides.len > 0 { desc += format_entry('PROVIDES', p.provides.join_lines()) } if p.depends.len > 0 { desc += format_entry('DEPENDS', p.depends.join_lines()) } if p.optdepends.len > 0 { desc += format_entry('OPTDEPENDS', p.optdepends.join_lines()) } if p.makedepends.len > 0 { desc += format_entry('MAKEDEPENDS', p.makedepends.join_lines()) } if p.checkdepends.len > 0 { desc += format_entry('CHECKDEPENDS', p.checkdepends.join_lines()) } return '$desc\n' } // to_files returns a files file valid string representation pub fn (pkg &Pkg) to_files() string { return '%FILES%\n$pkg.files.join_lines()\n' }