gotosocial/vendor/github.com/cilium/ebpf/asm/load_store.go
Daniele Sluijters acc333c40b
[feature] Inherit resource limits from cgroups (#1336)
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.
2023-01-17 20:59:04 +00:00

204 lines
4.8 KiB
Go

package asm
//go:generate stringer -output load_store_string.go -type=Mode,Size
// Mode for load and store operations
//
// msb lsb
// +---+--+---+
// |MDE|sz|cls|
// +---+--+---+
type Mode uint8
const modeMask OpCode = 0xe0
const (
// InvalidMode is returned by getters when invoked
// on non load / store OpCodes
InvalidMode Mode = 0xff
// ImmMode - immediate value
ImmMode Mode = 0x00
// AbsMode - immediate value + offset
AbsMode Mode = 0x20
// IndMode - indirect (imm+src)
IndMode Mode = 0x40
// MemMode - load from memory
MemMode Mode = 0x60
// XAddMode - add atomically across processors.
XAddMode Mode = 0xc0
)
// Size of load and store operations
//
// msb lsb
// +---+--+---+
// |mde|SZ|cls|
// +---+--+---+
type Size uint8
const sizeMask OpCode = 0x18
const (
// InvalidSize is returned by getters when invoked
// on non load / store OpCodes
InvalidSize Size = 0xff
// DWord - double word; 64 bits
DWord Size = 0x18
// Word - word; 32 bits
Word Size = 0x00
// Half - half-word; 16 bits
Half Size = 0x08
// Byte - byte; 8 bits
Byte Size = 0x10
)
// Sizeof returns the size in bytes.
func (s Size) Sizeof() int {
switch s {
case DWord:
return 8
case Word:
return 4
case Half:
return 2
case Byte:
return 1
default:
return -1
}
}
// LoadMemOp returns the OpCode to load a value of given size from memory.
func LoadMemOp(size Size) OpCode {
return OpCode(LdXClass).SetMode(MemMode).SetSize(size)
}
// LoadMem emits `dst = *(size *)(src + offset)`.
func LoadMem(dst, src Register, offset int16, size Size) Instruction {
return Instruction{
OpCode: LoadMemOp(size),
Dst: dst,
Src: src,
Offset: offset,
}
}
// LoadImmOp returns the OpCode to load an immediate of given size.
//
// As of kernel 4.20, only DWord size is accepted.
func LoadImmOp(size Size) OpCode {
return OpCode(LdClass).SetMode(ImmMode).SetSize(size)
}
// LoadImm emits `dst = (size)value`.
//
// As of kernel 4.20, only DWord size is accepted.
func LoadImm(dst Register, value int64, size Size) Instruction {
return Instruction{
OpCode: LoadImmOp(size),
Dst: dst,
Constant: value,
}
}
// LoadMapPtr stores a pointer to a map in dst.
func LoadMapPtr(dst Register, fd int) Instruction {
if fd < 0 {
return Instruction{OpCode: InvalidOpCode}
}
return Instruction{
OpCode: LoadImmOp(DWord),
Dst: dst,
Src: PseudoMapFD,
Constant: int64(fd),
}
}
// LoadMapValue stores a pointer to the value at a certain offset of a map.
func LoadMapValue(dst Register, fd int, offset uint32) Instruction {
if fd < 0 {
return Instruction{OpCode: InvalidOpCode}
}
fdAndOffset := (uint64(offset) << 32) | uint64(uint32(fd))
return Instruction{
OpCode: LoadImmOp(DWord),
Dst: dst,
Src: PseudoMapValue,
Constant: int64(fdAndOffset),
}
}
// LoadIndOp returns the OpCode for loading a value of given size from an sk_buff.
func LoadIndOp(size Size) OpCode {
return OpCode(LdClass).SetMode(IndMode).SetSize(size)
}
// LoadInd emits `dst = ntoh(*(size *)(((sk_buff *)R6)->data + src + offset))`.
func LoadInd(dst, src Register, offset int32, size Size) Instruction {
return Instruction{
OpCode: LoadIndOp(size),
Dst: dst,
Src: src,
Constant: int64(offset),
}
}
// LoadAbsOp returns the OpCode for loading a value of given size from an sk_buff.
func LoadAbsOp(size Size) OpCode {
return OpCode(LdClass).SetMode(AbsMode).SetSize(size)
}
// LoadAbs emits `r0 = ntoh(*(size *)(((sk_buff *)R6)->data + offset))`.
func LoadAbs(offset int32, size Size) Instruction {
return Instruction{
OpCode: LoadAbsOp(size),
Dst: R0,
Constant: int64(offset),
}
}
// StoreMemOp returns the OpCode for storing a register of given size in memory.
func StoreMemOp(size Size) OpCode {
return OpCode(StXClass).SetMode(MemMode).SetSize(size)
}
// StoreMem emits `*(size *)(dst + offset) = src`
func StoreMem(dst Register, offset int16, src Register, size Size) Instruction {
return Instruction{
OpCode: StoreMemOp(size),
Dst: dst,
Src: src,
Offset: offset,
}
}
// StoreImmOp returns the OpCode for storing an immediate of given size in memory.
func StoreImmOp(size Size) OpCode {
return OpCode(StClass).SetMode(MemMode).SetSize(size)
}
// StoreImm emits `*(size *)(dst + offset) = value`.
func StoreImm(dst Register, offset int16, value int64, size Size) Instruction {
return Instruction{
OpCode: StoreImmOp(size),
Dst: dst,
Offset: offset,
Constant: value,
}
}
// StoreXAddOp returns the OpCode to atomically add a register to a value in memory.
func StoreXAddOp(size Size) OpCode {
return OpCode(StXClass).SetMode(XAddMode).SetSize(size)
}
// StoreXAdd atomically adds src to *dst.
func StoreXAdd(dst, src Register, size Size) Instruction {
return Instruction{
OpCode: StoreXAddOp(size),
Dst: dst,
Src: src,
}
}