/* Copyright (C) Yuri Dario & 2000 MySQL AB All the above parties has a full, independent copyright to the following code, including the right to use the code in any manner without any demands from the other parties. This library is free software; you can redistribute it and/or modify it under the terms of the GNU Library General Public License as published by the Free Software Foundation; either version 2 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 Library General Public License for more details. You should have received a copy of the GNU Library 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 */ DWORD TlsAlloc( void); BOOL TlsFree( DWORD); PVOID TlsGetValue( DWORD); BOOL TlsSetValue( DWORD, PVOID); #define TLS_MINIMUM_AVAILABLE 64 PULONG tls_storage; /* TLS local storage */ DWORD tls_bits[2]; /* TLS in-use bits */ pthread_mutex_t tls_mutex; /* TLS mutex for in-use bits */ DWORD TlsAlloc( void) { DWORD index = -1; DWORD mask, tibidx; int i; if (tls_storage == NULL) { APIRET rc; // allocate memory for TLS storage rc = DosAllocThreadLocalMemory( 1, &tls_storage); if (rc) { fprintf( stderr, "DosAllocThreadLocalMemory error: return code = %u\n", rc); } // create a mutex if (pthread_mutex_init( &tls_mutex, NULL)) fprintf( stderr, "Failed to init TLS mutex\n"); } pthread_mutex_lock( &tls_mutex); tibidx = 0; if (tls_bits[0] == 0xFFFFFFFF) { if (tls_bits[1] == 0xFFFFFFFF) { fprintf( stderr, "tid#%d, no more TLS bits available\n", _threadid); pthread_mutex_unlock( &tls_mutex); return -1; } tibidx = 1; } for( i=0; i<32; i++) { mask = (1 << i); if ((tls_bits[ tibidx] & mask) == 0) { tls_bits[ tibidx] |= mask; index = (tibidx*32) + i; break; } } tls_storage[index] = 0; pthread_mutex_unlock( &tls_mutex); //fprintf( stderr, "tid#%d, TlsAlloc index %d\n", _threadid, index); return index; } BOOL TlsFree( DWORD index) { int tlsidx; DWORD mask; if (index >= TLS_MINIMUM_AVAILABLE) return NULL; pthread_mutex_lock( &tls_mutex); tlsidx = 0; if (index > 32) { tlsidx++; } mask = (1 << index); if (tls_bits[ tlsidx] & mask) { tls_bits[tlsidx] &= ~mask; tls_storage[index] = 0; pthread_mutex_unlock( &tls_mutex); return TRUE; } pthread_mutex_unlock( &tls_mutex); return FALSE; } PVOID TlsGetValue( DWORD index) { if (index >= TLS_MINIMUM_AVAILABLE) return NULL; // verify if memory has been allocated for this thread if (*tls_storage == NULL) { // allocate memory for indexes *tls_storage = (ULONG)calloc( TLS_MINIMUM_AVAILABLE, sizeof(int)); //fprintf( stderr, "tid#%d, tls_storage %x\n", _threadid, *tls_storage); } ULONG* tls_array = (ULONG*) *tls_storage; return (PVOID) tls_array[ index]; } BOOL TlsSetValue( DWORD index, PVOID val) { // verify if memory has been allocated for this thread if (*tls_storage == NULL) { // allocate memory for indexes *tls_storage = (ULONG)calloc( TLS_MINIMUM_AVAILABLE, sizeof(int)); //fprintf( stderr, "tid#%d, tls_storage %x\n", _threadid, *tls_storage); } if (index >= TLS_MINIMUM_AVAILABLE) return FALSE; ULONG* tls_array = (ULONG*) *tls_storage; //fprintf( stderr, "tid#%d, TlsSetValue array %08x index %d -> %08x (old)\n", _threadid, tls_array, index, tls_array[ index]); tls_array[ index] = (ULONG) val; //fprintf( stderr, "tid#%d, TlsSetValue array %08x index %d -> %08x\n", _threadid, tls_array, index, val); return TRUE; }