// RUN: %clang_cc1 -std=c++20 -Wunsafe-buffer-usage -fdiagnostics-parseable-fixits -fblocks -fsafe-buffer-usage-suggestions -verify %s
// RUN: %clang_cc1 -std=c++20 -Wunsafe-buffer-usage -fdiagnostics-parseable-fixits -fblocks -fsafe-buffer-usage-suggestions \
// RUN: %s 2>&1 | FileCheck %s
// FIXME: what about possible diagnostic message non-determinism?
// CHECK-NOT: fix-it:{{.*}}:{[[@LINE+1]]:
void parmsNoFix(int *p, int *q) {
int * a = new int[10];
int * b = new int[10]; //expected-warning{{'b' is an unsafe pointer used for buffer access}} \
expected-note{{change type of 'b' to 'std::span' to preserve bounds information}}
a = p;
a = q;
b[5] = 5; // expected-note{{used in buffer access here}}
}
// CHECK: fix-it:{{.*}}:{[[@LINE+2]]:21-[[@LINE+2]]:27}:"std::span<int> p"
// CHECK: fix-it:{{.*}}:{[[@LINE+14]]:2-[[@LINE+14]]:2}:"\n{{\[}}{{\[}}clang::unsafe_buffer_usage{{\]}}{{\]}} void parmsSingleton(int *p) {return parmsSingleton(std::span<int>(p, <# size #>));}\n"
void parmsSingleton(int *p) { //expected-warning{{'p' is an unsafe pointer used for buffer access}} \
expected-note{{change type of 'p' to 'std::span' to preserve bounds information}}
// CHECK: fix-it:{{.*}}:{[[@LINE+3]]:3-[[@LINE+3]]:8}:"std::span<int>"
// CHECK: fix-it:{{.*}}:{[[@LINE+2]]:13-[[@LINE+2]]:13}:"{"
// CHECK: fix-it:{{.*}}:{[[@LINE+1]]:24-[[@LINE+1]]:24}:", 10}"
int * a = new int[10];
// CHECK: fix-it:{{.*}}:{[[@LINE+1]]:3-[[@LINE+1]]:8}:"std::span<int>"
int * b; //expected-warning{{'b' is an unsafe pointer used for buffer access}} \
expected-note{{change type of 'b' to 'std::span' to preserve bounds information, and change 'a' to 'std::span' to propagate bounds information between them}}
b = a;
b[5] = 5; // expected-note{{used in buffer access here}}
p[5] = 5; // expected-note{{used in buffer access here}}
}
// Parameters other than `r` all will be fixed
// CHECK: fix-it:{{.*}}:{[[@LINE+15]]:24-[[@LINE+15]]:30}:"std::span<int> p"
// CHECK fix-it:{{.*}}:{[[@LINE+14]]:32-[[@LINE+14]]:39}:"std::span<int *> q"
// CHECK: fix-it:{{.*}}:{[[@LINE+13]]:41-[[@LINE+13]]:48}:"std::span<int> a"
// CHECK: fix-it:{{.*}}:{[[@LINE+23]]:2-[[@LINE+23]]:2}:"\n{{\[}}{{\[}}clang::unsafe_buffer_usage{{\]}}{{\]}} void * multiParmAllFix(int *p, int **q, int a[], int * r) {return multiParmAllFix(std::span<int>(p, <# size #>), std::span<int *>(q, <# size #>), std::span<int>(a, <# size #>), r);}\n"
// repeat 2 more times as each of the 3 fixing parameters generates the set of fix-its above.
// CHECK: fix-it:{{.*}}:{[[@LINE+8]]:24-[[@LINE+8]]:30}:"std::span<int> p"
// CHECK fix-it:{{.*}}:{[[@LINE+7]]:32-[[@LINE+7]]:39}:"std::span<int *> q"
// CHECK: fix-it:{{.*}}:{[[@LINE+6]]:41-[[@LINE+6]]:48}:"std::span<int> a"
// CHECK: fix-it:{{.*}}:{[[@LINE+16]]:2-[[@LINE+16]]:2}:"\n{{\[}}{{\[}}clang::unsafe_buffer_usage{{\]}}{{\]}} void * multiParmAllFix(int *p, int **q, int a[], int * r) {return multiParmAllFix(std::span<int>(p, <# size #>), std::span<int *>(q, <# size #>), std::span<int>(a, <# size #>), r);}\n"
// CHECK: fix-it:{{.*}}:{[[@LINE+4]]:24-[[@LINE+4]]:30}:"std::span<int> p"
// CHECK fix-it:{{.*}}:{[[@LINE+3]]:32-[[@LINE+3]]:39}:"std::span<int *> q"
// CHECK: fix-it:{{.*}}:{[[@LINE+2]]:41-[[@LINE+2]]:48}:"std::span<int> a"
// CHECK: fix-it:{{.*}}:{[[@LINE+12]]:2-[[@LINE+12]]:2}:"\n{{\[}}{{\[}}clang::unsafe_buffer_usage{{\]}}{{\]}} void * multiParmAllFix(int *p, int **q, int a[], int * r) {return multiParmAllFix(std::span<int>(p, <# size #>), std::span<int *>(q, <# size #>), std::span<int>(a, <# size #>), r);}\n"
void * multiParmAllFix(int *p, int **q, int a[], int * r) { // expected-warning{{'p' is an unsafe pointer used for buffer access}} expected-warning{{'q' is an unsafe pointer used for buffer access}} \
expected-warning{{'a' is an unsafe pointer used for buffer access}} \
expected-note{{change type of 'p' to 'std::span' to preserve bounds information, and change 'q' and 'a' to safe types to make function 'multiParmAllFix' bounds-safe}} \
expected-note{{change type of 'q' to 'std::span' to preserve bounds information, and change 'p' and 'a' to safe types to make function 'multiParmAllFix' bounds-safe}} \
expected-note{{change type of 'a' to 'std::span' to preserve bounds information, and change 'p' and 'q' to safe types to make function 'multiParmAllFix' bounds-safe}}
int tmp;
tmp = p[5]; // expected-note{{used in buffer access here}}
tmp = a[5]; // expected-note{{used in buffer access here}}
if (++q) {} // expected-note{{used in pointer arithmetic here}}
return r;
}
void * multiParmAllFix(int *p, int **q, int a[], int * r);
// CHECK: fix-it:{{.*}}:{[[@LINE-1]]:1-[[@LINE-1]]:1}:"{{\[}}{{\[}}clang::unsafe_buffer_usage{{\]}}{{\]}} "
// CHECK: fix-it:{{.*}}:{[[@LINE-2]]:58-[[@LINE-2]]:58}:";\nvoid * multiParmAllFix(std::span<int> p, std::span<int *> q, std::span<int> a, int * r)"
// Fixing local variables implicates fixing parameters
void multiParmLocalAllFix(int *p, int * r) {
// CHECK-NOT: fix-it:{{.*}}:{[[@LINE-1]]:
// CHECK-NOT: fix-it:{{.*}}:{[[@LINE+1]]:
int * x; // expected-warning{{'x' is an unsafe pointer used for buffer access}}
// CHECK-NOT: fix-it:{{.*}}:{[[@LINE+1]]:
int * z; // expected-warning{{'z' is an unsafe pointer used for buffer access}}
int * y;
x = p;
y = x; // FIXME: we do not fix `y = x` here as the `.data()` fix-it is not generally correct
// `x` needs to be fixed so does the pointer assigned to `x`, i.e.,`p`
x[5] = 5; // expected-note{{used in buffer access here}}
z = r;
// `z` needs to be fixed so does the pointer assigned to `z`, i.e.,`r`
z[5] = 5; // expected-note{{used in buffer access here}}
// Since `p` and `r` are parameters need to be fixed together,
// fixing `x` involves fixing all `p`, `r` and `z`. Similar for
// fixing `z`.
}
// CHECK-NOT: fix-it:{{.*}}:{[[@LINE-1]]:
// Fixing parameters implicates fixing local variables
// CHECK-NOT: fix-it:{{.*}}:{[[@LINE+1]]:
void multiParmLocalAllFix2(int *p, int * r) { // expected-warning{{'p' is an unsafe pointer used for buffer access}} \
expected-warning{{'r' is an unsafe pointer used for buffer access}}
int * x = new int[10];
// CHECK-NOT: fix-it:{{.*}}:{[[@LINE-1]]:
int * z = new int[10];
// CHECK-NOT: fix-it:{{.*}}:{[[@LINE-1]]:
int * y;
p = x;
y = x; // FIXME: we do not fix `y = x` here as the `.data()` fix-it is not generally correct
p[5] = 5; // expected-note{{used in buffer access here}}
r = z;
r[5] = 5; // expected-note{{used in buffer access here}}
}
// CHECK-NOT: fix-it:{{.*}}:{[[@LINE-1]]:
// No fix emitted for any of the parameter since parameter `r` cannot be fixed
// CHECK-NOT: fix-it:{{.*}}:{[[@LINE+1]]
void noneParmFix(int * p, int * q, int * r) { // expected-warning{{'p' is an unsafe pointer used for buffer access}} \
expected-warning{{'q' is an unsafe pointer used for buffer access}} \
expected-warning{{'r' is an unsafe pointer used for buffer access}}
int tmp = p[5]; // expected-note{{used in buffer access here}}
tmp = q[5]; // expected-note{{used in buffer access here}}
r++; // expected-note{{used in pointer arithmetic here}}
tmp = r[5]; // expected-note{{used in buffer access here}}
}
// CHECK-NOT: fix-it:{{.*}}:{[[@LINE-1]]
// To show what if the `r` in `noneParmFix` can be fixed:
void noneParmFix_control(int * p, int * q, int * r) { // expected-warning{{'p' is an unsafe pointer used for buffer access}} \
expected-note{{change type of 'p' to 'std::span' to preserve bounds information, and change 'q' and 'r' to safe types to make function 'noneParmFix_control' bounds-safe}} \
expected-warning{{'q' is an unsafe pointer used for buffer access}} \
expected-note{{change type of 'q' to 'std::span' to preserve bounds information, and change 'p' and 'r' to safe types to make function 'noneParmFix_control' bounds-safe}} \
expected-warning{{'r' is an unsafe pointer used for buffer access}} \
expected-note{{change type of 'r' to 'std::span' to preserve bounds information, and change 'p' and 'q' to safe types to make function 'noneParmFix_control' bounds-safe}}
int tmp = p[5]; // expected-note{{used in buffer access here}}
tmp = q[5]; // expected-note{{used in buffer access here}}
if (++r) {} // expected-note{{used in pointer arithmetic here}}
tmp = r[5]; // expected-note{{used in buffer access here}}
}
// No fix emitted for any of the parameter since local variable `l` cannot be fixed.
// CHECK-NOT: fix-it:{{.*}}:{[[@LINE+1]]
void noneParmOrLocalFix(int * p, int * q, int * r) { // expected-warning{{'p' is an unsafe pointer used for buffer access}} \
expected-warning{{'q' is an unsafe pointer used for buffer access}} \
expected-warning{{'r' is an unsafe pointer used for buffer access}}
int tmp = p[5]; // expected-note{{used in buffer access here}}
tmp = q[5]; // expected-note{{used in buffer access here}}
tmp = r[5]; // expected-note{{used in buffer access here}}
// `l` and `r` must be fixed together while all parameters must be fixed together as well:
int * l; l = r; // expected-warning{{'l' is an unsafe pointer used for buffer access}}
l++; // expected-note{{used in pointer arithmetic here}}
}
// CHECK-NOT: fix-it:{{.*}}:{[[@LINE-1]]
// To show what if the `l` can be fixed in `noneParmOrLocalFix`:
void noneParmOrLocalFix_control(int * p, int * q, int * r) {// \
expected-warning{{'p' is an unsafe pointer used for buffer access}} \
expected-note{{change type of 'p' to 'std::span' to preserve bounds information, and change 'q', 'r', and 'l' to safe types to make function 'noneParmOrLocalFix_control' bounds-safe}} \
expected-warning{{'q' is an unsafe pointer used for buffer access}} \
expected-note{{change type of 'q' to 'std::span' to preserve bounds information, and change 'p', 'r', and 'l' to safe types to make function 'noneParmOrLocalFix_control' bounds-safe}} \
expected-warning{{'r' is an unsafe pointer used for buffer access}} \
expected-note{{change type of 'r' to 'std::span' to preserve bounds information, and change 'p', 'q', and 'l' to safe types to make function 'noneParmOrLocalFix_control' bounds-safe}}
int tmp = p[5]; // expected-note{{used in buffer access here}}
tmp = q[5]; // expected-note{{used in buffer access here}}
tmp = r[5]; // expected-note{{used in buffer access here}}
int * l; // expected-warning{{'l' is an unsafe pointer used for buffer access}} \
expected-note{{change type of 'l' to 'std::span' to preserve bounds information, and change 'p', 'q', and 'r' to safe types to make function 'noneParmOrLocalFix_control' bounds-safe}}
l = r;
if (++l){}; // expected-note{{used in pointer arithmetic here}}
}
// No fix emitted for any of the parameter since local variable `l` cannot be fixed.
// CHECK-NOT: fix-it:{{.*}}:{[[@LINE+1]]
void noneParmOrLocalFix2(int * p, int * q, int * r) { // expected-warning{{'p' is an unsafe pointer used for buffer access}} \
expected-warning{{'q' is an unsafe pointer used for buffer access}} \
expected-warning{{'r' is an unsafe pointer used for buffer access}}
int tmp = p[5]; // expected-note{{used in buffer access here}}
tmp = q[5]; // expected-note{{used in buffer access here}}
tmp = r[5]; // expected-note{{used in buffer access here}}
int * a; a = r;
int * b; b = a;
int * l; l = b; // expected-warning{{'l' is an unsafe pointer used for buffer access}}
// `a, b, l` and parameters must be fixed together but `l` can't be fixed:
l++; // expected-note{{used in pointer arithmetic here}}
}
// CHECK-NOT: fix-it:{{.*}}:{[[@LINE-1]]
// To show what if the `l` can be fixed in `noneParmOrLocalFix2`:
void noneParmOrLocalFix2_control(int * p, int * q, int * r) { // \
expected-warning{{'p' is an unsafe pointer used for buffer access}} \
expected-note{{change type of 'p' to 'std::span' to preserve bounds information, and change 'q', 'r', 'l', 'b', and 'a' to safe types to make function 'noneParmOrLocalFix2_control' bounds-safe}} \
expected-warning{{'q' is an unsafe pointer used for buffer access}} \
expected-note{{change type of 'q' to 'std::span' to preserve bounds information, and change 'p', 'r', 'l', 'b', and 'a' to safe types to make function 'noneParmOrLocalFix2_control' bounds-safe}} \
expected-warning{{'r' is an unsafe pointer used for buffer access}} \
expected-note{{change type of 'r' to 'std::span' to preserve bounds information, and change 'p', 'q', 'l', 'b', and 'a' to safe types to make function 'noneParmOrLocalFix2_control' bounds-safe}}
int tmp = p[5]; // expected-note{{used in buffer access here}}
tmp = q[5]; // expected-note{{used in buffer access here}}
tmp = r[5]; // expected-note{{used in buffer access here}}
int * a; a = r;
int * b; b = a;
int * l; // expected-warning{{'l' is an unsafe pointer used for buffer access}} \
expected-note{{change type of 'l' to 'std::span' to preserve bounds information, and change 'p', 'q', 'r', 'b', and 'a' to safe types to make function 'noneParmOrLocalFix2_control' bounds-safe}}
l = b;
if(++l){} // expected-note{{used in pointer arithmetic here}}
}
// No fix emitted for any of the parameter since local variable `l` cannot be fixed
// CHECK-NOT: fix-it:{{.*}}:{[[@LINE+1]]
void noneParmOrLocalFix3(int * p, int * q, int * r) { // expected-warning{{'p' is an unsafe pointer used for buffer access}} \
expected-warning{{'q' is an unsafe pointer used for buffer access}} \
expected-warning{{'r' is an unsafe pointer used for buffer access}}
int tmp = p[5]; // expected-note{{used in buffer access here}}
tmp = q[5]; // expected-note{{used in buffer access here}}
tmp = r[5]; // expected-note{{used in buffer access here}}
int * a; a = r;
int * b; b = a;
int * l; l = b; // expected-warning{{'l' is an unsafe pointer used for buffer access}}
l++; // expected-note{{used in pointer arithmetic here}}
int * x; x = p; // expected-warning{{'x' is an unsafe pointer used for buffer access}}
tmp = x[5]; // expected-note{{used in buffer access here}}
}
// CHECK-NOT: fix-it:{{.*}}:{[[@LINE-1]]
void noneParmOrLocalFix3_control(int * p, int * q, int * r) { // \
expected-warning{{'p' is an unsafe pointer used for buffer access}} \
expected-note{{change type of 'p' to 'std::span' to preserve bounds information, and change 'x', 'q', 'r', 'l', 'b', and 'a' to safe types to make function 'noneParmOrLocalFix3_control' bounds-safe}} \
expected-warning{{'q' is an unsafe pointer used for buffer access}} \
expected-note{{change type of 'q' to 'std::span' to preserve bounds information, and change 'p', 'x', 'r', 'l', 'b', and 'a' to safe types to make function 'noneParmOrLocalFix3_control' bounds-safe}} \
expected-warning{{'r' is an unsafe pointer used for buffer access}} \
expected-note{{change type of 'r' to 'std::span' to preserve bounds information, and change 'p', 'x', 'q', 'l', 'b', and 'a' to safe types to make function 'noneParmOrLocalFix3_control' bounds-safe}}
int tmp = p[5]; // expected-note{{used in buffer access here}}
tmp = q[5]; // expected-note{{used in buffer access here}}
tmp = r[5]; // expected-note{{used in buffer access here}}
int * a; a = r;
int * b; b = a;
int * l; // expected-warning{{'l' is an unsafe pointer used for buffer access}} \
expected-note{{change type of 'l' to 'std::span' to preserve bounds information, and change 'p', 'x', 'q', 'r', 'b', and 'a' to safe types to make function 'noneParmOrLocalFix3_control' bounds-safe}}
l = b;
if (++l){}; // expected-note{{used in pointer arithmetic here}}
int * x; // expected-warning{{'x' is an unsafe pointer used for buffer access}} \
expected-note{{change type of 'x' to 'std::span' to preserve bounds information, and change 'p', 'q', 'r', 'l', 'b', and 'a' to safe types to make function 'noneParmOrLocalFix3_control' bounds-safe}}
x = p;
tmp = x[5]; // expected-note{{used in buffer access here}}
}
// No fix emitted for any of the parameter but some local variables will get fixed
// CHECK-NOT: fix-it:{{.*}}:{[[@LINE+1]]
void noneParmSomeLocalFix(int * p, int * q, int * r) { // expected-warning{{'p' is an unsafe pointer used for buffer access}} \
expected-warning{{'q' is an unsafe pointer used for buffer access}} \
expected-warning{{'r' is an unsafe pointer used for buffer access}}
int tmp = p[5]; // expected-note{{used in buffer access here}}
tmp = q[5]; // expected-note{{used in buffer access here}}
tmp = r[5]; // expected-note{{used in buffer access here}}
int * a; a = r;
int * b; b = a;
int * l; l = b; // expected-warning{{'l' is an unsafe pointer used for buffer access}}
l++; // expected-note{{used in pointer arithmetic here}}
//`x` and `y` can be fixed
int * x = new int[10];
// CHECK: fix-it:{{.*}}:{[[@LINE-1]]:3-[[@LINE-1]]:8}:"std::span<int>"
// CHECK: fix-it:{{.*}}:{[[@LINE-2]]:13-[[@LINE-2]]:13}:"{"
// CHECK: fix-it:{{.*}}:{[[@LINE-3]]:24-[[@LINE-3]]:24}:", 10}"
// CHECK: fix-it:{{.*}}:{[[@LINE+1]]:3-[[@LINE+1]]:8}:"std::span<int>"
int * y; // expected-warning{{'y' is an unsafe pointer used for buffer access}} \
expected-note{{change type of 'y' to 'std::span' to preserve bounds information, and change 'x' to 'std::span' to propagate bounds information between them}}
y = x;
tmp = y[5]; // expected-note{{used in buffer access here}}
}
// CHECK-NOT: fix-it:{{.*}}:{[[@LINE-1]]
// Test that other parameters of (lambdas and blocks) do not interfere
// the grouping of variables of the function.
// CHECK: fix-it:{{.*}}:{[[@LINE+3]]:30-[[@LINE+3]]:37}:"std::span<int> p"
// CHECK: fix-it:{{.*}}:{[[@LINE+2]]:39-[[@LINE+2]]:46}:"std::span<int> q"
// CHECK: fix-it:{{.*}}:{[[@LINE+20]]:2-[[@LINE+20]]:2}:"\n{{\[}}{{\[}}clang::unsafe_buffer_usage{{\]}}{{\]}} void parmsFromLambdaAndBlock(int * p, int * q) {return parmsFromLambdaAndBlock(std::span<int>(p, <# size #>), std::span<int>(q, <# size #>));}\n"
void parmsFromLambdaAndBlock(int * p, int * q) {
// CHECK: fix-it:{{.*}}:{[[@LINE+1]]:3-[[@LINE+1]]:8}:"std::span<int>"
int * a; // expected-warning{{'a' is an unsafe pointer used for buffer access}} \
expected-note{{change type of 'a' to 'std::span' to preserve bounds information, and change 'p', 'b', and 'q' to safe types to make function 'parmsFromLambdaAndBlock' bounds-safe}}
// CHECK: fix-it:{{.*}}:{[[@LINE+1]]:3-[[@LINE+1]]:8}:"std::span<int>"
int * b; // expected-warning{{'b' is an unsafe pointer used for buffer access}} \
expected-note{{change type of 'b' to 'std::span' to preserve bounds information, and change 'a', 'p', and 'q' to safe types to make function 'parmsFromLambdaAndBlock' bounds-safe}}
auto Lamb = [](int * x) -> void { // expected-warning{{'x' is an unsafe pointer used for buffer access}}
x[5] = 5; // expected-note{{used in buffer access here}}
};
void (^Blk)(int*) = ^(int * y) { // expected-warning{{'y' is an unsafe pointer used for buffer access}}
y[5] = 5; // expected-note{{used in buffer access here}}
};
a = p;
b = q;
a[5] = 5; // expected-note{{used in buffer access here}}
b[5] = 5; // expected-note{{used in buffer access here}}
}