Structured telemetry for Clojure/Script applications. See the GitHub page (esp. Wiki) for info on motivation and design: <https://www.taoensso.com/telemere>
Optional context (state) attached to all signals. Value may be any type, but is usually nil or a map. Default (root) value is nil. Useful for dynamically attaching arbitrary app-level state to signals. Re/bind dynamic value using `with-ctx`, `with-ctx+`, or `binding`. Modify root (default) value using `set-ctx!`. As with all dynamic Clojure vars, "binding conveyance" applies when using futures, agents, etc. Tips: - Value may be (or may contain) an atom if you want mutable semantics. - Value may be of form {<scope-id> <data>} for custom scoping, etc. - Use `get-env` to set default (root) value based on environmental config.
Optional (fn [signal]) => ?modified-signal to apply to all signals. When middleware returns nil, skips all handlers. Default (root) value is nil. Useful for dynamically transforming signals and/or filtering signals by signal data/content/etc. Re/bind dynamic value using `with-middleware`, `with-middleware+`, `binding`. Modify root (default) value using `set-middleware!`. As with all dynamic Clojure vars, "binding conveyance" applies when using futures, agents, etc. Examples: ;; Filter all signals by returning nil: (t/set-middleware! (fn [signal] (when-not (:skip-me? signal) signal))) ;; Remove key/s from all signals: (t/set-middleware! (fn [signal] (dissoc signal :unwanted-key1 ...))) ;; Remove key/s from signals to specific handler: (t/add-handler! ::my-handler my-handler {:middleware (fn [signal] (dissoc signal :unwanted-key1 ...))}) ;; Set middleware for specific signal/s: (binding [*middleware* (fn [signal] ...)] (...)) Tips: - Compose multiple middleware fns together with `comp-middleware`. - Use `get-env` to set default (root) value based on environmental config.
Experimental, subject to change. Feedback welcome! OpenTelemetry `Tracer` to use for Telemere's tracing signal creators (`trace!`, `span!`, etc.), ∈ #{nil io.opentelemetry.api.trace.Tracer Delay}. Defaults to the provider in `otel-default-providers_`. See also `otel-tracing?`.
Experimental, subject to change. Feedback welcome! (fn [root?]) used to generate signal `:uid` values (unique instance ids) when tracing. Relevant only when `otel-tracing?` is false. If `otel-tracing?` is true, uids are instead generated by `*otel-tracer*`. `root?` argument is true iff signal is a top-level trace (i.e. form being traced is unnested = has no parent form). Root-level uids typically need more entropy and so are usually longer (e.g. 32 vs 16 hex chars). Override default by setting one of the following: JVM property: `taoensso.telemere/uid-fn` Env variable: `TAOENSSO_TELEMERE_UID_FN` Classpath resource: `taoensso.telemere/uid-fn` Possible (compile-time) values include: `:uuid` - UUID string (Cljs) or `java.util.UUID` (Clj) `:uuid-str` - UUID string (36/36 chars) `:nano/secure` - nano-style string (21/10 chars) w/ strong RNG `:nano/insecure` - nano-style string (21/10 chars) w/ fast RNG (default) `:hex/insecure` - hex-style string (32/16 chars) w/ strong RNG `:hex/secure` - hex-style string (32/16 chars) w/ fast RNG
(add-handler! handler-id handler-fn)
(add-handler! handler-id handler-fn dispatch-opts)
Registers given signal handler and returns {<handler-id> {:keys [dispatch-opts handler-fn]}} for all handlers now registered. If an old handler already existed under the same id, stop it. `handler-fn` should be a fn of exactly 2 arities: [signal] ; Single argument Called asynchronously or synchronously (depending on dispatch options) to do something useful with the given signal. Example actions: Save data to disk or db, `tap>`, log, `put!` to an appropriate `core.async` channel, filter, aggregate, use for a realtime analytics dashboard, examine for outliers or unexpected data, etc. [] ; No arguments Called exactly once when stopping handler to provide an opportunity for handler to flush buffers, close files, etc. May just noop. NB you should always call `stop-handlers!` somewhere appropriate - usually near the end of your `-main` or shutdown procedure, AFTER all other code has completed that could create signals. See `help:handler-dispatch-options` for handler filters, etc.
(call-on-shutdown! f)
Registers given nullary fn as a JVM shutdown hook. (f) will be called sometime during shutdown. While running, it will attempt to block shutdown.
(catch->error! form)
(catch->error! id form)
(catch->error! {:as opts
:keys [rethrow? catch-val elidable? location inst uid middleware
middleware+ sample-rate kind ns id level when rate-limit
rate-limit-by ctx ctx+ parent root trace? do let data msg
error & kvs]}
form)
Unconditionally executes given form and- If form succeeds: return the form's result. If form throws: Call `error!` with the thrown error and the given signal options [2], then return (:catch-val opts) if it exists, or rethrow the error. API: [form] [id-or-opts form] => form's result (value/throw) (unconditional), or (:catch-val opts) Default kind: `:error` Default level: `:error` Examples: (catch->error! (/ 1 0)) ; %> {:kind :error, :level :error, :error <caught> ...} (catch->error! ::my-id (/ 1 0)) ; %> {... :id ::my-id ...} (catch->error! {:let [x "x"] ; Available to `:data` and `:msg` :data {:x x} :msg ["My msg:" x my-error] :catch-val "Return value when form throws" :catch-sym my-error ; Sym of caught error, available to `:data` and `:msg` } (/ 1 0)) ; %> {... :data {x "x"}, :msg_ "My msg: x <caught>" ...} Tips: - Test using `with-signal`: (with-signal (catch->error! ...)). - Supports the same options [2] as other signals [1]. - Useful for preventing errors from going unnoticed in futures, callbacks, agent actions, etc.!: (future (catch->error ::my-future (do-something))) See also `error!`. ---------------------------------------------------------------------- [1] See `help:signal-creators` - (`signal!`, `log!`, `event!`, ...) [2] See `help:signal-options` - {:keys [kind level id data ...]} [3] See `help:signal-content` - {:keys [kind level id data ...]} [4] See `help:signal-filters` - (by ns/kind/id/level, sampling, etc.)
(check-interop)
Experimental, subject to change. Runs Telemere's registered interop checks and returns info useful for tests/debugging, e.g.: {:open-telemetry {:present? false} :tools-logging {:present? false} :slf4j {:present? true :sending->telemere? true :telemere-receiving? true} ...}
(clean-signal-fn)
(clean-signal-fn {:keys [incl-kvs? incl-nils? incl-keys] :as opts})
Experimental, subject to change. Returns a (fn clean [signal]) that: - Takes a Telemere signal (map). - Returns a minimal signal (map) ready for printing, etc. Signals are optimized for cheap creation and easy handling, so tend to be verbose and may contain things like nil values and duplicated content. This util efficiently cleans signals of such noise, helping reduce storage/transmission size, and making key info easier to see. Options: `:incl-nils?` - Include signal's keys with nil values? (default false) `:incl-kvs?` - Include signal's app-level root kvs? (default false) `:incl-keys` - Subset of signal keys to retain from those otherwise excluded by default: #{:location :kvs :file :host :thread}
(comp-middleware fs)
(comp-middleware f1 f2)
(comp-middleware f1 f2 f3)
(comp-middleware f1 f2 f3 & fs)
Returns a single (composite) unary fn that applies all given unary fns sequentially (left->right!: f1, f2, ...). If any given fn returns nil, the returned composite fn immediately returns nil: ((comp-middleware inc #(* % 2) inc) 1) => 5 ; (inc (* (inc 1) 2)) ((comp-middleware inc (fn [_] nil) (fn [_] (throw (Exception. "Never thrown!")))) 1) => nil Useful for composing Ring-style middleware fns.
Default handler dispatch options, see `help:handler-dispatch-options` for details.
(dispatch-signal! signal)
Dispatches given signal to registered handlers, supports `with-signal/s`. Normally called automatically (internally) by signal creators, this util is provided publicly since it's also handy for manually re/dispatching custom/modified signals, etc.: (let [original-signal (with-signal :trap (event! ::my-id1)) modified-signal (assoc original-signal :id ::my-id2)] (dispatch-signal! modified-signal))
(error! error)
(error! id error)
(error! {:as opts
:keys [elidable? location inst uid middleware middleware+ sample-rate
kind ns id level when rate-limit rate-limit-by ctx ctx+ parent
root trace? do let data msg error & kvs]}
error)
"Error" signal creator, emphasizing error + id. API: [error] [id-or-opts error] => given error (unconditional) Default kind: `:error` Default level: `:error` Examples: (throw (error! (ex-info "MyEx" {}))) ; %> {:kind :error, :level :error, :error <MyEx> ...} (throw (error! ::my-id (ex-info "MyEx" {}))) ; %> {... :id ::my-id ...} (throw (error! {:let [x "x"] ; Available to `:data` and `:msg` :data {:x x} :msg ["My message:" x]} (ex-info "MyEx" {}))) ; %> {... :data {x "x"}, :msg_ "My msg: x" ...} Tips: - Test using `with-signal`: (with-signal (error! ...)). - Supports the same options [2] as other signals [1]. - `error` arg is a platform error (`java.lang.Throwable` or `js/Error`). - Can conveniently be wrapped by `throw`: (throw (error! ...)). ---------------------------------------------------------------------- [1] See `help:signal-creators` - (`signal!`, `log!`, `event!`, ...) [2] See `help:signal-options` - {:keys [kind level id data ...]} [3] See `help:signal-content` - {:keys [kind level id data ...]} [4] See `help:signal-filters` - (by ns/kind/id/level, sampling, etc.)
(error-signal? signal)
Experimental, subject to change. Returns true iff given signal has an `:error` value, or a `:kind` or `:level` that indicates that it's an error.
(event! id)
(event! id level)
(event! id
{:as opts
:keys [elidable? location inst uid middleware middleware+ sample-rate
kind ns id level when rate-limit rate-limit-by ctx ctx+ parent
root trace? do let data msg error & kvs]})
"Event" signal creator, emphasizing id + level. API: [id] [id level-or-opts] => true iff signal was allowed Default kind: `:event` Default level: `:info` When filtering conditions are met [4], creates a Telemere signal [3] and dispatches it to registered handlers for processing (e.g. writing to console/file/queue/db, etc.). Examples: (event! ::my-id) ; %> {:kind :event, :level :info, :id ::my-id ...} (event! ::my-id :warn) ; %> {... :level :warn ...} (event! ::my-id {:let [x "x"] ; Available to `:data` and `:msg` :data {:x x} :msg ["My msg:" x]}) ; %> {... :data {x "x"}, :msg_ "My msg: x" ...} Tips: - Test using `with-signal`: (with-signal (event! ...)). - Supports the same options [2] as other signals [1]. - `log!` and `event!` are both good default/general-purpose signal creators. - `log!` emphasizes messages, while `event!` emphasizes ids. - Has a different 2-arity arg order to all other signals! Mnemonic: the arg that's typically larger is *always* in the rightmost position, and for `event!` that's the `level-or-opts` arg. ---------------------------------------------------------------------- [1] See `help:signal-creators` - (`signal!`, `log!`, `event!`, ...) [2] See `help:signal-options` - {:keys [kind level id data ...]} [3] See `help:signal-content` - {:keys [kind level id data ...]} [4] See `help:signal-filters` - (by ns/kind/id/level, sampling, etc.)
(format-signal-fn)
(format-signal-fn {:keys [incl-newline? preamble-fn content-fn]
:or {incl-newline? true
preamble-fn (signal-preamble-fn)
content-fn (signal-content-fn)}})
Experimental, subject to change. Returns a (fn format [signal]) that: - Takes a Telemere signal (map). - Returns a human-readable signal string. Options: `:incl-newline?` - Include terminating system newline? (default true) `:preamble-fn` - (fn [signal]) => signal preamble string, see [1] `:content-fn` - (fn [signal]) => signal content string, see [2] [1] `taoensso.telemere.utils/signal-preamble-fn`, etc. [2] `taoensso.telemere.utils/signal-content-fn`, etc. See also `pr-signal-fn` for an alternative to `format-signal-fn` that produces machine-readable output (edn, JSON, etc.).
(get-env {:keys [as default return] :or {as :str return :value}} spec)
Flexible cross-platform util to return an environmental config value. Given an id (const keyword/string) or vector of desc-priority alternative ids, parse and return the first of the following that exists: - JVM property value for id - Environment variable value for id - Classpath resource content for id Ids may include optional segment in `<>` tag (e.g. `<.edn>`). Ids may include `<.?platform.?>` tag for auto replacement: `<.platform>` => ".clj" / ".cljs" `<platform->` => "clj-" / "cljs-", etc. Search order: desc by combined [alt-index platform(y/n) optional(y/n)]. So (get-env {:as :edn} [:my-app/alt1<.platform><.edn> :my-app/alt2]) will parse and return the first of the following that exists: 1. Alt1 +platform +optional (optional .edn suffix) 1a. `my-app.alt1.clj.edn` JVM property value 1b. `MY_APP_ALT1_CLJ_EDN` environment variable value 1c. `my-app.alt1.clj.edn` classpath resource content 2. Alt1 +platform -optional (optional .edn suffix) 2a. `my-app.alt1.clj` JVM property value 2b. `MY_APP_ALT1_CLJ` environment variable value 2c. `my-app.alt1.clj` classpath resource content 3. Alt1 -platform +optional (optional .edn suffix) 3a. `my-app.alt1.edn` JVM property value 3b. `MY_APP_ALT1_EDN` environment variable value 3c. `my-app.alt1.edn` classpath resource content 4. Alt1 -platform -optional (optional .edn suffix) 4a. `my-app.alt1` JVM property value 4b. `MY_APP_ALT1` environment variable value 4c. `my-app.alt1` classpath resource content 5. Alt2 5a. `my-app.alt2` JVM property value 5b. `MY_APP_ALT2` environment variable value 5c. `my-app.alt2` classpath resource content Options: `:as` - Parse found value as given type ∈ #{:str :bool :edn} (default `:str`). `:default` - Fallback to return unparsed if no value found during search (default `nil`). `:return` - Return type ∈ #{:value :map :explain} (default `:value`). For Cljs: resulting config value must be something that can be safely embedded in code during macro expansion! Advanced: if resulting config value is a single top-level symbol, it will be evaluated during macro expansion. TIP!: Use the {:return :explain} option in tests or at the REPL to verify/inspect resulting config value, config source, and specific search order of prop/env/res ids.
(get-handlers)
Returns ?{<handler-id> {:keys [dispatch-opts handler-fn handler-stats_]}} for all registered signal handlers.
(get-handlers-stats)
Alpha, subject to change. Returns ?{<handler-id> {:keys [handling-nsecs counts]}} for all registered signal handlers that have the `:track-stats?` dispatch option enabled (it is by default). Stats include: `:handling-nsecs` - Summary stats of nanosecond handling times, keys: `:min` - Minimum handling time `:max` - Maximum handling time `:mean` - Arithmetic mean handling time `:mad` - Mean absolute deviation of handling time (measure of dispersion) `:var` - Variance of handling time (measure of dispersion) `:p50` - 50th percentile of handling time (50% of times <= this) `:p90` - 90th percentile of handling time (90% of times <= this) `:p99` - 99th percentile of handling time `:last` - Most recent handling time ... `:counts` - Integer counts for handler outcomes, keys (chronologically): `:dropped` - Noop handler calls due to stopped handler `:back-pressure` - Handler calls that experienced (async) back-pressure (possible noop, depending on back-pressure mode) `:sampled` - Noop handler calls due to sample rate `:filtered` - Noop handler calls due to kind/ns/id/level/when filtering `:rate-limited` - Noop handler calls due to rate limit `:disallowed` - Noop handler calls due to sampling/filtering/rate-limiting `:allowed` - Other handler calls (no sampling/filtering/rate-limiting) `:suppressed` - Noop handler calls due to nil middleware result `:handled` - Handler calls that completed successfully `:errors` - Handler calls that threw an error Note that for performance reasons returned counts are not mutually atomic, e.g. `:sampled` count may be incremented before `:disallowed` count is. Useful for understanding/debugging how your handlers behave in practice, especially when they're under stress (high-volumes, etc.). Handler stats are tracked from the time each handler is last registered (e.g. with an `add-handler!` call).
(get-min-levels)
(get-min-levels kind)
(get-min-levels kind ns)
Returns current ?{:keys [compile-time runtime]} minimum signal levels.
(handler:console)
(handler:console {:keys [stream output-fn]
:or {stream :auto output-fn (utils/format-signal-fn)}})
Experimental, subject to change. Returns a signal handler that: - Takes a Telemere signal (map). - Writes the signal as a string to specified stream. A general-purpose `println`-style handler that's well suited for outputting signals as human or machine-readable (edn, JSON) strings. Options: `:output-fn` - (fn [signal]) => string, see `format-signal-fn` or `pr-signal-fn` `:stream` - `java.io.writer` Defaults to `*err*` if `utils/error-signal?` is true, and `*out*` otherwise.
(handler:console)
(handler:console {:keys [output-fn] :or {output-fn (utils/format-signal-fn)}})
Experimental, subject to change. If `js/console` exists, returns a signal handler that: - Takes a Telemere signal (map). - Writes the signal as a string to JavaScript console. A general-purpose `println`-style handler that's well suited for outputting signals as human or machine-readable (edn, JSON) strings. Options: `:output-fn` - (fn [signal]) => string, see `format-signal-fn` or `pr-signal-fn`
(handler:console-raw)
(handler:console-raw {:keys [preamble-fn format-nsecs-fn]
:as opts
:or {preamble-fn (utils/signal-preamble-fn)
format-nsecs-fn (utils/format-nsecs-fn)}})
Experimental, subject to change. If `js/console` exists, returns a signal handler that: - Takes a Telemere signal (map). - Writes the raw signal to JavaScript console. Intended for use with browser formatting tools like `binaryage/devtools`, Ref. <https://github.com/binaryage/cljs-devtools>. Options: `:preamble-fn` - (fn [signal]) => string, see [1]. `:format-nsecs-fn` - (fn [nanosecs]) => string. [1] `taoensso.telemere.utils/signal-preamble-fn`, etc.
(handler:file)
(handler:file {:keys [output-fn path interval max-file-size max-num-parts
max-num-intervals gzip-archives?]
:or {output-fn (utils/format-signal-fn)
path "logs/telemere.log"
interval :monthly
max-file-size (* 1024 1024 4)
max-num-parts 8
max-num-intervals 6
gzip-archives? true}})
Experimental, subject to change. Returns a signal handler that: - Takes a Telemere signal (map). - Writes (appends) the signal as a string to file specified by `path`. Depending on options, archives may be maintained: - `logs/app.log.n.gz` (for nil `:interval`, non-nil `:max-file-size`) - `logs/app.log-YYYY-MM-DDd.n.gz` (for non-nil `:interval`) ; d=daily/w=weekly/m=monthly Can output signals as human or machine-readable (edn, JSON) strings. Example files with default options: `/logs/telemere.log` ; Current file `/logs/telemere.log-2020-01-01m.1.gz` ; Archive for Jan 2020, part 1 (newest entries) ... `/logs/telemere.log-2020-01-01m.8.gz` ; Archive for Jan 2020, part 8 (oldest entries) Options: `:output-fn`- (fn [signal]) => string, see `format-signal-fn` or `pr-signal-fn` `:path` - Path string of the target output file (default `logs/telemere.log`) `:interval` - ∈ #{nil :daily :weekly :monthly} (default `:monthly`) When non-nil, causes interval-based archives to be maintained. `:max-file-size` ∈ #{nil <pos-int>} (default 4MB) When `path` file size > ~this many bytes, rotates old content to numbered archives. `:max-num-parts` ∈ #{nil <pos-int>} (default 8) Maximum number of numbered archives to retain for any particular interval. `:max-num-intervals` ∈ #{nil <pos-int>} (default 6) Maximum number of intervals (days/weeks/months) to retain.
Telemere supports extensive environmental config via JVM properties, environment variables, or classpath resources. Environmental filter config includes: Kind filter: JVM property: `taoensso.telemere.rt-kind-filter` Env variable: `TAOENSSO_TELEMERE_RT_KIND_FILTER` Classpath resource: `taoensso.telemere.rt-kind-filter` Namespace filter: JVM property: `taoensso.telemere.rt-ns-filter` Env variable: `TAOENSSO_TELEMERE_RT_NS_FILTER` Classpath resource: `taoensso.telemere.rt-ns-filter` Id filter: JVM property: `taoensso.telemere.rt-id-filter` Env variable: `TAOENSSO_TELEMERE_RT_ID_FILTER` Classpath resource: `taoensso.telemere.rt-id-filter` Minimum level: JVM property: `taoensso.telemere.rt-min-level` Env variable: `TAOENSSO_TELEMERE_RT_MIN_LEVEL` Classpath resource: `taoensso.telemere.rt-min-level` Values are edn, examples: `taoensso.telemere.rt-min-level` -> ":info" `TAOENSSO_TELEMERE_RT_NS_FILTER` -> "{:disallow \"taoensso.*\"}" `taoensso.telemere.rt-id-filter.cljs` -> "#{:my-id1 :my-id2}" `TAOENSSO_TELEMERE_RT_KIND_FILTER_CLJ` -> "nil" For other (non-filter) environmental config, see the relevant docstrings. Tips: - The above ids are for runtime filters (the most common). For compile-time filters, change `rt`->`ct` / `RT`->`CT`. - The above ids will affect both Clj AND Cljs. For platform-specific filters, use ".clj.edn" / "_CLJ_EDN" or ".cljs.edn" / "_CLJS_EDN" suffixes instead. - Optional ".edn" / "_EDN" suffixes may be added for clarity. - To get the right edn syntax, first set your runtime filters using the standard utils (`set-min-level!`, etc.). Then call `get-filters` and serialize the relevant parts to edn with `pr-str`. - All environmental config uses `get-env` underneath. See the `get-env` docstring for more/advanced details. - Classpath resources are files accessible on your project's classpath. This usually includes files in your project's `resources/` dir.
A signal will be provided to a handler iff ALL of the following are true: 1. Signal creation is allowed by "signal filters": a. Compile-time: sample rate, kind, ns, id, level, when form, rate limit b. Runtime: sample rate, kind, ns, id, level, when form, rate limit 2. Signal handling is allowed by "handler filters": a. Compile-time: not applicable b. Runtime: sample rate, kind, ns, id, level, when fn, rate limit 3. Signal middleware (fn [signal]) => ?modified-signal does not return nil 4. Handler middleware (fn [signal]) => ?modified-signal does not return nil Note that middleware provides a flexible way to filter signals by arbitrary signal data/content conditions (return nil to filter signal). Config: To set signal filters (1a, 1b): Use: `set-kind-filter!`, `with-kind-filter` `set-ns-filter!`, `with-ns-filter` `set-id-filter!`, `with-id-filter` `set-min-level!`, `with-min-level` or see `help:environmental-config`. To set handler filters (2b) or handler middleware (4): Provide relevant opts when calling `add-handler!` or `with-handler/+`. See `help:handler-dispatch-options` for details. Note: signal filters (1a, 1b) should generally be AT LEAST as permissive as handler filters (2b), otherwise signals will be filtered before even reaching handlers. To set signal middleware (3): use `set-middleware!`, `with-middleware` Compile-time vs runtime filters: Compile-time filters are an advanced feature that can be tricky to set and use correctly. Most folks will want ONLY runtime filters. Compile-time filters works by eliding (completely removing the code for) disallowed signals. This means zero performance cost for these signals, but also means that compile-time filters are PERMANENT once applied. So if you set `:info` as the compile-time minimum level, that'll REMOVE CODE for every signal below `:info` level. To decrease that minimum level, you'll need to rebuild. Compile-time filters can be set ONLY with environmental config (see `help:environmental-config` for details). Signal and handler sampling is multiplicative: Both signals and handlers can have independent sample rates, and these MULTIPLY! If a signal is created with 20% sampling and a handler handles 50% of received signals, then 10% of possible signals will be handled (50% of 20%). The final (multiplicative) rate is helpfully reflected in each signal's `:sample-rate` value. For more info: - On signal filters, see: `help:filters` - On handler filters, see: `help:handler-dispatch-options` If anything is unclear, please ping me (@ptaoussanis) so that I can improve these docs!
Dispatch options can be provided for each signal handler when calling `add-handler!` or `with-handler/+`. These options will be merged over the defaults specified by `default-handler-dispatch-opts`. All handlers support the same dispatch options, including: `:async` (Clj only) - may be `nil` (synchronous) or map with options: `:buffer-size` (default 1024) Size of request buffer, and the max number of pending requests before configured back-pressure behaviour is triggered (see `:mode`). `:mode` (default `:blocking`) Back-pressure mode ∈ #{:blocking :dropping :sliding}. Controls what happens when a new request is made while request buffer is full: `:blocking` => Blocks caller until buffer space is available `:dropping` => Drops the newest request (noop) `:sliding` => Drops the oldest request `:n-threads` (default 1) Number of threads to use for executing fns (servicing request buffer). NB execution order may be non-sequential when n > 1. `:drain-msecs` (default 6000 msecs) Maximum time (in milliseconds) to try allow pending execution requests to complete when stopping handler. nil => no maximum. `:priority` (default 100) Optional handler priority ∈ℤ. Handlers will be called in descending priority order (larger ints first). `:track-stats?` (default true) Should handler track statistics (e.g. handling times) for reporting by `get-handlers-stats`? `:sample-rate` (default nil => no sampling) Optional sample rate ∈ℝ[0,1], or (fn dyamic-sample-rate []) => ℝ[0,1]. When present, handle only this (random) proportion of args: 1.0 => handle every arg (same as nil rate, default) 0.0 => noop every arg 0.5 => handle random 50% of args `:kind-filter` - Kind filter as in `set-kind-filter!` (when relevant) `:ns-filter` - Namespace filter as in `set-ns-filter!` `:id-filter` - Id filter as in `set-id-filter!` (when relevant) `:min-level` - Minimum level as in `set-min-level!` `:when-fn` (default nil => always allow) Optional nullary (fn allow? []) that must return truthy for handler to be called. When present, called *after* sampling and other filters, but before rate limiting. Useful for filtering based on external state/context. See `:middleware` for an alternative that takes a signal argument. `:rate-limit` (default nil => no rate limit) Optional rate limit spec as provided to `taoensso.encore/rate-limiter`, {<limit-id> [<n-max-calls> <msecs-window>]}. Examples: {"1/sec" [1 1000]} => Max 1 call per 1000 msecs {"1/sec" [1 1000] "10/min" [10 60000]} => Max 1 call per 1000 msecs, and 10 calls per 60 secs `:middleware` (default nil => no middleware) Optional (fn [signal]) => ?modified-signal to apply before handling signal. When middleware returns nil, skips handler. Compose multiple middleware fns together with `comp-middleware`. `:error-fn` - (fn [{:keys [handler-id signal error]}]) to call on handler error. `:backp-fn` - (fn [{:keys [handler-id ]}]) to call on handler back-pressure. If anything is unclear, please ping me (@ptaoussanis) so that I can improve these docs!
Signal handlers process created signals to do something with them (analyse them, write them to console/file/queue/db, etc.). Manage handlers with: `get-handlers` - Returns info on registered handlers (dispatch options, etc.) `get-handlers-stats` - Returns stats for registered handlers (handling times, etc.) `add-handler!` - Registers given handler `remove-handler!` - Unregisters given handler `with-handler` - Executes form with ONLY the given handler registered `with-handler+` - Executes form with the given handler (also) registered `stop-handlers!` - Stops registered handlers NB you should always call `stop-handlers!` somewhere appropriate - usually near the end of your `-main` or shutdown procedure, AFTER all other code has completed that could create signals. See the relevant docstrings for details. See `help:handler-dispatch-options` for handler filters, etc. If anything is unclear, please ping me (@ptaoussanis) so that I can improve these docs!
Signals are maps with {:keys [inst id ns level data msg_ ...]}, though they can be modified by signal and/or handler middleware. Default signal keys: `:schema` ------ Int version of signal schema (current: 1) `:inst` -------- Platform instant [1] when signal was created `:level` ------- Signal level ∈ #{<int> :trace :debug :info :warn :error :fatal :report ...} `:kind` -------- Signal ?kind ∈ #{nil :event :error :log :trace :spy :slf4j :tools-logging <app-val> ...} `:id` ---------- ?id of signal (common to all signals created at callsite, contrast with `:uid`) `:uid` --------- ?id of signal instance (unique to each signal created at callsite when tracing, contrast with `:id`) `:msg_` -------- Arb app-level message ?str given to signal creator - may be a delay, always use `force` to unwrap! `:data` -------- Arb app-level data ?val (usu. a map) given to signal creator `:error` ------- Arb app-level platform ?error [2] given to signal creator `:run-form` ---- Unevaluated ?form given to signal creator as `:run` `:run-val` ----- Successful return ?val of `:run` ?form `:run-nsecs` --- ?int nanosecs runtime of `:run` ?form `:end-inst` ---- Platform ?instant [1] when `:run` ?form completed `:ctx` --------- ?val of `*ctx*` (arb app-level state) when signal was created `:parent` ------ ?{:keys [id uid]} of parent signal, present in nested signals when tracing `:root` -------- ?{:keys [id uid]} of root signal, present in nested signals when tracing `:location` ---- ?{:keys [ns file line column]} signal creator callsite `:ns` ---------- ?str namespace of signal creator callsite, same as (:ns location) `:line` -------- ?int line of signal creator callsite, same as (:line location) `:column` ------ ?int column of signal creator callsite, same as (:column location) `:file` -------- ?str filename of signal creator callsite, same as (:file location) `:host` -------- (Clj only) {:keys [name ip]} info for network host `:thread` ------ (Clj only) {:keys [name id group]} info for thread that created signal `:sample-rate` - ?rate ∈ℝ[0,1] for combined signal AND handler sampling (0.75 => allow 75% of signals, nil => allow all) <kvs> ---------- Other arb app-level ?kvs given to signal creator. Typically NOT included in handler output, so a great way to provide custom data/opts for use (only) by custom middleware/handlers. If anything is unclear, please ping me (@ptaoussanis) so that I can improve these docs! [1] `java.time.Instant` or `js/Date` [2] `java.lang.Throwable` or `js/Error`
Call a Telemere signal creator to conditionally create a signal at that callsite. When filtering conditions are met [4], the call creates a Telemere signal [3] and dispatches it to registered handlers for processing (e.g. writing to console/file/queue/db, etc.). Telemere doesn't make a hard distinction between different kinds of signals (log, event, error, etc.) - they're all just plain Clojure/Script maps with various keys: - All signal creators offer the same options [2], and - All signal kinds can contain the same content [3] Creators vary only in in their default options and call APIs (expected args and return values), making them more/less convenient for certain use cases: `event!` -------- [id ] or [id opts/level] => true iff signal was created (allowed) `log!` ---------- [msg ] or [opts/level msg] => true iff signal was created (allowed) `error!` -------- [error] or [opts/id error] => given error (unconditional) `trace!` -------- [form ] or [opts/id form] => form result (value/throw) (unconditional) `spy!` ---------- [form ] or [opts/level form] => form result (value/throw) (unconditional) `catch->error!` - [form ] or [opts/id form] => form value, or given fallback `signal!` ------- [opts ] => depends on options - `log!` and `event!` are both good default/general-purpose signal creators. - `log!` emphasizes messages, while `event!` emphasizes ids. - `signal!` is the generic creator, and is used by all the others. ---------------------------------------------------------------------- [2] See `help:signal-options` - {:keys [kind level id data ...]} [3] See `help:signal-content` - {:keys [kind level id data ...]} [4] See `help:signal-filters` - (by ns/kind/id/level, sampling, etc.)
Signal options (shared by all signal creators): `:inst` -------- Platform instant [1] when signal was created, ∈ #{nil :auto <[1]>} `:level` ------- Signal level ∈ #{<int> :trace :debug :info :warn :error :fatal :report ...} `:kind` -------- Signal ?kind ∈ #{nil :event :error :log :trace :spy <app-val> ...} `:id` ---------- ?id of signal (common to all signals created at callsite, contrast with `:uid`) `:uid` --------- ?id of signal instance (unique to each signal created at callsite, contrast with `:id`) Defaults to `:auto` for tracing signals, and nil otherwise `:msg` --------- Arb app-level ?message to incl. in signal: str or vec of strs to join (with `\space`), may be a delay `:data` -------- Arb app-level ?data to incl. in signal: usu. a map `:error` ------- Arb app-level ?error to incl. in signal: platform error [2] `:run` --------- ?form to execute UNCONDITIONALLY; will incl. `:run-val` in signal `:do` ---------- ?form to execute conditionally (iff signal allowed), before establishing `:let` ?binding `:let` --------- ?bindings to establish conditionally (iff signal allowed), BEFORE evaluating `:data` and `:msg` (useful!) `:parent` ------ Custom ?{:keys [id uid]} to override auto (dynamic) parent signal tracing info `:root` -------- Custom ?{:keys [id uid]} to override auto (dynamic) root signal tracing info `:location` ---- Custom ?{:keys [ns line column file]} to override auto signal creator callsite location `:ctx` --------- Custom ?val to override auto (dynamic `*ctx*`) in signal, as per `with-ctx` `:ctx+` -------- Custom ?val to update auto (dynamic `*ctx*`) in signal, as per `with-ctx+` `:elidable?` --- Should signal be subject to compile-time elision? (Default: true) `:sample-rate` - ?rate ∈ℝ[0,1] for signal sampling (0.75 => allow 75% of signals, nil => allow all) `:when` -------- Arb ?form; when present, form must return truthy to allow signal `:rate-limit` -- ?spec as given to `taoensso.telemere/rate-limiter`, see its docstring for details `:rate-limit-by` When present, rate limits will be enforced independently for each id (any Clojure value!) `:middleware` -- Optional (fn [signal]) => ?modified-signal to apply when signal is created, as per `with-middleware` `:middleware+` - Optional (fn [signal]) => ?modified-signal to apply when signal is created, as per `with-middleware+` `:trace?` ------ Should tracing be enabled for `:run` form? <kvs> ---------- Other arb app-level ?kvs to incl. in signal. Typically NOT included in handler output, so a great way to provide custom data/opts for use (only) by custom middleware/handlers. If anything is unclear, please ping me (@ptaoussanis) so that I can improve these docs! [1] `java.time.Instant` or `js/Date` [2] `java.lang.Throwable` or `js/Error`
(log! msg)
(log! level msg)
(log! {:as opts
:keys [elidable? location inst uid middleware middleware+ sample-rate
kind ns id level when rate-limit rate-limit-by ctx ctx+ parent
root trace? do let data msg error & kvs]}
msg)
"Log" signal creator, emphasizing message + level. API: [msg] [level-or-opts msg] => true iff signal was allowed. Default kind: `:log` Default level: `:info` When filtering conditions are met [4], creates a Telemere signal [3] and dispatches it to registered handlers for processing (e.g. writing to console/file/queue/db, etc.). Examples: (log! "My msg") ; %> {:kind :log, :level :info, :id ::my-id ...} (log! :warn "My msg") ; %> {... :level :warn ...} (log! {:let [x "x"] ; Available to `:data` and `:msg` :data {:x x}} ["My msg:" x]) ; %> {... :data {x "x"}, :msg_ "My msg: x" ...} Tips: - Test using `with-signal`: (with-signal (log! ...)). - Supports the same options [2] as other signals [1]. - `log!` and `event!` are both good default/general-purpose signal creators. - `log!` emphasizes messages, while `event!` emphasizes ids. - `msg` arg may be a string, or vector of strings to join with `\space`. - See also `msg-splice`, `msg-skip` utils. ---------------------------------------------------------------------- [1] See `help:signal-creators` - (`signal!`, `log!`, `event!`, ...) [2] See `help:signal-options` - {:keys [kind level id data ...]} [3] See `help:signal-content` - {:keys [kind level id data ...]} [4] See `help:signal-filters` - (by ns/kind/id/level, sampling, etc.)
For use within signal message vectors. Special value that will be ignored (noop) when creating message. Useful for conditionally skipping parts of message content, etc.: (signal! {:msg ["Hello" (if <cond> <then> msg-skip) "world"] <...>}) or (log! ["Hello" (if <cond> <then> msg-skip) "world"]), etc. %> {:msg_ "Hello world" <...>}
(msg-splice args)
For use within signal message vectors. Wraps given arguments so that they're spliced when creating message. Useful for conditionally splicing in extra message content, etc.: (signal! {:msg [(when <cond> (msg-splice ["Username:" "Steve"])) <...>]}) or (log! [(when <cond> (msg-splice ["Username:" "Steve"]))]) %> {:msg_ "Username: Steve"}
Experimental, subject to change. Feedback welcome! When OpenTelemetry Java API [1] is present, value will be a delayed map with keys: :logger-provider - default `io.opentelemetry.api.logs.LoggerProvider` :tracer-provider - default `io.opentelemetry.api.trace.TracerProvider` :via - ∈ #{:sdk-extension-autoconfigure :global} :auto-configured-sdk - `io.opentelemetry.sdk.OpenTelemetrySdk` or nil Uses `AutoConfiguredOpenTelemetrySdk` when possible, or `GlobalOpenTelemetry` otherwise. See the relevant OpenTelemetry Java docs for details. [1] Ref. <https://github.com/open-telemetry/opentelemetry-java>
Experimental, subject to change. Feedback welcome! Should Telemere's tracing signal creators (`trace!`, `spy!`, etc.) interop with OpenTelemetry Java [1]? This will affect relevant Telemere macro expansions. Defaults to `true` iff OpenTelemetry Java is present when this namespace is evaluated/compiled. If `false`: 1. Telemere's OpenTelemetry handler will NOT emit to `SpanExporter`s. 2. Telemere and OpenTelemetry will NOT recognize each other's spans. If `true`: 1. Telemere's OpenTelemetry handler WILL emit to `SpanExporter`s. 2. Telemere and OpenTelemetry WILL recognize each other's spans. Override default by setting one of the following to "true" or "false": JVM property: `taoensso.telemere.otel-tracing` Env variable: `TAOENSSO_TELEMERE_otel-tracing` Classpath resource: `taoensso.telemere.otel-tracing` See also: `otel-default-providers_`, `*otel-tracer*`, `taoensso.telemere.open-telemere/handler:open-telemetry`. [1] Ref. <https://github.com/open-telemetry/opentelemetry-java>
(pr-signal-fn)
(pr-signal-fn {:keys [pr-fn clean-fn incl-newline?]
:as opts
:or {pr-fn :edn clean-fn (clean-signal-fn) incl-newline? true}})
Experimental, subject to change. Returns a (fn pr [signal]) that: - Takes a Telemere signal (map). - Returns a machine-readable signal string. Options: `:pr-fn` - ∈ #{<unary-fn> :edn (default) :json (Cljs only)} `:clean-fn` - (fn [signal]) => clean signal map, see [1] `:incl-newline?` - Include terminating system newline? (default true) Examples: ;; To print as edn: (pr-signal-fn {:pr-fn :edn}) ;; To print as JSON: ;; Ref. <https://github.com/metosin/jsonista> (or any alt JSON lib) #?(:clj (require '[jsonista.core :as jsonista])) (pr-signal-fn {:pr-fn #?(:cljs :json ; Use js/JSON.stringify :clj jsonista/write-value-as-string)}) [1] `taoensso.telemere.utils/clean-signal-fn`, etc. See also `format-signal-fn` for an alternative to `pr-signal-fn` that produces human-readable output.
(rate-limiter spec)
(rate-limiter opts spec)
Takes a spec of form [ [<n-max-reqs> <msecs-window>] ...] or ; Unnamed limits {<limit-id> [<n-max-reqs> <msecs-window>]} ; Named limits and returns stateful (fn a-rate-limiter [] [req-id] [command req-id]). Call the returned limiter fn with a request id (any Clojure value!) to enforce limits independently for each id. For example, (limiter-fn <ip-address-string>) will return: - Falsey when allowed (all limits pass for given IP), or - Truthy when disallowed (any limits fail for given IP): [<worst-limit-id> <worst-backoff-msecs> {<limit-id> <backoff-msecs>}] Or call the returned limiter fn with an extra command argument: (limiter-fn :rl/peek <req-id) - Check limits WITHOUT incrementing count (limiter-fn :rl/reset <req-id) - Reset all limits for given req-id
(remove-handler! handler-id)
Stops and deregisters signal handler with given id, and returns ?{<handler-id> {:keys [dispatch-opts handler-fn]}} for all handlers still registered.
(set-ctx! root-ctx-val)
Set `*ctx*` var's default (root) value. See `*ctx*` for details.
(set-id-filter! id-filter)
Sets signal id filter based on given `id-filter` spec. `id-filter` may be: - A regex pattern of id/s to allow - A str/kw/sym to allow, with "*" and "(.*)" as wildcards: "foo.*" will allow "foo.bar" "foo(.*)" will allow "foo.bar" and "foo" - A set/vector of above (allow on any match) - A map, {:allow <spec> :disallow <spec>} with specs as above: If present, `:allow` spec MUST match, AND If present, `:disallow` spec MUST NOT match.
(set-kind-filter! kind-filter)
Sets signal kind filter based on given `kind-filter` spec. `kind-filter` may be: - A regex pattern of kind/s to allow - A str/kw/sym to allow, with "*" and "(.*)" as wildcards: "foo.*" will allow "foo.bar" "foo(.*)" will allow "foo.bar" and "foo" - A set/vector of above (allow on any match) - A map, {:allow <spec> :disallow <spec>} with specs as above: If present, `:allow` spec MUST match, AND If present, `:disallow` spec MUST NOT match.
(set-middleware! ?root-middleware-fn)
Set `*middleware*` var's default (root) value. See `*middleware*` for details.
(set-min-level! min-level)
(set-min-level! kind min-level)
(set-min-level! kind ns-filter min-level)
Sets minimum signal level based on given `min-level` spec. `min-level` may be: - nil (=> no minimum level). - A level keyword (see `level-aliases` var for details). - An integer. If `ns-filter` is provided, then the given minimum level will apply only for the namespace/s that match `ns-filter`. See `set-ns-filter!` for details. If non-nil `kind` is provided, then the given minimum level will apply only for that signal kind. Examples: (set-min-level! nil) ; Disable minimum level (set-min-level! :info) ; Set `:info` as minimum level (set-min-level! 100) ; Set 100 as minimum level ;; Set `:debug` as minimum level for current namespace ;; (nil `kind` => all kinds) (set-min-level! nil *ns* :debug)
(set-ns-filter! ns-filter)
Sets signal namespace filter based on given `ns-filter` spec. `ns-filter` may be: - A namespace. - A regex pattern of namespaces/s to allow - A str/kw/sym to allow, with "*" and "(.*)" as wildcards: "foo.*" will allow "foo.bar" "foo(.*)" will allow "foo.bar" and "foo" - A set/vector of above (allow on any match) - A map, {:allow <spec> :disallow <spec>} with specs as above: If present, `:allow` spec MUST match, AND If present, `:disallow` spec MUST NOT match.
(set-var-root! var-sym root-val)
Sets root binding (value) of the var identified by given symbol, and returns the new value. Cross-platform. See also `update-var-root!`.
(signal! {:as opts
:keys [elidable? location inst uid middleware middleware+ sample-rate
kind ns id level when rate-limit rate-limit-by ctx ctx+ parent
root trace? do let data msg error run & kvs]})
Low-level generic signal creator. API: [opts] => depends on options [2] Default kind: `:default` Default level: `:info` When filtering conditions are met [4], creates a Telemere signal [3] and dispatches it to registered handlers for processing (e.g. writing to console/file/queue/db, etc.). If `:run` option is provided: returns value of given run form, or throws. Otherwise: returns true iff signal was created (allowed). Generic signals are fairly low-level and useful mostly for library authors or advanced users writing their own wrapper macros. Regular users will typically prefer one of the higher-level signal creators optimized for ease-of-use in common cases [1]. Tips: - Test using `with-signal`: (with-signal (signal! ...)). - Supports the same options [2] as other signals [1]. ---------------------------------------------------------------------- [1] See `help:signal-creators` - (`signal!`, `log!`, `event!`, ...) [2] See `help:signal-options` - {:keys [kind level id data ...]} [3] See `help:signal-content` - {:keys [kind level id data ...]} [4] See `help:signal-filters` - (by ns/kind/id/level, sampling, etc.)
(signal-allowed? {:as opts
:keys [elidable? location sample-rate kind ns id level when
rate-limit rate-limit-by]})
Returns true iff signal with given opts would meet filtering conditions: (when (signal-allowed? {:level :warn, <...>}) (my-custom-code)) Allows you to use Telemere's rich filtering system for conditionally executing arbitrary code. Also handy for batching multiple signals under a single set of conditions (incl. rate-limiting, sampling, etc.): ;; Logs exactly 2 or 0 messages (never 1): (when (signal-allowed? {:level :info, :sample-rate 0.5}) (log! {:allow? true} "Message 1") (log! {:allow? true} "Message 2"))
(spy! form)
(spy! level form)
(spy! {:as opts
:keys [elidable? location inst uid middleware middleware+ sample-rate
kind ns id level when rate-limit rate-limit-by ctx ctx+ parent
root trace? do let data msg error run & kvs]}
form)
"Spy" signal creator, emphasizing form + level. API: [form] [level-or-opts form] => form's result (value/throw) (unconditional) Default kind: `:spy` Default level: `:info` When filtering conditions are met [4], creates a Telemere signal [3] and dispatches it to registered handlers for processing (e.g. writing to console/file/queue/db, etc.). Enables tracing of given `form` arg: - Resulting signal will include {:keys [run-form run-val run-nsecs]}. - Nested signals will include this signal's id and uid under `:parent`. Limitations: 1. Traced code (`form` arg) is usually expected to be synchronous and eager. So no lazy seqs, async calls, or inversion of flow control (IoC) macros like core.async `go` blocks, etc. 2. Tracing call (`spy!`) is usually expected to occur *within* normally flowing code. IoC macros can arbitrarily (and often opaquely) alter program flow and tracing across flow boundaries can be fragile or even fundamentally illogical. So use within IoC macro bodies might not make conceptual sense, or could produce errors or unreliable/confusing results. Basically- if possible, prefer tracing normal Clojure fns running within normal Clojure fns unless you deeply understand what your IoC macros are up to. Examples: (spy! (+ 1 2)) ; %> {:kind :trace, :level :info, :run-form '(+ 1 2), ; :run-val 3, :run-nsecs <int>, :parent {:keys [id uid]} ; :msg "(+ 1 2) => 3" ...} (spy! ::my-id (+ 1 2)) ; %> {... :id ::my-id ...} (spy! {:let [x "x"] ; Available to `:data` and `:msg` :data {:x x}} (+ 1 2)) ; %> {... :data {x "x"}, :msg_ "My msg: x" ...} Tips: - Test using `with-signal`: (with-signal (spy! ...)). - Supports the same options [2] as other signals [1]. - Identical to `trace!`, but emphasizes form + level rather than form + id. - Useful for debugging/monitoring forms, and tracing (nested) execution flow. - Execution of `form` arg may create additional (nested) signals. Each signal's `:parent` key will indicate its immediate parent. - Can be useful to wrap with `catch->error!`: (catch->error! ::error-id (spy! ...)). - Runtime of async or lazy code in `form` will intentionally NOT be included in resulting signal's `:run-nsecs` value. If you want to measure such runtimes, make sure that your form wraps where the relevant costs are actually realized. Compare: (spy! (delay (my-slow-code))) ; Doesn't measure slow code (spy! @(delay (my-slow-code))) ; Does measure slow code - See also Tufte (https://www.taoensso.com/tufte) for a complementary/partner Clj/s library that offers more advanced performance measurment and shares the same signal engine (filtering and handler API) as Telemere. ---------------------------------------------------------------------- [1] See `help:signal-creators` - (`signal!`, `log!`, `event!`, ...) [2] See `help:signal-options` - {:keys [kind level id data ...]} [3] See `help:signal-content` - {:keys [kind level id data ...]} [4] See `help:signal-filters` - (by ns/kind/id/level, sampling, etc.)
(stop-handlers!)
Stops registered signal handlers in parallel by calling each handler-fn with no arguments. This gives each handler the opportunity to flush buffers, close files, etc. Each handler will immediately stop accepting new signals, nooping if called. Blocks to return ?{<handler-id> {:keys [okay error]}}, honouring each handler's `:drain-msecs` value (see `help:handler-dispatch-options`). NB you should always call `stop-handlers!` somewhere appropriate - usually near the end of your `-main` or shutdown procedure, AFTER all other code has completed that could create signals.
(streams->reset!)
Experimental, subject to change. Resets `System/out` and `System/err` to their original value (prior to any `streams->telemere!` call).
(streams->telemere!)
(streams->telemere! {:keys [out err]
:or {out default-out-opts err default-err-opts}})
Experimental, subject to change. When given `out`, sets JVM's `System/out` to flush to Telemere signals with those opts. When given `err`, sets JVM's `System/err` to flush to Telemere signals with those opts. Note that setting `System/out` won't necessarily affect Clojure's `*out*`, and setting `System/err` won't necessarily affect Clojure's `*err*`. See also: `with-out->telemere`, `with-err->telemere`, `with-streams->telemere`.
(trace! form)
(trace! id form)
(trace! {:as opts
:keys [elidable? location inst uid middleware middleware+ sample-rate
kind ns id level when rate-limit rate-limit-by ctx ctx+ parent
root trace? do let data msg error run & kvs]}
form)
"Trace" signal creator, emphasizing form + id. API: [form] [id-or-opts form] => form's result (value/throw) (unconditional) Default kind: `:trace` Default level: `:info` (intentionally NOT `:trace`!) When filtering conditions are met [4], creates a Telemere signal [3] and dispatches it to registered handlers for processing (e.g. writing to console/file/queue/db, etc.). Enables tracing of given `form` arg: - Resulting signal will include {:keys [run-form run-val run-nsecs]}. - Nested signals will include this signal's id and uid under `:parent`. Limitations: 1. Traced code (`form` arg) is usually expected to be synchronous and eager. So no lazy seqs, async calls, or inversion of flow control (IoC) macros like core.async `go` blocks, etc. 2. Tracing call (`trace!`) is usually expected to occur *within* normally flowing code. IoC macros can arbitrarily (and often opaquely) alter program flow and tracing across flow boundaries can be fragile or even fundamentally illogical. So use within IoC macro bodies might not make conceptual sense, or could produce errors or unreliable/confusing results. Basically- if possible, prefer tracing normal Clojure fns running within normal Clojure fns unless you deeply understand what your IoC macros are up to. Examples: (trace! (+ 1 2)) ; %> {:kind :trace, :level :info, :run-form '(+ 1 2), ; :run-val 3, :run-nsecs <int>, :parent {:keys [id uid]} ... ; :msg "(+ 1 2) => 3" ...} (trace! ::my-id (+ 1 2)) ; %> {... :id ::my-id ...} (trace! {:let [x "x"] ; Available to `:data` and `:msg` :data {:x x}} (+ 1 2)) ; %> {... :data {x "x"}, :msg_ "My msg: x" ...} Tips: - Test using `with-signal`: (with-signal (trace! ...)). - Supports the same options [2] as other signals [1]. - Identical to `spy!`, but emphasizes form + id rather than form + level. - Useful for debugging/monitoring forms, and tracing (nested) execution flow. - Execution of `form` arg may create additional (nested) signals. Each signal's `:parent` key will indicate its immediate parent. - Can be useful to wrap with `catch->error!`: (catch->error! ::error-id (trace! ...)). - Default level is `:info`, not `:trace`! The name "trace" in "trace signal" refers to the general action of tracing program flow rather than to the common logging level of the same name. - Runtime of async or lazy code in `form` will intentionally NOT be included in resulting signal's `:run-nsecs` value. If you want to measure such runtimes, make sure that your form wraps where the relevant costs are actually realized. Compare: (trace! (delay (my-slow-code))) ; Doesn't measure slow code (trace! @(delay (my-slow-code))) ; Does measure slow code - See also Tufte (https://www.taoensso.com/tufte) for a complementary/partner Clj/s library that offers more advanced performance measurment and shares the same signal engine (filtering and handler API) as Telemere. ---------------------------------------------------------------------- [1] See `help:signal-creators` - (`signal!`, `log!`, `event!`, ...) [2] See `help:signal-options` - {:keys [kind level id data ...]} [3] See `help:signal-content` - {:keys [kind level id data ...]} [4] See `help:signal-filters` - (by ns/kind/id/level, sampling, etc.)
(uncaught->error!)
(uncaught->error! id)
(uncaught->error! {:as opts
:keys [elidable? location inst uid middleware middleware+
sample-rate kind ns id level when rate-limit
rate-limit-by ctx ctx+ parent root trace? do let data
msg error & kvs]})
Uses `uncaught->handler!` so that `error!` will be called for uncaught JVM errors. See `uncaught->handler!` and `error!` for details.
(uncaught->handler! handler)
Sets JVM's global `DefaultUncaughtExceptionHandler` to given (fn handler [`<java.lang.Thread>` `<java.lang.Throwable>`]). See also `uncaught->error!`.
(update-var-root! var-sym update-fn)
Updates root binding (value) of the var identified by given symbol, and returns the new value: (update-var-root! my-var (fn [old-root-val] <new-root-val>)) => <new-root-val> Similar to `alter-var-root` but cross-platform and takes a symbol rather than a var. See also `set-var-root!`.
(with-ctx ctx-val form)
Evaluates given form with given `*ctx*` value. See `*ctx*` for details.
(with-ctx+ update-map-or-fn form)
Evaluates given form with updated `*ctx*` value. `update-map-or-fn` may be: - A map to merge with current `*ctx*` value, or - A unary fn to apply to current `*ctx*` value See `*ctx*` for details.
(with-err->telemere form)
(with-err->telemere opts form)
Executes form with `*err*` bound to flush to Telemere signals with given opts.
(with-handler handler-id handler-fn form)
(with-handler handler-id handler-fn dispatch-opts form)
Executes form with ONLY the given signal handler registered. Stops handler after use. Useful for tests/debugging. See `help:handler-dispatch-options` for handler filters, etc. See also `with-handler+`.
(with-handler+ handler-id handler-fn form)
(with-handler+ handler-id handler-fn dispatch-opts form)
Executes form with the given signal handler (also) registered. Stops handler after use. Useful for tests/debugging. See `help:handler-dispatch-options` for handler filters, etc. See also `with-handler`.
(with-id-filter id-filter form)
Executes form with given signal id filter in effect. See `set-id-filter!` for details.
(with-kind-filter kind-filter form)
Executes form with given signal kind filter in effect. See `set-kind-filter!` for details.
(with-middleware ?middleware-fn form)
Evaluates given form with given `*middleware*` value. See `*middleware*` for details.
(with-middleware+ ?middleware-fn form)
Evaluates given form with composed `*middleware*` value. Same as (with-middleware (comp-middleware *middleware* ?middleware-fn) ...). See `*middleware*` for details.
(with-min-level min-level form)
(with-min-level kind min-level form)
(with-min-level kind ns-filter min-level form)
Executes form with given minimum signal level in effect. See `set-min-level!` for details.
(with-ns-filter ns-filter form)
Executes form with given signal namespace filter in effect. See `set-ns-filter!` for details.
(with-out->telemere form)
(with-out->telemere opts form)
Executes form with `*out*` bound to flush to Telemere signals with given opts.
(with-signal form)
(with-signal trap-signals? form)
(with-signal raw-msg? trap-signals? form)
Experimental, subject to change. Executes given form, trapping errors. Returns the LAST signal created by form. Useful for tests/debugging. Options: `trap-signals?` (default false) Should ALL signals created by form be trapped to prevent normal dispatch to registered handlers? `raw-msg?` (default false) Should delayed `:msg_` in returned signal be retained as-is? Delay is otherwise replaced by realized string. See also `with-signals`.
(with-signals form)
(with-signals trap-signals? form)
(with-signals raw-msgs? trap-signals? form)
Experimental, subject to change. Like `with-signal` but returns [[<form-value> <form-error>] [<signal1> ...]]. Useful for tests/debugging.
(with-streams->telemere form)
(with-streams->telemere {:keys [out err]
:or {out default-out-opts err default-err-opts}}
form)
Executes form with `*out*` and/or `*err*` bound to flush to Telemere signals with given opts.
(without-filters form)
Executes form without any runtime signal filters.
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