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restic/vendor/cloud.google.com/go/cmd/go-cloud-debug-agent/internal/breakpoints/breakpoints.go
2017-08-06 21:47:56 +02:00

175 lines
6.2 KiB
Go

// Copyright 2016 Google Inc. All Rights Reserved.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
// Package breakpoints handles breakpoint requests we get from the user through
// the Debuglet Controller, and manages corresponding breakpoints set in the code.
package breakpoints
import (
"log"
"sync"
"golang.org/x/debug"
cd "google.golang.org/api/clouddebugger/v2"
)
// BreakpointStore stores the set of breakpoints for a program.
type BreakpointStore struct {
mu sync.Mutex
// prog is the program being debugged.
prog debug.Program
// idToBreakpoint is a map from breakpoint identifier to *cd.Breakpoint. The
// map value is nil if the breakpoint is inactive. A breakpoint is active if:
// - We received it from the Debuglet Controller, and it was active at the time;
// - We were able to set code breakpoints for it;
// - We have not reached any of those code breakpoints while satisfying the
// breakpoint's conditions, or the breakpoint has action LOG; and
// - The Debuglet Controller hasn't informed us the breakpoint has become inactive.
idToBreakpoint map[string]*cd.Breakpoint
// pcToBps and bpToPCs store the many-to-many relationship between breakpoints we
// received from the Debuglet Controller and the code breakpoints we set for them.
pcToBps map[uint64][]*cd.Breakpoint
bpToPCs map[*cd.Breakpoint][]uint64
// errors contains any breakpoints which couldn't be set because they caused an
// error. These are retrieved with ErrorBreakpoints, and the caller is
// expected to handle sending updates for them.
errors []*cd.Breakpoint
}
// NewBreakpointStore returns a BreakpointStore for the given program.
func NewBreakpointStore(prog debug.Program) *BreakpointStore {
return &BreakpointStore{
idToBreakpoint: make(map[string]*cd.Breakpoint),
pcToBps: make(map[uint64][]*cd.Breakpoint),
bpToPCs: make(map[*cd.Breakpoint][]uint64),
prog: prog,
}
}
// ProcessBreakpointList applies updates received from the Debuglet Controller through a List call.
func (bs *BreakpointStore) ProcessBreakpointList(bps []*cd.Breakpoint) {
bs.mu.Lock()
defer bs.mu.Unlock()
for _, bp := range bps {
if storedBp, ok := bs.idToBreakpoint[bp.Id]; ok {
if storedBp != nil && bp.IsFinalState {
// IsFinalState indicates that the breakpoint has been made inactive.
bs.removeBreakpointLocked(storedBp)
}
} else {
if bp.IsFinalState {
// The controller is notifying us that the breakpoint is no longer active,
// but we didn't know about it anyway.
continue
}
if bp.Action != "" && bp.Action != "CAPTURE" && bp.Action != "LOG" {
bp.IsFinalState = true
bp.Status = &cd.StatusMessage{
Description: &cd.FormatMessage{Format: "Action is not supported"},
IsError: true,
}
bs.errors = append(bs.errors, bp)
// Note in idToBreakpoint that we've already seen this breakpoint, so that we
// don't try to report it as an error multiple times.
bs.idToBreakpoint[bp.Id] = nil
continue
}
pcs, err := bs.prog.BreakpointAtLine(bp.Location.Path, uint64(bp.Location.Line))
if err != nil {
log.Printf("error setting breakpoint at %s:%d: %v", bp.Location.Path, bp.Location.Line, err)
}
if len(pcs) == 0 {
// We can't find a PC for this breakpoint's source line, so don't make it active.
// TODO: we could snap the line to a location where we can break, or report an error to the user.
bs.idToBreakpoint[bp.Id] = nil
} else {
bs.idToBreakpoint[bp.Id] = bp
for _, pc := range pcs {
bs.pcToBps[pc] = append(bs.pcToBps[pc], bp)
}
bs.bpToPCs[bp] = pcs
}
}
}
}
// ErrorBreakpoints returns a slice of Breakpoints that caused errors when the
// BreakpointStore tried to process them, and resets the list of such
// breakpoints.
// The caller is expected to send updates to the server to indicate the errors.
func (bs *BreakpointStore) ErrorBreakpoints() []*cd.Breakpoint {
bs.mu.Lock()
defer bs.mu.Unlock()
bps := bs.errors
bs.errors = nil
return bps
}
// BreakpointsAtPC returns all the breakpoints for which we set a code
// breakpoint at the given address.
func (bs *BreakpointStore) BreakpointsAtPC(pc uint64) []*cd.Breakpoint {
bs.mu.Lock()
defer bs.mu.Unlock()
return bs.pcToBps[pc]
}
// RemoveBreakpoint makes the given breakpoint inactive.
// This is called when either the debugged program hits the breakpoint, or the Debuglet
// Controller informs us that the breakpoint is now inactive.
func (bs *BreakpointStore) RemoveBreakpoint(bp *cd.Breakpoint) {
bs.mu.Lock()
bs.removeBreakpointLocked(bp)
bs.mu.Unlock()
}
func (bs *BreakpointStore) removeBreakpointLocked(bp *cd.Breakpoint) {
// Set the ID's corresponding breakpoint to nil, so that we won't activate it
// if we see it again.
// TODO: we could delete it after a few seconds.
bs.idToBreakpoint[bp.Id] = nil
// Delete bp from the list of cd breakpoints at each of its corresponding
// code breakpoint locations, and delete any code breakpoints which no longer
// have a corresponding cd breakpoint.
var codeBreakpointsToDelete []uint64
for _, pc := range bs.bpToPCs[bp] {
bps := remove(bs.pcToBps[pc], bp)
if len(bps) == 0 {
// bp was the last breakpoint set at this PC, so delete the code breakpoint.
codeBreakpointsToDelete = append(codeBreakpointsToDelete, pc)
delete(bs.pcToBps, pc)
} else {
bs.pcToBps[pc] = bps
}
}
if len(codeBreakpointsToDelete) > 0 {
bs.prog.DeleteBreakpoints(codeBreakpointsToDelete)
}
delete(bs.bpToPCs, bp)
}
// remove updates rs by removing r, then returns rs.
// The mutex in the BreakpointStore which contains rs should be held.
func remove(rs []*cd.Breakpoint, r *cd.Breakpoint) []*cd.Breakpoint {
for i := range rs {
if rs[i] == r {
rs[i] = rs[len(rs)-1]
rs = rs[0 : len(rs)-1]
return rs
}
}
// We shouldn't reach here.
return rs
}