Reads data from the specified file or input/output (I/O) device. Reads occur at the position specified by the file pointer if supported by the device.
This function is designed for both synchronous and asynchronous operations. For a similar function designed solely for asynchronous operation, see ReadFileEx.
BOOL ReadFile( HANDLE hFile, LPVOID lpBuffer, DWORD nNumberOfBytesToRead, LPDWORD lpNumberOfBytesRead, LPOVERLAPPED lpOverlapped );
A handle to the device (for example, a file, file stream, physical disk, volume, console buffer, tape drive, socket, communications resource, mailslot, or pipe).
A pointer to the buffer that receives the data read from a file or device.
This buffer must remain valid for the duration of the read operation. The caller must not use this buffer until the read operation is completed.
The maximum number of bytes to be read.
A pointer to the variable that receives the number of bytes read when using a synchronous hFile parameter. ReadFile sets this value to zero before doing any work or error checking. Use NULL for this parameter if this is an asynchronous operation to avoid potentially erroneous results.
This parameter can be NULL only when the lpOverlapped parameter is not NULL.
For more information, see the Remarks section.
A pointer to an OVERLAPPED structure is required if the hFile parameter was opened with FILE_FLAG_OVERLAPPED, otherwise it can be NULL.
If hFile is opened with FILE_FLAG_OVERLAPPED, the lpOverlapped parameter must point to a valid and unique OVERLAPPED structure, otherwise the function can incorrectly report that the read operation is complete.
For an hFile that supports byte offsets, if you use this parameter you must specify a byte offset at which to start reading from the file or device. This offset is specified by setting the Offset and OffsetHigh members of the OVERLAPPED structure. For an hFile that does not support byte offsets, Offset and OffsetHigh are ignored.
For more information about different combinations of lpOverlapped and FILE_FLAG_OVERLAPPED, see the Remarks section and the Synchronization and File Position section.
If the function succeeds, the return value is nonzero (TRUE).
If the function fails, or is completing asynchronously, the return value is zero (FALSE). To get extended error information, call the GetLastError function.
The ReadFile function returns when one of the following conditions occur:
- The number of bytes requested is read.
- A write operation completes on the write end of the pipe.
- An asynchronous handle is being used and the read is occurring asynchronously.
- An error occurs.
The ReadFile function may fail with ERROR_INVALID_USER_BUFFER or ERROR_NOT_ENOUGH_MEMORY whenever there are too many outstanding asynchronous I/O requests.
To cancel all pending asynchronous I/O operations, use either:
- CancelIo—this function only cancels operations issued by the calling thread for the specified file handle.
- CancelIoEx—this function cancels all operations issued by the threads for the specified file handle.
Use CancelSynchronousIo to cancel pending synchronous I/O operations.
I/O operations that are canceled complete with the error ERROR_OPERATION_ABORTED.
The ReadFile function may fail with ERROR_NOT_ENOUGH_QUOTA, which means the calling process's buffer could not be page-locked. For additional information, see SetProcessWorkingSetSize.
If part of a file is locked by another process and the read operation overlaps the locked portion, this function fails.
Accessing the input buffer while a read operation is using the buffer may lead to corruption of the data read into that buffer. Applications must not read from, write to, reallocate, or free the input buffer that a read operation is using until the read operation completes. This can be particularly problematic when using an asynchronous file handle. Additional information regarding synchronous versus asynchronous file handles can be found in the Synchronization and File Position section and in the CreateFile reference topic.
Characters can be read from the console input buffer by using ReadFile with a handle to console input. The console mode determines the exact behavior of the ReadFile function. By default, the console mode is ENABLE_LINE_INPUT, which indicates that ReadFile should read until it reaches a carriage return. If you press Ctrl+C, the call succeeds, but GetLastError returns ERROR_OPERATION_ABORTED. For more information, see CreateFile.
When reading from a communications device, the behavior of ReadFile is determined by the current communication time-out as set and retrieved by using the SetCommTimeouts and GetCommTimeouts functions. Unpredictable results can occur if you fail to set the time-out values. For more information about communication time-outs, see COMMTIMEOUTS.
If ReadFile attempts to read from a mailslot that has a buffer that is too small, the function returns FALSE and GetLastError returns ERROR_INSUFFICIENT_BUFFER.
If hFile was opened with FILE_FLAG_OVERLAPPED, the following conditions are in effect:
- The lpOverlapped parameter must point to a valid and unique OVERLAPPED structure, otherwise the function can incorrectly report that the read operation is complete.
- The lpNumberOfBytesRead parameter should be set to NULL. Use the GetOverlappedResult function to get the actual number of bytes read. If the hFile parameter is associated with an I/O completion port, you can also get the number of bytes read by calling the GetQueuedCompletionStatus function.
- ReadFile may return before the read operation is complete. In this scenario, ReadFile returns FALSE and the GetLastError function returns ERROR_IO_PENDING, which allows the calling process to continue while the system completes the read operation.
- The lpOverlapped parameter must not be NULL and should
be used with the following facts in mind:
- Although the event specified in the OVERLAPPED structure is set and reset automatically by the system, the offset that is specified in the OVERLAPPED structure is not automatically updated.
- ReadFile resets the event to a nonsignaled state when it begins the I/O operation.
- The event specified in the OVERLAPPED structure is set to a signaled state when the read operation is complete; until that time, the read operation is considered pending.
- Because the read operation starts at the offset that is specified in the OVERLAPPED structure, and ReadFile may return before the system-level read operation is complete (read pending), neither the offset nor any other part of the structure should be modified, freed, or reused by the application until the event is signaled (that is, the read completes).
- If end-of-file (EOF) is detected during asynchronous operations, the call to GetOverlappedResult for that operation returns FALSE and GetLastError returns ERROR_HANDLE_EOF.
- If lpOverlapped is NULL, the read operation starts at the current file position and ReadFile does not return until the operation is complete, and the system updates the file pointer before ReadFile returns.
- If lpOverlapped is not NULL, the read operation starts at the offset that is specified in the OVERLAPPED structure and ReadFile does not return until the read operation is complete. The system updates the OVERLAPPED offset before ReadFile returns.
- If lpOverlapped is NULL, then when a synchronous read operation reaches the end of a file,
ReadFile returns TRUE and sets
- If lpOverlapped is not NULL, then when a synchronous read operation reaches the end of a file, ReadFile returns FALSE and GetLastError returns ERROR_HANDLE_EOF.
If a named pipe is being read in message mode and the next message is longer than the nNumberOfBytesToRead parameter specifies, ReadFile returns FALSE and GetLastError returns ERROR_MORE_DATA. The remainder of the message can be read by a subsequent call to the ReadFile or PeekNamedPipefunction.
If the lpNumberOfBytesRead parameter is zero when ReadFile returns TRUE on a pipe, the other end of the pipe called the WriteFile function with nNumberOfBytesToWrite set to zero.
For more information about pipes, see Pipes.About Transactional NTFS.
In Windows 8 and Windows Server 2012, this function is supported by the following technologies.
|Server Message Block (SMB) 3.0 protocol||Yes|
|SMB 3.0 Transparent Failover (TFO)||Yes|
|SMB 3.0 with Scale-out File Shares (SO)||Yes|
|Cluster Shared Volume File System (CsvFS)||Yes|
|Resilient File System (ReFS)||Yes|
For a code example that shows you how to test for end-of-file, see Testing for the End of a File. For other examples, see Creating and Using a Temporary File and Opening a File for Reading or Writing.
|Minimum supported client||Windows XP [desktop apps | UWP apps]|
|Minimum supported server||Windows Server 2003 [desktop apps | UWP apps]|
|Header||fileapi.h (include Windows.h)|