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Stefan Reiter acefa2bb6e auth: 'crypt' is not thread safe
According to crypt(3):
"crypt places its result in a static storage area, which will be
overwritten by subsequent calls to crypt. It is not safe to call crypt
from multiple threads simultaneously."

This means that multiple login calls as a PBS-realm user can collide and
produce intermittent authentication failures. A visible case is for
file-restore, where VMs with many disks lead to just as many auth-calls
at the same time, as the GUI tries to expand each tree element on load.

Instead, use the thread-safe variant 'crypt_r', which places the result
into a pre-allocated buffer of type 'crypt_data'. The C struct is laid
out according to 'lib/crypt.h.in' and the man page mentioned above.

Use the opportunity and make both arguments to the rust 'crypt' function
take a &[u8].

Signed-off-by: Stefan Reiter <s.reiter@proxmox.com>
(cherry picked from commit c4c4b5a3ef)
Signed-off-by: Thomas Lamprecht <t.lamprecht@proxmox.com>
2021-07-20 10:02:01 +02:00
.cargo cargo: switch to use packaged crates by default 2020-01-03 09:40:33 +01:00
debian bump version to 1.1.12-1 2021-07-09 12:58:14 +02:00
docs docs: add short initial http-proxy docs 2021-05-21 18:23:35 +02:00
etc docs: update package repositories 2020-11-10 13:14:04 +01:00
examples derive/impl and use Default for some structs 2021-01-26 09:54:45 +01:00
src auth: 'crypt' is not thread safe 2021-07-20 10:02:01 +02:00
tests verify-api: support nested AllOf schemas 2021-02-25 13:44:17 +01:00
www ui: datastore/OptionView: only navigate up when we removed the datastore 2021-07-09 12:54:50 +02:00
zsh-completions file-restore: add binary and basic commands 2021-04-08 13:57:57 +02:00
.gitignore .gitignore: do not ingnor .html files - we have some of them in the repository 2021-02-21 10:04:52 +01:00
build.rs use build.rs to pass REPOID to rustc-env 2021-05-07 10:11:39 +02:00
Cargo.toml depend on proxmox 0.11.6 (changed make_tmp_file() return type) 2021-07-20 09:45:28 +02:00
defines.mk docs: add datastore.cfg.5 man page 2021-02-10 11:05:02 +01:00
Makefile buildsys: call dpkg-buildpackage directly in deb-all 2021-07-09 12:58:14 +02:00
README.rst docs: add more thoughts about chunk size 2020-12-01 10:28:06 +01:00
rustfmt.toml import rustfmt.toml 2019-08-22 13:44:57 +02:00
TODO.rst tape: add/use rust scsi changer implementation using libsgutil2 2021-01-25 13:14:07 +01:00

``rustup`` Toolchain
====================

We normally want to build with the ``rustc`` Debian package. To do that
you can set the following ``rustup`` configuration:

    # rustup toolchain link system /usr
    # rustup default system


Versioning of proxmox helper crates
===================================

To use current git master code of the proxmox* helper crates, add::

   git = "git://git.proxmox.com/git/proxmox"

or::

   path = "../proxmox/proxmox"

to the proxmox dependency, and update the version to reflect the current,
pre-release version number (e.g., "0.1.1-dev.1" instead of "0.1.0").


Local cargo config
==================

This repository ships with a ``.cargo/config`` that replaces the crates.io
registry with packaged crates located in ``/usr/share/cargo/registry``.

A similar config is also applied building with dh_cargo. Cargo.lock needs to be
deleted when switching between packaged crates and crates.io, since the
checksums are not compatible.

To reference new dependencies (or updated versions) that are not yet packaged,
the dependency needs to point directly to a path or git source (e.g., see
example for proxmox crate above).


Build
=====
on Debian Buster

Setup:
  1. # echo 'deb http://download.proxmox.com/debian/devel/ buster main' >> /etc/apt/sources.list.d/proxmox-devel.list
  2. # sudo wget http://download.proxmox.com/debian/proxmox-ve-release-6.x.gpg -O /etc/apt/trusted.gpg.d/proxmox-ve-release-6.x.gpg
  3. # sudo apt update
  4. # sudo apt install devscripts debcargo clang
  5. # git clone git://git.proxmox.com/git/proxmox-backup.git
  6. # sudo mk-build-deps -ir

Note: 2. may be skipped if you already added the PVE or PBS package repository

You are now able to build using the Makefile or cargo itself.


Design Notes
============

Here are some random thought about the software design (unless I find a better place).


Large chunk sizes
-----------------

It is important to notice that large chunk sizes are crucial for
performance. We have a multi-user system, where different people can do
different operations on a datastore at the same time, and most operation
involves reading a series of chunks.

So what is the maximal theoretical speed we can get when reading a
series of chunks? Reading a chunk sequence need the following steps:

- seek to the first chunk start location
- read the chunk data
- seek to the first chunk start location
- read the chunk data
- ...

Lets use the following disk performance metrics:

:AST: Average Seek Time (second)
:MRS: Maximum sequential Read Speed (bytes/second)
:ACS: Average Chunk Size (bytes)

The maximum performance you can get is::

  MAX(ACS) = ACS /(AST + ACS/MRS)

Please note that chunk data is likely to be sequential arranged on disk, but
this it is sort of a best case assumption.

For a typical rotational disk, we assume the following values::

  AST: 10ms
  MRS: 170MB/s

  MAX(4MB)  = 115.37 MB/s
  MAX(1MB)  =  61.85 MB/s;
  MAX(64KB) =   6.02 MB/s;
  MAX(4KB)  =   0.39 MB/s;
  MAX(1KB)  =   0.10 MB/s;

Modern SSD are much faster, lets assume the following::

  max IOPS: 20000 => AST = 0.00005
  MRS: 500Mb/s

  MAX(4MB)  = 474 MB/s
  MAX(1MB)  = 465 MB/s;
  MAX(64KB) = 354 MB/s;
  MAX(4KB)  =  67 MB/s;
  MAX(1KB)  =  18 MB/s;


Also, the average chunk directly relates to the number of chunks produced by
a backup::

  CHUNK_COUNT = BACKUP_SIZE / ACS

Here are some staticics from my developer worstation::

  Disk Usage:       65 GB
  Directories:   58971
  Files:        726314
  Files < 64KB: 617541

As you see, there are really many small files. If we would do file
level deduplication, i.e. generate one chunk per file, we end up with
more than 700000 chunks.

Instead, our current algorithm only produce large chunks with an
average chunks size of 4MB. With above data, this produce about 15000
chunks (factor 50 less chunks).