mirror of https://github.com/acidanthera/audk.git
374 lines
12 KiB
C
374 lines
12 KiB
C
/** @file
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Definitions for the Interactive IO library.
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The functions assume that isatty() is TRUE at the time they are called.
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Copyright (c) 2012, Intel Corporation. All rights reserved.<BR>
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This program and the accompanying materials are licensed and made available
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under the terms and conditions of the BSD License which accompanies this
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distribution. The full text of the license may be found at
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http://opensource.org/licenses/bsd-license.php.
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THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
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WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
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**/
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#include <Uefi.h>
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#include <Library/MemoryAllocationLib.h>
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#include <LibConfig.h>
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#include <assert.h>
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#include <errno.h>
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#include <sys/syslimits.h>
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#include <sys/termios.h>
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#include <Device/IIO.h>
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#include <MainData.h>
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#include "IIOutilities.h"
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#include "IIOechoCtrl.h"
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/** Read from an Interactive IO device.
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NOTE: If _S_IWTTY is set, the internal buffer contains WIDE characters.
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They will need to be converted to MBCS when returned.
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Input is line buffered if ICANON is set,
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otherwise MIN determines how many characters to input.
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Currently MIN is always zero, meaning 0 or 1 character is input in
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noncanonical mode.
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@param[in] filp Pointer to the descriptor of the device (file) to be read.
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@param[in] BufferSize Maximum number of bytes to be returned to the caller.
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@param[out] Buffer Pointer to the buffer where the input is to be stored.
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@retval -1 An error occurred. No data is available.
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@retval 0 No data was available. Try again later.
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@retval >0 The number of bytes consumed by the returned data.
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**/
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static
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ssize_t
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EFIAPI
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IIO_Read(
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struct __filedes *filp,
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size_t BufferSize,
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VOID *Buffer
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)
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{
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cIIO *This;
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ssize_t NumRead;
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tcflag_t Flags;
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size_t XlateSz;
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size_t Needed;
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NumRead = -1;
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This = filp->devdata;
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if(This != NULL) {
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Flags = This->Termio.c_lflag;
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if(Flags & ICANON) {
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NumRead = IIO_CanonRead(filp);
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}
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else {
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NumRead = IIO_NonCanonRead(filp);
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}
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// At this point, the input has been accumulated in the input buffer.
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if(filp->f_iflags & _S_IWTTY) {
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// Data in InBuf is wide characters. Convert to MBCS
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// First, convert into a linear buffer
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NumRead = This->InBuf->Copy(This->InBuf, gMD->UString2, (INT32)UNICODE_STRING_MAX-1);
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gMD->UString2[NumRead] = 0; // Ensure that the buffer is terminated
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// Determine the needed space
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XlateSz = EstimateWtoM((const wchar_t *)gMD->UString2, BufferSize, &Needed);
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// Now translate this into MBCS in Buffer
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NumRead = wcstombs((char *)Buffer, (const wchar_t *)gMD->UString2, XlateSz);
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// Consume the translated characters
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(void)This->InBuf->Flush(This->InBuf, Needed);
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}
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else {
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// Data in InBuf is narrow characters. Use verbatim.
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NumRead = This->InBuf->Read(This->InBuf, Buffer, (INT32)BufferSize);
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}
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}
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return NumRead;
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}
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/** Process characters from buffer buf and write them to the output device
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specified by filp.
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@param[in] filp Pointer to a file descriptor structure.
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@param[in] buf Pointer to the MBCS string to be output.
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@param[in] N Number of bytes in buf.
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@retval >=0 Number of bytes sent to the output device.
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**/
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static
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ssize_t
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EFIAPI
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IIO_Write(
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struct __filedes *filp,
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const char *buf,
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ssize_t N
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)
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{
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cIIO *This;
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cFIFO *OutBuf;
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mbstate_t *OutState;
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char *MbcsPtr;
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ssize_t NumWritten;
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ssize_t NumProc;
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size_t CharLen;
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UINTN MaxColumn;
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UINTN MaxRow;
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wchar_t OutChar[2]; // Just in case we run into 4-byte MBCS character
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int OutMode;
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errno = 0; // indicate no error as default
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NumWritten = -1;
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/* Determine what the current screen size is. Also validates the output device. */
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OutMode = IIO_GetOutputSize(filp->MyFD, &MaxColumn, &MaxRow);
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This = filp->devdata;
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if((This != NULL) && (OutMode >= 0)) {
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if(filp->MyFD == STDERR_FILENO) {
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OutBuf = This->ErrBuf;
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OutState = &This->ErrState;
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}
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else {
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OutBuf = This->OutBuf;
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OutState = &This->OutState;
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}
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/* Set the maximum screen dimensions. */
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This->MaxColumn = MaxColumn;
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This->MaxRow = MaxRow;
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/* Record where the cursor is at the beginning of the Output operation. */
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(void)IIO_GetCursorPosition(filp->MyFD, &This->InitialXY.Column, &This->InitialXY.Row);
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This->CurrentXY.Column = This->InitialXY.Column;
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This->CurrentXY.Row = This->InitialXY.Row;
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NumWritten = 0;
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OutChar[0] = (wchar_t)buf[0];
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while((OutChar[0] != 0) && (NumWritten < N)) {
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CharLen = mbrtowc(OutChar, (const char *)&buf[NumWritten], MB_CUR_MAX, OutState);
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NumProc = IIO_WriteOne(filp, OutBuf, OutChar[0]);
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if(NumProc > 0) {
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// Successfully processed and buffered one character
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NumWritten += CharLen; // Index of start of next character
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}
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else if(NumProc == -1) {
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// Encoding Error
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(void)mbrtowc(NULL, NULL, 1, OutState); // Re-Initialize the conversion state
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errno = EILSEQ;
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break;
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}
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else {
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// Last character was incomplete
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break;
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}
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}
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// At this point, the characters to write are in OutBuf
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// First, linearize the buffer
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NumWritten = OutBuf->Copy(OutBuf, gMD->UString, UNICODE_STRING_MAX-1);
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gMD->UString[NumWritten] = 0; // Ensure that the buffer is terminated
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if(filp->f_iflags & _S_IWTTY) {
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// Output device expects wide characters, Output what we have
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NumWritten = filp->f_ops->fo_write(filp, NULL, NumWritten, gMD->UString);
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}
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else {
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// Output device expects narrow characters, convert to MBCS
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MbcsPtr = (char *)gMD->UString2;
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// Determine the needed space
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NumProc = (ssize_t)EstimateWtoM((const wchar_t *)gMD->UString, UNICODE_STRING_MAX * sizeof(wchar_t), &CharLen);
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// Now translate this into MBCS in Buffer
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NumWritten = wcstombs(MbcsPtr, (const wchar_t *)gMD->UString, NumProc);
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MbcsPtr[NumWritten] = 0; // Ensure the buffer is terminated
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// Send the MBCS buffer to Output
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NumWritten = filp->f_ops->fo_write(filp, NULL, NumWritten, MbcsPtr);
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}
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// Consume the translated characters
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(void)OutBuf->Flush(OutBuf, NumWritten);
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}
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else {
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if(This == NULL) {
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errno = EINVAL;
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}
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// Otherwise, errno is already set.
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}
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return NumWritten;
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}
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/** Echo a character to an output device.
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Performs translation and edit processing depending upon termios flags.
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@param[in] filp A pointer to a file descriptor structure.
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@param[in] EChar The character to echo.
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@param[in] EchoIsOK TRUE if the caller has determined that characters
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should be echoed. Otherwise, just buffer.
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@return Returns the number of characters actually output.
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**/
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static
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ssize_t
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EFIAPI
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IIO_Echo(
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struct __filedes *filp,
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wchar_t EChar,
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BOOLEAN EchoIsOK
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)
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{
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cIIO *This;
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ssize_t NumWritten;
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cFIFO *OutBuf;
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char *MbcsPtr;
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ssize_t NumProc;
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tcflag_t LFlags;
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NumWritten = -1;
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This = filp->devdata;
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if(This != NULL) {
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OutBuf = This->OutBuf;
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LFlags = This->Termio.c_lflag & (ECHOK | ECHOE);
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if((EChar >= TtyFunKeyMin) && (EChar < TtyFunKeyMax)) {
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// A special function key was pressed, buffer it, don't echo, and activate.
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// Process and buffer the character. May produce multiple characters.
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NumProc = IIO_EchoOne(filp, EChar, FALSE); // Don't echo this character
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EChar = CHAR_LINEFEED; // Every line must end with '\n' (legacy)
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}
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// Process and buffer the character. May produce multiple characters.
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NumProc = IIO_EchoOne(filp, EChar, EchoIsOK);
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// At this point, the character(s) to write are in OutBuf
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// First, linearize the buffer
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NumWritten = OutBuf->Copy(OutBuf, gMD->UString, UNICODE_STRING_MAX-1);
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gMD->UString[NumWritten] = 0; // Ensure that the buffer is terminated
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if((EChar == IIO_ECHO_KILL) && (LFlags & ECHOE) && EchoIsOK) {
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// Position the cursor to the start of input.
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(void)IIO_SetCursorPosition(filp, &This->InitialXY);
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}
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// Output the buffer
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if(filp->f_iflags & _S_IWTTY) {
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// Output device expects wide characters, Output what we have
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NumWritten = filp->f_ops->fo_write(filp, NULL, NumWritten, gMD->UString);
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}
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else {
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// Output device expects narrow characters, convert to MBCS
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MbcsPtr = (char *)gMD->UString2;
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// Determine the needed space
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NumProc = (ssize_t)EstimateWtoM((const wchar_t *)gMD->UString, UNICODE_STRING_MAX * sizeof(wchar_t), NULL);
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// Now translate this into MBCS in Buffer
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NumWritten = wcstombs(MbcsPtr, (const wchar_t *)gMD->UString, NumProc);
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MbcsPtr[NumWritten] = 0; // Ensure the buffer is terminated
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// Send the MBCS buffer to Output
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NumWritten = filp->f_ops->fo_write(filp, NULL, NumWritten, MbcsPtr);
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}
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// Consume the echoed characters
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(void)OutBuf->Flush(OutBuf, NumWritten);
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if(EChar == IIO_ECHO_KILL) {
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if(LFlags == ECHOK) {
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NumWritten = IIO_WriteOne(filp, OutBuf, CHAR_LINEFEED);
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}
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else if((LFlags & ECHOE) && EchoIsOK) {
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// Position the cursor to the start of input.
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(void)IIO_SetCursorPosition(filp, &This->InitialXY);
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}
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NumWritten = 0;
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}
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}
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else {
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errno = EINVAL;
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}
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return NumWritten;
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}
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static
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void
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FifoDelete(cFIFO *Member)
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{
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if(Member != NULL) {
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Member->Delete(Member);
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}
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}
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/** Destructor for an IIO instance.
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Releases all resources used by a particular IIO instance.
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**/
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static
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void
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EFIAPI
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IIO_Delete(
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cIIO *Self
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)
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{
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if(Self != NULL) {
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FifoDelete(Self->ErrBuf);
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FifoDelete(Self->OutBuf);
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FifoDelete(Self->InBuf);
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if(Self->AttrBuf != NULL) {
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FreePool(Self->AttrBuf);
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}
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FreePool(Self);
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}
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}
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/** Constructor for new IIO instances.
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@return Returns NULL or a pointer to a new IIO instance.
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**/
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cIIO *
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EFIAPI
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New_cIIO(void)
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{
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cIIO *IIO;
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cc_t *TempBuf;
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int i;
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IIO = (cIIO *)AllocateZeroPool(sizeof(cIIO));
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if(IIO != NULL) {
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IIO->InBuf = New_cFIFO(MAX_INPUT, sizeof(wchar_t));
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IIO->OutBuf = New_cFIFO(MAX_OUTPUT, sizeof(wchar_t));
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IIO->ErrBuf = New_cFIFO(MAX_OUTPUT, sizeof(wchar_t));
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IIO->AttrBuf = (UINT8 *)AllocateZeroPool(MAX_OUTPUT);
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if((IIO->InBuf == NULL) || (IIO->OutBuf == NULL) ||
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(IIO->ErrBuf == NULL) || (IIO->AttrBuf == NULL))
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{
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IIO_Delete(IIO);
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IIO = NULL;
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}
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else {
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IIO->Delete = IIO_Delete;
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IIO->Read = IIO_Read;
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IIO->Write = IIO_Write;
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IIO->Echo = IIO_Echo;
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}
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// Initialize Termio member
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TempBuf = &IIO->Termio.c_cc[0];
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TempBuf[0] = 8; // Default length for TABs
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for(i=1; i < NCCS; ++i) {
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TempBuf[i] = _POSIX_VDISABLE;
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}
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TempBuf[VMIN] = 0;
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TempBuf[VTIME] = 0;
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IIO->Termio.c_ispeed = B115200;
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IIO->Termio.c_ospeed = B115200;
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IIO->Termio.c_iflag = ICRNL;
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IIO->Termio.c_oflag = OPOST | ONLCR | ONOCR | ONLRET;
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IIO->Termio.c_cflag = 0;
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IIO->Termio.c_lflag = ECHO | ECHONL;
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}
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return IIO;
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}
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