/* Copyright 2000-2005 The Apache Software Foundation or its licensors, as * applicable. * * 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 * * http://www.apache.org/licenses/LICENSE-2.0 * * 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. */ #include "win32/apr_arch_file_io.h" #include "apr_file_io.h" #include "apr_general.h" #include "apr_strings.h" #include "apr_lib.h" #include "apr_errno.h" #include #include "apr_arch_atime.h" #include "apr_arch_misc.h" /* * read_with_timeout() * Uses async i/o to emulate unix non-blocking i/o with timeouts. */ static apr_status_t read_with_timeout(apr_file_t *file, void *buf, apr_size_t len_in, apr_size_t *nbytes) { apr_status_t rv; DWORD len = (DWORD)len_in; *nbytes = 0; /* Handle the zero timeout non-blocking case */ if (file->timeout == 0) { /* Peek at the pipe. If there is no data available, return APR_EAGAIN. * If data is available, go ahead and read it. */ if (file->pipe) { DWORD bytes; if (!PeekNamedPipe(file->filehand, NULL, 0, NULL, &bytes, NULL)) { rv = apr_get_os_error(); if (rv == APR_FROM_OS_ERROR(ERROR_BROKEN_PIPE)) { rv = APR_EOF; } return rv; } else { if (bytes == 0) { return APR_EAGAIN; } if (len > bytes) { len = bytes; } } } else { /* ToDo: Handle zero timeout non-blocking file i/o * This is not needed until an APR application needs to * timeout file i/o (which means setting file i/o non-blocking) */ } } if (file->pOverlapped && !file->pipe) { file->pOverlapped->Offset = (DWORD)file->filePtr; file->pOverlapped->OffsetHigh = (DWORD)(file->filePtr >> 32); } *nbytes = 0; rv = ReadFile(file->filehand, buf, len, (LPDWORD)nbytes, file->pOverlapped); if (!rv) { rv = apr_get_os_error(); if (rv == APR_FROM_OS_ERROR(ERROR_IO_PENDING)) { /* Wait for the pending i/o */ if (file->timeout > 0) { /* timeout in milliseconds... */ rv = WaitForSingleObject(file->pOverlapped->hEvent, (DWORD)(file->timeout/1000)); } else if (file->timeout == -1) { rv = WaitForSingleObject(file->pOverlapped->hEvent, INFINITE); } switch (rv) { case WAIT_OBJECT_0: GetOverlappedResult(file->filehand, file->pOverlapped, (LPDWORD)nbytes, TRUE); rv = APR_SUCCESS; break; case WAIT_TIMEOUT: rv = APR_TIMEUP; break; case WAIT_FAILED: rv = apr_get_os_error(); break; default: break; } if (rv != APR_SUCCESS) { if (apr_os_level >= APR_WIN_98) CancelIo(file->filehand); } } else if (rv == APR_FROM_OS_ERROR(ERROR_BROKEN_PIPE)) { /* Assume ERROR_BROKEN_PIPE signals an EOF reading from a pipe */ rv = APR_EOF; } } else { /* OK and 0 bytes read ==> end of file */ if (*nbytes == 0) rv = APR_EOF; else rv = APR_SUCCESS; } if (rv == APR_SUCCESS && file->pOverlapped && !file->pipe) { file->filePtr += *nbytes; } return rv; } APR_DECLARE(apr_status_t) apr_file_read(apr_file_t *thefile, void *buf, apr_size_t *len) { apr_status_t rv; DWORD bytes_read = 0; if (*len <= 0) { *len = 0; return APR_SUCCESS; } /* If the file is open for xthread support, allocate and * initialize the overlapped and io completion event (hEvent). * Threads should NOT share an apr_file_t or its hEvent. */ if ((thefile->flags & APR_XTHREAD) && !thefile->pOverlapped ) { thefile->pOverlapped = (OVERLAPPED*) apr_pcalloc(thefile->pool, sizeof(OVERLAPPED)); thefile->pOverlapped->hEvent = CreateEvent(NULL, FALSE, FALSE, NULL); if (!thefile->pOverlapped->hEvent) { rv = apr_get_os_error(); return rv; } } /* Handle the ungetchar if there is one */ if (thefile->ungetchar != -1) { bytes_read = 1; *(char *)buf = (char)thefile->ungetchar; buf = (char *)buf + 1; (*len)--; thefile->ungetchar = -1; if (*len == 0) { *len = bytes_read; return APR_SUCCESS; } } if (thefile->buffered) { char *pos = (char *)buf; apr_size_t blocksize; apr_size_t size = *len; apr_thread_mutex_lock(thefile->mutex); if (thefile->direction == 1) { apr_file_flush(thefile); thefile->bufpos = 0; thefile->direction = 0; thefile->dataRead = 0; } rv = 0; while (rv == 0 && size > 0) { if (thefile->bufpos >= thefile->dataRead) { apr_size_t read; rv = read_with_timeout(thefile, thefile->buffer, APR_FILE_BUFSIZE, &read); if (read == 0) { if (rv == APR_EOF) thefile->eof_hit = TRUE; break; } else { thefile->dataRead = read; thefile->filePtr += thefile->dataRead; thefile->bufpos = 0; } } blocksize = size > thefile->dataRead - thefile->bufpos ? thefile->dataRead - thefile->bufpos : size; memcpy(pos, thefile->buffer + thefile->bufpos, blocksize); thefile->bufpos += blocksize; pos += blocksize; size -= blocksize; } *len = pos - (char *)buf; if (*len) { rv = APR_SUCCESS; } apr_thread_mutex_unlock(thefile->mutex); } else { /* Unbuffered i/o */ apr_size_t nbytes; rv = read_with_timeout(thefile, buf, *len, &nbytes); *len = nbytes; } return rv; } APR_DECLARE(apr_status_t) apr_file_write(apr_file_t *thefile, const void *buf, apr_size_t *nbytes) { apr_status_t rv; DWORD bwrote; /* If the file is open for xthread support, allocate and * initialize the overlapped and io completion event (hEvent). * Threads should NOT share an apr_file_t or its hEvent. */ if ((thefile->flags & APR_XTHREAD) && !thefile->pOverlapped ) { thefile->pOverlapped = (OVERLAPPED*) apr_pcalloc(thefile->pool, sizeof(OVERLAPPED)); thefile->pOverlapped->hEvent = CreateEvent(NULL, FALSE, FALSE, NULL); if (!thefile->pOverlapped->hEvent) { rv = apr_get_os_error(); return rv; } } if (thefile->buffered) { char *pos = (char *)buf; apr_size_t blocksize; apr_size_t size = *nbytes; apr_thread_mutex_lock(thefile->mutex); if (thefile->direction == 0) { // Position file pointer for writing at the offset we are logically reading from apr_off_t offset = thefile->filePtr - thefile->dataRead + thefile->bufpos; DWORD offlo = (DWORD)offset; DWORD offhi = (DWORD)(offset >> 32); if (offset != thefile->filePtr) SetFilePointer(thefile->filehand, offlo, &offhi, FILE_BEGIN); thefile->bufpos = thefile->dataRead = 0; thefile->direction = 1; } rv = 0; while (rv == 0 && size > 0) { if (thefile->bufpos == APR_FILE_BUFSIZE) // write buffer is full rv = apr_file_flush(thefile); blocksize = size > APR_FILE_BUFSIZE - thefile->bufpos ? APR_FILE_BUFSIZE - thefile->bufpos : size; memcpy(thefile->buffer + thefile->bufpos, pos, blocksize); thefile->bufpos += blocksize; pos += blocksize; size -= blocksize; } apr_thread_mutex_unlock(thefile->mutex); return rv; } else { if (!thefile->pipe) { apr_off_t offset = 0; apr_status_t rc; if (thefile->append) { /* apr_file_lock will mutex the file across processes. * The call to apr_thread_mutex_lock is added to avoid * a race condition between LockFile and WriteFile * that occasionally leads to deadlocked threads. */ apr_thread_mutex_lock(thefile->mutex); rc = apr_file_lock(thefile, APR_FLOCK_EXCLUSIVE); if (rc != APR_SUCCESS) { apr_thread_mutex_unlock(thefile->mutex); return rc; } rc = apr_file_seek(thefile, APR_END, &offset); if (rc != APR_SUCCESS) { apr_thread_mutex_unlock(thefile->mutex); return rc; } } if (thefile->pOverlapped) { thefile->pOverlapped->Offset = (DWORD)thefile->filePtr; thefile->pOverlapped->OffsetHigh = (DWORD)(thefile->filePtr >> 32); } rv = WriteFile(thefile->filehand, buf, (DWORD)*nbytes, &bwrote, thefile->pOverlapped); if (thefile->append) { apr_file_unlock(thefile); apr_thread_mutex_unlock(thefile->mutex); } } else { rv = WriteFile(thefile->filehand, buf, (DWORD)*nbytes, &bwrote, thefile->pOverlapped); } if (rv) { *nbytes = bwrote; rv = APR_SUCCESS; } else { (*nbytes) = 0; rv = apr_get_os_error(); if (rv == APR_FROM_OS_ERROR(ERROR_IO_PENDING)) { /* Wait for the pending i/o (put a timeout here?) */ rv = WaitForSingleObject(thefile->pOverlapped->hEvent, INFINITE); switch (rv) { case WAIT_OBJECT_0: GetOverlappedResult(thefile->filehand, thefile->pOverlapped, (LPDWORD)nbytes, TRUE); rv = APR_SUCCESS; break; case WAIT_TIMEOUT: rv = APR_TIMEUP; break; case WAIT_FAILED: rv = apr_get_os_error(); break; default: break; } if (rv != APR_SUCCESS) { if (apr_os_level >= APR_WIN_98) CancelIo(thefile->filehand); } } } if (rv == APR_SUCCESS && thefile->pOverlapped && !thefile->pipe) { thefile->filePtr += *nbytes; } } return rv; } /* ToDo: Write for it anyway and test the oslevel! * Too bad WriteFileGather() is not supported on 95&98 (or NT prior to SP2) */ APR_DECLARE(apr_status_t) apr_file_writev(apr_file_t *thefile, const struct iovec *vec, apr_size_t nvec, apr_size_t *nbytes) { apr_status_t rv = APR_SUCCESS; apr_size_t i; apr_size_t bwrote = 0; char *buf; *nbytes = 0; for (i = 0; i < nvec; i++) { buf = vec[i].iov_base; bwrote = vec[i].iov_len; rv = apr_file_write(thefile, buf, &bwrote); *nbytes += bwrote; if (rv != APR_SUCCESS) { break; } } return rv; } APR_DECLARE(apr_status_t) apr_file_putc(char ch, apr_file_t *thefile) { apr_size_t len = 1; return apr_file_write(thefile, &ch, &len); } APR_DECLARE(apr_status_t) apr_file_ungetc(char ch, apr_file_t *thefile) { thefile->ungetchar = (unsigned char) ch; return APR_SUCCESS; } APR_DECLARE(apr_status_t) apr_file_getc(char *ch, apr_file_t *thefile) { apr_status_t rc; apr_size_t bread; bread = 1; rc = apr_file_read(thefile, ch, &bread); if (rc) { return rc; } if (bread == 0) { thefile->eof_hit = TRUE; return APR_EOF; } return APR_SUCCESS; } APR_DECLARE(apr_status_t) apr_file_puts(const char *str, apr_file_t *thefile) { apr_size_t len = strlen(str); return apr_file_write(thefile, str, &len); } APR_DECLARE(apr_status_t) apr_file_gets(char *str, int len, apr_file_t *thefile) { apr_size_t readlen; apr_status_t rv = APR_SUCCESS; int i; for (i = 0; i < len-1; i++) { readlen = 1; rv = apr_file_read(thefile, str+i, &readlen); if (readlen != 1) { rv = APR_EOF; break; } if (str[i] == '\n') { i++; /* don't clobber this char below */ break; } } str[i] = 0; if (i > 0) { /* we stored chars; don't report EOF or any other errors; * the app will find out about that on the next call */ return APR_SUCCESS; } return rv; } APR_DECLARE(apr_status_t) apr_file_flush(apr_file_t *thefile) { if (thefile->buffered) { DWORD numbytes, written = 0; apr_status_t rc = 0; char *buffer; apr_size_t bytesleft; if (thefile->direction == 1 && thefile->bufpos) { buffer = thefile->buffer; bytesleft = thefile->bufpos; do { if (bytesleft > APR_DWORD_MAX) { numbytes = APR_DWORD_MAX; } else { numbytes = (DWORD)bytesleft; } if (!WriteFile(thefile->filehand, buffer, numbytes, &written, NULL)) { rc = apr_get_os_error(); thefile->filePtr += written; break; } thefile->filePtr += written; bytesleft -= written; buffer += written; } while (bytesleft > 0); if (rc == 0) thefile->bufpos = 0; } return rc; } else { FlushFileBuffers(thefile->filehand); return APR_SUCCESS; } } static int printf_flush(apr_vformatter_buff_t *vbuff) { /* I would love to print this stuff out to the file, but I will * get that working later. :) For now, just return. */ return -1; } APR_DECLARE_NONSTD(int) apr_file_printf(apr_file_t *fptr, const char *format, ...) { int cc; va_list ap; char *buf; int len; buf = malloc(HUGE_STRING_LEN); if (buf == NULL) { return 0; } va_start(ap, format); len = apr_vsnprintf(buf, HUGE_STRING_LEN, format, ap); cc = apr_file_puts(buf, fptr); va_end(ap); free(buf); return (cc == APR_SUCCESS) ? len : -1; }