/* $Id: scmstream.cpp 41217 2012-05-08 20:18:36Z vboxsync $ */ /** @file * IPRT Testcase / Tool - Source Code Massager Stream Code. */ /* * Copyright (C) 2010-2012 Oracle Corporation * * This file is part of VirtualBox Open Source Edition (OSE), as * available from http://www.virtualbox.org. This file is free software; * you can redistribute it and/or modify it under the terms of the GNU * General Public License (GPL) as published by the Free Software * Foundation, in version 2 as it comes in the "COPYING" file of the * VirtualBox OSE distribution. VirtualBox OSE is distributed in the * hope that it will be useful, but WITHOUT ANY WARRANTY of any kind. */ /******************************************************************************* * Header Files * *******************************************************************************/ #include #include #include #include #include #include #include #include #include "scmstream.h" /** * Initializes the stream structure. * * @param pStream The stream structure. * @param fWriteOrRead The value of the fWriteOrRead stream member. */ static void scmStreamInitInternal(PSCMSTREAM pStream, bool fWriteOrRead) { pStream->pch = NULL; pStream->off = 0; pStream->cb = 0; pStream->cbAllocated = 0; pStream->paLines = NULL; pStream->iLine = 0; pStream->cLines = 0; pStream->cLinesAllocated = 0; pStream->fWriteOrRead = fWriteOrRead; pStream->fFileMemory = false; pStream->fFullyLineated = false; pStream->rc = VINF_SUCCESS; } /** * Initialize an input stream. * * @returns IPRT status code. * @param pStream The stream to initialize. * @param pszFilename The file to take the stream content from. */ int ScmStreamInitForReading(PSCMSTREAM pStream, const char *pszFilename) { scmStreamInitInternal(pStream, false /*fWriteOrRead*/); void *pvFile; size_t cbFile; int rc = pStream->rc = RTFileReadAll(pszFilename, &pvFile, &cbFile); if (RT_SUCCESS(rc)) { pStream->pch = (char *)pvFile; pStream->cb = cbFile; pStream->cbAllocated = cbFile; pStream->fFileMemory = true; } return rc; } /** * Initialize an output stream. * * @returns IPRT status code * @param pStream The stream to initialize. * @param pRelatedStream Pointer to a related stream. NULL is fine. */ int ScmStreamInitForWriting(PSCMSTREAM pStream, PCSCMSTREAM pRelatedStream) { scmStreamInitInternal(pStream, true /*fWriteOrRead*/); /* allocate stuff */ size_t cbEstimate = pRelatedStream ? pRelatedStream->cb + pRelatedStream->cb / 10 : _64K; cbEstimate = RT_ALIGN(cbEstimate, _4K); pStream->pch = (char *)RTMemAlloc(cbEstimate); if (pStream->pch) { size_t cLinesEstimate = pRelatedStream && pRelatedStream->fFullyLineated ? pRelatedStream->cLines + pRelatedStream->cLines / 10 : cbEstimate / 24; cLinesEstimate = RT_ALIGN(cLinesEstimate, 512); pStream->paLines = (PSCMSTREAMLINE)RTMemAlloc(cLinesEstimate * sizeof(SCMSTREAMLINE)); if (pStream->paLines) { pStream->paLines[0].off = 0; pStream->paLines[0].cch = 0; pStream->paLines[0].enmEol = SCMEOL_NONE; pStream->cbAllocated = cbEstimate; pStream->cLinesAllocated = cLinesEstimate; return VINF_SUCCESS; } RTMemFree(pStream->pch); pStream->pch = NULL; } return pStream->rc = VERR_NO_MEMORY; } /** * Frees the resources associated with the stream. * * Nothing is happens to whatever the stream was initialized from or dumped to. * * @param pStream The stream to delete. */ void ScmStreamDelete(PSCMSTREAM pStream) { if (pStream->pch) { if (pStream->fFileMemory) RTFileReadAllFree(pStream->pch, pStream->cbAllocated); else RTMemFree(pStream->pch); pStream->pch = NULL; } pStream->cbAllocated = 0; if (pStream->paLines) { RTMemFree(pStream->paLines); pStream->paLines = NULL; } pStream->cLinesAllocated = 0; } /** * Get the stream status code. * * @returns IPRT status code. * @param pStream The stream. */ int ScmStreamGetStatus(PCSCMSTREAM pStream) { return pStream->rc; } /** * Grows the buffer of a write stream. * * @returns IPRT status code. * @param pStream The stream. Must be in write mode. * @param cbAppending The minimum number of bytes to grow the buffer * with. */ static int scmStreamGrowBuffer(PSCMSTREAM pStream, size_t cbAppending) { size_t cbAllocated = pStream->cbAllocated; cbAllocated += RT_MAX(0x1000 + cbAppending, cbAllocated); cbAllocated = RT_ALIGN(cbAllocated, 0x1000); void *pvNew; if (!pStream->fFileMemory) { pvNew = RTMemRealloc(pStream->pch, cbAllocated); if (!pvNew) return pStream->rc = VERR_NO_MEMORY; } else { pvNew = RTMemDupEx(pStream->pch, pStream->off, cbAllocated - pStream->off); if (!pvNew) return pStream->rc = VERR_NO_MEMORY; RTFileReadAllFree(pStream->pch, pStream->cbAllocated); pStream->fFileMemory = false; } pStream->pch = (char *)pvNew; pStream->cbAllocated = cbAllocated; return VINF_SUCCESS; } /** * Grows the line array of a stream. * * @returns IPRT status code. * @param pStream The stream. * @param iMinLine Minimum line number. */ static int scmStreamGrowLines(PSCMSTREAM pStream, size_t iMinLine) { size_t cLinesAllocated = pStream->cLinesAllocated; cLinesAllocated += RT_MAX(512 + iMinLine, cLinesAllocated); cLinesAllocated = RT_ALIGN(cLinesAllocated, 512); void *pvNew = RTMemRealloc(pStream->paLines, cLinesAllocated * sizeof(SCMSTREAMLINE)); if (!pvNew) return pStream->rc = VERR_NO_MEMORY; pStream->paLines = (PSCMSTREAMLINE)pvNew; pStream->cLinesAllocated = cLinesAllocated; return VINF_SUCCESS; } /** * Rewinds the stream and sets the mode to read. * * @param pStream The stream. */ void ScmStreamRewindForReading(PSCMSTREAM pStream) { pStream->off = 0; pStream->iLine = 0; pStream->fWriteOrRead = false; pStream->rc = VINF_SUCCESS; } /** * Rewinds the stream and sets the mode to write. * * @param pStream The stream. */ void ScmStreamRewindForWriting(PSCMSTREAM pStream) { pStream->off = 0; pStream->iLine = 0; pStream->cLines = 0; pStream->fWriteOrRead = true; pStream->fFullyLineated = true; pStream->rc = VINF_SUCCESS; } /** * Checks if it's a text stream. * * Not 100% proof. * * @returns true if it probably is a text file, false if not. * @param pStream The stream. Write or read, doesn't matter. */ bool ScmStreamIsText(PSCMSTREAM pStream) { if (RTStrEnd(pStream->pch, pStream->cb)) return false; if (!pStream->cb) return false; return true; } /** * Performs an integrity check of the stream. * * @returns IPRT status code. * @param pStream The stream. */ int ScmStreamCheckItegrity(PSCMSTREAM pStream) { /* * Perform sanity checks. */ size_t const cbFile = pStream->cb; for (size_t iLine = 0; iLine < pStream->cLines; iLine++) { size_t offEol = pStream->paLines[iLine].off + pStream->paLines[iLine].cch; AssertReturn(offEol + pStream->paLines[iLine].enmEol <= cbFile, VERR_INTERNAL_ERROR_2); switch (pStream->paLines[iLine].enmEol) { case SCMEOL_LF: AssertReturn(pStream->pch[offEol] == '\n', VERR_INTERNAL_ERROR_3); break; case SCMEOL_CRLF: AssertReturn(pStream->pch[offEol] == '\r', VERR_INTERNAL_ERROR_3); AssertReturn(pStream->pch[offEol + 1] == '\n', VERR_INTERNAL_ERROR_3); break; case SCMEOL_NONE: AssertReturn(iLine + 1 >= pStream->cLines, VERR_INTERNAL_ERROR_4); break; default: AssertReturn(iLine + 1 >= pStream->cLines, VERR_INTERNAL_ERROR_5); } } return VINF_SUCCESS; } /** * Writes the stream to a file. * * @returns IPRT status code * @param pStream The stream. * @param pszFilenameFmt The filename format string. * @param ... Format arguments. */ int ScmStreamWriteToFile(PSCMSTREAM pStream, const char *pszFilenameFmt, ...) { int rc; #ifdef RT_STRICT /* * Check that what we're going to write makes sense first. */ rc = ScmStreamCheckItegrity(pStream); if (RT_FAILURE(rc)) return rc; #endif /* * Do the actual writing. */ RTFILE hFile; va_list va; va_start(va, pszFilenameFmt); rc = RTFileOpenV(&hFile, RTFILE_O_WRITE | RTFILE_O_CREATE_REPLACE | RTFILE_O_DENY_WRITE, pszFilenameFmt, va); if (RT_SUCCESS(rc)) { rc = RTFileWrite(hFile, pStream->pch, pStream->cb, NULL); RTFileClose(hFile); } return rc; } /** * Writes the stream to standard output. * * @returns IPRT status code * @param pStream The stream. */ int ScmStreamWriteToStdOut(PSCMSTREAM pStream) { int rc; #ifdef RT_STRICT /* * Check that what we're going to write makes sense first. */ rc = ScmStreamCheckItegrity(pStream); if (RT_FAILURE(rc)) return rc; #endif /* * Do the actual writing. */ RTHANDLE h; rc = RTHandleGetStandard(RTHANDLESTD_OUTPUT, &h); if (RT_SUCCESS(rc)) { switch (h.enmType) { case RTHANDLETYPE_FILE: rc = RTFileWrite(h.u.hFile, pStream->pch, pStream->cb, NULL); break; case RTHANDLETYPE_PIPE: rc = RTPipeWriteBlocking(h.u.hPipe, pStream->pch, pStream->cb, NULL); break; default: rc = VERR_INVALID_HANDLE; break; } } return rc; } /** * Worker for ScmStreamGetLine that builds the line number index while parsing * the stream. * * @returns Same as SCMStreamGetLine. * @param pStream The stream. Must be in read mode. * @param pcchLine Where to return the line length. * @param penmEol Where to return the kind of end of line marker. */ static const char *scmStreamGetLineInternal(PSCMSTREAM pStream, size_t *pcchLine, PSCMEOL penmEol) { AssertReturn(!pStream->fWriteOrRead, NULL); if (RT_FAILURE(pStream->rc)) return NULL; size_t off = pStream->off; size_t cb = pStream->cb; if (RT_UNLIKELY(off >= cb)) { pStream->fFullyLineated = true; return NULL; } size_t iLine = pStream->iLine; if (RT_UNLIKELY(iLine >= pStream->cLinesAllocated)) { int rc = scmStreamGrowLines(pStream, iLine); if (RT_FAILURE(rc)) return NULL; } pStream->paLines[iLine].off = off; cb -= off; const char *pchRet = &pStream->pch[off]; const char *pch = (const char *)memchr(pchRet, '\n', cb); if (RT_LIKELY(pch)) { cb = pch - pchRet; pStream->off = off + cb + 1; if ( cb < 1 || pch[-1] != '\r') pStream->paLines[iLine].enmEol = *penmEol = SCMEOL_LF; else { pStream->paLines[iLine].enmEol = *penmEol = SCMEOL_CRLF; cb--; } } else { pStream->off = off + cb; pStream->paLines[iLine].enmEol = *penmEol = SCMEOL_NONE; } *pcchLine = cb; pStream->paLines[iLine].cch = cb; pStream->cLines = pStream->iLine = ++iLine; return pchRet; } /** * Internal worker that delineates a stream. * * @returns IPRT status code. * @param pStream The stream. Caller must check that it is in * read mode. */ static int scmStreamLineate(PSCMSTREAM pStream) { /* Save the stream position. */ size_t const offSaved = pStream->off; size_t const iLineSaved = pStream->iLine; /* Get each line. */ size_t cchLine; SCMEOL enmEol; while (scmStreamGetLineInternal(pStream, &cchLine, &enmEol)) /* nothing */; Assert(RT_FAILURE(pStream->rc) || pStream->fFullyLineated); /* Restore the position */ pStream->off = offSaved; pStream->iLine = iLineSaved; return pStream->rc; } /** * Get the current stream position as an byte offset. * * @returns The current byte offset * @param pStream The stream. */ size_t ScmStreamTell(PSCMSTREAM pStream) { return pStream->off; } /** * Get the current stream position as a line number. * * @returns The current line (0-based). * @param pStream The stream. */ size_t ScmStreamTellLine(PSCMSTREAM pStream) { return pStream->iLine; } /** * Gets the stream offset of a given line. * * @returns The offset of the line, or the stream size if the line number is too * high. * @param pStream The stream. Must be in read mode. * @param iLine The line we're asking about. */ size_t ScmStreamTellOffsetOfLine(PSCMSTREAM pStream, size_t iLine) { AssertReturn(!pStream->fWriteOrRead, pStream->cb); if (!pStream->fFullyLineated) { int rc = scmStreamLineate(pStream); AssertRCReturn(rc, pStream->cb); } if (iLine >= pStream->cLines) return pStream->cb; return pStream->paLines[iLine].off; } /** * Get the current stream size in bytes. * * @returns Count of bytes. * @param pStream The stream. */ size_t ScmStreamSize(PSCMSTREAM pStream) { return pStream->cb; } /** * Gets the number of lines in the stream. * * @returns The number of lines. * @param pStream The stream. */ size_t ScmStreamCountLines(PSCMSTREAM pStream) { if (!pStream->fFullyLineated) scmStreamLineate(pStream); return pStream->cLines; } /** * Seeks to a given byte offset in the stream. * * @returns IPRT status code. * @retval VERR_SEEK if the new stream position is the middle of an EOL marker. * This is a temporary restriction. * * @param pStream The stream. Must be in read mode. * @param offAbsolute The offset to seek to. If this is beyond the * end of the stream, the position is set to the * end. */ int ScmStreamSeekAbsolute(PSCMSTREAM pStream, size_t offAbsolute) { AssertReturn(!pStream->fWriteOrRead, VERR_ACCESS_DENIED); if (RT_FAILURE(pStream->rc)) return pStream->rc; /* Must be fully delineated. (lazy bird) */ if (RT_UNLIKELY(!pStream->fFullyLineated)) { int rc = scmStreamLineate(pStream); if (RT_FAILURE(rc)) return rc; } /* Ok, do the job. */ if (offAbsolute < pStream->cb) { /** @todo Should do a binary search here, but I'm too darn lazy tonight. */ pStream->off = ~(size_t)0; for (size_t i = 0; i < pStream->cLines; i++) { if (offAbsolute < pStream->paLines[i].off + pStream->paLines[i].cch + pStream->paLines[i].enmEol) { pStream->off = offAbsolute; pStream->iLine = i; if (offAbsolute > pStream->paLines[i].off + pStream->paLines[i].cch) return pStream->rc = VERR_SEEK; break; } } AssertReturn(pStream->off != ~(size_t)0, pStream->rc = VERR_INTERNAL_ERROR_3); } else { pStream->off = pStream->cb; pStream->iLine = pStream->cLines; } return VINF_SUCCESS; } /** * Seeks a number of bytes relative to the current stream position. * * @returns IPRT status code. * @retval VERR_SEEK if the new stream position is the middle of an EOL marker. * This is a temporary restriction. * * @param pStream The stream. Must be in read mode. * @param offRelative The offset to seek to. A negative offset * rewinds and positive one fast forwards the * stream. Will quietly stop at the beginning and * end of the stream. */ int ScmStreamSeekRelative(PSCMSTREAM pStream, ssize_t offRelative) { size_t offAbsolute; if (offRelative >= 0) offAbsolute = pStream->off + offRelative; else if ((size_t)-offRelative <= pStream->off) offAbsolute = pStream->off + offRelative; else offAbsolute = 0; return ScmStreamSeekAbsolute(pStream, offAbsolute); } /** * Seeks to a given line in the stream. * * @returns IPRT status code. * * @param pStream The stream. Must be in read mode. * @param iLine The line to seek to. If this is beyond the end * of the stream, the position is set to the end. */ int ScmStreamSeekByLine(PSCMSTREAM pStream, size_t iLine) { AssertReturn(!pStream->fWriteOrRead, VERR_ACCESS_DENIED); if (RT_FAILURE(pStream->rc)) return pStream->rc; /* Must be fully delineated. (lazy bird) */ if (RT_UNLIKELY(!pStream->fFullyLineated)) { int rc = scmStreamLineate(pStream); if (RT_FAILURE(rc)) return rc; } /* Ok, do the job. */ if (iLine < pStream->cLines) { pStream->off = pStream->paLines[iLine].off; pStream->iLine = iLine; } else { pStream->off = pStream->cb; pStream->iLine = pStream->cLines; } return VINF_SUCCESS; } /** * Checks if the stream position is at the start of a line. * * @returns @c true if at the start, @c false if not. * @param pStream The stream. */ bool ScmStreamIsAtStartOfLine(PSCMSTREAM pStream) { if ( !pStream->fFullyLineated && !pStream->fWriteOrRead) { int rc = scmStreamLineate(pStream); if (RT_FAILURE(rc)) return false; } return pStream->off == pStream->paLines[pStream->iLine].off; } /** * Get a numbered line from the stream (changes the position). * * A line is always delimited by a LF character or the end of the stream. The * delimiter is not included in returned line length, but instead returned via * the @a penmEol indicator. * * @returns Pointer to the first character in the line, not NULL terminated. * NULL if the end of the stream has been reached or some problem * occurred. * * @param pStream The stream. Must be in read mode. * @param iLine The line to get (0-based). * @param pcchLine The length. * @param penmEol Where to return the end of line type indicator. */ const char *ScmStreamGetLineByNo(PSCMSTREAM pStream, size_t iLine, size_t *pcchLine, PSCMEOL penmEol) { AssertReturn(!pStream->fWriteOrRead, NULL); if (RT_FAILURE(pStream->rc)) return NULL; /* Make sure it's fully delineated so we can use the index. */ if (RT_UNLIKELY(!pStream->fFullyLineated)) { int rc = scmStreamLineate(pStream); if (RT_FAILURE(rc)) return NULL; } /* End of stream? */ if (RT_UNLIKELY(iLine >= pStream->cLines)) { pStream->off = pStream->cb; pStream->iLine = pStream->cLines; return NULL; } /* Get the data. */ const char *pchRet = &pStream->pch[pStream->paLines[iLine].off]; *pcchLine = pStream->paLines[iLine].cch; *penmEol = pStream->paLines[iLine].enmEol; /* update the stream position. */ pStream->off = pStream->paLines[iLine].off + pStream->paLines[iLine].cch + pStream->paLines[iLine].enmEol; pStream->iLine = iLine + 1; return pchRet; } /** * Get a line from the stream. * * A line is always delimited by a LF character or the end of the stream. The * delimiter is not included in returned line length, but instead returned via * the @a penmEol indicator. * * @returns Pointer to the first character in the line, not NULL terminated. * NULL if the end of the stream has been reached or some problem * occurred. * * @param pStream The stream. Must be in read mode. * @param pcchLine The length. * @param penmEol Where to return the end of line type indicator. */ const char *ScmStreamGetLine(PSCMSTREAM pStream, size_t *pcchLine, PSCMEOL penmEol) { if (!pStream->fFullyLineated) return scmStreamGetLineInternal(pStream, pcchLine, penmEol); size_t offCur = pStream->off; size_t iCurLine = pStream->iLine; const char *pszLine = ScmStreamGetLineByNo(pStream, iCurLine, pcchLine, penmEol); if ( pszLine && offCur > pStream->paLines[iCurLine].off) { offCur -= pStream->paLines[iCurLine].off; Assert(offCur <= pStream->paLines[iCurLine].cch + pStream->paLines[iCurLine].enmEol); if (offCur < pStream->paLines[iCurLine].cch) *pcchLine -= offCur; else *pcchLine = 0; pszLine += offCur; } return pszLine; } /** * Get the current buffer pointer. * * @returns Buffer pointer on success, NULL on failure (asserted). * @param pStream The stream. Must be in read mode. */ const char *ScmStreamGetCur(PSCMSTREAM pStream) { AssertReturn(!pStream->fWriteOrRead, NULL); return pStream->pch + pStream->off; } /** * Gets a character from the stream. * * @returns The next unsigned character in the stream. * ~(unsigned)0 on failure. * @param pStream The stream. Must be in read mode. */ unsigned ScmStreamGetCh(PSCMSTREAM pStream) { /* Check stream state. */ AssertReturn(!pStream->fWriteOrRead, ~(unsigned)0); if (RT_FAILURE(pStream->rc)) return ~(unsigned)0; if (RT_UNLIKELY(!pStream->fFullyLineated)) { int rc = scmStreamLineate(pStream); if (RT_FAILURE(rc)) return ~(unsigned)0; } /* If there isn't enough stream left, fail already. */ if (RT_UNLIKELY(pStream->off >= pStream->cb)) return ~(unsigned)0; /* Read a character. */ char ch = pStream->pch[pStream->off++]; /* Advance the line indicator. */ size_t iLine = pStream->iLine; if (pStream->off >= pStream->paLines[iLine].off + pStream->paLines[iLine].cch + pStream->paLines[iLine].enmEol) pStream->iLine++; return (unsigned)ch; } /** * Peeks at the next character from the stream. * * @returns The next unsigned character in the stream. * ~(unsigned)0 on failure. * @param pStream The stream. Must be in read mode. */ unsigned ScmStreamPeekCh(PSCMSTREAM pStream) { /* Check stream state. */ AssertReturn(!pStream->fWriteOrRead, ~(unsigned)0); if (RT_FAILURE(pStream->rc)) return ~(unsigned)0; if (RT_UNLIKELY(!pStream->fFullyLineated)) { int rc = scmStreamLineate(pStream); if (RT_FAILURE(rc)) return ~(unsigned)0; } /* If there isn't enough stream left, fail already. */ if (RT_UNLIKELY(pStream->off >= pStream->cb)) return ~(unsigned)0; /* Peek at the next character. */ char ch = pStream->pch[pStream->off]; return (unsigned)ch; } /** * Reads @a cbToRead bytes into @a pvBuf. * * Will fail if end of stream is encountered before the entire read has been * completed. * * @returns IPRT status code. * @retval VERR_EOF if there isn't @a cbToRead bytes left to read. Stream * position will be unchanged. * * @param pStream The stream. Must be in read mode. * @param pvBuf The buffer to read into. * @param cbToRead The number of bytes to read. */ int ScmStreamRead(PSCMSTREAM pStream, void *pvBuf, size_t cbToRead) { AssertReturn(!pStream->fWriteOrRead, VERR_PERMISSION_DENIED); if (RT_FAILURE(pStream->rc)) return pStream->rc; /* If there isn't enough stream left, fail already. */ if (RT_UNLIKELY(pStream->cb - pStream->off < cbToRead)) return VERR_EOF; /* Copy the data and simply seek to the new stream position. */ memcpy(pvBuf, &pStream->pch[pStream->off], cbToRead); return ScmStreamSeekAbsolute(pStream, pStream->off + cbToRead); } /** * Checks if the given line is empty or full of white space. * * @returns true if white space only, false if not (or if non-existant). * @param pStream The stream. Must be in read mode. * @param iLine The line in question. */ bool ScmStreamIsWhiteLine(PSCMSTREAM pStream, size_t iLine) { SCMEOL enmEol; size_t cchLine; const char *pchLine = ScmStreamGetLineByNo(pStream, iLine, &cchLine, &enmEol); if (!pchLine) return false; while (cchLine && RT_C_IS_SPACE(*pchLine)) pchLine++, cchLine--; return cchLine == 0; } /** * Try figure out the end of line style of the give stream. * * @returns Most likely end of line style. * @param pStream The stream. */ SCMEOL ScmStreamGetEol(PSCMSTREAM pStream) { SCMEOL enmEol; if (pStream->cLines > 0) enmEol = pStream->paLines[0].enmEol; else if (pStream->cb == 0) enmEol = SCMEOL_NONE; else { const char *pchLF = (const char *)memchr(pStream->pch, '\n', pStream->cb); if (pchLF && pchLF != pStream->pch && pchLF[-1] == '\r') enmEol = SCMEOL_CRLF; else enmEol = SCMEOL_LF; } if (enmEol == SCMEOL_NONE) #if defined(RT_OS_WINDOWS) || defined(RT_OS_OS2) enmEol = SCMEOL_CRLF; #else enmEol = SCMEOL_LF; #endif return enmEol; } /** * Get the end of line indicator type for a line. * * @returns The EOL indicator. If the line isn't found, the default EOL * indicator is return. * @param pStream The stream. * @param iLine The line (0-base). */ SCMEOL ScmStreamGetEolByLine(PSCMSTREAM pStream, size_t iLine) { SCMEOL enmEol; if (iLine < pStream->cLines) enmEol = pStream->paLines[iLine].enmEol; else #if defined(RT_OS_WINDOWS) || defined(RT_OS_OS2) enmEol = SCMEOL_CRLF; #else enmEol = SCMEOL_LF; #endif return enmEol; } /** * Appends a line to the stream. * * @returns IPRT status code. * @param pStream The stream. Must be in write mode. * @param pchLine Pointer to the line. * @param cchLine Line length. * @param enmEol Which end of line indicator to use. */ int ScmStreamPutLine(PSCMSTREAM pStream, const char *pchLine, size_t cchLine, SCMEOL enmEol) { AssertReturn(pStream->fWriteOrRead, VERR_ACCESS_DENIED); if (RT_FAILURE(pStream->rc)) return pStream->rc; /* * Make sure the previous line has a new-line indicator. */ size_t off = pStream->off; size_t iLine = pStream->iLine; if (RT_UNLIKELY( iLine != 0 && pStream->paLines[iLine - 1].enmEol == SCMEOL_NONE)) { AssertReturn(pStream->paLines[iLine].cch == 0, VERR_INTERNAL_ERROR_3); SCMEOL enmEol2 = enmEol != SCMEOL_NONE ? enmEol : ScmStreamGetEol(pStream); if (RT_UNLIKELY(off + cchLine + enmEol + enmEol2 > pStream->cbAllocated)) { int rc = scmStreamGrowBuffer(pStream, cchLine + enmEol + enmEol2); if (RT_FAILURE(rc)) return rc; } if (enmEol2 == SCMEOL_LF) pStream->pch[off++] = '\n'; else { pStream->pch[off++] = '\r'; pStream->pch[off++] = '\n'; } pStream->paLines[iLine - 1].enmEol = enmEol2; pStream->paLines[iLine].off = off; pStream->off = off; pStream->cb = off; } /* * Ensure we've got sufficient buffer space. */ if (RT_UNLIKELY(off + cchLine + enmEol > pStream->cbAllocated)) { int rc = scmStreamGrowBuffer(pStream, cchLine + enmEol); if (RT_FAILURE(rc)) return rc; } /* * Add a line record. */ if (RT_UNLIKELY(iLine + 1 >= pStream->cLinesAllocated)) { int rc = scmStreamGrowLines(pStream, iLine); if (RT_FAILURE(rc)) return rc; } pStream->paLines[iLine].cch = off - pStream->paLines[iLine].off + cchLine; pStream->paLines[iLine].enmEol = enmEol; iLine++; pStream->cLines = iLine; pStream->iLine = iLine; /* * Copy the line */ memcpy(&pStream->pch[off], pchLine, cchLine); off += cchLine; if (enmEol == SCMEOL_LF) pStream->pch[off++] = '\n'; else if (enmEol == SCMEOL_CRLF) { pStream->pch[off++] = '\r'; pStream->pch[off++] = '\n'; } pStream->off = off; pStream->cb = off; /* * Start a new line. */ pStream->paLines[iLine].off = off; pStream->paLines[iLine].cch = 0; pStream->paLines[iLine].enmEol = SCMEOL_NONE; return VINF_SUCCESS; } /** * Writes to the stream. * * @returns IPRT status code * @param pStream The stream. Must be in write mode. * @param pchBuf What to write. * @param cchBuf How much to write. */ int ScmStreamWrite(PSCMSTREAM pStream, const char *pchBuf, size_t cchBuf) { AssertReturn(pStream->fWriteOrRead, VERR_ACCESS_DENIED); if (RT_FAILURE(pStream->rc)) return pStream->rc; /* * Ensure we've got sufficient buffer space. */ size_t off = pStream->off; if (RT_UNLIKELY(off + cchBuf > pStream->cbAllocated)) { int rc = scmStreamGrowBuffer(pStream, cchBuf); if (RT_FAILURE(rc)) return rc; } /* * Deal with the odd case where we've already pushed a line with SCMEOL_NONE. */ size_t iLine = pStream->iLine; if (RT_UNLIKELY( iLine > 0 && pStream->paLines[iLine - 1].enmEol == SCMEOL_NONE)) { iLine--; pStream->cLines = iLine; pStream->iLine = iLine; } /* * Deal with lines. */ const char *pchLF = (const char *)memchr(pchBuf, '\n', cchBuf); if (!pchLF) pStream->paLines[iLine].cch += cchBuf; else { const char *pchLine = pchBuf; for (;;) { if (RT_UNLIKELY(iLine + 1 >= pStream->cLinesAllocated)) { int rc = scmStreamGrowLines(pStream, iLine); if (RT_FAILURE(rc)) { iLine = pStream->iLine; pStream->paLines[iLine].cch = off - pStream->paLines[iLine].off; pStream->paLines[iLine].enmEol = SCMEOL_NONE; return rc; } } size_t cchLine = pchLF - pchLine; if ( cchLine ? pchLF[-1] != '\r' : !pStream->paLines[iLine].cch || pStream->pch[pStream->paLines[iLine].off + pStream->paLines[iLine].cch - 1] != '\r') pStream->paLines[iLine].enmEol = SCMEOL_LF; else { pStream->paLines[iLine].enmEol = SCMEOL_CRLF; cchLine--; } pStream->paLines[iLine].cch += cchLine; iLine++; size_t offBuf = pchLF + 1 - pchBuf; pStream->paLines[iLine].off = off + offBuf; pStream->paLines[iLine].cch = 0; pStream->paLines[iLine].enmEol = SCMEOL_NONE; size_t cchLeft = cchBuf - offBuf; pchLine = pchLF + 1; pchLF = (const char *)memchr(pchLine, '\n', cchLeft); if (!pchLF) { pStream->paLines[iLine].cch = cchLeft; break; } } pStream->iLine = iLine; pStream->cLines = iLine; } /* * Copy the data and update position and size. */ memcpy(&pStream->pch[off], pchBuf, cchBuf); off += cchBuf; pStream->off = off; pStream->cb = off; return VINF_SUCCESS; } /** * Write a character to the stream. * * @returns IPRT status code * @param pStream The stream. Must be in write mode. * @param pchBuf What to write. * @param cchBuf How much to write. */ int ScmStreamPutCh(PSCMSTREAM pStream, char ch) { AssertReturn(pStream->fWriteOrRead, VERR_ACCESS_DENIED); if (RT_FAILURE(pStream->rc)) return pStream->rc; /* * Only deal with the simple cases here, use ScmStreamWrite for the * annoying stuff. */ size_t off = pStream->off; if ( ch == '\n' || RT_UNLIKELY(off + 1 > pStream->cbAllocated)) return ScmStreamWrite(pStream, &ch, 1); /* * Just append it. */ pStream->pch[off] = ch; pStream->off = off + 1; pStream->paLines[pStream->iLine].cch++; return VINF_SUCCESS; } /** * Formats a string and writes it to the SCM stream. * * @returns The number of bytes written (>= 0). Negative value are IPRT error * status codes. * @param pStream The stream to write to. * @param pszFormat The format string. * @param va The arguments to format. */ ssize_t ScmStreamPrintfV(PSCMSTREAM pStream, const char *pszFormat, va_list va) { char *psz; ssize_t cch = RTStrAPrintfV(&psz, pszFormat, va); if (cch) { int rc = ScmStreamWrite(pStream, psz, cch); RTStrFree(psz); if (RT_FAILURE(rc)) cch = rc; } return cch; } /** * Formats a string and writes it to the SCM stream. * * @returns The number of bytes written (>= 0). Negative value are IPRT error * status codes. * @param pStream The stream to write to. * @param pszFormat The format string. * @param ... The arguments to format. */ ssize_t ScmStreamPrintf(PSCMSTREAM pStream, const char *pszFormat, ...) { va_list va; va_start(va, pszFormat); ssize_t cch = ScmStreamPrintfV(pStream, pszFormat, va); va_end(va); return cch; } /** * Copies @a cLines from the @a pSrc stream onto the @a pDst stream. * * The stream positions will be used and changed in both streams. * * @returns IPRT status code. * @param pDst The destination stream. Must be in write mode. * @param cLines The number of lines. (0 is accepted.) * @param pSrc The source stream. Must be in read mode. */ int ScmStreamCopyLines(PSCMSTREAM pDst, PSCMSTREAM pSrc, size_t cLines) { AssertReturn(pDst->fWriteOrRead, VERR_ACCESS_DENIED); if (RT_FAILURE(pDst->rc)) return pDst->rc; AssertReturn(!pSrc->fWriteOrRead, VERR_ACCESS_DENIED); if (RT_FAILURE(pSrc->rc)) return pSrc->rc; while (cLines-- > 0) { SCMEOL enmEol; size_t cchLine; const char *pchLine = ScmStreamGetLine(pSrc, &cchLine, &enmEol); if (!pchLine) return pDst->rc = (RT_FAILURE(pSrc->rc) ? pSrc->rc : VERR_EOF); int rc = ScmStreamPutLine(pDst, pchLine, cchLine, enmEol); if (RT_FAILURE(rc)) return rc; } return VINF_SUCCESS; } /** * If the given C word is at off - 1, return @c true and skip beyond it, * otherwise return @c false. * * @retval true if the given C-word is at the current position minus one char. * The stream position changes. * @retval false if not. The stream position is unchanged. * * @param pStream The stream. * @param cchWord The length of the word. * @param pszWord The word. */ bool ScmStreamCMatchingWordM1(PSCMSTREAM pStream, const char *pszWord, size_t cchWord) { /* Check stream state. */ AssertReturn(!pStream->fWriteOrRead, false); AssertReturn(RT_SUCCESS(pStream->rc), false); AssertReturn(pStream->fFullyLineated, false); /* Sufficient chars left on the line? */ size_t const iLine = pStream->iLine; AssertReturn(pStream->off > pStream->paLines[iLine].off, false); size_t const cchLeft = pStream->paLines[iLine].cch + pStream->paLines[iLine].off - (pStream->off - 1); if (cchWord > cchLeft) return false; /* Do they match? */ const char *psz = &pStream->pch[pStream->off - 1]; if (memcmp(psz, pszWord, cchWord)) return false; /* Is it the end of a C word? */ if (cchWord < cchLeft) { psz += cchWord; if (RT_C_IS_ALNUM(*psz) || *psz == '_') return false; } /* Skip ahead. */ pStream->off += cchWord - 1; return true; } /** * Get's the C word starting at the current position. * * @returns Pointer to the word on success and the stream position advanced to * the end of it. * NULL on failure, stream position normally unchanged. * @param pStream The stream to get the C word from. * @param pcchWord Where to return the word length. */ const char *ScmStreamCGetWord(PSCMSTREAM pStream, size_t *pcchWord) { /* Check stream state. */ AssertReturn(!pStream->fWriteOrRead, NULL); AssertReturn(RT_SUCCESS(pStream->rc), NULL); AssertReturn(pStream->fFullyLineated, NULL); /* Get the number of chars left on the line and locate the current char. */ size_t const iLine = pStream->iLine; size_t const cchLeft = pStream->paLines[iLine].cch + pStream->paLines[iLine].off - pStream->off; const char *psz = &pStream->pch[pStream->off]; /* Is it a leading C character. */ if (!RT_C_IS_ALPHA(*psz) && *psz != '_') return NULL; /* Find the end of the word. */ char ch; size_t off = 1; while ( off < cchLeft && ( (ch = psz[off]) == '_' || RT_C_IS_ALNUM(ch))) off++; pStream->off += off; *pcchWord = off; return psz; } /** * Get's the C word starting at the current position minus one. * * @returns Pointer to the word on success and the stream position advanced to * the end of it. * NULL on failure, stream position normally unchanged. * @param pStream The stream to get the C word from. * @param pcchWord Where to return the word length. */ const char *ScmStreamCGetWordM1(PSCMSTREAM pStream, size_t *pcchWord) { /* Check stream state. */ AssertReturn(!pStream->fWriteOrRead, NULL); AssertReturn(RT_SUCCESS(pStream->rc), NULL); AssertReturn(pStream->fFullyLineated, NULL); /* Get the number of chars left on the line and locate the current char. */ size_t const iLine = pStream->iLine; size_t const cchLeft = pStream->paLines[iLine].cch + pStream->paLines[iLine].off - (pStream->off - 1); const char *psz = &pStream->pch[pStream->off - 1]; /* Is it a leading C character. */ if (!RT_C_IS_ALPHA(*psz) && *psz != '_') return NULL; /* Find the end of the word. */ char ch; size_t off = 1; while ( off < cchLeft && ( (ch = psz[off]) == '_' || RT_C_IS_ALNUM(ch))) off++; pStream->off += off - 1; *pcchWord = off; return psz; }