zig/lib/std/valgrind.zig
mlugg f26dda2117 all: migrate code to new cast builtin syntax
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
2023-06-24 16:56:39 -07:00

274 lines
9.8 KiB
Zig

const builtin = @import("builtin");
const std = @import("std.zig");
const math = std.math;
pub fn doClientRequest(default: usize, request: usize, a1: usize, a2: usize, a3: usize, a4: usize, a5: usize) usize {
if (!builtin.valgrind_support) {
return default;
}
switch (builtin.target.cpu.arch) {
.x86 => {
return asm volatile (
\\ roll $3, %%edi ; roll $13, %%edi
\\ roll $29, %%edi ; roll $19, %%edi
\\ xchgl %%ebx,%%ebx
: [_] "={edx}" (-> usize),
: [_] "{eax}" (&[_]usize{ request, a1, a2, a3, a4, a5 }),
[_] "0" (default),
: "cc", "memory"
);
},
.x86_64 => {
return asm volatile (
\\ rolq $3, %%rdi ; rolq $13, %%rdi
\\ rolq $61, %%rdi ; rolq $51, %%rdi
\\ xchgq %%rbx,%%rbx
: [_] "={rdx}" (-> usize),
: [_] "{rax}" (&[_]usize{ request, a1, a2, a3, a4, a5 }),
[_] "0" (default),
: "cc", "memory"
);
},
.aarch64 => {
return asm volatile (
\\ ror x12, x12, #3 ; ror x12, x12, #13
\\ ror x12, x12, #51 ; ror x12, x12, #61
\\ orr x10, x10, x10
: [_] "={x3}" (-> usize),
: [_] "{x4}" (&[_]usize{ request, a1, a2, a3, a4, a5 }),
[_] "0" (default),
: "cc", "memory"
);
},
// ppc32
// ppc64
// arm
// s390x
// mips32
// mips64
else => {
return default;
},
}
}
pub const ClientRequest = enum(u32) {
RunningOnValgrind = 4097,
DiscardTranslations = 4098,
ClientCall0 = 4353,
ClientCall1 = 4354,
ClientCall2 = 4355,
ClientCall3 = 4356,
CountErrors = 4609,
GdbMonitorCommand = 4610,
MalloclikeBlock = 4865,
ResizeinplaceBlock = 4875,
FreelikeBlock = 4866,
CreateMempool = 4867,
DestroyMempool = 4868,
MempoolAlloc = 4869,
MempoolFree = 4870,
MempoolTrim = 4871,
MoveMempool = 4872,
MempoolChange = 4873,
MempoolExists = 4874,
Printf = 5121,
PrintfBacktrace = 5122,
PrintfValistByRef = 5123,
PrintfBacktraceValistByRef = 5124,
StackRegister = 5377,
StackDeregister = 5378,
StackChange = 5379,
LoadPdbDebuginfo = 5633,
MapIpToSrcloc = 5889,
ChangeErrDisablement = 6145,
VexInitForIri = 6401,
InnerThreads = 6402,
};
pub fn ToolBase(base: [2]u8) u32 {
return (@as(u32, base[0] & 0xff) << 24) | (@as(u32, base[1] & 0xff) << 16);
}
pub fn IsTool(base: [2]u8, code: usize) bool {
return ToolBase(base) == (code & 0xffff0000);
}
fn doClientRequestExpr(default: usize, request: ClientRequest, a1: usize, a2: usize, a3: usize, a4: usize, a5: usize) usize {
return doClientRequest(default, @as(usize, @intCast(@intFromEnum(request))), a1, a2, a3, a4, a5);
}
fn doClientRequestStmt(request: ClientRequest, a1: usize, a2: usize, a3: usize, a4: usize, a5: usize) void {
_ = doClientRequestExpr(0, request, a1, a2, a3, a4, a5);
}
/// Returns the number of Valgrinds this code is running under. That
/// is, 0 if running natively, 1 if running under Valgrind, 2 if
/// running under Valgrind which is running under another Valgrind,
/// etc.
pub fn runningOnValgrind() usize {
return doClientRequestExpr(0, .RunningOnValgrind, 0, 0, 0, 0, 0);
}
test "works whether running on valgrind or not" {
_ = runningOnValgrind();
}
/// Discard translation of code in the slice qzz. Useful if you are debugging
/// a JITter or some such, since it provides a way to make sure valgrind will
/// retranslate the invalidated area. Returns no value.
pub fn discardTranslations(qzz: []const u8) void {
doClientRequestStmt(.DiscardTranslations, @intFromPtr(qzz.ptr), qzz.len, 0, 0, 0);
}
pub fn innerThreads(qzz: [*]u8) void {
doClientRequestStmt(.InnerThreads, qzz, 0, 0, 0, 0);
}
pub fn nonSIMDCall0(func: fn (usize) usize) usize {
return doClientRequestExpr(0, .ClientCall0, @intFromPtr(func), 0, 0, 0, 0);
}
pub fn nonSIMDCall1(func: fn (usize, usize) usize, a1: usize) usize {
return doClientRequestExpr(0, .ClientCall1, @intFromPtr(func), a1, 0, 0, 0);
}
pub fn nonSIMDCall2(func: fn (usize, usize, usize) usize, a1: usize, a2: usize) usize {
return doClientRequestExpr(0, .ClientCall2, @intFromPtr(func), a1, a2, 0, 0);
}
pub fn nonSIMDCall3(func: fn (usize, usize, usize, usize) usize, a1: usize, a2: usize, a3: usize) usize {
return doClientRequestExpr(0, .ClientCall3, @intFromPtr(func), a1, a2, a3, 0);
}
/// Counts the number of errors that have been recorded by a tool. Nb:
/// the tool must record the errors with VG_(maybe_record_error)() or
/// VG_(unique_error)() for them to be counted.
pub fn countErrors() usize {
return doClientRequestExpr(0, // default return
.CountErrors, 0, 0, 0, 0, 0);
}
pub fn mallocLikeBlock(mem: []u8, rzB: usize, is_zeroed: bool) void {
doClientRequestStmt(.MalloclikeBlock, @intFromPtr(mem.ptr), mem.len, rzB, @intFromBool(is_zeroed), 0);
}
pub fn resizeInPlaceBlock(oldmem: []u8, newsize: usize, rzB: usize) void {
doClientRequestStmt(.ResizeinplaceBlock, @intFromPtr(oldmem.ptr), oldmem.len, newsize, rzB, 0);
}
pub fn freeLikeBlock(addr: [*]u8, rzB: usize) void {
doClientRequestStmt(.FreelikeBlock, @intFromPtr(addr), rzB, 0, 0, 0);
}
/// Create a memory pool.
pub const MempoolFlags = struct {
pub const AutoFree = 1;
pub const MetaPool = 2;
};
pub fn createMempool(pool: [*]u8, rzB: usize, is_zeroed: bool, flags: usize) void {
doClientRequestStmt(.CreateMempool, @intFromPtr(pool), rzB, @intFromBool(is_zeroed), flags, 0);
}
/// Destroy a memory pool.
pub fn destroyMempool(pool: [*]u8) void {
doClientRequestStmt(.DestroyMempool, pool, 0, 0, 0, 0);
}
/// Associate a piece of memory with a memory pool.
pub fn mempoolAlloc(pool: [*]u8, mem: []u8) void {
doClientRequestStmt(.MempoolAlloc, @intFromPtr(pool), @intFromPtr(mem.ptr), mem.len, 0, 0);
}
/// Disassociate a piece of memory from a memory pool.
pub fn mempoolFree(pool: [*]u8, addr: [*]u8) void {
doClientRequestStmt(.MempoolFree, @intFromPtr(pool), @intFromPtr(addr), 0, 0, 0);
}
/// Disassociate any pieces outside a particular range.
pub fn mempoolTrim(pool: [*]u8, mem: []u8) void {
doClientRequestStmt(.MempoolTrim, @intFromPtr(pool), @intFromPtr(mem.ptr), mem.len, 0, 0);
}
/// Resize and/or move a piece associated with a memory pool.
pub fn moveMempool(poolA: [*]u8, poolB: [*]u8) void {
doClientRequestStmt(.MoveMempool, @intFromPtr(poolA), @intFromPtr(poolB), 0, 0, 0);
}
/// Resize and/or move a piece associated with a memory pool.
pub fn mempoolChange(pool: [*]u8, addrA: [*]u8, mem: []u8) void {
doClientRequestStmt(.MempoolChange, @intFromPtr(pool), @intFromPtr(addrA), @intFromPtr(mem.ptr), mem.len, 0);
}
/// Return if a mempool exists.
pub fn mempoolExists(pool: [*]u8) bool {
return doClientRequestExpr(0, .MempoolExists, @intFromPtr(pool), 0, 0, 0, 0) != 0;
}
/// Mark a piece of memory as being a stack. Returns a stack id.
/// start is the lowest addressable stack byte, end is the highest
/// addressable stack byte.
pub fn stackRegister(stack: []u8) usize {
return doClientRequestExpr(0, .StackRegister, @intFromPtr(stack.ptr), @intFromPtr(stack.ptr) + stack.len, 0, 0, 0);
}
/// Unmark the piece of memory associated with a stack id as being a stack.
pub fn stackDeregister(id: usize) void {
doClientRequestStmt(.StackDeregister, id, 0, 0, 0, 0);
}
/// Change the start and end address of the stack id.
/// start is the new lowest addressable stack byte, end is the new highest
/// addressable stack byte.
pub fn stackChange(id: usize, newstack: []u8) void {
doClientRequestStmt(.StackChange, id, @intFromPtr(newstack.ptr), @intFromPtr(newstack.ptr) + newstack.len, 0, 0);
}
// Load PDB debug info for Wine PE image_map.
// pub fn loadPdbDebuginfo(fd, ptr, total_size, delta) void {
// doClientRequestStmt(.LoadPdbDebuginfo,
// fd, ptr, total_size, delta,
// 0);
// }
/// Map a code address to a source file name and line number. buf64
/// must point to a 64-byte buffer in the caller's address space. The
/// result will be dumped in there and is guaranteed to be zero
/// terminated. If no info is found, the first byte is set to zero.
pub fn mapIpToSrcloc(addr: *const u8, buf64: [64]u8) usize {
return doClientRequestExpr(0, .MapIpToSrcloc, @intFromPtr(addr), @intFromPtr(&buf64[0]), 0, 0, 0);
}
/// Disable error reporting for this thread. Behaves in a stack like
/// way, so you can safely call this multiple times provided that
/// enableErrorReporting() is called the same number of times
/// to re-enable reporting. The first call of this macro disables
/// reporting. Subsequent calls have no effect except to increase the
/// number of enableErrorReporting() calls needed to re-enable
/// reporting. Child threads do not inherit this setting from their
/// parents -- they are always created with reporting enabled.
pub fn disableErrorReporting() void {
doClientRequestStmt(.ChangeErrDisablement, 1, 0, 0, 0, 0);
}
/// Re-enable error reporting, (see disableErrorReporting())
pub fn enableErrorReporting() void {
doClientRequestStmt(.ChangeErrDisablement, math.maxInt(usize), 0, 0, 0, 0);
}
/// Execute a monitor command from the client program.
/// If a connection is opened with GDB, the output will be sent
/// according to the output mode set for vgdb.
/// If no connection is opened, output will go to the log output.
/// Returns 1 if command not recognised, 0 otherwise.
pub fn monitorCommand(command: [*]u8) bool {
return doClientRequestExpr(0, .GdbMonitorCommand, @intFromPtr(command.ptr), 0, 0, 0, 0) != 0;
}
pub const memcheck = @import("valgrind/memcheck.zig");
pub const callgrind = @import("valgrind/callgrind.zig");
test {
_ = memcheck;
_ = callgrind;
}