const std = @import("../std.zig"); const valgrind = std.valgrind; pub const MemCheckClientRequest = extern enum { MakeMemNoAccess = valgrind.ToolBase("MC"), MakeMemUndefined, MakeMemDefined, Discard, CheckMemIsAddressable, CheckMemIsDefined, DoLeakCheck, CountLeaks, GetVbits, SetVbits, CreateBlock, MakeMemDefinedIfAddressable, CountLeakBlocks, EnableAddrErrorReportingInRange, DisableAddrErrorReportingInRange, }; fn doMemCheckClientRequestExpr(default: usize, request: MemCheckClientRequest, a1: usize, a2: usize, a3: usize, a4: usize, a5: usize) usize { return valgrind.doClientRequest(default, @intCast(usize, @enumToInt(request)), a1, a2, a3, a4, a5); } fn doMemCheckClientRequestStmt(request: MemCheckClientRequest, a1: usize, a2: usize, a3: usize, a4: usize, a5: usize) void { _ = doMemCheckClientRequestExpr(0, request, a1, a2, a3, a4, a5); } /// Mark memory at qzz.ptr as unaddressable for qzz.len bytes. /// This returns -1 when run on Valgrind and 0 otherwise. pub fn makeMemNoAccess(qzz: []u8) i1 { return @intCast(i1, doMemCheckClientRequestExpr(0, // default return .MakeMemNoAccess, @ptrToInt(qzz.ptr), qzz.len, 0, 0, 0)); } /// Similarly, mark memory at qzz.ptr as addressable but undefined /// for qzz.len bytes. /// This returns -1 when run on Valgrind and 0 otherwise. pub fn makeMemUndefined(qzz: []u8) i1 { return @intCast(i1, doMemCheckClientRequestExpr(0, // default return .MakeMemUndefined, @ptrToInt(qzz.ptr), qzz.len, 0, 0, 0)); } /// Similarly, mark memory at qzz.ptr as addressable and defined /// for qzz.len bytes. pub fn makeMemDefined(qzz: []u8) i1 { // This returns -1 when run on Valgrind and 0 otherwise. return @intCast(i1, doMemCheckClientRequestExpr(0, // default return .MakeMemDefined, @ptrToInt(qzz.ptr), qzz.len, 0, 0, 0)); } /// Similar to makeMemDefined except that addressability is /// not altered: bytes which are addressable are marked as defined, /// but those which are not addressable are left unchanged. /// This returns -1 when run on Valgrind and 0 otherwise. pub fn makeMemDefinedIfAddressable(qzz: []u8) i1 { return @intCast(i1, doMemCheckClientRequestExpr(0, // default return .MakeMemDefinedIfAddressable, @ptrToInt(qzz.ptr), qzz.len, 0, 0, 0)); } /// Create a block-description handle. The description is an ascii /// string which is included in any messages pertaining to addresses /// within the specified memory range. Has no other effect on the /// properties of the memory range. pub fn createBlock(qzz: []u8, desc: [*]u8) usize { return doMemCheckClientRequestExpr(0, // default return .CreateBlock, @ptrToInt(qzz.ptr), qzz.len, @ptrToInt(desc), 0, 0); } /// Discard a block-description-handle. Returns 1 for an /// invalid handle, 0 for a valid handle. pub fn discard(blkindex) bool { return doMemCheckClientRequestExpr(0, // default return .Discard, 0, blkindex, 0, 0, 0) != 0; } /// Check that memory at qzz.ptr is addressable for qzz.len bytes. /// If suitable addressibility is not established, Valgrind prints an /// error message and returns the address of the first offending byte. /// Otherwise it returns zero. pub fn checkMemIsAddressable(qzz: []u8) usize { return doMemCheckClientRequestExpr(0, .CheckMemIsAddressable, @ptrToInt(qzz.ptr), qzz.len, 0, 0, 0); } /// Check that memory at qzz.ptr is addressable and defined for /// qzz.len bytes. If suitable addressibility and definedness are not /// established, Valgrind prints an error message and returns the /// address of the first offending byte. Otherwise it returns zero. pub fn checkMemIsDefined(qzz: []u8) usize { return doMemCheckClientRequestExpr(0, .CheckMemIsDefined, @ptrToInt(qzz.ptr), qzz.len, 0, 0, 0); } /// Do a full memory leak check (like --leak-check=full) mid-execution. pub fn doLeakCheck() void { doMemCheckClientRequestStmt(.DO_LEAK_CHECK, 0, 0, 0, 0, 0); } /// Same as doLeakCheck() but only showing the entries for /// which there was an increase in leaked bytes or leaked nr of blocks /// since the previous leak search. pub fn doAddedLeakCheck() void { doMemCheckClientRequestStmt(.DO_LEAK_CHECK, 0, 1, 0, 0, 0); } /// Same as doAddedLeakCheck() but showing entries with /// increased or decreased leaked bytes/blocks since previous leak /// search. pub fn doChangedLeakCheck() void { doMemCheckClientRequestStmt(.DO_LEAK_CHECK, 0, 2, 0, 0, 0); } /// Do a summary memory leak check (like --leak-check=summary) mid-execution. pub fn doQuickLeakCheck() void { doMemCheckClientRequestStmt(.DO_LEAK_CHECK, 1, 0, 0, 0, 0); } /// Return number of leaked, dubious, reachable and suppressed bytes found by /// all previous leak checks. const CountResult = struct { leaked: usize, dubious: usize, reachable: usize, suppressed: usize, }; pub fn countLeaks() CountResult { var res: CountResult = .{ .leaked = 0, .dubious = 0, .reachable = 0, .suppressed = 0, }; doMemCheckClientRequestStmt( .CountLeaks, @ptrToInt(&res.leaked), @ptrToInt(&res.dubious), @ptrToInt(&res.reachable), @ptrToInt(&res.suppressed), 0, ); return res; } pub fn countLeakBlocks() CountResult { var res: CountResult = .{ .leaked = 0, .dubious = 0, .reachable = 0, .suppressed = 0, }; doMemCheckClientRequestStmt( .CountLeakBlocks, @ptrToInt(&res.leaked), @ptrToInt(&res.dubious), @ptrToInt(&res.reachable), @ptrToInt(&res.suppressed), 0, ); return res; } /// Get the validity data for addresses zza and copy it /// into the provided zzvbits array. Return values: /// 0 if not running on valgrind /// 1 success /// 2 [previously indicated unaligned arrays; these are now allowed] /// 3 if any parts of zzsrc/zzvbits are not addressable. /// The metadata is not copied in cases 0, 2 or 3 so it should be /// impossible to segfault your system by using this call. pub fn getVbits(zza: []u8, zzvbits: []u8) u2 { std.debug.assert(zzvbits.len >= zza.len / 8); return @intCast(u2, doMemCheckClientRequestExpr(0, .GetVbits, @ptrToInt(zza.ptr), @ptrToInt(zzvbits), zza.len, 0, 0)); } /// Set the validity data for addresses zza, copying it /// from the provided zzvbits array. Return values: /// 0 if not running on valgrind /// 1 success /// 2 [previously indicated unaligned arrays; these are now allowed] /// 3 if any parts of zza/zzvbits are not addressable. /// The metadata is not copied in cases 0, 2 or 3 so it should be /// impossible to segfault your system by using this call. pub fn setVbits(zzvbits: []u8, zza: []u8) u2 { std.debug.assert(zzvbits.len >= zza.len / 8); return @intCast(u2, doMemCheckClientRequestExpr(0, .SetVbits, @ptrToInt(zza.ptr), @ptrToInt(zzvbits), zza.len, 0, 0)); } /// Disable and re-enable reporting of addressing errors in the /// specified address range. pub fn disableAddrErrorReportingInRange(qzz: []u8) usize { return doMemCheckClientRequestExpr(0, // default return .DisableAddrErrorReportingInRange, @ptrToInt(qzz.ptr), qzz.len, 0, 0, 0); } pub fn enableAddrErrorReportingInRange(qzz: []u8) usize { return doMemCheckClientRequestExpr(0, // default return .EnableAddrErrorReportingInRange, @ptrToInt(qzz.ptr), qzz.len, 0, 0, 0); }