mirror of
https://github.com/superseriousbusiness/gotosocial.git
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ed46224573
* Add SQLite support, fix un-thread-safe DB caches, small performance fixes Signed-off-by: kim (grufwub) <grufwub@gmail.com> * add SQLite licenses to README Signed-off-by: kim (grufwub) <grufwub@gmail.com> * appease the linter, and fix my dumbass-ery Signed-off-by: kim (grufwub) <grufwub@gmail.com> * make requested changes Signed-off-by: kim (grufwub) <grufwub@gmail.com> * add back comment Signed-off-by: kim (grufwub) <grufwub@gmail.com>
320 lines
7.3 KiB
Go
320 lines
7.3 KiB
Go
// Copyright 2021 The Libc Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file.
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// +build !libc.membrk,libc.memgrind
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// This is a debug-only version of the memory handling functions. When a
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// program is built with -tags=libc.memgrind the functions MemAuditStart and
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// MemAuditReport can be used to check for memory leaks.
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package libc // import "modernc.org/libc"
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import (
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"fmt"
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"runtime"
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"sort"
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"strings"
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"unsafe"
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"modernc.org/libc/errno"
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"modernc.org/libc/sys/types"
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"modernc.org/memory"
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)
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const memgrind = true
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type memReportItem struct {
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p, pc uintptr
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s string
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}
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func (it *memReportItem) String() string {
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more := it.s
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if more != "" {
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a := strings.Split(more, "\n")
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more = "\n\t\t" + strings.Join(a, "\n\t\t")
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}
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return fmt.Sprintf("\t%s: %#x%s", pc2origin(it.pc), it.p, more)
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}
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type memReport []memReportItem
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func (r memReport) Error() string {
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a := []string{"memory leaks"}
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for _, v := range r {
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a = append(a, v.String())
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}
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return strings.Join(a, "\n")
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}
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var (
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allocator memory.Allocator
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allocs map[uintptr]uintptr // addr: caller
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allocsMore map[uintptr]string
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frees map[uintptr]uintptr // addr: caller
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memAudit memReport
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memAuditEnabled bool
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)
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func pc2origin(pc uintptr) string {
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f := runtime.FuncForPC(pc)
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var fn, fns string
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var fl int
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if f != nil {
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fn, fl = f.FileLine(pc)
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fns = f.Name()
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if x := strings.LastIndex(fns, "."); x > 0 {
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fns = fns[x+1:]
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}
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}
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return fmt.Sprintf("%s:%d:%s", fn, fl, fns)
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}
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// void *malloc(size_t size);
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func Xmalloc(t *TLS, size types.Size_t) uintptr {
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if size == 0 {
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return 0
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}
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allocMu.Lock()
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defer allocMu.Unlock()
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p, err := allocator.UintptrCalloc(int(size))
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if dmesgs {
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dmesg("%v: %v -> %#x, %v", origin(1), size, p, err)
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}
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if err != nil {
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t.setErrno(errno.ENOMEM)
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return 0
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}
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if memAuditEnabled {
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pc, _, _, ok := runtime.Caller(1)
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if !ok {
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panic("cannot obtain caller's PC")
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}
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delete(frees, p)
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if pc0, ok := allocs[p]; ok {
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dmesg("%v: malloc returns same address twice, previous call at %v:", pc2origin(pc), pc2origin(pc0))
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panic(fmt.Errorf("%v: malloc returns same address twice, previous call at %v:", pc2origin(pc), pc2origin(pc0)))
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}
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allocs[p] = pc
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}
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return p
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}
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// void *calloc(size_t nmemb, size_t size);
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func Xcalloc(t *TLS, n, size types.Size_t) uintptr {
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rq := int(n * size)
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if rq == 0 {
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return 0
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}
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allocMu.Lock()
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defer allocMu.Unlock()
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p, err := allocator.UintptrCalloc(int(n * size))
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if dmesgs {
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dmesg("%v: %v -> %#x, %v", origin(1), n*size, p, err)
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}
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if err != nil {
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t.setErrno(errno.ENOMEM)
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return 0
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}
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if memAuditEnabled {
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pc, _, _, ok := runtime.Caller(1)
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if !ok {
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panic("cannot obtain caller's PC")
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}
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delete(frees, p)
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if pc0, ok := allocs[p]; ok {
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dmesg("%v: calloc returns same address twice, previous call at %v:", pc2origin(pc), pc2origin(pc0))
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panic(fmt.Errorf("%v: calloc returns same address twice, previous call at %v:", pc2origin(pc), pc2origin(pc0)))
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}
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allocs[p] = pc
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}
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return p
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}
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// void *realloc(void *ptr, size_t size);
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func Xrealloc(t *TLS, ptr uintptr, size types.Size_t) uintptr {
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allocMu.Lock()
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defer allocMu.Unlock()
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var pc uintptr
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if memAuditEnabled {
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var ok bool
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if pc, _, _, ok = runtime.Caller(1); !ok {
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panic("cannot obtain caller's PC")
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}
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if ptr != 0 {
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if pc0, ok := frees[ptr]; ok {
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dmesg("%v: realloc: double free of %#x, previous call at %v:", pc2origin(pc), ptr, pc2origin(pc0))
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panic(fmt.Errorf("%v: realloc: double free of %#x, previous call at %v:", pc2origin(pc), ptr, pc2origin(pc0)))
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}
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if _, ok := allocs[ptr]; !ok {
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dmesg("%v: %v: realloc, free of unallocated memory: %#x", origin(1), pc2origin(pc), ptr)
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panic(fmt.Errorf("%v: realloc, free of unallocated memory: %#x", pc2origin(pc), ptr))
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}
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delete(allocs, ptr)
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delete(allocsMore, ptr)
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frees[ptr] = pc
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}
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}
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p, err := allocator.UintptrRealloc(ptr, int(size))
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if dmesgs {
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dmesg("%v: %#x, %v -> %#x, %v", origin(1), ptr, size, p, err)
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}
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if err != nil {
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t.setErrno(errno.ENOMEM)
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return 0
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}
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if memAuditEnabled && p != 0 {
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delete(frees, p)
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if pc0, ok := allocs[p]; ok {
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dmesg("%v: realloc returns same address twice, previous call at %v:", pc2origin(pc), pc2origin(pc0))
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panic(fmt.Errorf("%v: realloc returns same address twice, previous call at %v:", pc2origin(pc), pc2origin(pc0)))
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}
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allocs[p] = pc
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}
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return p
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}
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// void free(void *ptr);
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func Xfree(t *TLS, p uintptr) {
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if p == 0 {
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return
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}
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if dmesgs {
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dmesg("%v: %#x", origin(1), p)
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}
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allocMu.Lock()
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defer allocMu.Unlock()
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sz := memory.UintptrUsableSize(p)
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if memAuditEnabled {
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pc, _, _, ok := runtime.Caller(1)
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if !ok {
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panic("cannot obtain caller's PC")
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}
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if pc0, ok := frees[p]; ok {
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dmesg("%v: double free of %#x, previous call at %v:", pc2origin(pc), p, pc2origin(pc0))
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panic(fmt.Errorf("%v: double free of %#x, previous call at %v:", pc2origin(pc), p, pc2origin(pc0)))
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}
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if _, ok := allocs[p]; !ok {
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dmesg("%v: free of unallocated memory: %#x", pc2origin(pc), p)
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panic(fmt.Errorf("%v: free of unallocated memory: %#x", pc2origin(pc), p))
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}
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delete(allocs, p)
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delete(allocsMore, p)
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frees[p] = pc
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}
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for i := uintptr(0); i < uintptr(sz); i++ {
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*(*byte)(unsafe.Pointer(p + i)) = 0
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}
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allocator.UintptrFree(p)
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}
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func UsableSize(p uintptr) types.Size_t {
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allocMu.Lock()
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defer allocMu.Unlock()
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if memAuditEnabled {
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pc, _, _, ok := runtime.Caller(1)
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if !ok {
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panic("cannot obtain caller's PC")
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}
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if _, ok := allocs[p]; !ok {
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dmesg("%v: usable size of unallocated memory: %#x", pc2origin(pc), p)
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panic(fmt.Errorf("%v: usable size of unallocated memory: %#x", pc2origin(pc), p))
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}
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}
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return types.Size_t(memory.UintptrUsableSize(p))
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}
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// MemAuditStart locks the memory allocator, initializes and enables memory
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// auditing. Finally it unlocks the memory allocator.
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//
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// Some memory handling errors, like double free or freeing of unallocated
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// memory, will panic when memory auditing is enabled.
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//
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// This memory auditing functionality has to be enabled using the libc.memgrind
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// build tag.
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//
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// It is intended only for debug/test builds. It slows down memory allocation
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// routines and it has additional memory costs.
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func MemAuditStart() {
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allocMu.Lock()
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defer allocMu.Unlock()
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allocs = map[uintptr]uintptr{} // addr: caller
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allocsMore = map[uintptr]string{}
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frees = map[uintptr]uintptr{} // addr: caller
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memAuditEnabled = true
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}
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// MemAuditReport locks the memory allocator, reports memory leaks, if any.
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// Finally it disables memory auditing and unlocks the memory allocator.
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//
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// This memory auditing functionality has to be enabled using the libc.memgrind
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// build tag.
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//
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// It is intended only for debug/test builds. It slows down memory allocation
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// routines and it has additional memory costs.
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func MemAuditReport() (r error) {
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allocMu.Lock()
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defer func() {
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allocs = nil
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allocsMore = nil
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frees = nil
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memAuditEnabled = false
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memAudit = nil
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allocMu.Unlock()
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}()
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if len(allocs) != 0 {
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for p, pc := range allocs {
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memAudit = append(memAudit, memReportItem{p, pc, allocsMore[p]})
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}
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sort.Slice(memAudit, func(i, j int) bool {
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return memAudit[i].String() < memAudit[j].String()
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})
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return memAudit
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}
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return nil
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}
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func MemAuditAnnotate(pc uintptr, s string) {
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allocMu.Lock()
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allocsMore[pc] = s
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allocMu.Unlock()
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}
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