%{ /* * Implementation of the Microsoft Installer (msi.dll) * * Copyright 2003 Mike McCormack for CodeWeavers * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ #include "config.h" #include #include #include #include "windef.h" #include "winbase.h" #include "wine/debug.h" #include "wine/unicode.h" #include "msi.h" #include "msiquery.h" #include "msipriv.h" #define YYLEX_PARAM info #define YYPARSE_PARAM info static int COND_error(char *str); WINE_DEFAULT_DEBUG_CHANNEL(msi); typedef struct tag_yyinput { MSIPACKAGE *package; LPCWSTR str; INT n; MSICONDITION result; } COND_input; struct cond_str { LPCWSTR data; INT len; }; static LPWSTR COND_GetString( struct cond_str *str ); static LPWSTR COND_GetLiteral( struct cond_str *str ); static int COND_lex( void *COND_lval, COND_input *info); typedef INT (*comp_int)(INT a, INT b); typedef INT (*comp_str)(LPWSTR a, LPWSTR b, BOOL caseless); typedef INT (*comp_m1)(LPWSTR a,int b); typedef INT (*comp_m2)(int a,LPWSTR b); static INT comp_lt_i(INT a, INT b); static INT comp_gt_i(INT a, INT b); static INT comp_le_i(INT a, INT b); static INT comp_ge_i(INT a, INT b); static INT comp_eq_i(INT a, INT b); static INT comp_ne_i(INT a, INT b); static INT comp_bitand(INT a, INT b); static INT comp_highcomp(INT a, INT b); static INT comp_lowcomp(INT a, INT b); static INT comp_eq_s(LPWSTR a, LPWSTR b, BOOL casless); static INT comp_ne_s(LPWSTR a, LPWSTR b, BOOL casless); static INT comp_lt_s(LPWSTR a, LPWSTR b, BOOL casless); static INT comp_gt_s(LPWSTR a, LPWSTR b, BOOL casless); static INT comp_le_s(LPWSTR a, LPWSTR b, BOOL casless); static INT comp_ge_s(LPWSTR a, LPWSTR b, BOOL casless); static INT comp_substring(LPWSTR a, LPWSTR b, BOOL casless); static INT comp_start(LPWSTR a, LPWSTR b, BOOL casless); static INT comp_end(LPWSTR a, LPWSTR b, BOOL casless); static INT comp_eq_m1(LPWSTR a, INT b); static INT comp_ne_m1(LPWSTR a, INT b); static INT comp_lt_m1(LPWSTR a, INT b); static INT comp_gt_m1(LPWSTR a, INT b); static INT comp_le_m1(LPWSTR a, INT b); static INT comp_ge_m1(LPWSTR a, INT b); static INT comp_eq_m2(INT a, LPWSTR b); static INT comp_ne_m2(INT a, LPWSTR b); static INT comp_lt_m2(INT a, LPWSTR b); static INT comp_gt_m2(INT a, LPWSTR b); static INT comp_le_m2(INT a, LPWSTR b); static INT comp_ge_m2(INT a, LPWSTR b); %} %pure-parser %union { struct cond_str str; LPWSTR string; INT value; comp_int fn_comp_int; comp_str fn_comp_str; comp_m1 fn_comp_m1; comp_m2 fn_comp_m2; } %token COND_SPACE COND_EOF COND_SPACE %token COND_OR COND_AND COND_NOT %token COND_LT COND_GT COND_EQ %token COND_LPAR COND_RPAR COND_TILDA %token COND_PERCENT COND_DOLLARS COND_QUESTION COND_AMPER COND_EXCLAM %token COND_IDENT COND_NUMBER COND_LITER %nonassoc COND_EOF COND_ERROR %type expression boolean_term boolean_factor %type term value_i symbol_i integer %type identifier value_s symbol_s literal %type comp_op_i %type comp_op_s %type comp_op_m1 %type comp_op_m2 %% condition: expression { COND_input* cond = (COND_input*) info; cond->result = $1; } ; expression: boolean_term { $$ = $1; } | boolean_term COND_OR expression { $$ = $1 || $3; } ; boolean_term: boolean_factor { $$ = $1; } | boolean_term COND_AND boolean_factor { $$ = $1 && $3; } ; boolean_factor: term { $$ = $1; } | COND_NOT term { $$ = ! $2; } ; term: value_i { $$ = $1; } | value_s { $$ = $1[0] ? MSICONDITION_TRUE : MSICONDITION_FALSE; } | value_i comp_op_i value_i { $$ = $2( $1, $3 ); } | value_s comp_op_s value_s { $$ = $2( $1, $3, FALSE ); } | value_s COND_TILDA comp_op_s value_s { $$ = $3( $1, $4, TRUE ); } | value_s comp_op_m1 value_i { $$ = $2( $1, $3 ); } | value_i comp_op_m2 value_s { $$ = $2( $1, $3 ); } | COND_LPAR expression COND_RPAR { $$ = $2; } ; comp_op_i: /* common functions */ COND_EQ { $$ = comp_eq_i; } | COND_LT COND_GT { $$ = comp_ne_i; } | COND_LT { $$ = comp_lt_i; } | COND_GT { $$ = comp_gt_i; } | COND_LT COND_EQ { $$ = comp_le_i; } | COND_GT COND_EQ { $$ = comp_ge_i; } /*Int only*/ | COND_GT COND_LT { $$ = comp_bitand; } | COND_LT COND_LT { $$ = comp_highcomp; } | COND_GT COND_GT { $$ = comp_lowcomp; } ; comp_op_s: /* common functions */ COND_EQ { $$ = comp_eq_s; } | COND_LT COND_GT { $$ = comp_ne_s; } | COND_LT { $$ = comp_lt_s; } | COND_GT { $$ = comp_gt_s; } | COND_LT COND_EQ { $$ = comp_le_s; } | COND_GT COND_EQ { $$ = comp_ge_s; } /*string only*/ | COND_GT COND_LT { $$ = comp_substring; } | COND_LT COND_LT { $$ = comp_start; } | COND_GT COND_GT { $$ = comp_end; } ; comp_op_m1: /* common functions */ COND_EQ { $$ = comp_eq_m1; } | COND_LT COND_GT { $$ = comp_ne_m1; } | COND_LT { $$ = comp_lt_m1; } | COND_GT { $$ = comp_gt_m1; } | COND_LT COND_EQ { $$ = comp_le_m1; } | COND_GT COND_EQ { $$ = comp_ge_m1; } /*Not valid for mixed compares*/ | COND_GT COND_LT { $$ = 0; } | COND_LT COND_LT { $$ = 0; } | COND_GT COND_GT { $$ = 0; } ; comp_op_m2: /* common functions */ COND_EQ { $$ = comp_eq_m2; } | COND_LT COND_GT { $$ = comp_ne_m2; } | COND_LT { $$ = comp_lt_m2; } | COND_GT { $$ = comp_gt_m2; } | COND_LT COND_EQ { $$ = comp_le_m2; } | COND_GT COND_EQ { $$ = comp_ge_m2; } /*Not valid for mixed compares*/ | COND_GT COND_LT { $$ = 0; } | COND_LT COND_LT { $$ = 0; } | COND_GT COND_GT { $$ = 0; } ; value_i: symbol_i { $$ = $1; } | integer { $$ = $1; } ; value_s: symbol_s { $$ = $1; } | literal { $$ = $1; } ; literal: COND_LITER { $$ = COND_GetLiteral(&$1); if( !$$ ) YYABORT; } ; symbol_i: COND_DOLLARS identifier { COND_input* cond = (COND_input*) info; INSTALLSTATE install = INSTALLSTATE_UNKNOWN, action = INSTALLSTATE_UNKNOWN; MSI_GetComponentStateW(cond->package, $2, &install, &action ); $$ = action; HeapFree( GetProcessHeap(), 0, $2 ); } | COND_QUESTION identifier { COND_input* cond = (COND_input*) info; INSTALLSTATE install = INSTALLSTATE_UNKNOWN, action = INSTALLSTATE_UNKNOWN; MSI_GetComponentStateW(cond->package, $2, &install, &action ); $$ = install; HeapFree( GetProcessHeap(), 0, $2 ); } | COND_AMPER identifier { COND_input* cond = (COND_input*) info; INSTALLSTATE install = INSTALLSTATE_UNKNOWN, action = INSTALLSTATE_UNKNOWN; MSI_GetFeatureStateW(cond->package, $2, &install, &action ); $$ = action; HeapFree( GetProcessHeap(), 0, $2 ); } | COND_EXCLAM identifier { COND_input* cond = (COND_input*) info; INSTALLSTATE install = INSTALLSTATE_UNKNOWN, action = INSTALLSTATE_UNKNOWN; MSI_GetFeatureStateW(cond->package, $2, &install, &action ); $$ = install; HeapFree( GetProcessHeap(), 0, $2 ); } ; symbol_s: identifier { DWORD sz; COND_input* cond = (COND_input*) info; $$ = HeapAlloc( GetProcessHeap(), 0, 0x100*sizeof (WCHAR) ); /* Lookup the identifier */ sz=0x100; if (MSI_GetPropertyW(cond->package,$1,$$,&sz) != ERROR_SUCCESS) { $$[0]=0; } HeapFree( GetProcessHeap(), 0, $1 ); } | COND_PERCENT identifier { UINT len = GetEnvironmentVariableW( $2, NULL, 0 ); if( len++ ) { $$ = HeapAlloc( GetProcessHeap(), 0, len*sizeof (WCHAR) ); if( $$ ) GetEnvironmentVariableW( $2, $$, len ); } HeapFree( GetProcessHeap(), 0, $2 ); } ; identifier: COND_IDENT { $$ = COND_GetString(&$1); if( !$$ ) YYABORT; } ; integer: COND_NUMBER { LPWSTR szNum = COND_GetString(&$1); if( !szNum ) YYABORT; $$ = atoiW( szNum ); HeapFree( GetProcessHeap(), 0, szNum ); } ; %% static int COND_IsAlpha( WCHAR x ) { return( ( ( x >= 'A' ) && ( x <= 'Z' ) ) || ( ( x >= 'a' ) && ( x <= 'z' ) ) || ( ( x == '_' ) ) ); } static int COND_IsNumber( WCHAR x ) { return( (( x >= '0' ) && ( x <= '9' )) || (x =='-') || (x =='.') ); } /* the mess of comparison functions */ static INT comp_lt_i(INT a, INT b) { return (a < b); } static INT comp_gt_i(INT a, INT b) { return (a > b); } static INT comp_le_i(INT a, INT b) { return (a <= b); } static INT comp_ge_i(INT a, INT b) { return (a >= b); } static INT comp_eq_i(INT a, INT b) { return (a == b); } static INT comp_ne_i(INT a, INT b) { return (a != b); } static INT comp_bitand(INT a, INT b) { return a & b;} static INT comp_highcomp(INT a, INT b) { return HIWORD(a)==b; } static INT comp_lowcomp(INT a, INT b) { return LOWORD(a)==b; } static INT comp_eq_s(LPWSTR a, LPWSTR b, BOOL casless) { if (casless) return !strcmpiW(a,b); else return !strcmpW(a,b);} static INT comp_ne_s(LPWSTR a, LPWSTR b, BOOL casless) { if (casless) return strcmpiW(a,b); else return strcmpW(a,b);} static INT comp_lt_s(LPWSTR a, LPWSTR b, BOOL casless) { if (casless) return strcmpiW(a,b)<0; else return strcmpW(a,b)<0;} static INT comp_gt_s(LPWSTR a, LPWSTR b, BOOL casless) { if (casless) return strcmpiW(a,b)>0; else return strcmpW(a,b)>0;} static INT comp_le_s(LPWSTR a, LPWSTR b, BOOL casless) { if (casless) return strcmpiW(a,b)<=0; else return strcmpW(a,b)<=0;} static INT comp_ge_s(LPWSTR a, LPWSTR b, BOOL casless) { if (casless) return strcmpiW(a,b)>=0; else return strcmpW(a,b)>=0;} static INT comp_substring(LPWSTR a, LPWSTR b, BOOL casless) /* ERROR NOT WORKING REWRITE */ { if (casless) return strstrW(a,b)!=NULL; else return strstrW(a,b)!=NULL;} static INT comp_start(LPWSTR a, LPWSTR b, BOOL casless) { if (casless) return strncmpiW(a,b,strlenW(b))==0; else return strncmpW(a,b,strlenW(b))==0;} static INT comp_end(LPWSTR a, LPWSTR b, BOOL casless) { int i = strlenW(a); int j = strlenW(b); if (j>i) return 0; if (casless) return (!strcmpiW(&a[i-j-1],b)); else return (!strcmpW(&a[i-j-1],b)); } static INT comp_eq_m1(LPWSTR a, INT b) { if (COND_IsNumber(a[0])) return atoiW(a)==b; else return 0;} static INT comp_ne_m1(LPWSTR a, INT b) { if (COND_IsNumber(a[0])) return atoiW(a)!=b; else return 1;} static INT comp_lt_m1(LPWSTR a, INT b) { if (COND_IsNumber(a[0])) return atoiW(a)b; else return 0;} static INT comp_le_m1(LPWSTR a, INT b) { if (COND_IsNumber(a[0])) return atoiW(a)<=b; else return 0;} static INT comp_ge_m1(LPWSTR a, INT b) { if (COND_IsNumber(a[0])) return atoiW(a)>=b; else return 0;} static INT comp_eq_m2(INT a, LPWSTR b) { if (COND_IsNumber(b[0])) return a == atoiW(b); else return 0;} static INT comp_ne_m2(INT a, LPWSTR b) { if (COND_IsNumber(b[0])) return a != atoiW(b); else return 1;} static INT comp_lt_m2(INT a, LPWSTR b) { if (COND_IsNumber(b[0])) return a < atoiW(b); else return 0;} static INT comp_gt_m2(INT a, LPWSTR b) { if (COND_IsNumber(b[0])) return a > atoiW(b); else return 0;} static INT comp_le_m2(INT a, LPWSTR b) { if (COND_IsNumber(b[0])) return a <= atoiW(b); else return 0;} static INT comp_ge_m2(INT a, LPWSTR b) { if (COND_IsNumber(b[0])) return a >= atoiW(b); else return 0;} static int COND_IsIdent( WCHAR x ) { return( COND_IsAlpha( x ) || COND_IsNumber( x ) || ( x == '_' ) || ( x == '#' ) || (x == '.') ); } static int COND_GetOne( struct cond_str *str, COND_input *cond ) { static const WCHAR szNot[] = {'N','O','T',0}; static const WCHAR szAnd[] = {'A','N','D',0}; static const WCHAR szOr[] = {'O','R',0}; WCHAR ch; int rc, len = 1; str->data = &cond->str[cond->n]; ch = str->data[0]; switch( ch ) { case 0: return 0; case '(': rc = COND_LPAR; break; case ')': rc = COND_RPAR; break; case '&': rc = COND_AMPER; break; case '!': rc = COND_EXCLAM; break; case '$': rc = COND_DOLLARS; break; case '?': rc = COND_QUESTION; break; case '%': rc = COND_PERCENT; break; case ' ': rc = COND_SPACE; break; case '=': rc = COND_EQ; break; case '~': rc = COND_TILDA; break; case '<': rc = COND_LT; break; case '>': rc = COND_GT; break; case '"': { const WCHAR *ch2 = str->data + 1; while ( *ch2 && *ch2 != '"' ) ++ch2; if (*ch2 == '"') { len = ch2 - str->data + 1; rc = COND_LITER; break; } } ERR("Unterminated string\n"); rc = COND_ERROR; break; default: if( COND_IsAlpha( ch ) ) { while( COND_IsIdent( str->data[len] ) ) len++; rc = COND_IDENT; break; } if( COND_IsNumber( ch ) ) { while( COND_IsNumber( str->data[len] ) ) len++; rc = COND_NUMBER; break; } ERR("Got unknown character %c(%x)\n",ch,ch); rc = COND_ERROR; break; } /* keyword identifiers */ if( rc == COND_IDENT ) { if( (len==3) && (strncmpiW(str->data,szNot,len)==0) ) rc = COND_NOT; else if( (len==3) && (strncmpiW(str->data,szAnd,len)==0) ) rc = COND_AND; else if( (len==2) && (strncmpiW(str->data,szOr,len)==0) ) rc = COND_OR; } cond->n += len; str->len = len; return rc; } static int COND_lex( void *COND_lval, COND_input *cond ) { int rc; struct cond_str *str = COND_lval; do { rc = COND_GetOne( str, cond ); } while (rc == COND_SPACE); return rc; } static LPWSTR COND_GetString( struct cond_str *str ) { LPWSTR ret; ret = HeapAlloc( GetProcessHeap(), 0, (str->len+1) * sizeof (WCHAR) ); if( ret ) { strncpyW( ret, str->data, str->len ); ret[str->len]=0; } TRACE("Got identifier %s\n",debugstr_w(ret)); return ret; } static LPWSTR COND_GetLiteral( struct cond_str *str ) { LPWSTR ret; ret = HeapAlloc( GetProcessHeap(), 0, (str->len-1) * sizeof (WCHAR) ); if( ret ) { memcpy( ret, str->data+1, (str->len-2) * sizeof(WCHAR) ); ret[str->len - 2]=0; } TRACE("Got literal %s\n",debugstr_w(ret)); return ret; } static int COND_error(char *str) { return 0; } MSICONDITION MSI_EvaluateConditionW( MSIPACKAGE *package, LPCWSTR szCondition ) { COND_input cond; MSICONDITION r; cond.package = package; cond.str = szCondition; cond.n = 0; cond.result = -1; TRACE("Evaluating %s\n",debugstr_w(szCondition)); if( szCondition && !COND_parse( &cond ) ) r = cond.result; else r = MSICONDITION_ERROR; TRACE("Evaluates to %i\n",r); return r; } MSICONDITION WINAPI MsiEvaluateConditionW( MSIHANDLE hInstall, LPCWSTR szCondition ) { MSIPACKAGE *package; UINT ret; package = msihandle2msiinfo( hInstall, MSIHANDLETYPE_PACKAGE); if( !package) return ERROR_INVALID_HANDLE; ret = MSI_EvaluateConditionW( package, szCondition ); msiobj_release( &package->hdr ); return ret; } MSICONDITION WINAPI MsiEvaluateConditionA( MSIHANDLE hInstall, LPCSTR szCondition ) { LPWSTR szwCond = NULL; MSICONDITION r; if( szCondition ) { UINT len = MultiByteToWideChar( CP_ACP, 0, szCondition, -1, NULL, 0 ); szwCond = HeapAlloc( GetProcessHeap(), 0, len * sizeof (WCHAR) ); MultiByteToWideChar( CP_ACP, 0, szCondition, -1, szwCond, len ); } r = MsiEvaluateConditionW( hInstall, szwCond ); HeapFree( GetProcessHeap(), 0, szwCond ); return r; }