论文信息 - Deny-Guarantee Reasoning

Deny-Guarantee Reasoning

Rely-guarantee is a well-established approach to reasoning about concurrent programs that use parallel composition. However, parallel composition is not how concurrency is structured in real systems. Instead, threads are started by `fork' and collected with `join' commands. This style of concurrency cannot be reasoned about using rely-guarantee, as the life-time of a thread can be scoped dynamically. With parallel composition the scope is static. In this paper, we introduce deny-guarantee reasoning, a reformulation of rely-guarantee that enables reasoning about dynamically scoped concurrency. We build on ideas from separation logic to allow interference to be dynamically split and recombined, in a similar way that separation logic splits and joins heaps. To allow this splitting, we use deny and guarantee permissions: a deny permission specifies that the environment cannot do an action, and guarantee permission allow us to do an action. We illustrate the use of our proof system with examples, and show that it can encode all the original rely-guarantee proofs. We also present the semantics and soundness of the deny-guarantee method.

[1] Christian Haack,et al. Separation Logic Contracts for a Java-Like Language with Fork/Join , 2008, AMAST.

[2] Cliff B. Jones,et al. Tentative steps toward a development method for interfering programs , 1983, TOPL.

[3] Andrew W. Appel,et al. Oracle Semantics for Concurrent Separation Logic , 2008, ESOP.

[4] Brian Campbell,et al. Amortised Memory Analysis Using the Depth of Data Structures , 2009, ESOP.

[5] FengXinyu,et al. Modular verification of concurrent assembly code with dynamic thread creation and termination , 2005 .

[6] Viktor Vafeiadis,et al. A Marriage of Rely/Guarantee and Separation Logic , 2007, CONCUR.

[7] Kim G. Larsen,et al. On Modal Refinement and Consistency , 2007, CONCUR.

[8] John Tang Boyland,et al. Checking Interference with Fractional Permissions , 2003, SAS.

[9] Peter W. O'Hearn,et al. Local Action and Abstract Separation Logic , 2007, 22nd Annual IEEE Symposium on Logic in Computer Science (LICS 2007).

[10] Xinyu Feng,et al. Modular verification of concurrent assembly code with dynamic thread creation and termination , 2005, ICFP '05.

[11] Alexey Gotsman,et al. Local Reasoning for Storable Locks and Threads , 2007, APLAS.

[12] Peter W. O'Hearn,et al. Permission accounting in separation logic , 2005, POPL '05.

[13] Xinyu Feng,et al. On the Relationship Between Concurrent Separation Logic and Assume-Guarantee Reasoning , 2007, ESOP.