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mirror of https://github.com/wader/fq.git synced 2024-12-23 21:31:33 +03:00
fq/format/wasm/wasm.go
2022-08-23 21:12:29 +09:00

605 lines
15 KiB
Go

package wasm
// https://webassembly.github.io/spec/core/
import (
"math"
"sync"
"github.com/wader/fq/format"
"github.com/wader/fq/pkg/decode"
"github.com/wader/fq/pkg/interp"
"github.com/wader/fq/pkg/scalar"
)
func init() {
interp.RegisterFormat(decode.Format{
Name: format.WASM,
Description: "WebAssembly Binary Format",
DecodeFn: decodeWASM,
Groups: []string{format.PROBE},
})
}
const (
sectionIDCustom = 0x00
sectionIDType = 0x01
sectionIDImport = 0x02
sectionIDFunction = 0x03
sectionIDTable = 0x04
sectionIDMemory = 0x05
sectionIDGlobal = 0x06
sectionIDExport = 0x07
sectionIDStart = 0x08
sectionIDElement = 0x09
sectionIDCode = 0x0a
sectionIDData = 0x0b
sectionIDDataCount = 0x0c
)
// Decode vector.
//
// vec(B) ::= n:u32 (x:B)^n => x^n
func decodeVec(d *decode.D, name string, fn func(d *decode.D)) {
d.FieldStruct(name, func(d *decode.D) {
n := fieldU32(d, "n")
d.FieldArray("x", func(d *decode.D) {
for i := uint64(0); i < n; i++ {
fn(d)
}
})
})
}
func decodeVecByte(d *decode.D, name string) {
d.FieldStruct(name, func(d *decode.D) {
n := fieldU32(d, "n")
d.FieldRawLen("x", int64(n)*8)
})
}
func fieldU32(d *decode.D, name string) uint64 {
return d.FieldULEB128(name, d.AssertURange(0, math.MaxUint32))
}
func fieldI32(d *decode.D, name string) int64 {
return d.FieldSLEB128(name, d.AssertSRange(math.MinInt32, math.MaxInt32))
}
func fieldI64(d *decode.D, name string) int64 {
return d.FieldSLEB128(name)
}
// Decode name.
//
// name ::= b*:vec(byte) => name (if utf8(name) = b*)
func decodeName(d *decode.D, name string) {
d.FieldStruct(name, func(d *decode.D) {
n := fieldU32(d, "n")
if n > math.MaxInt {
d.Fatalf("invalid length of custom section name")
}
d.FieldUTF8("b", int(n))
})
}
// Decode reftype.
//
// reftype ::= 0x70 => funcref
// | 0x6F => externref
func decodeRefType(d *decode.D, name string) {
d.FieldU8(name, reftypeTagToSym)
}
// Decode valtype.
//
// valtype ::= t:numtype => t
// | t:vectype => t
// | t:reftype => t
//
//nolint:unparam
func decodeValType(d *decode.D, name string) {
d.FieldU8(name, valtypeToSymMapper, scalar.ActualHex)
}
// Decode resulttype.
//
// resulttype ::= t*:vec(valtype) => [t*]
func decodeResultType(d *decode.D, name string) {
decodeVec(d, name, func(d *decode.D) {
decodeValType(d, "t")
})
}
// Decode functype.
//
// functype ::= 0x60 rt1:resulttype rt2:resulttype => rt1 -> rt2
func decodeFuncType(d *decode.D, name string) {
d.FieldStruct(name, func(d *decode.D) {
d.FieldU8("tag", d.AssertU(0x60), scalar.ActualHex)
decodeResultType(d, "rt1")
decodeResultType(d, "rt2")
})
}
// Decode limits.
//
// limits ::= 0x00 n:u32 => {min: n, max: ε}
// | 0x01 n:u32 m:u32 => {min: n, max: m}
func decodeLimits(d *decode.D, name string) {
d.FieldStruct(name, func(d *decode.D) {
tag := d.FieldU8("tag", scalar.ActualHex)
switch tag {
case 0x00:
fieldU32(d, "n")
case 0x01:
fieldU32(d, "n")
fieldU32(d, "m")
default:
d.Fatalf("unknown limits type")
}
})
}
// Decode memtype.
//
// memtype ::= lim:limits => lim
func decodeMemType(d *decode.D, name string) {
d.FieldStruct(name, func(d *decode.D) {
decodeLimits(d, "lim")
})
}
// Decode tabletype.
//
// tabletype ::= et:reftype lim:limits => lim et
func decodeTableType(d *decode.D, name string) {
d.FieldStruct(name, func(d *decode.D) {
decodeRefType(d, "et")
decodeLimits(d, "lim")
})
}
// Decode globaltype.
//
// globaltype ::= t:valtype m:mut => m t
// mut ::= 0x00 => const
// | 0x01 => var
func decodeGlobalType(d *decode.D, name string) {
d.FieldStruct(name, func(d *decode.D) {
decodeValType(d, "t")
d.FieldU8("m", mutToSym)
})
}
// Decode typeidx.
//
// typeidx ::= x:u32 => x
func decodeTypeIdx(d *decode.D, name string) {
fieldU32(d, name)
}
// Decode funcidx.
//
// funcidx ::= x:u32 => x
func decodeFuncIdx(d *decode.D, name string) {
fieldU32(d, name)
}
// Decode tableidx.
//
// tableidx ::= x:u32 => x
func decodeTableIdx(d *decode.D, name string) {
fieldU32(d, name)
}
// Decode memidx.
//
// memidx ::= x:u32 => x
func decodeMemIdx(d *decode.D, name string) {
fieldU32(d, name)
}
// Decode globalidx.
//
// globalidx ::= x:u32 => x
func decodeGlobalIdx(d *decode.D, name string) {
fieldU32(d, name)
}
// Decode elemidx.
//
// elemidx ::= x:u32 => x
func decodeElemIdx(d *decode.D, name string) {
fieldU32(d, name)
}
// Decode dataidx.
//
// dataidx ::= x:u32 => x
func decodeDataIdx(d *decode.D, name string) {
fieldU32(d, name)
}
// Decode localidx.
//
// localidx ::= x:u32 => x
func decodeLocalIdx(d *decode.D, name string) {
fieldU32(d, name)
}
// Decode labelidx.
//
// labelidx ::= l:u32 => l
func decodeLabelIdx(d *decode.D, name string) {
fieldU32(d, name)
}
// Decode custom section.
//
// customsec ::= section_0(custom)
// custom ::= name byte*
func decodeCustomSection(d *decode.D) {
decodeName(d, "name")
d.FieldRawLen("bytes", d.BitsLeft())
}
// Decode type section.
//
// typesec ::= ft*:section_1(vec(functype)) => ft*
func decodeTypeSection(d *decode.D) {
decodeVec(d, "ft", func(d *decode.D) {
decodeFuncType(d, "ft")
})
}
// Decode import section.
//
// importsec ::= im*:section_2(vec(import)) => im*
// import ::= mod:name nm:name d:importdesc => {module mod, name nm, desc d}
// importdesc ::= 0x00 x:typeidx => func x
// | 0x01 tt:tabletype => table tt
// | 0x02 mt:memtype => mem mt
// | 0x03 gt:globaltype => global gt
func decodeImportSection(d *decode.D) {
decodeVec(d, "im", func(d *decode.D) {
decodeImportSegment(d, "im")
})
}
func decodeImportSegment(d *decode.D, name string) {
d.FieldStruct(name, func(d *decode.D) {
decodeName(d, "mod")
decodeName(d, "nm")
decodeImportDesc(d, "d")
})
}
func decodeImportDesc(d *decode.D, name string) {
d.FieldStruct(name, func(d *decode.D) {
tag := d.FieldU8("tag", importdescTagToSym, scalar.ActualHex)
switch tag {
case 0x00:
decodeTypeIdx(d, "x")
case 0x01:
decodeTableType(d, "tt")
case 0x02:
decodeMemType(d, "mt")
case 0x03:
decodeGlobalType(d, "gt")
default:
d.Fatalf("unknown import desc")
}
})
}
// Decode function section.
//
// funcsec ::= x*:section_3(vec(typeidx)) => x*
func decodeFunctionSection(d *decode.D) {
decodeVec(d, "x", func(d *decode.D) {
decodeTypeIdx(d, "x")
})
}
// Decode table section.
//
// tablesec ::= tab*:section_4(vec(table)) => tab*
// table ::= tt:tabletype => {type tt}
func decodeTableSection(d *decode.D) {
decodeVec(d, "tab", func(d *decode.D) {
decodeTableType(d, "tab")
})
}
// Decode memory section.
//
// memsec ::= mem*:section_5(vec(mem)) => mem*
// mem ::= mt:memtype => {type mt}
func decodeMemorySection(d *decode.D) {
decodeVec(d, "mem", func(d *decode.D) {
decodeMemType(d, "mem")
})
}
// Decode global section.
//
// globalsec ::= glob*:section_6(vec(global)) => glob*
// global ::= gt:globaltype e:expr => {type gt, init e}
func decodeGlobalSection(d *decode.D) {
decodeVec(d, "glob", func(d *decode.D) {
decodeGlobal(d, "glob")
})
}
func decodeGlobal(d *decode.D, name string) {
d.FieldStruct(name, func(d *decode.D) {
decodeGlobalType(d, "gt")
decodeExpr(d, "e")
})
}
// Decode export section.
//
// exportsec ::= ex*:section_7(vec(export)) => ex*
// export ::= nm:name d:exportdesc => {name nm, desc d}
// exportdesc ::= 0x00 x:funcidx => func x
// | 0x01 x:tableidx => table x
// | 0x02 x:memidx => mem x
// | 0x03 x:globalidx => global x
func decodeExportSection(d *decode.D) {
decodeVec(d, "ex", func(d *decode.D) {
decodeExport(d, "ex")
})
}
func decodeExport(d *decode.D, name string) {
d.FieldStruct(name, func(d *decode.D) {
decodeName(d, "nm")
decodeExportDesc(d, "d")
})
}
func decodeExportDesc(d *decode.D, name string) {
d.FieldStruct(name, func(d *decode.D) {
tag := d.FieldU8("tag", exportdescTagToSym, scalar.ActualHex)
switch tag {
case 0x00:
decodeFuncIdx(d, "x")
case 0x01:
decodeTableIdx(d, "x")
case 0x02:
decodeMemIdx(d, "x")
case 0x03:
decodeGlobalIdx(d, "x")
default:
d.Fatalf("unknown export desc")
}
})
}
// Decode start section.
//
// startsec ::= st?:section_8(start) => st?
// start ::= x:funcidx => {func x}
func decodeStartSection(d *decode.D) {
decodeStart(d, "st")
}
func decodeStart(d *decode.D, name string) {
d.FieldStruct(name, func(d *decode.D) {
decodeFuncIdx(d, "x")
})
}
// Decode element section.
//
// elemsec ::= seg*:section_9(vec(elem)) => seg*
// elem ::= 0:u32 e:expr y*:vec(funcidx) => {type funcref, init ((ref.func y) end)*, mode active {table 0, offset e}}
// | 1:u32 et:elemkind y*:vec(funcidx) => {type et, init ((ref.func y) end)*, mode passive}
// | 2:u32 x:tableidx e:expr et:elemkind y*:vec(funcidx) => {type et, init ((ref.func y) end)*, mode active {table x, offset e}}
// | 3:u32 et:elemkind y*:vec(funcidx) => {type et, init ((ref.func y) end)*, mode declarative}
// | 4:u32 e:expr el*:vec(expr) => {type funcref, init el*, mode active {table 0, offset e}}
// | 5:u32 et:reftype el*:vec(expr) => {type et, init el*, mode passive}
// | 6:u32 x:tableidx e:expr et:reftype el*:vec(expr) => {type et, init el*, mode active {table x, offset e}}
// | 7:u32 et:reftype el*:vec(expr) => {type et, init el*, mode declarative}
func decodeElementSection(d *decode.D) {
decodeVec(d, "seg", func(d *decode.D) {
decodeElem(d, "seg")
})
}
func decodeElem(d *decode.D, name string) {
d.FieldStruct(name, func(d *decode.D) {
tag := fieldU32(d, "tag")
switch tag {
case 0:
decodeExpr(d, "e")
decodeVec(d, "y", func(d *decode.D) {
decodeFuncIdx(d, "y")
})
case 1, 3:
decodeElemKind(d, "et")
decodeVec(d, "y", func(d *decode.D) {
decodeFuncIdx(d, "y")
})
case 2:
decodeTableIdx(d, "x")
decodeExpr(d, "e")
decodeElemKind(d, "et")
decodeVec(d, "y", func(d *decode.D) {
decodeFuncIdx(d, "y")
})
case 4:
decodeExpr(d, "e")
decodeVec(d, "el", func(d *decode.D) {
decodeExpr(d, "el")
})
case 5, 7:
decodeRefType(d, "et")
decodeVec(d, "el", func(d *decode.D) {
decodeExpr(d, "el")
})
case 6:
decodeTableIdx(d, "x")
decodeExpr(d, "e")
decodeRefType(d, "et")
decodeVec(d, "el", func(d *decode.D) {
decodeExpr(d, "el")
})
default:
d.Fatalf("unknown elem type")
}
})
}
func decodeElemKind(d *decode.D, name string) {
d.FieldU8(name, d.AssertU(0x00), elemkindTagToSym)
}
// Decode code section.
//
// codesec ::= code*:section_10(vec(code)) => code*
// code ::= size:u32 code:func => code (if size = ||func||)
// func ::= (t*)*:vec(locals) e:expr => concat((t*)*),e (if |concat((t*)*)| < 2^32)
// locals ::= n:u32 t:valtype => t^n
func decodeCodeSection(d *decode.D) {
decodeVec(d, "code", func(d *decode.D) {
decodeCode(d, "code")
})
}
func decodeCode(d *decode.D, name string) {
d.FieldStruct(name, func(d *decode.D) {
size := fieldU32(d, "size")
d.FramedFn(int64(size)*8, func(d *decode.D) {
decodeFunc(d, "code")
})
})
}
func decodeFunc(d *decode.D, name string) {
d.FieldStruct(name, func(d *decode.D) {
decodeVec(d, "t", func(d *decode.D) {
decodeLocals(d, "t")
})
decodeExpr(d, "e")
})
}
func decodeLocals(d *decode.D, name string) {
d.FieldStruct(name, func(d *decode.D) {
fieldU32(d, "n")
decodeValType(d, "t")
})
}
// Decode data section.
//
// datasec ::= seg*:section_11(vec(data)) => seg*
// data ::= 0:u32 e:expr b*:vec(byte) => {init b*, mode active {memory 0, offset e}}
// | 1:u32 b*:vec(byte) => {init b*, mode passive}
// | 2:u32 x:memidx e:expr b*:vec(byte) => {init b*, mode active {memory x, offset e}}
func decodeDataSection(d *decode.D) {
decodeVec(d, "seg", func(d *decode.D) {
decodeDataSegment(d, "seg")
})
}
func decodeDataSegment(d *decode.D, name string) {
d.FieldStruct(name, func(d *decode.D) {
tag := fieldU32(d, "tag")
switch tag {
case 0:
decodeExpr(d, "e")
decodeVecByte(d, "b")
case 1:
decodeVecByte(d, "b")
case 2:
decodeMemIdx(d, "x")
decodeExpr(d, "e")
decodeVecByte(d, "b")
default:
d.Fatalf("unknown data segment type")
}
})
}
// Decode data count section.
//
// datacountsec ::= n?:section_12(u32) => n?
func decodeDataCountSection(d *decode.D) {
fieldU32(d, "n")
}
func decodeWASMModule(d *decode.D) {
d.FieldRawLen("magic", 4*8, d.AssertBitBuf([]byte("\x00asm")))
d.FieldU32("version")
d.FieldArray("sections", func(d *decode.D) {
for d.BitsLeft() > 0 {
d.FieldStruct("section", func(d *decode.D) {
sectionID := d.FieldU8("id", sectionIDToSym)
size := fieldU32(d, "size")
if size > math.MaxInt64/8 {
d.Fatalf("invalid section size")
}
d.FramedFn(int64(size)*8, func(d *decode.D) {
switch sectionID {
case sectionIDCustom:
d.FieldStruct("content", decodeCustomSection)
case sectionIDType:
d.FieldStruct("content", decodeTypeSection)
case sectionIDImport:
d.FieldStruct("content", decodeImportSection)
case sectionIDFunction:
d.FieldStruct("content", decodeFunctionSection)
case sectionIDTable:
d.FieldStruct("content", decodeTableSection)
case sectionIDMemory:
d.FieldStruct("content", decodeMemorySection)
case sectionIDGlobal:
d.FieldStruct("content", decodeGlobalSection)
case sectionIDExport:
d.FieldStruct("content", decodeExportSection)
case sectionIDStart:
d.FieldStruct("content", decodeStartSection)
case sectionIDElement:
d.FieldStruct("element", decodeElementSection)
case sectionIDCode:
d.FieldStruct("content", decodeCodeSection)
case sectionIDData:
d.FieldStruct("content", decodeDataSection)
case sectionIDDataCount:
d.FieldStruct("content", decodeDataCountSection)
default:
d.FieldRawLen("value", d.BitsLeft())
}
})
})
}
})
}
var instrMapOnce sync.Once
const (
opcodeBlock Opcode = 0x02
opcodeLoop Opcode = 0x03
opcodeIf Opcode = 0x04
)
func decodeWASM(d *decode.D, _ any) any {
d.Endian = decode.LittleEndian
// delayed initialization to break initialization reference cycle
instrMapOnce.Do(func() {
instrMap[opcodeBlock] = instructionInfo{mnemonic: "block", f: decodeBlock}
instrMap[opcodeLoop] = instructionInfo{mnemonic: "loop", f: decodeLoop}
instrMap[opcodeIf] = instructionInfo{mnemonic: "if", f: decodeIf}
})
decodeWASMModule(d)
return nil
}