I'm trying to write a lock free singly linked list. Eventual consistency is not a problem (someone traversing a list which might contain incorrect items).

I think that I got the add item right (looping and Interlocked.CompareExchange).

But I can't figure out how to remove nodes (anywhere in the list) since I have to get the previous item and them set its Next field to the current nodes Next field.

class Node
    Node Next;
    object Value;

class SinglyLinkedList
    Root _root;

    public void Add(object value)

    public void Remove(object value)


a -> b -> c


a -> c

Pseudo code:

Node prev;
Node node = _root;
while (node.Value != nodeValue)
  prev = node;
  node = node.Next;
prev.Next = node.Next;

how do I make this an atomic operation (i.e. make sure that prev.Next = node.Next is invoked without either next or prev being removed in between by another thread)?

I could use ReaderWriterLockSlim instead, but I found this problem interesting as I know that there exists lock free linked lists.

My concerns:

The following can happen if the current thread is suspended between the loop and the assignment:

  • prev itself might have been removed by another thread.
  • node might have been removed by another thread.
  • Node.Next might have been removed
  • 2
    Have you looked at Interlocked.CompareExchange ( msdn.microsoft.com/en-us/library/…) ? You could update prev with node.next if prev still has it's original value. – Jeff Paquette May 31 '13 at 18:00
  • @JeffPaquette no. both node.Next and prev.Next might have been changed either by Add() or another Remove() operation. So comparing only prev wont help. – jgauffin May 31 '13 at 18:02
  • 1
    If you need a lock free doubly linked list, I could recommend you my pure C# implementation based on a paper by Sundell and Tsigas. github.com/2i/LockFreeDoublyLinkedList – ominug Jan 27 '15 at 16:16

Yep, adding is a simple two-steps loop with CAS on the previous .Next pointer; but removing is hard!

Actually you can't do it without using an additional piece of information and logic.

Harris created the solution to this problem by adding a marker bit that once set disallows anyone to modify the node. The removal becomes two-steps: first (CAS) mark the removed node to prevent anyone from changing it (especially its .Next pointer); second CAS the previous node .Next pointer, which is now safe because the other node has been marked.

The problem is now that in C Harris used the two least significant bits of the .Next pointer as marker. This is clever because with 4-bytes aligned pointers they are always unused (i.e. 00) and because they fit in the 32 bits pointer they can be CAS atomically with the pointer itself, which is key to this algorithm. Of course this is impossible in C#, at least without using unsafe code.

The solution gets a little more complicated and involves an additional reference to an immutable class containg the two fields (.Next + marker).

Instead of going into a lengthy explanation of those ideas, I have found some references on the internet that will go into all the details that you need, see:

Lock-free Linked List (Part 1) Explains the problem;

Lock-free Linked List (Part 2) Explains the C solution + the spinlock solution;

Lock-free Linked List (Part 3) Explains the immutable state reference;

If you are really curious about the topic there are academic papers with various solutions and analysis of their performance, e.g. this one: Lock-free linked lists and skip lists

  • 1
    I'm interested in "lock-free-linked-list.pdf" paper, but the link "free linked lists and skip lists" returns 403 forbidden. – Jesús López Oct 29 '18 at 18:14

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