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types.go
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types.go
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package ebpf
import (
"github.com/cilium/ebpf/internal/sys"
"github.com/cilium/ebpf/internal/unix"
)
//go:generate go run golang.org/x/tools/cmd/stringer@latest -output types_string.go -type=MapType,ProgramType,PinType
// MapType indicates the type map structure
// that will be initialized in the kernel.
type MapType uint32
// All the various map types that can be created
const (
UnspecifiedMap MapType = iota
// Hash is a hash map
Hash
// Array is an array map
Array
// ProgramArray - A program array map is a special kind of array map whose map
// values contain only file descriptors referring to other eBPF
// programs. Thus, both the key_size and value_size must be
// exactly four bytes. This map is used in conjunction with the
// TailCall helper.
ProgramArray
// PerfEventArray - A perf event array is used in conjunction with PerfEventRead
// and PerfEventOutput calls, to read the raw bpf_perf_data from the registers.
PerfEventArray
// PerCPUHash - This data structure is useful for people who have high performance
// network needs and can reconcile adds at the end of some cycle, so that
// hashes can be lock free without the use of XAdd, which can be costly.
PerCPUHash
// PerCPUArray - This data structure is useful for people who have high performance
// network needs and can reconcile adds at the end of some cycle, so that
// hashes can be lock free without the use of XAdd, which can be costly.
// Each CPU gets a copy of this hash, the contents of all of which can be reconciled
// later.
PerCPUArray
// StackTrace - This holds whole user and kernel stack traces, it can be retrieved with
// GetStackID
StackTrace
// CGroupArray - This is a very niche structure used to help SKBInCGroup determine
// if an skb is from a socket belonging to a specific cgroup
CGroupArray
// LRUHash - This allows you to create a small hash structure that will purge the
// least recently used items rather than throw an error when you run out of memory
LRUHash
// LRUCPUHash - This is NOT like PerCPUHash, this structure is shared among the CPUs,
// it has more to do with including the CPU id with the LRU calculation so that if a
// particular CPU is using a value over-and-over again, then it will be saved, but if
// a value is being retrieved a lot but sparsely across CPUs it is not as important, basically
// giving weight to CPU locality over overall usage.
LRUCPUHash
// LPMTrie - This is an implementation of Longest-Prefix-Match Trie structure. It is useful,
// for storing things like IP addresses which can be bit masked allowing for keys of differing
// values to refer to the same reference based on their masks. See wikipedia for more details.
LPMTrie
// ArrayOfMaps - Each item in the array is another map. The inner map mustn't be a map of maps
// itself.
ArrayOfMaps
// HashOfMaps - Each item in the hash map is another map. The inner map mustn't be a map of maps
// itself.
HashOfMaps
// DevMap - Specialized map to store references to network devices.
DevMap
// SockMap - Specialized map to store references to sockets.
SockMap
// CPUMap - Specialized map to store references to CPUs.
CPUMap
// XSKMap - Specialized map for XDP programs to store references to open sockets.
XSKMap
// SockHash - Specialized hash to store references to sockets.
SockHash
// CGroupStorage - Special map for CGroups.
CGroupStorage
// ReusePortSockArray - Specialized map to store references to sockets that can be reused.
ReusePortSockArray
// PerCPUCGroupStorage - Special per CPU map for CGroups.
PerCPUCGroupStorage
// Queue - FIFO storage for BPF programs.
Queue
// Stack - LIFO storage for BPF programs.
Stack
// SkStorage - Specialized map for local storage at SK for BPF programs.
SkStorage
// DevMapHash - Hash-based indexing scheme for references to network devices.
DevMapHash
// StructOpsMap - This map holds a kernel struct with its function pointer implemented in a BPF
// program.
StructOpsMap
// RingBuf - Similar to PerfEventArray, but shared across all CPUs.
RingBuf
// InodeStorage - Specialized local storage map for inodes.
InodeStorage
// TaskStorage - Specialized local storage map for task_struct.
TaskStorage
)
// hasPerCPUValue returns true if the Map stores a value per CPU.
func (mt MapType) hasPerCPUValue() bool {
return mt == PerCPUHash || mt == PerCPUArray || mt == LRUCPUHash || mt == PerCPUCGroupStorage
}
// canStoreMap returns true if the map type accepts a map fd
// for update and returns a map id for lookup.
func (mt MapType) canStoreMap() bool {
return mt == ArrayOfMaps || mt == HashOfMaps
}
// canStoreProgram returns true if the map type accepts a program fd
// for update and returns a program id for lookup.
func (mt MapType) canStoreProgram() bool {
return mt == ProgramArray
}
// ProgramType of the eBPF program
type ProgramType uint32
// eBPF program types
const (
UnspecifiedProgram ProgramType = iota
SocketFilter
Kprobe
SchedCLS
SchedACT
TracePoint
XDP
PerfEvent
CGroupSKB
CGroupSock
LWTIn
LWTOut
LWTXmit
SockOps
SkSKB
CGroupDevice
SkMsg
RawTracepoint
CGroupSockAddr
LWTSeg6Local
LircMode2
SkReuseport
FlowDissector
CGroupSysctl
RawTracepointWritable
CGroupSockopt
Tracing
StructOps
Extension
LSM
SkLookup
Syscall
)
// AttachType of the eBPF program, needed to differentiate allowed context accesses in
// some newer program types like CGroupSockAddr. Should be set to AttachNone if not required.
// Will cause invalid argument (EINVAL) at program load time if set incorrectly.
type AttachType uint32
//go:generate go run golang.org/x/tools/cmd/stringer@latest -type AttachType -trimprefix Attach
// AttachNone is an alias for AttachCGroupInetIngress for readability reasons.
const AttachNone AttachType = 0
const (
AttachCGroupInetIngress AttachType = iota
AttachCGroupInetEgress
AttachCGroupInetSockCreate
AttachCGroupSockOps
AttachSkSKBStreamParser
AttachSkSKBStreamVerdict
AttachCGroupDevice
AttachSkMsgVerdict
AttachCGroupInet4Bind
AttachCGroupInet6Bind
AttachCGroupInet4Connect
AttachCGroupInet6Connect
AttachCGroupInet4PostBind
AttachCGroupInet6PostBind
AttachCGroupUDP4Sendmsg
AttachCGroupUDP6Sendmsg
AttachLircMode2
AttachFlowDissector
AttachCGroupSysctl
AttachCGroupUDP4Recvmsg
AttachCGroupUDP6Recvmsg
AttachCGroupGetsockopt
AttachCGroupSetsockopt
AttachTraceRawTp
AttachTraceFEntry
AttachTraceFExit
AttachModifyReturn
AttachLSMMac
AttachTraceIter
AttachCgroupInet4GetPeername
AttachCgroupInet6GetPeername
AttachCgroupInet4GetSockname
AttachCgroupInet6GetSockname
AttachXDPDevMap
AttachCgroupInetSockRelease
AttachXDPCPUMap
AttachSkLookup
AttachXDP
AttachSkSKBVerdict
AttachSkReuseportSelect
AttachSkReuseportSelectOrMigrate
AttachPerfEvent
AttachTraceKprobeMulti
)
// AttachFlags of the eBPF program used in BPF_PROG_ATTACH command
type AttachFlags uint32
// PinType determines whether a map is pinned into a BPFFS.
type PinType int
// Valid pin types.
//
// Mirrors enum libbpf_pin_type.
const (
PinNone PinType = iota
// Pin an object by using its name as the filename.
PinByName
)
// LoadPinOptions control how a pinned object is loaded.
type LoadPinOptions struct {
// Request a read-only or write-only object. The default is a read-write
// object. Only one of the flags may be set.
ReadOnly bool
WriteOnly bool
// Raw flags for the syscall. Other fields of this struct take precedence.
Flags uint32
}
// Marshal returns a value suitable for BPF_OBJ_GET syscall file_flags parameter.
func (lpo *LoadPinOptions) Marshal() uint32 {
if lpo == nil {
return 0
}
flags := lpo.Flags
if lpo.ReadOnly {
flags |= unix.BPF_F_RDONLY
}
if lpo.WriteOnly {
flags |= unix.BPF_F_WRONLY
}
return flags
}
// BatchOptions batch map operations options
//
// Mirrors libbpf struct bpf_map_batch_opts
// Currently BPF_F_FLAG is the only supported
// flag (for ElemFlags).
type BatchOptions struct {
ElemFlags uint64
Flags uint64
}
// LogLevel controls the verbosity of the kernel's eBPF program verifier.
// These constants can be used for the ProgramOptions.LogLevel field.
type LogLevel = sys.LogLevel
const (
// Print verifier state at branch points.
LogLevelBranch = sys.BPF_LOG_LEVEL1
// Print verifier state for every instruction.
// Available since Linux v5.2.
LogLevelInstruction = sys.BPF_LOG_LEVEL2
// Print verifier errors and stats at the end of the verification process.
// Available since Linux v5.2.
LogLevelStats = sys.BPF_LOG_STATS
)