425 lines
12 KiB
Go
425 lines
12 KiB
Go
package sentry
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import (
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"context"
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"fmt"
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"sync"
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"time"
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)
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type contextKey int
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// Keys used to store values in a Context. Use with Context.Value to access
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// values stored by the SDK.
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const (
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// HubContextKey is the key used to store the current Hub.
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HubContextKey = contextKey(1)
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// RequestContextKey is the key used to store the current http.Request.
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RequestContextKey = contextKey(2)
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)
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// defaultMaxBreadcrumbs is the default maximum number of breadcrumbs added to
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// an event. Can be overwritten with the maxBreadcrumbs option.
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const defaultMaxBreadcrumbs = 30
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// maxBreadcrumbs is the absolute maximum number of breadcrumbs added to an
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// event. The maxBreadcrumbs option cannot be set higher than this value.
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const maxBreadcrumbs = 100
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// currentHub is the initial Hub with no Client bound and an empty Scope.
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var currentHub = NewHub(nil, NewScope())
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// Hub is the central object that manages scopes and clients.
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//
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// This can be used to capture events and manage the scope.
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// The default hub that is available automatically.
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//
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// In most situations developers do not need to interface the hub. Instead
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// toplevel convenience functions are exposed that will automatically dispatch
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// to global (CurrentHub) hub. In some situations this might not be
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// possible in which case it might become necessary to manually work with the
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// hub. This is for instance the case when working with async code.
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type Hub struct {
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mu sync.RWMutex
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stack *stack
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lastEventID EventID
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}
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type layer struct {
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// mu protects concurrent reads and writes to client.
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mu sync.RWMutex
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client *Client
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// scope is read-only, not protected by mu.
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scope *Scope
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}
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// Client returns the layer's client. Safe for concurrent use.
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func (l *layer) Client() *Client {
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l.mu.RLock()
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defer l.mu.RUnlock()
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return l.client
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}
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// SetClient sets the layer's client. Safe for concurrent use.
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func (l *layer) SetClient(c *Client) {
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l.mu.Lock()
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defer l.mu.Unlock()
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l.client = c
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}
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type stack []*layer
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// NewHub returns an instance of a Hub with provided Client and Scope bound.
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func NewHub(client *Client, scope *Scope) *Hub {
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hub := Hub{
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stack: &stack{{
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client: client,
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scope: scope,
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}},
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}
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return &hub
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}
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// CurrentHub returns an instance of previously initialized Hub stored in the global namespace.
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func CurrentHub() *Hub {
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return currentHub
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}
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// LastEventID returns the ID of the last event (error or message) captured
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// through the hub and sent to the underlying transport.
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//
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// Transactions and events dropped by sampling or event processors do not change
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// the last event ID.
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//
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// LastEventID is a convenience method to cover use cases in which errors are
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// captured indirectly and the ID is needed. For example, it can be used as part
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// of an HTTP middleware to log the ID of the last error, if any.
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//
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// For more flexibility, consider instead using the ClientOptions.BeforeSend
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// function or event processors.
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func (hub *Hub) LastEventID() EventID {
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hub.mu.RLock()
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defer hub.mu.RUnlock()
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return hub.lastEventID
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}
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// stackTop returns the top layer of the hub stack. Valid hubs always have at
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// least one layer, therefore stackTop always return a non-nil pointer.
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func (hub *Hub) stackTop() *layer {
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hub.mu.RLock()
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defer hub.mu.RUnlock()
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stack := hub.stack
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stackLen := len(*stack)
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top := (*stack)[stackLen-1]
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return top
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}
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// Clone returns a copy of the current Hub with top-most scope and client copied over.
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func (hub *Hub) Clone() *Hub {
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top := hub.stackTop()
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scope := top.scope
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if scope != nil {
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scope = scope.Clone()
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}
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return NewHub(top.Client(), scope)
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}
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// Scope returns top-level Scope of the current Hub or nil if no Scope is bound.
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func (hub *Hub) Scope() *Scope {
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top := hub.stackTop()
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return top.scope
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}
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// Client returns top-level Client of the current Hub or nil if no Client is bound.
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func (hub *Hub) Client() *Client {
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top := hub.stackTop()
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return top.Client()
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}
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// PushScope pushes a new scope for the current Hub and reuses previously bound Client.
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func (hub *Hub) PushScope() *Scope {
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top := hub.stackTop()
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var scope *Scope
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if top.scope != nil {
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scope = top.scope.Clone()
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} else {
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scope = NewScope()
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}
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hub.mu.Lock()
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defer hub.mu.Unlock()
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*hub.stack = append(*hub.stack, &layer{
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client: top.Client(),
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scope: scope,
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})
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return scope
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}
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// PopScope drops the most recent scope.
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//
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// Calls to PopScope must be coordinated with PushScope. For most cases, using
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// WithScope should be more convenient.
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//
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// Calls to PopScope that do not match previous calls to PushScope are silently
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// ignored.
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func (hub *Hub) PopScope() {
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hub.mu.Lock()
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defer hub.mu.Unlock()
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stack := *hub.stack
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stackLen := len(stack)
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if stackLen > 1 {
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// Never pop the last item off the stack, the stack should always have
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// at least one item.
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*hub.stack = stack[0 : stackLen-1]
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}
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}
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// BindClient binds a new Client for the current Hub.
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func (hub *Hub) BindClient(client *Client) {
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top := hub.stackTop()
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top.SetClient(client)
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}
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// WithScope runs f in an isolated temporary scope.
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//
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// It is useful when extra data should be sent with a single capture call, for
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// instance a different level or tags.
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//
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// The scope passed to f starts as a clone of the current scope and can be
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// freely modified without affecting the current scope.
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//
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// It is a shorthand for PushScope followed by PopScope.
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func (hub *Hub) WithScope(f func(scope *Scope)) {
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scope := hub.PushScope()
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defer hub.PopScope()
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f(scope)
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}
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// ConfigureScope runs f in the current scope.
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//
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// It is useful to set data that applies to all events that share the current
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// scope.
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//
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// Modifying the scope affects all references to the current scope.
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//
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// See also WithScope for making isolated temporary changes.
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func (hub *Hub) ConfigureScope(f func(scope *Scope)) {
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scope := hub.Scope()
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f(scope)
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}
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// CaptureEvent calls the method of a same name on currently bound Client instance
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// passing it a top-level Scope.
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// Returns EventID if successfully, or nil if there's no Scope or Client available.
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func (hub *Hub) CaptureEvent(event *Event) *EventID {
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client, scope := hub.Client(), hub.Scope()
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if client == nil || scope == nil {
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return nil
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}
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eventID := client.CaptureEvent(event, nil, scope)
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if event.Type != transactionType && eventID != nil {
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hub.mu.Lock()
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hub.lastEventID = *eventID
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hub.mu.Unlock()
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}
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return eventID
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}
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// CaptureMessage calls the method of a same name on currently bound Client instance
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// passing it a top-level Scope.
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// Returns EventID if successfully, or nil if there's no Scope or Client available.
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func (hub *Hub) CaptureMessage(message string) *EventID {
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client, scope := hub.Client(), hub.Scope()
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if client == nil || scope == nil {
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return nil
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}
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eventID := client.CaptureMessage(message, nil, scope)
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if eventID != nil {
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hub.mu.Lock()
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hub.lastEventID = *eventID
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hub.mu.Unlock()
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}
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return eventID
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}
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// CaptureException calls the method of a same name on currently bound Client instance
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// passing it a top-level Scope.
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// Returns EventID if successfully, or nil if there's no Scope or Client available.
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func (hub *Hub) CaptureException(exception error) *EventID {
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client, scope := hub.Client(), hub.Scope()
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if client == nil || scope == nil {
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return nil
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}
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eventID := client.CaptureException(exception, &EventHint{OriginalException: exception}, scope)
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if eventID != nil {
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hub.mu.Lock()
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hub.lastEventID = *eventID
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hub.mu.Unlock()
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}
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return eventID
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}
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// CaptureCheckIn calls the method of the same name on currently bound Client instance
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// passing it a top-level Scope.
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// Returns CheckInID if the check-in was captured successfully, or nil otherwise.
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func (hub *Hub) CaptureCheckIn(checkIn *CheckIn, monitorConfig *MonitorConfig) *EventID {
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client, scope := hub.Client(), hub.Scope()
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if client == nil {
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return nil
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}
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return client.CaptureCheckIn(checkIn, monitorConfig, scope)
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}
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// AddBreadcrumb records a new breadcrumb.
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//
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// The total number of breadcrumbs that can be recorded are limited by the
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// configuration on the client.
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func (hub *Hub) AddBreadcrumb(breadcrumb *Breadcrumb, hint *BreadcrumbHint) {
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client := hub.Client()
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// If there's no client, just store it on the scope straight away
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if client == nil {
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hub.Scope().AddBreadcrumb(breadcrumb, maxBreadcrumbs)
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return
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}
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max := client.options.MaxBreadcrumbs
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if max < 0 {
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return
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}
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if client.options.BeforeBreadcrumb != nil {
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if hint == nil {
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hint = &BreadcrumbHint{}
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}
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if breadcrumb = client.options.BeforeBreadcrumb(breadcrumb, hint); breadcrumb == nil {
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Logger.Println("breadcrumb dropped due to BeforeBreadcrumb callback.")
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return
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}
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}
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if max == 0 {
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max = defaultMaxBreadcrumbs
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} else if max > maxBreadcrumbs {
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max = maxBreadcrumbs
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}
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hub.Scope().AddBreadcrumb(breadcrumb, max)
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}
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// Recover calls the method of a same name on currently bound Client instance
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// passing it a top-level Scope.
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// Returns EventID if successfully, or nil if there's no Scope or Client available.
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func (hub *Hub) Recover(err interface{}) *EventID {
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if err == nil {
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err = recover()
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}
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client, scope := hub.Client(), hub.Scope()
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if client == nil || scope == nil {
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return nil
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}
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return client.Recover(err, &EventHint{RecoveredException: err}, scope)
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}
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// RecoverWithContext calls the method of a same name on currently bound Client instance
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// passing it a top-level Scope.
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// Returns EventID if successfully, or nil if there's no Scope or Client available.
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func (hub *Hub) RecoverWithContext(ctx context.Context, err interface{}) *EventID {
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if err == nil {
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err = recover()
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}
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client, scope := hub.Client(), hub.Scope()
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if client == nil || scope == nil {
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return nil
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}
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return client.RecoverWithContext(ctx, err, &EventHint{RecoveredException: err}, scope)
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}
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// Flush waits until the underlying Transport sends any buffered events to the
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// Sentry server, blocking for at most the given timeout. It returns false if
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// the timeout was reached. In that case, some events may not have been sent.
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//
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// Flush should be called before terminating the program to avoid
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// unintentionally dropping events.
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//
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// Do not call Flush indiscriminately after every call to CaptureEvent,
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// CaptureException or CaptureMessage. Instead, to have the SDK send events over
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// the network synchronously, configure it to use the HTTPSyncTransport in the
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// call to Init.
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func (hub *Hub) Flush(timeout time.Duration) bool {
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client := hub.Client()
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if client == nil {
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return false
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}
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return client.Flush(timeout)
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}
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// GetTraceparent returns the current Sentry traceparent string, to be used as a HTTP header value
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// or HTML meta tag value.
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// This function is context aware, as in it either returns the traceparent based
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// on the current span, or the scope's propagation context.
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func (hub *Hub) GetTraceparent() string {
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scope := hub.Scope()
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if scope.span != nil {
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return scope.span.ToSentryTrace()
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}
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return fmt.Sprintf("%s-%s", scope.propagationContext.TraceID, scope.propagationContext.SpanID)
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}
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// GetBaggage returns the current Sentry baggage string, to be used as a HTTP header value
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// or HTML meta tag value.
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// This function is context aware, as in it either returns the baggage based
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// on the current span or the scope's propagation context.
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func (hub *Hub) GetBaggage() string {
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scope := hub.Scope()
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if scope.span != nil {
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return scope.span.ToBaggage()
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}
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return scope.propagationContext.DynamicSamplingContext.String()
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}
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// HasHubOnContext checks whether Hub instance is bound to a given Context struct.
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func HasHubOnContext(ctx context.Context) bool {
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_, ok := ctx.Value(HubContextKey).(*Hub)
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return ok
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}
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// GetHubFromContext tries to retrieve Hub instance from the given Context struct
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// or return nil if one is not found.
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func GetHubFromContext(ctx context.Context) *Hub {
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if hub, ok := ctx.Value(HubContextKey).(*Hub); ok {
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return hub
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}
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return nil
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}
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// hubFromContext returns either a hub stored in the context or the current hub.
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// The return value is guaranteed to be non-nil, unlike GetHubFromContext.
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func hubFromContext(ctx context.Context) *Hub {
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if hub, ok := ctx.Value(HubContextKey).(*Hub); ok {
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return hub
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}
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return currentHub
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}
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// SetHubOnContext stores given Hub instance on the Context struct and returns a new Context.
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func SetHubOnContext(ctx context.Context, hub *Hub) context.Context {
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return context.WithValue(ctx, HubContextKey, hub)
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}
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