MINOR: stats: create fields types suitable for all CSV output data
We're preparing for various data types for each stats field as they appear in the CSV output. For now we only cover the regular types handled by printf, so we have 32 and 64 bit ints and counters, strings, and of course "empty" to indicate that there's nothing in the field and which guarantees that any accessed entry will return 0. More types will surely come later so that some fields are properly represented. For example, we could see limits where only the value 0 doesn't show up, or human time, etc.
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@ -54,6 +54,181 @@ enum {
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#define STAT_SCOPE_INPUT_NAME "scope" /* pattern form scope name <input> in html form */
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#define STAT_SCOPE_INPUT_NAME "scope" /* pattern form scope name <input> in html form */
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#define STAT_SCOPE_PATTERN "?" STAT_SCOPE_INPUT_NAME "="
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#define STAT_SCOPE_PATTERN "?" STAT_SCOPE_INPUT_NAME "="
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/* This level of detail is needed to let the stats consumer know how to
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* aggregate them (eg: between processes or cluster nodes). Only a few
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* combinations are actually in use, though the mechanism tends to make
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* this easy to extend to future uses.
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*
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* Each reported stats element is typed based on 4 dimensions :
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* - the field format : it indicates the validity range of the reported value,
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* its limits and how to parse it. 6 types are currently supported :
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* empty, signed 32-bit integer, unsigned 32-bit integer, signed 64-bit
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* integer, unsigned 64-bit integer, string
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*
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* - the field origin : how was the value retrieved and what it depends on.
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* 5 origins are currently defined : product (eg: haproxy version or
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* release date), configuration (eg: a configured limit), key (identifier
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* used to group values at a certain level), metric (a measure of something),
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* status (something discrete which by definition cannot be averaged nor
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* aggregated, such as "listening" versus "full").
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*
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* - the field nature : what does the data represent, implying how to aggregate
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* it. At least 9 different natures are expected : counter (an increasing
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* positive counter that may wrap when its type is overflown such as a byte
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* counter), gauge (a measure at any instant that may vary, such as a
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* concurrent connection count), a limit (eg: maximum acceptable concurrent
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* connections), a minimum (eg: minimum free memory over a period), a
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* maximum (eg: highest queue length over a period), an event rate (eg:
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* incoming connections per second), a duration that is often aggregated by
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* taking the max (eg: service uptime), an age that generally reports the
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* last time an event appeared and which generally is aggregated by taking
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* the most recent event hence the smallest one, the time which reports a
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* discrete instant and cannot obviously be averaged either, a name which
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* will generally be the name of an entity (such as a server name or cookie
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* name), an output which is mostly used for various unsafe strings that are
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* retrieved (eg: last check output, product name, description, etc), and an
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* average which indicates that the value is relative and meant to be averaged
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* between all nodes (eg: response time, throttling, etc).
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*
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* - the field scope : if the value is shared with other elements, which ones
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* are expected to report the same value. The first scope with the least
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* share is the process (most common one) where all data are only relevant
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* to the process being consulted. The next one is the service, which is
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* valid for all processes launched together (eg: shared SSL cache usage
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* among processes). The next one is the system (such as the OS version)
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* and which will report the same information for all instances running on
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* the same node. The next one is the cluster, which indicates that the
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* information are shared with other nodes being part of a same cluster.
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* Stick-tables may carry such cluster-wide information. Larger scopes may
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* be added in the future such as datacenter, country, continent, planet,
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* galaxy, universe, etc.
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*
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* All these information will be encoded in the field as a bit field so that
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* it is easy to pass composite values by simply ORing elements above, and
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* to ease the definition of a few field types for the most common field
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* combinations.
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*
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* The enums try to be arranged so that most likely characteristics are
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* assigned the value zero, making it easier to add new fields.
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*
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* Field format has precedence over the other parts of the type. Please avoid
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* declaring extra formats unless absolutely needed. The first one, FF_EMPTY,
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* must absolutely have value zero so that it is what is returned after a
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* memset(0). Furthermore, the producer is responsible for ensuring that when
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* this format is set, all other bits of the type as well as the values in the
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* union only contain zeroes. This makes it easier for the consumer to use the
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* values as the expected type.
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*/
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enum field_format {
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FF_EMPTY = 0x00000000,
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FF_S32 = 0x00000001,
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FF_U32 = 0x00000002,
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FF_S64 = 0x00000003,
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FF_U64 = 0x00000004,
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FF_STR = 0x00000005,
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FF_MASK = 0x000000FF,
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};
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enum field_origin {
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FO_METRIC = 0x00000000,
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FO_STATUS = 0x00000100,
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FO_KEY = 0x00000200,
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FO_CONFIG = 0x00000300,
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FO_PRODUCT = 0x00000400,
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FO_MASK = 0x0000FF00,
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};
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enum field_nature {
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FN_GAUGE = 0x00000000,
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FN_LIMIT = 0x00010000,
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FN_MIN = 0x00020000,
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FN_MAX = 0x00030000,
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FN_RATE = 0x00040000,
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FN_COUNTER = 0x00050000,
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FN_DURATION = 0x00060000,
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FN_AGE = 0x00070000,
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FN_TIME = 0x00080000,
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FN_NAME = 0x00090000,
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FN_OUTPUT = 0x000A0000,
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FN_AVG = 0x000B0000,
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FN_MASK = 0x00FF0000,
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};
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enum field_scope {
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FS_PROCESS = 0x00000000,
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FS_SERVICE = 0x01000000,
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FS_SYSTEM = 0x02000000,
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FS_CLUSTER = 0x03000000,
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FS_MASK = 0xFF000000,
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};
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struct field {
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uint32_t type;
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union {
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int32_t s32; /* FF_S32 */
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uint32_t u32; /* FF_U32 */
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int64_t s64; /* FF_S64 */
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uint64_t u64; /* FF_U64 */
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const char *str; /* FF_STR */
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} u;
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};
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static inline enum field_format field_format(const struct field *f, int e)
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{
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return f[e].type & FF_MASK;
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}
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static inline enum field_origin field_origin(const struct field *f, int e)
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{
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return f[e].type & FO_MASK;
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}
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static inline enum field_scope field_scope(const struct field *f, int e)
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{
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return f[e].type & FS_MASK;
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}
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static inline enum field_nature field_nature(const struct field *f, int e)
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{
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return f[e].type & FN_MASK;
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}
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static inline const char *field_str(const struct field *f, int e)
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{
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return (field_format(f, e) == FF_STR) ? f[e].u.str : "";
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}
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static inline struct field mkf_s32(uint32_t type, int32_t value)
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{
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struct field f = { .type = FF_S32 | type, .u.s32 = value };
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return f;
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}
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static inline struct field mkf_u32(uint32_t type, uint32_t value)
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{
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struct field f = { .type = FF_U32 | type, .u.u32 = value };
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return f;
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}
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static inline struct field mkf_s64(uint32_t type, int64_t value)
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{
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struct field f = { .type = FF_S64 | type, .u.s64 = value };
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return f;
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}
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static inline struct field mkf_u64(uint32_t type, uint64_t value)
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{
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struct field f = { .type = FF_U64 | type, .u.u64 = value };
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return f;
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}
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static inline struct field mkf_str(uint32_t type, const char *value)
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{
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struct field f = { .type = FF_STR | type, .u.str = value };
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return f;
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}
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extern struct applet http_stats_applet;
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extern struct applet http_stats_applet;
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void stats_io_handler(struct stream_interface *si);
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void stats_io_handler(struct stream_interface *si);
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