The C++ version of this code used this logic, and it turns out it is able to find some setups that the current registry/Vs7 methods cannot.
For example, if only the "Build Tools for Visual Studio" are installed but not Visual Studio itself, then only the ISetupEnumInstances method seems to find it.
Follow up to #15657, fixes a regression caused by moving from the C++ version to the Zig version
Before this commit, there were three issues with the makePath implementation:
1. The component iteration did not 'collapse' consecutive path separators; instead, it would treat `a/b//c` as `a/b//c`, `a/b/`, `a/b`, and `a`.
2. Trailing path separators led to redundant `makeDir` calls, e.g. with the path `a/b/` (if `a` doesn't exist), it would try to create `a/b/`, then try `a/b`, then try `a`, then try `a/b`, and finally try `a/b/` again.
3. The iteration did not treat the root of a path specially, so on Windows it could attempt to make a directory with a path like `X:` for something like `X:\a\b\c` if the `X:\` drive doesn't exist. This didn't lead to any problems that I could find, but there's no reason to try to make a drive letter as a directory (or any other root path).
This commit fixes all three issues by introducing a ComponentIterator that is root-aware and handles both sequential path separators and trailing path separators and uses it in `Dir.makePath`. This reduces the number of `makeDir` calls for paths where (1) the root of the path doesn't exist, (2) there are consecutive path separators, or (3) there are trailing path separators
As an example, here are the makeDir calls that would have been made before this commit when calling `makePath` for a relative path like `a/b//c//` (where the full path needs to be created):
a/b//c//
a/b//c/
a/b//c
a/b/
a/b
a
a/b
a/b/
a/b//c
a/b//c/
a/b//c//
And after this commit:
a/b//c
a/b
a
a/b
a/b//c
When calling NtCreateFile with a UNC path, if either `\\server` or `\\server\share` are not found, then the statuses `BAD_NETWORK_PATH` or `BAD_NETWORK_NAME` are returned (respectively).
These statuses are not translated into `error.FileNotFound` because they convey more information than the typical FileNotFound error. For example, if you were trying to call `Dir.makePath` with an absolute UNC path like `\\MyServer\MyShare\a\b\c\d`, then knowing that `\\MyServer\MyShare` was not found allows for returning after trying to create the first directory instead of then trying to create `a\b\c`, `a\b`, etc. when it's already known that they will all fail in the same way.
This fixes a regression caused by https://github.com/ziglang/zig/pull/13993
As an optimization, the first call to `NtQueryDirectoryFile` would only ask for a single result and assume that if the result returned did not match the app_name exactly, then the unappended app_name did not exist. However, this relied on the assumption that the unappended app_name would always be returned first, but that only seems to be the case on NTFS. On FAT filesystems, the order of returned files can be different, which meant that it could assume the unappended file doesn't exist when it actually does.
This commit fixes that by fully iterating the wildcard matches via `NtQueryDirectoryFile` and taking note of any unappended/PATHEXT-appended filenames it finds. In practice, this strategy does not introduce a speed regression compared to the previous (buggy) implementation.
Benchmark 1 (10 runs): winpathbench-master.exe
measurement mean ± σ min … max outliers delta
wall_time 508ms ± 4.08ms 502ms … 517ms 1 (10%) 0%
peak_rss 3.62MB ± 2.76KB 3.62MB … 3.63MB 0 ( 0%) 0%
Benchmark 2 (10 runs): winpathbench-fat32-fix.exe
measurement mean ± σ min … max outliers delta
wall_time 500ms ± 21.4ms 480ms … 535ms 0 ( 0%) - 1.5% ± 2.8%
peak_rss 3.62MB ± 2.76KB 3.62MB … 3.63MB 0 ( 0%) - 0.0% ± 0.1%
---
Partially addresses #16374 (it fixes `zig build` on FAT32 when no `zig-cache` is present)
Using FileDispositionInformationEx (and therefore flags like FILE_DISPOSITION_POSIX_SEMANTICS and FILE_DISPOSITION_IGNORE_READONLY_ATTRIBUTE) is only supported on NTFS, so the comptime Windows version range check is not enough to determine whether or not the NtSetInformationFile will succeed.
This commit makes DeleteFile always try using FileDispositionInformationEx first, but if INVALID_PARAMETER is received (which is the status that occurs when the filesystem doesn't support FileDispositionInformationEx), then it will fallback and try calling NtSetInformationFile with FileDispositionInformation.
This keeps NTFS as fast as it was before, since it will do at most 1 NtSetInformationFile call, but on non-NTFS filesystems (e.g. FAT32), DeleteFile may need to do 2 NtSetInformationFile calls.
Closes#16497
I had accidentally regressed support for -gdwarf in 461fb499f3 when I changed the logic to
use the already-mapped exe/dll image instead of loading it from disk. The string table is mapped as all zeroes by the loader,
so if a section header's name is longer than 8 bytes (like the ones generated by -gdwarf), then the name can't be read.
Now, if any section headers require the string table, the file is mapped from disk.
windows: Add NtCreateSection/NtMapViewOfSection/NtUnmapViewOfSection
- Fix unwindFrame using the previous FDE row instead of the current one
- Handle unwinding through noreturn functions
- Add x86-linux getcontext
- Fixup x86_64-linux getcontext not restoring the fp env
- Fix start_addr filtering on x86-windows
I tested this and this definitely compiles and these
changes were done programmatically but if there's still anything wrong
it shouldn't be hard to fix.
With this change it's going to be very easy to make further adjustments
to the calling conventions of all these external UEFI functions.
Closes#16309
* `CMakeLists.txt`: support the weird `uname -m` output.
* `CMakeLists.txt`: detect and use the C compiler's default arm mode.
* cbe: support gcc with both `f128` and `u128` emulated.
* std.os.linux.thumb: fix incorrectly passed asm inputs.
This allows doing Windows-style case insensitive comparisons from any target, but means that it will need to include its own copy of the uppercase data table (5,088 bytes) to do so.
When targeting Windows, the ntdll functions are used instead to avoid including a redundant copy of the uppercase data in the resulting binary.
Most of this migration was performed automatically with `zig fmt`. There
were a few exceptions which I had to manually fix:
* `@alignCast` and `@addrSpaceCast` cannot be automatically rewritten
* `@truncate`'s fixup is incorrect for vectors
* Test cases are not formatted, and their error locations change
Anecdote 1: The generic version is way more popular than the non-generic
one in Zig codebase:
git grep -w alignForward | wc -l
56
git grep -w alignForwardGeneric | wc -l
149
git grep -w alignBackward | wc -l
6
git grep -w alignBackwardGeneric | wc -l
15
Anecdote 2: In my project (turbonss) that does much arithmetic and
alignment I exclusively use the Generic functions.
Anecdote 3: we used only the Generic versions in the Macho Man's linker
workshop.
We need to set rbp last because the arguments are stored on the
stack. If we clobber rbp first, then we will get a segfault when
trying to access the function arguments.
I believe I had already done this with the other syscall* functions,
but not with syscall1, so this allows single argument syscalls like
close to work.
The idea here is that there are two ways we can reference a function at runtime:
* Through a direct call, i.e. where the function is comptime-known
* Through a function pointer
This means we can easily perform a form of rudimentary escape analysis
on functions. If we ever see a `decl_ref` or `ref` of a function, we
have a function pointer, which could "leak" into runtime code, so we
emit the function; but for a plain `decl_val`, there's no need to.
This change means that `comptime { _ = f; }` no longer forces a function
to be emitted, which was used for some things (mainly tests). These use
sites have been replaced with `_ = &f;`, which still triggers analysis
of the function body, since you're taking a pointer to the function.
Resolves: #6256Resolves: #15353
There are many different types of Windows paths, and there are a few different possible namespaces on top of that. Before this commit, NT namespaced paths were somewhat supported, and for Win32 paths (those without a namespace prefix), only relative and drive absolute paths were supported. After this commit, all of the following are supported:
- Device namespaced paths (`\\.\`)
- Verbatim paths (`\\?\`)
- NT-namespaced paths (`\??\`)
- Relative paths (`foo`)
- Drive-absolute paths (`C:\foo`)
- Drive-relative paths (`C:foo`)
- Rooted paths (`\foo`)
- UNC absolute paths (`\\server\share\foo`)
- Root local device paths (`\\.` or `\\?` exactly)
Plus:
- Any of the path types and namespace types can be mixed and matched together as appropriate.
- All of the `std.os.windows.*ToPrefixedFileW` functions will accept any path type, prefixed or not, and do the appropriate thing to convert them to an NT-prefixed path if necessary.
This is achieved by making the `std.os.windows.*ToPrefixedFileW` functions behave like `ntdll.RtlDosPathNameToNtPathName_U`, but with a few differences:
- Does not allocate on the heap (this is why we can't use `ntdll.RtlDosPathNameToNtPathName_U` directly, it does internal heap allocation).
- Relative paths are kept as relative unless they contain too many .. components, in which case they are treated as 'drive relative' and resolved against the CWD (this is how it behaved before this commit as well).
- Special case device names like COM1, NUL, etc are not handled specially (TODO)
- `.` and space are not stripped from the end of relative paths (potential TODO)
Most of the non-trivial conversion of non-relative paths is done via `ntdll.RtlGetFullPathName_U`, which AFAIK is used internally by `ntdll.RtlDosPathNameToNtPathName_U`.
Some relevant reading on Windows paths:
- https://googleprojectzero.blogspot.com/2016/02/the-definitive-guide-on-win32-to-nt.html
- https://chrisdenton.github.io/omnipath/Overview.htmlCloses#8205
Might close (untested) #12729
Note:
- This removes checking for illegal characters in `std.os.windows.sliceToPrefixedFileW`, since the previous solution (iterate the whole string and error if any illegal characters were found) was naive and won't work for all path types. This is further complicated by things like file streams (where `:` is used as a delimiter, e.g. `file.ext:stream_name:$DATA`) and things in the device namespace (where a path like `\\.\GLOBALROOT\??\UNC\localhost\C$\foo` is valid despite the `?`s in the path and is effectively equivalent to `C:\foo`). Truly validating paths is complicated and would need to be tailored to each path type. The illegal character checking being removed may open up users to more instances of hitting `OBJECT_NAME_INVALID => unreachable` when using `fs` APIs.
+ This is related to https://github.com/ziglang/zig/issues/15607
* move `ptrBitWidth` from Arch to Target since it needs to know about the abi
* double isn't always 8 bits
* AVR uses 1-byte alignment for everything in GCC
