mirror of
https://github.com/prometheus/prometheus.git
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5d401f1e1b
* Added query logging for prometheus. Options added: 1) active.queries.filepath: Filename where queries will be recorded 2) active.queries.filesize: Size of the file where queries will be recorded. Functionality added: All active queries are now logged in a file. If prometheus crashes unexpectedly, these queries are also printed out on stdout in the rerun. Queries are written concurrently to an mmaped file, and removed once they are done. Their positions in the file are reused. They are written in json format. However, due to dynamic nature of application, the json has an extra comma after the last query, and is missing an ending ']'. There may also null bytes in the tail of file. Signed-off-by: Advait Bhatwadekar <advait123@ymail.com>
144 lines
4 KiB
Go
144 lines
4 KiB
Go
// Copyright 2011 Evan Shaw. 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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package mmap
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import (
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"errors"
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"os"
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"sync"
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"golang.org/x/sys/windows"
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)
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// mmap on Windows is a two-step process.
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// First, we call CreateFileMapping to get a handle.
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// Then, we call MapviewToFile to get an actual pointer into memory.
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// Because we want to emulate a POSIX-style mmap, we don't want to expose
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// the handle -- only the pointer. We also want to return only a byte slice,
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// not a struct, so it's convenient to manipulate.
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// We keep this map so that we can get back the original handle from the memory address.
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type addrinfo struct {
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file windows.Handle
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mapview windows.Handle
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}
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var handleLock sync.Mutex
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var handleMap = map[uintptr]*addrinfo{}
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func mmap(len int, prot, flags, hfile uintptr, off int64) ([]byte, error) {
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flProtect := uint32(windows.PAGE_READONLY)
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dwDesiredAccess := uint32(windows.FILE_MAP_READ)
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switch {
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case prot© != 0:
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flProtect = windows.PAGE_WRITECOPY
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dwDesiredAccess = windows.FILE_MAP_COPY
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case prot&RDWR != 0:
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flProtect = windows.PAGE_READWRITE
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dwDesiredAccess = windows.FILE_MAP_WRITE
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}
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if prot&EXEC != 0 {
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flProtect <<= 4
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dwDesiredAccess |= windows.FILE_MAP_EXECUTE
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}
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// The maximum size is the area of the file, starting from 0,
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// that we wish to allow to be mappable. It is the sum of
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// the length the user requested, plus the offset where that length
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// is starting from. This does not map the data into memory.
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maxSizeHigh := uint32((off + int64(len)) >> 32)
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maxSizeLow := uint32((off + int64(len)) & 0xFFFFFFFF)
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// TODO: Do we need to set some security attributes? It might help portability.
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h, errno := windows.CreateFileMapping(windows.Handle(hfile), nil, flProtect, maxSizeHigh, maxSizeLow, nil)
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if h == 0 {
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return nil, os.NewSyscallError("CreateFileMapping", errno)
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}
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// Actually map a view of the data into memory. The view's size
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// is the length the user requested.
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fileOffsetHigh := uint32(off >> 32)
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fileOffsetLow := uint32(off & 0xFFFFFFFF)
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addr, errno := windows.MapViewOfFile(h, dwDesiredAccess, fileOffsetHigh, fileOffsetLow, uintptr(len))
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if addr == 0 {
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return nil, os.NewSyscallError("MapViewOfFile", errno)
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}
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handleLock.Lock()
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handleMap[addr] = &addrinfo{
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file: windows.Handle(hfile),
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mapview: h,
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}
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handleLock.Unlock()
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m := MMap{}
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dh := m.header()
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dh.Data = addr
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dh.Len = len
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dh.Cap = dh.Len
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return m, nil
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}
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func (m MMap) flush() error {
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addr, len := m.addrLen()
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errno := windows.FlushViewOfFile(addr, len)
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if errno != nil {
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return os.NewSyscallError("FlushViewOfFile", errno)
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}
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handleLock.Lock()
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defer handleLock.Unlock()
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handle, ok := handleMap[addr]
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if !ok {
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// should be impossible; we would've errored above
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return errors.New("unknown base address")
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}
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errno = windows.FlushFileBuffers(handle.file)
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return os.NewSyscallError("FlushFileBuffers", errno)
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}
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func (m MMap) lock() error {
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addr, len := m.addrLen()
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errno := windows.VirtualLock(addr, len)
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return os.NewSyscallError("VirtualLock", errno)
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}
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func (m MMap) unlock() error {
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addr, len := m.addrLen()
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errno := windows.VirtualUnlock(addr, len)
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return os.NewSyscallError("VirtualUnlock", errno)
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}
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func (m MMap) unmap() error {
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err := m.flush()
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if err != nil {
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return err
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}
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addr := m.header().Data
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// Lock the UnmapViewOfFile along with the handleMap deletion.
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// As soon as we unmap the view, the OS is free to give the
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// same addr to another new map. We don't want another goroutine
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// to insert and remove the same addr into handleMap while
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// we're trying to remove our old addr/handle pair.
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handleLock.Lock()
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defer handleLock.Unlock()
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err = windows.UnmapViewOfFile(addr)
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if err != nil {
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return err
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}
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handle, ok := handleMap[addr]
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if !ok {
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// should be impossible; we would've errored above
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return errors.New("unknown base address")
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}
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delete(handleMap, addr)
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e := windows.CloseHandle(windows.Handle(handle.mapview))
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return os.NewSyscallError("CloseHandle", e)
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}
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