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/*
*
* Copyright 2015-2016, Google Inc.
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/* RPC-internal Census API's. These are designed to be generic enough that
* they can (ultimately) be used in many different RPC systems (with differing
* implementations). */
#ifndef CENSUS_CENSUS_H
#define CENSUS_CENSUS_H
#include <grpc/grpc.h>
#ifdef __cplusplus
extern "C" {
#endif
/* Identify census features that can be enabled via census_initialize(). */
enum census_features {
CENSUS_FEATURE_NONE = 0, /* Do not enable census. */
CENSUS_FEATURE_TRACING = 1, /* Enable census tracing. */
CENSUS_FEATURE_STATS = 2, /* Enable Census stats collection. */
CENSUS_FEATURE_CPU = 4, /* Enable Census CPU usage collection. */
CENSUS_FEATURE_ALL =
CENSUS_FEATURE_TRACING | CENSUS_FEATURE_STATS | CENSUS_FEATURE_CPU
};
/** Shutdown and startup census subsystem. The 'features' argument should be
* the OR (|) of census_features values. If census fails to initialize, then
* census_initialize() will return a non-zero value. It is an error to call
* census_initialize() more than once (without an intervening
* census_shutdown()). */
CENSUS_API int census_initialize(int features);
CENSUS_API void census_shutdown(void);
/** Return the features supported by the current census implementation (not all
* features will be available on all platforms). */
CENSUS_API int census_supported(void);
/** Return the census features currently enabled. */
CENSUS_API int census_enabled(void);
/**
A Census Context is a handle used by Census to represent the current tracing
and stats collection information. Contexts should be propagated across RPC's
(this is the responsibility of the local RPC system). A context is typically
used as the first argument to most census functions. Conceptually, they
should be thought of as specific to a single RPC/thread. The user visible
context representation is that of a collection of key:value string pairs,
each of which is termed a 'tag'; these form the basis against which Census
metrics will be recorded. Keys are unique within a context. */
typedef struct census_context census_context;
/* A tag is a key:value pair. The key is a non-empty, printable (UTF-8
encoded), nil-terminated string. The value is a binary string, that may be
printable. There are limits on the sizes of both keys and values (see
CENSUS_MAX_TAG_KB_LEN definition below), and the number of tags that can be
propagated (CENSUS_MAX_PROPAGATED_TAGS). Users should also remember that
some systems may have limits on, e.g., the number of bytes that can be
transmitted as metadata, and that larger tags means more memory consumed
and time in processing. */
typedef struct {
const char *key;
const char *value;
size_t value_len;
uint8_t flags;
} census_tag;
/* Maximum length of a tag's key or value. */
#define CENSUS_MAX_TAG_KV_LEN 255
/* Maximum number of propagatable tags. */
#define CENSUS_MAX_PROPAGATED_TAGS 255
/* Tag flags. */
#define CENSUS_TAG_PROPAGATE 1 /* Tag should be propagated over RPC */
#define CENSUS_TAG_STATS 2 /* Tag will be used for statistics aggregation */
#define CENSUS_TAG_BINARY 4 /* Tag value is not printable */
#define CENSUS_TAG_RESERVED 8 /* Reserved for internal use. */
/* Flag values 8,16,32,64,128 are reserved for future/internal use. Clients
should not use or rely on their values. */
#define CENSUS_TAG_IS_PROPAGATED(flags) (flags & CENSUS_TAG_PROPAGATE)
#define CENSUS_TAG_IS_STATS(flags) (flags & CENSUS_TAG_STATS)
#define CENSUS_TAG_IS_BINARY(flags) (flags & CENSUS_TAG_BINARY)
/* An instance of this structure is kept by every context, and records the
basic information associated with the creation of that context. */
typedef struct {
int n_propagated_tags; /* number of propagated printable tags */
int n_propagated_binary_tags; /* number of propagated binary tags */
int n_local_tags; /* number of non-propagated (local) tags */
int n_deleted_tags; /* number of tags that were deleted */
int n_added_tags; /* number of tags that were added */
int n_modified_tags; /* number of tags that were modified */
int n_invalid_tags; /* number of tags with bad keys or values (e.g.
longer than CENSUS_MAX_TAG_KV_LEN) */
int n_ignored_tags; /* number of tags ignored because of
CENSUS_MAX_PROPAGATED_TAGS limit. */
} census_context_status;
/* Create a new context, adding and removing tags from an existing context.
This will copy all tags from the 'tags' input, so it is recommended
to add as many tags in a single operation as is practical for the client.
@param base Base context to build upon. Can be NULL.
@param tags A set of tags to be added/changed/deleted. Tags with keys that
are in 'tags', but not 'base', are added to the tag set. Keys that are in
both 'tags' and 'base' will have their value/flags modified. Tags with keys
in both, but with NULL or zero-length values, will be deleted from the tag
set. Tags with invalid (too long or short) keys or values will be ignored.
If adding a tag will result in more than CENSUS_MAX_PROPAGATED_TAGS in either
binary or non-binary tags, they will be ignored, as will deletions of
tags that don't exist.
@param ntags number of tags in 'tags'
@param status If not NULL, will return a pointer to a census_context_status
structure containing information about the new context and status of the
tags used in its creation.
@return A new, valid census_context.
*/
CENSUS_API census_context *census_context_create(
const census_context *base, const census_tag *tags, int ntags,
census_context_status const **status);
/* Destroy a context. Once this function has been called, the context cannot
be reused. */
CENSUS_API void census_context_destroy(census_context *context);
/* Get a pointer to the original status from the context creation. */
CENSUS_API const census_context_status *census_context_get_status(
const census_context *context);
/* Structure used for iterating over the tegs in a context. API clients should
not use or reference internal fields - neither their contents or
presence/absence are guaranteed. */
typedef struct {
const census_context *context;
int base;
int index;
char *kvm;
} census_context_iterator;
/* Initialize a census_tag_iterator. Must be called before first use. */
CENSUS_API void census_context_initialize_iterator(
const census_context *context, census_context_iterator *iterator);
/* Get the contents of the "next" tag in the context. If there are no more
tags, returns 0 (and 'tag' contents will be unchanged), otherwise returns 1.
*/
CENSUS_API int census_context_next_tag(census_context_iterator *iterator,
census_tag *tag);
/* Get a context tag by key. Returns 0 if the key is not present. */
CENSUS_API int census_context_get_tag(const census_context *context,
const char *key, census_tag *tag);
/* Tag set encode/decode functionality. These functionas are intended
for use by RPC systems only, for purposes of transmitting/receiving contexts.
*/
/* Encode a context into a buffer. The propagated tags are encoded into the
buffer in two regions: one for printable tags, and one for binary tags.
@param context context to be encoded
@param buffer pointer to buffer. This address will be used to encode the
printable tags.
@param buf_size number of available bytes in buffer.
@param print_buf_size Will be set to the number of bytes consumed by
printable tags.
@param bin_buf_size Will be set to the number of bytes used to encode the
binary tags.
@return A pointer to the binary tag's encoded, or NULL if the buffer was
insufficiently large to hold the encoded tags. Thus, if successful,
printable tags are encoded into
[buffer, buffer + *print_buf_size) and binary tags into
[returned-ptr, returned-ptr + *bin_buf_size) (and the returned
pointer should be buffer + *print_buf_size) */
CENSUS_API char *census_context_encode(const census_context *context,
char *buffer, size_t buf_size,
size_t *print_buf_size,
size_t *bin_buf_size);
/* Decode context buffers encoded with census_context_encode(). Returns NULL
if there is an error in parsing either buffer. */
CENSUS_API census_context *census_context_decode(const char *buffer,
size_t size,
const char *bin_buffer,
size_t bin_size);
/* Distributed traces can have a number of options. */
enum census_trace_mask_values {
CENSUS_TRACE_MASK_NONE = 0, /* Default, empty flags */
CENSUS_TRACE_MASK_IS_SAMPLED = 1 /* RPC tracing enabled for this context. */
};
/** Get the current trace mask associated with this context. The value returned
will be the logical or of census_trace_mask_values values. */
CENSUS_API int census_trace_mask(const census_context *context);
/** Set the trace mask associated with a context. */
CENSUS_API void census_set_trace_mask(int trace_mask);
/* The concept of "operation" is a fundamental concept for Census. In an RPC
system, and operation typcially represents a single RPC, or a significant
sub-part thereof (e.g. a single logical "read" RPC to a distributed storage
system might do several other actions in parallel, from looking up metadata
indices to making requests of other services - each of these could be a
sub-operation with the larger RPC operation). Census uses operations for the
following:
CPU accounting: If enabled, census will measure the thread CPU time
consumed between operation start and end times.
Active operations: Census will maintain information on all currently
active operations.
Distributed tracing: Each operation serves as a logical trace span.
Stats collection: Stats are broken down by operation (e.g. latency
breakdown for each unique RPC path).
The following functions serve to delineate the start and stop points for
each logical operation. */
/**
This structure represents a timestamp as used by census to record the time
at which an operation begins.
*/
typedef struct {
/* Use gpr_timespec for default implementation. High performance
* implementations should use a cycle-counter based timestamp. */
gpr_timespec ts;
} census_timestamp;
/**
Mark the beginning of an RPC operation. The information required to call the
functions to record the start of RPC operations (both client and server) may
not be callable at the true start time of the operation, due to information
not being available (e.g. the census context data will not be available in a
server RPC until at least initial metadata has been processed). To ensure
correct CPU accounting and latency recording, RPC systems can call this
function to get the timestamp of operation beginning. This can later be used
as an argument to census_start_{client,server}_rpc_op(). NB: for correct
CPU accounting, the system must guarantee that the same thread is used
for all request processing after this function is called.
@return A timestamp representing the operation start time.
*/
CENSUS_API census_timestamp census_start_rpc_op_timestamp(void);
/**
Represent functions to map RPC name ID to service/method names. Census
breaks down all RPC stats by service and method names. We leave the
definition and format of these to the RPC system. For efficiency purposes,
we encode these as a single 64 bit identifier, and allow the RPC system to
provide a structure for functions that can convert these to service and
method strings.
TODO(aveitch): Instead of providing this as an argument to the rpc_start_op()
functions, maybe it should be set once at census initialization.
*/
typedef struct {
const char *(*get_rpc_service_name)(int64_t id);
const char *(*get_rpc_method_name)(int64_t id);
} census_rpc_name_info;
/**
Start a client rpc operation. This function should be called as early in the
client RPC path as possible. This function will create a new context. If
the context argument is non-null, then the new context will inherit all
its properties, with the following changes:
- create a new operation ID for the new context, marking it as a child of
the previous operation.
- use the new RPC path and peer information for tracing and stats
collection purposes, rather than those from the original context
If the context argument is NULL, then a new root context is created. This
is particularly important for tracing purposes (the trace spans generated
will be unassociated with any other trace spans, except those
downstream). The trace_mask will be used for tracing operations associated
with the new context.
In some RPC systems (e.g. where load balancing is used), peer information
may not be available at the time the operation starts. In this case, use a
NULL value for peer, and set it later using the
census_set_rpc_client_peer() function.
@param context The parent context. Can be NULL.
@param rpc_name_id The rpc name identifier to be associated with this RPC.
@param rpc_name_info Used to decode rpc_name_id.
@param peer RPC peer. If not available at the time, NULL can be used,
and a later census_set_rpc_client_peer() call made.
@param trace_mask An OR of census_trace_mask_values values. Only used in
the creation of a new root context (context == NULL).
@param start_time A timestamp returned from census_start_rpc_op_timestamp().
Can be NULL. Used to set the true time the operation
begins.
@return A new census context.
*/
CENSUS_API census_context *census_start_client_rpc_op(
const census_context *context, int64_t rpc_name_id,
const census_rpc_name_info *rpc_name_info, const char *peer, int trace_mask,
const census_timestamp *start_time);
/**
Add peer information to a context representing a client RPC operation.
*/
CENSUS_API void census_set_rpc_client_peer(census_context *context,
const char *peer);
/**
Start a server RPC operation. Returns a new context to be used in future
census calls. If buffer is non-NULL, then the buffer contents should
represent the client context, as generated by census_context_serialize().
If buffer is NULL, a new root context is created.
@param buffer Buffer containing bytes output from census_context_serialize().
@param rpc_name_id The rpc name identifier to be associated with this RPC.
@param rpc_name_info Used to decode rpc_name_id.
@param peer RPC peer.
@param trace_mask An OR of census_trace_mask_values values. Only used in
the creation of a new root context (buffer == NULL).
@param start_time A timestamp returned from census_start_rpc_op_timestamp().
Can be NULL. Used to set the true time the operation
begins.
@return A new census context.
*/
CENSUS_API census_context *census_start_server_rpc_op(
const char *buffer, int64_t rpc_name_id,
const census_rpc_name_info *rpc_name_info, const char *peer, int trace_mask,
census_timestamp *start_time);
/**
Start a new, non-RPC operation. In general, this function works very
similarly to census_start_client_rpc_op, with the primary difference being
the replacement of host/path information with the more generic family/name
tags. If the context argument is non-null, then the new context will
inherit all its properties, with the following changes:
- create a new operation ID for the new context, marking it as a child of
the previous operation.
- use the family and name information for tracing and stats collection
purposes, rather than those from the original context
If the context argument is NULL, then a new root context is created. This
is particularly important for tracing purposes (the trace spans generated
will be unassociated with any other trace spans, except those
downstream). The trace_mask will be used for tracing
operations associated with the new context.
@param context The base context. Can be NULL.
@param family Family name to associate with the trace
@param name Name within family to associated with traces/stats
@param trace_mask An OR of census_trace_mask_values values. Only used if
context is NULL.
@return A new census context.
*/
CENSUS_API census_context *census_start_op(census_context *context,
const char *family, const char *name,
int trace_mask);
/**
End an operation started by any of the census_start_*_op*() calls. The
context used in this call will no longer be valid once this function
completes.
@param context Context associated with operation which is ending.
@param status status associated with the operation. Not interpreted by
census.
*/
CENSUS_API void census_end_op(census_context *context, int status);
#define CENSUS_TRACE_RECORD_START_OP ((uint32_t)0)
#define CENSUS_TRACE_RECORD_END_OP ((uint32_t)1)
/** Insert a trace record into the trace stream. The record consists of an
arbitrary size buffer, the size of which is provided in 'n'.
@param context Trace context
@param type User-defined type to associate with trace entry.
@param buffer Pointer to buffer to use
@param n Number of bytes in buffer
*/
CENSUS_API void census_trace_print(census_context *context, uint32_t type,
const char *buffer, size_t n);
/** Trace record. */
typedef struct {
census_timestamp timestamp; /* Time of record creation */
uint64_t trace_id; /* Trace ID associated with record */
uint64_t op_id; /* Operation ID associated with record */
uint32_t type; /* Type (as used in census_trace_print() */
const char *buffer; /* Buffer (from census_trace_print() */
size_t buf_size; /* Number of bytes inside buffer */
} census_trace_record;
/** Start a scan of existing trace records. While a scan is ongoing, addition
of new trace records will be blocked if the underlying trace buffers
fill up, so trace processing systems should endeavor to complete
reading as soon as possible.
@param consume if non-zero, indicates that reading records also "consumes"
the previously read record - i.e. releases space in the trace log
while scanning is ongoing.
@returns 0 on success, non-zero on failure (e.g. if a scan is already ongoing)
*/
CENSUS_API int census_trace_scan_start(int consume);
/** Get a trace record. The data pointed to by the trace buffer is guaranteed
stable until the next census_get_trace_record() call (if the consume
argument to census_trace_scan_start was non-zero) or census_trace_scan_end()
is called (otherwise).
@param trace_record structure that will be filled in with oldest trace record.
@returns -1 if an error occurred (e.g. no previous call to
census_trace_scan_start()), 0 if there is no more trace data (and
trace_record will not be modified) or 1 otherwise.
*/
CENSUS_API int census_get_trace_record(census_trace_record *trace_record);
/** End a scan previously started by census_trace_scan_start() */
CENSUS_API void census_trace_scan_end();
/* Core stats collection API's. The following concepts are used:
* Aggregation: A collection of values. Census supports the following
aggregation types:
Sum - a single summation type. Typically used for keeping (e.g.)
counts of events.
Distribution - statistical distribution information, used for
recording average, standard deviation etc.
Histogram - a histogram of measurements falling in defined bucket
boundaries.
Window - a count of events that happen in reolling time window.
New aggregation types can be added by the user, if desired (see
census_register_aggregation()).
* Metric: Each measurement is for a single metric. Examples include RPC
latency, CPU seconds consumed, and bytes transmitted.
* View: A view is a combination of a metric, a tag set (in which the tag
values are regular expressions) and a set of aggregations. When a
measurement for a metric matches the view tags, it is recorded (for each
unique set of tags) against each aggregation. Each metric can have an
arbitrary number of views by which it will be broken down.
*/
/* A single value to be recorded comprises two parts: an ID for the particular
* metric and the value to be recorded against it. */
typedef struct {
uint32_t metric_id;
double value;
} census_value;
/* Record new usage values against the given context. */
CENSUS_API void census_record_values(census_context *context,
census_value *values, size_t nvalues);
/** Type representing a particular aggregation */
typedef struct census_aggregation_ops census_aggregation_ops;
/* Predefined aggregation types, for use with census_view_create(). */
extern census_aggregation_ops census_agg_sum;
extern census_aggregation_ops census_agg_distribution;
extern census_aggregation_ops census_agg_histogram;
extern census_aggregation_ops census_agg_window;
/** Information needed to instantiate a new aggregation. Used in view
construction via census_define_view(). */
typedef struct {
const census_aggregation_ops *ops;
const void *create_arg; /* Aaggregation initialization argument. */
} census_aggregation;
/** A census view type. Opaque. */
typedef struct census_view census_view;
/** Create a new view.
@param metric_id Metric with which this view is associated.
@param tags tags that define the view.
@param aggregations aggregations to associate with the view
@param naggregations number of aggregations
@return A new census view
*/
/* TODO(aveitch): consider if context is the right argument type to pass in
tags. */
CENSUS_API census_view *census_view_create(
uint32_t metric_id, const census_context *tags,
const census_aggregation *aggregations, size_t naggregations);
/** Destroy a previously created view. */
CENSUS_API void census_view_delete(census_view *view);
/** Metric ID associated with a view */
CENSUS_API size_t census_view_metric(const census_view *view);
/** Number of aggregations associated with view. */
CENSUS_API size_t census_view_naggregations(const census_view *view);
/** Get tags associated with view. */
CENSUS_API const census_context *census_view_tags(const census_view *view);
/** Get aggregation descriptors associated with a view. */
CENSUS_API const census_aggregation *census_view_aggregrations(
const census_view *view);
/** Holds all the aggregation data for a particular view instantiation. Forms
part of the data returned by census_view_data(). */
typedef struct {
const census_context *tags; /* Tags for this set of aggregations. */
const void **data; /* One data set for every aggregation in the view. */
} census_view_aggregation_data;
/** Census view data as returned by census_view_get_data(). */
typedef struct {
size_t n_tag_sets; /* Number of unique tag sets that matched view. */
const census_view_aggregation_data *data; /* n_tag_sets entries */
} census_view_data;
/** Get data from aggregations associated with a view.
@param view View from which to get data.
@return Full set of data for all aggregations for the view.
*/
CENSUS_API const census_view_data *census_view_get_data(
const census_view *view);
/** Reset all view data to zero for the specified view */
CENSUS_API void census_view_reset(census_view *view);
#ifdef __cplusplus
}
#endif
#endif /* CENSUS_CENSUS_H */