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/*
* AsyncFileEIO . actor . h
*
* This source file is part of the FoundationDB open source project
*
* Copyright 2013 - 2018 Apple Inc . and the FoundationDB project authors
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*
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* 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
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*
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* http : //www.apache.org/licenses/LICENSE-2.0
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*
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* 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 .
*/
# pragma once
# if defined(__unixish__)
# define Net2AsyncFile AsyncFileEIO
// When actually compiled (NO_INTELLISENSE), include the generated version of this file. In intellisense use the source version.
# if defined(NO_INTELLISENSE) && !defined(FLOW_ASYNCFILEEIO_ACTOR_G_H)
# define FLOW_ASYNCFILEEIO_ACTOR_G_H
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# include "fdbrpc/AsyncFileEIO.actor.g.h"
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# elif !defined(FLOW_ASYNCFILEEIO_ACTOR_H)
# define FLOW_ASYNCFILEEIO_ACTOR_H
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# include <fcntl.h>
# include <sys/stat.h>
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# include "fdbrpc/libeio/eio.h"
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# include "flow/flow.h"
# include "flow/ThreadHelper.actor.h"
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# include "fdbrpc/IAsyncFile.h"
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# include "flow/TDMetric.actor.h"
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# include "flow/actorcompiler.h" // This must be the last #include.
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class AsyncFileEIO : public IAsyncFile , public ReferenceCounted < AsyncFileEIO > {
public :
static void init ( ) {
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eio_set_max_parallel ( FLOW_KNOBS - > EIO_MAX_PARALLELISM ) ;
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if ( eio_init ( & eio_want_poll , nullptr ) ) {
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TraceEvent ( " EioInitError " ) . detail ( " ErrorNo " , errno ) ;
throw platform_error ( ) ;
}
}
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static void stop ( ) {
eio_set_max_parallel ( 0 ) ;
}
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static bool should_poll ( ) { return want_poll ; }
static bool lock_fd ( int fd ) {
// Acquire a "write" lock for the entire file
struct flock lockDesc ;
lockDesc . l_type = F_WRLCK ;
lockDesc . l_whence = SEEK_SET ;
lockDesc . l_start = 0 ;
lockDesc . l_len = 0 ; // "Specifying 0 for l_len has the special meaning: lock all bytes starting at the location specified by l_whence and l_start through to the end of file, no matter how large the file grows."
lockDesc . l_pid = 0 ;
if ( fcntl ( fd , F_SETLK , & lockDesc ) = = - 1 ) {
return false ;
}
return true ;
}
ACTOR static Future < Reference < IAsyncFile > > open ( std : : string filename , int flags , int mode , void * ignore ) {
std : : string open_filename = filename ;
if ( flags & OPEN_ATOMIC_WRITE_AND_CREATE ) {
ASSERT ( ( flags & OPEN_CREATE ) & & ( flags & OPEN_READWRITE ) & & ! ( flags & OPEN_EXCLUSIVE ) ) ;
open_filename = filename + " .part " ;
}
state Promise < Void > p ;
state eio_req * r = eio_open ( open_filename . c_str ( ) , openFlags ( flags ) , mode , 0 , eio_callback , & p ) ;
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try { wait ( p . getFuture ( ) ) ; } catch ( . . . ) { eio_cancel ( r ) ; throw ; }
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if ( r - > result < 0 ) {
errno = r - > errorno ;
bool notFound = errno = = ENOENT ;
Error e = notFound ? file_not_found ( ) : io_error ( ) ;
TraceEvent ( notFound ? SevWarn : SevWarnAlways , " FileOpenError " ) . error ( e ) . GetLastError ( ) . detail ( " File " , filename ) . detail ( " Flags " , flags ) . detail ( " Mode " , mode ) ;
throw e ;
}
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TraceEvent ( " AsyncFileOpened " ) . suppressFor ( 1.0 ) . detail ( " Filename " , filename ) . detail ( " Fd " , r - > result ) . detail ( " Flags " , flags ) ;
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if ( ( flags & OPEN_LOCK ) & & ! lock_fd ( r - > result ) ) {
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TraceEvent ( SevError , " UnableToLockFile " ) . detail ( " Filename " , filename ) . GetLastError ( ) ;
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throw io_error ( ) ;
}
return Reference < IAsyncFile > ( new AsyncFileEIO ( r - > result , flags , filename ) ) ;
}
static Future < Void > deleteFile ( std : : string filename , bool mustBeDurable ) {
: : deleteFile ( filename ) ;
if ( mustBeDurable ) {
TEST ( true ) ; // deleteFile and fsync parent dir
return async_fsync_parent ( filename ) ;
} else
return Void ( ) ;
}
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ACTOR static Future < Void > renameFile ( std : : string from , std : : string to ) {
state TaskPriority taskID = g_network - > getCurrentTask ( ) ;
state Promise < Void > p ;
state eio_req * r = eio_rename ( from . c_str ( ) , to . c_str ( ) , 0 , eio_callback , & p ) ;
try {
wait ( p . getFuture ( ) ) ;
} catch ( . . . ) {
g_network - > setCurrentTask ( taskID ) ;
eio_cancel ( r ) ;
throw ;
}
try {
state int result = r - > result ;
if ( result = = - 1 ) {
TraceEvent ( SevError , " FileRenameError " ) . detail ( " Errno " , r - > errorno ) ;
throw internal_error ( ) ;
} else {
wait ( delay ( 0 , taskID ) ) ;
return Void ( ) ;
}
} catch ( Error & e ) {
state Error _e = e ;
wait ( delay ( 0 , taskID ) ) ;
throw _e ;
}
}
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ACTOR static Future < std : : time_t > lastWriteTime ( std : : string filename ) {
EIO_STRUCT_STAT statdata = wait ( stat_impl ( filename ) ) ;
return statdata . st_mtime ;
}
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void addref ( ) override { ReferenceCounted < AsyncFileEIO > : : addref ( ) ; }
void delref ( ) override { ReferenceCounted < AsyncFileEIO > : : delref ( ) ; }
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int64_t debugFD ( ) const override { return fd ; }
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Future < int > read ( void * data , int length , int64_t offset ) override {
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+ + countFileLogicalReads ;
+ + countLogicalReads ;
return read_impl ( fd , data , length , offset ) ;
}
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Future < Void > write ( void const * data , int length , int64_t offset ) override // Copies data synchronously
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{
+ + countFileLogicalWrites ;
+ + countLogicalWrites ;
//Standalone<StringRef> copy = StringRef((const uint8_t*)data, length);
return write_impl ( fd , err , StringRef ( ( const uint8_t * ) data , length ) , offset ) ;
}
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Future < Void > truncate ( int64_t size ) override {
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+ + countFileLogicalWrites ;
+ + countLogicalWrites ;
return truncate_impl ( fd , err , size ) ;
}
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Future < Void > sync ( ) override {
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+ + countFileLogicalWrites ;
+ + countLogicalWrites ;
auto fsync = sync_impl ( fd , err ) ;
if ( flags & OPEN_ATOMIC_WRITE_AND_CREATE ) {
flags & = ~ OPEN_ATOMIC_WRITE_AND_CREATE ;
return waitAndAtomicRename ( fsync , filename + " .part " , filename ) ;
}
return fsync ;
}
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Future < int64_t > size ( ) const override {
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+ + countFileLogicalReads ;
+ + countLogicalReads ;
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return size_impl ( fd ) ;
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}
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std : : string getFilename ( ) const override { return filename ; }
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ACTOR static Future < Void > async_fsync_parent ( std : : string filename ) {
std : : string folder = parentDirectory ( filename ) ;
TraceEvent ( " FSyncParentDir " ) . detail ( " Folder " , folder ) . detail ( " File " , filename ) ;
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state int folderFD = : : open ( folder . c_str ( ) , O_DIRECTORY | O_CLOEXEC , 0 ) ;
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if ( folderFD < 0 )
throw io_error ( ) ;
try {
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wait ( async_fsync ( folderFD ) ) ; // not sure if fdatasync on the folder has the same effect
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} catch ( . . . ) {
close ( folderFD ) ;
throw ;
}
close ( folderFD ) ;
return Void ( ) ;
}
static Future < Void > async_fdatasync ( int fd ) {
// Used by AsyncFileKAIO, since kernel AIO doesn't really implement fdatasync yet
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return sync_impl ( fd , makeReference < ErrorInfo > ( ) ) ;
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}
static Future < Void > async_fsync ( int fd ) {
// Used by AsyncFileKAIO, since kernel AIO doesn't really implement fsync yet
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return sync_impl ( fd , makeReference < ErrorInfo > ( ) , true ) ;
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}
ACTOR static Future < Void > waitAndAtomicRename ( Future < Void > fsync , std : : string part_filename , std : : string final_filename ) {
// First wait for the data in the part file to be durable
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wait ( fsync ) ;
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// rename() is atomic
if ( rename ( part_filename . c_str ( ) , final_filename . c_str ( ) ) ) {
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TraceEvent ( " AsyncFileEIORenameError " ) . detail ( " Filename " , final_filename ) . GetLastError ( ) ;
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throw io_error ( ) ;
}
// fsync the parent directory to make it durable as well
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wait ( async_fsync_parent ( final_filename ) ) ;
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return Void ( ) ;
}
// Run the given function on the EIO thread pool and return its result
template < class R > static Future < R > dispatch ( std : : function < R ( ) > const & func ) {
return dispatch_impl ( func ) ;
}
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~ AsyncFileEIO ( ) override { close_impl ( fd ) ; }
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private :
struct ErrorInfo : ReferenceCounted < ErrorInfo > , FastAllocated < ErrorInfo > {
Error err ;
void set ( const Error & e ) {
if ( err . code ( ) = = invalid_error_code )
err = e ;
}
void report ( ) {
if ( err . code ( ) ! = invalid_error_code )
throw err ;
}
} ;
template < class R >
struct Dispatch {
std : : function < R ( ) > func ;
ErrorOr < R > result ;
Promise < Void > done ;
explicit Dispatch ( std : : function < R ( ) > const & func ) : func ( func ) { }
} ;
int fd , flags ;
Reference < ErrorInfo > err ;
std : : string filename ;
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mutable Int64MetricHandle countFileLogicalWrites ;
mutable Int64MetricHandle countFileLogicalReads ;
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mutable Int64MetricHandle countLogicalWrites ;
mutable Int64MetricHandle countLogicalReads ;
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AsyncFileEIO ( int fd , int flags , std : : string const & filename ) : fd ( fd ) , flags ( flags ) , filename ( filename ) , err ( new ErrorInfo ) {
if ( ! g_network - > isSimulated ( ) ) {
countFileLogicalWrites . init ( LiteralStringRef ( " AsyncFile.CountFileLogicalWrites " ) , filename ) ;
countFileLogicalReads . init ( LiteralStringRef ( " AsyncFile.CountFileLogicalReads " ) , filename ) ;
countLogicalWrites . init ( LiteralStringRef ( " AsyncFile.CountLogicalWrites " ) ) ;
countLogicalReads . init ( LiteralStringRef ( " AsyncFile.CountLogicalReads " ) ) ;
}
}
static int openFlags ( int flags ) {
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int oflags = O_CLOEXEC ;
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ASSERT ( bool ( flags & OPEN_READONLY ) ! = bool ( flags & OPEN_READWRITE ) ) ; // readonly xor readwrite
if ( flags & OPEN_EXCLUSIVE ) oflags | = O_EXCL ;
if ( flags & OPEN_CREATE ) oflags | = O_CREAT ;
if ( flags & OPEN_READONLY ) oflags | = O_RDONLY ;
if ( flags & OPEN_READWRITE ) oflags | = O_RDWR ;
if ( flags & OPEN_ATOMIC_WRITE_AND_CREATE ) oflags | = O_TRUNC ;
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# if defined(__linux__)
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if ( flags & OPEN_UNBUFFERED & & FLOW_KNOBS - > EIO_USE_ODIRECT ) oflags | = O_DIRECT ;
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# endif
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return oflags ;
}
static void error ( const char * context , int fd , eio_req * r , Reference < ErrorInfo > const & err = Reference < ErrorInfo > ( ) ) {
Error e = io_error ( ) ;
errno = r - > errorno ;
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TraceEvent ( context ) . error ( e ) . detail ( " Fd " , fd ) . detail ( " Result " , r - > result ) . GetLastError ( ) ;
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if ( err ) err - > set ( e ) ;
else throw e ;
}
ACTOR static void close_impl ( int fd ) {
state Promise < Void > p ;
state eio_req * r = eio_close ( fd , 0 , eio_callback , & p ) ;
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wait ( p . getFuture ( ) ) ;
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if ( r - > result ) error ( " CloseError " , fd , r ) ;
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TraceEvent ( " AsyncFileClosed " ) . suppressFor ( 1.0 ) . detail ( " Fd " , fd ) ;
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}
ACTOR static Future < int > read_impl ( int fd , void * data , int length , int64_t offset ) {
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state TaskPriority taskID = g_network - > getCurrentTask ( ) ;
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state Promise < Void > p ;
//fprintf(stderr, "eio_read (fd=%d length=%d offset=%lld)\n", fd, length, offset);
state eio_req * r = eio_read ( fd , data , length , offset , 0 , eio_callback , & p ) ;
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try { wait ( p . getFuture ( ) ) ; } catch ( . . . ) { g_network - > setCurrentTask ( taskID ) ; eio_cancel ( r ) ; throw ; }
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try {
state int result = r - > result ;
//printf("eio read: %d/%d\n", r->result, length);
if ( result = = - 1 ) {
error ( " ReadError " , fd , r ) ;
throw internal_error ( ) ;
} else {
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wait ( delay ( 0 , taskID ) ) ;
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return result ;
}
} catch ( Error & _e ) {
state Error e = _e ;
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wait ( delay ( 0 , taskID ) ) ;
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throw e ;
}
}
ACTOR static Future < Void > write_impl ( int fd , Reference < ErrorInfo > err , StringRef data , int64_t offset ) {
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state TaskPriority taskID = g_network - > getCurrentTask ( ) ;
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state Promise < Void > p ;
state eio_req * r = eio_write ( fd , ( void * ) data . begin ( ) , data . size ( ) , offset , 0 , eio_callback , & p ) ;
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try { wait ( p . getFuture ( ) ) ; } catch ( . . . ) { g_network - > setCurrentTask ( taskID ) ; eio_cancel ( r ) ; throw ; }
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if ( r - > result ! = data . size ( ) ) error ( " WriteError " , fd , r , err ) ;
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wait ( delay ( 0 , taskID ) ) ;
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return Void ( ) ;
}
ACTOR static Future < Void > truncate_impl ( int fd , Reference < ErrorInfo > err , int64_t size ) {
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state TaskPriority taskID = g_network - > getCurrentTask ( ) ;
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state Promise < Void > p ;
state eio_req * r = eio_ftruncate ( fd , size , 0 , eio_callback , & p ) ;
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try { wait ( p . getFuture ( ) ) ; } catch ( . . . ) { g_network - > setCurrentTask ( taskID ) ; eio_cancel ( r ) ; throw ; }
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if ( r - > result ) error ( " TruncateError " , fd , r , err ) ;
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wait ( delay ( 0 , taskID ) ) ;
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return Void ( ) ;
}
static eio_req * start_fsync ( int fd , Promise < Void > & p , bool sync_metadata ) {
# ifdef __APPLE__
// Neither fsync() nor fdatasync() do the right thing on OS X!
eio_req * req = ( eio_req * ) calloc ( 1 , sizeof * req ) ;
req - > type = EIO_CUSTOM ;
req - > pri = 0 ;
req - > finish = eio_callback ;
req - > data = & p ;
req - > destroy = free_req ;
req - > int1 = fd ;
req - > feed = apple_fsync ;
eio_submit ( req ) ;
return req ;
# else
if ( sync_metadata )
return eio_fsync ( fd , 0 , eio_callback , & p ) ;
else
return eio_fdatasync ( fd , 0 , eio_callback , & p ) ;
# endif
}
ACTOR static Future < Void > sync_impl ( int fd , Reference < ErrorInfo > err , bool sync_metadata = false ) {
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state TaskPriority taskID = g_network - > getCurrentTask ( ) ;
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state Promise < Void > p ;
state eio_req * r = start_fsync ( fd , p , sync_metadata ) ;
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try { wait ( p . getFuture ( ) ) ; } catch ( . . . ) { g_network - > setCurrentTask ( taskID ) ; eio_cancel ( r ) ; throw ; }
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try {
// Report any errors from prior write() or truncate() calls
err - > report ( ) ;
if ( r - > result ) error ( " SyncError " , fd , r ) ;
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wait ( delay ( 0 , taskID ) ) ;
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return Void ( ) ;
} catch ( Error & _e ) {
state Error e = _e ;
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wait ( delay ( 0 , taskID ) ) ;
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throw e ;
}
}
ACTOR static Future < int64_t > size_impl ( int fd ) {
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state TaskPriority taskID = g_network - > getCurrentTask ( ) ;
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state Promise < Void > p ;
state eio_req * r = eio_fstat ( fd , 0 , eio_callback , & p ) ;
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try { wait ( p . getFuture ( ) ) ; } catch ( . . . ) { g_network - > setCurrentTask ( taskID ) ; eio_cancel ( r ) ; throw ; }
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if ( r - > result ) error ( " FStatError " , fd , r ) ;
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EIO_STRUCT_STAT * statdata = ( EIO_STRUCT_STAT * ) r - > ptr2 ;
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if ( ! statdata ) error ( " FStatBufferError " , fd , r ) ;
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state int64_t size = statdata - > st_size ;
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wait ( delay ( 0 , taskID ) ) ;
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return size ;
}
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ACTOR static Future < EIO_STRUCT_STAT > stat_impl ( std : : string filename ) {
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state TaskPriority taskID = g_network - > getCurrentTask ( ) ;
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state Promise < Void > p ;
state EIO_STRUCT_STAT statdata ;
state eio_req * r = eio_stat ( filename . c_str ( ) , 0 , eio_callback , & p ) ;
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try { wait ( p . getFuture ( ) ) ; } catch ( . . . ) { g_network - > setCurrentTask ( taskID ) ; eio_cancel ( r ) ; throw ; }
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if ( r - > result ) error ( " StatError " , 0 , r ) ;
if ( ! r - > ptr2 ) error ( " StatBufferError " , 0 , r ) ;
statdata = * EIO_STAT_BUF ( r ) ;
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wait ( delay ( 0 , taskID ) ) ;
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return statdata ;
}
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ACTOR template < class R > static Future < R > dispatch_impl ( std : : function < R ( ) > func ) {
state Dispatch < R > data ( func ) ;
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state TaskPriority taskID = g_network - > getCurrentTask ( ) ;
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state eio_req * r = eio_custom ( [ ] ( eio_req * req ) {
// Runs on the eio thread pool
auto data = reinterpret_cast < Dispatch < R > * > ( req - > data ) ;
try {
data - > result = data - > func ( ) ;
req - > result = 0 ;
} catch ( Error & e ) {
data - > result = e ;
req - > result = - 1 ;
} catch ( . . . ) {
data - > result = unknown_error ( ) ;
req - > result = - 1 ;
}
} , 0 , [ ] ( eio_req * req ) {
// Runs on the main thread, in eio_poll()
if ( EIO_CANCELLED ( req ) ) return 0 ;
auto data = reinterpret_cast < Dispatch < R > * > ( req - > data ) ;
Promise < Void > p = std : : move ( data - > done ) ;
p . send ( Void ( ) ) ;
return 0 ;
} , & data ) ;
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try { wait ( data . done . getFuture ( ) ) ; } catch ( . . . ) { g_network - > setCurrentTask ( taskID ) ; eio_cancel ( r ) ; throw ; }
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wait ( delay ( 0 , taskID ) ) ;
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if ( data . result . isError ( ) ) throw data . result . getError ( ) ;
return data . result . get ( ) ;
}
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static std : : atomic < int32_t > want_poll ;
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ACTOR static void poll_eio ( ) {
while ( eio_poll ( ) = = - 1 )
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wait ( yield ( ) ) ;
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want_poll = 0 ;
}
static void eio_want_poll ( ) {
want_poll = 1 ;
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// SOMEDAY: nullptr for deferred error, no analysis of correctness (itp)
onMainThreadVoid ( [ ] ( ) { poll_eio ( ) ; } , nullptr , TaskPriority : : PollEIO ) ;
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}
static int eio_callback ( eio_req * req ) {
if ( EIO_CANCELLED ( req ) ) return 0 ;
Promise < Void > p = std : : move ( * ( Promise < Void > * ) req - > data ) ;
p . send ( Void ( ) ) ;
return 0 ;
}
# ifdef __APPLE__
static void apple_fsync ( eio_req * req ) {
req - > result = fcntl ( req - > int1 , F_FULLFSYNC , 0 ) ;
}
static void free_req ( eio_req * req ) { free ( req ) ; }
# endif
} ;
# ifdef FILESYSTEM_IMPL
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std : : atomic < int32_t > AsyncFileEIO : : want_poll = 0 ;
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# endif
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# include "flow/unactorcompiler.h"
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# endif
# endif