Causeway

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Revision as of 00:58, 23 May 2010

Contents

Causeway: A message-oriented distributed debugger

Causeway, an open source distributed debugger written in E, lets you browse the causal graph of events in a distributed computation.

Causeway provides a post-mortem view, gathered from trace files written by the processes you wish to debug. The process-order view (top-left pane) shows the full order of events recorded by each process. This gives a "follow the process" view common to conventional distributed debuggers. In the message-order view (top-right pane) we see an alternative "follow the conversation" outline view, in which each event expands to show the events it causes.

Getting Started

The simplest way to get started is to launch Causeway from a command line shell and then open one of the examples.

$ cd e/src
$ rune -De.home=esrc esrc/scripts/causeway.e-swt


From the Welcome view select an example program from the Help menu.


Image:Welcome-help.png


Optionally, the sources and trace logs can be specified on the command line.

$ rune -De.home=esrc -Dsrc=<srcRootDir> esrc/scripts/causeway.e-swt <logs>

Java's default memory settings are sufficient for the examples but larger programs need more stack and heap space. Use the -Xss (stack) and -Xmx (heap) options to increase Java default memory sizes. Follow the amount with m for Mb or k for Kb. Notice the format does not follow the name=value convention. The J option tells rune to pass the option to Java.

-J-Xss128m -J-Xmx128m

Setting Causeway's debug flag enables a Debug view. As events are selected in the viewer, the Debug view shows the corresponding trace record in the log file.

-Dcauseway_debug=true


Image:debug-view.png


The screenshot below shows Causeway being used to debug an example Waterken/Joe-E application using eventual sends.


Image:viewer.png


Causeway presents several different views of the causal relations. The views are coordinated such that, selecting an item in one view causes corresponding selections in other views.

  • Process-order View (top-left pane) This view lists events in chronological order, organized by vat. It's a tabbed view with one tab per vat. An entry in the process-order view is a 2-level subtree. The parent item represents an event; each nested item represents an eventual send that occurred during the parent event. In the screenshot, the selected item is the currently selected event in the message-order view. Synchronized selection between the process-order and message-order views is especially useful since, taken together, they convey the equivalent of Lamport's spacetime diagrams.
  • Message-order View (top-right pane) This view shows the order in which events caused other events by sending messages. This message order is reflected in the outline structure; nested events were caused by the parent event. When an event has multiple causes it is a joining event. A joining event appears directly under each of its causes and is marked with a right arrow icon. Each tree item represents a message target and is identified by a vat name and turn. The descriptive label depends on the information available in the trace record for the event and is one of the following.
    • The "text" field string. This field is required for Comment records. It is optional for Sent, SentIf, and Resolved records.
    • A single line of source code from the source file specified in the top stack entry.
    • The source file name and function name specified in the top stack entry.
  • Stack Explorer (bottom-left pane) As with sequential debugging, the question is often: How did we get here -- what chain of activations led to the current event? Causeway's stack explorer answers this question by looking back in time and presenting both eventual sends and immediate calls that led to the current event. An entry in the stack explorer is a 2-level subtree. The parent item represents an event; its nested items represent the stack trace captured for that event. In the screenshot, the top entry is the currently selected event in the message-order view. Subsequent entries are built by following the message graph back in time to sending events. An event having multiple causes has multiple paths but only the last cause is followed. Being the last in chronological order, it is expected to be the most useful for following the interesting causality.
  • Source View (bottom-right pane) This view shows the source code for the currently selected item in the stack explorer and indicates the corresponding source span.


File>>Export... translates Causeway's message graph (DAG) to the GraphViz DOT format and writes the dot file to a local disk. The dot file is a human-readable text file. It specifies a graph using the DOT language. GraphViz must be downloaded and installed to see the graph visualization. The graph below was generated for the Waterken example described above.


Image:messageGraph.png


Causeway's trace file format

Causeway supports the JSON trace file format defined by Tyler Close. The examples shown below do not describe the full specification.

When causality tracing is on the events are logged as follows.

Event Record type
An eventual send to an object Sent
A message delivery, starting a new turn Got
An eventual send to a promise SentIf
A promise resolution Resolved


An eventual send to an object

This eventual send to an inventory object has two log entries: a Sent and its corresponding Got.

_._(inventory).placeOrder(name, partNo);

A Sent-Got pair match on message ID, a generated string which uniquely identifies a message.

[ {
    "$" : [ "org.ref_send.log.Sent", "org.ref_send.log.Event" ],
    "anchor" : {
      "number" : 1,
      "turn" : {
        "loop" : "https://y-3tideqmd4uutjcv3.yurl.net:8443/-/pp8/",
        "number" : 8
      }
    },
    "message" : "https://y-3tideqmd4uutjcv3.yurl.net:8443/-/pp8/8",
    "trace" : {
      "calls" : [ {
          "name" : "placeOrder",
          "source" : "example/src/org/waterken/purchase_promise/Inventory.java"
        }, {
          "name" : "fulfill",
          "source" : "example/src/org/waterken/purchase_promise/Buyer.java",
          "span" : [ [ 28 ] ]
        }, {
          "name" : "fulfill",
          "source" : "example/src/org/waterken/purchase_promise/Buyer.java",
          "span" : [ [ 1 ] ]
        } ]
    }
  } ]

The eventual send originated from vat pp8, turn 8, sequence number 1. The "trace" records the call stack at the point of the message send.

[ {
    "$" : [ "org.ref_send.log.Got", "org.ref_send.log.Event" ],
    "anchor" : {
      "number" : 0,
      "turn" : {
        "loop" : "https://y-3tideqmd4uutjcv3.yurl.net:8443/-/pp8/",
        "number" : 9
      }
    },
    "message" : "https://y-3tideqmd4uutjcv3.yurl.net:8443/-/pp8/8",
    "trace" : {
      "calls" : [ ]
    }
  } ]

The message was delivered to its target in vat pp8, turn 9. Being at the top of a new turn, there is no stack and the sequence number is 0.

Note: The "loop" field identifies the vat by URI. To find a short name for display, Causeway picks up the part following "/-/", in this case pp8.


An eventual send to a promise

The statement below sets up a when to execute its body, new CheckAnswers(), once a promise, allOkP, is resolved. It has three log entries: a SentIf and its corresponding Resolved and Got. The body of the when (logged as a Got) is caused by two things: setting up the when (logged as a SentIf) and fulfilling the promise that the when is waiting on (logged as a Resolved).

_.when(allOkP, new CheckAnswers());

A SentIf-Got pair match on message ID, a generated string which uniquely identifies a message. A SentIf-Resolved pair match on condition, a generated string which uniquely identifies a promise.

[ {
    "$" : [ "org.ref_send.log.SentIf", "org.ref_send.log.Sent", "org.ref_send.log.Event" ],
    "anchor" : {
      "number" : 6,
      "turn" : {
        "loop" : "https://y-3tideqmd4uutjcv3.yurl.net:8443/-/pp8/",
        "number" : 1
      }
    },
    "condition" : "m5qi5ggmjlth4clvvqmy4zbfty",
    "message" : "a7clmttrfaldeewtuecgbgbpti",
    "trace" : {
      "calls" : [ {
          "name" : "run",
          "source" : "example/src/org/waterken/purchase_promise/Buyer.java",
          "span" : [ [ 64 ] ]
        }, {
          "name" : "start",
          "source" : "example/src/org/waterken/purchase_promise/Main.java",
          "span" : [ [ 80 ] ]
        } ]
    }
  } ]
[ {
    "$" : [ "org.ref_send.log.Resolved", "org.ref_send.log.Event" ],
    "anchor" : {
      "number" : 2,
      "turn" : {
        "loop" : "https://y-3tideqmd4uutjcv3.yurl.net:8443/-/pp8/",
        "number" : 7
      }
    },
    "condition" : "m5qi5ggmjlth4clvvqmy4zbfty",
    "trace" : {
      "calls" : [ {
          "name" : "fulfill",
          "source" : "example/src/org/waterken/purchase_promise/AsyncAnd.java",
          "span" : [ [ 31 ] ]
        }, {
          "name" : "fulfill",
          "source" : "example/src/org/waterken/purchase_promise/AsyncAnd.java",
          "span" : [ [ 1 ] ]
        } ]
    }
  } ]
[ {
    "$" : [ "org.ref_send.log.Got", "org.ref_send.log.Event" ],
    "anchor" : {
      "number" : 0,
      "turn" : {
        "loop" : "https://y-3tideqmd4uutjcv3.yurl.net:8443/-/pp8/",
        "number" : 8
      }
    },
    "message" : "a7clmttrfaldeewtuecgbgbpti",
    "trace" : {
      "calls" : [ ]
    }
  } ]


See Also

Our current development effort is to generalize Causeway to support asynchronous message-passing programs running on event loop-based platforms in general, not just E. Our initial focus has been on the Waterken server.

HP Labs Technical Report presents our experience with the Waterken web server which we have instrumented to generate Causeway's language-neutral trace log format.

Screencast presents a brief demonstration of Causeway, using the example from the HP Tech Report.

Debugging a Waterken application explains how to configure the Waterken server to emit the JSON debugging records understood by Causeway.

Debugging AmbientTalk using Causeway explains how to emit Causeway debugging records, in order to use Causeway to debug AmbientTalk applications.

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