X-Git-Url: https://git.ralfj.de/web.git/blobdiff_plain/6e9cb706fd83fdfe656134c1f4baf9048d23ec00..242ee8a77857b91ca31b74ed8865bc49266a3d2d:/personal/_posts/2018-07-24-pointers-and-bytes.md?ds=inline diff --git a/personal/_posts/2018-07-24-pointers-and-bytes.md b/personal/_posts/2018-07-24-pointers-and-bytes.md index 64ea94b..0496a5d 100644 --- a/personal/_posts/2018-07-24-pointers-and-bytes.md +++ b/personal/_posts/2018-07-24-pointers-and-bytes.md @@ -19,7 +19,7 @@ I hope that by the end of this post, you will agree with me on both of these sta ## Pointers Are Complicated What is the problem with "pointers are just integers"? Let us consider the following example:
-(I am using C++ code here mostly because writing unsafe code is easier in C++, and unsafe code is where these problems really show up. C has all the same issues, as does unsafe Rust.) +(I am using C++ code here mostly because writing unsafe code is easier in C++ than in Rust, and unsafe code is where these problems really show up. C has all the same issues, as does unsafe Rust.) {% highlight c++ %} int test() { auto x = new int[8]; @@ -56,7 +56,7 @@ int test() { auto x = new int[8]; auto y = new int[8]; y[0] = 42; - auto x_ptr = &x[8]; // one past the end + auto x_ptr = x+8; // one past the end if (x_ptr == &y[0]) *x_ptr = 23; return y[0]; @@ -119,8 +119,15 @@ C++ and Rust employ a more "high-level" view of memory and pointers, restricting When formally describing what the programmer may and may not do in these languages, as we have seen, the model of pointers as integers falls apart, so we have to look for something else. This is another example of using a "virtual machine" that's different from the real machine for specification purposes, which is an idea [I have blogged about before]({% post_url 2017-06-06-MIR-semantics %}). -Here's a simple proposal (in fact, this is the model of pointers used in [CompCert](https://hal.inria.fr/hal-00703441/document) and my [RustBelt work]({% post_url 2017-07-08-rustbelt %}), and it is also how [miri](https://github.com/solson/miri/) implements pointers): +Here's a simple proposal (in fact, this is the model of pointers used in [CompCert](https://hal.inria.fr/hal-00703441/document) and my [RustBelt work]({% post_url 2017-07-08-rustbelt %}), and it is also how [miri](https://github.com/solson/miri/) implements [pointers](https://github.com/rust-lang/rust/blob/fefe81605d6111faa8dbb3635ab2c51d59de740a/src/librustc/mir/interpret/mod.rs#L121-L124)): A pointer is a pair of some kind of ID uniquely identifying the *allocation*, and an *offset* into the allocation. +If we defined this in Rust, we might write +{% highlight rust %} +struct Pointer { + alloc_id: usize, + offset: isize, +} +{% endhighlight %} Adding/subtracting an integer to/from a pointer just acts on the offset, and can thus never leave the allocation. Subtracting a pointer from another is only allowed when both point to the same allocation (matching [C++](https://timsong-cpp.github.io/cppwp/n4140/expr.add#6)).[^2] @@ -152,6 +159,8 @@ We mostly just ignore the problem in miri and opportunistically do as much as we A full definition of a language like C++ or Rust of course cannot take this shortcut, it has to explain what really happens here. To my knowledge, no satisfying solution exists, but academic research is [getting closer](http://sf.snu.ac.kr/publications/llvmtwin.pdf). +**Update:** This was by no means meant to be an exhaustive list of academic research on C in general. I do not know of other work that focuses directly on the interplay of integer-pointer casts and optimizations, but other noteworthy work on formalizing C includes [KCC](https://github.com/kframework/c-semantics), [Robbert Krebber's PhD thesis](https://robbertkrebbers.nl/thesis.html) and [Cerberus](https://www.cl.cam.ac.uk/~pes20/cerberus/). **/Update** + This is why pointers are not simple, either. ## From Pointers to Bytes @@ -164,7 +173,7 @@ We have to say what the value of `v` is, so we have to find some way to answer t (And this is an entirely separate issue from the problem with multiplication that came up in the last section. We just assume some abstract type `Pointer`.) We cannot represent a byte of a pointer as an element of `0..256`. -Essentially, if we use a naive model of memory, the extra "hidden" part of a pointer (the one that makes it more than just an integer) would be lost whne a pointer is stored to memory and loaded again. +Essentially, if we use a naive model of memory, the extra "hidden" part of a pointer (the one that makes it more than just an integer) would be lost when a pointer is stored to memory and loaded again. We have to fix this, so we have to extend our notion of a "byte" to accomodate that extra state. So, a byte is now *either* an element of `0..256` ("raw bits"), *or* the n-th byte of some abstract pointer. If we were to implement our memory model in Rust, this might look as follows: