Merge pull request #10932 from prometheus/beorn7/protobuf

prompb: Update exposition protobuf to include float and gauge histograms
pull/10992/head
Björn Rabenstein 2 years ago committed by GitHub
commit 1dc732c130
No known key found for this signature in database
GPG Key ID: 4AEE18F83AFDEB23

@ -28,11 +28,18 @@ const _ = proto.GoGoProtoPackageIsVersion3 // please upgrade the proto package
type MetricType int32
const (
MetricType_COUNTER MetricType = 0
MetricType_GAUGE MetricType = 1
MetricType_SUMMARY MetricType = 2
MetricType_UNTYPED MetricType = 3
// COUNTER must use the Metric field "counter".
MetricType_COUNTER MetricType = 0
// GAUGE must use the Metric field "gauge".
MetricType_GAUGE MetricType = 1
// SUMMARY must use the Metric field "summary".
MetricType_SUMMARY MetricType = 2
// UNTYPED must use the Metric field "untyped".
MetricType_UNTYPED MetricType = 3
// HISTOGRAM must use the Metric field "histogram".
MetricType_HISTOGRAM MetricType = 4
// GAUGE_HISTOGRAM must use the Metric field "histogram".
MetricType_GAUGE_HISTOGRAM MetricType = 5
)
var MetricType_name = map[int32]string{
@ -41,14 +48,16 @@ var MetricType_name = map[int32]string{
2: "SUMMARY",
3: "UNTYPED",
4: "HISTOGRAM",
5: "GAUGE_HISTOGRAM",
}
var MetricType_value = map[string]int32{
"COUNTER": 0,
"GAUGE": 1,
"SUMMARY": 2,
"UNTYPED": 3,
"HISTOGRAM": 4,
"COUNTER": 0,
"GAUGE": 1,
"SUMMARY": 2,
"UNTYPED": 3,
"HISTOGRAM": 4,
"GAUGE_HISTOGRAM": 5,
}
func (x MetricType) String() string {
@ -382,9 +391,10 @@ func (m *Untyped) GetValue() float64 {
}
type Histogram struct {
SampleCount uint64 `protobuf:"varint,1,opt,name=sample_count,json=sampleCount,proto3" json:"sample_count,omitempty"`
SampleSum float64 `protobuf:"fixed64,2,opt,name=sample_sum,json=sampleSum,proto3" json:"sample_sum,omitempty"`
Bucket []*Bucket `protobuf:"bytes,3,rep,name=bucket,proto3" json:"bucket,omitempty"`
SampleCount uint64 `protobuf:"varint,1,opt,name=sample_count,json=sampleCount,proto3" json:"sample_count,omitempty"`
SampleCountFloat float64 `protobuf:"fixed64,9,opt,name=sample_count_float,json=sampleCountFloat,proto3" json:"sample_count_float,omitempty"`
SampleSum float64 `protobuf:"fixed64,2,opt,name=sample_sum,json=sampleSum,proto3" json:"sample_sum,omitempty"`
Bucket []*Bucket `protobuf:"bytes,3,rep,name=bucket,proto3" json:"bucket,omitempty"`
// Sparse bucket (sb) stuff:
// The sb_schema defines the bucket schema. Currently, valid numbers are -4 <= n <= 8.
// They are all for base-2 bucket schemas, where 1 is a bucket boundary in each case, and
@ -394,6 +404,7 @@ type Histogram struct {
SbSchema int32 `protobuf:"zigzag32,4,opt,name=sb_schema,json=sbSchema,proto3" json:"sb_schema,omitempty"`
SbZeroThreshold float64 `protobuf:"fixed64,5,opt,name=sb_zero_threshold,json=sbZeroThreshold,proto3" json:"sb_zero_threshold,omitempty"`
SbZeroCount uint64 `protobuf:"varint,6,opt,name=sb_zero_count,json=sbZeroCount,proto3" json:"sb_zero_count,omitempty"`
SbZeroCountFloat float64 `protobuf:"fixed64,10,opt,name=sb_zero_count_float,json=sbZeroCountFloat,proto3" json:"sb_zero_count_float,omitempty"`
SbNegative *SparseBuckets `protobuf:"bytes,7,opt,name=sb_negative,json=sbNegative,proto3" json:"sb_negative,omitempty"`
SbPositive *SparseBuckets `protobuf:"bytes,8,opt,name=sb_positive,json=sbPositive,proto3" json:"sb_positive,omitempty"`
XXX_NoUnkeyedLiteral struct{} `json:"-"`
@ -441,6 +452,13 @@ func (m *Histogram) GetSampleCount() uint64 {
return 0
}
func (m *Histogram) GetSampleCountFloat() float64 {
if m != nil {
return m.SampleCountFloat
}
return 0
}
func (m *Histogram) GetSampleSum() float64 {
if m != nil {
return m.SampleSum
@ -476,6 +494,13 @@ func (m *Histogram) GetSbZeroCount() uint64 {
return 0
}
func (m *Histogram) GetSbZeroCountFloat() float64 {
if m != nil {
return m.SbZeroCountFloat
}
return 0
}
func (m *Histogram) GetSbNegative() *SparseBuckets {
if m != nil {
return m.SbNegative
@ -492,6 +517,7 @@ func (m *Histogram) GetSbPositive() *SparseBuckets {
type Bucket struct {
CumulativeCount uint64 `protobuf:"varint,1,opt,name=cumulative_count,json=cumulativeCount,proto3" json:"cumulative_count,omitempty"`
CumulativeCountFloat float64 `protobuf:"fixed64,4,opt,name=cumulative_count_float,json=cumulativeCountFloat,proto3" json:"cumulative_count_float,omitempty"`
UpperBound float64 `protobuf:"fixed64,2,opt,name=upper_bound,json=upperBound,proto3" json:"upper_bound,omitempty"`
Exemplar *Exemplar `protobuf:"bytes,3,opt,name=exemplar,proto3" json:"exemplar,omitempty"`
XXX_NoUnkeyedLiteral struct{} `json:"-"`
@ -539,6 +565,13 @@ func (m *Bucket) GetCumulativeCount() uint64 {
return 0
}
func (m *Bucket) GetCumulativeCountFloat() float64 {
if m != nil {
return m.CumulativeCountFloat
}
return 0
}
func (m *Bucket) GetUpperBound() float64 {
if m != nil {
return m.UpperBound
@ -554,11 +587,14 @@ func (m *Bucket) GetExemplar() *Exemplar {
}
type SparseBuckets struct {
Span []*SparseBuckets_Span `protobuf:"bytes,1,rep,name=span,proto3" json:"span,omitempty"`
Delta []int64 `protobuf:"zigzag64,2,rep,packed,name=delta,proto3" json:"delta,omitempty"`
XXX_NoUnkeyedLiteral struct{} `json:"-"`
XXX_unrecognized []byte `json:"-"`
XXX_sizecache int32 `json:"-"`
Span []*SparseBuckets_Span `protobuf:"bytes,1,rep,name=span,proto3" json:"span,omitempty"`
// Only one of "delta" or "count" may be used, the former for regular
// histograms with integer counts, the latter for float histograms.
Delta []int64 `protobuf:"zigzag64,2,rep,packed,name=delta,proto3" json:"delta,omitempty"`
Count []float64 `protobuf:"fixed64,3,rep,packed,name=count,proto3" json:"count,omitempty"`
XXX_NoUnkeyedLiteral struct{} `json:"-"`
XXX_unrecognized []byte `json:"-"`
XXX_sizecache int32 `json:"-"`
}
func (m *SparseBuckets) Reset() { *m = SparseBuckets{} }
@ -608,6 +644,19 @@ func (m *SparseBuckets) GetDelta() []int64 {
return nil
}
func (m *SparseBuckets) GetCount() []float64 {
if m != nil {
return m.Count
}
return nil
}
// A Span is a given number of consecutive buckets at a given
// offset. Logically, it would be more straightforward to include
// the bucket counts in the Span. However, the protobuf
// representation is more compact in the way the data is structured
// here (with all the buckets in a single array separate from the
// Spans).
type SparseBuckets_Span struct {
Offset int32 `protobuf:"zigzag32,1,opt,name=offset,proto3" json:"offset,omitempty"`
Length uint32 `protobuf:"varint,2,opt,name=length,proto3" json:"length,omitempty"`
@ -914,60 +963,65 @@ func init() {
}
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0x55, 0x5f, 0x1b, 0x3e, 0x82, 0x3b, 0xaf, 0x42, 0x8d, 0x67, 0x5b, 0x79, 0xde, 0x79, 0x85, 0xa0,
0x7d, 0x1f, 0x40, 0x37, 0x4f, 0x53, 0x9a, 0xf9, 0x01, 0xcb, 0x93, 0x4b, 0xf3, 0xa6, 0x41, 0xb5,
0x4e, 0x64, 0x67, 0xe5, 0x36, 0x36, 0xde, 0xf0, 0x36, 0xfe, 0x66, 0xc1, 0xe6, 0x8a, 0x4d, 0xf4,
0x10, 0x6c, 0x9e, 0x92, 0xc4, 0xb5, 0xd4, 0xb1, 0x39, 0x7c, 0x8d, 0xcd, 0xc8, 0x2a, 0xc1, 0x8a,
0x25, 0xaf, 0xc2, 0x25, 0x8d, 0x04, 0x71, 0x37, 0xfa, 0x8d, 0x43, 0x84, 0x75, 0x21, 0xbb, 0x7a,
0x31, 0xf2, 0x2c, 0x5a, 0x58, 0x17, 0xbb, 0x9f, 0x81, 0x2d, 0x99, 0xe8, 0x0e, 0xb4, 0xd8, 0xd5,
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0x00,
}
func (m *LabelPair) Marshal() (dAtA []byte, err error) {
@ -1237,6 +1291,18 @@ func (m *Histogram) MarshalToSizedBuffer(dAtA []byte) (int, error) {
i -= len(m.XXX_unrecognized)
copy(dAtA[i:], m.XXX_unrecognized)
}
if m.SbZeroCountFloat != 0 {
i -= 8
encoding_binary.LittleEndian.PutUint64(dAtA[i:], uint64(math.Float64bits(float64(m.SbZeroCountFloat))))
i--
dAtA[i] = 0x51
}
if m.SampleCountFloat != 0 {
i -= 8
encoding_binary.LittleEndian.PutUint64(dAtA[i:], uint64(math.Float64bits(float64(m.SampleCountFloat))))
i--
dAtA[i] = 0x49
}
if m.SbPositive != nil {
{
size, err := m.SbPositive.MarshalToSizedBuffer(dAtA[:i])
@ -1329,6 +1395,12 @@ func (m *Bucket) MarshalToSizedBuffer(dAtA []byte) (int, error) {
i -= len(m.XXX_unrecognized)
copy(dAtA[i:], m.XXX_unrecognized)
}
if m.CumulativeCountFloat != 0 {
i -= 8
encoding_binary.LittleEndian.PutUint64(dAtA[i:], uint64(math.Float64bits(float64(m.CumulativeCountFloat))))
i--
dAtA[i] = 0x21
}
if m.Exemplar != nil {
{
size, err := m.Exemplar.MarshalToSizedBuffer(dAtA[:i])
@ -1379,22 +1451,32 @@ func (m *SparseBuckets) MarshalToSizedBuffer(dAtA []byte) (int, error) {
i -= len(m.XXX_unrecognized)
copy(dAtA[i:], m.XXX_unrecognized)
}
if len(m.Count) > 0 {
for iNdEx := len(m.Count) - 1; iNdEx >= 0; iNdEx-- {
f5 := math.Float64bits(float64(m.Count[iNdEx]))
i -= 8
encoding_binary.LittleEndian.PutUint64(dAtA[i:], uint64(f5))
}
i = encodeVarintMetrics(dAtA, i, uint64(len(m.Count)*8))
i--
dAtA[i] = 0x1a
}
if len(m.Delta) > 0 {
var j5 int
dAtA7 := make([]byte, len(m.Delta)*10)
var j6 int
dAtA8 := make([]byte, len(m.Delta)*10)
for _, num := range m.Delta {
x6 := (uint64(num) << 1) ^ uint64((num >> 63))
for x6 >= 1<<7 {
dAtA7[j5] = uint8(uint64(x6)&0x7f | 0x80)
j5++
x6 >>= 7
}
dAtA7[j5] = uint8(x6)
j5++
}
i -= j5
copy(dAtA[i:], dAtA7[:j5])
i = encodeVarintMetrics(dAtA, i, uint64(j5))
x7 := (uint64(num) << 1) ^ uint64((num >> 63))
for x7 >= 1<<7 {
dAtA8[j6] = uint8(uint64(x7)&0x7f | 0x80)
j6++
x7 >>= 7
}
dAtA8[j6] = uint8(x7)
j6++
}
i -= j6
copy(dAtA[i:], dAtA8[:j6])
i = encodeVarintMetrics(dAtA, i, uint64(j6))
i--
dAtA[i] = 0x12
}
@ -1834,6 +1916,12 @@ func (m *Histogram) Size() (n int) {
l = m.SbPositive.Size()
n += 1 + l + sovMetrics(uint64(l))
}
if m.SampleCountFloat != 0 {
n += 9
}
if m.SbZeroCountFloat != 0 {
n += 9
}
if m.XXX_unrecognized != nil {
n += len(m.XXX_unrecognized)
}
@ -1856,6 +1944,9 @@ func (m *Bucket) Size() (n int) {
l = m.Exemplar.Size()
n += 1 + l + sovMetrics(uint64(l))
}
if m.CumulativeCountFloat != 0 {
n += 9
}
if m.XXX_unrecognized != nil {
n += len(m.XXX_unrecognized)
}
@ -1881,6 +1972,9 @@ func (m *SparseBuckets) Size() (n int) {
}
n += 1 + sovMetrics(uint64(l)) + l
}
if len(m.Count) > 0 {
n += 1 + sovMetrics(uint64(len(m.Count)*8)) + len(m.Count)*8
}
if m.XXX_unrecognized != nil {
n += len(m.XXX_unrecognized)
}
@ -2747,6 +2841,28 @@ func (m *Histogram) Unmarshal(dAtA []byte) error {
return err
}
iNdEx = postIndex
case 9:
if wireType != 1 {
return fmt.Errorf("proto: wrong wireType = %d for field SampleCountFloat", wireType)
}
var v uint64
if (iNdEx + 8) > l {
return io.ErrUnexpectedEOF
}
v = uint64(encoding_binary.LittleEndian.Uint64(dAtA[iNdEx:]))
iNdEx += 8
m.SampleCountFloat = float64(math.Float64frombits(v))
case 10:
if wireType != 1 {
return fmt.Errorf("proto: wrong wireType = %d for field SbZeroCountFloat", wireType)
}
var v uint64
if (iNdEx + 8) > l {
return io.ErrUnexpectedEOF
}
v = uint64(encoding_binary.LittleEndian.Uint64(dAtA[iNdEx:]))
iNdEx += 8
m.SbZeroCountFloat = float64(math.Float64frombits(v))
default:
iNdEx = preIndex
skippy, err := skipMetrics(dAtA[iNdEx:])
@ -2864,6 +2980,17 @@ func (m *Bucket) Unmarshal(dAtA []byte) error {
return err
}
iNdEx = postIndex
case 4:
if wireType != 1 {
return fmt.Errorf("proto: wrong wireType = %d for field CumulativeCountFloat", wireType)
}
var v uint64
if (iNdEx + 8) > l {
return io.ErrUnexpectedEOF
}
v = uint64(encoding_binary.LittleEndian.Uint64(dAtA[iNdEx:]))
iNdEx += 8
m.CumulativeCountFloat = float64(math.Float64frombits(v))
default:
iNdEx = preIndex
skippy, err := skipMetrics(dAtA[iNdEx:])
@ -3027,6 +3154,60 @@ func (m *SparseBuckets) Unmarshal(dAtA []byte) error {
} else {
return fmt.Errorf("proto: wrong wireType = %d for field Delta", wireType)
}
case 3:
if wireType == 1 {
var v uint64
if (iNdEx + 8) > l {
return io.ErrUnexpectedEOF
}
v = uint64(encoding_binary.LittleEndian.Uint64(dAtA[iNdEx:]))
iNdEx += 8
v2 := float64(math.Float64frombits(v))
m.Count = append(m.Count, v2)
} else if wireType == 2 {
var packedLen int
for shift := uint(0); ; shift += 7 {
if shift >= 64 {
return ErrIntOverflowMetrics
}
if iNdEx >= l {
return io.ErrUnexpectedEOF
}
b := dAtA[iNdEx]
iNdEx++
packedLen |= int(b&0x7F) << shift
if b < 0x80 {
break
}
}
if packedLen < 0 {
return ErrInvalidLengthMetrics
}
postIndex := iNdEx + packedLen
if postIndex < 0 {
return ErrInvalidLengthMetrics
}
if postIndex > l {
return io.ErrUnexpectedEOF
}
var elementCount int
elementCount = packedLen / 8
if elementCount != 0 && len(m.Count) == 0 {
m.Count = make([]float64, 0, elementCount)
}
for iNdEx < postIndex {
var v uint64
if (iNdEx + 8) > l {
return io.ErrUnexpectedEOF
}
v = uint64(encoding_binary.LittleEndian.Uint64(dAtA[iNdEx:]))
iNdEx += 8
v2 := float64(math.Float64frombits(v))
m.Count = append(m.Count, v2)
}
} else {
return fmt.Errorf("proto: wrong wireType = %d for field Count", wireType)
}
default:
iNdEx = preIndex
skippy, err := skipMetrics(dAtA[iNdEx:])

@ -29,11 +29,18 @@ message LabelPair {
}
enum MetricType {
COUNTER = 0;
GAUGE = 1;
SUMMARY = 2;
UNTYPED = 3;
HISTOGRAM = 4;
// COUNTER must use the Metric field "counter".
COUNTER = 0;
// GAUGE must use the Metric field "gauge".
GAUGE = 1;
// SUMMARY must use the Metric field "summary".
SUMMARY = 2;
// UNTYPED must use the Metric field "untyped".
UNTYPED = 3;
// HISTOGRAM must use the Metric field "histogram".
HISTOGRAM = 4;
// GAUGE_HISTOGRAM must use the Metric field "histogram".
GAUGE_HISTOGRAM = 5;
}
message Gauge {
@ -62,6 +69,7 @@ message Untyped {
message Histogram {
uint64 sample_count = 1;
double sample_count_float = 9; // Overrides sample_count if > 0.
double sample_sum = 2;
repeated Bucket bucket = 3; // Ordered in increasing order of upper_bound, +Inf bucket is optional.
// Sparse bucket (sb) stuff:
@ -70,26 +78,37 @@ message Histogram {
// then each power of two is divided into 2^n logarithmic buckets.
// Or in other words, each bucket boundary is the previous boundary times 2^(2^-n).
// In the future, more bucket schemas may be added using numbers < -4 or > 8.
sint32 sb_schema = 4;
double sb_zero_threshold = 5; // Breadth of the zero bucket.
uint64 sb_zero_count = 6; // Count in zero bucket.
SparseBuckets sb_negative = 7; // Negative sparse buckets.
SparseBuckets sb_positive = 8; // Positive sparse buckets.
sint32 sb_schema = 4;
double sb_zero_threshold = 5; // Breadth of the zero bucket.
uint64 sb_zero_count = 6; // Count in zero bucket.
double sb_zero_count_float = 10; // Overrides sb_zero_count if > 0.
SparseBuckets sb_negative = 7; // Negative sparse buckets.
SparseBuckets sb_positive = 8; // Positive sparse buckets.
}
message Bucket {
uint64 cumulative_count = 1; // Cumulative in increasing order.
double upper_bound = 2; // Inclusive.
Exemplar exemplar = 3;
uint64 cumulative_count = 1; // Cumulative in increasing order.
double cumulative_count_float = 4; // Overrides cumulative_count if > 0.
double upper_bound = 2; // Inclusive.
Exemplar exemplar = 3;
}
message SparseBuckets {
// A Span is a given number of consecutive buckets at a given
// offset. Logically, it would be more straightforward to include
// the bucket counts in the Span. However, the protobuf
// representation is more compact in the way the data is structured
// here (with all the buckets in a single array separate from the
// Spans).
message Span {
sint32 offset = 1; // Gap to previous span, or starting point for 1st span (which can be negative).
uint32 length = 2; // Length of consecutive buckets.
}
repeated Span span = 1;
repeated Span span = 1;
// Only one of "delta" or "count" may be used, the former for regular
// histograms with integer counts, the latter for float histograms.
repeated sint64 delta = 2; // Count delta of each bucket compared to previous one (or to zero for 1st bucket).
repeated double count = 3; // Absolute count of each bucket.
}
message Exemplar {
@ -99,18 +118,18 @@ message Exemplar {
}
message Metric {
repeated LabelPair label = 1;
Gauge gauge = 2;
Counter counter = 3;
Summary summary = 4;
Untyped untyped = 5;
Histogram histogram = 7;
int64 timestamp_ms = 6;
repeated LabelPair label = 1;
Gauge gauge = 2;
Counter counter = 3;
Summary summary = 4;
Untyped untyped = 5;
Histogram histogram = 7;
int64 timestamp_ms = 6;
}
message MetricFamily {
string name = 1;
string help = 2;
MetricType type = 3;
repeated Metric metric = 4;
string name = 1;
string help = 2;
MetricType type = 3;
repeated Metric metric = 4;
}

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