/* $Id: env-generic.cpp 62477 2016-07-22 18:27:37Z vboxsync $ */ /** @file * IPRT - Environment, Generic. */ /* * Copyright (C) 2006-2016 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. * * The contents of this file may alternatively be used under the terms * of the Common Development and Distribution License Version 1.0 * (CDDL) only, as it comes in the "COPYING.CDDL" file of the * VirtualBox OSE distribution, in which case the provisions of the * CDDL are applicable instead of those of the GPL. * * You may elect to license modified versions of this file under the * terms and conditions of either the GPL or the CDDL or both. */ /********************************************************************************************************************************* * Header Files * *********************************************************************************************************************************/ #include #include "internal/iprt.h" #include #include #include #include #include #include #include "internal/magics.h" #include #if !defined(RT_OS_WINDOWS) # include #endif #ifdef RT_OS_DARWIN # include #endif #if defined(RT_OS_SOLARIS) || defined(RT_OS_FREEBSD) || defined(RT_OS_NETBSD) || defined(RT_OS_OPENBSD) RT_C_DECLS_BEGIN extern char **environ; RT_C_DECLS_END #endif /********************************************************************************************************************************* * Defined Constants And Macros * *********************************************************************************************************************************/ /** The allocation granularity of the RTENVINTERNAL::papszEnv memory. */ #define RTENV_GROW_SIZE 16 /** Macro that unlocks the specified environment block. */ #define RTENV_LOCK(pEnvInt) do { } while (0) /** Macro that unlocks the specified environment block. */ #define RTENV_UNLOCK(pEnvInt) do { } while (0) /** @def RTENV_HAVE_WENVIRON * Indicates that we have a _wenviron variable with UTF-16 strings that we * better use instead of the current-cp strings in environ. */ #if defined(RT_OS_WINDOWS) || defined(DOXYGEN_RUNNING) # define RTENV_HAVE_WENVIRON 1 #endif /** @def RTENV_IMPLEMENTS_UTF8_DEFAULT_ENV_API * Indicates the RTEnv*Utf8 APIs are implemented. */ #if defined(RT_OS_WINDOWS) || defined(DOXYGEN_RUNNING) # define RTENV_IMPLEMENTS_UTF8_DEFAULT_ENV_API 1 #endif /********************************************************************************************************************************* * Structures and Typedefs * *********************************************************************************************************************************/ /** * The internal representation of a (non-default) environment. */ typedef struct RTENVINTERNAL { /** Magic value . */ uint32_t u32Magic; /** Set if this is a record of environment changes, putenv style. */ bool fPutEnvBlock; /** Number of variables in the array. * This does not include the terminating NULL entry. */ size_t cVars; /** Capacity (allocated size) of the array. * This includes space for the terminating NULL element (for compatibility * with the C library), so that c <= cCapacity - 1. */ size_t cAllocated; /** Array of environment variables. * These are always in "NAME=VALUE" form, where the value can be empty. If * fPutEnvBlock is set though, there will be "NAME" entries too for variables * that need to be removed when merged with another environment block. */ char **papszEnv; /** Array of environment variables in the process CP. * This get (re-)constructed when RTEnvGetExecEnvP method is called. */ char **papszEnvOtherCP; /** The compare function we're using. */ DECLCALLBACKMEMBER(int, pfnCompare)(const char *psz1, const char *psz2, size_t cchMax); } RTENVINTERNAL, *PRTENVINTERNAL; /** * Internal worker that resolves the pointer to the default * process environment. (environ) * * @returns Pointer to the default environment. * This may be NULL. */ static const char * const *rtEnvDefault(void) { #ifdef RT_OS_DARWIN return *(_NSGetEnviron()); #else return environ; #endif } /** * Internal worker that creates an environment handle with a specified capacity. * * @returns IPRT status code. * @param ppIntEnv Where to store the result. * @param cAllocated The initial array size. * @param fCaseSensitive Whether the environment block is case sensitive or * not. * @param fPutEnvBlock Indicates whether this is a special environment * block that will be used to record change another * block. We will keep unsets in putenv format, i.e. * just the variable name without any equal sign. */ static int rtEnvCreate(PRTENVINTERNAL *ppIntEnv, size_t cAllocated, bool fCaseSensitive, bool fPutEnvBlock) { /* * Allocate environment handle. */ PRTENVINTERNAL pIntEnv = (PRTENVINTERNAL)RTMemAlloc(sizeof(*pIntEnv)); if (pIntEnv) { /* * Pre-allocate the variable array. */ pIntEnv->u32Magic = RTENV_MAGIC; pIntEnv->fPutEnvBlock = fPutEnvBlock; pIntEnv->pfnCompare = fCaseSensitive ? RTStrNCmp : RTStrNICmp; pIntEnv->papszEnvOtherCP = NULL; pIntEnv->cVars = 0; pIntEnv->cAllocated = RT_ALIGN_Z(RT_MAX(cAllocated, RTENV_GROW_SIZE), RTENV_GROW_SIZE); pIntEnv->papszEnv = (char **)RTMemAllocZ(sizeof(pIntEnv->papszEnv[0]) * pIntEnv->cAllocated); if (pIntEnv->papszEnv) { *ppIntEnv = pIntEnv; return VINF_SUCCESS; } RTMemFree(pIntEnv); } return VERR_NO_MEMORY; } RTDECL(int) RTEnvCreate(PRTENV pEnv) { AssertPtrReturn(pEnv, VERR_INVALID_POINTER); return rtEnvCreate(pEnv, RTENV_GROW_SIZE, true /*fCaseSensitive*/, false /*fPutEnvBlock*/); } RT_EXPORT_SYMBOL(RTEnvCreate); RTDECL(int) RTEnvDestroy(RTENV Env) { /* * Ignore NIL_RTENV and validate input. */ if ( Env == NIL_RTENV || Env == RTENV_DEFAULT) return VINF_SUCCESS; PRTENVINTERNAL pIntEnv = Env; AssertPtrReturn(pIntEnv, VERR_INVALID_HANDLE); AssertReturn(pIntEnv->u32Magic == RTENV_MAGIC, VERR_INVALID_HANDLE); /* * Do the cleanup. */ RTENV_LOCK(pIntEnv); pIntEnv->u32Magic++; size_t iVar = pIntEnv->cVars; while (iVar-- > 0) RTStrFree(pIntEnv->papszEnv[iVar]); RTMemFree(pIntEnv->papszEnv); pIntEnv->papszEnv = NULL; if (pIntEnv->papszEnvOtherCP) { for (iVar = 0; pIntEnv->papszEnvOtherCP[iVar]; iVar++) { RTStrFree(pIntEnv->papszEnvOtherCP[iVar]); pIntEnv->papszEnvOtherCP[iVar] = NULL; } RTMemFree(pIntEnv->papszEnvOtherCP); pIntEnv->papszEnvOtherCP = NULL; } RTENV_UNLOCK(pIntEnv); /*RTCritSectDelete(&pIntEnv->CritSect) */ RTMemFree(pIntEnv); return VINF_SUCCESS; } RT_EXPORT_SYMBOL(RTEnvDestroy); RTDECL(int) RTEnvClone(PRTENV pEnv, RTENV EnvToClone) { /* * Validate input and figure out how many variable to clone and where to get them. */ bool fCaseSensitive = true; bool fPutEnvBlock = false; size_t cVars; const char * const *papszEnv; #ifdef RTENV_HAVE_WENVIRON PCRTUTF16 const * papwszEnv = NULL; #endif PRTENVINTERNAL pIntEnvToClone; AssertPtrReturn(pEnv, VERR_INVALID_POINTER); if (EnvToClone == RTENV_DEFAULT) { cVars = 0; pIntEnvToClone = NULL; #ifdef RTENV_HAVE_WENVIRON papszEnv = NULL; papwszEnv = (PCRTUTF16 * const)_wenviron; if (!papwszEnv) { _wgetenv(L"Path"); /* Force the CRT to initalize it. */ papwszEnv = (PCRTUTF16 * const)_wenviron; } if (papwszEnv) while (papwszEnv[cVars]) cVars++; #else papszEnv = rtEnvDefault(); if (papszEnv) while (papszEnv[cVars]) cVars++; #endif #if defined(RT_OS_OS2) || defined(RT_OS_WINDOWS) /* DOS systems was case insensitive. A prime example is the 'Path' variable on windows which turns into the 'PATH' variable. */ fCaseSensitive = false; #endif } else { pIntEnvToClone = EnvToClone; AssertPtrReturn(pIntEnvToClone, VERR_INVALID_HANDLE); AssertReturn(pIntEnvToClone->u32Magic == RTENV_MAGIC, VERR_INVALID_HANDLE); RTENV_LOCK(pIntEnvToClone); fPutEnvBlock = pIntEnvToClone->fPutEnvBlock; papszEnv = pIntEnvToClone->papszEnv; cVars = pIntEnvToClone->cVars; } /* * Create the duplicate. */ PRTENVINTERNAL pIntEnv; int rc = rtEnvCreate(&pIntEnv, cVars + 1 /* NULL */, fCaseSensitive, fPutEnvBlock); if (RT_SUCCESS(rc)) { pIntEnv->cVars = cVars; pIntEnv->papszEnv[pIntEnv->cVars] = NULL; if (EnvToClone == RTENV_DEFAULT) { /* ASSUMES the default environment is in the current codepage. */ size_t iDst = 0; for (size_t iSrc = 0; iSrc < cVars; iSrc++) { #ifdef RTENV_HAVE_WENVIRON int rc2 = RTUtf16ToUtf8(papwszEnv[iSrc], &pIntEnv->papszEnv[iDst]); #else int rc2 = RTStrCurrentCPToUtf8(&pIntEnv->papszEnv[iDst], papszEnv[iSrc]); #endif if (RT_SUCCESS(rc2)) { /* Make sure it contains an '='. */ iDst++; if (strchr(pIntEnv->papszEnv[iDst - 1], '=')) continue; rc2 = RTStrAAppend(&pIntEnv->papszEnv[iDst - 1], "="); if (RT_SUCCESS(rc2)) continue; } else if (rc2 == VERR_NO_TRANSLATION) { rc = VWRN_ENV_NOT_FULLY_TRANSLATED; continue; } /* failed fatally. */ pIntEnv->cVars = iDst; RTEnvDestroy(pIntEnv); return rc2; } pIntEnv->cVars = iDst; } else { for (size_t iVar = 0; iVar < cVars; iVar++) { char *pszVar = RTStrDup(papszEnv[iVar]); if (RT_UNLIKELY(!pszVar)) { RTENV_UNLOCK(pIntEnvToClone); pIntEnv->cVars = iVar; RTEnvDestroy(pIntEnv); return VERR_NO_STR_MEMORY; } pIntEnv->papszEnv[iVar] = pszVar; } } /* done */ *pEnv = pIntEnv; } if (pIntEnvToClone) RTENV_UNLOCK(pIntEnvToClone); return rc; } RT_EXPORT_SYMBOL(RTEnvClone); RTDECL(int) RTEnvCloneUtf16Block(PRTENV phEnv, PCRTUTF16 pwszzBlock, uint32_t fFlags) { AssertPtrReturn(pwszzBlock, VERR_INVALID_POINTER); AssertReturn(!fFlags, VERR_INVALID_FLAGS); /* * Count the number of variables in the block. */ uint32_t cVars = 0; PCRTUTF16 pwsz = pwszzBlock; while (*pwsz != '\0') { cVars++; pwsz += RTUtf16Len(pwsz) + 1; AssertReturn(cVars < _256K, VERR_OUT_OF_RANGE); } /* * Create the duplicate. */ PRTENVINTERNAL pIntEnv; int rc = rtEnvCreate(&pIntEnv, cVars + 1 /* NULL */, false /*fCaseSensitive*/, false /*fPutEnvBlock*/); if (RT_SUCCESS(rc)) { pIntEnv->cVars = cVars; pIntEnv->papszEnv[pIntEnv->cVars] = NULL; size_t iDst = 0; for (pwsz = pwszzBlock; *pwsz != '\0'; pwsz += RTUtf16Len(pwsz) + 1) { int rc2 = RTUtf16ToUtf8(pwsz, &pIntEnv->papszEnv[iDst]); if (RT_SUCCESS(rc2)) { /* Make sure it contains an '='. */ const char *pszEqual = strchr(pIntEnv->papszEnv[iDst], '='); if (!pszEqual) { rc2 = RTStrAAppend(&pIntEnv->papszEnv[iDst], "="); if (RT_SUCCESS(rc2)) pszEqual = strchr(pIntEnv->papszEnv[iDst], '='); } if (pszEqual) { /* Check for duplicates, keep the last version. */ const char *pchVar = pIntEnv->papszEnv[iDst]; size_t cchVarNmAndEq = pszEqual - pchVar; for (size_t iDst2 = 0; iDst2 < iDst; iDst2++) if (pIntEnv->pfnCompare(pIntEnv->papszEnv[iDst2], pchVar, cchVarNmAndEq) == 0) { RTStrFree(pIntEnv->papszEnv[iDst2]); pIntEnv->papszEnv[iDst2] = pIntEnv->papszEnv[iDst]; pIntEnv->papszEnv[iDst] = NULL; iDst--; break; } iDst++; continue; } iDst++; } /* failed fatally. */ pIntEnv->cVars = iDst; RTEnvDestroy(pIntEnv); return rc2; } Assert(iDst <= pIntEnv->cVars); pIntEnv->cVars = iDst; /* done */ *phEnv = pIntEnv; } return rc; } RT_EXPORT_SYMBOL(RTEnvCloneUtf16Block); RTDECL(int) RTEnvReset(RTENV hEnv) { PRTENVINTERNAL pIntEnv = hEnv; AssertPtrReturn(pIntEnv, VERR_INVALID_HANDLE); AssertReturn(pIntEnv->u32Magic == RTENV_MAGIC, VERR_INVALID_HANDLE); RTENV_LOCK(pIntEnv); size_t iVar = pIntEnv->cVars; pIntEnv->cVars = 0; while (iVar-- > 0) { RTMemFree(pIntEnv->papszEnv[iVar]); pIntEnv->papszEnv[iVar] = NULL; } RTENV_UNLOCK(pIntEnv); return VINF_SUCCESS; } RT_EXPORT_SYMBOL(RTEnvReset); RTDECL(int) RTEnvPutEx(RTENV Env, const char *pszVarEqualValue) { int rc; AssertPtrReturn(pszVarEqualValue, VERR_INVALID_POINTER); const char *pszEq = strchr(pszVarEqualValue, '='); if (!pszEq) rc = RTEnvUnsetEx(Env, pszVarEqualValue); else { /* * Make a copy of the variable name so we can terminate it * properly and then pass the request on to RTEnvSetEx. */ const char *pszValue = pszEq + 1; size_t cchVar = pszEq - pszVarEqualValue; Assert(cchVar < 1024); char *pszVar = (char *)alloca(cchVar + 1); memcpy(pszVar, pszVarEqualValue, cchVar); pszVar[cchVar] = '\0'; rc = RTEnvSetEx(Env, pszVar, pszValue); } return rc; } RT_EXPORT_SYMBOL(RTEnvPutEx); /** * Appends an already allocated string to papszEnv. * * @returns IPRT status code * @param pIntEnv The environment block to append it to. * @param pszEntry The string to add. Already duplicated, caller * does error cleanup. */ static int rtEnvIntAppend(PRTENVINTERNAL pIntEnv, char *pszEntry) { /* * Do we need to resize the array? */ int rc = VINF_SUCCESS; size_t iVar = pIntEnv->cVars; if (iVar + 2 > pIntEnv->cAllocated) { void *pvNew = RTMemRealloc(pIntEnv->papszEnv, sizeof(char *) * (pIntEnv->cAllocated + RTENV_GROW_SIZE)); if (!pvNew) rc = VERR_NO_MEMORY; else { pIntEnv->papszEnv = (char **)pvNew; pIntEnv->cAllocated += RTENV_GROW_SIZE; for (size_t iNewVar = pIntEnv->cVars; iNewVar < pIntEnv->cAllocated; iNewVar++) pIntEnv->papszEnv[iNewVar] = NULL; } } if (RT_SUCCESS(rc)) { /* * Append it. */ pIntEnv->papszEnv[iVar] = pszEntry; pIntEnv->papszEnv[iVar + 1] = NULL; /* this isn't really necessary, but doesn't hurt. */ pIntEnv->cVars = iVar + 1; } return rc; } RTDECL(int) RTEnvSetEx(RTENV Env, const char *pszVar, const char *pszValue) { AssertPtrReturn(pszVar, VERR_INVALID_POINTER); AssertReturn(*pszVar, VERR_INVALID_PARAMETER); AssertPtrReturn(pszValue, VERR_INVALID_POINTER); AssertReturn(strchr(pszVar, '=') == NULL, VERR_ENV_INVALID_VAR_NAME); int rc; if (Env == RTENV_DEFAULT) { #ifdef RT_OS_WINDOWS rc = RTEnvSetUtf8(pszVar, pszValue); #else /* * Since RTEnvPut isn't UTF-8 clean and actually expects the strings * to be in the current code page (codeset), we'll do the necessary * conversions here. */ char *pszVarOtherCP; rc = RTStrUtf8ToCurrentCP(&pszVarOtherCP, pszVar); if (RT_SUCCESS(rc)) { char *pszValueOtherCP; rc = RTStrUtf8ToCurrentCP(&pszValueOtherCP, pszValue); if (RT_SUCCESS(rc)) { rc = RTEnvSet(pszVarOtherCP, pszValueOtherCP); RTStrFree(pszValueOtherCP); } RTStrFree(pszVarOtherCP); } #endif } else { PRTENVINTERNAL pIntEnv = Env; AssertPtrReturn(pIntEnv, VERR_INVALID_HANDLE); AssertReturn(pIntEnv->u32Magic == RTENV_MAGIC, VERR_INVALID_HANDLE); /* * Create the variable string. */ const size_t cchVar = strlen(pszVar); const size_t cchValue = strlen(pszValue); char *pszEntry = (char *)RTMemAlloc(cchVar + cchValue + 2); if (pszEntry) { memcpy(pszEntry, pszVar, cchVar); pszEntry[cchVar] = '='; memcpy(&pszEntry[cchVar + 1], pszValue, cchValue + 1); RTENV_LOCK(pIntEnv); /* * Find the location of the variable. (iVar = cVars if new) */ rc = VINF_SUCCESS; size_t iVar; for (iVar = 0; iVar < pIntEnv->cVars; iVar++) if ( !pIntEnv->pfnCompare(pIntEnv->papszEnv[iVar], pszVar, cchVar) && ( pIntEnv->papszEnv[iVar][cchVar] == '=' || pIntEnv->papszEnv[iVar][cchVar] == '\0') ) break; if (iVar < pIntEnv->cVars) { /* * Replace the current entry. Simple. */ RTMemFree(pIntEnv->papszEnv[iVar]); pIntEnv->papszEnv[iVar] = pszEntry; } else { /* * New variable, append it. */ Assert(pIntEnv->cVars == iVar); rc = rtEnvIntAppend(pIntEnv, pszEntry); } RTENV_UNLOCK(pIntEnv); if (RT_FAILURE(rc)) RTMemFree(pszEntry); } else rc = VERR_NO_MEMORY; } return rc; } RT_EXPORT_SYMBOL(RTEnvSetEx); RTDECL(int) RTEnvUnsetEx(RTENV Env, const char *pszVar) { AssertPtrReturn(pszVar, VERR_INVALID_POINTER); AssertReturn(*pszVar, VERR_INVALID_PARAMETER); AssertReturn(strchr(pszVar, '=') == NULL, VERR_ENV_INVALID_VAR_NAME); int rc; if (Env == RTENV_DEFAULT) { #ifdef RTENV_IMPLEMENTS_UTF8_DEFAULT_ENV_API rc = RTEnvUnsetUtf8(pszVar); #else /* * Since RTEnvUnset isn't UTF-8 clean and actually expects the strings * to be in the current code page (codeset), we'll do the necessary * conversions here. */ char *pszVarOtherCP; rc = RTStrUtf8ToCurrentCP(&pszVarOtherCP, pszVar); if (RT_SUCCESS(rc)) { rc = RTEnvUnset(pszVarOtherCP); RTStrFree(pszVarOtherCP); } #endif } else { PRTENVINTERNAL pIntEnv = Env; AssertPtrReturn(pIntEnv, VERR_INVALID_HANDLE); AssertReturn(pIntEnv->u32Magic == RTENV_MAGIC, VERR_INVALID_HANDLE); RTENV_LOCK(pIntEnv); /* * Remove all variable by the given name. */ rc = VINF_ENV_VAR_NOT_FOUND; const size_t cchVar = strlen(pszVar); size_t iVar; for (iVar = 0; iVar < pIntEnv->cVars; iVar++) if ( !pIntEnv->pfnCompare(pIntEnv->papszEnv[iVar], pszVar, cchVar) && ( pIntEnv->papszEnv[iVar][cchVar] == '=' || pIntEnv->papszEnv[iVar][cchVar] == '\0') ) { if (!pIntEnv->fPutEnvBlock) { RTMemFree(pIntEnv->papszEnv[iVar]); pIntEnv->cVars--; if (pIntEnv->cVars > 0) pIntEnv->papszEnv[iVar] = pIntEnv->papszEnv[pIntEnv->cVars]; pIntEnv->papszEnv[pIntEnv->cVars] = NULL; } else { /* Record this unset by keeping the variable without any equal sign. */ pIntEnv->papszEnv[iVar][cchVar] = '\0'; } rc = VINF_SUCCESS; /* no break, there could be more. */ } /* * If this is a change record, we may need to add it. */ if (rc == VINF_ENV_VAR_NOT_FOUND && pIntEnv->fPutEnvBlock) { char *pszEntry = (char *)RTMemDup(pszVar, cchVar + 1); if (pszEntry) { rc = rtEnvIntAppend(pIntEnv, pszEntry); if (RT_SUCCESS(rc)) rc = VINF_ENV_VAR_NOT_FOUND; else RTMemFree(pszEntry); } else rc = VERR_NO_MEMORY; } RTENV_UNLOCK(pIntEnv); } return rc; } RT_EXPORT_SYMBOL(RTEnvUnsetEx); RTDECL(int) RTEnvGetEx(RTENV Env, const char *pszVar, char *pszValue, size_t cbValue, size_t *pcchActual) { AssertPtrReturn(pszVar, VERR_INVALID_POINTER); AssertPtrNullReturn(pszValue, VERR_INVALID_POINTER); AssertPtrNullReturn(pcchActual, VERR_INVALID_POINTER); AssertReturn(pcchActual || (pszValue && cbValue), VERR_INVALID_PARAMETER); AssertReturn(strchr(pszVar, '=') == NULL, VERR_ENV_INVALID_VAR_NAME); if (pcchActual) *pcchActual = 0; int rc; if (Env == RTENV_DEFAULT) { #ifdef RTENV_IMPLEMENTS_UTF8_DEFAULT_ENV_API rc = RTEnvGetUtf8(pszVar, pszValue, cbValue, pcchActual); #else /* * Since RTEnvGet isn't UTF-8 clean and actually expects the strings * to be in the current code page (codeset), we'll do the necessary * conversions here. */ char *pszVarOtherCP; rc = RTStrUtf8ToCurrentCP(&pszVarOtherCP, pszVar); if (RT_SUCCESS(rc)) { const char *pszValueOtherCP = RTEnvGet(pszVarOtherCP); RTStrFree(pszVarOtherCP); if (pszValueOtherCP) { char *pszValueUtf8; rc = RTStrCurrentCPToUtf8(&pszValueUtf8, pszValueOtherCP); if (RT_SUCCESS(rc)) { rc = VINF_SUCCESS; size_t cch = strlen(pszValueUtf8); if (pcchActual) *pcchActual = cch; if (pszValue && cbValue) { if (cch < cbValue) memcpy(pszValue, pszValueUtf8, cch + 1); else rc = VERR_BUFFER_OVERFLOW; } RTStrFree(pszValueUtf8); } } else rc = VERR_ENV_VAR_NOT_FOUND; } #endif } else { PRTENVINTERNAL pIntEnv = Env; AssertPtrReturn(pIntEnv, VERR_INVALID_HANDLE); AssertReturn(pIntEnv->u32Magic == RTENV_MAGIC, VERR_INVALID_HANDLE); RTENV_LOCK(pIntEnv); /* * Locate the first variable and return it to the caller. */ rc = VERR_ENV_VAR_NOT_FOUND; const size_t cchVar = strlen(pszVar); size_t iVar; for (iVar = 0; iVar < pIntEnv->cVars; iVar++) if (!pIntEnv->pfnCompare(pIntEnv->papszEnv[iVar], pszVar, cchVar)) { if (pIntEnv->papszEnv[iVar][cchVar] == '=') { rc = VINF_SUCCESS; const char *pszValueOrg = pIntEnv->papszEnv[iVar] + cchVar + 1; size_t cch = strlen(pszValueOrg); if (pcchActual) *pcchActual = cch; if (pszValue && cbValue) { if (cch < cbValue) memcpy(pszValue, pszValueOrg, cch + 1); else rc = VERR_BUFFER_OVERFLOW; } break; } if (pIntEnv->papszEnv[iVar][cchVar] == '\0') { Assert(pIntEnv->fPutEnvBlock); rc = VERR_ENV_VAR_UNSET; break; } } RTENV_UNLOCK(pIntEnv); } return rc; } RT_EXPORT_SYMBOL(RTEnvGetEx); RTDECL(bool) RTEnvExistEx(RTENV Env, const char *pszVar) { AssertPtrReturn(pszVar, false); bool fExists = false; if (Env == RTENV_DEFAULT) { #ifdef RTENV_IMPLEMENTS_UTF8_DEFAULT_ENV_API fExists = RTEnvExistsUtf8(pszVar); #else /* * Since RTEnvExist isn't UTF-8 clean and actually expects the strings * to be in the current code page (codeset), we'll do the necessary * conversions here. */ char *pszVarOtherCP; int rc = RTStrUtf8ToCurrentCP(&pszVarOtherCP, pszVar); if (RT_SUCCESS(rc)) { fExists = RTEnvExist(pszVarOtherCP); RTStrFree(pszVarOtherCP); } #endif } else { PRTENVINTERNAL pIntEnv = Env; AssertPtrReturn(pIntEnv, false); AssertReturn(pIntEnv->u32Magic == RTENV_MAGIC, false); RTENV_LOCK(pIntEnv); /* * Simple search. */ const size_t cchVar = strlen(pszVar); for (size_t iVar = 0; iVar < pIntEnv->cVars; iVar++) if (!pIntEnv->pfnCompare(pIntEnv->papszEnv[iVar], pszVar, cchVar)) { if (pIntEnv->papszEnv[iVar][cchVar] == '=') { fExists = true; break; } if (pIntEnv->papszEnv[iVar][cchVar] == '\0') break; } RTENV_UNLOCK(pIntEnv); } return fExists; } RT_EXPORT_SYMBOL(RTEnvExistEx); RTDECL(char const * const *) RTEnvGetExecEnvP(RTENV Env) { const char * const *papszRet; if (Env == RTENV_DEFAULT) { /** @todo fix this API it's fundamentally wrong! */ papszRet = rtEnvDefault(); if (!papszRet) { static const char * const s_papszDummy[2] = { NULL, NULL }; papszRet = &s_papszDummy[0]; } } else { PRTENVINTERNAL pIntEnv = Env; AssertPtrReturn(pIntEnv, NULL); AssertReturn(pIntEnv->u32Magic == RTENV_MAGIC, NULL); RTENV_LOCK(pIntEnv); /* * Free any old envp. */ if (pIntEnv->papszEnvOtherCP) { for (size_t iVar = 0; pIntEnv->papszEnvOtherCP[iVar]; iVar++) { RTStrFree(pIntEnv->papszEnvOtherCP[iVar]); pIntEnv->papszEnvOtherCP[iVar] = NULL; } RTMemFree(pIntEnv->papszEnvOtherCP); pIntEnv->papszEnvOtherCP = NULL; } /* * Construct a new envp with the strings in the process code set. */ char **papsz; papszRet = pIntEnv->papszEnvOtherCP = papsz = (char **)RTMemAlloc(sizeof(char *) * (pIntEnv->cVars + 1)); if (papsz) { papsz[pIntEnv->cVars] = NULL; for (size_t iVar = 0; iVar < pIntEnv->cVars; iVar++) { int rc = RTStrUtf8ToCurrentCP(&papsz[iVar], pIntEnv->papszEnv[iVar]); if (RT_FAILURE(rc)) { /* RTEnvDestroy / we cleans up later. */ papsz[iVar] = NULL; AssertRC(rc); papszRet = NULL; break; } } } RTENV_UNLOCK(pIntEnv); } return papszRet; } RT_EXPORT_SYMBOL(RTEnvGetExecEnvP); /** * RTSort callback for comparing two environment variables. * * @returns -1, 0, 1. See PFNRTSORTCMP. * @param pvElement1 Variable 1. * @param pvElement2 Variable 2. * @param pvUser Ignored. */ static DECLCALLBACK(int) rtEnvSortCompare(const void *pvElement1, const void *pvElement2, void *pvUser) { NOREF(pvUser); int iDiff = strcmp((const char *)pvElement1, (const char *)pvElement2); if (iDiff < 0) iDiff = -1; else if (iDiff > 0) iDiff = 1; return iDiff; } RTDECL(int) RTEnvQueryUtf16Block(RTENV hEnv, PRTUTF16 *ppwszzBlock) { RTENV hClone = NIL_RTENV; PRTENVINTERNAL pIntEnv; int rc; /* * Validate / simplify input. */ if (hEnv == RTENV_DEFAULT) { rc = RTEnvClone(&hClone, RTENV_DEFAULT); if (RT_FAILURE(rc)) return rc; pIntEnv = hClone; } else { pIntEnv = hEnv; AssertPtrReturn(pIntEnv, VERR_INVALID_HANDLE); AssertReturn(pIntEnv->u32Magic == RTENV_MAGIC, VERR_INVALID_HANDLE); rc = VINF_SUCCESS; } RTENV_LOCK(pIntEnv); /* * Sort it first. */ RTSortApvShell((void **)pIntEnv->papszEnv, pIntEnv->cVars, rtEnvSortCompare, pIntEnv); /* * Calculate the size. */ size_t cwc; size_t cwcTotal = 2; for (size_t iVar = 0; iVar < pIntEnv->cVars; iVar++) { rc = RTStrCalcUtf16LenEx(pIntEnv->papszEnv[iVar], RTSTR_MAX, &cwc); AssertRCBreak(rc); cwcTotal += cwc + 1; } PRTUTF16 pwszzBlock = NULL; if (RT_SUCCESS(rc)) { /* * Perform the conversion. */ PRTUTF16 pwszz = pwszzBlock = (PRTUTF16)RTMemAlloc(cwcTotal * sizeof(RTUTF16)); if (pwszz) { size_t cwcLeft = cwcTotal; for (size_t iVar = 0; iVar < pIntEnv->cVars; iVar++) { rc = RTStrToUtf16Ex(pIntEnv->papszEnv[iVar], RTSTR_MAX, &pwszz, cwcTotal - (pwszz - pwszzBlock), &cwc); AssertRCBreak(rc); pwszz += cwc + 1; cwcLeft -= cwc + 1; AssertBreakStmt(cwcLeft >= 2, rc = VERR_INTERNAL_ERROR_3); } AssertStmt(cwcLeft == 2 || RT_FAILURE(rc), rc = VERR_INTERNAL_ERROR_2); if (RT_SUCCESS(rc)) { pwszz[0] = '\0'; pwszz[1] = '\0'; } else { RTMemFree(pwszzBlock); pwszzBlock = NULL; } } else rc = VERR_NO_MEMORY; } RTENV_UNLOCK(pIntEnv); if (hClone != NIL_RTENV) RTEnvDestroy(hClone); if (RT_SUCCESS(rc)) *ppwszzBlock = pwszzBlock; return rc; } RT_EXPORT_SYMBOL(RTEnvQueryUtf16Block); RTDECL(void) RTEnvFreeUtf16Block(PRTUTF16 pwszzBlock) { RTMemFree(pwszzBlock); } RT_EXPORT_SYMBOL(RTEnvFreeUtf16Block); RTDECL(int) RTEnvQueryUtf8Block(RTENV hEnv, bool fSorted, char **ppszzBlock, size_t *pcbBlock) { RTENV hClone = NIL_RTENV; PRTENVINTERNAL pIntEnv; int rc; /* * Validate / simplify input. */ if (hEnv == RTENV_DEFAULT) { rc = RTEnvClone(&hClone, RTENV_DEFAULT); if (RT_FAILURE(rc)) return rc; pIntEnv = hClone; } else { pIntEnv = hEnv; AssertPtrReturn(pIntEnv, VERR_INVALID_HANDLE); AssertReturn(pIntEnv->u32Magic == RTENV_MAGIC, VERR_INVALID_HANDLE); rc = VINF_SUCCESS; } RTENV_LOCK(pIntEnv); /* * Sort it, if requested. */ if (fSorted) RTSortApvShell((void **)pIntEnv->papszEnv, pIntEnv->cVars, rtEnvSortCompare, pIntEnv); /* * Calculate the size. We add one extra terminator just to be on the safe side. */ size_t cbBlock = 2; for (size_t iVar = 0; iVar < pIntEnv->cVars; iVar++) cbBlock += strlen(pIntEnv->papszEnv[iVar]) + 1; if (pcbBlock) *pcbBlock = cbBlock - 1; /* * Allocate memory and copy out the variables. */ char *pszzBlock; char *pszz = pszzBlock = (char *)RTMemAlloc(cbBlock); if (pszz) { size_t cbLeft = cbBlock; for (size_t iVar = 0; iVar < pIntEnv->cVars; iVar++) { size_t cb = strlen(pIntEnv->papszEnv[iVar]) + 1; AssertBreakStmt(cb + 2 <= cbLeft, rc = VERR_INTERNAL_ERROR_3); memcpy(pszz, pIntEnv->papszEnv[iVar], cb); pszz += cb; cbLeft -= cb; } if (RT_SUCCESS(rc)) { pszz[0] = '\0'; pszz[1] = '\0'; /* The extra one. */ } else { RTMemFree(pszzBlock); pszzBlock = NULL; } } else rc = VERR_NO_MEMORY; RTENV_UNLOCK(pIntEnv); if (hClone != NIL_RTENV) RTEnvDestroy(hClone); if (RT_SUCCESS(rc)) *ppszzBlock = pszzBlock; return rc; } RT_EXPORT_SYMBOL(RTEnvQueryUtf8Block); RTDECL(void) RTEnvFreeUtf8Block(char *pszzBlock) { RTMemFree(pszzBlock); } RT_EXPORT_SYMBOL(RTEnvFreeUtf8Block); RTDECL(uint32_t) RTEnvCountEx(RTENV hEnv) { PRTENVINTERNAL pIntEnv = hEnv; AssertPtrReturn(pIntEnv, UINT32_MAX); AssertReturn(pIntEnv->u32Magic == RTENV_MAGIC, UINT32_MAX); RTENV_LOCK(pIntEnv); uint32_t cVars = (uint32_t)pIntEnv->cVars; RTENV_UNLOCK(pIntEnv); return cVars; } RT_EXPORT_SYMBOL(RTEnvCountEx); RTDECL(int) RTEnvGetByIndexEx(RTENV hEnv, uint32_t iVar, char *pszVar, size_t cbVar, char *pszValue, size_t cbValue) { PRTENVINTERNAL pIntEnv = hEnv; AssertPtrReturn(pIntEnv, UINT32_MAX); AssertReturn(pIntEnv->u32Magic == RTENV_MAGIC, UINT32_MAX); if (cbVar) AssertPtrReturn(pszVar, VERR_INVALID_POINTER); if (cbValue) AssertPtrReturn(pszValue, VERR_INVALID_POINTER); RTENV_LOCK(pIntEnv); int rc; if (iVar < pIntEnv->cVars) { const char *pszSrcVar = pIntEnv->papszEnv[iVar]; const char *pszSrcValue = strchr(pszSrcVar, '='); bool fHasEqual = pszSrcValue != NULL; if (pszSrcValue) { pszSrcValue++; rc = VINF_SUCCESS; } else { pszSrcValue = strchr(pszSrcVar, '\0'); rc = VINF_ENV_VAR_UNSET; } if (cbVar) { int rc2 = RTStrCopyEx(pszVar, cbVar, pszSrcVar, pszSrcValue - pszSrcVar - fHasEqual); if (RT_FAILURE(rc2)) rc = rc2; } if (cbValue) { int rc2 = RTStrCopy(pszValue, cbValue, pszSrcValue); if (RT_FAILURE(rc2) && RT_SUCCESS(rc)) rc = rc2; } } else rc = VERR_ENV_VAR_NOT_FOUND; RTENV_UNLOCK(pIntEnv); return rc; } RT_EXPORT_SYMBOL(RTEnvGetByIndexEx); RTDECL(const char *) RTEnvGetByIndexRawEx(RTENV hEnv, uint32_t iVar) { PRTENVINTERNAL pIntEnv = hEnv; AssertPtrReturn(pIntEnv, NULL); AssertReturn(pIntEnv->u32Magic == RTENV_MAGIC, NULL); RTENV_LOCK(pIntEnv); const char *pszRet; if (iVar < pIntEnv->cVars) pszRet = pIntEnv->papszEnv[iVar]; else pszRet = NULL; RTENV_UNLOCK(pIntEnv); return pszRet; } RT_EXPORT_SYMBOL(RTEnvGetByIndexRawEx); RTDECL(int) RTEnvCreateChangeRecord(PRTENV phEnv) { AssertPtrReturn(phEnv, VERR_INVALID_POINTER); return rtEnvCreate(phEnv, RTENV_GROW_SIZE, true /*fCaseSensitive*/, true /*fPutEnvBlock*/); } RT_EXPORT_SYMBOL(RTEnvCreateChangeRecord); RTDECL(bool) RTEnvIsChangeRecord(RTENV hEnv) { if (hEnv == RTENV_DEFAULT) return false; PRTENVINTERNAL pIntEnv = hEnv; AssertPtrReturn(pIntEnv, false); AssertReturn(pIntEnv->u32Magic == RTENV_MAGIC, false); return pIntEnv->fPutEnvBlock; } RT_EXPORT_SYMBOL(RTEnvIsChangeRecord); RTDECL(int) RTEnvApplyChanges(RTENV hEnvDst, RTENV hEnvChanges) { PRTENVINTERNAL pIntEnvChanges = hEnvChanges; AssertPtrReturn(pIntEnvChanges, VERR_INVALID_HANDLE); AssertReturn(pIntEnvChanges->u32Magic == RTENV_MAGIC, VERR_INVALID_HANDLE); /** @todo lock validator trouble ahead here! */ RTENV_LOCK(pIntEnvChanges); int rc = VINF_SUCCESS; for (uint32_t iChange = 0; iChange < pIntEnvChanges->cVars && RT_SUCCESS(rc); iChange++) rc = RTEnvPutEx(hEnvDst, pIntEnvChanges->papszEnv[iChange]); RTENV_UNLOCK(pIntEnvChanges); return rc; } RT_EXPORT_SYMBOL(RTEnvApplyChanges);