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go/test/codegen/memops.go

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// asmcheck
// Copyright 2018 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.
package codegen
var x [2]bool
var x8 [2]uint8
var x16 [2]uint16
var x32 [2]uint32
var x64 [2]uint64
func compMem1() int {
cmd/compile: set LocalPkg.Path to -p flag Since CL 391014, cmd/compile now requires the -p flag to be set the build system. This CL changes it to initialize LocalPkg.Path to the provided path, rather than relying on writing out `"".` into object files and expecting cmd/link to substitute them. However, this actually involved a rather long tail of fixes. Many have already been submitted, but a few notable ones that have to land simultaneously with changing LocalPkg: 1. When compiling package runtime, there are really two "runtime" packages: types.LocalPkg (the source package itself) and ir.Pkgs.Runtime (the compiler's internal representation, for synthetic references). Previously, these ended up creating separate link symbols (`"".xxx` and `runtime.xxx`, respectively), but now they both end up as `runtime.xxx`, which causes lsym collisions (notably inittask and funcsyms). 2. test/codegen tests need to be updated to expect symbols to be named `command-line-arguments.xxx` rather than `"".foo`. 3. The issue20014 test case is sensitive to the sort order of field tracking symbols. In particular, the local package now sorts to its natural place in the list, rather than to the front. Thanks to David Chase for helping track down all of the fixes needed for this CL. Updates #51734. Change-Id: Iba3041cf7ad967d18c6e17922fa06ba11798b565 Reviewed-on: https://go-review.googlesource.com/c/go/+/393715 Reviewed-by: David Chase <drchase@google.com> Run-TryBot: Matthew Dempsky <mdempsky@google.com> TryBot-Result: Gopher Robot <gobot@golang.org> Reviewed-by: Cuong Manh Le <cuong.manhle.vn@gmail.com>
2022-03-17 14:27:40 -06:00
// amd64:`CMPB\tcommand-line-arguments.x\+1\(SB\), [$]0`
if x[1] {
return 1
}
cmd/compile: set LocalPkg.Path to -p flag Since CL 391014, cmd/compile now requires the -p flag to be set the build system. This CL changes it to initialize LocalPkg.Path to the provided path, rather than relying on writing out `"".` into object files and expecting cmd/link to substitute them. However, this actually involved a rather long tail of fixes. Many have already been submitted, but a few notable ones that have to land simultaneously with changing LocalPkg: 1. When compiling package runtime, there are really two "runtime" packages: types.LocalPkg (the source package itself) and ir.Pkgs.Runtime (the compiler's internal representation, for synthetic references). Previously, these ended up creating separate link symbols (`"".xxx` and `runtime.xxx`, respectively), but now they both end up as `runtime.xxx`, which causes lsym collisions (notably inittask and funcsyms). 2. test/codegen tests need to be updated to expect symbols to be named `command-line-arguments.xxx` rather than `"".foo`. 3. The issue20014 test case is sensitive to the sort order of field tracking symbols. In particular, the local package now sorts to its natural place in the list, rather than to the front. Thanks to David Chase for helping track down all of the fixes needed for this CL. Updates #51734. Change-Id: Iba3041cf7ad967d18c6e17922fa06ba11798b565 Reviewed-on: https://go-review.googlesource.com/c/go/+/393715 Reviewed-by: David Chase <drchase@google.com> Run-TryBot: Matthew Dempsky <mdempsky@google.com> TryBot-Result: Gopher Robot <gobot@golang.org> Reviewed-by: Cuong Manh Le <cuong.manhle.vn@gmail.com>
2022-03-17 14:27:40 -06:00
// amd64:`CMPB\tcommand-line-arguments.x8\+1\(SB\), [$]7`
if x8[1] == 7 {
return 1
}
cmd/compile: set LocalPkg.Path to -p flag Since CL 391014, cmd/compile now requires the -p flag to be set the build system. This CL changes it to initialize LocalPkg.Path to the provided path, rather than relying on writing out `"".` into object files and expecting cmd/link to substitute them. However, this actually involved a rather long tail of fixes. Many have already been submitted, but a few notable ones that have to land simultaneously with changing LocalPkg: 1. When compiling package runtime, there are really two "runtime" packages: types.LocalPkg (the source package itself) and ir.Pkgs.Runtime (the compiler's internal representation, for synthetic references). Previously, these ended up creating separate link symbols (`"".xxx` and `runtime.xxx`, respectively), but now they both end up as `runtime.xxx`, which causes lsym collisions (notably inittask and funcsyms). 2. test/codegen tests need to be updated to expect symbols to be named `command-line-arguments.xxx` rather than `"".foo`. 3. The issue20014 test case is sensitive to the sort order of field tracking symbols. In particular, the local package now sorts to its natural place in the list, rather than to the front. Thanks to David Chase for helping track down all of the fixes needed for this CL. Updates #51734. Change-Id: Iba3041cf7ad967d18c6e17922fa06ba11798b565 Reviewed-on: https://go-review.googlesource.com/c/go/+/393715 Reviewed-by: David Chase <drchase@google.com> Run-TryBot: Matthew Dempsky <mdempsky@google.com> TryBot-Result: Gopher Robot <gobot@golang.org> Reviewed-by: Cuong Manh Le <cuong.manhle.vn@gmail.com>
2022-03-17 14:27:40 -06:00
// amd64:`CMPW\tcommand-line-arguments.x16\+2\(SB\), [$]7`
if x16[1] == 7 {
return 1
}
cmd/compile: set LocalPkg.Path to -p flag Since CL 391014, cmd/compile now requires the -p flag to be set the build system. This CL changes it to initialize LocalPkg.Path to the provided path, rather than relying on writing out `"".` into object files and expecting cmd/link to substitute them. However, this actually involved a rather long tail of fixes. Many have already been submitted, but a few notable ones that have to land simultaneously with changing LocalPkg: 1. When compiling package runtime, there are really two "runtime" packages: types.LocalPkg (the source package itself) and ir.Pkgs.Runtime (the compiler's internal representation, for synthetic references). Previously, these ended up creating separate link symbols (`"".xxx` and `runtime.xxx`, respectively), but now they both end up as `runtime.xxx`, which causes lsym collisions (notably inittask and funcsyms). 2. test/codegen tests need to be updated to expect symbols to be named `command-line-arguments.xxx` rather than `"".foo`. 3. The issue20014 test case is sensitive to the sort order of field tracking symbols. In particular, the local package now sorts to its natural place in the list, rather than to the front. Thanks to David Chase for helping track down all of the fixes needed for this CL. Updates #51734. Change-Id: Iba3041cf7ad967d18c6e17922fa06ba11798b565 Reviewed-on: https://go-review.googlesource.com/c/go/+/393715 Reviewed-by: David Chase <drchase@google.com> Run-TryBot: Matthew Dempsky <mdempsky@google.com> TryBot-Result: Gopher Robot <gobot@golang.org> Reviewed-by: Cuong Manh Le <cuong.manhle.vn@gmail.com>
2022-03-17 14:27:40 -06:00
// amd64:`CMPL\tcommand-line-arguments.x32\+4\(SB\), [$]7`
if x32[1] == 7 {
return 1
}
cmd/compile: set LocalPkg.Path to -p flag Since CL 391014, cmd/compile now requires the -p flag to be set the build system. This CL changes it to initialize LocalPkg.Path to the provided path, rather than relying on writing out `"".` into object files and expecting cmd/link to substitute them. However, this actually involved a rather long tail of fixes. Many have already been submitted, but a few notable ones that have to land simultaneously with changing LocalPkg: 1. When compiling package runtime, there are really two "runtime" packages: types.LocalPkg (the source package itself) and ir.Pkgs.Runtime (the compiler's internal representation, for synthetic references). Previously, these ended up creating separate link symbols (`"".xxx` and `runtime.xxx`, respectively), but now they both end up as `runtime.xxx`, which causes lsym collisions (notably inittask and funcsyms). 2. test/codegen tests need to be updated to expect symbols to be named `command-line-arguments.xxx` rather than `"".foo`. 3. The issue20014 test case is sensitive to the sort order of field tracking symbols. In particular, the local package now sorts to its natural place in the list, rather than to the front. Thanks to David Chase for helping track down all of the fixes needed for this CL. Updates #51734. Change-Id: Iba3041cf7ad967d18c6e17922fa06ba11798b565 Reviewed-on: https://go-review.googlesource.com/c/go/+/393715 Reviewed-by: David Chase <drchase@google.com> Run-TryBot: Matthew Dempsky <mdempsky@google.com> TryBot-Result: Gopher Robot <gobot@golang.org> Reviewed-by: Cuong Manh Le <cuong.manhle.vn@gmail.com>
2022-03-17 14:27:40 -06:00
// amd64:`CMPQ\tcommand-line-arguments.x64\+8\(SB\), [$]7`
if x64[1] == 7 {
return 1
}
return 0
}
type T struct {
x bool
x8 uint8
x16 uint16
x32 uint32
x64 uint64
a [2]int // force it passed in memory
}
func compMem2(t T) int {
// amd64:`CMPB\t.*\(SP\), [$]0`
if t.x {
return 1
}
// amd64:`CMPB\t.*\(SP\), [$]7`
if t.x8 == 7 {
return 1
}
// amd64:`CMPW\t.*\(SP\), [$]7`
if t.x16 == 7 {
return 1
}
// amd64:`CMPL\t.*\(SP\), [$]7`
if t.x32 == 7 {
return 1
}
// amd64:`CMPQ\t.*\(SP\), [$]7`
if t.x64 == 7 {
return 1
}
return 0
}
func compMem3(x, y *int) (int, bool) {
// We can do comparisons of a register with memory even if
// the register is used subsequently.
r := *x
// amd64:`CMPQ\t\(`
// 386:`CMPL\t\(`
return r, r < *y
}
// The following functions test that indexed load/store operations get generated.
func idxInt8(x, y []int8, i int) {
var t int8
// amd64: `MOVBL[SZ]X\t1\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*1\), [A-Z]+[0-9]*`
cmd/compile: convert 386 port to use addressing modes pass (take 2) Retrying CL 222782, with a fix that will hopefully stop the random crashing. The issue with the previous CL is that it does pointer arithmetic in a way that may briefly generate an out-of-bounds pointer. If an interrupt happens to occur in that state, the referenced object may be collected incorrectly. Suppose there was code that did s[x+c]. The previous CL had a rule to the effect of ptr + (x + c) -> c + (ptr + x). But ptr+x is not guaranteed to point to the same object as ptr. In contrast, ptr+(x+c) is guaranteed to point to the same object as ptr, because we would have already checked that x+c is in bounds. For example, strconv.trim used to have this code: MOVZX -0x1(BX)(DX*1), BP CMPL $0x30, AL After CL 222782, it had this code: LEAL 0(BX)(DX*1), BP CMPB $0x30, -0x1(BP) An interrupt between those last two instructions could see BP pointing outside the backing store of the slice involved. It's really hard to actually demonstrate a bug. First, you need to have an interrupt occur at exactly the right time. Then, there must be no other pointers to the object in question. Since the interrupted frame will be scanned conservatively, there can't even be a dead pointer in another register or on the stack. (In the example above, a bug can't happen because BX still holds the original pointer.) Then, the object in question needs to be collected (or at least scanned?) before the interrupted code continues. This CL needs to handle load combining somewhat differently than CL 222782 because of the new restriction on arithmetic. That's the only real difference (other than removing the bad rules) from that old CL. This bug is also present in the amd64 rewrite rules, and we haven't seen any crashing as a result. I will fix up that code similarly to this one in a separate CL. Update #37881 Change-Id: I5f0d584d9bef4696bfe89a61ef0a27c8d507329f Reviewed-on: https://go-review.googlesource.com/c/go/+/225798 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-03-24 14:39:44 -06:00
// 386: `MOVBL[SZ]X\t1\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*1\), [A-Z]+[0-9]*`
t = x[i+1]
// amd64: `MOVB\t[A-Z]+[0-9]*, 1\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*1\)`
cmd/compile: convert 386 port to use addressing modes pass (take 2) Retrying CL 222782, with a fix that will hopefully stop the random crashing. The issue with the previous CL is that it does pointer arithmetic in a way that may briefly generate an out-of-bounds pointer. If an interrupt happens to occur in that state, the referenced object may be collected incorrectly. Suppose there was code that did s[x+c]. The previous CL had a rule to the effect of ptr + (x + c) -> c + (ptr + x). But ptr+x is not guaranteed to point to the same object as ptr. In contrast, ptr+(x+c) is guaranteed to point to the same object as ptr, because we would have already checked that x+c is in bounds. For example, strconv.trim used to have this code: MOVZX -0x1(BX)(DX*1), BP CMPL $0x30, AL After CL 222782, it had this code: LEAL 0(BX)(DX*1), BP CMPB $0x30, -0x1(BP) An interrupt between those last two instructions could see BP pointing outside the backing store of the slice involved. It's really hard to actually demonstrate a bug. First, you need to have an interrupt occur at exactly the right time. Then, there must be no other pointers to the object in question. Since the interrupted frame will be scanned conservatively, there can't even be a dead pointer in another register or on the stack. (In the example above, a bug can't happen because BX still holds the original pointer.) Then, the object in question needs to be collected (or at least scanned?) before the interrupted code continues. This CL needs to handle load combining somewhat differently than CL 222782 because of the new restriction on arithmetic. That's the only real difference (other than removing the bad rules) from that old CL. This bug is also present in the amd64 rewrite rules, and we haven't seen any crashing as a result. I will fix up that code similarly to this one in a separate CL. Update #37881 Change-Id: I5f0d584d9bef4696bfe89a61ef0a27c8d507329f Reviewed-on: https://go-review.googlesource.com/c/go/+/225798 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-03-24 14:39:44 -06:00
// 386: `MOVB\t[A-Z]+[0-9]*, 1\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*1\)`
y[i+1] = t
// amd64: `MOVB\t[$]77, 1\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*1\)`
cmd/compile: convert 386 port to use addressing modes pass (take 2) Retrying CL 222782, with a fix that will hopefully stop the random crashing. The issue with the previous CL is that it does pointer arithmetic in a way that may briefly generate an out-of-bounds pointer. If an interrupt happens to occur in that state, the referenced object may be collected incorrectly. Suppose there was code that did s[x+c]. The previous CL had a rule to the effect of ptr + (x + c) -> c + (ptr + x). But ptr+x is not guaranteed to point to the same object as ptr. In contrast, ptr+(x+c) is guaranteed to point to the same object as ptr, because we would have already checked that x+c is in bounds. For example, strconv.trim used to have this code: MOVZX -0x1(BX)(DX*1), BP CMPL $0x30, AL After CL 222782, it had this code: LEAL 0(BX)(DX*1), BP CMPB $0x30, -0x1(BP) An interrupt between those last two instructions could see BP pointing outside the backing store of the slice involved. It's really hard to actually demonstrate a bug. First, you need to have an interrupt occur at exactly the right time. Then, there must be no other pointers to the object in question. Since the interrupted frame will be scanned conservatively, there can't even be a dead pointer in another register or on the stack. (In the example above, a bug can't happen because BX still holds the original pointer.) Then, the object in question needs to be collected (or at least scanned?) before the interrupted code continues. This CL needs to handle load combining somewhat differently than CL 222782 because of the new restriction on arithmetic. That's the only real difference (other than removing the bad rules) from that old CL. This bug is also present in the amd64 rewrite rules, and we haven't seen any crashing as a result. I will fix up that code similarly to this one in a separate CL. Update #37881 Change-Id: I5f0d584d9bef4696bfe89a61ef0a27c8d507329f Reviewed-on: https://go-review.googlesource.com/c/go/+/225798 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-03-24 14:39:44 -06:00
// 386: `MOVB\t[$]77, 1\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*1\)`
x[i+1] = 77
}
func idxInt16(x, y []int16, i int) {
var t int16
// amd64: `MOVWL[SZ]X\t2\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*2\), [A-Z]+[0-9]*`
cmd/compile: convert 386 port to use addressing modes pass (take 2) Retrying CL 222782, with a fix that will hopefully stop the random crashing. The issue with the previous CL is that it does pointer arithmetic in a way that may briefly generate an out-of-bounds pointer. If an interrupt happens to occur in that state, the referenced object may be collected incorrectly. Suppose there was code that did s[x+c]. The previous CL had a rule to the effect of ptr + (x + c) -> c + (ptr + x). But ptr+x is not guaranteed to point to the same object as ptr. In contrast, ptr+(x+c) is guaranteed to point to the same object as ptr, because we would have already checked that x+c is in bounds. For example, strconv.trim used to have this code: MOVZX -0x1(BX)(DX*1), BP CMPL $0x30, AL After CL 222782, it had this code: LEAL 0(BX)(DX*1), BP CMPB $0x30, -0x1(BP) An interrupt between those last two instructions could see BP pointing outside the backing store of the slice involved. It's really hard to actually demonstrate a bug. First, you need to have an interrupt occur at exactly the right time. Then, there must be no other pointers to the object in question. Since the interrupted frame will be scanned conservatively, there can't even be a dead pointer in another register or on the stack. (In the example above, a bug can't happen because BX still holds the original pointer.) Then, the object in question needs to be collected (or at least scanned?) before the interrupted code continues. This CL needs to handle load combining somewhat differently than CL 222782 because of the new restriction on arithmetic. That's the only real difference (other than removing the bad rules) from that old CL. This bug is also present in the amd64 rewrite rules, and we haven't seen any crashing as a result. I will fix up that code similarly to this one in a separate CL. Update #37881 Change-Id: I5f0d584d9bef4696bfe89a61ef0a27c8d507329f Reviewed-on: https://go-review.googlesource.com/c/go/+/225798 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-03-24 14:39:44 -06:00
// 386: `MOVWL[SZ]X\t2\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*2\), [A-Z]+[0-9]*`
t = x[i+1]
// amd64: `MOVW\t[A-Z]+[0-9]*, 2\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*2\)`
cmd/compile: convert 386 port to use addressing modes pass (take 2) Retrying CL 222782, with a fix that will hopefully stop the random crashing. The issue with the previous CL is that it does pointer arithmetic in a way that may briefly generate an out-of-bounds pointer. If an interrupt happens to occur in that state, the referenced object may be collected incorrectly. Suppose there was code that did s[x+c]. The previous CL had a rule to the effect of ptr + (x + c) -> c + (ptr + x). But ptr+x is not guaranteed to point to the same object as ptr. In contrast, ptr+(x+c) is guaranteed to point to the same object as ptr, because we would have already checked that x+c is in bounds. For example, strconv.trim used to have this code: MOVZX -0x1(BX)(DX*1), BP CMPL $0x30, AL After CL 222782, it had this code: LEAL 0(BX)(DX*1), BP CMPB $0x30, -0x1(BP) An interrupt between those last two instructions could see BP pointing outside the backing store of the slice involved. It's really hard to actually demonstrate a bug. First, you need to have an interrupt occur at exactly the right time. Then, there must be no other pointers to the object in question. Since the interrupted frame will be scanned conservatively, there can't even be a dead pointer in another register or on the stack. (In the example above, a bug can't happen because BX still holds the original pointer.) Then, the object in question needs to be collected (or at least scanned?) before the interrupted code continues. This CL needs to handle load combining somewhat differently than CL 222782 because of the new restriction on arithmetic. That's the only real difference (other than removing the bad rules) from that old CL. This bug is also present in the amd64 rewrite rules, and we haven't seen any crashing as a result. I will fix up that code similarly to this one in a separate CL. Update #37881 Change-Id: I5f0d584d9bef4696bfe89a61ef0a27c8d507329f Reviewed-on: https://go-review.googlesource.com/c/go/+/225798 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-03-24 14:39:44 -06:00
// 386: `MOVW\t[A-Z]+[0-9]*, 2\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*2\)`
y[i+1] = t
// amd64: `MOVWL[SZ]X\t2\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*[12]\), [A-Z]+[0-9]*`
cmd/compile: convert 386 port to use addressing modes pass (take 2) Retrying CL 222782, with a fix that will hopefully stop the random crashing. The issue with the previous CL is that it does pointer arithmetic in a way that may briefly generate an out-of-bounds pointer. If an interrupt happens to occur in that state, the referenced object may be collected incorrectly. Suppose there was code that did s[x+c]. The previous CL had a rule to the effect of ptr + (x + c) -> c + (ptr + x). But ptr+x is not guaranteed to point to the same object as ptr. In contrast, ptr+(x+c) is guaranteed to point to the same object as ptr, because we would have already checked that x+c is in bounds. For example, strconv.trim used to have this code: MOVZX -0x1(BX)(DX*1), BP CMPL $0x30, AL After CL 222782, it had this code: LEAL 0(BX)(DX*1), BP CMPB $0x30, -0x1(BP) An interrupt between those last two instructions could see BP pointing outside the backing store of the slice involved. It's really hard to actually demonstrate a bug. First, you need to have an interrupt occur at exactly the right time. Then, there must be no other pointers to the object in question. Since the interrupted frame will be scanned conservatively, there can't even be a dead pointer in another register or on the stack. (In the example above, a bug can't happen because BX still holds the original pointer.) Then, the object in question needs to be collected (or at least scanned?) before the interrupted code continues. This CL needs to handle load combining somewhat differently than CL 222782 because of the new restriction on arithmetic. That's the only real difference (other than removing the bad rules) from that old CL. This bug is also present in the amd64 rewrite rules, and we haven't seen any crashing as a result. I will fix up that code similarly to this one in a separate CL. Update #37881 Change-Id: I5f0d584d9bef4696bfe89a61ef0a27c8d507329f Reviewed-on: https://go-review.googlesource.com/c/go/+/225798 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-03-24 14:39:44 -06:00
// 386: `MOVWL[SZ]X\t2\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*[12]\), [A-Z]+[0-9]*`
t = x[16*i+1]
// amd64: `MOVW\t[A-Z]+[0-9]*, 2\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*[12]\)`
cmd/compile: convert 386 port to use addressing modes pass (take 2) Retrying CL 222782, with a fix that will hopefully stop the random crashing. The issue with the previous CL is that it does pointer arithmetic in a way that may briefly generate an out-of-bounds pointer. If an interrupt happens to occur in that state, the referenced object may be collected incorrectly. Suppose there was code that did s[x+c]. The previous CL had a rule to the effect of ptr + (x + c) -> c + (ptr + x). But ptr+x is not guaranteed to point to the same object as ptr. In contrast, ptr+(x+c) is guaranteed to point to the same object as ptr, because we would have already checked that x+c is in bounds. For example, strconv.trim used to have this code: MOVZX -0x1(BX)(DX*1), BP CMPL $0x30, AL After CL 222782, it had this code: LEAL 0(BX)(DX*1), BP CMPB $0x30, -0x1(BP) An interrupt between those last two instructions could see BP pointing outside the backing store of the slice involved. It's really hard to actually demonstrate a bug. First, you need to have an interrupt occur at exactly the right time. Then, there must be no other pointers to the object in question. Since the interrupted frame will be scanned conservatively, there can't even be a dead pointer in another register or on the stack. (In the example above, a bug can't happen because BX still holds the original pointer.) Then, the object in question needs to be collected (or at least scanned?) before the interrupted code continues. This CL needs to handle load combining somewhat differently than CL 222782 because of the new restriction on arithmetic. That's the only real difference (other than removing the bad rules) from that old CL. This bug is also present in the amd64 rewrite rules, and we haven't seen any crashing as a result. I will fix up that code similarly to this one in a separate CL. Update #37881 Change-Id: I5f0d584d9bef4696bfe89a61ef0a27c8d507329f Reviewed-on: https://go-review.googlesource.com/c/go/+/225798 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-03-24 14:39:44 -06:00
// 386: `MOVW\t[A-Z]+[0-9]*, 2\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*[12]\)`
y[16*i+1] = t
// amd64: `MOVW\t[$]77, 2\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*2\)`
cmd/compile: convert 386 port to use addressing modes pass (take 2) Retrying CL 222782, with a fix that will hopefully stop the random crashing. The issue with the previous CL is that it does pointer arithmetic in a way that may briefly generate an out-of-bounds pointer. If an interrupt happens to occur in that state, the referenced object may be collected incorrectly. Suppose there was code that did s[x+c]. The previous CL had a rule to the effect of ptr + (x + c) -> c + (ptr + x). But ptr+x is not guaranteed to point to the same object as ptr. In contrast, ptr+(x+c) is guaranteed to point to the same object as ptr, because we would have already checked that x+c is in bounds. For example, strconv.trim used to have this code: MOVZX -0x1(BX)(DX*1), BP CMPL $0x30, AL After CL 222782, it had this code: LEAL 0(BX)(DX*1), BP CMPB $0x30, -0x1(BP) An interrupt between those last two instructions could see BP pointing outside the backing store of the slice involved. It's really hard to actually demonstrate a bug. First, you need to have an interrupt occur at exactly the right time. Then, there must be no other pointers to the object in question. Since the interrupted frame will be scanned conservatively, there can't even be a dead pointer in another register or on the stack. (In the example above, a bug can't happen because BX still holds the original pointer.) Then, the object in question needs to be collected (or at least scanned?) before the interrupted code continues. This CL needs to handle load combining somewhat differently than CL 222782 because of the new restriction on arithmetic. That's the only real difference (other than removing the bad rules) from that old CL. This bug is also present in the amd64 rewrite rules, and we haven't seen any crashing as a result. I will fix up that code similarly to this one in a separate CL. Update #37881 Change-Id: I5f0d584d9bef4696bfe89a61ef0a27c8d507329f Reviewed-on: https://go-review.googlesource.com/c/go/+/225798 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-03-24 14:39:44 -06:00
// 386: `MOVW\t[$]77, 2\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*2\)`
x[i+1] = 77
// amd64: `MOVW\t[$]77, 2\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*[12]\)`
cmd/compile: convert 386 port to use addressing modes pass (take 2) Retrying CL 222782, with a fix that will hopefully stop the random crashing. The issue with the previous CL is that it does pointer arithmetic in a way that may briefly generate an out-of-bounds pointer. If an interrupt happens to occur in that state, the referenced object may be collected incorrectly. Suppose there was code that did s[x+c]. The previous CL had a rule to the effect of ptr + (x + c) -> c + (ptr + x). But ptr+x is not guaranteed to point to the same object as ptr. In contrast, ptr+(x+c) is guaranteed to point to the same object as ptr, because we would have already checked that x+c is in bounds. For example, strconv.trim used to have this code: MOVZX -0x1(BX)(DX*1), BP CMPL $0x30, AL After CL 222782, it had this code: LEAL 0(BX)(DX*1), BP CMPB $0x30, -0x1(BP) An interrupt between those last two instructions could see BP pointing outside the backing store of the slice involved. It's really hard to actually demonstrate a bug. First, you need to have an interrupt occur at exactly the right time. Then, there must be no other pointers to the object in question. Since the interrupted frame will be scanned conservatively, there can't even be a dead pointer in another register or on the stack. (In the example above, a bug can't happen because BX still holds the original pointer.) Then, the object in question needs to be collected (or at least scanned?) before the interrupted code continues. This CL needs to handle load combining somewhat differently than CL 222782 because of the new restriction on arithmetic. That's the only real difference (other than removing the bad rules) from that old CL. This bug is also present in the amd64 rewrite rules, and we haven't seen any crashing as a result. I will fix up that code similarly to this one in a separate CL. Update #37881 Change-Id: I5f0d584d9bef4696bfe89a61ef0a27c8d507329f Reviewed-on: https://go-review.googlesource.com/c/go/+/225798 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-03-24 14:39:44 -06:00
// 386: `MOVW\t[$]77, 2\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*[12]\)`
x[16*i+1] = 77
}
func idxInt32(x, y []int32, i int) {
var t int32
// amd64: `MOVL\t4\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*4\), [A-Z]+[0-9]*`
cmd/compile: convert 386 port to use addressing modes pass (take 2) Retrying CL 222782, with a fix that will hopefully stop the random crashing. The issue with the previous CL is that it does pointer arithmetic in a way that may briefly generate an out-of-bounds pointer. If an interrupt happens to occur in that state, the referenced object may be collected incorrectly. Suppose there was code that did s[x+c]. The previous CL had a rule to the effect of ptr + (x + c) -> c + (ptr + x). But ptr+x is not guaranteed to point to the same object as ptr. In contrast, ptr+(x+c) is guaranteed to point to the same object as ptr, because we would have already checked that x+c is in bounds. For example, strconv.trim used to have this code: MOVZX -0x1(BX)(DX*1), BP CMPL $0x30, AL After CL 222782, it had this code: LEAL 0(BX)(DX*1), BP CMPB $0x30, -0x1(BP) An interrupt between those last two instructions could see BP pointing outside the backing store of the slice involved. It's really hard to actually demonstrate a bug. First, you need to have an interrupt occur at exactly the right time. Then, there must be no other pointers to the object in question. Since the interrupted frame will be scanned conservatively, there can't even be a dead pointer in another register or on the stack. (In the example above, a bug can't happen because BX still holds the original pointer.) Then, the object in question needs to be collected (or at least scanned?) before the interrupted code continues. This CL needs to handle load combining somewhat differently than CL 222782 because of the new restriction on arithmetic. That's the only real difference (other than removing the bad rules) from that old CL. This bug is also present in the amd64 rewrite rules, and we haven't seen any crashing as a result. I will fix up that code similarly to this one in a separate CL. Update #37881 Change-Id: I5f0d584d9bef4696bfe89a61ef0a27c8d507329f Reviewed-on: https://go-review.googlesource.com/c/go/+/225798 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-03-24 14:39:44 -06:00
// 386: `MOVL\t4\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*4\), [A-Z]+[0-9]*`
t = x[i+1]
// amd64: `MOVL\t[A-Z]+[0-9]*, 4\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*4\)`
cmd/compile: convert 386 port to use addressing modes pass (take 2) Retrying CL 222782, with a fix that will hopefully stop the random crashing. The issue with the previous CL is that it does pointer arithmetic in a way that may briefly generate an out-of-bounds pointer. If an interrupt happens to occur in that state, the referenced object may be collected incorrectly. Suppose there was code that did s[x+c]. The previous CL had a rule to the effect of ptr + (x + c) -> c + (ptr + x). But ptr+x is not guaranteed to point to the same object as ptr. In contrast, ptr+(x+c) is guaranteed to point to the same object as ptr, because we would have already checked that x+c is in bounds. For example, strconv.trim used to have this code: MOVZX -0x1(BX)(DX*1), BP CMPL $0x30, AL After CL 222782, it had this code: LEAL 0(BX)(DX*1), BP CMPB $0x30, -0x1(BP) An interrupt between those last two instructions could see BP pointing outside the backing store of the slice involved. It's really hard to actually demonstrate a bug. First, you need to have an interrupt occur at exactly the right time. Then, there must be no other pointers to the object in question. Since the interrupted frame will be scanned conservatively, there can't even be a dead pointer in another register or on the stack. (In the example above, a bug can't happen because BX still holds the original pointer.) Then, the object in question needs to be collected (or at least scanned?) before the interrupted code continues. This CL needs to handle load combining somewhat differently than CL 222782 because of the new restriction on arithmetic. That's the only real difference (other than removing the bad rules) from that old CL. This bug is also present in the amd64 rewrite rules, and we haven't seen any crashing as a result. I will fix up that code similarly to this one in a separate CL. Update #37881 Change-Id: I5f0d584d9bef4696bfe89a61ef0a27c8d507329f Reviewed-on: https://go-review.googlesource.com/c/go/+/225798 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-03-24 14:39:44 -06:00
// 386: `MOVL\t[A-Z]+[0-9]*, 4\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*4\)`
y[i+1] = t
// amd64: `MOVL\t4\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*8\), [A-Z]+[0-9]*`
t = x[2*i+1]
// amd64: `MOVL\t[A-Z]+[0-9]*, 4\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*8\)`
y[2*i+1] = t
// amd64: `MOVL\t4\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*[14]\), [A-Z]+[0-9]*`
cmd/compile: convert 386 port to use addressing modes pass (take 2) Retrying CL 222782, with a fix that will hopefully stop the random crashing. The issue with the previous CL is that it does pointer arithmetic in a way that may briefly generate an out-of-bounds pointer. If an interrupt happens to occur in that state, the referenced object may be collected incorrectly. Suppose there was code that did s[x+c]. The previous CL had a rule to the effect of ptr + (x + c) -> c + (ptr + x). But ptr+x is not guaranteed to point to the same object as ptr. In contrast, ptr+(x+c) is guaranteed to point to the same object as ptr, because we would have already checked that x+c is in bounds. For example, strconv.trim used to have this code: MOVZX -0x1(BX)(DX*1), BP CMPL $0x30, AL After CL 222782, it had this code: LEAL 0(BX)(DX*1), BP CMPB $0x30, -0x1(BP) An interrupt between those last two instructions could see BP pointing outside the backing store of the slice involved. It's really hard to actually demonstrate a bug. First, you need to have an interrupt occur at exactly the right time. Then, there must be no other pointers to the object in question. Since the interrupted frame will be scanned conservatively, there can't even be a dead pointer in another register or on the stack. (In the example above, a bug can't happen because BX still holds the original pointer.) Then, the object in question needs to be collected (or at least scanned?) before the interrupted code continues. This CL needs to handle load combining somewhat differently than CL 222782 because of the new restriction on arithmetic. That's the only real difference (other than removing the bad rules) from that old CL. This bug is also present in the amd64 rewrite rules, and we haven't seen any crashing as a result. I will fix up that code similarly to this one in a separate CL. Update #37881 Change-Id: I5f0d584d9bef4696bfe89a61ef0a27c8d507329f Reviewed-on: https://go-review.googlesource.com/c/go/+/225798 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-03-24 14:39:44 -06:00
// 386: `MOVL\t4\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*[14]\), [A-Z]+[0-9]*`
t = x[16*i+1]
// amd64: `MOVL\t[A-Z]+[0-9]*, 4\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*[14]\)`
cmd/compile: convert 386 port to use addressing modes pass (take 2) Retrying CL 222782, with a fix that will hopefully stop the random crashing. The issue with the previous CL is that it does pointer arithmetic in a way that may briefly generate an out-of-bounds pointer. If an interrupt happens to occur in that state, the referenced object may be collected incorrectly. Suppose there was code that did s[x+c]. The previous CL had a rule to the effect of ptr + (x + c) -> c + (ptr + x). But ptr+x is not guaranteed to point to the same object as ptr. In contrast, ptr+(x+c) is guaranteed to point to the same object as ptr, because we would have already checked that x+c is in bounds. For example, strconv.trim used to have this code: MOVZX -0x1(BX)(DX*1), BP CMPL $0x30, AL After CL 222782, it had this code: LEAL 0(BX)(DX*1), BP CMPB $0x30, -0x1(BP) An interrupt between those last two instructions could see BP pointing outside the backing store of the slice involved. It's really hard to actually demonstrate a bug. First, you need to have an interrupt occur at exactly the right time. Then, there must be no other pointers to the object in question. Since the interrupted frame will be scanned conservatively, there can't even be a dead pointer in another register or on the stack. (In the example above, a bug can't happen because BX still holds the original pointer.) Then, the object in question needs to be collected (or at least scanned?) before the interrupted code continues. This CL needs to handle load combining somewhat differently than CL 222782 because of the new restriction on arithmetic. That's the only real difference (other than removing the bad rules) from that old CL. This bug is also present in the amd64 rewrite rules, and we haven't seen any crashing as a result. I will fix up that code similarly to this one in a separate CL. Update #37881 Change-Id: I5f0d584d9bef4696bfe89a61ef0a27c8d507329f Reviewed-on: https://go-review.googlesource.com/c/go/+/225798 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-03-24 14:39:44 -06:00
// 386: `MOVL\t[A-Z]+[0-9]*, 4\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*[14]\)`
y[16*i+1] = t
// amd64: `MOVL\t[$]77, 4\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*4\)`
cmd/compile: convert 386 port to use addressing modes pass (take 2) Retrying CL 222782, with a fix that will hopefully stop the random crashing. The issue with the previous CL is that it does pointer arithmetic in a way that may briefly generate an out-of-bounds pointer. If an interrupt happens to occur in that state, the referenced object may be collected incorrectly. Suppose there was code that did s[x+c]. The previous CL had a rule to the effect of ptr + (x + c) -> c + (ptr + x). But ptr+x is not guaranteed to point to the same object as ptr. In contrast, ptr+(x+c) is guaranteed to point to the same object as ptr, because we would have already checked that x+c is in bounds. For example, strconv.trim used to have this code: MOVZX -0x1(BX)(DX*1), BP CMPL $0x30, AL After CL 222782, it had this code: LEAL 0(BX)(DX*1), BP CMPB $0x30, -0x1(BP) An interrupt between those last two instructions could see BP pointing outside the backing store of the slice involved. It's really hard to actually demonstrate a bug. First, you need to have an interrupt occur at exactly the right time. Then, there must be no other pointers to the object in question. Since the interrupted frame will be scanned conservatively, there can't even be a dead pointer in another register or on the stack. (In the example above, a bug can't happen because BX still holds the original pointer.) Then, the object in question needs to be collected (or at least scanned?) before the interrupted code continues. This CL needs to handle load combining somewhat differently than CL 222782 because of the new restriction on arithmetic. That's the only real difference (other than removing the bad rules) from that old CL. This bug is also present in the amd64 rewrite rules, and we haven't seen any crashing as a result. I will fix up that code similarly to this one in a separate CL. Update #37881 Change-Id: I5f0d584d9bef4696bfe89a61ef0a27c8d507329f Reviewed-on: https://go-review.googlesource.com/c/go/+/225798 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-03-24 14:39:44 -06:00
// 386: `MOVL\t[$]77, 4\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*4\)`
x[i+1] = 77
// amd64: `MOVL\t[$]77, 4\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*[14]\)`
cmd/compile: convert 386 port to use addressing modes pass (take 2) Retrying CL 222782, with a fix that will hopefully stop the random crashing. The issue with the previous CL is that it does pointer arithmetic in a way that may briefly generate an out-of-bounds pointer. If an interrupt happens to occur in that state, the referenced object may be collected incorrectly. Suppose there was code that did s[x+c]. The previous CL had a rule to the effect of ptr + (x + c) -> c + (ptr + x). But ptr+x is not guaranteed to point to the same object as ptr. In contrast, ptr+(x+c) is guaranteed to point to the same object as ptr, because we would have already checked that x+c is in bounds. For example, strconv.trim used to have this code: MOVZX -0x1(BX)(DX*1), BP CMPL $0x30, AL After CL 222782, it had this code: LEAL 0(BX)(DX*1), BP CMPB $0x30, -0x1(BP) An interrupt between those last two instructions could see BP pointing outside the backing store of the slice involved. It's really hard to actually demonstrate a bug. First, you need to have an interrupt occur at exactly the right time. Then, there must be no other pointers to the object in question. Since the interrupted frame will be scanned conservatively, there can't even be a dead pointer in another register or on the stack. (In the example above, a bug can't happen because BX still holds the original pointer.) Then, the object in question needs to be collected (or at least scanned?) before the interrupted code continues. This CL needs to handle load combining somewhat differently than CL 222782 because of the new restriction on arithmetic. That's the only real difference (other than removing the bad rules) from that old CL. This bug is also present in the amd64 rewrite rules, and we haven't seen any crashing as a result. I will fix up that code similarly to this one in a separate CL. Update #37881 Change-Id: I5f0d584d9bef4696bfe89a61ef0a27c8d507329f Reviewed-on: https://go-review.googlesource.com/c/go/+/225798 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-03-24 14:39:44 -06:00
// 386: `MOVL\t[$]77, 4\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*[14]\)`
x[16*i+1] = 77
}
func idxInt64(x, y []int64, i int) {
var t int64
// amd64: `MOVQ\t8\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*8\), [A-Z]+[0-9]*`
t = x[i+1]
// amd64: `MOVQ\t[A-Z]+[0-9]*, 8\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*8\)`
y[i+1] = t
// amd64: `MOVQ\t8\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*[18]\), [A-Z]+[0-9]*`
t = x[16*i+1]
// amd64: `MOVQ\t[A-Z]+[0-9]*, 8\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*[18]\)`
y[16*i+1] = t
// amd64: `MOVQ\t[$]77, 8\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*8\)`
x[i+1] = 77
// amd64: `MOVQ\t[$]77, 8\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*[18]\)`
x[16*i+1] = 77
}
func idxFloat32(x, y []float32, i int) {
var t float32
// amd64: `MOVSS\t4\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*4\), X[0-9]+`
// 386/sse2: `MOVSS\t4\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*4\), X[0-9]+`
// arm64: `FMOVS\t\(R[0-9]*\)\(R[0-9]*<<2\), F[0-9]+`
t = x[i+1]
// amd64: `MOVSS\tX[0-9]+, 4\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*4\)`
// 386/sse2: `MOVSS\tX[0-9]+, 4\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*4\)`
// arm64: `FMOVS\tF[0-9]+, \(R[0-9]*\)\(R[0-9]*<<2\)`
y[i+1] = t
// amd64: `MOVSS\t4\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*[14]\), X[0-9]+`
// 386/sse2: `MOVSS\t4\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*[14]\), X[0-9]+`
t = x[16*i+1]
// amd64: `MOVSS\tX[0-9]+, 4\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*[14]\)`
// 386/sse2: `MOVSS\tX[0-9]+, 4\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*[14]\)`
y[16*i+1] = t
}
func idxFloat64(x, y []float64, i int) {
var t float64
// amd64: `MOVSD\t8\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*8\), X[0-9]+`
// 386/sse2: `MOVSD\t8\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*8\), X[0-9]+`
// arm64: `FMOVD\t\(R[0-9]*\)\(R[0-9]*<<3\), F[0-9]+`
t = x[i+1]
// amd64: `MOVSD\tX[0-9]+, 8\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*8\)`
// 386/sse2: `MOVSD\tX[0-9]+, 8\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*8\)`
// arm64: `FMOVD\tF[0-9]+, \(R[0-9]*\)\(R[0-9]*<<3\)`
y[i+1] = t
// amd64: `MOVSD\t8\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*[18]\), X[0-9]+`
// 386/sse2: `MOVSD\t8\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*[18]\), X[0-9]+`
t = x[16*i+1]
// amd64: `MOVSD\tX[0-9]+, 8\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*[18]\)`
// 386/sse2: `MOVSD\tX[0-9]+, 8\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*[18]\)`
y[16*i+1] = t
}
cmd/compile: convert 386 port to use addressing modes pass (take 2) Retrying CL 222782, with a fix that will hopefully stop the random crashing. The issue with the previous CL is that it does pointer arithmetic in a way that may briefly generate an out-of-bounds pointer. If an interrupt happens to occur in that state, the referenced object may be collected incorrectly. Suppose there was code that did s[x+c]. The previous CL had a rule to the effect of ptr + (x + c) -> c + (ptr + x). But ptr+x is not guaranteed to point to the same object as ptr. In contrast, ptr+(x+c) is guaranteed to point to the same object as ptr, because we would have already checked that x+c is in bounds. For example, strconv.trim used to have this code: MOVZX -0x1(BX)(DX*1), BP CMPL $0x30, AL After CL 222782, it had this code: LEAL 0(BX)(DX*1), BP CMPB $0x30, -0x1(BP) An interrupt between those last two instructions could see BP pointing outside the backing store of the slice involved. It's really hard to actually demonstrate a bug. First, you need to have an interrupt occur at exactly the right time. Then, there must be no other pointers to the object in question. Since the interrupted frame will be scanned conservatively, there can't even be a dead pointer in another register or on the stack. (In the example above, a bug can't happen because BX still holds the original pointer.) Then, the object in question needs to be collected (or at least scanned?) before the interrupted code continues. This CL needs to handle load combining somewhat differently than CL 222782 because of the new restriction on arithmetic. That's the only real difference (other than removing the bad rules) from that old CL. This bug is also present in the amd64 rewrite rules, and we haven't seen any crashing as a result. I will fix up that code similarly to this one in a separate CL. Update #37881 Change-Id: I5f0d584d9bef4696bfe89a61ef0a27c8d507329f Reviewed-on: https://go-review.googlesource.com/c/go/+/225798 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-03-24 14:39:44 -06:00
func idxLoadPlusOp32(x []int32, i int) int32 {
cmd/compile: convert 386 port to use addressing modes pass (take 2) Retrying CL 222782, with a fix that will hopefully stop the random crashing. The issue with the previous CL is that it does pointer arithmetic in a way that may briefly generate an out-of-bounds pointer. If an interrupt happens to occur in that state, the referenced object may be collected incorrectly. Suppose there was code that did s[x+c]. The previous CL had a rule to the effect of ptr + (x + c) -> c + (ptr + x). But ptr+x is not guaranteed to point to the same object as ptr. In contrast, ptr+(x+c) is guaranteed to point to the same object as ptr, because we would have already checked that x+c is in bounds. For example, strconv.trim used to have this code: MOVZX -0x1(BX)(DX*1), BP CMPL $0x30, AL After CL 222782, it had this code: LEAL 0(BX)(DX*1), BP CMPB $0x30, -0x1(BP) An interrupt between those last two instructions could see BP pointing outside the backing store of the slice involved. It's really hard to actually demonstrate a bug. First, you need to have an interrupt occur at exactly the right time. Then, there must be no other pointers to the object in question. Since the interrupted frame will be scanned conservatively, there can't even be a dead pointer in another register or on the stack. (In the example above, a bug can't happen because BX still holds the original pointer.) Then, the object in question needs to be collected (or at least scanned?) before the interrupted code continues. This CL needs to handle load combining somewhat differently than CL 222782 because of the new restriction on arithmetic. That's the only real difference (other than removing the bad rules) from that old CL. This bug is also present in the amd64 rewrite rules, and we haven't seen any crashing as a result. I will fix up that code similarly to this one in a separate CL. Update #37881 Change-Id: I5f0d584d9bef4696bfe89a61ef0a27c8d507329f Reviewed-on: https://go-review.googlesource.com/c/go/+/225798 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-03-24 14:39:44 -06:00
s := x[0]
// 386: `ADDL\t4\([A-Z]+\)\([A-Z]+\*4\), [A-Z]+`
// amd64: `ADDL\t4\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*4\), [A-Z]+[0-9]*`
cmd/compile: convert 386 port to use addressing modes pass (take 2) Retrying CL 222782, with a fix that will hopefully stop the random crashing. The issue with the previous CL is that it does pointer arithmetic in a way that may briefly generate an out-of-bounds pointer. If an interrupt happens to occur in that state, the referenced object may be collected incorrectly. Suppose there was code that did s[x+c]. The previous CL had a rule to the effect of ptr + (x + c) -> c + (ptr + x). But ptr+x is not guaranteed to point to the same object as ptr. In contrast, ptr+(x+c) is guaranteed to point to the same object as ptr, because we would have already checked that x+c is in bounds. For example, strconv.trim used to have this code: MOVZX -0x1(BX)(DX*1), BP CMPL $0x30, AL After CL 222782, it had this code: LEAL 0(BX)(DX*1), BP CMPB $0x30, -0x1(BP) An interrupt between those last two instructions could see BP pointing outside the backing store of the slice involved. It's really hard to actually demonstrate a bug. First, you need to have an interrupt occur at exactly the right time. Then, there must be no other pointers to the object in question. Since the interrupted frame will be scanned conservatively, there can't even be a dead pointer in another register or on the stack. (In the example above, a bug can't happen because BX still holds the original pointer.) Then, the object in question needs to be collected (or at least scanned?) before the interrupted code continues. This CL needs to handle load combining somewhat differently than CL 222782 because of the new restriction on arithmetic. That's the only real difference (other than removing the bad rules) from that old CL. This bug is also present in the amd64 rewrite rules, and we haven't seen any crashing as a result. I will fix up that code similarly to this one in a separate CL. Update #37881 Change-Id: I5f0d584d9bef4696bfe89a61ef0a27c8d507329f Reviewed-on: https://go-review.googlesource.com/c/go/+/225798 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-03-24 14:39:44 -06:00
s += x[i+1]
// 386: `SUBL\t8\([A-Z]+\)\([A-Z]+\*4\), [A-Z]+`
// amd64: `SUBL\t8\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*4\), [A-Z]+[0-9]*`
cmd/compile: convert 386 port to use addressing modes pass (take 2) Retrying CL 222782, with a fix that will hopefully stop the random crashing. The issue with the previous CL is that it does pointer arithmetic in a way that may briefly generate an out-of-bounds pointer. If an interrupt happens to occur in that state, the referenced object may be collected incorrectly. Suppose there was code that did s[x+c]. The previous CL had a rule to the effect of ptr + (x + c) -> c + (ptr + x). But ptr+x is not guaranteed to point to the same object as ptr. In contrast, ptr+(x+c) is guaranteed to point to the same object as ptr, because we would have already checked that x+c is in bounds. For example, strconv.trim used to have this code: MOVZX -0x1(BX)(DX*1), BP CMPL $0x30, AL After CL 222782, it had this code: LEAL 0(BX)(DX*1), BP CMPB $0x30, -0x1(BP) An interrupt between those last two instructions could see BP pointing outside the backing store of the slice involved. It's really hard to actually demonstrate a bug. First, you need to have an interrupt occur at exactly the right time. Then, there must be no other pointers to the object in question. Since the interrupted frame will be scanned conservatively, there can't even be a dead pointer in another register or on the stack. (In the example above, a bug can't happen because BX still holds the original pointer.) Then, the object in question needs to be collected (or at least scanned?) before the interrupted code continues. This CL needs to handle load combining somewhat differently than CL 222782 because of the new restriction on arithmetic. That's the only real difference (other than removing the bad rules) from that old CL. This bug is also present in the amd64 rewrite rules, and we haven't seen any crashing as a result. I will fix up that code similarly to this one in a separate CL. Update #37881 Change-Id: I5f0d584d9bef4696bfe89a61ef0a27c8d507329f Reviewed-on: https://go-review.googlesource.com/c/go/+/225798 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-03-24 14:39:44 -06:00
s -= x[i+2]
// 386: `IMULL\t12\([A-Z]+\)\([A-Z]+\*4\), [A-Z]+`
s *= x[i+3]
// 386: `ANDL\t16\([A-Z]+\)\([A-Z]+\*4\), [A-Z]+`
// amd64: `ANDL\t16\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*4\), [A-Z]+[0-9]*`
cmd/compile: convert 386 port to use addressing modes pass (take 2) Retrying CL 222782, with a fix that will hopefully stop the random crashing. The issue with the previous CL is that it does pointer arithmetic in a way that may briefly generate an out-of-bounds pointer. If an interrupt happens to occur in that state, the referenced object may be collected incorrectly. Suppose there was code that did s[x+c]. The previous CL had a rule to the effect of ptr + (x + c) -> c + (ptr + x). But ptr+x is not guaranteed to point to the same object as ptr. In contrast, ptr+(x+c) is guaranteed to point to the same object as ptr, because we would have already checked that x+c is in bounds. For example, strconv.trim used to have this code: MOVZX -0x1(BX)(DX*1), BP CMPL $0x30, AL After CL 222782, it had this code: LEAL 0(BX)(DX*1), BP CMPB $0x30, -0x1(BP) An interrupt between those last two instructions could see BP pointing outside the backing store of the slice involved. It's really hard to actually demonstrate a bug. First, you need to have an interrupt occur at exactly the right time. Then, there must be no other pointers to the object in question. Since the interrupted frame will be scanned conservatively, there can't even be a dead pointer in another register or on the stack. (In the example above, a bug can't happen because BX still holds the original pointer.) Then, the object in question needs to be collected (or at least scanned?) before the interrupted code continues. This CL needs to handle load combining somewhat differently than CL 222782 because of the new restriction on arithmetic. That's the only real difference (other than removing the bad rules) from that old CL. This bug is also present in the amd64 rewrite rules, and we haven't seen any crashing as a result. I will fix up that code similarly to this one in a separate CL. Update #37881 Change-Id: I5f0d584d9bef4696bfe89a61ef0a27c8d507329f Reviewed-on: https://go-review.googlesource.com/c/go/+/225798 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-03-24 14:39:44 -06:00
s &= x[i+4]
// 386: `ORL\t20\([A-Z]+\)\([A-Z]+\*4\), [A-Z]+`
// amd64: `ORL\t20\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*4\), [A-Z]+[0-9]*`
cmd/compile: convert 386 port to use addressing modes pass (take 2) Retrying CL 222782, with a fix that will hopefully stop the random crashing. The issue with the previous CL is that it does pointer arithmetic in a way that may briefly generate an out-of-bounds pointer. If an interrupt happens to occur in that state, the referenced object may be collected incorrectly. Suppose there was code that did s[x+c]. The previous CL had a rule to the effect of ptr + (x + c) -> c + (ptr + x). But ptr+x is not guaranteed to point to the same object as ptr. In contrast, ptr+(x+c) is guaranteed to point to the same object as ptr, because we would have already checked that x+c is in bounds. For example, strconv.trim used to have this code: MOVZX -0x1(BX)(DX*1), BP CMPL $0x30, AL After CL 222782, it had this code: LEAL 0(BX)(DX*1), BP CMPB $0x30, -0x1(BP) An interrupt between those last two instructions could see BP pointing outside the backing store of the slice involved. It's really hard to actually demonstrate a bug. First, you need to have an interrupt occur at exactly the right time. Then, there must be no other pointers to the object in question. Since the interrupted frame will be scanned conservatively, there can't even be a dead pointer in another register or on the stack. (In the example above, a bug can't happen because BX still holds the original pointer.) Then, the object in question needs to be collected (or at least scanned?) before the interrupted code continues. This CL needs to handle load combining somewhat differently than CL 222782 because of the new restriction on arithmetic. That's the only real difference (other than removing the bad rules) from that old CL. This bug is also present in the amd64 rewrite rules, and we haven't seen any crashing as a result. I will fix up that code similarly to this one in a separate CL. Update #37881 Change-Id: I5f0d584d9bef4696bfe89a61ef0a27c8d507329f Reviewed-on: https://go-review.googlesource.com/c/go/+/225798 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-03-24 14:39:44 -06:00
s |= x[i+5]
// 386: `XORL\t24\([A-Z]+\)\([A-Z]+\*4\), [A-Z]+`
// amd64: `XORL\t24\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*4\), [A-Z]+[0-9]*`
cmd/compile: convert 386 port to use addressing modes pass (take 2) Retrying CL 222782, with a fix that will hopefully stop the random crashing. The issue with the previous CL is that it does pointer arithmetic in a way that may briefly generate an out-of-bounds pointer. If an interrupt happens to occur in that state, the referenced object may be collected incorrectly. Suppose there was code that did s[x+c]. The previous CL had a rule to the effect of ptr + (x + c) -> c + (ptr + x). But ptr+x is not guaranteed to point to the same object as ptr. In contrast, ptr+(x+c) is guaranteed to point to the same object as ptr, because we would have already checked that x+c is in bounds. For example, strconv.trim used to have this code: MOVZX -0x1(BX)(DX*1), BP CMPL $0x30, AL After CL 222782, it had this code: LEAL 0(BX)(DX*1), BP CMPB $0x30, -0x1(BP) An interrupt between those last two instructions could see BP pointing outside the backing store of the slice involved. It's really hard to actually demonstrate a bug. First, you need to have an interrupt occur at exactly the right time. Then, there must be no other pointers to the object in question. Since the interrupted frame will be scanned conservatively, there can't even be a dead pointer in another register or on the stack. (In the example above, a bug can't happen because BX still holds the original pointer.) Then, the object in question needs to be collected (or at least scanned?) before the interrupted code continues. This CL needs to handle load combining somewhat differently than CL 222782 because of the new restriction on arithmetic. That's the only real difference (other than removing the bad rules) from that old CL. This bug is also present in the amd64 rewrite rules, and we haven't seen any crashing as a result. I will fix up that code similarly to this one in a separate CL. Update #37881 Change-Id: I5f0d584d9bef4696bfe89a61ef0a27c8d507329f Reviewed-on: https://go-review.googlesource.com/c/go/+/225798 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-03-24 14:39:44 -06:00
s ^= x[i+6]
return s
}
func idxLoadPlusOp64(x []int64, i int) int64 {
s := x[0]
// amd64: `ADDQ\t8\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*8\), [A-Z]+[0-9]*`
s += x[i+1]
// amd64: `SUBQ\t16\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*8\), [A-Z]+[0-9]*`
s -= x[i+2]
// amd64: `ANDQ\t24\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*8\), [A-Z]+[0-9]*`
s &= x[i+3]
// amd64: `ORQ\t32\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*8\), [A-Z]+[0-9]*`
s |= x[i+4]
// amd64: `XORQ\t40\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*8\), [A-Z]+[0-9]*`
s ^= x[i+5]
return s
}
func idxStorePlusOp32(x []int32, i int, v int32) {
cmd/compile: convert 386 port to use addressing modes pass (take 2) Retrying CL 222782, with a fix that will hopefully stop the random crashing. The issue with the previous CL is that it does pointer arithmetic in a way that may briefly generate an out-of-bounds pointer. If an interrupt happens to occur in that state, the referenced object may be collected incorrectly. Suppose there was code that did s[x+c]. The previous CL had a rule to the effect of ptr + (x + c) -> c + (ptr + x). But ptr+x is not guaranteed to point to the same object as ptr. In contrast, ptr+(x+c) is guaranteed to point to the same object as ptr, because we would have already checked that x+c is in bounds. For example, strconv.trim used to have this code: MOVZX -0x1(BX)(DX*1), BP CMPL $0x30, AL After CL 222782, it had this code: LEAL 0(BX)(DX*1), BP CMPB $0x30, -0x1(BP) An interrupt between those last two instructions could see BP pointing outside the backing store of the slice involved. It's really hard to actually demonstrate a bug. First, you need to have an interrupt occur at exactly the right time. Then, there must be no other pointers to the object in question. Since the interrupted frame will be scanned conservatively, there can't even be a dead pointer in another register or on the stack. (In the example above, a bug can't happen because BX still holds the original pointer.) Then, the object in question needs to be collected (or at least scanned?) before the interrupted code continues. This CL needs to handle load combining somewhat differently than CL 222782 because of the new restriction on arithmetic. That's the only real difference (other than removing the bad rules) from that old CL. This bug is also present in the amd64 rewrite rules, and we haven't seen any crashing as a result. I will fix up that code similarly to this one in a separate CL. Update #37881 Change-Id: I5f0d584d9bef4696bfe89a61ef0a27c8d507329f Reviewed-on: https://go-review.googlesource.com/c/go/+/225798 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-03-24 14:39:44 -06:00
// 386: `ADDL\t[A-Z]+, 4\([A-Z]+\)\([A-Z]+\*4\)`
// amd64: `ADDL\t[A-Z]+[0-9]*, 4\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*4\)`
cmd/compile: convert 386 port to use addressing modes pass (take 2) Retrying CL 222782, with a fix that will hopefully stop the random crashing. The issue with the previous CL is that it does pointer arithmetic in a way that may briefly generate an out-of-bounds pointer. If an interrupt happens to occur in that state, the referenced object may be collected incorrectly. Suppose there was code that did s[x+c]. The previous CL had a rule to the effect of ptr + (x + c) -> c + (ptr + x). But ptr+x is not guaranteed to point to the same object as ptr. In contrast, ptr+(x+c) is guaranteed to point to the same object as ptr, because we would have already checked that x+c is in bounds. For example, strconv.trim used to have this code: MOVZX -0x1(BX)(DX*1), BP CMPL $0x30, AL After CL 222782, it had this code: LEAL 0(BX)(DX*1), BP CMPB $0x30, -0x1(BP) An interrupt between those last two instructions could see BP pointing outside the backing store of the slice involved. It's really hard to actually demonstrate a bug. First, you need to have an interrupt occur at exactly the right time. Then, there must be no other pointers to the object in question. Since the interrupted frame will be scanned conservatively, there can't even be a dead pointer in another register or on the stack. (In the example above, a bug can't happen because BX still holds the original pointer.) Then, the object in question needs to be collected (or at least scanned?) before the interrupted code continues. This CL needs to handle load combining somewhat differently than CL 222782 because of the new restriction on arithmetic. That's the only real difference (other than removing the bad rules) from that old CL. This bug is also present in the amd64 rewrite rules, and we haven't seen any crashing as a result. I will fix up that code similarly to this one in a separate CL. Update #37881 Change-Id: I5f0d584d9bef4696bfe89a61ef0a27c8d507329f Reviewed-on: https://go-review.googlesource.com/c/go/+/225798 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-03-24 14:39:44 -06:00
x[i+1] += v
// 386: `SUBL\t[A-Z]+, 8\([A-Z]+\)\([A-Z]+\*4\)`
// amd64: `SUBL\t[A-Z]+[0-9]*, 8\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*4\)`
cmd/compile: convert 386 port to use addressing modes pass (take 2) Retrying CL 222782, with a fix that will hopefully stop the random crashing. The issue with the previous CL is that it does pointer arithmetic in a way that may briefly generate an out-of-bounds pointer. If an interrupt happens to occur in that state, the referenced object may be collected incorrectly. Suppose there was code that did s[x+c]. The previous CL had a rule to the effect of ptr + (x + c) -> c + (ptr + x). But ptr+x is not guaranteed to point to the same object as ptr. In contrast, ptr+(x+c) is guaranteed to point to the same object as ptr, because we would have already checked that x+c is in bounds. For example, strconv.trim used to have this code: MOVZX -0x1(BX)(DX*1), BP CMPL $0x30, AL After CL 222782, it had this code: LEAL 0(BX)(DX*1), BP CMPB $0x30, -0x1(BP) An interrupt between those last two instructions could see BP pointing outside the backing store of the slice involved. It's really hard to actually demonstrate a bug. First, you need to have an interrupt occur at exactly the right time. Then, there must be no other pointers to the object in question. Since the interrupted frame will be scanned conservatively, there can't even be a dead pointer in another register or on the stack. (In the example above, a bug can't happen because BX still holds the original pointer.) Then, the object in question needs to be collected (or at least scanned?) before the interrupted code continues. This CL needs to handle load combining somewhat differently than CL 222782 because of the new restriction on arithmetic. That's the only real difference (other than removing the bad rules) from that old CL. This bug is also present in the amd64 rewrite rules, and we haven't seen any crashing as a result. I will fix up that code similarly to this one in a separate CL. Update #37881 Change-Id: I5f0d584d9bef4696bfe89a61ef0a27c8d507329f Reviewed-on: https://go-review.googlesource.com/c/go/+/225798 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-03-24 14:39:44 -06:00
x[i+2] -= v
// 386: `ANDL\t[A-Z]+, 12\([A-Z]+\)\([A-Z]+\*4\)`
// amd64: `ANDL\t[A-Z]+[0-9]*, 12\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*4\)`
cmd/compile: convert 386 port to use addressing modes pass (take 2) Retrying CL 222782, with a fix that will hopefully stop the random crashing. The issue with the previous CL is that it does pointer arithmetic in a way that may briefly generate an out-of-bounds pointer. If an interrupt happens to occur in that state, the referenced object may be collected incorrectly. Suppose there was code that did s[x+c]. The previous CL had a rule to the effect of ptr + (x + c) -> c + (ptr + x). But ptr+x is not guaranteed to point to the same object as ptr. In contrast, ptr+(x+c) is guaranteed to point to the same object as ptr, because we would have already checked that x+c is in bounds. For example, strconv.trim used to have this code: MOVZX -0x1(BX)(DX*1), BP CMPL $0x30, AL After CL 222782, it had this code: LEAL 0(BX)(DX*1), BP CMPB $0x30, -0x1(BP) An interrupt between those last two instructions could see BP pointing outside the backing store of the slice involved. It's really hard to actually demonstrate a bug. First, you need to have an interrupt occur at exactly the right time. Then, there must be no other pointers to the object in question. Since the interrupted frame will be scanned conservatively, there can't even be a dead pointer in another register or on the stack. (In the example above, a bug can't happen because BX still holds the original pointer.) Then, the object in question needs to be collected (or at least scanned?) before the interrupted code continues. This CL needs to handle load combining somewhat differently than CL 222782 because of the new restriction on arithmetic. That's the only real difference (other than removing the bad rules) from that old CL. This bug is also present in the amd64 rewrite rules, and we haven't seen any crashing as a result. I will fix up that code similarly to this one in a separate CL. Update #37881 Change-Id: I5f0d584d9bef4696bfe89a61ef0a27c8d507329f Reviewed-on: https://go-review.googlesource.com/c/go/+/225798 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-03-24 14:39:44 -06:00
x[i+3] &= v
// 386: `ORL\t[A-Z]+, 16\([A-Z]+\)\([A-Z]+\*4\)`
// amd64: `ORL\t[A-Z]+[0-9]*, 16\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*4\)`
cmd/compile: convert 386 port to use addressing modes pass (take 2) Retrying CL 222782, with a fix that will hopefully stop the random crashing. The issue with the previous CL is that it does pointer arithmetic in a way that may briefly generate an out-of-bounds pointer. If an interrupt happens to occur in that state, the referenced object may be collected incorrectly. Suppose there was code that did s[x+c]. The previous CL had a rule to the effect of ptr + (x + c) -> c + (ptr + x). But ptr+x is not guaranteed to point to the same object as ptr. In contrast, ptr+(x+c) is guaranteed to point to the same object as ptr, because we would have already checked that x+c is in bounds. For example, strconv.trim used to have this code: MOVZX -0x1(BX)(DX*1), BP CMPL $0x30, AL After CL 222782, it had this code: LEAL 0(BX)(DX*1), BP CMPB $0x30, -0x1(BP) An interrupt between those last two instructions could see BP pointing outside the backing store of the slice involved. It's really hard to actually demonstrate a bug. First, you need to have an interrupt occur at exactly the right time. Then, there must be no other pointers to the object in question. Since the interrupted frame will be scanned conservatively, there can't even be a dead pointer in another register or on the stack. (In the example above, a bug can't happen because BX still holds the original pointer.) Then, the object in question needs to be collected (or at least scanned?) before the interrupted code continues. This CL needs to handle load combining somewhat differently than CL 222782 because of the new restriction on arithmetic. That's the only real difference (other than removing the bad rules) from that old CL. This bug is also present in the amd64 rewrite rules, and we haven't seen any crashing as a result. I will fix up that code similarly to this one in a separate CL. Update #37881 Change-Id: I5f0d584d9bef4696bfe89a61ef0a27c8d507329f Reviewed-on: https://go-review.googlesource.com/c/go/+/225798 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-03-24 14:39:44 -06:00
x[i+4] |= v
// 386: `XORL\t[A-Z]+, 20\([A-Z]+\)\([A-Z]+\*4\)`
// amd64: `XORL\t[A-Z]+[0-9]*, 20\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*4\)`
cmd/compile: convert 386 port to use addressing modes pass (take 2) Retrying CL 222782, with a fix that will hopefully stop the random crashing. The issue with the previous CL is that it does pointer arithmetic in a way that may briefly generate an out-of-bounds pointer. If an interrupt happens to occur in that state, the referenced object may be collected incorrectly. Suppose there was code that did s[x+c]. The previous CL had a rule to the effect of ptr + (x + c) -> c + (ptr + x). But ptr+x is not guaranteed to point to the same object as ptr. In contrast, ptr+(x+c) is guaranteed to point to the same object as ptr, because we would have already checked that x+c is in bounds. For example, strconv.trim used to have this code: MOVZX -0x1(BX)(DX*1), BP CMPL $0x30, AL After CL 222782, it had this code: LEAL 0(BX)(DX*1), BP CMPB $0x30, -0x1(BP) An interrupt between those last two instructions could see BP pointing outside the backing store of the slice involved. It's really hard to actually demonstrate a bug. First, you need to have an interrupt occur at exactly the right time. Then, there must be no other pointers to the object in question. Since the interrupted frame will be scanned conservatively, there can't even be a dead pointer in another register or on the stack. (In the example above, a bug can't happen because BX still holds the original pointer.) Then, the object in question needs to be collected (or at least scanned?) before the interrupted code continues. This CL needs to handle load combining somewhat differently than CL 222782 because of the new restriction on arithmetic. That's the only real difference (other than removing the bad rules) from that old CL. This bug is also present in the amd64 rewrite rules, and we haven't seen any crashing as a result. I will fix up that code similarly to this one in a separate CL. Update #37881 Change-Id: I5f0d584d9bef4696bfe89a61ef0a27c8d507329f Reviewed-on: https://go-review.googlesource.com/c/go/+/225798 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-03-24 14:39:44 -06:00
x[i+5] ^= v
// 386: `ADDL\t[$]77, 24\([A-Z]+\)\([A-Z]+\*4\)`
// amd64: `ADDL\t[$]77, 24\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*4\)`
cmd/compile: convert 386 port to use addressing modes pass (take 2) Retrying CL 222782, with a fix that will hopefully stop the random crashing. The issue with the previous CL is that it does pointer arithmetic in a way that may briefly generate an out-of-bounds pointer. If an interrupt happens to occur in that state, the referenced object may be collected incorrectly. Suppose there was code that did s[x+c]. The previous CL had a rule to the effect of ptr + (x + c) -> c + (ptr + x). But ptr+x is not guaranteed to point to the same object as ptr. In contrast, ptr+(x+c) is guaranteed to point to the same object as ptr, because we would have already checked that x+c is in bounds. For example, strconv.trim used to have this code: MOVZX -0x1(BX)(DX*1), BP CMPL $0x30, AL After CL 222782, it had this code: LEAL 0(BX)(DX*1), BP CMPB $0x30, -0x1(BP) An interrupt between those last two instructions could see BP pointing outside the backing store of the slice involved. It's really hard to actually demonstrate a bug. First, you need to have an interrupt occur at exactly the right time. Then, there must be no other pointers to the object in question. Since the interrupted frame will be scanned conservatively, there can't even be a dead pointer in another register or on the stack. (In the example above, a bug can't happen because BX still holds the original pointer.) Then, the object in question needs to be collected (or at least scanned?) before the interrupted code continues. This CL needs to handle load combining somewhat differently than CL 222782 because of the new restriction on arithmetic. That's the only real difference (other than removing the bad rules) from that old CL. This bug is also present in the amd64 rewrite rules, and we haven't seen any crashing as a result. I will fix up that code similarly to this one in a separate CL. Update #37881 Change-Id: I5f0d584d9bef4696bfe89a61ef0a27c8d507329f Reviewed-on: https://go-review.googlesource.com/c/go/+/225798 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-03-24 14:39:44 -06:00
x[i+6] += 77
// 386: `ANDL\t[$]77, 28\([A-Z]+\)\([A-Z]+\*4\)`
// amd64: `ANDL\t[$]77, 28\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*4\)`
cmd/compile: convert 386 port to use addressing modes pass (take 2) Retrying CL 222782, with a fix that will hopefully stop the random crashing. The issue with the previous CL is that it does pointer arithmetic in a way that may briefly generate an out-of-bounds pointer. If an interrupt happens to occur in that state, the referenced object may be collected incorrectly. Suppose there was code that did s[x+c]. The previous CL had a rule to the effect of ptr + (x + c) -> c + (ptr + x). But ptr+x is not guaranteed to point to the same object as ptr. In contrast, ptr+(x+c) is guaranteed to point to the same object as ptr, because we would have already checked that x+c is in bounds. For example, strconv.trim used to have this code: MOVZX -0x1(BX)(DX*1), BP CMPL $0x30, AL After CL 222782, it had this code: LEAL 0(BX)(DX*1), BP CMPB $0x30, -0x1(BP) An interrupt between those last two instructions could see BP pointing outside the backing store of the slice involved. It's really hard to actually demonstrate a bug. First, you need to have an interrupt occur at exactly the right time. Then, there must be no other pointers to the object in question. Since the interrupted frame will be scanned conservatively, there can't even be a dead pointer in another register or on the stack. (In the example above, a bug can't happen because BX still holds the original pointer.) Then, the object in question needs to be collected (or at least scanned?) before the interrupted code continues. This CL needs to handle load combining somewhat differently than CL 222782 because of the new restriction on arithmetic. That's the only real difference (other than removing the bad rules) from that old CL. This bug is also present in the amd64 rewrite rules, and we haven't seen any crashing as a result. I will fix up that code similarly to this one in a separate CL. Update #37881 Change-Id: I5f0d584d9bef4696bfe89a61ef0a27c8d507329f Reviewed-on: https://go-review.googlesource.com/c/go/+/225798 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-03-24 14:39:44 -06:00
x[i+7] &= 77
// 386: `ORL\t[$]77, 32\([A-Z]+\)\([A-Z]+\*4\)`
// amd64: `ORL\t[$]77, 32\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*4\)`
cmd/compile: convert 386 port to use addressing modes pass (take 2) Retrying CL 222782, with a fix that will hopefully stop the random crashing. The issue with the previous CL is that it does pointer arithmetic in a way that may briefly generate an out-of-bounds pointer. If an interrupt happens to occur in that state, the referenced object may be collected incorrectly. Suppose there was code that did s[x+c]. The previous CL had a rule to the effect of ptr + (x + c) -> c + (ptr + x). But ptr+x is not guaranteed to point to the same object as ptr. In contrast, ptr+(x+c) is guaranteed to point to the same object as ptr, because we would have already checked that x+c is in bounds. For example, strconv.trim used to have this code: MOVZX -0x1(BX)(DX*1), BP CMPL $0x30, AL After CL 222782, it had this code: LEAL 0(BX)(DX*1), BP CMPB $0x30, -0x1(BP) An interrupt between those last two instructions could see BP pointing outside the backing store of the slice involved. It's really hard to actually demonstrate a bug. First, you need to have an interrupt occur at exactly the right time. Then, there must be no other pointers to the object in question. Since the interrupted frame will be scanned conservatively, there can't even be a dead pointer in another register or on the stack. (In the example above, a bug can't happen because BX still holds the original pointer.) Then, the object in question needs to be collected (or at least scanned?) before the interrupted code continues. This CL needs to handle load combining somewhat differently than CL 222782 because of the new restriction on arithmetic. That's the only real difference (other than removing the bad rules) from that old CL. This bug is also present in the amd64 rewrite rules, and we haven't seen any crashing as a result. I will fix up that code similarly to this one in a separate CL. Update #37881 Change-Id: I5f0d584d9bef4696bfe89a61ef0a27c8d507329f Reviewed-on: https://go-review.googlesource.com/c/go/+/225798 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-03-24 14:39:44 -06:00
x[i+8] |= 77
// 386: `XORL\t[$]77, 36\([A-Z]+\)\([A-Z]+\*4\)`
// amd64: `XORL\t[$]77, 36\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*4\)`
x[i+9] ^= 77
}
func idxStorePlusOp64(x []int64, i int, v int64) {
// amd64: `ADDQ\t[A-Z]+[0-9]*, 8\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*8\)`
x[i+1] += v
// amd64: `SUBQ\t[A-Z]+[0-9]*, 16\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*8\)`
x[i+2] -= v
// amd64: `ANDQ\t[A-Z]+[0-9]*, 24\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*8\)`
x[i+3] &= v
// amd64: `ORQ\t[A-Z]+[0-9]*, 32\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*8\)`
x[i+4] |= v
// amd64: `XORQ\t[A-Z]+[0-9]*, 40\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*8\)`
x[i+5] ^= v
// amd64: `ADDQ\t[$]77, 48\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*8\)`
x[i+6] += 77
// amd64: `ANDQ\t[$]77, 56\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*8\)`
x[i+7] &= 77
// amd64: `ORQ\t[$]77, 64\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*8\)`
x[i+8] |= 77
// amd64: `XORQ\t[$]77, 72\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*8\)`
cmd/compile: convert 386 port to use addressing modes pass (take 2) Retrying CL 222782, with a fix that will hopefully stop the random crashing. The issue with the previous CL is that it does pointer arithmetic in a way that may briefly generate an out-of-bounds pointer. If an interrupt happens to occur in that state, the referenced object may be collected incorrectly. Suppose there was code that did s[x+c]. The previous CL had a rule to the effect of ptr + (x + c) -> c + (ptr + x). But ptr+x is not guaranteed to point to the same object as ptr. In contrast, ptr+(x+c) is guaranteed to point to the same object as ptr, because we would have already checked that x+c is in bounds. For example, strconv.trim used to have this code: MOVZX -0x1(BX)(DX*1), BP CMPL $0x30, AL After CL 222782, it had this code: LEAL 0(BX)(DX*1), BP CMPB $0x30, -0x1(BP) An interrupt between those last two instructions could see BP pointing outside the backing store of the slice involved. It's really hard to actually demonstrate a bug. First, you need to have an interrupt occur at exactly the right time. Then, there must be no other pointers to the object in question. Since the interrupted frame will be scanned conservatively, there can't even be a dead pointer in another register or on the stack. (In the example above, a bug can't happen because BX still holds the original pointer.) Then, the object in question needs to be collected (or at least scanned?) before the interrupted code continues. This CL needs to handle load combining somewhat differently than CL 222782 because of the new restriction on arithmetic. That's the only real difference (other than removing the bad rules) from that old CL. This bug is also present in the amd64 rewrite rules, and we haven't seen any crashing as a result. I will fix up that code similarly to this one in a separate CL. Update #37881 Change-Id: I5f0d584d9bef4696bfe89a61ef0a27c8d507329f Reviewed-on: https://go-review.googlesource.com/c/go/+/225798 Run-TryBot: Keith Randall <khr@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com>
2020-03-24 14:39:44 -06:00
x[i+9] ^= 77
}
func idxCompare(i int) int {
// amd64: `MOVBLZX\t1\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*1\), [A-Z]+[0-9]*`
if x8[i+1] < x8[0] {
return 0
}
// amd64: `MOVWLZX\t2\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*2\), [A-Z]+[0-9]*`
if x16[i+1] < x16[0] {
return 0
}
// amd64: `MOVWLZX\t2\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*[12]\), [A-Z]+[0-9]*`
if x16[16*i+1] < x16[0] {
return 0
}
// amd64: `MOVL\t4\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*4\), [A-Z]+[0-9]*`
if x32[i+1] < x32[0] {
return 0
}
// amd64: `MOVL\t4\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*[14]\), [A-Z]+[0-9]*`
if x32[16*i+1] < x32[0] {
return 0
}
// amd64: `MOVQ\t8\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*8\), [A-Z]+[0-9]*`
if x64[i+1] < x64[0] {
return 0
}
// amd64: `MOVQ\t8\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*[18]\), [A-Z]+[0-9]*`
if x64[16*i+1] < x64[0] {
return 0
}
// amd64: `MOVBLZX\t2\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*1\), [A-Z]+[0-9]*`
if x8[i+2] < 77 {
return 0
}
// amd64: `MOVWLZX\t4\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*2\), [A-Z]+[0-9]*`
if x16[i+2] < 77 {
return 0
}
// amd64: `MOVWLZX\t4\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*[12]\), [A-Z]+[0-9]*`
if x16[16*i+2] < 77 {
return 0
}
// amd64: `MOVL\t8\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*4\), [A-Z]+[0-9]*`
if x32[i+2] < 77 {
return 0
}
// amd64: `MOVL\t8\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*[14]\), [A-Z]+[0-9]*`
if x32[16*i+2] < 77 {
return 0
}
// amd64: `MOVQ\t16\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*8\), [A-Z]+[0-9]*`
if x64[i+2] < 77 {
return 0
}
// amd64: `MOVQ\t16\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*[18]\), [A-Z]+[0-9]*`
if x64[16*i+2] < 77 {
return 0
}
return 1
}
func idxFloatOps(a []float64, b []float32, i int) (float64, float32) {
c := float64(7)
// amd64: `ADDSD\t8\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*8\), X[0-9]+`
c += a[i+1]
// amd64: `SUBSD\t16\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*8\), X[0-9]+`
c -= a[i+2]
// amd64: `MULSD\t24\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*8\), X[0-9]+`
c *= a[i+3]
// amd64: `DIVSD\t32\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*8\), X[0-9]+`
c /= a[i+4]
d := float32(8)
// amd64: `ADDSS\t4\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*4\), X[0-9]+`
d += b[i+1]
// amd64: `SUBSS\t8\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*4\), X[0-9]+`
d -= b[i+2]
// amd64: `MULSS\t12\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*4\), X[0-9]+`
d *= b[i+3]
// amd64: `DIVSS\t16\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*4\), X[0-9]+`
d /= b[i+4]
return c, d
}
func storeTest(a []bool, v int, i int) {
// amd64: `BTL\t\$0,`,`SETCS\t4\([A-Z]+[0-9]*\)`
a[4] = v&1 != 0
// amd64: `BTL\t\$1,`,`SETCS\t3\([A-Z]+[0-9]*\)\([A-Z]+[0-9]*\*1\)`
a[3+i] = v&2 != 0
}
func bitOps(p *[12]uint64) {
// amd64: `ORQ\t\$8, \(AX\)`
p[0] |= 8
// amd64: `ORQ\t\$1073741824, 8\(AX\)`
p[1] |= 1 << 30
// amd64: `BTSQ\t\$31, 16\(AX\)`
p[2] |= 1 << 31
// amd64: `BTSQ\t\$63, 24\(AX\)`
p[3] |= 1 << 63
// amd64: `ANDQ\t\$-9, 32\(AX\)`
p[4] &^= 8
// amd64: `ANDQ\t\$-1073741825, 40\(AX\)`
p[5] &^= 1 << 30
// amd64: `BTRQ\t\$31, 48\(AX\)`
p[6] &^= 1 << 31
// amd64: `BTRQ\t\$63, 56\(AX\)`
p[7] &^= 1 << 63
// amd64: `XORQ\t\$8, 64\(AX\)`
p[8] ^= 8
// amd64: `XORQ\t\$1073741824, 72\(AX\)`
p[9] ^= 1 << 30
// amd64: `BTCQ\t\$31, 80\(AX\)`
p[10] ^= 1 << 31
// amd64: `BTCQ\t\$63, 88\(AX\)`
p[11] ^= 1 << 63
}