mirror of
https://codeberg.org/superseriousbusiness/gotosocial.git
synced 2024-12-27 03:18:16 +03:00
acc333c40b
When GTS is running in a container runtime which has configured CPU or memory limits or under an init system that uses cgroups to impose CPU and memory limits the values the Go runtime sees for GOMAXPROCS and GOMEMLIMIT are still based on the host resources, not the cgroup. At least for the throttling middlewares which use GOMAXPROCS to configure their queue size, this can result in GTS running with values too big compared to the resources that will actuall be available to it. This introduces 2 dependencies which can pick up resource contraints from the current cgroup and tune the Go runtime accordingly. This should result in the different queues being appropriately sized and in general more predictable performance. These dependencies are a no-op on non-Linux systems or if running in a cgroup that doesn't set a limit on CPU or memory. The automatic tuning of GOMEMLIMIT can be disabled by either explicitly setting GOMEMLIMIT yourself or by setting AUTOMEMLIMIT=off. The automatic tuning of GOMAXPROCS can similarly be counteracted by setting GOMAXPROCS yourself.
237 lines
5.3 KiB
Go
237 lines
5.3 KiB
Go
package asm
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import (
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"fmt"
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"strings"
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)
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//go:generate stringer -output opcode_string.go -type=Class
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type encoding int
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const (
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unknownEncoding encoding = iota
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loadOrStore
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jumpOrALU
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)
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// Class of operations
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//
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// msb lsb
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// +---+--+---+
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// | ?? |CLS|
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// +---+--+---+
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type Class uint8
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const classMask OpCode = 0x07
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const (
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// LdClass load memory
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LdClass Class = 0x00
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// LdXClass load memory from constant
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LdXClass Class = 0x01
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// StClass load register from memory
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StClass Class = 0x02
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// StXClass load register from constant
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StXClass Class = 0x03
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// ALUClass arithmetic operators
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ALUClass Class = 0x04
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// JumpClass jump operators
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JumpClass Class = 0x05
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// ALU64Class arithmetic in 64 bit mode
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ALU64Class Class = 0x07
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)
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func (cls Class) encoding() encoding {
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switch cls {
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case LdClass, LdXClass, StClass, StXClass:
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return loadOrStore
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case ALU64Class, ALUClass, JumpClass:
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return jumpOrALU
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default:
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return unknownEncoding
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}
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}
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// OpCode is a packed eBPF opcode.
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//
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// Its encoding is defined by a Class value:
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//
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// msb lsb
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// +----+-+---+
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// | ???? |CLS|
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// +----+-+---+
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type OpCode uint8
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// InvalidOpCode is returned by setters on OpCode
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const InvalidOpCode OpCode = 0xff
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// rawInstructions returns the number of BPF instructions required
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// to encode this opcode.
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func (op OpCode) rawInstructions() int {
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if op.isDWordLoad() {
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return 2
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}
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return 1
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}
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func (op OpCode) isDWordLoad() bool {
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return op == LoadImmOp(DWord)
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}
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// Class returns the class of operation.
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func (op OpCode) Class() Class {
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return Class(op & classMask)
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}
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// Mode returns the mode for load and store operations.
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func (op OpCode) Mode() Mode {
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if op.Class().encoding() != loadOrStore {
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return InvalidMode
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}
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return Mode(op & modeMask)
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}
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// Size returns the size for load and store operations.
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func (op OpCode) Size() Size {
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if op.Class().encoding() != loadOrStore {
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return InvalidSize
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}
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return Size(op & sizeMask)
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}
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// Source returns the source for branch and ALU operations.
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func (op OpCode) Source() Source {
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if op.Class().encoding() != jumpOrALU || op.ALUOp() == Swap {
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return InvalidSource
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}
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return Source(op & sourceMask)
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}
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// ALUOp returns the ALUOp.
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func (op OpCode) ALUOp() ALUOp {
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if op.Class().encoding() != jumpOrALU {
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return InvalidALUOp
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}
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return ALUOp(op & aluMask)
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}
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// Endianness returns the Endianness for a byte swap instruction.
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func (op OpCode) Endianness() Endianness {
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if op.ALUOp() != Swap {
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return InvalidEndian
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}
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return Endianness(op & endianMask)
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}
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// JumpOp returns the JumpOp.
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func (op OpCode) JumpOp() JumpOp {
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if op.Class().encoding() != jumpOrALU {
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return InvalidJumpOp
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}
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return JumpOp(op & jumpMask)
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}
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// SetMode sets the mode on load and store operations.
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//
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// Returns InvalidOpCode if op is of the wrong class.
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func (op OpCode) SetMode(mode Mode) OpCode {
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if op.Class().encoding() != loadOrStore || !valid(OpCode(mode), modeMask) {
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return InvalidOpCode
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}
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return (op & ^modeMask) | OpCode(mode)
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}
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// SetSize sets the size on load and store operations.
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//
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// Returns InvalidOpCode if op is of the wrong class.
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func (op OpCode) SetSize(size Size) OpCode {
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if op.Class().encoding() != loadOrStore || !valid(OpCode(size), sizeMask) {
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return InvalidOpCode
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}
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return (op & ^sizeMask) | OpCode(size)
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}
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// SetSource sets the source on jump and ALU operations.
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//
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// Returns InvalidOpCode if op is of the wrong class.
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func (op OpCode) SetSource(source Source) OpCode {
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if op.Class().encoding() != jumpOrALU || !valid(OpCode(source), sourceMask) {
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return InvalidOpCode
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}
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return (op & ^sourceMask) | OpCode(source)
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}
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// SetALUOp sets the ALUOp on ALU operations.
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//
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// Returns InvalidOpCode if op is of the wrong class.
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func (op OpCode) SetALUOp(alu ALUOp) OpCode {
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class := op.Class()
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if (class != ALUClass && class != ALU64Class) || !valid(OpCode(alu), aluMask) {
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return InvalidOpCode
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}
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return (op & ^aluMask) | OpCode(alu)
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}
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// SetJumpOp sets the JumpOp on jump operations.
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//
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// Returns InvalidOpCode if op is of the wrong class.
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func (op OpCode) SetJumpOp(jump JumpOp) OpCode {
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if op.Class() != JumpClass || !valid(OpCode(jump), jumpMask) {
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return InvalidOpCode
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}
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return (op & ^jumpMask) | OpCode(jump)
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}
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func (op OpCode) String() string {
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var f strings.Builder
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switch class := op.Class(); class {
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case LdClass, LdXClass, StClass, StXClass:
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f.WriteString(strings.TrimSuffix(class.String(), "Class"))
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mode := op.Mode()
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f.WriteString(strings.TrimSuffix(mode.String(), "Mode"))
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switch op.Size() {
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case DWord:
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f.WriteString("DW")
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case Word:
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f.WriteString("W")
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case Half:
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f.WriteString("H")
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case Byte:
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f.WriteString("B")
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}
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case ALU64Class, ALUClass:
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f.WriteString(op.ALUOp().String())
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if op.ALUOp() == Swap {
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// Width for Endian is controlled by Constant
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f.WriteString(op.Endianness().String())
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} else {
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if class == ALUClass {
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f.WriteString("32")
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}
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f.WriteString(strings.TrimSuffix(op.Source().String(), "Source"))
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}
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case JumpClass:
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f.WriteString(op.JumpOp().String())
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if jop := op.JumpOp(); jop != Exit && jop != Call {
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f.WriteString(strings.TrimSuffix(op.Source().String(), "Source"))
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}
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default:
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fmt.Fprintf(&f, "OpCode(%#x)", uint8(op))
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}
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return f.String()
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}
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// valid returns true if all bits in value are covered by mask.
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func valid(value, mask OpCode) bool {
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return value & ^mask == 0
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}
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