use crate::result::{ZipError, ZipResult}; use crate::unstable::{LittleEndianReadExt, LittleEndianWriteExt}; use std::borrow::Cow; use std::io; use std::io::prelude::*; use std::path::{Component, Path}; pub const LOCAL_FILE_HEADER_SIGNATURE: u32 = 0x04034b50; pub const CENTRAL_DIRECTORY_HEADER_SIGNATURE: u32 = 0x02014b50; pub(crate) const CENTRAL_DIRECTORY_END_SIGNATURE: u32 = 0x06054b50; pub const ZIP64_CENTRAL_DIRECTORY_END_SIGNATURE: u32 = 0x06064b50; pub(crate) const ZIP64_CENTRAL_DIRECTORY_END_LOCATOR_SIGNATURE: u32 = 0x07064b50; pub const ZIP64_BYTES_THR: u64 = u32::MAX as u64; pub const ZIP64_ENTRY_THR: usize = u16::MAX as usize; pub struct CentralDirectoryEnd { pub disk_number: u16, pub disk_with_central_directory: u16, pub number_of_files_on_this_disk: u16, pub number_of_files: u16, pub central_directory_size: u32, pub central_directory_offset: u32, pub zip_file_comment: Vec, } impl CentralDirectoryEnd { pub fn parse(reader: &mut T) -> ZipResult { let magic = reader.read_u32_le()?; if magic != CENTRAL_DIRECTORY_END_SIGNATURE { return Err(ZipError::InvalidArchive("Invalid digital signature header")); } let disk_number = reader.read_u16_le()?; let disk_with_central_directory = reader.read_u16_le()?; let number_of_files_on_this_disk = reader.read_u16_le()?; let number_of_files = reader.read_u16_le()?; let central_directory_size = reader.read_u32_le()?; let central_directory_offset = reader.read_u32_le()?; let zip_file_comment_length = reader.read_u16_le()? as usize; let mut zip_file_comment = vec![0; zip_file_comment_length]; reader.read_exact(&mut zip_file_comment)?; Ok(CentralDirectoryEnd { disk_number, disk_with_central_directory, number_of_files_on_this_disk, number_of_files, central_directory_size, central_directory_offset, zip_file_comment, }) } pub fn find_and_parse(reader: &mut T) -> ZipResult<(CentralDirectoryEnd, u64)> { const HEADER_SIZE: u64 = 22; const BYTES_BETWEEN_MAGIC_AND_COMMENT_SIZE: u64 = HEADER_SIZE - 6; let file_length = reader.seek(io::SeekFrom::End(0))?; let search_upper_bound = file_length.saturating_sub(HEADER_SIZE + u16::MAX as u64); if file_length < HEADER_SIZE { return Err(ZipError::InvalidArchive("Invalid zip header")); } let mut pos = file_length - HEADER_SIZE; while pos >= search_upper_bound { reader.seek(io::SeekFrom::Start(pos))?; if reader.read_u32_le()? == CENTRAL_DIRECTORY_END_SIGNATURE { reader.seek(io::SeekFrom::Current( BYTES_BETWEEN_MAGIC_AND_COMMENT_SIZE as i64, ))?; let cde_start_pos = reader.seek(io::SeekFrom::Start(pos))?; if let Ok(end_header) = CentralDirectoryEnd::parse(reader) { return Ok((end_header, cde_start_pos)); } } pos = match pos.checked_sub(1) { Some(p) => p, None => break, }; } Err(ZipError::InvalidArchive( "Could not find central directory end", )) } pub fn write(&self, writer: &mut T) -> ZipResult<()> { writer.write_u32_le(CENTRAL_DIRECTORY_END_SIGNATURE)?; writer.write_u16_le(self.disk_number)?; writer.write_u16_le(self.disk_with_central_directory)?; writer.write_u16_le(self.number_of_files_on_this_disk)?; writer.write_u16_le(self.number_of_files)?; writer.write_u32_le(self.central_directory_size)?; writer.write_u32_le(self.central_directory_offset)?; writer.write_u16_le(self.zip_file_comment.len() as u16)?; writer.write_all(&self.zip_file_comment)?; Ok(()) } } pub struct Zip64CentralDirectoryEndLocator { pub disk_with_central_directory: u32, pub end_of_central_directory_offset: u64, pub number_of_disks: u32, } impl Zip64CentralDirectoryEndLocator { pub fn parse(reader: &mut T) -> ZipResult { let magic = reader.read_u32_le()?; if magic != ZIP64_CENTRAL_DIRECTORY_END_LOCATOR_SIGNATURE { return Err(ZipError::InvalidArchive( "Invalid zip64 locator digital signature header", )); } let disk_with_central_directory = reader.read_u32_le()?; let end_of_central_directory_offset = reader.read_u64_le()?; let number_of_disks = reader.read_u32_le()?; Ok(Zip64CentralDirectoryEndLocator { disk_with_central_directory, end_of_central_directory_offset, number_of_disks, }) } pub fn write(&self, writer: &mut T) -> ZipResult<()> { writer.write_u32_le(ZIP64_CENTRAL_DIRECTORY_END_LOCATOR_SIGNATURE)?; writer.write_u32_le(self.disk_with_central_directory)?; writer.write_u64_le(self.end_of_central_directory_offset)?; writer.write_u32_le(self.number_of_disks)?; Ok(()) } } pub struct Zip64CentralDirectoryEnd { pub version_made_by: u16, pub version_needed_to_extract: u16, pub disk_number: u32, pub disk_with_central_directory: u32, pub number_of_files_on_this_disk: u64, pub number_of_files: u64, pub central_directory_size: u64, pub central_directory_offset: u64, //pub extensible_data_sector: Vec, <-- We don't do anything with this at the moment. } impl Zip64CentralDirectoryEnd { pub fn find_and_parse( reader: &mut T, nominal_offset: u64, search_upper_bound: u64, ) -> ZipResult> { let mut results = Vec::new(); let mut pos = search_upper_bound; while pos >= nominal_offset { reader.seek(io::SeekFrom::Start(pos))?; if reader.read_u32_le()? == ZIP64_CENTRAL_DIRECTORY_END_SIGNATURE { let archive_offset = pos - nominal_offset; let _record_size = reader.read_u64_le()?; // We would use this value if we did anything with the "zip64 extensible data sector". let version_made_by = reader.read_u16_le()?; let version_needed_to_extract = reader.read_u16_le()?; let disk_number = reader.read_u32_le()?; let disk_with_central_directory = reader.read_u32_le()?; let number_of_files_on_this_disk = reader.read_u64_le()?; let number_of_files = reader.read_u64_le()?; let central_directory_size = reader.read_u64_le()?; let central_directory_offset = reader.read_u64_le()?; results.push(( Zip64CentralDirectoryEnd { version_made_by, version_needed_to_extract, disk_number, disk_with_central_directory, number_of_files_on_this_disk, number_of_files, central_directory_size, central_directory_offset, }, archive_offset, )); } if pos > 0 { pos -= 1; } else { break; } } if results.is_empty() { Err(ZipError::InvalidArchive( "Could not find ZIP64 central directory end", )) } else { Ok(results) } } pub fn write(&self, writer: &mut T) -> ZipResult<()> { writer.write_u32_le(ZIP64_CENTRAL_DIRECTORY_END_SIGNATURE)?; writer.write_u64_le(44)?; // record size writer.write_u16_le(self.version_made_by)?; writer.write_u16_le(self.version_needed_to_extract)?; writer.write_u32_le(self.disk_number)?; writer.write_u32_le(self.disk_with_central_directory)?; writer.write_u64_le(self.number_of_files_on_this_disk)?; writer.write_u64_le(self.number_of_files)?; writer.write_u64_le(self.central_directory_size)?; writer.write_u64_le(self.central_directory_offset)?; Ok(()) } } /// Converts a path to the ZIP format (forward-slash-delimited and normalized). pub(crate) fn path_to_string>(path: T) -> String { let mut normalized_components = Vec::new(); // Empty element ensures the path has a leading slash, with no extra allocation after the join normalized_components.push(Cow::Borrowed("")); for component in path.as_ref().components() { match component { Component::Normal(os_str) => { normalized_components.push(os_str.to_string_lossy()); } Component::ParentDir => { if normalized_components.len() > 1 { normalized_components.pop(); } } _ => {} } } normalized_components.join("/") }