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  •  Review/Get familiar with technologes:
    •  Docker
    •  K8S
    •  Git/Yaml/Ansible
    •  K8S operator
    •  Blockchain/Hyperledger Fabric
  •  Setup Fabric network using Minifabric in docker env.
    •  deploy example chaincode
    •  create channel
    •  run operations like join new org, add new node, upgrade chaincode
  •  Add option to deploy fabric onto K8S (currently deploy onto docker and K8S but using a file indicator rather than an explicit flag)
  •  Deploy Fabric K8S operator controller
  •  Deploy Fabric hyperledger fabric peer and orderer nodes onto K8S using fabric operator
  •  Expose peer and orderer nodes outside of K8S cluster

Milestones

Evaluation 1:

  •  Leverage the symbol table to detect unused variables.
  •  Generate warnings for them.
  • Familiar with technologies

Evaluation 2:

  •  Eliminate the detected unused variables when generating the intermediate representation.
  •  Utilize the reaching definitions implementation of Solang to detect undefined variables.

Evaluation 3:

  •  Generate complete warnings for the detected issue.
  •  Implement an available expression analysis algorithm
  • Run minifabric in docker env to ensure fabric network is up running.
    •  chaincode can be installed
    •  channel can be created, peers can be joined
    •  transactions can be made

Evaluation 3:

  •  New option is added to deploy fabric k8s operator controller to k8s
  •  operator controller can be deployed onto k8s cluster
  •  peer and orderer nodes are deployed

Evaluation 4:

  •  Eliminate common subexpression when generating the intermediate representation.Operators such as channel,chaincode can be operated on against the fabric running on k8s cluster
  •  Write a complete documentation for the project

Timeline

0

Week #

Week

Activity

Status

May 24 - May 30

First contact with mentor and discussion of solutions.

1-2

May 31 - June 13

Modify the symbol table and the parsing to detect unused variables.

3-4

June 14 - June 27

Generate warnings on the code.

5-6

June 28 - July 11

Evaluation 1

Provide tests and documentation.

7-8

July 12 - July 25

Eliminate unused variables from generated code.

9-10

July 26 - August 8

Provide tests and documentation.

11-12

August 9 - August 22

Evaluation 2

Utilize the reaching definitions to detect undefined variables.

13-14

August 23 - September 5

Reutilize the solutions for warnings from the last problem to generate warnings.

15-16

September 6 - September 19

Provide tests and documentation.

17-18

September 20 - October 3

Evaluation 3

Implement available expressions analysis algorithm (part 1)

19-20

October 4 - October 17

Implement available expressions analysis algorithm (part 2)

21-22

October 18 - October 31

Eliminate common subexpressions.

23-24

November 1 - November 14

Evaluation 4

Provide tests and documentation.

Methodology

After I start coding each milestone, my mentor and I will have a planning session to define the best way to tackle the challenges. Then, I will execute the planning and schedule a review session with my mentor. If everything is working and we agree upon the implemented solution, I am going to write tests and update the Solang documentation website with the most recent features. In addition to those meetings, we are doing weekly calls to review the progress of the project.

Following this methodology, I intend to maintain the transparency of my work and keep the Solang users updated with the most recent features and documentation.

Documentation

Unused variable detection

A variable in solidity can have three scopes: a global scope, a contract scope (state variables) and a function scope. Global variables can only be constant variables. State variables reside inside a contract. After solang parses a solidity file and builds the AST (abstract syntax tree), all data is saved inside the struct Namespace, which contains a vector of contracts. Inside Contracts there is a vector of variables (struct Variable) that saves state variables. Global constant variables reside in a vector of constants inside Namespace and local variables are saved in a each function's symbol table.

We added a boolean variable read inside struct variable to signal that a variable has been used in the code. At first, used is initialized to false. Once we parse an expression that uses the variable, we set it to true. In addition, we included a boolean variable assigned to signal that a variable has been assigned. Once we parse an assignment expression, we set this variable to true. The aforementioned modification will allow us to emit warnings for unused variables and unassigned ones.

For example, in the following contract, we should expect three warnings. The variables a and b have been assigned, but never read and variable c has never been read nor assigned.

...

contract Test {
    function get() public pure {
        uint32 a = 1;
        uint32 b;
        b = 1;
        uint32 c;
 
        uint32 d;
        d = 1;
        uint32 e;
        e = d*5;
        d = e/5;
   }
}

When running solidity, we got the following warnings as expected:
Warnings for Example 1

test.sol:4:16-17: warning: local variable 'a' has been assigned, but never read
test.sol:5:16-17: warning: local variable 'b' has been assigned, but never read
test.sol:7:16-17: warning: local variable 'c' has never been read nor assigned

Likewise, in the next contract, we expect to see warnings because local variable b32 has never been assigned a values, but has been read and storage variable byteArr has been assigned, but never read.
Example contract 2

...

contract Test {
    bytes byteArr;
    bytes32 baRR;
 
    function get() public  {
        string memory s = "Test";
        byteArr = bytes(s);
        uint16 a = 1;
        uint8 b;
        b = uint8(a);
 
        uint256 c;
        c = b;
        bytes32 b32;
        bytes memory char = bytes(bytes32(uint(a) * 2 ** (8 * b)));
        baRR = bytes32(c);
        bytes32 cdr = bytes32(char);
        assert(b32 == baRR);
        if(b32 != cdr) {
 
        }
    }
}

After running solidity, we got the following warnings:
Warnings for Example 2

test.sol:15:17-20: warning: local variable 'b32' has never been assigned a value, but has been read
test.sol:3:5-18: warning: storage variable 'byteArr' has been assigned, but never read

Unused variable elimination

Before creating the Control Flow Graph (CFG), Solang generates a variable table from the AST. During that phase, we can raise a warning when we see an unused variable and leave it out of the CFG. Using the id variable inside the Variable struct, we can backtrack the position where the variable appeared in the file and print a meaningful warning, containing the file name and line position. If the variable has only been assigned within a function, but has never been read, in addition to eliminating the variable declaration, we remove all the assignments from the intermediate representation.

Warning for undefined variables

During the codegen phase,  we use the reaching definitions implementation to check if an undefined definition reaches the variable we are parsing. If so, we will raise an error. Using the id variable inside the Variable struct, we backtrack the variable’s location in the source file and emit a complete warning. All warnings will be saved into the diagnostic vector, which is a vector of struct Diagnostics, containing the error type, error message and error position.

Common subexpression elimination

We perform common subexpression elimination using two passes over the Control Flow Graph (CFG). During the first on, we build a graph to track existing expressions and detect repeated ones. During the second pass, we replace the repeated expressions by a temporary variable, which assumes the value of the expression. The example below contains multiple repeated expressions:

...

contract {
 
    function csePass(int a, int b) {
        int x = a*b-5;
        if (x > 0) {
            x = a*b-19;
        } else {
            x = a*b*a;
        }
 
        return x+a*b;
    }
}

The expression `a*b` is repeated throughout the code and will be saved to a temporary variable, which will be placed wherever there is a `a*b` expression.

Project Plan - Expand Minifabric with k8s operator support

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Abstract

...

July 11 - July 22

Evaluation 1

familiar with the technologies and tools needed as these skills were required to successfully complete the project, here is a list of things:

Docker, K8S, git, yaml, ansible, K8S operator, Blockchain, Hyperledger Fabric etc.

  •  

3

July 25 - July 29

Evaluation 2

Run Minifabric locally, setup env to run Minifabric in docker env so that Fabric network is up running, deploy an example chain code, create channels, and run all other operations such as join new org, add new node, upgrade chain code.


5-6

Aug 1 - Aug 12

Add flag to run Minifabric command against k8s env instead of against docker, deploy Fabric K8S operator controller onto K8S

7-9

Aug 15 - Sept 2

Evaluation 3.1

Deploy peer node  onto K8S


9 - 10

Sept 5 -  Sept 16

Evaluation 3.2

Deploy Orderer node onto K8S


11 - 12

Sept 19 - Sept 30

Evaluation 3.3

Expose node endpoints outside of K8S clusters (this task can be combined with deploy nodes)


13 - 15

Oct 3 - Oct 21

Evaluation 4.1

Modify existing channel create command to support channel creation against the nodes running in k8s (using operator way), join nodes to the channel, chain code operations


16 - 17

Oct 24 - Nov 4

Evaluation 4.2

Modify existing org join commands to support org join, peer join.


18 - 21

Nov 7 - Dec 2

Evaluation 4.3

Provide tests, documentation, videos


22-24

Dec 5 - Dec 23

Evaluation 4.4

Bug fixes


Methodology

We will be using Agile development model, git PR should be created and reviewed, then merged after review. design should be discussed and confirmed with mentors. Test cases should be created when new code is added, code without tests should not be merged. Using git issue tracking to track issues and provide fixes.