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// errorcheck -0 -m -l
// Copyright 2015 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
// Test escape analysis for struct function parameters.
// Note companion strict_param1 checks *struct function parameters with similar tests.
package notmain
var Ssink *string
type U struct {
_sp *string
_spp **string
}
type V struct {
_u U
_up *U
_upp **U
}
func (u U) SP() *string { // ERROR "leaking param: u to result ~r0 level=0$"
return u._sp
}
func (u U) SPP() **string { // ERROR "leaking param: u to result ~r0 level=0$"
return u._spp
}
func (u U) SPPi() *string { // ERROR "leaking param: u to result ~r0 level=1$"
return *u._spp
}
func tSPPi() {
s := "cat" // ERROR "moved to heap: s$"
ps := &s
pps := &ps
pu := &U{ps, pps} // ERROR "&U literal does not escape$"
Ssink = pu.SPPi()
}
func tiSPP() {
s := "cat" // ERROR "moved to heap: s$"
ps := &s
pps := &ps
pu := &U{ps, pps} // ERROR "&U literal does not escape$"
Ssink = *pu.SPP()
}
// BAD: need fine-grained analysis to avoid spurious escape of ps
func tSP() {
s := "cat" // ERROR "moved to heap: s$"
ps := &s // ERROR "moved to heap: ps$"
pps := &ps
pu := &U{ps, pps} // ERROR "&U literal does not escape$"
Ssink = pu.SP()
}
func (v V) u() U { // ERROR "leaking param: v to result ~r0 level=0$"
return v._u
}
func (v V) UP() *U { // ERROR "leaking param: v to result ~r0 level=0$"
return v._up
}
func (v V) UPP() **U { // ERROR "leaking param: v to result ~r0 level=0$"
return v._upp
}
func (v V) UPPia() *U { // ERROR "leaking param: v to result ~r0 level=1$"
return *v._upp
}
func (v V) UPPib() *U { // ERROR "leaking param: v to result ~r0 level=1$"
return *v.UPP()
}
func (v V) USPa() *string { // ERROR "leaking param: v to result ~r0 level=0$"
return v._u._sp
}
func (v V) USPb() *string { // ERROR "leaking param: v to result ~r0 level=0$"
return v.u()._sp
}
func (v V) USPPia() *string { // ERROR "leaking param: v to result ~r0 level=1$"
return *v._u._spp
}
func (v V) USPPib() *string { // ERROR "leaking param: v to result ~r0 level=1$"
return v._u.SPPi()
}
func (v V) UPiSPa() *string { // ERROR "leaking param: v to result ~r0 level=1$"
return v._up._sp
}
func (v V) UPiSPb() *string { // ERROR "leaking param: v to result ~r0 level=1$"
return v._up.SP()
}
func (v V) UPiSPc() *string { // ERROR "leaking param: v to result ~r0 level=1$"
return v.UP()._sp
}
func (v V) UPiSPd() *string { // ERROR "leaking param: v to result ~r0 level=1$"
return v.UP().SP()
}
// BAD: need fine-grained (field-sensitive) analysis to avoid spurious escape of all but &s3
func tUPiSPa() {
s1 := "ant"
s2 := "bat" // ERROR "moved to heap: s2$"
s3 := "cat" // ERROR "moved to heap: s3$"
s4 := "dog" // ERROR "moved to heap: s4$"
s5 := "emu" // ERROR "moved to heap: s5$"
s6 := "fox" // ERROR "moved to heap: s6$"
ps2 := &s2
ps4 := &s4 // ERROR "moved to heap: ps4$"
ps6 := &s6 // ERROR "moved to heap: ps6$"
u1 := U{&s1, &ps2}
u2 := &U{&s3, &ps4} // ERROR "&U literal does not escape$"
u3 := &U{&s5, &ps6} // ERROR "&U literal escapes to heap$"
v := &V{u1, u2, &u3} // ERROR "&V literal does not escape$"
Ssink = v.UPiSPa() // Ssink = &s3 (only &s3 really escapes)
}
// BAD: need fine-grained (field-sensitive) analysis to avoid spurious escape of all but &s3
func tUPiSPb() {
s1 := "ant"
s2 := "bat" // ERROR "moved to heap: s2$"
s3 := "cat" // ERROR "moved to heap: s3$"
s4 := "dog" // ERROR "moved to heap: s4$"
s5 := "emu" // ERROR "moved to heap: s5$"
s6 := "fox" // ERROR "moved to heap: s6$"
ps2 := &s2
ps4 := &s4 // ERROR "moved to heap: ps4$"
ps6 := &s6 // ERROR "moved to heap: ps6$"
u1 := U{&s1, &ps2}
u2 := &U{&s3, &ps4} // ERROR "&U literal does not escape$"
u3 := &U{&s5, &ps6} // ERROR "&U literal escapes to heap$"
v := &V{u1, u2, &u3} // ERROR "&V literal does not escape$"
Ssink = v.UPiSPb() // Ssink = &s3 (only &s3 really escapes)
}
// BAD: need fine-grained (field-sensitive) analysis to avoid spurious escape of all but &s3
func tUPiSPc() {
s1 := "ant"
s2 := "bat" // ERROR "moved to heap: s2$"
s3 := "cat" // ERROR "moved to heap: s3$"
s4 := "dog" // ERROR "moved to heap: s4$"
s5 := "emu" // ERROR "moved to heap: s5$"
s6 := "fox" // ERROR "moved to heap: s6$"
ps2 := &s2
ps4 := &s4 // ERROR "moved to heap: ps4$"
ps6 := &s6 // ERROR "moved to heap: ps6$"
u1 := U{&s1, &ps2}
u2 := &U{&s3, &ps4} // ERROR "&U literal does not escape$"
u3 := &U{&s5, &ps6} // ERROR "&U literal escapes to heap$"
v := &V{u1, u2, &u3} // ERROR "&V literal does not escape$"
Ssink = v.UPiSPc() // Ssink = &s3 (only &s3 really escapes)
}
// BAD: need fine-grained (field-sensitive) analysis to avoid spurious escape of all but &s3
func tUPiSPd() {
s1 := "ant"
s2 := "bat" // ERROR "moved to heap: s2$"
s3 := "cat" // ERROR "moved to heap: s3$"
s4 := "dog" // ERROR "moved to heap: s4$"
s5 := "emu" // ERROR "moved to heap: s5$"
s6 := "fox" // ERROR "moved to heap: s6$"
ps2 := &s2
ps4 := &s4 // ERROR "moved to heap: ps4$"
ps6 := &s6 // ERROR "moved to heap: ps6$"
u1 := U{&s1, &ps2}
u2 := &U{&s3, &ps4} // ERROR "&U literal does not escape$"
u3 := &U{&s5, &ps6} // ERROR "&U literal escapes to heap$"
v := &V{u1, u2, &u3} // ERROR "&V literal does not escape$"
Ssink = v.UPiSPd() // Ssink = &s3 (only &s3 really escapes)
}
func (v V) UPiSPPia() *string { // ERROR "leaking param: v to result ~r0 level=2$"
return *v._up._spp
}
func (v V) UPiSPPib() *string { // ERROR "leaking param: v to result ~r0 level=2$"
return v._up.SPPi()
}
func (v V) UPiSPPic() *string { // ERROR "leaking param: v to result ~r0 level=2$"
return *v.UP()._spp
}
func (v V) UPiSPPid() *string { // ERROR "leaking param: v to result ~r0 level=2$"
return v.UP().SPPi()
}
// BAD: need fine-grained (field-sensitive) analysis to avoid spurious escape of all but &s4
func tUPiSPPia() {
s1 := "ant"
s2 := "bat"
s3 := "cat"
s4 := "dog" // ERROR "moved to heap: s4$"
s5 := "emu" // ERROR "moved to heap: s5$"
s6 := "fox" // ERROR "moved to heap: s6$"
ps2 := &s2
ps4 := &s4
ps6 := &s6 // ERROR "moved to heap: ps6$"
u1 := U{&s1, &ps2}
u2 := &U{&s3, &ps4} // ERROR "&U literal does not escape$"
u3 := &U{&s5, &ps6} // ERROR "&U literal does not escape$"
v := &V{u1, u2, &u3} // ERROR "&V literal does not escape$"
Ssink = v.UPiSPPia() // Ssink = *&ps4 = &s4 (only &s4 really escapes)
}
// BAD: need fine-grained (field-sensitive) analysis to avoid spurious escape of all but &s4
func tUPiSPPib() {
s1 := "ant"
s2 := "bat"
s3 := "cat"
s4 := "dog" // ERROR "moved to heap: s4$"
s5 := "emu" // ERROR "moved to heap: s5$"
s6 := "fox" // ERROR "moved to heap: s6$"
ps2 := &s2
ps4 := &s4
ps6 := &s6 // ERROR "moved to heap: ps6$"
u1 := U{&s1, &ps2}
u2 := &U{&s3, &ps4} // ERROR "&U literal does not escape$"
u3 := &U{&s5, &ps6} // ERROR "&U literal does not escape$"
v := &V{u1, u2, &u3} // ERROR "&V literal does not escape$"
Ssink = v.UPiSPPib() // Ssink = *&ps4 = &s4 (only &s4 really escapes)
}
// BAD: need fine-grained (field-sensitive) analysis to avoid spurious escape of all but &s4
func tUPiSPPic() {
s1 := "ant"
s2 := "bat"
s3 := "cat"
s4 := "dog" // ERROR "moved to heap: s4$"
s5 := "emu" // ERROR "moved to heap: s5$"
s6 := "fox" // ERROR "moved to heap: s6$"
ps2 := &s2
ps4 := &s4
ps6 := &s6 // ERROR "moved to heap: ps6$"
u1 := U{&s1, &ps2}
u2 := &U{&s3, &ps4} // ERROR "&U literal does not escape$"
u3 := &U{&s5, &ps6} // ERROR "&U literal does not escape$"
v := &V{u1, u2, &u3} // ERROR "&V literal does not escape$"
Ssink = v.UPiSPPic() // Ssink = *&ps4 = &s4 (only &s4 really escapes)
}
// BAD: need fine-grained (field-sensitive) analysis to avoid spurious escape of all but &s4
func tUPiSPPid() {
s1 := "ant"
s2 := "bat"
s3 := "cat"
s4 := "dog" // ERROR "moved to heap: s4$"
s5 := "emu" // ERROR "moved to heap: s5$"
s6 := "fox" // ERROR "moved to heap: s6$"
ps2 := &s2
ps4 := &s4
ps6 := &s6 // ERROR "moved to heap: ps6$"
u1 := U{&s1, &ps2}
u2 := &U{&s3, &ps4} // ERROR "&U literal does not escape$"
u3 := &U{&s5, &ps6} // ERROR "&U literal does not escape$"
v := &V{u1, u2, &u3} // ERROR "&V literal does not escape$"
Ssink = v.UPiSPPid() // Ssink = *&ps4 = &s4 (only &s4 really escapes)
}
func (v V) UPPiSPPia() *string { // ERROR "leaking param: v to result ~r0 level=3$"
return *(*v._upp)._spp
}
// This test isolates the one value that needs to escape, not because
// it distinguishes fields but because it knows that &s6 is the only
// value reachable by two indirects from v.
// The test depends on the level cap in the escape analysis tags
// being able to encode that fact.
func tUPPiSPPia() { // This test is sensitive to the level cap in function summary results.
s1 := "ant"
s2 := "bat"
s3 := "cat"
s4 := "dog"
s5 := "emu"
s6 := "fox" // ERROR "moved to heap: s6$"
ps2 := &s2
ps4 := &s4
ps6 := &s6
u1 := U{&s1, &ps2}
u2 := &U{&s3, &ps4} // ERROR "&U literal does not escape$"
u3 := &U{&s5, &ps6} // ERROR "&U literal does not escape$"
v := &V{u1, u2, &u3} // ERROR "&V literal does not escape$"
Ssink = v.UPPiSPPia() // Ssink = *&ps6 = &s6 (only &s6 really escapes)
}