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go/test/escape_because.go

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// errorcheck -0 -m -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.
// Note the doubled -m; this tests the "because" explanations for escapes,
// and is likely to be annoyingly fragile under compiler change.
// As long as the explanations look reasonably sane, meaning eyeball verify output of
// go build -gcflags '-l -m -m' escape_because.go
// and investigate changes, feel free to update with
// go run run.go -update_errors -- escape_because.go
package main
func main() {
}
var sink interface{}
type pair struct {
x, y *int
}
type Pairy interface {
EqualParts() bool
}
func (p *pair) EqualParts() bool { // ERROR "\(\*pair\).EqualParts p does not escape$"
return p != nil && (p.x == p.y || *p.x == *p.y)
}
func f1(p *int) { // ERROR "from \[3\]\*int literal \(array literal element\) at escape_because.go:34$" "from a \(assigned\) at escape_because.go:34$" "from a \(interface-converted\) at escape_because.go:35$" "from sink \(assigned to top level variable\) at escape_because.go:35$" "leaking param: p$"
a := [3]*int{p, nil, nil}
sink = a // ERROR "a escapes to heap$" "from sink \(assigned to top level variable\) at escape_because.go:35$"
}
func f2(q *int) { // ERROR "from &u \(address-of\) at escape_because.go:43$" "from &u \(interface-converted\) at escape_because.go:43$" "from pair literal \(struct literal element\) at escape_because.go:41$" "from s \(assigned\) at escape_because.go:40$" "from sink \(assigned to top level variable\) at escape_because.go:43$" "from t \(assigned\) at escape_because.go:41$" "from u \(assigned\) at escape_because.go:42$" "leaking param: q$"
s := q
t := pair{s, nil}
u := t // ERROR "moved to heap: u$"
sink = &u // ERROR "&u escapes to heap$" "from &u \(interface-converted\) at escape_because.go:43$" "from sink \(assigned to top level variable\) at escape_because.go:43$"
}
cmd/compile: flow interface data to heap if CONVIFACE of a non-direct interface escapes Consider the following code: func f(x []*T) interface{} { return x } It returns an interface that holds a heap copy of x (by calling convT2I or friend), therefore x escape to heap. The current escape analysis only recognizes that x flows to the result. This is not sufficient, since if the result does not escape, x's content may be stack allocated and this will result a heap-to-stack pointer, which is bad. Fix this by realizing that if a CONVIFACE escapes and we're converting from a non-direct interface type, the data needs to escape to heap. Running "toolstash -cmp" on std & cmd, the generated machine code are identical for all packages. However, the export data (escape tags) differ in the following packages. It looks to me that all are similar to the "f" above, where the parameter should escape to heap. io/ioutil/ioutil.go:118 old: leaking param: r to result ~r1 level=0 new: leaking param: r image/image.go:943 old: leaking param: p to result ~r0 level=1 new: leaking param content: p net/url/url.go:200 old: leaking param: s to result ~r2 level=0 new: leaking param: s (as a consequence) net/url/url.go:183 old: leaking param: s to result ~r1 level=0 new: leaking param: s net/url/url.go:194 old: leaking param: s to result ~r1 level=0 new: leaking param: s net/url/url.go:699 old: leaking param: u to result ~r0 level=1 new: leaking param: u net/url/url.go:775 old: (*URL).String u does not escape new: leaking param content: u net/url/url.go:1038 old: leaking param: u to result ~r0 level=1 new: leaking param: u net/url/url.go:1099 old: (*URL).MarshalBinary u does not escape new: leaking param content: u flag/flag.go:235 old: leaking param: s to result ~r0 level=1 new: leaking param content: s go/scanner/errors.go:105 old: leaking param: p to result ~r0 level=0 new: leaking param: p database/sql/sql.go:204 old: leaking param: ns to result ~r0 level=0 new: leaking param: ns go/constant/value.go:303 old: leaking param: re to result ~r2 level=0, leaking param: im to result ~r2 level=0 new: leaking param: re, leaking param: im go/constant/value.go:846 old: leaking param: x to result ~r1 level=0 new: leaking param: x encoding/xml/xml.go:518 old: leaking param: d to result ~r1 level=2 new: leaking param content: d encoding/xml/xml.go:122 old: leaking param: leaking param: t to result ~r1 level=0 new: leaking param: t crypto/x509/verify.go:506 old: leaking param: c to result ~r8 level=0 new: leaking param: c crypto/x509/verify.go:563 old: leaking param: c to result ~r3 level=0, leaking param content: c new: leaking param: c crypto/x509/verify.go:615 old: (nothing) new: leaking closure reference c crypto/x509/verify.go:996 old: leaking param: c to result ~r1 level=0, leaking param content: c new: leaking param: c net/http/filetransport.go:30 old: leaking param: fs to result ~r1 level=0 new: leaking param: fs net/http/h2_bundle.go:2684 old: leaking param: mh to result ~r0 level=2 new: leaking param content: mh net/http/h2_bundle.go:7352 old: http2checkConnHeaders req does not escape new: leaking param content: req net/http/pprof/pprof.go:221 old: leaking param: name to result ~r1 level=0 new: leaking param: name cmd/internal/bio/must.go:21 old: leaking param: w to result ~r1 level=0 new: leaking param: w Fixes #29353. Change-Id: I7e7798ae773728028b0dcae5bccb3ada51189c68 Reviewed-on: https://go-review.googlesource.com/c/162829 Run-TryBot: Cherry Zhang <cherryyz@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com> Reviewed-by: David Chase <drchase@google.com>
2019-02-17 21:12:55 -07:00
func f3(r *int) interface{} { // ERROR "from \[\]\*int literal \(slice-literal-element\) at escape_because.go:47$" "from c \(assigned\) at escape_because.go:47$" "from c \(interface-converted\) at escape_because.go:48$" "from ~r1 \(return\) at escape_because.go:48$" "leaking param: r"
c := []*int{r} // ERROR "\[\]\*int literal escapes to heap$" "from c \(assigned\) at escape_because.go:47$" "from c \(interface-converted\) at escape_because.go:48$" "from ~r1 \(return\) at escape_because.go:48$"
return c // "return" // ERROR "c escapes to heap$" "from ~r1 \(return\) at escape_because.go:48$"
}
func f4(a *int, s []*int) int { // ERROR "from \*s \(indirection\) at escape_because.go:51$" "from append\(s, a\) \(appended to slice\) at escape_because.go:52$" "from append\(s, a\) \(appendee slice\) at escape_because.go:52$" "leaking param content: s$" "leaking param: a$"
s = append(s, a)
return *(s[0])
}
func f5(s1, s2 []*int) int { // ERROR "from \*s1 \(indirection\) at escape_because.go:56$" "from \*s2 \(indirection\) at escape_because.go:56$" "from append\(s1, s2...\) \(appended slice...\) at escape_because.go:57$" "from append\(s1, s2...\) \(appendee slice\) at escape_because.go:57$" "leaking param content: s1$" "leaking param content: s2$"
s1 = append(s1, s2...)
return *(s1[0])
}
func f6(x, y *int) bool { // ERROR "f6 x does not escape$" "f6 y does not escape$"
p := pair{x, y}
var P Pairy = &p // ERROR "f6 &p does not escape$"
pp := P.(*pair)
return pp.EqualParts()
}
func f7(x map[int]*int, y int) *int { // ERROR "f7 x does not escape$"
z, ok := x[y]
if !ok {
return nil
}
return z
}
func f8(x int, y *int) *int { // ERROR "from ~r2 \(return\) at escape_because.go:78$" "from ~r2 \(returned from recursive function\) at escape_because.go:76$" "leaking param: y$" "moved to heap: x$"
if x <= 0 {
return y
}
x--
return f8(*y, &x) // ERROR "&x escapes to heap$" "from y \(arg to recursive call\) at escape_because.go:81$" "from ~r2 \(return\) at escape_because.go:78$" "from ~r2 \(returned from recursive function\) at escape_because.go:76$"
}
func f9(x int, y ...*int) *int { // ERROR "from y\[0\] \(dot of pointer\) at escape_because.go:86$" "from ~r2 \(return\) at escape_because.go:86$" "from ~r2 \(returned from recursive function\) at escape_because.go:84$" "leaking param content: y$" "leaking param: y to result ~r2 level=1$" "moved to heap: x$"
if x <= 0 {
return y[0]
}
x--
return f9(*y[0], &x) // ERROR "&x escapes to heap$" "f9 ... argument does not escape$" "from ... argument \(... arg to recursive call\) at escape_because.go:89$"
}
func f10(x map[*int]*int, y, z *int) *int { // ERROR "f10 x does not escape$" "from x\[y\] \(key of map put\) at escape_because.go:93$" "from x\[y\] \(value of map put\) at escape_because.go:93$" "leaking param: y$" "leaking param: z$"
x[y] = z
return z
}
func f11(x map[*int]*int, y, z *int) map[*int]*int { // ERROR "f11 x does not escape$" "from map\[\*int\]\*int literal \(map literal key\) at escape_because.go:98$" "from map\[\*int\]\*int literal \(map literal value\) at escape_because.go:98$" "leaking param: y$" "leaking param: z$"
return map[*int]*int{y: z} // ERROR "from ~r3 \(return\) at escape_because.go:98$" "map\[\*int\]\*int literal escapes to heap$"
}
func f12() {
b := []byte("test") // ERROR "\(\[\]byte\)\(.test.\) escapes to heap$" "from b \(assigned\) at escape_because.go:102$" "from b \(passed to call\[argument escapes\]\) at escape_because.go:103$"
escape(b)
}
func escape(b []byte) { // ERROR "from panic\(b\) \(panic\) at escape_because.go:107$" "leaking param: b$"
panic(b)
}
func f13() {
b := []byte("test") // ERROR "\(\[\]byte\)\(.test.\) escapes to heap$" "from .out0 \(passed-to-and-returned-from-call\) at escape_because.go:112$" "from b \(assigned\) at escape_because.go:111$" "from c \(assigned\) at escape_because.go:112$" "from c \(passed to call\[argument escapes\]\) at escape_because.go:113$"
c := transmit(b)
escape(c)
}
func transmit(b []byte) []byte { // ERROR "from ~r1 \(return\) at escape_because.go:117$" "leaking param: b to result ~r1 level=0$"
return b
}
func f14() {
n := 32
s1 := make([]int, n) // ERROR "make\(\[\]int, n\) escapes to heap" "from make\(\[\]int, n\) \(non-constant size\)"
s2 := make([]int, 0, n) // ERROR "make\(\[\]int, 0, n\) escapes to heap" "from make\(\[\]int, 0, n\) \(non-constant size\)"
_, _ = s1, s2
}
func leakParams(p1, p2 *int) (*int, *int) { // ERROR "leaking param: p1 to result ~r2 level=0$" "from ~r2 \(return\) at escape_because.go:128$" "leaking param: p2 to result ~r3 level=0$" "from ~r3 \(return\) at escape_because.go:128$"
return p1, p2
}
func leakThroughOAS2() {
// See #26987.
i := 0 // ERROR "moved to heap: i$"
j := 0 // ERROR "moved to heap: j$"
sink, sink = &i, &j // ERROR "&i escapes to heap$" "from sink \(assign-pair\) at escape_because.go:135$" "from &i \(interface-converted\) at escape_because.go:135$" "&j escapes to heap$" "from &j \(interface-converted\) at escape_because.go:135"
}
func leakThroughOAS2FUNC() {
// See #26987.
i := 0 // ERROR "moved to heap: i$"
j := 0
sink, _ = leakParams(&i, &j) // ERROR "&i escapes to heap$" "&j does not escape$" "from .out0 \(passed-to-and-returned-from-call\) at escape_because.go:142$" "from sink \(assign-pair-func-call\) at escape_because.go:142$"
}
// The list below is all of the why-escapes messages seen building the escape analysis tests.
/*
for i in escape*go ; do echo compile $i; go build -gcflags '-l -m -m' $i >& `basename $i .go`.log ; done
grep 'from .* at ' escape*.log | sed -e 's/^.*(\([^()]*\))[^()]*$/\1/' | sort -u
*/
// sed RE above assumes that (reason) is the last parenthesized phrase in the line,
// and that none of the reasons contains any parentheses
/*
... arg to recursive call
address-of
appended slice...
appended to slice
appendee slice
arg to ...
arg to recursive call
array-element-equals
array literal element
assigned
assigned to top level variable
assign-pair-dot-type
assign-pair-func-call
captured by a closure
captured by called closure
dot
dot-equals
dot of pointer
fixed-array-index-of
go func arg
indirection
interface-converted
key of map put
map literal key
map literal value
non-constant size
panic
parameter to indirect call
passed-to-and-returned-from-call
passed to call[argument content escapes]
passed to call[argument escapes]
pointer literal
range-deref
receiver in indirect call
return
returned from recursive function
slice-element-equals
slice-literal-element
star-dot-equals
star-equals
struct literal element
too large for stack
value of map put
*/
// Expected, but not yet seen (they may be unreachable):
/*
append-first-arg
assign-pair-mapr
assign-pair-receive
call receiver
map index
pointer literal [assign]
slice literal element
*/