internal/gosym/additions.go - vuln - Git at Google

 // Copyright 2022 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 gosym

 import (
 	"encoding/binary"
 	"io"
 	"strings"

 	sv "golang.org/x/mod/semver"
 	"golang.org/x/vuln/internal/semver"
 )

 const (
 	funcSymNameGo119Lower string = "go.func.*"
 	funcSymNameGo120      string = "go:func.*"
 )

 // FuncSymName returns symbol name for Go functions used in binaries
 // based on Go version. Supported Go versions are 1.18 and greater.
 // If the go version is unreadable it assumes that it is a newer version
 // and returns the symbol name for go version 1.20 or greater.
 func FuncSymName(goVersion string) string {
 	// Support devel goX.Y...
 	v := strings.TrimPrefix(goVersion, "devel ")
 	v = semver.GoTagToSemver(v)
 	mm := sv.MajorMinor(v)
 	if sv.Compare(mm, "v1.20") >= 0 || mm == "" {
 		return funcSymNameGo120
 	} else if sv.Compare(mm, "v1.18") >= 0 {
 		return funcSymNameGo119Lower
 	}
 	return ""
 }

 // Additions to the original package from cmd/internal/objabi/funcdata.go
 const (
 	pcdata_InlTreeIndex = 2
 	funcdata_InlTree    = 3
 )

 // InlineTree returns the inline tree for Func f as a sequence of InlinedCalls.
 // goFuncValue is the value of the gosym.FuncSymName symbol.
 // baseAddr is the address of the memory region (ELF Prog) containing goFuncValue.
 // progReader is a ReaderAt positioned at the start of that region.
 func (t *LineTable) InlineTree(f *Func, goFuncValue, baseAddr uint64, progReader io.ReaderAt) ([]InlinedCall, error) {
 	if f.inlineTreeCount == 0 {
 		return nil, nil
 	}
 	if f.inlineTreeOffset == ^uint32(0) {
 		return nil, nil
 	}
 	var offset int64
 	if t.version >= ver118 {
 		offset = int64(goFuncValue - baseAddr + uint64(f.inlineTreeOffset))
 	} else {
 		offset = int64(uint64(f.inlineTreeOffset) - baseAddr)
 	}

 	r := io.NewSectionReader(progReader, offset, 1<<32) // pick a size larger than we need
 	ics := make([]InlinedCall, 0, f.inlineTreeCount)
 	for i := 0; i < f.inlineTreeCount; i++ {
 		if t.version >= ver120 {
 			var ric rawInlinedCall120
 			if err := binary.Read(r, t.binary, &ric); err != nil {
 				return nil, err
 			}
 			ics = append(ics, InlinedCall{
 				FuncID:   ric.FuncID,
 				Name:     t.funcName(uint32(ric.NameOff)),
 				ParentPC: ric.ParentPC,
 			})
 		} else {
 			var ric rawInlinedCall112
 			if err := binary.Read(r, t.binary, &ric); err != nil {
 				return nil, err
 			}
 			ics = append(ics, InlinedCall{
 				FuncID:   ric.FuncID,
 				Name:     t.funcName(uint32(ric.Func_)),
 				ParentPC: ric.ParentPC,
 			})
 		}
 	}
 	return ics, nil
 }

 // InlinedCall describes a call to an inlined function.
 type InlinedCall struct {
 	FuncID   uint8  // type of the called function
 	Name     string // name of called function
 	ParentPC int32  // position of an instruction whose source position is the call site (offset from entry)
 }

 // rawInlinedCall112 is the encoding of entries in the FUNCDATA_InlTree table
 // from Go 1.12 through 1.19. It is equivalent to runtime.inlinedCall.
 type rawInlinedCall112 struct {
 	Parent   int16 // index of parent in the inltree, or < 0
 	FuncID   uint8 // type of the called function
 	_        byte
 	File     int32 // perCU file index for inlined call. See cmd/link:pcln.go
 	Line     int32 // line number of the call site
 	Func_    int32 // offset into pclntab for name of called function
 	ParentPC int32 // position of an instruction whose source position is the call site (offset from entry)
 }

 // rawInlinedCall120 is the encoding of entries in the FUNCDATA_InlTree table
 // from Go 1.20. It is equivalent to runtime.inlinedCall.
 type rawInlinedCall120 struct {
 	FuncID    uint8 // type of the called function
 	_         [3]byte
 	NameOff   int32 // offset into pclntab for name of called function
 	ParentPC  int32 // position of an instruction whose source position is the call site (offset from entry)
 	StartLine int32 // line number of start of function (func keyword/TEXT directive)
 }

 func (f funcData) npcdata() uint32 { return f.field(7) }
 func (f funcData) nfuncdata(numFuncFields uint32) uint32 {
 	return uint32(f.data[f.fieldOffset(numFuncFields-1)+3])
 }

 func (f funcData) funcdataOffset(i uint8, numFuncFields uint32) uint32 {
 	if uint32(i) >= f.nfuncdata(numFuncFields) {
 		return ^uint32(0)
 	}
 	var off uint32
 	if f.t.version >= ver118 {
 		off = f.fieldOffset(numFuncFields) + // skip fixed part of _func
 			f.npcdata()*4 + // skip pcdata
 			uint32(i)*4 // index of i'th FUNCDATA
 	} else {
 		off = f.fieldOffset(numFuncFields) + // skip fixed part of _func
 			f.npcdata()*4
 		off += uint32(i) * f.t.ptrsize
 	}
 	return f.t.binary.Uint32(f.data[off:])
 }

 func (f funcData) fieldOffset(n uint32) uint32 {
 	// In Go 1.18, the first field of _func changed
 	// from a uintptr entry PC to a uint32 entry offset.
 	sz0 := f.t.ptrsize
 	if f.t.version >= ver118 {
 		sz0 = 4
 	}
 	return sz0 + (n-1)*4 // subsequent fields are 4 bytes each
 }

 func (f funcData) pcdataOffset(i uint8, numFuncFields uint32) uint32 {
 	if uint32(i) >= f.npcdata() {
 		return ^uint32(0)
 	}
 	off := f.fieldOffset(numFuncFields) + // skip fixed part of _func
 		uint32(i)*4 // index of i'th PCDATA
 	return f.t.binary.Uint32(f.data[off:])
 }

 // maxInlineTreeIndexValue returns the maximum value of the inline tree index
 // pc-value table in info. This is the only way to determine how many
 // IndexedCalls are in an inline tree, since the data of the tree itself is not
 // delimited in any way.
 func (t *LineTable) maxInlineTreeIndexValue(info funcData, numFuncFields uint32) int {
 	if info.npcdata() <= pcdata_InlTreeIndex {
 		return -1
 	}
 	off := info.pcdataOffset(pcdata_InlTreeIndex, numFuncFields)
 	p := t.pctab[off:]
 	val := int32(-1)
 	max := int32(-1)
 	var pc uint64
 	for t.step(&p, &pc, &val, pc == 0) {
 		if val > max {
 			max = val
 		}
 	}
 	return int(max)
 }

 type inlTree struct {
 	inlineTreeOffset uint32 // offset from go.func.* symbol
 	inlineTreeCount  int    // number of entries in inline tree
 }
	// Copyright 2022 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 gosym

	import (
	"encoding/binary"
	"io"
	"strings"

	sv "golang.org/x/mod/semver"
	"golang.org/x/vuln/internal/semver"
	)

	const (
	funcSymNameGo119Lower string = "go.func.*"
	funcSymNameGo120 string = "go:func.*"
	)

	// FuncSymName returns symbol name for Go functions used in binaries
	// based on Go version. Supported Go versions are 1.18 and greater.
	// If the go version is unreadable it assumes that it is a newer version
	// and returns the symbol name for go version 1.20 or greater.
	func FuncSymName(goVersion string) string {
	// Support devel goX.Y...
	v := strings.TrimPrefix(goVersion, "devel ")
	v = semver.GoTagToSemver(v)
	mm := sv.MajorMinor(v)
	if sv.Compare(mm, "v1.20") >= 0 \|\| mm == "" {
	return funcSymNameGo120
	} else if sv.Compare(mm, "v1.18") >= 0 {
	return funcSymNameGo119Lower
	}
	return ""
	}

	// Additions to the original package from cmd/internal/objabi/funcdata.go
	const (
	pcdata_InlTreeIndex = 2
	funcdata_InlTree = 3
	)

	// InlineTree returns the inline tree for Func f as a sequence of InlinedCalls.
	// goFuncValue is the value of the gosym.FuncSymName symbol.
	// baseAddr is the address of the memory region (ELF Prog) containing goFuncValue.
	// progReader is a ReaderAt positioned at the start of that region.
	func (t LineTable) InlineTree(f Func, goFuncValue, baseAddr uint64, progReader io.ReaderAt) ([]InlinedCall, error) {
	if f.inlineTreeCount == 0 {
	return nil, nil
	}
	if f.inlineTreeOffset == ^uint32(0) {
	return nil, nil
	}
	var offset int64
	if t.version >= ver118 {
	offset = int64(goFuncValue - baseAddr + uint64(f.inlineTreeOffset))
	} else {
	offset = int64(uint64(f.inlineTreeOffset) - baseAddr)
	}

	r := io.NewSectionReader(progReader, offset, 1<<32) // pick a size larger than we need
	ics := make([]InlinedCall, 0, f.inlineTreeCount)
	for i := 0; i < f.inlineTreeCount; i++ {
	if t.version >= ver120 {
	var ric rawInlinedCall120
	if err := binary.Read(r, t.binary, &ric); err != nil {
	return nil, err
	}
	ics = append(ics, InlinedCall{
	FuncID: ric.FuncID,
	Name: t.funcName(uint32(ric.NameOff)),
	ParentPC: ric.ParentPC,
	})
	} else {
	var ric rawInlinedCall112
	if err := binary.Read(r, t.binary, &ric); err != nil {
	return nil, err
	}
	ics = append(ics, InlinedCall{
	FuncID: ric.FuncID,
	Name: t.funcName(uint32(ric.Func_)),
	ParentPC: ric.ParentPC,
	})
	}
	}
	return ics, nil
	}

	// InlinedCall describes a call to an inlined function.
	type InlinedCall struct {
	FuncID uint8 // type of the called function
	Name string // name of called function
	ParentPC int32 // position of an instruction whose source position is the call site (offset from entry)
	}

	// rawInlinedCall112 is the encoding of entries in the FUNCDATA_InlTree table
	// from Go 1.12 through 1.19. It is equivalent to runtime.inlinedCall.
	type rawInlinedCall112 struct {
	Parent int16 // index of parent in the inltree, or < 0
	FuncID uint8 // type of the called function
	_ byte
	File int32 // perCU file index for inlined call. See cmd/link:pcln.go
	Line int32 // line number of the call site
	Func_ int32 // offset into pclntab for name of called function
	ParentPC int32 // position of an instruction whose source position is the call site (offset from entry)
	}

	// rawInlinedCall120 is the encoding of entries in the FUNCDATA_InlTree table
	// from Go 1.20. It is equivalent to runtime.inlinedCall.
	type rawInlinedCall120 struct {
	FuncID uint8 // type of the called function
	_ [3]byte
	NameOff int32 // offset into pclntab for name of called function
	ParentPC int32 // position of an instruction whose source position is the call site (offset from entry)
	StartLine int32 // line number of start of function (func keyword/TEXT directive)
	}

	func (f funcData) npcdata() uint32 { return f.field(7) }
	func (f funcData) nfuncdata(numFuncFields uint32) uint32 {
	return uint32(f.data[f.fieldOffset(numFuncFields-1)+3])
	}

	func (f funcData) funcdataOffset(i uint8, numFuncFields uint32) uint32 {
	if uint32(i) >= f.nfuncdata(numFuncFields) {
	return ^uint32(0)
	}
	var off uint32
	if f.t.version >= ver118 {
	off = f.fieldOffset(numFuncFields) + // skip fixed part of _func
	f.npcdata()*4 + // skip pcdata
	uint32(i)*4 // index of i'th FUNCDATA
	} else {
	off = f.fieldOffset(numFuncFields) + // skip fixed part of _func
	f.npcdata()*4
	off += uint32(i) * f.t.ptrsize
	}
	return f.t.binary.Uint32(f.data[off:])
	}

	func (f funcData) fieldOffset(n uint32) uint32 {
	// In Go 1.18, the first field of _func changed
	// from a uintptr entry PC to a uint32 entry offset.
	sz0 := f.t.ptrsize
	if f.t.version >= ver118 {
	sz0 = 4
	}
	return sz0 + (n-1)*4 // subsequent fields are 4 bytes each
	}

	func (f funcData) pcdataOffset(i uint8, numFuncFields uint32) uint32 {
	if uint32(i) >= f.npcdata() {
	return ^uint32(0)
	}
	off := f.fieldOffset(numFuncFields) + // skip fixed part of _func
	uint32(i)*4 // index of i'th PCDATA
	return f.t.binary.Uint32(f.data[off:])
	}

	// maxInlineTreeIndexValue returns the maximum value of the inline tree index
	// pc-value table in info. This is the only way to determine how many
	// IndexedCalls are in an inline tree, since the data of the tree itself is not
	// delimited in any way.
	func (t *LineTable) maxInlineTreeIndexValue(info funcData, numFuncFields uint32) int {
	if info.npcdata() <= pcdata_InlTreeIndex {
	return -1
	}
	off := info.pcdataOffset(pcdata_InlTreeIndex, numFuncFields)
	p := t.pctab[off:]
	val := int32(-1)
	max := int32(-1)
	var pc uint64
	for t.step(&p, &pc, &val, pc == 0) {
	if val > max {
	max = val
	}
	}
	return int(max)
	}

	type inlTree struct {
	inlineTreeOffset uint32 // offset from go.func.* symbol
	inlineTreeCount int // number of entries in inline tree
	}