kicad/thirdparty/sentry-native/include/sentry.h

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/**
* sentry-native
*
* sentry-native is a C client to send events to native from
* C and C++ applications. It can work together with breakpad/crashpad
* but also send events on its own.
*
* NOTE on encodings:
*
* Sentry will assume an encoding of UTF-8 for all string data that is captured
* and being sent to sentry as an Event.
* All the functions that are dealing with *paths* will assume an OS-specific
* encoding, typically ANSI on Windows, UTF-8 macOS, and the locale encoding on
* Linux; and they provide wchar-compatible alternatives on Windows which are
* preferred.
*/
#ifndef SENTRY_H_INCLUDED
#define SENTRY_H_INCLUDED
#ifdef __cplusplus
extern "C" {
#endif
/* SDK Version */
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#ifndef SENTRY_SDK_NAME
# ifdef __ANDROID__
# define SENTRY_SDK_NAME "sentry.native.android"
# else
# define SENTRY_SDK_NAME "sentry.native"
# endif
#endif
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#define SENTRY_SDK_VERSION "0.6.7"
#define SENTRY_SDK_USER_AGENT SENTRY_SDK_NAME "/" SENTRY_SDK_VERSION
/* common platform detection */
#ifdef _WIN32
# define SENTRY_PLATFORM_WINDOWS
#elif defined(__APPLE__)
# include <TargetConditionals.h>
# if defined(TARGET_OS_OSX) && TARGET_OS_OSX
# define SENTRY_PLATFORM_MACOS
# elif defined(TARGET_OS_IPHONE) && TARGET_OS_IPHONE
# define SENTRY_PLATFORM_IOS
# endif
# define SENTRY_PLATFORM_DARWIN
# define SENTRY_PLATFORM_UNIX
#elif defined(__ANDROID__)
# define SENTRY_PLATFORM_ANDROID
# define SENTRY_PLATFORM_LINUX
# define SENTRY_PLATFORM_UNIX
#elif defined(__linux) || defined(__linux__)
# define SENTRY_PLATFORM_LINUX
# define SENTRY_PLATFORM_UNIX
#elif defined(_AIX)
/* IBM i PASE is also counted as AIX */
# define SENTRY_PLATFORM_AIX
# define SENTRY_PLATFORM_UNIX
#else
# error unsupported platform
#endif
/* marks a function as part of the sentry API */
#ifndef SENTRY_API
# ifdef _WIN32
# if defined(SENTRY_BUILD_SHARED) /* build dll */
# define SENTRY_API __declspec(dllexport)
# elif !defined(SENTRY_BUILD_STATIC) /* use dll */
# define SENTRY_API __declspec(dllimport)
# else /* static library */
# define SENTRY_API
# endif
# else
# if __GNUC__ >= 4
# define SENTRY_API __attribute__((visibility("default")))
# else
# define SENTRY_API
# endif
# endif
#endif
/* marks a function as experimental api */
#ifndef SENTRY_EXPERIMENTAL_API
# define SENTRY_EXPERIMENTAL_API SENTRY_API
#endif
#include <inttypes.h>
#include <stdarg.h>
#include <stddef.h>
/* context type dependencies */
#ifdef _WIN32
# include <wtypes.h>
#else
# include <signal.h>
#endif
/**
* The library internally uses the system malloc and free functions to manage
* memory. It does not use realloc. The reason for this is that on unix
* platforms we fall back to a simplistic page allocator once we have
* encountered a SIGSEGV or other terminating signal as malloc is no longer
* safe to use. Since we cannot portably reallocate allocations made on the
* pre-existing allocator we're instead not using realloc.
*
* Note also that after SIGSEGV sentry_free() becomes a noop.
*/
/**
* Allocates memory with the underlying allocator.
*/
SENTRY_API void *sentry_malloc(size_t size);
/**
* Releases memory allocated from the underlying allocator.
*/
SENTRY_API void sentry_free(void *ptr);
/**
* Legacy function. Alias for `sentry_free`.
*/
#define sentry_string_free sentry_free
/* -- Protocol Value API -- */
/**
* Type of a sentry value.
*/
typedef enum {
SENTRY_VALUE_TYPE_NULL,
SENTRY_VALUE_TYPE_BOOL,
SENTRY_VALUE_TYPE_INT32,
SENTRY_VALUE_TYPE_DOUBLE,
SENTRY_VALUE_TYPE_STRING,
SENTRY_VALUE_TYPE_LIST,
SENTRY_VALUE_TYPE_OBJECT,
} sentry_value_type_t;
/**
* Represents a sentry protocol value.
*
* The members of this type should never be accessed. They are only here
* so that alignment for the type can be properly determined.
*
* Values must be released with `sentry_value_decref`. This lowers the
* internal refcount by one. If the refcount hits zero it's freed. Some
* values like primitives have no refcount (like null) so operations on
* those are no-ops.
*
* In addition values can be frozen. Some values like primitives are always
* frozen but lists and dicts are not and can be frozen on demand. This
* automatically happens for some shared values in the event payload like
* the module list.
*/
union sentry_value_u {
uint64_t _bits;
double _double;
};
typedef union sentry_value_u sentry_value_t;
/**
* Increments the reference count on the value.
*/
SENTRY_API void sentry_value_incref(sentry_value_t value);
/**
* Decrements the reference count on the value.
*/
SENTRY_API void sentry_value_decref(sentry_value_t value);
/**
* Returns the refcount of a value.
*/
SENTRY_API size_t sentry_value_refcount(sentry_value_t value);
/**
* Freezes a value.
*/
SENTRY_API void sentry_value_freeze(sentry_value_t value);
/**
* Checks if a value is frozen.
*/
SENTRY_API int sentry_value_is_frozen(sentry_value_t value);
/**
* Creates a null value.
*/
SENTRY_API sentry_value_t sentry_value_new_null(void);
/**
* Creates a new 32-bit signed integer value.
*/
SENTRY_API sentry_value_t sentry_value_new_int32(int32_t value);
/**
* Creates a new double value.
*/
SENTRY_API sentry_value_t sentry_value_new_double(double value);
/**
* Creates a new boolean value.
*/
SENTRY_API sentry_value_t sentry_value_new_bool(int value);
/**
* Creates a new null terminated string.
*/
SENTRY_API sentry_value_t sentry_value_new_string(const char *value);
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SENTRY_API sentry_value_t sentry_value_new_string_n(
const char *value, size_t value_len);
/**
* Creates a new list value.
*/
SENTRY_API sentry_value_t sentry_value_new_list(void);
/**
* Creates a new object.
*/
SENTRY_API sentry_value_t sentry_value_new_object(void);
/**
* Returns the type of the value passed.
*/
SENTRY_API sentry_value_type_t sentry_value_get_type(sentry_value_t value);
/**
* Sets a key to a value in the map.
*
* This moves the ownership of the value into the map. The caller does not
* have to call `sentry_value_decref` on it.
*/
SENTRY_API int sentry_value_set_by_key(
sentry_value_t value, const char *k, sentry_value_t v);
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SENTRY_API int sentry_value_set_by_key_n(
sentry_value_t value, const char *k, size_t k_len, sentry_value_t v);
/**
* This removes a value from the map by key.
*/
SENTRY_API int sentry_value_remove_by_key(sentry_value_t value, const char *k);
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SENTRY_API int sentry_value_remove_by_key_n(
sentry_value_t value, const char *k, size_t k_len);
/**
* Appends a value to a list.
*
* This moves the ownership of the value into the list. The caller does not
* have to call `sentry_value_decref` on it.
*/
SENTRY_API int sentry_value_append(sentry_value_t value, sentry_value_t v);
/**
* Inserts a value into the list at a certain position.
*
* This moves the ownership of the value into the list. The caller does not
* have to call `sentry_value_decref` on it.
*
* If the list is shorter than the given index it's automatically extended
* and filled with `null` values.
*/
SENTRY_API int sentry_value_set_by_index(
sentry_value_t value, size_t index, sentry_value_t v);
/**
* This removes a value from the list by index.
*/
SENTRY_API int sentry_value_remove_by_index(sentry_value_t value, size_t index);
/**
* Looks up a value in a map by key. If missing a null value is returned.
* The returned value is borrowed.
*/
SENTRY_API sentry_value_t sentry_value_get_by_key(
sentry_value_t value, const char *k);
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SENTRY_API sentry_value_t sentry_value_get_by_key_n(
sentry_value_t value, const char *k, size_t k_len);
/**
* Looks up a value in a map by key. If missing a null value is returned.
* The returned value is owned.
*
* If the caller no longer needs the value it must be released with
* `sentry_value_decref`.
*/
SENTRY_API sentry_value_t sentry_value_get_by_key_owned(
sentry_value_t value, const char *k);
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SENTRY_API sentry_value_t sentry_value_get_by_key_owned_n(
sentry_value_t value, const char *k, size_t k_len);
/**
* Looks up a value in a list by index. If missing a null value is returned.
* The returned value is borrowed.
*/
SENTRY_API sentry_value_t sentry_value_get_by_index(
sentry_value_t value, size_t index);
/**
* Looks up a value in a list by index. If missing a null value is
* returned. The returned value is owned.
*
* If the caller no longer needs the value it must be released with
* `sentry_value_decref`.
*/
SENTRY_API sentry_value_t sentry_value_get_by_index_owned(
sentry_value_t value, size_t index);
/**
* Returns the length of the given map or list.
*
* If an item is not a list or map the return value is 0.
*/
SENTRY_API size_t sentry_value_get_length(sentry_value_t value);
/**
* Converts a value into a 32bit signed integer.
*/
SENTRY_API int32_t sentry_value_as_int32(sentry_value_t value);
/**
* Converts a value into a double value.
*/
SENTRY_API double sentry_value_as_double(sentry_value_t value);
/**
* Returns the value as c string.
*/
SENTRY_API const char *sentry_value_as_string(sentry_value_t value);
/**
* Returns `true` if the value is boolean true.
*/
SENTRY_API int sentry_value_is_true(sentry_value_t value);
/**
* Returns `true` if the value is null.
*/
SENTRY_API int sentry_value_is_null(sentry_value_t value);
/**
* Serialize a sentry value to JSON.
*
* The string is freshly allocated and must be freed with
* `sentry_string_free`.
*/
SENTRY_API char *sentry_value_to_json(sentry_value_t value);
/**
* Sentry levels for events and breadcrumbs.
*/
typedef enum sentry_level_e {
SENTRY_LEVEL_DEBUG = -1,
SENTRY_LEVEL_INFO = 0,
SENTRY_LEVEL_WARNING = 1,
SENTRY_LEVEL_ERROR = 2,
SENTRY_LEVEL_FATAL = 3,
} sentry_level_t;
/**
* Creates a new empty Event value.
*
* See https://docs.sentry.io/platforms/native/enriching-events/ for how to
* further work with events, and https://develop.sentry.dev/sdk/event-payloads/
* for a detailed overview of the possible properties of an Event.
*/
SENTRY_API sentry_value_t sentry_value_new_event(void);
/**
* Creates a new Message Event value.
*
* See https://develop.sentry.dev/sdk/event-payloads/message/
*
* `logger` can be NULL to omit the logger value.
*/
SENTRY_API sentry_value_t sentry_value_new_message_event(
sentry_level_t level, const char *logger, const char *text);
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SENTRY_API sentry_value_t sentry_value_new_message_event_n(sentry_level_t level,
const char *logger, size_t logger_len, const char *text, size_t text_len);
/**
* Creates a new Breadcrumb with a specific type and message.
*
* See https://develop.sentry.dev/sdk/event-payloads/breadcrumbs/
*
* Either parameter can be NULL in which case no such attributes is created.
*/
SENTRY_API sentry_value_t sentry_value_new_breadcrumb(
const char *type, const char *message);
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SENTRY_API sentry_value_t sentry_value_new_breadcrumb_n(
const char *type, size_t type_len, const char *message, size_t message_len);
/**
* Creates a new Exception value.
*
* This is intended for capturing language-level exception, such as from a
* try-catch block. `type` and `value` here refer to the exception class and
* a possible description.
*
* See https://develop.sentry.dev/sdk/event-payloads/exception/
*
* The returned value needs to be attached to an event via
* `sentry_event_add_exception`.
*/
SENTRY_EXPERIMENTAL_API sentry_value_t sentry_value_new_exception(
const char *type, const char *value);
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SENTRY_EXPERIMENTAL_API sentry_value_t sentry_value_new_exception_n(
const char *type, size_t type_len, const char *value, size_t value_len);
/**
* Creates a new Thread value.
*
* See https://develop.sentry.dev/sdk/event-payloads/threads/
*
* The returned value needs to be attached to an event via
* `sentry_event_add_thread`.
*
* `name` can be NULL.
*/
SENTRY_EXPERIMENTAL_API sentry_value_t sentry_value_new_thread(
uint64_t id, const char *name);
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SENTRY_EXPERIMENTAL_API sentry_value_t sentry_value_new_thread_n(
uint64_t id, const char *name, size_t name_len);
/**
* Creates a new Stack Trace conforming to the Stack Trace Interface.
*
* See https://develop.sentry.dev/sdk/event-payloads/stacktrace/
*
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* The returned object must be attached to either an exception or thread
* object.
*
* If `ips` is NULL the current stack trace is captured, otherwise `len`
* stack trace instruction pointers are attached to the event.
*/
SENTRY_EXPERIMENTAL_API sentry_value_t sentry_value_new_stacktrace(
void **ips, size_t len);
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/**
* Sets the Stack Trace conforming to the Stack Trace Interface in a value.
*
* The value argument must be either an exception or thread object.
*
* If `ips` is NULL the current stack trace is captured, otherwise `len` stack
* trace instruction pointers are attached to the event.
*/
SENTRY_EXPERIMENTAL_API void sentry_value_set_stacktrace(
sentry_value_t value, void **ips, size_t len);
/**
* Adds an Exception to an Event value.
*
* This takes ownership of the `exception`.
*/
SENTRY_EXPERIMENTAL_API void sentry_event_add_exception(
sentry_value_t event, sentry_value_t exception);
/**
* Adds a Thread to an Event value.
*
* This takes ownership of the `thread`.
*/
SENTRY_EXPERIMENTAL_API void sentry_event_add_thread(
sentry_value_t event, sentry_value_t thread);
/* -- Experimental APIs -- */
/**
* Serialize a sentry value to msgpack.
*
* The string is freshly allocated and must be freed with
* `sentry_string_free`. Since msgpack is not zero terminated
* the size is written to the `size_out` parameter.
*/
SENTRY_EXPERIMENTAL_API char *sentry_value_to_msgpack(
sentry_value_t value, size_t *size_out);
/**
* Adds a stack trace to an event.
*
* The stack trace is added as part of a new thread object.
* This function is **deprecated** in favor of using
* `sentry_value_new_stacktrace` in combination with `sentry_value_new_thread`
* and `sentry_event_add_thread`.
*
* If `ips` is NULL the current stack trace is captured, otherwise `len`
* stack trace instruction pointers are attached to the event.
*/
SENTRY_EXPERIMENTAL_API void sentry_event_value_add_stacktrace(
sentry_value_t event, void **ips, size_t len);
/**
* This represents the OS dependent user context in the case of a crash, and can
* be used to manually capture a crash.
*/
typedef struct sentry_ucontext_s {
#ifdef _WIN32
EXCEPTION_POINTERS exception_ptrs;
#else
int signum;
siginfo_t *siginfo;
ucontext_t *user_context;
#endif
} sentry_ucontext_t;
/**
* Unwinds the stack from the given address.
*
* If the address is given in `addr` the stack is unwound form there.
* Otherwise (NULL is passed) the current instruction pointer is used as
* start address.
* Unwinding with a given `addr` is not supported on all platforms.
*
* The stack trace in the form of instruction-addresses, is written to the
* caller allocated `stacktrace_out`, with up to `max_len` frames being written.
* The actual number of unwound stackframes is returned.
*/
SENTRY_EXPERIMENTAL_API size_t sentry_unwind_stack(
void *addr, void **stacktrace_out, size_t max_len);
/**
* Unwinds the stack from the given context.
*
* The caller is responsible to construct an appropriate `sentry_ucontext_t`.
* Unwinding from a user context is not supported on all platforms.
*
* The stack trace in the form of instruction-addresses, is written to the
* caller allocated `stacktrace_out`, with up to `max_len` frames being written.
* The actual number of unwound stackframes is returned.
*/
SENTRY_EXPERIMENTAL_API size_t sentry_unwind_stack_from_ucontext(
const sentry_ucontext_t *uctx, void **stacktrace_out, size_t max_len);
/**
* A UUID
*/
typedef struct sentry_uuid_s {
char bytes[16];
} sentry_uuid_t;
/**
* Creates the nil uuid.
*/
SENTRY_API sentry_uuid_t sentry_uuid_nil(void);
/**
* Creates a new uuid4.
*/
SENTRY_API sentry_uuid_t sentry_uuid_new_v4(void);
/**
* Parses a uuid from a string.
*/
SENTRY_API sentry_uuid_t sentry_uuid_from_string(const char *str);
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SENTRY_API sentry_uuid_t sentry_uuid_from_string_n(
const char *str, size_t str_len);
/**
* Creates a uuid from bytes.
*/
SENTRY_API sentry_uuid_t sentry_uuid_from_bytes(const char bytes[16]);
/**
* Checks if the uuid is nil.
*/
SENTRY_API int sentry_uuid_is_nil(const sentry_uuid_t *uuid);
/**
* Returns the bytes of the uuid.
*/
SENTRY_API void sentry_uuid_as_bytes(const sentry_uuid_t *uuid, char bytes[16]);
/**
* Formats the uuid into a string buffer.
*/
SENTRY_API void sentry_uuid_as_string(const sentry_uuid_t *uuid, char str[37]);
/**
* A Sentry Envelope.
*
* The Envelope is an abstract type which represents a payload being sent to
* sentry. It can contain one or more items, typically an Event.
* See https://develop.sentry.dev/sdk/envelopes/
*/
struct sentry_envelope_s;
typedef struct sentry_envelope_s sentry_envelope_t;
/**
* Frees an envelope.
*/
SENTRY_API void sentry_envelope_free(sentry_envelope_t *envelope);
/**
* Given an Envelope, returns the embedded Event if there is one.
*
* This returns a borrowed value to the Event in the Envelope.
*/
SENTRY_API sentry_value_t sentry_envelope_get_event(
const sentry_envelope_t *envelope);
/**
* Given an Envelope, returns the embedded Transaction if there is one.
*
* This returns a borrowed value to the Transaction in the Envelope.
*/
SENTRY_EXPERIMENTAL_API sentry_value_t sentry_envelope_get_transaction(
const sentry_envelope_t *envelope);
/**
* Serializes the envelope.
*
* The return value needs to be freed with sentry_string_free().
*/
SENTRY_API char *sentry_envelope_serialize(
const sentry_envelope_t *envelope, size_t *size_out);
/**
* Serializes the envelope into a file.
*
* `path` is assumed to be in platform-specific filesystem path encoding.
*
* Returns 0 on success.
*/
SENTRY_API int sentry_envelope_write_to_file(
const sentry_envelope_t *envelope, const char *path);
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SENTRY_API int sentry_envelope_write_to_file_n(
const sentry_envelope_t *envelope, const char *path, size_t path_len);
/**
* The Sentry Client Options.
*
* See https://docs.sentry.io/platforms/native/configuration/
*/
struct sentry_options_s;
typedef struct sentry_options_s sentry_options_t;
/**
* This represents an interface for user-defined transports.
*
* Transports are responsible for sending envelopes to sentry and are the last
* step in the event pipeline.
*
* Envelopes will be submitted to the transport in a _fire and forget_ fashion,
* and the transport must send those envelopes _in order_.
*
* A transport has the following hooks, all of which
* take the user provided `state` as last parameter. The transport state needs
* to be set with `sentry_transport_set_state` and typically holds handles and
* other information that can be reused across requests.
*
* * `send_func`: This function will take ownership of an envelope, and is
* responsible for freeing it via `sentry_envelope_free`.
* * `startup_func`: This hook will be called by sentry inside of `sentry_init`
* and instructs the transport to initialize itself. Failures will bubble up
* to `sentry_init`.
* * `flush_func`: Instructs the transport to flush its queue.
* This hook receives a millisecond-resolution `timeout` parameter and should
* return `0` if the transport queue is flushed within the timeout.
* * `shutdown_func`: Instructs the transport to flush its queue and shut down.
* This hook receives a millisecond-resolution `timeout` parameter and should
* return `0` if the transport is flushed and shut down successfully.
* In case of a non-zero return value, sentry will log an error, but continue
* with freeing the transport.
* * `free_func`: Frees the transports `state`. This hook might be called even
* though `shutdown_func` returned a failure code previously.
*
* The transport interface might be extended in the future with hooks to flush
* its internal queue without shutting down, and to dump its internal queue to
* disk in case of a hard crash.
*/
struct sentry_transport_s;
typedef struct sentry_transport_s sentry_transport_t;
/**
* Creates a new transport with an initial `send_func`.
*/
SENTRY_API sentry_transport_t *sentry_transport_new(
void (*send_func)(sentry_envelope_t *envelope, void *state));
/**
* Sets the transport `state`.
*
* If the state is owned by the transport and needs to be freed, use
* `sentry_transport_set_free_func` to set an appropriate hook.
*/
SENTRY_API void sentry_transport_set_state(
sentry_transport_t *transport, void *state);
/**
* Sets the transport hook to free the transport `state`.
*/
SENTRY_API void sentry_transport_set_free_func(
sentry_transport_t *transport, void (*free_func)(void *state));
/**
* Sets the transport startup hook.
*
* This hook is called from within `sentry_init` and will get a reference to the
* options which can be used to initialize a transports internal state.
* It should return `0` on success. A failure will bubble up to `sentry_init`.
*/
SENTRY_API void sentry_transport_set_startup_func(sentry_transport_t *transport,
int (*startup_func)(const sentry_options_t *options, void *state));
/**
* Sets the transport flush hook.
*
* This hook will receive a millisecond-resolution timeout.
* It should return `0` if all the pending envelopes are
* sent within the timeout, or `1` if the timeout is hit.
*/
SENTRY_API void sentry_transport_set_flush_func(sentry_transport_t *transport,
int (*flush_func)(uint64_t timeout, void *state));
/**
* Sets the transport shutdown hook.
*
* This hook will receive a millisecond-resolution timeout.
* It should return `0` on success in case all the pending envelopes have been
* sent within the timeout, or `1` if the timeout was hit.
*/
SENTRY_API void sentry_transport_set_shutdown_func(
sentry_transport_t *transport,
int (*shutdown_func)(uint64_t timeout, void *state));
/**
* Generic way to free a transport.
*/
SENTRY_API void sentry_transport_free(sentry_transport_t *transport);
/**
* Create a new function transport.
*
* It is a convenience function which works with a borrowed `data`, and will
* automatically free the envelope, so the user provided function does not need
* to do that.
*
* This function is *deprecated* and will be removed in a future version.
* It is here for backwards compatibility. Users should migrate to the
* `sentry_transport_new` API.
*/
SENTRY_API sentry_transport_t *sentry_new_function_transport(
void (*func)(const sentry_envelope_t *envelope, void *data), void *data);
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/**
* This represents an interface for user-defined backends.
*
* Backends are responsible to handle crashes. They are maintained at runtime
* via various life-cycle hooks from the sentry-core.
*
* At this point none of those interfaces are exposed in the API including
* creation and destruction. The main use-case of the backend in the API at this
* point is to disable it via `sentry_options_set_backend` at runtime before it
* is initialized.
*/
struct sentry_backend_s;
typedef struct sentry_backend_s sentry_backend_t;
/* -- Options APIs -- */
/**
* The state of user consent.
*/
typedef enum {
SENTRY_USER_CONSENT_UNKNOWN = -1,
SENTRY_USER_CONSENT_GIVEN = 1,
SENTRY_USER_CONSENT_REVOKED = 0,
} sentry_user_consent_t;
/**
* Creates a new options struct.
* Can be freed with `sentry_options_free`.
*/
SENTRY_API sentry_options_t *sentry_options_new(void);
/**
* Deallocates previously allocated sentry options.
*/
SENTRY_API void sentry_options_free(sentry_options_t *opts);
/**
* Sets a transport.
*/
SENTRY_API void sentry_options_set_transport(
sentry_options_t *opts, sentry_transport_t *transport);
/**
* Type of the `before_send` callback.
*
* The callback takes ownership of the `event`, and should usually return that
* same event. In case the event should be discarded, the callback needs to
* call `sentry_value_decref` on the provided event, and return a
* `sentry_value_new_null()` instead.
*
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* If you have set an `on_crash` callback (independent of whether it discards or
* retains the event), `before_send` will no longer be invoked for crash-events,
* which allows you to better distinguish between crashes and all other events
* in client-side pre-processing.
*
* This function may be invoked inside of a signal handler and must be safe for
* that purpose, see https://man7.org/linux/man-pages/man7/signal-safety.7.html.
* On Windows, it may be called from inside of a `UnhandledExceptionFilter`, see
* the documentation on SEH (structured exception handling) for more information
* https://docs.microsoft.com/en-us/windows/win32/debug/structured-exception-handling
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*
* Up to version 0.4.18 the `before_send` callback wasn't invoked in case the
* event sampling discarded an event. In the current implementation the
* `before_send` callback is invoked even if the event sampling discards the
* event, following the cross-SDK session filter order:
*
* https://develop.sentry.dev/sdk/sessions/#filter-order
*
* On Windows the crashpad backend can capture fast-fail crashes which by-pass
* SEH. Since the `before_send` is called by a local exception-handler, it will
* not be invoked when such a crash happened, even though a minidump will be
* sent.
*/
typedef sentry_value_t (*sentry_event_function_t)(
sentry_value_t event, void *hint, void *closure);
/**
* Sets the `before_send` callback.
*
* See the `sentry_event_function_t` typedef above for more information.
*/
SENTRY_API void sentry_options_set_before_send(
sentry_options_t *opts, sentry_event_function_t func, void *data);
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/**
* Type of the `on_crash` callback.
*
* The `on_crash` callback replaces the `before_send` callback for crash events.
* The interface is analogous to `before_send` in that the callback takes
* ownership of the `event`, and should usually return that same event. In case
* the event should be discarded, the callback needs to call
* `sentry_value_decref` on the provided event, and return a
* `sentry_value_new_null()` instead.
*
* Only the `inproc` backend currently fills the passed-in event with useful
* data and processes any modifications to the return value. Since both
* `breakpad` and `crashpad` use minidumps to capture the crash state, the
* passed-in event is empty when using these backends, and they ignore any
* changes to the return value.
*
* If you set this callback in the options, it prevents a concurrently enabled
* `before_send` callback from being invoked in the crash case. This allows for
* better differentiation between crashes and other events and gradual migration
* from existing `before_send` implementations:
*
* - if you have a `before_send` implementation and do not define an `on_crash`
* callback your application will receive both normal and crash events as
* before
* - if you have a `before_send` implementation but only want to handle normal
* events with it, then you can define an `on_crash` callback that returns
* the passed-in event and does nothing else
* - if you are not interested in normal events, but only want to act on
* crashes (within the limits mentioned below), then only define an
* `on_crash` callback with the option to filter (on all backends) or enrich
* (only inproc) the crash event
*
* This function may be invoked inside of a signal handler and must be safe for
* that purpose, see https://man7.org/linux/man-pages/man7/signal-safety.7.html.
* On Windows, it may be called from inside of a `UnhandledExceptionFilter`, see
* the documentation on SEH (structured exception handling) for more information
* https://docs.microsoft.com/en-us/windows/win32/debug/structured-exception-handling
*
* Platform-specific behavior:
*
* - does not work with crashpad on macOS.
* - for breakpad on Linux the `uctx` parameter is always NULL.
* - on Windows the crashpad backend can capture fast-fail crashes which
* by-pass SEH. Since `on_crash` is called by a local exception-handler, it will
* not be invoked when such a crash happened, even though a minidump will be
* sent.
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*/
typedef sentry_value_t (*sentry_crash_function_t)(
const sentry_ucontext_t *uctx, sentry_value_t event, void *closure);
/**
* Sets the `on_crash` callback.
*
* See the `sentry_crash_function_t` typedef above for more information.
*/
SENTRY_API void sentry_options_set_on_crash(
sentry_options_t *opts, sentry_crash_function_t func, void *data);
/**
* Sets the DSN.
*/
SENTRY_API void sentry_options_set_dsn(sentry_options_t *opts, const char *dsn);
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SENTRY_API void sentry_options_set_dsn_n(
sentry_options_t *opts, const char *dsn, size_t dsn_len);
/**
* Gets the DSN.
*/
SENTRY_API const char *sentry_options_get_dsn(const sentry_options_t *opts);
/**
* Sets the sample rate, which should be a double between `0.0` and `1.0`.
* Sentry will randomly discard any event that is captured using
* `sentry_capture_event` when a sample rate < 1 is set.
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*
* The sampling happens at the end of the event processing according to the
* following order:
*
* https://develop.sentry.dev/sdk/sessions/#filter-order
*
* Only items 3. to 6. are currently applicable to sentry-native. This means
* each processing step is executed even if the sampling discards the event
* before sending it to the backend. This is particularly relevant to users of
* the `before_send` callback.
*
* The above is in contrast to versions up to 0.4.18 where the sampling happened
* at the beginning of the processing/filter sequence.
*/
SENTRY_API void sentry_options_set_sample_rate(
sentry_options_t *opts, double sample_rate);
/**
* Gets the sample rate.
*/
SENTRY_API double sentry_options_get_sample_rate(const sentry_options_t *opts);
/**
* Sets the release.
*/
SENTRY_API void sentry_options_set_release(
sentry_options_t *opts, const char *release);
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SENTRY_API void sentry_options_set_release_n(
sentry_options_t *opts, const char *release, size_t release_len);
/**
* Gets the release.
*/
SENTRY_API const char *sentry_options_get_release(const sentry_options_t *opts);
/**
* Sets the environment.
*/
SENTRY_API void sentry_options_set_environment(
sentry_options_t *opts, const char *environment);
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SENTRY_API void sentry_options_set_environment_n(
sentry_options_t *opts, const char *environment, size_t environment_len);
/**
* Gets the environment.
*/
SENTRY_API const char *sentry_options_get_environment(
const sentry_options_t *opts);
/**
* Sets the dist.
*/
SENTRY_API void sentry_options_set_dist(
sentry_options_t *opts, const char *dist);
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SENTRY_API void sentry_options_set_dist_n(
sentry_options_t *opts, const char *dist, size_t dist_len);
/**
* Gets the dist.
*/
SENTRY_API const char *sentry_options_get_dist(const sentry_options_t *opts);
/**
* Configures the http proxy.
*
* The given proxy has to include the full scheme, eg. `http://some.proxy/`.
*/
SENTRY_API void sentry_options_set_http_proxy(
sentry_options_t *opts, const char *proxy);
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SENTRY_API void sentry_options_set_http_proxy_n(
sentry_options_t *opts, const char *proxy, size_t proxy_len);
/**
* Returns the configured http proxy.
*/
SENTRY_API const char *sentry_options_get_http_proxy(
const sentry_options_t *opts);
/**
* Configures the path to a file containing ssl certificates for
* verification.
*/
SENTRY_API void sentry_options_set_ca_certs(
sentry_options_t *opts, const char *path);
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SENTRY_API void sentry_options_set_ca_certs_n(
sentry_options_t *opts, const char *path, size_t path_len);
/**
* Returns the configured path for ca certificates.
*/
SENTRY_API const char *sentry_options_get_ca_certs(
const sentry_options_t *opts);
/**
* Configures the name of the http transport thread.
*/
SENTRY_API void sentry_options_set_transport_thread_name(
sentry_options_t *opts, const char *name);
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SENTRY_API void sentry_options_set_transport_thread_name_n(
sentry_options_t *opts, const char *name, size_t name_len);
/**
* Returns the configured http transport thread name.
*/
SENTRY_API const char *sentry_options_get_transport_thread_name(
const sentry_options_t *opts);
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/*
* Configures the name of the sentry SDK. Returns 0 on success.
*/
SENTRY_API int sentry_options_set_sdk_name(
sentry_options_t *opts, const char *sdk_name);
/*
* Configures the name of the sentry SDK. Returns 0 on success.
*/
SENTRY_API int sentry_options_set_sdk_name_n(
sentry_options_t *opts, const char *sdk_name, size_t sdk_name_len);
/**
* Returns the configured sentry SDK name. Unless overwritten this defaults to
* SENTRY_SDK_NAME.
*/
SENTRY_API const char *sentry_options_get_sdk_name(
const sentry_options_t *opts);
/**
* Returns the user agent. Unless overwritten this defaults to
* "SENTRY_SDK_NAME / SENTRY_SDK_VERSION".
*/
SENTRY_API const char *sentry_options_get_user_agent(
const sentry_options_t *opts);
/**
* Enables or disables debug printing mode.
*/
SENTRY_API void sentry_options_set_debug(sentry_options_t *opts, int debug);
/**
* Returns the current value of the debug flag.
*/
SENTRY_API int sentry_options_get_debug(const sentry_options_t *opts);
/**
* Sets the number of breadcrumbs being tracked and attached to events.
*
* Defaults to 100.
*/
SENTRY_API void sentry_options_set_max_breadcrumbs(
sentry_options_t *opts, size_t max_breadcrumbs);
/**
* Gets the number of breadcrumbs being tracked and attached to events.
*/
SENTRY_API size_t sentry_options_get_max_breadcrumbs(
const sentry_options_t *opts);
/**
* Type of the callback for logger function.
*/
typedef void (*sentry_logger_function_t)(
sentry_level_t level, const char *message, va_list args, void *userdata);
/**
* Sets the sentry-native logger function.
*
* Used for logging debug events when the `debug` option is set to true.
*/
SENTRY_API void sentry_options_set_logger(
sentry_options_t *opts, sentry_logger_function_t func, void *userdata);
/**
* Enables or disables automatic session tracking.
*
* Automatic session tracking is enabled by default and is equivalent to calling
* `sentry_start_session` after startup.
* There can only be one running session, and the current session will always be
* closed implicitly by `sentry_close`, when starting a new session with
* `sentry_start_session`, or manually by calling `sentry_end_session`.
*/
SENTRY_API void sentry_options_set_auto_session_tracking(
sentry_options_t *opts, int val);
/**
* Returns true if automatic session tracking is enabled.
*/
SENTRY_API int sentry_options_get_auto_session_tracking(
const sentry_options_t *opts);
/**
* Enables or disables user consent requirements for uploads.
*
* This disables uploads until the user has given the consent to the SDK.
* Consent itself is given with `sentry_user_consent_give` and
* `sentry_user_consent_revoke`.
*/
SENTRY_API void sentry_options_set_require_user_consent(
sentry_options_t *opts, int val);
/**
* Returns true if user consent is required.
*/
SENTRY_API int sentry_options_get_require_user_consent(
const sentry_options_t *opts);
/**
* Enables or disables on-device symbolication of stack traces.
*
* This feature can have a performance impact, and is enabled by default on
* Android. It is usually only needed when it is not possible to provide debug
* information files for system libraries which are needed for serverside
* symbolication.
*/
SENTRY_API void sentry_options_set_symbolize_stacktraces(
sentry_options_t *opts, int val);
/**
* Returns true if on-device symbolication of stack traces is enabled.
*/
SENTRY_API int sentry_options_get_symbolize_stacktraces(
const sentry_options_t *opts);
/**
* Adds a new attachment to be sent along.
*
* `path` is assumed to be in platform-specific filesystem path encoding.
* API Users on windows are encouraged to use `sentry_options_add_attachmentw`
* instead.
*/
SENTRY_API void sentry_options_add_attachment(
sentry_options_t *opts, const char *path);
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SENTRY_API void sentry_options_add_attachment_n(
sentry_options_t *opts, const char *path, size_t path_len);
/**
* Sets the path to the crashpad handler if the crashpad backend is used.
*
* The path defaults to the `crashpad_handler`/`crashpad_handler.exe`
* executable, depending on platform, which is expected to be present in the
* same directory as the app executable.
*
* It is recommended that library users set an explicit handler path, depending
* on the directory/executable structure of their app.
*
* `path` is assumed to be in platform-specific filesystem path encoding.
* API Users on windows are encouraged to use `sentry_options_set_handler_pathw`
* instead.
*/
SENTRY_API void sentry_options_set_handler_path(
sentry_options_t *opts, const char *path);
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SENTRY_API void sentry_options_set_handler_path_n(
sentry_options_t *opts, const char *path, size_t path_len);
/**
* Sets the path to the Sentry Database Directory.
*
* Sentry will use this path to persist user consent, sessions, and other
* artifacts in case of a crash. This will also be used by the crashpad backend
* if it is configured.
*
* The directory is used for "cached" data, which needs to persist across
* application restarts to ensure proper flagging of release-health sessions,
* but might otherwise be safely purged regularly.
*
* It is roughly equivalent to the type of `AppData/Local` on Windows and
* `XDG_CACHE_HOME` on Linux, and equivalent runtime directories on other
* platforms.
*
* It is recommended that users set an explicit absolute path, depending
* on their apps runtime directory. The path will be created if it does not
* exist, and will be resolved to an absolute path inside of `sentry_init`. The
* directory should not be shared with other application data/configuration, as
* sentry-native will enumerate and possibly delete files in that directory. An
* example might be `$XDG_CACHE_HOME/your-app/sentry`
*
* If no explicit path it set, sentry-native will default to `.sentry-native` in
* the current working directory, with no specific platform-specific handling.
*
* `path` is assumed to be in platform-specific filesystem path encoding.
* API Users on windows are encouraged to use
* `sentry_options_set_database_pathw` instead.
*/
SENTRY_API void sentry_options_set_database_path(
sentry_options_t *opts, const char *path);
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SENTRY_API void sentry_options_set_database_path_n(
sentry_options_t *opts, const char *path, size_t path_len);
#ifdef SENTRY_PLATFORM_WINDOWS
/**
* Wide char version of `sentry_options_add_attachment`.
*/
SENTRY_API void sentry_options_add_attachmentw(
sentry_options_t *opts, const wchar_t *path);
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SENTRY_API void sentry_options_add_attachmentw_n(
sentry_options_t *opts, const wchar_t *path, size_t path_len);
/**
* Wide char version of `sentry_options_set_handler_path`.
*/
SENTRY_API void sentry_options_set_handler_pathw(
sentry_options_t *opts, const wchar_t *path);
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SENTRY_API void sentry_options_set_handler_pathw_n(
sentry_options_t *opts, const wchar_t *path, size_t path_len);
/**
* Wide char version of `sentry_options_set_database_path`.
*/
SENTRY_API void sentry_options_set_database_pathw(
sentry_options_t *opts, const wchar_t *path);
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SENTRY_API void sentry_options_set_database_pathw_n(
sentry_options_t *opts, const wchar_t *path, size_t path_len);
#endif
/**
* Enables forwarding to the system crash reporter. Disabled by default.
*
* This setting only has an effect when using Crashpad on macOS. If enabled,
* Crashpad forwards crashes to the macOS system crash reporter. Depending
* on the crash, this may impact the crash time. Even if enabled, Crashpad
* may choose not to forward certain crashes.
*/
SENTRY_API void sentry_options_set_system_crash_reporter_enabled(
sentry_options_t *opts, int enabled);
/**
* Sets the maximum time (in milliseconds) to wait for the asynchronous tasks to
* end on shutdown, before attempting a forced termination.
*/
SENTRY_API void sentry_options_set_shutdown_timeout(
sentry_options_t *opts, uint64_t shutdown_timeout);
/**
* Gets the maximum time (in milliseconds) to wait for the asynchronous tasks to
* end on shutdown, before attempting a forced termination.
*/
SENTRY_API uint64_t sentry_options_get_shutdown_timeout(sentry_options_t *opts);
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/**
* Sets a user-defined backend.
*
* Since creation and destruction of backends is not exposed in the API, this
* can only be used to set the backend to `NULL`, which disables the backend in
* the initialization.
*/
SENTRY_API void sentry_options_set_backend(
sentry_options_t *opts, sentry_backend_t *backend);
/* -- Global APIs -- */
/**
* Initializes the Sentry SDK with the specified options.
*
* This takes ownership of the options. After the options have been set
* they cannot be modified any more.
* Depending on the configured transport and backend, this function might not be
* fully thread-safe.
* Returns 0 on success.
*/
SENTRY_API int sentry_init(sentry_options_t *options);
/**
* Instructs the transport to flush its send queue.
*
* The `timeout` parameter is in milliseconds.
*
* Returns 0 on success, or a non-zero return value in case the timeout is hit.
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*
* Note that this function will block the thread it was called from until the
* sentry background worker has finished its work or it timed out, whichever
* comes first.
*/
SENTRY_API int sentry_flush(uint64_t timeout);
/**
* Shuts down the sentry client and forces transports to flush out.
*
* Returns 0 on success.
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*
* Note that this does not uninstall any crash handler installed by our
* backends, which will still process crashes after `sentry_close()`, except
* when using `crashpad` on Linux or the `inproc` backend.
*
* Further note that this function will block the thread it was called from
* until the sentry background worker has finished its work or it timed out,
* whichever comes first.
*/
SENTRY_API int sentry_close(void);
/**
* Shuts down the sentry client and forces transports to flush out.
*
* This is a **deprecated** alias for `sentry_close`.
*
* Returns 0 on success.
*/
SENTRY_API int sentry_shutdown(void);
/**
* This will lazily load and cache a list of all the loaded libraries.
*
* Returns a new reference to an immutable, frozen list.
* The reference must be released with `sentry_value_decref`.
*/
SENTRY_EXPERIMENTAL_API sentry_value_t sentry_get_modules_list(void);
/**
* Clears the internal module cache.
*
* For performance reasons, sentry will cache the list of loaded libraries when
* capturing events. This cache can get out-of-date when loading or unloading
* libraries at runtime. It is therefore recommended to call
* `sentry_clear_modulecache` when doing so, to make sure that the next call to
* `sentry_capture_event` will have an up-to-date module list.
*/
SENTRY_EXPERIMENTAL_API void sentry_clear_modulecache(void);
/**
* Re-initializes the Sentry backend.
*
* This is needed if a third-party library overrides the previously installed
* signal handler. Calling this function can be potentially dangerous and should
* only be done when necessary.
*
* Returns 0 on success.
*/
SENTRY_EXPERIMENTAL_API int sentry_reinstall_backend(void);
/**
* Gives user consent.
*/
SENTRY_API void sentry_user_consent_give(void);
/**
* Revokes user consent.
*/
SENTRY_API void sentry_user_consent_revoke(void);
/**
* Resets the user consent (back to unknown).
*/
SENTRY_API void sentry_user_consent_reset(void);
/**
* Checks the current state of user consent.
*/
SENTRY_API sentry_user_consent_t sentry_user_consent_get(void);
/**
* Sends a sentry event.
*
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* If returns a nil UUID if the event being passed in is a transaction, and the
* transaction will not be sent nor consumed. `sentry_transaction_finish` should
* be used to send transactions.
*/
SENTRY_API sentry_uuid_t sentry_capture_event(sentry_value_t event);
/**
* Captures an exception to be handled by the backend.
*
* This is safe to be called from a crashing thread and may not return.
*/
SENTRY_EXPERIMENTAL_API void sentry_handle_exception(
const sentry_ucontext_t *uctx);
/**
* Adds the breadcrumb to be sent in case of an event.
*/
SENTRY_API void sentry_add_breadcrumb(sentry_value_t breadcrumb);
/**
* Sets the specified user.
*/
SENTRY_API void sentry_set_user(sentry_value_t user);
/**
* Removes a user.
*/
SENTRY_API void sentry_remove_user(void);
/**
* Sets a tag.
*/
SENTRY_API void sentry_set_tag(const char *key, const char *value);
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SENTRY_API void sentry_set_tag_n(
const char *key, size_t key_len, const char *value, size_t value_len);
/**
* Removes the tag with the specified key.
*/
SENTRY_API void sentry_remove_tag(const char *key);
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SENTRY_API void sentry_remove_tag_n(const char *key, size_t key_len);
/**
* Sets extra information.
*/
SENTRY_API void sentry_set_extra(const char *key, sentry_value_t value);
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SENTRY_API void sentry_set_extra_n(
const char *key, size_t key_len, sentry_value_t value);
/**
* Removes the extra with the specified key.
*/
SENTRY_API void sentry_remove_extra(const char *key);
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SENTRY_API void sentry_remove_extra_n(const char *key, size_t key_len);
/**
* Sets a context object.
*/
SENTRY_API void sentry_set_context(const char *key, sentry_value_t value);
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SENTRY_API void sentry_set_context_n(
const char *key, size_t key_len, sentry_value_t value);
/**
* Removes the context object with the specified key.
*/
SENTRY_API void sentry_remove_context(const char *key);
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SENTRY_API void sentry_remove_context_n(const char *key, size_t key_len);
/**
* Sets the event fingerprint.
*
* This accepts a variable number of arguments, and needs to be terminated by a
* trailing `NULL`.
*/
SENTRY_API void sentry_set_fingerprint(const char *fingerprint, ...);
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SENTRY_API void sentry_set_fingerprint_n(
const char *fingerprint, size_t fingerprint_len, ...);
/**
* Removes the fingerprint.
*/
SENTRY_API void sentry_remove_fingerprint(void);
/**
* Sets the transaction.
*/
SENTRY_API void sentry_set_transaction(const char *transaction);
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SENTRY_API void sentry_set_transaction_n(
const char *transaction, size_t transaction_len);
/**
* Sets the event level.
*/
SENTRY_API void sentry_set_level(sentry_level_t level);
/**
* Sets the maximum number of spans that can be attached to a
* transaction.
*/
SENTRY_EXPERIMENTAL_API void sentry_options_set_max_spans(
sentry_options_t *opts, size_t max_spans);
/**
* Gets the maximum number of spans that can be attached to a
* transaction.
*/
SENTRY_EXPERIMENTAL_API size_t sentry_options_get_max_spans(
sentry_options_t *opts);
/**
* Sets the sample rate for transactions. Should be a double between
* `0.0` and `1.0`. Transactions will be randomly discarded during
* `sentry_transaction_finish` when the sample rate is < 1.0.
*/
SENTRY_EXPERIMENTAL_API void sentry_options_set_traces_sample_rate(
sentry_options_t *opts, double sample_rate);
/**
* Returns the sample rate for transactions.
*/
SENTRY_EXPERIMENTAL_API double sentry_options_get_traces_sample_rate(
sentry_options_t *opts);
/* -- Session APIs -- */
typedef enum {
SENTRY_SESSION_STATUS_OK,
SENTRY_SESSION_STATUS_CRASHED,
SENTRY_SESSION_STATUS_ABNORMAL,
SENTRY_SESSION_STATUS_EXITED,
} sentry_session_status_t;
/**
* Starts a new session.
*/
SENTRY_API void sentry_start_session(void);
/**
* Ends a session.
*/
SENTRY_API void sentry_end_session(void);
/**
* Ends a session with an explicit `status` code.
*/
SENTRY_EXPERIMENTAL_API void sentry_end_session_with_status(
sentry_session_status_t status);
/* -- Performance Monitoring/Tracing APIs -- */
/**
* A sentry Transaction Context.
*
* See Transaction Interface under
* https://develop.sentry.dev/sdk/performance/#new-span-and-transaction-classes
*/
struct sentry_transaction_context_s;
typedef struct sentry_transaction_context_s sentry_transaction_context_t;
/**
* A sentry Transaction.
*
* See https://develop.sentry.dev/sdk/event-payloads/transaction/
*/
struct sentry_transaction_s;
typedef struct sentry_transaction_s sentry_transaction_t;
/**
* A sentry Span.
*
* See https://develop.sentry.dev/sdk/event-payloads/span/
*/
struct sentry_span_s;
typedef struct sentry_span_s sentry_span_t;
/**
* Constructs a new Transaction Context. The returned value needs to be passed
* into `sentry_transaction_start` in order to be recorded and sent to sentry.
*
* See
* https://docs.sentry.io/platforms/native/enriching-events/transaction-name/
* for an explanation of a Transaction's `name`, and
* https://develop.sentry.dev/sdk/performance/span-operations/ for conventions
* around an `operation`'s value.
*
* Also see https://develop.sentry.dev/sdk/event-payloads/transaction/#anatomy
* for an explanation of `operation`, in addition to other properties and
* actions that can be performed on a Transaction.
*
* The returned value is not thread-safe. Users are expected to ensure that
* appropriate locking mechanisms are implemented over the Transaction Context
* if it needs to be mutated across threads. Methods operating on the
* Transaction Context will mention what kind of expectations they carry if they
* need to mutate or access the object in a thread-safe way.
*/
SENTRY_EXPERIMENTAL_API sentry_transaction_context_t *
sentry_transaction_context_new(const char *name, const char *operation);
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SENTRY_EXPERIMENTAL_API sentry_transaction_context_t *
sentry_transaction_context_new_n(const char *name, size_t name_len,
const char *operation, size_t operation_len);
/**
* Sets the `name` on a Transaction Context, which will be used in the
* Transaction constructed off of the context.
*
* The Transaction Context should not be mutated by other functions while
* setting a name on it.
*/
SENTRY_EXPERIMENTAL_API void sentry_transaction_context_set_name(
sentry_transaction_context_t *tx_cxt, const char *name);
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SENTRY_EXPERIMENTAL_API void sentry_transaction_context_set_name_n(
sentry_transaction_context_t *tx_cxt, const char *name, size_t name_len);
/**
* Sets the `operation` on a Transaction Context, which will be used in the
* Transaction constructed off of the context
*
* See https://develop.sentry.dev/sdk/performance/span-operations/ for
* conventions on `operation`s.
*
* The Transaction Context should not be mutated by other functions while
* setting an operation on it.
*/
SENTRY_EXPERIMENTAL_API void sentry_transaction_context_set_operation(
sentry_transaction_context_t *tx_cxt, const char *operation);
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SENTRY_EXPERIMENTAL_API void sentry_transaction_context_set_operation_n(
sentry_transaction_context_t *tx_cxt, const char *operation,
size_t operation_len);
/**
* Sets the `sampled` field on a Transaction Context, which will be used in the
* Transaction constructed off of the context.
*
* When passed any value above 0, the Transaction will bypass all sampling
* options and always be sent to sentry. If passed 0, this Transaction and its
* child spans will never be sent to sentry.
*
* The Transaction Context should not be mutated by other functions while
* setting `sampled` on it.
*/
SENTRY_EXPERIMENTAL_API void sentry_transaction_context_set_sampled(
sentry_transaction_context_t *tx_cxt, int sampled);
/**
* Removes the `sampled` field on a Transaction Context, which will be used in
* the Transaction constructed off of the context.
*
* The Transaction will use the sampling rate as defined in `sentry_options`.
*
* The Transaction Context should not be mutated by other functions while
* removing `sampled`.
*/
SENTRY_EXPERIMENTAL_API void sentry_transaction_context_remove_sampled(
sentry_transaction_context_t *tx_cxt);
/**
* Update the Transaction Context with the given HTTP header key/value pair.
*
* This is used to propagate distributed tracing metadata from upstream
* services. Therefore, the headers of incoming requests should be fed into this
* function so that sentry is able to continue a trace that was started by an
* upstream service.
*/
SENTRY_EXPERIMENTAL_API void sentry_transaction_context_update_from_header(
sentry_transaction_context_t *tx_cxt, const char *key, const char *value);
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SENTRY_EXPERIMENTAL_API void sentry_transaction_context_update_from_header_n(
sentry_transaction_context_t *tx_cxt, const char *key, size_t key_len,
const char *value, size_t value_len);
/**
* Starts a new Transaction based on the provided context, restored from an
* external integration (i.e. a span from a different SDK) or manually
* constructed by a user.
*
* The second parameter is a custom Sampling Context to be used with a Traces
* Sampler to make a more informed sampling decision. The SDK does not currently
* support a custom Traces Sampler and this parameter is ignored for the time
* being but needs to be provided.
*
* Returns a Transaction, which is expected to be manually managed by the
* caller. Manual management involves ensuring that `sentry_transaction_finish`
* is invoked for the Transaction, and that the caller manually starts and
* finishes any child Spans as needed on the Transaction.
*
* Not invoking `sentry_transaction_finish` with the returned Transaction means
* it will be discarded, and will not be sent to sentry.
*
* To ensure that any Events or Message Events are associated with this
* Transaction while it is active, invoke and pass in the Transaction returned
* by this function to `sentry_set_transaction_object`. Further documentation on
* this can be found in `sentry_set_transaction_object`'s docstring.
*
* Takes ownership of `transaction_context`. A Transaction Context cannot be
* modified or re-used after it is used to start a Transaction.
*
* The returned value is not thread-safe. Users are expected to ensure that
* appropriate locking mechanisms are implemented over the Transaction if it
* needs to be mutated across threads. Methods operating on the Transaction will
* mention what kind of expectations they carry if they need to mutate or access
* the object in a thread-safe way.
*/
SENTRY_EXPERIMENTAL_API sentry_transaction_t *sentry_transaction_start(
sentry_transaction_context_t *tx_cxt, sentry_value_t sampling_ctx);
/**
* Finishes and sends a Transaction to sentry. The event ID of the Transaction
* will be returned if this was successful; A nil UUID will be returned
* otherwise.
*
* Always takes ownership of `transaction`, regardless of whether the operation
* was successful or not. A Transaction cannot be modified or re-used after it
* is finished.
*/
SENTRY_EXPERIMENTAL_API sentry_uuid_t sentry_transaction_finish(
sentry_transaction_t *tx);
/**
* Sets the Transaction so any Events sent while the Transaction
* is active will be associated with the Transaction.
*
* If the Transaction being passed in is unsampled, it will still be associated
* with any new Events. This will lead to some Events pointing to orphan or
* missing traces in sentry, see
* https://docs.sentry.io/product/sentry-basics/tracing/trace-view/#orphan-traces-and-broken-subtraces
*
* This increases the number of references pointing to the Transaction. Invoke
* `sentry_transaction_finish` to remove the Transaction set by this function as
* well as its reference by passing in the same Transaction as the one passed
* into this function.
*/
SENTRY_EXPERIMENTAL_API void sentry_set_transaction_object(
sentry_transaction_t *tx);
/**
* Sets the Span so any Events sent while the Span
* is active will be associated with the Span.
*
* This increases the number of references pointing to the Span. Invoke
* `sentry_span_finish` to remove the Span set by this function as well
* as its reference by passing in the same Span as the one passed into
* this function.
*/
SENTRY_EXPERIMENTAL_API void sentry_set_span(sentry_span_t *span);
/**
* Starts a new Span.
*
* The return value of `sentry_transaction_start` should be passed in as
* `parent`.
*
* Both `operation` and `description` can be null, but it is recommended to
* supply the former. See
* https://develop.sentry.dev/sdk/performance/span-operations/ for conventions
* around operations.
*
* See https://develop.sentry.dev/sdk/event-payloads/span/ for a description of
* the created Span's properties and expectations for `operation` and
* `description`.
*
* Returns a value that should be passed into `sentry_span_finish`. Not
* finishing the Span means it will be discarded, and will not be sent to
* sentry. `sentry_value_null` will be returned if the child Span could not be
* created.
*
* To ensure that any Events or Message Events are associated with this
* Span while it is active, invoke and pass in the Span returned
* by this function to `sentry_set_span`. Further documentation on this can be
* found in `sentry_set_span`'s docstring.
*
* This increases the number of references pointing to the Transaction.
*
* The returned value is not thread-safe. Users are expected to ensure that
* appropriate locking mechanisms are implemented over the Span if it needs
* to be mutated across threads. Methods operating on the Span will mention what
* kind of expectations they carry if they need to mutate or access the object
* in a thread-safe way.
*/
SENTRY_EXPERIMENTAL_API sentry_span_t *sentry_transaction_start_child(
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sentry_transaction_t *parent, const char *operation,
const char *description);
SENTRY_EXPERIMENTAL_API sentry_span_t *sentry_transaction_start_child_n(
sentry_transaction_t *parent, const char *operation, size_t operation_len,
const char *description, size_t description_len);
/**
* Starts a new Span.
*
* The return value of `sentry_span_start_child` may be passed in as `parent`.
*
* Both `operation` and `description` can be null, but it is recommended to
* supply the former. See
* https://develop.sentry.dev/sdk/performance/span-operations/ for conventions
* around operations.
*
* See https://develop.sentry.dev/sdk/event-payloads/span/ for a description of
* the created Span's properties and expectations for `operation` and
* `description`.
*
* Returns a value that should be passed into `sentry_span_finish`. Not
* finishing the Span means it will be discarded, and will not be sent to
* sentry. `sentry_value_null` will be returned if the child Span could not be
* created.
*
* To ensure that any Events or Message Events are associated with this
* Span while it is active, invoke and pass in the Span returned
* by this function to `sentry_set_span`. Further documentation on this can be
* found in `sentry_set_span`'s docstring.
*
* The returned value is not thread-safe. Users are expected to ensure that
* appropriate locking mechanisms are implemented over the Span if it needs
* to be mutated across threads. Methods operating on the Span will mention what
* kind of expectations they carry if they need to mutate or access the object
* in a thread-safe way.
*/
SENTRY_EXPERIMENTAL_API sentry_span_t *sentry_span_start_child(
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sentry_span_t *parent, const char *operation, const char *description);
SENTRY_EXPERIMENTAL_API sentry_span_t *sentry_span_start_child_n(
sentry_span_t *parent, const char *operation, size_t operation_len,
const char *description, size_t description_len);
/**
* Finishes a Span.
*
* This takes ownership of `span`. A Span cannot be modified or re-used after it
* is finished.
*
* This will mutate the `span`'s containing Transaction, so the containing
* Transaction should also not be mutated by other functions when finishing a
* span.
*/
SENTRY_EXPERIMENTAL_API void sentry_span_finish(sentry_span_t *span);
/**
* Sets a tag on a Transaction to the given string value.
*
* Tags longer than 200 bytes will be truncated.
*
* The Transaction should not be mutated by other functions while a tag is being
* set on it.
*/
SENTRY_EXPERIMENTAL_API void sentry_transaction_set_tag(
sentry_transaction_t *transaction, const char *tag, const char *value);
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SENTRY_EXPERIMENTAL_API void sentry_transaction_set_tag_n(
sentry_transaction_t *transaction, const char *tag, size_t tag_len,
const char *value, size_t value_len);
/**
* Removes a tag from a Transaction.
*
* The Transaction should not be mutated by other functions while a tag is being
* removed from it.
*/
SENTRY_EXPERIMENTAL_API void sentry_transaction_remove_tag(
sentry_transaction_t *transaction, const char *tag);
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SENTRY_EXPERIMENTAL_API void sentry_transaction_remove_tag_n(
sentry_transaction_t *transaction, const char *tag, size_t tag_len);
/**
* Sets the given key in a Transaction's "data" section to the given value.
*
* The Transaction should not be mutated by other functions while data is being
* set on it.
*/
SENTRY_EXPERIMENTAL_API void sentry_transaction_set_data(
sentry_transaction_t *transaction, const char *key, sentry_value_t value);
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SENTRY_EXPERIMENTAL_API void sentry_transaction_set_data_n(
sentry_transaction_t *transaction, const char *key, size_t key_len,
sentry_value_t value);
/**
* Removes a key from a Transaction's "data" section.
*
* The Transaction should not be mutated by other functions while data is being
* removed from it.
*/
SENTRY_EXPERIMENTAL_API void sentry_transaction_remove_data(
sentry_transaction_t *transaction, const char *key);
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SENTRY_EXPERIMENTAL_API void sentry_transaction_remove_data_n(
sentry_transaction_t *transaction, const char *key, size_t key_len);
/**
* Sets a tag on a Span to the given string value.
*
* Tags longer than 200 bytes will be truncated.
*
* The Span should not be mutated by other functions while a tag is being set on
* it.
*/
SENTRY_EXPERIMENTAL_API void sentry_span_set_tag(
sentry_span_t *span, const char *tag, const char *value);
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SENTRY_EXPERIMENTAL_API void sentry_span_set_tag_n(sentry_span_t *span,
const char *tag, size_t tag_len, const char *value, size_t value_len);
/**
* Removes a tag from a Span.
*
* The Span should not be mutated by other functions while a tag is being
* removed from it.
*/
SENTRY_EXPERIMENTAL_API void sentry_span_remove_tag(
sentry_span_t *span, const char *tag);
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SENTRY_EXPERIMENTAL_API void sentry_span_remove_tag_n(
sentry_span_t *span, const char *tag, size_t tag_len);
/**
* Sets the given key in a Span's "data" section to the given value.
*
* The Span should not be mutated by other functions while data is being set on
* it.
*/
SENTRY_EXPERIMENTAL_API void sentry_span_set_data(
sentry_span_t *span, const char *key, sentry_value_t value);
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SENTRY_EXPERIMENTAL_API void sentry_span_set_data_n(
sentry_span_t *span, const char *key, size_t key_len, sentry_value_t value);
/**
* Removes a key from a Span's "data" section.
*
* The Span should not be mutated by other functions while data is being removed
* from it.
*/
SENTRY_EXPERIMENTAL_API void sentry_span_remove_data(
sentry_span_t *span, const char *key);
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SENTRY_EXPERIMENTAL_API void sentry_span_remove_data_n(
sentry_span_t *span, const char *key, size_t key_len);
/**
* Sets a Transaction's name.
*
* The Transaction should not be mutated by other functions while setting its
* name.
*/
SENTRY_EXPERIMENTAL_API void sentry_transaction_set_name(
sentry_transaction_t *transaction, const char *name);
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SENTRY_EXPERIMENTAL_API void sentry_transaction_set_name_n(
sentry_transaction_t *transaction, const char *name, size_t name_len);
/**
* The status of a Span or Transaction.
*
* See https://develop.sentry.dev/sdk/event-payloads/span/ for documentation.
*/
typedef enum {
// The operation completed successfully.
// HTTP status 100..299 + successful redirects from the 3xx range.
SENTRY_SPAN_STATUS_OK,
// The operation was cancelled (typically by the user).
SENTRY_SPAN_STATUS_CANCELLED,
// Unknown. Any non-standard HTTP status code.
// "We do not know whether the transaction failed or succeeded."
SENTRY_SPAN_STATUS_UNKNOWN,
// Client specified an invalid argument. 4xx.
// Note that this differs from FailedPrecondition. InvalidArgument
// indicates arguments that are problematic regardless of the
// state of the system.
SENTRY_SPAN_STATUS_INVALID_ARGUMENT,
// Deadline expired before operation could complete.
// For operations that change the state of the system, this error may be
// returned even if the operation has been completed successfully.
// HTTP redirect loops and 504 Gateway Timeout.
SENTRY_SPAN_STATUS_DEADLINE_EXCEEDED,
// 404 Not Found. Some requested entity (file or directory) was not found.
SENTRY_SPAN_STATUS_NOT_FOUND,
// Already exists (409)
// Some entity that we attempted to create already exists.
SENTRY_SPAN_STATUS_ALREADY_EXISTS,
// 403 Forbidden
// The caller does not have permission to execute the specified operation.
SENTRY_SPAN_STATUS_PERMISSION_DENIED,
// 429 Too Many Requests
// Some resource has been exhausted, perhaps a per-user quota or perhaps
// the entire file system is out of space.
SENTRY_SPAN_STATUS_RESOURCE_EXHAUSTED,
// Operation was rejected because the system is not in a state required for
// the operation's execution.
SENTRY_SPAN_STATUS_FAILED_PRECONDITION,
// The operation was aborted, typically due to a concurrency issue.
SENTRY_SPAN_STATUS_ABORTED,
// Operation was attempted past the valid range.
SENTRY_SPAN_STATUS_OUT_OF_RANGE,
// 501 Not Implemented
// Operation is not implemented or not enabled.
SENTRY_SPAN_STATUS_UNIMPLEMENTED,
// Other/generic 5xx
SENTRY_SPAN_STATUS_INTERNAL_ERROR,
// 503 Service Unavailable
SENTRY_SPAN_STATUS_UNAVAILABLE,
// Unrecoverable data loss or corruption
SENTRY_SPAN_STATUS_DATA_LOSS,
// 401 Unauthorized (actually does mean unauthenticated according to RFC
// 7235)
// Prefer PermissionDenied if a user is logged in.
SENTRY_SPAN_STATUS_UNAUTHENTICATED,
} sentry_span_status_t;
/**
* Sets a Span's status.
*
* The Span should not be mutated by other functions while setting its status.
*/
SENTRY_EXPERIMENTAL_API void sentry_span_set_status(
sentry_span_t *span, sentry_span_status_t status);
/**
* Sets a Transaction's status.
*
* The Transaction should not be mutated by other functions while setting its
* status.
*/
SENTRY_EXPERIMENTAL_API void sentry_transaction_set_status(
sentry_transaction_t *tx, sentry_span_status_t status);
/**
* Type of the `iter_headers` callback.
*
* The callback is being called with HTTP header key/value pairs.
* These headers can be attached to outgoing HTTP requests to propagate
* distributed tracing metadata to downstream services.
*
*/
typedef void (*sentry_iter_headers_function_t)(
const char *key, const char *value, void *userdata);
/**
* Iterates the distributed tracing HTTP headers for the given span.
*/
SENTRY_EXPERIMENTAL_API void sentry_span_iter_headers(sentry_span_t *span,
sentry_iter_headers_function_t callback, void *userdata);
/**
* Iterates the distributed tracing HTTP headers for the given transaction.
*/
SENTRY_EXPERIMENTAL_API void sentry_transaction_iter_headers(
sentry_transaction_t *tx, sentry_iter_headers_function_t callback,
void *userdata);
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/**
* Returns whether the application has crashed on the last run.
*
* Notes:
* * The underlying value is set by sentry_init() - it must be called first.
* * Call sentry_clear_crashed_last_run() to reset for the next app run.
*
* Possible return values:
* 1 = the last run was a crash
* 0 = no crash recognized
* -1 = sentry_init() hasn't been called yet
*/
SENTRY_EXPERIMENTAL_API int sentry_get_crashed_last_run(void);
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/**
* Clear the status of the "crashed-last-run". You should explicitly call
* this after sentry_init() if you're using sentry_get_crashed_last_run().
* Otherwise, the same information is reported on any subsequent runs.
*
* Notes:
* * This doesn't change the value of sentry_get_crashed_last_run() yet.
* However, if sentry_init() is called again, the value will change.
* * This may only be called after sentry_init() and before sentry_close().
*
* Returns 0 on success, 1 on error.
*/
SENTRY_EXPERIMENTAL_API int sentry_clear_crashed_last_run(void);
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/**
* Sentry SDK version.
*/
SENTRY_EXPERIMENTAL_API const char *sentry_sdk_version(void);
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/**
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* Sentry SDK name set during build time.
* Deprecated: Please use sentry_options_get_sdk_name instead.
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*/
SENTRY_EXPERIMENTAL_API const char *sentry_sdk_name(void);
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/**
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* Sentry SDK User-Agent set during build time.
* Deprecated: Please use sentry_options_get_user_agent instead.
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*/
SENTRY_EXPERIMENTAL_API const char *sentry_sdk_user_agent(void);
#ifdef __cplusplus
}
#endif
#endif