proxmox-backup/proxmox-protocol/src/server.rs

use std::collections::hash_map::{self, HashMap};
use std::io::{Read, Write};
use std::{mem, ptr};

use failure::*;

use endian_trait::Endian;

use crate::common;
use crate::protocol::*;
use crate::ChunkEntry;
use crate::FixedChunk;

type Result<T> = std::result::Result<T, Error>;

pub trait ChunkList: Send {
    fn next(&mut self) -> Result<Option<&[u8; 32]>>;
}

/// This provides callbacks used by a `Connection` when it receives a packet.
pub trait HandleClient {
    /// The protocol handler will call this when the client produces an irrecoverable error.
    fn error(&self);

    /// The client wants the list of hashes, the provider should provide an iterator over chunk
    /// entries.
    fn get_chunk_list(&self, backup_name: &str) -> Result<Box<dyn ChunkList>>;

    /// The client has uploaded a chunk, we should add it to the chunk store. Return whether the
    /// chunk was new.
    fn upload_chunk(&self, chunk: &ChunkEntry, data: &[u8]) -> Result<bool>;

    /// The client wants to create a backup. Since multiple backup streams can happen in parallel,
    /// this should return a handler used to create the individual streams.
    /// The handler will be informed about success via the ``finish()`` method.
    fn create_backup(
        &self,
        backup_type: &str,
        id: &str,
        timestamp: i64,
        new: bool,
    ) -> Result<Box<dyn HandleBackup + Send>>;
}

/// A single backup may contain multiple files. Currently we represent this via a hierarchy where
/// the `HandleBackup` trait is instantiated for each backup, which is responsible for
/// instantiating the `BackupFile` trait objects.
pub trait HandleBackup {
    /// All individual streams for this backup have been successfully finished.
    fn finish(&mut self) -> Result<()>;

    /// Create a specific file in this backup.
    fn create_file(
        &self,
        name: &str,
        fixed_size: Option<u64>,
        chunk_size: usize,
    ) -> Result<Box<dyn BackupFile + Send>>;
}

/// This handles backup files created by calling `create_file` on a `Backup`.
pub trait BackupFile {
    /// Backup use the server-local timestamp formatting, so we want to be able to tell the client
    /// the real remote path:
    fn relative_path(&self) -> &str;

    /// The client wants to add a chunk to a fixed index file at a certain position.
    fn add_fixed_data(&mut self, index: u64, chunk: &FixedChunk) -> Result<()>;

    /// The client wants to add a chunks to a dynamic index file.
    fn add_dynamic_data(&mut self, chunk: &DynamicChunk) -> Result<()>;

    /// This notifies the handler that the backup has finished successfully. This should commit the
    /// data to the store for good. After this the client will receive an "ok".
    ///
    /// If the Drop handler gets called before this method, the backup was aborted due to an error
    /// or the client disconnected unexpectedly, in which case cleanup of temporary files should be
    /// performed.
    fn finish(&mut self) -> Result<()>;
}

#[derive(Clone, Eq, Hash, PartialEq)]
struct BackupId(backup_type::Type, String, i64);

/// Associates a socket with the server side of the backup protocol.
/// The communcation channel should be `Read + Write` and may be non-blocking (provided it
/// correctly returns `io::ErrorKind::WouldBlock`).
/// The handler has to implement the `HandleClient` trait to provide callbacks used while
/// communicating with the client.
pub struct Connection<S, H>
where
    S: Read + Write,
    H: HandleClient,
{
    handler: H,
    common: common::Connection<S>,

    // states:

    // If this is set we are currently transferring our hash list to the client:
    hash_list: Option<(
        u8, // data stream ID
        Box<dyn ChunkList>,
    )>,

    // currently active 'backups' (handlers for a specific BackupDir)
    backups: HashMap<BackupId, Box<dyn HandleBackup + Send>>,

    // currently active backup *file* streams
    backup_files: HashMap<u8, Box<dyn BackupFile + Send>>,
}

impl<S, H> Connection<S, H>
where
    S: Read + Write,
    H: HandleClient,
{
    pub fn new(socket: S, handler: H) -> Result<Self> {
        let mut me = Self {
            handler,
            common: common::Connection::new(socket),
            hash_list: None,
            backups: HashMap::new(),
            backup_files: HashMap::new(),
        };

        me.send_hello()?;
        Ok(me)
    }

    fn send_hello(&mut self) -> Result<()> {
        let mut packet = Packet::builder(0, PacketType::Hello);
        packet.write_data(server::Hello {
            magic: server::HELLO_MAGIC,
            version: server::PROTOCOL_VERSION,
        });
        self.common.queue_data(packet.finish())?;
        Ok(())
    }

    pub fn eof(&self) -> bool {
        self.common.eof
    }

    /// It is safe to clear the error after an `io::ErrorKind::Interrupted`.
    pub fn clear_err(&mut self) {
        self.common.clear_err()
    }

    pub fn main(&mut self) -> Result<()> {
        self.poll_read()?;
        self.poll_send()?;
        Ok(())
    }

    // If this returns an error it is considered fatal and the connection should be dropped!
    fn poll_read(&mut self) -> Result<()> {
        if self.common.eof {
            // polls after EOF are errors:
            bail!("client disconnected");
        }

        if !self.common.poll_read()? {
            // No data available
            if self.common.eof {
                bail!("client disconnected");
            }
            return Ok(());
        }

        // we received a packet, handle it:

        loop {
            use PacketType::*;
            match self.common.current_packet_type {
                GetHashList => self.hash_list_requested()?,
                UploadChunk => self.receive_chunk()?,
                CreateBackup => self.create_backup()?,
                BackupDataDynamic => self.backup_data_dynamic()?,
                BackupDataFixed => self.backup_data_fixed()?,
                BackupFinished => self.backup_finished()?,
                _ => bail!(
                    "client sent an unexpected packet of type {}",
                    self.common.current_packet_type as u32,
                ),
            };
            self.common.next()?;
            if !self.common.poll_read()? {
                break;
            }
        }

        Ok(())
    }

    fn poll_send(&mut self) -> Result<()> {
        if self.common.error {
            eprintln!("refusing to send datato client in error state");
            bail!("client is in error state");
        }

        if let Some(false) = self.common.poll_send()? {
            // send queue is not finished, don't add anything else...
            return Ok(());
        }

        // Queue has either finished or was empty, see if we should enqueue more data:
        if self.hash_list.is_some() {
            return self.send_hash_list();
        }
        Ok(())
    }

    fn hash_list_requested(&mut self) -> Result<()> {
        // Verify protocol: GetHashList is an empty packet.
        let request = self.common.read_unaligned_data::<client::GetHashList>(0)?;
        self.common
            .assert_size(mem::size_of_val(&request) + request.name_length as usize)?;
        let name_bytes = &self.common.packet_data()[mem::size_of_val(&request)..];
        let name = std::str::from_utf8(name_bytes)?;

        // We support only one active hash list stream:
        if self.hash_list.is_some() {
            return self.respond_error(ErrorId::Busy);
        }

        self.hash_list = Some((
            self.common.current_packet.id,
            self.handler.get_chunk_list(name)?,
        ));

        Ok(())
    }

    fn send_hash_list(&mut self) -> Result<()> {
        loop {
            let (stream_id, hash_iter) = self.hash_list.as_mut().unwrap();

            let max_chunks_per_packet = (MAX_PACKET_SIZE as usize - mem::size_of::<Packet>())
                / mem::size_of::<FixedChunk>();

            let mut packet = Packet::builder(*stream_id, PacketType::HashListPart);
            packet.reserve(mem::size_of::<FixedChunk>() * max_chunks_per_packet);

            let mut count = 0;
            for _ in 0..max_chunks_per_packet {
                let entry: &[u8; 32] = match hash_iter.next() {
                    Ok(Some(entry)) => entry,
                    Ok(None) => break,
                    Err(e) => {
                        eprintln!("error sending chunk list to client: {}", e);
                        continue;
                    }
                };

                packet.write_buf(entry);
                count += 1;
            }

            let can_send_more = self.common.queue_data(packet.finish())?;

            if count == 0 {
                // We just sent the EOF packet, clear our iterator state!
                self.hash_list = None;
                break;
            }

            if !can_send_more {
                break;
            }
        }
        Ok(())
    }

    fn respond_error(&mut self, kind: ErrorId) -> Result<()> {
        self.respond_value(PacketType::Error, kind)?;
        Ok(())
    }

    fn respond_value<T: Endian>(&mut self, pkttype: PacketType, data: T) -> Result<()> {
        let mut packet = Packet::builder(self.common.current_packet.id, pkttype);
        packet.write_data(data);
        self.common.queue_data(packet.finish())?;
        Ok(())
    }

    fn respond_empty(&mut self, pkttype: PacketType) -> Result<()> {
        self.common
            .queue_data(Packet::simple(self.common.current_packet.id, pkttype))?;
        Ok(())
    }

    fn respond_ok(&mut self) -> Result<()> {
        self.respond_empty(PacketType::Ok)
    }

    fn receive_chunk(&mut self) -> Result<()> {
        self.common
            .assert_atleast(mem::size_of::<client::UploadChunk>())?;
        let data = self.common.packet_data();
        let (hash, data) = data.split_at(mem::size_of::<FixedChunk>());
        if data.len() == 0 {
            bail!("received an empty chunk");
        }
        let entry = ChunkEntry::from_data(data);
        if entry.hash != hash {
            let cli_hash = crate::tools::digest_to_hex(hash);
            let data_hash = entry.digest_to_hex();
            bail!(
                "client claimed data with digest {} has digest {}",
                data_hash,
                cli_hash
            );
        }
        let _new = self.handler.upload_chunk(&entry, data)?;
        self.respond_ok()
    }

    fn create_backup(&mut self) -> Result<()> {
        if self
            .backup_files
            .contains_key(&self.common.current_packet.id)
        {
            bail!("stream id already in use...");
        }

        let create_msg = self.common.read_unaligned_data::<client::CreateBackup>(0)?;

        // simple data:
        let flags = create_msg.flags;
        let backup_type = create_msg.backup_type;
        let time = create_msg.timestamp as i64;

        // text comes from the payload data after the CreateBackup struct:
        let data = self.common.packet_data();
        let payload = &data[mem::size_of_val(&create_msg)..];

        // there must be exactly the ID and the file name in the payload:
        let id_len = create_msg.id_length as usize;
        let name_len = create_msg.name_length as usize;
        let expected_len = id_len + name_len;
        if payload.len() < expected_len {
            bail!("client sent incomplete CreateBackup request");
        } else if payload.len() > expected_len {
            bail!("client sent excess data in CreateBackup request");
        }

        // id and file name must be utf8:
        let id = std::str::from_utf8(&payload[0..id_len])
            .map_err(|e| format_err!("client-requested backup id is invalid: {}", e))?;
        let file_name = std::str::from_utf8(&payload[id_len..])
            .map_err(|e| format_err!("client-requested backup file name invalid: {}", e))?;

        // Sanity check dynamic vs fixed:
        let is_dynamic = (flags & backup_flags::DYNAMIC_CHUNKS) != 0;
        let file_size = match (is_dynamic, create_msg.file_size) {
            (false, size) => Some(size),
            (true, 0) => None,
            (true, _) => bail!("file size of dynamic streams must be zero"),
        };

        // search or create the handler:
        let hashmap_id = BackupId(backup_type, id.to_string(), time);
        let handle = match self.backups.entry(hashmap_id) {
            hash_map::Entry::Vacant(entry) => entry.insert(self.handler.create_backup(
                backup_type::id_to_name(backup_type)?,
                id,
                time,
                (flags & backup_flags::EXCL) != 0,
            )?),
            hash_map::Entry::Occupied(entry) => entry.into_mut(),
        };
        let file = handle.create_file(file_name, file_size, create_msg.chunk_size as usize)?;

        let mut response =
            Packet::builder(self.common.current_packet.id, PacketType::BackupCreated);
        let path = file.relative_path();
        if path.len() > 0xffff {
            bail!("path too long");
        }
        response
            .write_data(server::BackupCreated {
                path_length: path.len() as _,
            })
            .write_buf(path.as_bytes());
        self.common.queue_data(response.finish())?;

        self.backup_files
            .insert(self.common.current_packet.id, file);

        Ok(())
    }

    fn backup_data_dynamic(&mut self) -> Result<()> {
        let stream_id = self.common.current_packet.id;
        let file = self
            .backup_files
            .get_mut(&stream_id)
            .ok_or_else(|| format_err!("BackupDataDynamic for invalid stream id {}", stream_id))?;

        let mut data = self.common.packet_data();
        // Data consists of (offset: u64, hash: [u8; 32])
        let entry_len = mem::size_of::<DynamicChunk>();

        while data.len() >= entry_len {
            let mut entry = unsafe { ptr::read_unaligned(data.as_ptr() as *const DynamicChunk) };
            data = &data[entry_len..];

            entry.offset = entry.offset.from_le();
            file.add_dynamic_data(&entry)?;
        }

        if data.len() != 0 {
            bail!(
                "client sent excess data ({} bytes) after dynamic chunk indices!",
                data.len()
            );
        }

        Ok(())
    }

    fn backup_data_fixed(&mut self) -> Result<()> {
        let stream_id = self.common.current_packet.id;
        let file = self
            .backup_files
            .get_mut(&stream_id)
            .ok_or_else(|| format_err!("BackupDataFixed for invalid stream id {}", stream_id))?;

        let mut data = self.common.packet_data();
        // Data consists of (index: u64, hash: [u8; 32])
        #[repr(C, packed)]
        struct IndexedChunk {
            index: u64,
            digest: FixedChunk,
        }
        let entry_len = mem::size_of::<IndexedChunk>();

        while data.len() >= entry_len {
            let mut entry = unsafe { ptr::read_unaligned(data.as_ptr() as *const IndexedChunk) };
            data = &data[entry_len..];

            entry.index = entry.index.from_le();
            file.add_fixed_data(entry.index, &entry.digest)?;
        }

        if data.len() != 0 {
            bail!(
                "client sent excess data ({} bytes) after dynamic chunk indices!",
                data.len()
            );
        }

        Ok(())
    }

    fn backup_finished(&mut self) -> Result<()> {
        let stream_id = self.common.current_packet.id;
        let mut file = self
            .backup_files
            .remove(&stream_id)
            .ok_or_else(|| format_err!("BackupDataDynamic for invalid stream id {}", stream_id))?;
        file.finish()?;
        self.respond_ok()
    }
}
import proxmox-protocol crate This is supposed to contain only the parts necessary to communicate with the server via the proxmox backup protocol. (Including the chunker, which is currently `include!()`d from the main crate. Signed-off-by: Wolfgang Bumiller <w.bumiller@proxmox.com> 2019-03-06 09:16:35 +00:00			`use std::collections::hash_map::{self, HashMap};`
			`use std::io::{Read, Write};`
			`use std::{mem, ptr};`

			`use failure::*;`

			`use endian_trait::Endian;`

			`use crate::common;`
			`use crate::protocol::*;`
			`use crate::ChunkEntry;`
			`use crate::FixedChunk;`

			`type Result<T> = std::result::Result<T, Error>;`

			`pub trait ChunkList: Send {`
			`fn next(&mut self) -> Result<Option<&[u8; 32]>>;`
			`}`

			/// This provides callbacks used by a `Connection` when it receives a packet.
			`pub trait HandleClient {`
			`/// The protocol handler will call this when the client produces an irrecoverable error.`
			`fn error(&self);`

			`/// The client wants the list of hashes, the provider should provide an iterator over chunk`
			`/// entries.`
			`fn get_chunk_list(&self, backup_name: &str) -> Result<Box<dyn ChunkList>>;`

			`/// The client has uploaded a chunk, we should add it to the chunk store. Return whether the`
			`/// chunk was new.`
			`fn upload_chunk(&self, chunk: &ChunkEntry, data: &[u8]) -> Result<bool>;`

			`/// The client wants to create a backup. Since multiple backup streams can happen in parallel,`
			`/// this should return a handler used to create the individual streams.`
			/// The handler will be informed about success via the ``finish()`` method.
			`fn create_backup(`
			`&self,`
			`backup_type: &str,`
			`id: &str,`
			`timestamp: i64,`
			`new: bool,`
			`) -> Result<Box<dyn HandleBackup + Send>>;`
			`}`

			`/// A single backup may contain multiple files. Currently we represent this via a hierarchy where`
			/// the `HandleBackup` trait is instantiated for each backup, which is responsible for
			/// instantiating the `BackupFile` trait objects.
			`pub trait HandleBackup {`
			`/// All individual streams for this backup have been successfully finished.`
			`fn finish(&mut self) -> Result<()>;`

			`/// Create a specific file in this backup.`
			`fn create_file(`
			`&self,`
			`name: &str,`
			`fixed_size: Option<u64>,`
			`chunk_size: usize,`
			`) -> Result<Box<dyn BackupFile + Send>>;`
			`}`

			/// This handles backup files created by calling `create_file` on a `Backup`.
			`pub trait BackupFile {`
			`/// Backup use the server-local timestamp formatting, so we want to be able to tell the client`
			`/// the real remote path:`
			`fn relative_path(&self) -> &str;`

			`/// The client wants to add a chunk to a fixed index file at a certain position.`
			`fn add_fixed_data(&mut self, index: u64, chunk: &FixedChunk) -> Result<()>;`

			`/// The client wants to add a chunks to a dynamic index file.`
			`fn add_dynamic_data(&mut self, chunk: &DynamicChunk) -> Result<()>;`

			`/// This notifies the handler that the backup has finished successfully. This should commit the`
			`/// data to the store for good. After this the client will receive an "ok".`
			`///`
			`/// If the Drop handler gets called before this method, the backup was aborted due to an error`
			`/// or the client disconnected unexpectedly, in which case cleanup of temporary files should be`
			`/// performed.`
			`fn finish(&mut self) -> Result<()>;`
			`}`

			`#[derive(Clone, Eq, Hash, PartialEq)]`
			`struct BackupId(backup_type::Type, String, i64);`

			`/// Associates a socket with the server side of the backup protocol.`
			/// The communcation channel should be `Read + Write` and may be non-blocking (provided it
			/// correctly returns `io::ErrorKind::WouldBlock`).
			/// The handler has to implement the `HandleClient` trait to provide callbacks used while
			`/// communicating with the client.`
			`pub struct Connection<S, H>`
			`where`
			`S: Read + Write,`
			`H: HandleClient,`
			`{`
			`handler: H,`
			`common: common::Connection<S>,`

			`// states:`

			`// If this is set we are currently transferring our hash list to the client:`
			`hash_list: Option<(`
			`u8, // data stream ID`
			`Box<dyn ChunkList>,`
			`)>,`

			`// currently active 'backups' (handlers for a specific BackupDir)`
			`backups: HashMap<BackupId, Box<dyn HandleBackup + Send>>,`

			`// currently active backup file streams`
			`backup_files: HashMap<u8, Box<dyn BackupFile + Send>>,`
			`}`

			`impl<S, H> Connection<S, H>`
			`where`
			`S: Read + Write,`
			`H: HandleClient,`
			`{`
			`pub fn new(socket: S, handler: H) -> Result<Self> {`
			`let mut me = Self {`
			`handler,`
			`common: common::Connection::new(socket),`
			`hash_list: None,`
			`backups: HashMap::new(),`
			`backup_files: HashMap::new(),`
			`};`

			`me.send_hello()?;`
			`Ok(me)`
			`}`

			`fn send_hello(&mut self) -> Result<()> {`
			`let mut packet = Packet::builder(0, PacketType::Hello);`
			`packet.write_data(server::Hello {`
			`magic: server::HELLO_MAGIC,`
			`version: server::PROTOCOL_VERSION,`
			`});`
			`self.common.queue_data(packet.finish())?;`
			`Ok(())`
			`}`

			`pub fn eof(&self) -> bool {`
			`self.common.eof`
			`}`

			/// It is safe to clear the error after an `io::ErrorKind::Interrupted`.
			`pub fn clear_err(&mut self) {`
			`self.common.clear_err()`
			`}`

			`pub fn main(&mut self) -> Result<()> {`
			`self.poll_read()?;`
			`self.poll_send()?;`
			`Ok(())`
			`}`

			`// If this returns an error it is considered fatal and the connection should be dropped!`
			`fn poll_read(&mut self) -> Result<()> {`
			`if self.common.eof {`
			`// polls after EOF are errors:`
			`bail!("client disconnected");`
			`}`

			`if !self.common.poll_read()? {`
			`// No data available`
			`if self.common.eof {`
			`bail!("client disconnected");`
			`}`
			`return Ok(());`
			`}`

			`// we received a packet, handle it:`

			`loop {`
			`use PacketType::*;`
			`match self.common.current_packet_type {`
			`GetHashList => self.hash_list_requested()?,`
			`UploadChunk => self.receive_chunk()?,`
			`CreateBackup => self.create_backup()?,`
			`BackupDataDynamic => self.backup_data_dynamic()?,`
			`BackupDataFixed => self.backup_data_fixed()?,`
			`BackupFinished => self.backup_finished()?,`
			`_ => bail!(`
			`"client sent an unexpected packet of type {}",`
			`self.common.current_packet_type as u32,`
			`),`
			`};`
protocol: allow explicitly polling for a single packet When using blocking I/O wait_for_* functions need to be able to not read past their awaited packet. Signed-off-by: Wolfgang Bumiller <w.bumiller@proxmox.com> 2019-03-07 12:50:41 +00:00			`self.common.next()?;`
			`if !self.common.poll_read()? {`
import proxmox-protocol crate This is supposed to contain only the parts necessary to communicate with the server via the proxmox backup protocol. (Including the chunker, which is currently `include!()`d from the main crate. Signed-off-by: Wolfgang Bumiller <w.bumiller@proxmox.com> 2019-03-06 09:16:35 +00:00			`break;`
			`}`
			`}`

			`Ok(())`
			`}`

			`fn poll_send(&mut self) -> Result<()> {`
			`if self.common.error {`
			`eprintln!("refusing to send datato client in error state");`
			`bail!("client is in error state");`
			`}`

			`if let Some(false) = self.common.poll_send()? {`
			`// send queue is not finished, don't add anything else...`
			`return Ok(());`
			`}`

			`// Queue has either finished or was empty, see if we should enqueue more data:`
			`if self.hash_list.is_some() {`
			`return self.send_hash_list();`
			`}`
			`Ok(())`
			`}`

			`fn hash_list_requested(&mut self) -> Result<()> {`
			`// Verify protocol: GetHashList is an empty packet.`
			`let request = self.common.read_unaligned_data::<client::GetHashList>(0)?;`
			`self.common`
			`.assert_size(mem::size_of_val(&request) + request.name_length as usize)?;`
			`let name_bytes = &self.common.packet_data()[mem::size_of_val(&request)..];`
			`let name = std::str::from_utf8(name_bytes)?;`

			`// We support only one active hash list stream:`
			`if self.hash_list.is_some() {`
			`return self.respond_error(ErrorId::Busy);`
			`}`

			`self.hash_list = Some((`
			`self.common.current_packet.id,`
			`self.handler.get_chunk_list(name)?,`
			`));`

			`Ok(())`
			`}`

			`fn send_hash_list(&mut self) -> Result<()> {`
			`loop {`
			`let (stream_id, hash_iter) = self.hash_list.as_mut().unwrap();`

			`let max_chunks_per_packet = (MAX_PACKET_SIZE as usize - mem::size_of::<Packet>())`
			`/ mem::size_of::<FixedChunk>();`

			`let mut packet = Packet::builder(*stream_id, PacketType::HashListPart);`
			`packet.reserve(mem::size_of::<FixedChunk>() * max_chunks_per_packet);`

			`let mut count = 0;`
			`for _ in 0..max_chunks_per_packet {`
			`let entry: &[u8; 32] = match hash_iter.next() {`
			`Ok(Some(entry)) => entry,`
			`Ok(None) => break,`
			`Err(e) => {`
			`eprintln!("error sending chunk list to client: {}", e);`
			`continue;`
			`}`
			`};`

			`packet.write_buf(entry);`
			`count += 1;`
			`}`

			`let can_send_more = self.common.queue_data(packet.finish())?;`

			`if count == 0 {`
			`// We just sent the EOF packet, clear our iterator state!`
			`self.hash_list = None;`
			`break;`
			`}`

			`if !can_send_more {`
			`break;`
			`}`
			`}`
			`Ok(())`
			`}`

			`fn respond_error(&mut self, kind: ErrorId) -> Result<()> {`
			`self.respond_value(PacketType::Error, kind)?;`
			`Ok(())`
			`}`

			`fn respond_value<T: Endian>(&mut self, pkttype: PacketType, data: T) -> Result<()> {`
			`let mut packet = Packet::builder(self.common.current_packet.id, pkttype);`
			`packet.write_data(data);`
			`self.common.queue_data(packet.finish())?;`
			`Ok(())`
			`}`

			`fn respond_empty(&mut self, pkttype: PacketType) -> Result<()> {`
			`self.common`
			`.queue_data(Packet::simple(self.common.current_packet.id, pkttype))?;`
			`Ok(())`
			`}`

			`fn respond_ok(&mut self) -> Result<()> {`
			`self.respond_empty(PacketType::Ok)`
			`}`

			`fn receive_chunk(&mut self) -> Result<()> {`
			`self.common`
			`.assert_atleast(mem::size_of::<client::UploadChunk>())?;`
			`let data = self.common.packet_data();`
			`let (hash, data) = data.split_at(mem::size_of::<FixedChunk>());`
			`if data.len() == 0 {`
			`bail!("received an empty chunk");`
			`}`
			`let entry = ChunkEntry::from_data(data);`
			`if entry.hash != hash {`
			`let cli_hash = crate::tools::digest_to_hex(hash);`
			`let data_hash = entry.digest_to_hex();`
			`bail!(`
			`"client claimed data with digest {} has digest {}",`
			`data_hash,`
			`cli_hash`
			`);`
			`}`
			`let _new = self.handler.upload_chunk(&entry, data)?;`
			`self.respond_ok()`
			`}`

			`fn create_backup(&mut self) -> Result<()> {`
			`if self`
			`.backup_files`
			`.contains_key(&self.common.current_packet.id)`
			`{`
			`bail!("stream id already in use...");`
			`}`

			`let create_msg = self.common.read_unaligned_data::<client::CreateBackup>(0)?;`

			`// simple data:`
			`let flags = create_msg.flags;`
			`let backup_type = create_msg.backup_type;`
			`let time = create_msg.timestamp as i64;`

			`// text comes from the payload data after the CreateBackup struct:`
			`let data = self.common.packet_data();`
			`let payload = &data[mem::size_of_val(&create_msg)..];`

			`// there must be exactly the ID and the file name in the payload:`
			`let id_len = create_msg.id_length as usize;`
			`let name_len = create_msg.name_length as usize;`
			`let expected_len = id_len + name_len;`
			`if payload.len() < expected_len {`
			`bail!("client sent incomplete CreateBackup request");`
			`} else if payload.len() > expected_len {`
			`bail!("client sent excess data in CreateBackup request");`
			`}`

			`// id and file name must be utf8:`
			`let id = std::str::from_utf8(&payload[0..id_len])`
			`.map_err(\|e\| format_err!("client-requested backup id is invalid: {}", e))?;`
			`let file_name = std::str::from_utf8(&payload[id_len..])`
			`.map_err(\|e\| format_err!("client-requested backup file name invalid: {}", e))?;`

			`// Sanity check dynamic vs fixed:`
			`let is_dynamic = (flags & backup_flags::DYNAMIC_CHUNKS) != 0;`
			`let file_size = match (is_dynamic, create_msg.file_size) {`
			`(false, size) => Some(size),`
			`(true, 0) => None,`
			`(true, _) => bail!("file size of dynamic streams must be zero"),`
			`};`

			`// search or create the handler:`
			`let hashmap_id = BackupId(backup_type, id.to_string(), time);`
			`let handle = match self.backups.entry(hashmap_id) {`
			`hash_map::Entry::Vacant(entry) => entry.insert(self.handler.create_backup(`
			`backup_type::id_to_name(backup_type)?,`
			`id,`
			`time,`
			`(flags & backup_flags::EXCL) != 0,`
			`)?),`
			`hash_map::Entry::Occupied(entry) => entry.into_mut(),`
			`};`
			`let file = handle.create_file(file_name, file_size, create_msg.chunk_size as usize)?;`

			`let mut response =`
			`Packet::builder(self.common.current_packet.id, PacketType::BackupCreated);`
			`let path = file.relative_path();`
			`if path.len() > 0xffff {`
			`bail!("path too long");`
			`}`
			`response`
			`.write_data(server::BackupCreated {`
			`path_length: path.len() as _,`
			`})`
			`.write_buf(path.as_bytes());`
			`self.common.queue_data(response.finish())?;`

			`self.backup_files`
			`.insert(self.common.current_packet.id, file);`

			`Ok(())`
			`}`

			`fn backup_data_dynamic(&mut self) -> Result<()> {`
			`let stream_id = self.common.current_packet.id;`
			`let file = self`
			`.backup_files`
			`.get_mut(&stream_id)`
			`.ok_or_else(\|\| format_err!("BackupDataDynamic for invalid stream id {}", stream_id))?;`

			`let mut data = self.common.packet_data();`
			`// Data consists of (offset: u64, hash: [u8; 32])`
			`let entry_len = mem::size_of::<DynamicChunk>();`

			`while data.len() >= entry_len {`
			`let mut entry = unsafe { ptr::read_unaligned(data.as_ptr() as *const DynamicChunk) };`
			`data = &data[entry_len..];`

			`entry.offset = entry.offset.from_le();`
			`file.add_dynamic_data(&entry)?;`
			`}`

			`if data.len() != 0 {`
			`bail!(`
			`"client sent excess data ({} bytes) after dynamic chunk indices!",`
			`data.len()`
			`);`
			`}`

			`Ok(())`
			`}`

			`fn backup_data_fixed(&mut self) -> Result<()> {`
			`let stream_id = self.common.current_packet.id;`
			`let file = self`
			`.backup_files`
			`.get_mut(&stream_id)`
			`.ok_or_else(\|\| format_err!("BackupDataFixed for invalid stream id {}", stream_id))?;`

			`let mut data = self.common.packet_data();`
			`// Data consists of (index: u64, hash: [u8; 32])`
			`#[repr(C, packed)]`
			`struct IndexedChunk {`
			`index: u64,`
			`digest: FixedChunk,`
			`}`
			`let entry_len = mem::size_of::<IndexedChunk>();`

			`while data.len() >= entry_len {`
			`let mut entry = unsafe { ptr::read_unaligned(data.as_ptr() as *const IndexedChunk) };`
			`data = &data[entry_len..];`

			`entry.index = entry.index.from_le();`
			`file.add_fixed_data(entry.index, &entry.digest)?;`
			`}`

			`if data.len() != 0 {`
			`bail!(`
			`"client sent excess data ({} bytes) after dynamic chunk indices!",`
			`data.len()`
			`);`
			`}`

			`Ok(())`
			`}`

			`fn backup_finished(&mut self) -> Result<()> {`
			`let stream_id = self.common.current_packet.id;`
			`let mut file = self`
			`.backup_files`
			`.remove(&stream_id)`
			`.ok_or_else(\|\| format_err!("BackupDataDynamic for invalid stream id {}", stream_id))?;`
			`file.finish()?;`
			`self.respond_ok()`
			`}`
			`}`