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CWE-000 static int circuit_package_relay_cell ( cell_t * cell , circuit_t * circ , cell_direction_t cell_direction , crypt_path_t * layer_hint , streamid_t on_stream , const char * filename , int lineno ) { <S2SV_StartBug> channel_t * chan ; <S2SV_EndBug> if ( cell_direction == CELL_DIRECTION_OUT ) { crypt_path_t * thishop ; chan = circ -> n_chan ; if ( ! chan ) { log_warn ( LD_BUG , "outgoing<S2SV_blank>relay<S2SV_blank>cell<S2SV_blank>sent<S2SV_blank>from<S2SV_blank>%s:%d<S2SV_blank>has<S2SV_blank>n_chan==NULL." "<S2SV_blank>Dropping." , filename , lineno ) ; return 0 ; } if ( ! CIRCUIT_IS_ORIGIN ( circ ) ) { log_warn ( LD_BUG , "outgoing<S2SV_blank>relay<S2SV_blank>cell<S2SV_blank>sent<S2SV_blank>from<S2SV_blank>%s:%d<S2SV_blank>on<S2SV_blank>non-origin<S2SV_blank>" "circ.<S2SV_blank>Dropping." , filename , lineno ) ; return 0 ; } relay_set_digest ( layer_hint -> f_digest , cell ) ; thishop = layer_hint ; do { tor_assert ( thishop ) ; log_debug ( LD_OR , "crypting<S2SV_blank>a<S2SV_blank>layer<S2SV_blank>of<S2SV_blank>the<S2SV_blank>relay<S2SV_blank>cell." ) ; if ( relay_crypt_one_payload ( thishop -> f_crypto , cell -> payload , 1 ) < 0 ) { return - 1 ; } thishop = thishop -> prev ; } while ( thishop != TO_ORIGIN_CIRCUIT ( circ ) -> cpath -> prev ) ; } else { or_circuit_t * or_circ ; if ( CIRCUIT_IS_ORIGIN ( circ ) ) { log_warn ( LD_BUG , "incoming<S2SV_blank>relay<S2SV_blank>cell<S2SV_blank>at<S2SV_blank>origin<S2SV_blank>circuit.<S2SV_blank>Dropping." ) ; assert_circuit_ok ( circ ) ; return 0 ; } or_circ = TO_OR_CIRCUIT ( circ ) ; chan = or_circ -> p_chan ; relay_set_digest ( or_circ -> p_digest , cell ) ; if ( relay_crypt_one_payload ( or_circ -> p_crypto , cell -> payload , 1 ) < 0 ) return - 1 ; } ++ stats_n_relay_cells_relayed ; append_cell_to_circuit_queue ( circ , chan , cell , cell_direction , on_stream ) ; return 0 ; }
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<S2SV_ModStart> * chan ; if ( circ -> marked_for_close ) { return 0 ; }
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7,301 |
CWE-000 static int get_host_check_return_code ( host * temp_host , check_result * queued_check_result ) { <S2SV_StartBug> int rc ; <S2SV_EndBug> log_debug_info ( DEBUGL_FUNCTIONS , 0 , "get_host_check_return_code()\\n" ) ; rc = queued_check_result -> return_code ; if ( queued_check_result -> check_type == CHECK_TYPE_ACTIVE ) { if ( queued_check_result -> early_timeout ) { logit ( NSLOG_RUNTIME_WARNING , TRUE , "Warning:<S2SV_blank>Check<S2SV_blank>of<S2SV_blank>host<S2SV_blank>\'%s\'<S2SV_blank>timed<S2SV_blank>out<S2SV_blank>after<S2SV_blank>%.2lf<S2SV_blank>seconds\\n" , temp_host -> name , temp_host -> execution_time ) ; my_free ( temp_host -> plugin_output ) ; my_free ( temp_host -> long_plugin_output ) ; my_free ( temp_host -> perf_data ) ; asprintf ( & temp_host -> plugin_output , "(Host<S2SV_blank>check<S2SV_blank>timed<S2SV_blank>out<S2SV_blank>after<S2SV_blank>%.2lf<S2SV_blank>seconds)" , temp_host -> execution_time ) ; rc = STATE_UNKNOWN ; } else if ( queued_check_result -> exited_ok == FALSE ) { logit ( NSLOG_RUNTIME_WARNING , TRUE , "Warning:<S2SV_blank><S2SV_blank>Check<S2SV_blank>of<S2SV_blank>host<S2SV_blank>\'%s\'<S2SV_blank>did<S2SV_blank>not<S2SV_blank>exit<S2SV_blank>properly!\\n" , temp_host -> name ) ; my_free ( temp_host -> plugin_output ) ; my_free ( temp_host -> long_plugin_output ) ; my_free ( temp_host -> perf_data ) ; temp_host -> plugin_output = ( char * ) strdup ( "(Host<S2SV_blank>check<S2SV_blank>did<S2SV_blank>not<S2SV_blank>exit<S2SV_blank>properly)" ) ; rc = STATE_CRITICAL ; } else if ( queued_check_result -> return_code < 0 || queued_check_result -> return_code > 3 ) { logit ( NSLOG_RUNTIME_WARNING , TRUE , "Warning:<S2SV_blank>Return<S2SV_blank>code<S2SV_blank>of<S2SV_blank>%d<S2SV_blank>for<S2SV_blank>check<S2SV_blank>of<S2SV_blank>host<S2SV_blank>\'%s\'<S2SV_blank>was<S2SV_blank>out<S2SV_blank>of<S2SV_blank>bounds.%s\\n" , queued_check_result -> return_code , temp_host -> name , ( queued_check_result -> return_code == 126 || queued_check_result -> return_code == 127 ) ? "<S2SV_blank>Make<S2SV_blank>sure<S2SV_blank>the<S2SV_blank>plugin<S2SV_blank>you\'re<S2SV_blank>trying<S2SV_blank>to<S2SV_blank>run<S2SV_blank>actually<S2SV_blank>exists." : "" ) ; <S2SV_StartBug> my_free ( temp_host -> plugin_output ) ; <S2SV_EndBug> my_free ( temp_host -> long_plugin_output ) ; my_free ( temp_host -> perf_data ) ; <S2SV_StartBug> asprintf ( & temp_host -> plugin_output , "(Return<S2SV_blank>code<S2SV_blank>of<S2SV_blank>%d<S2SV_blank>is<S2SV_blank>out<S2SV_blank>of<S2SV_blank>bounds%s)" , queued_check_result -> return_code , ( queued_check_result -> return_code == 126 || queued_check_result -> return_code == 127 ) ? "<S2SV_blank>-<S2SV_blank>plugin<S2SV_blank>may<S2SV_blank>be<S2SV_blank>missing" : "" ) ; <S2SV_EndBug> rc = STATE_CRITICAL ; } if ( temp_host -> check_command == NULL ) { my_free ( temp_host -> plugin_output ) ; temp_host -> plugin_output = ( char * ) strdup ( "(Host<S2SV_blank>assumed<S2SV_blank>to<S2SV_blank>be<S2SV_blank>UP)" ) ; rc = STATE_OK ; } } return rc ; }
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<S2SV_ModStart> { int rc ; char * temp_plugin_output = NULL <S2SV_ModStart> "" ) ; <S2SV_ModEnd> asprintf ( & <S2SV_ModStart> asprintf ( & temp_plugin_output , "(Return<S2SV_blank>code<S2SV_blank>of<S2SV_blank>%d<S2SV_blank>is<S2SV_blank>out<S2SV_blank>of<S2SV_blank>bounds%s<S2SV_blank>:<S2SV_blank>%s)" <S2SV_ModEnd> , queued_check_result -> <S2SV_ModStart> "<S2SV_blank>-<S2SV_blank>plugin<S2SV_blank>may<S2SV_blank>be<S2SV_blank>missing" : "" , temp_host -> plugin_output ) ; my_free ( temp_host -> plugin_output ) ; asprintf ( & temp_host -> plugin_output , "%s)" , temp_plugin_output ) ; my_free ( temp_plugin_output ) ; my_free ( temp_host -> long_plugin_output ) ; my_free ( temp_host -> perf_data
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7,302 |
CWE-000 static gboolean gst_mfx_window_d3d11_destroy ( GstMfxWindow * window ) { GstMfxWindowD3D11Private * const priv = GST_MFX_WINDOW_D3D11_GET_PRIVATE ( window ) ; if ( priv -> d3d11_video_context ) { ID3D11VideoContext_Release ( priv -> d3d11_video_context ) ; priv -> d3d11_video_context = NULL ; } if ( priv -> processor ) { ID3D11VideoProcessor_Release ( priv -> processor ) ; priv -> processor = NULL ; } if ( priv -> processor_enum ) { ID3D11VideoProcessorEnumerator_Release ( priv -> processor_enum ) ; priv -> processor_enum = NULL ; } <S2SV_StartBug> gst_mfx_device_replace ( & priv -> device , NULL ) ; <S2SV_EndBug> gst_mfx_surface_replace ( & priv -> mapped_surface , NULL ) ; return TRUE ; }
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<S2SV_ModStart> NULL ; } if ( priv -> d3d11_window . hInstance ) { UnregisterClass ( priv -> d3d11_window . lpszClassName , priv -> d3d11_window . hInstance ) ; memset ( & priv -> d3d11_window , 0 , sizeof ( WNDCLASS ) ) ; }
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7,303 |
CWE-000 ISR ( PCINT0_vect ) { <S2SV_StartBug> uint8_t s = 6 ; <S2SV_EndBug> uint8_t text [ s ] ; usart_init_buffer ( text , s ) ; if ( ( PINB & ( 1 << PINB3 ) ) == 0 ) { <S2SV_StartBug> stop ( ) ; <S2SV_EndBug> strcpy ( ( char * ) text , "ALM_L" ) ; usart_send_buffer ( text , s ) ; } if ( ( PINB & ( 1 << PINB4 ) ) == 0 ) { <S2SV_StartBug> stop ( ) ; <S2SV_EndBug> strcpy ( ( char * ) text , "ALM_R" ) ; usart_send_buffer ( text , s ) ; } }
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<S2SV_ModStart> PCINT0_vect ) { if ( ! started ) return <S2SV_ModEnd> ; if ( <S2SV_ModStart> 0 ) { almL_time = 0 ; } else { almL_time = - 1 <S2SV_ModEnd> ; } if <S2SV_ModStart> 0 ) { almR_time = 0 ; } else { almR_time = - 1 <S2SV_ModEnd> ; } }
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7,304 |
CWE-000 int tcp_disconnect ( struct sock * sk , int flags ) { struct inet_sock * inet = inet_sk ( sk ) ; struct inet_connection_sock * icsk = inet_csk ( sk ) ; struct tcp_sock * tp = tcp_sk ( sk ) ; int err = 0 ; int old_state = sk -> sk_state ; if ( old_state != TCP_CLOSE ) tcp_set_state ( sk , TCP_CLOSE ) ; if ( old_state == TCP_LISTEN ) { inet_csk_listen_stop ( sk ) ; } else if ( unlikely ( tp -> repair ) ) { sk -> sk_err = ECONNABORTED ; } else if ( tcp_need_reset ( old_state ) || ( tp -> snd_nxt != tp -> write_seq && ( 1 << old_state ) & ( TCPF_CLOSING | TCPF_LAST_ACK ) ) ) { # ifdef CONFIG_LGP_DATA_TCPIP_MPTCP tp -> ops -> send_active_reset ( sk , gfp_any ( ) ) ; # else tcp_send_active_reset ( sk , gfp_any ( ) ) ; # endif sk -> sk_err = ECONNRESET ; } else if ( old_state == TCP_SYN_SENT ) sk -> sk_err = ECONNRESET ; tcp_clear_xmit_timers ( sk ) ; __skb_queue_purge ( & sk -> sk_receive_queue ) ; tcp_write_queue_purge ( sk ) ; __skb_queue_purge ( & tp -> out_of_order_queue ) ; inet -> inet_dport = 0 ; if ( ! ( sk -> sk_userlocks & SOCK_BINDADDR_LOCK ) ) inet_reset_saddr ( sk ) ; # ifdef CONFIG_LGP_DATA_TCPIP_MPTCP if ( is_meta_sk ( sk ) ) { mptcp_disconnect ( sk ) ; } else { if ( tp -> inside_tk_table ) mptcp_hash_remove_bh ( tp ) ; } # endif sk -> sk_shutdown = 0 ; sock_reset_flag ( sk , SOCK_DONE ) ; tp -> srtt_us = 0 ; if ( ( tp -> write_seq += tp -> max_window + 2 ) == 0 ) tp -> write_seq = 1 ; icsk -> icsk_backoff = 0 ; tp -> snd_cwnd = 2 ; icsk -> icsk_probes_out = 0 ; tp -> packets_out = 0 ; tp -> snd_ssthresh = TCP_INFINITE_SSTHRESH ; tp -> snd_cwnd_cnt = 0 ; tp -> window_clamp = 0 ; tcp_set_ca_state ( sk , TCP_CA_Open ) ; tcp_clear_retrans ( tp ) ; inet_csk_delack_init ( sk ) ; tcp_init_send_head ( sk ) ; memset ( & tp -> rx_opt , 0 , sizeof ( tp -> rx_opt ) ) ; __sk_dst_reset ( sk ) ; <S2SV_StartBug> WARN_ON ( inet -> inet_num && ! icsk -> icsk_bind_hash ) ; <S2SV_EndBug> sk -> sk_error_report ( sk ) ; return err ; }
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<S2SV_ModStart> sk ) ; dst_release ( sk -> sk_rx_dst ) ; sk -> sk_rx_dst = NULL ;
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7,305 |
CWE-000 static void find_neighbors ( struct ir3 * ir ) { unsigned i ; for ( i = 0 ; i < ir -> ninputs ; i += 4 ) pad_and_group_input ( & ir -> inputs [ i ] , 4 ) ; for ( i = 0 ; i < ir -> noutputs ; i += 4 ) group_n ( & arr_ops_out , & ir -> outputs [ i ] , 4 ) ; for ( i = 0 ; i < ir -> noutputs ; i ++ ) { if ( ir -> outputs [ i ] ) { struct ir3_instruction * instr = ir -> outputs [ i ] ; instr_find_neighbors ( instr ) ; } } list_for_each_entry ( struct ir3_block , block , & ir -> block_list , node ) { for ( i = 0 ; i < block -> keeps_count ; i ++ ) { struct ir3_instruction * instr = block -> keeps [ i ] ; instr_find_neighbors ( instr ) ; } <S2SV_StartBug> } <S2SV_EndBug> }
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<S2SV_ModStart> ) ; } if ( block -> condition ) instr_find_neighbors ( block -> condition ) ;
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7,306 |
CWE-000 int main ( void ) { srand ( time ( NULL ) ) ; init_services ( ) ; init_screens ( ) ; Entry_List_s lists [ MODE_AMOUNT ] = { 0 } ; load_lists ( lists ) ; EntryMode current_mode = MODE_THEMES ; bool preview_mode = false ; int preview_offset = 0 ; bool qr_mode = false ; bool install_mode = false ; while ( aptMainLoop ( ) ) { <S2SV_StartBug> hidScanInput ( ) ; <S2SV_EndBug> u32 kDown = hidKeysDown ( ) ; u32 kHeld = hidKeysHeld ( ) ; u32 kUp = hidKeysUp ( ) ; Entry_List_s * current_list = & lists [ current_mode ] ; if ( qr_mode ) take_picture ( ) ; else if ( preview_mode ) draw_preview ( preview_offset ) ; else draw_interface ( current_list , current_mode , install_mode ) ; pp2d_end_draw ( ) ; if ( kDown & KEY_START ) break ; <S2SV_StartBug> if ( R_FAILED ( archive_result ) && current_mode == MODE_THEMES ) <S2SV_EndBug> { throw_error ( "Theme<S2SV_blank>extdata<S2SV_blank>does<S2SV_blank>not<S2SV_blank>exist!\\nSet<S2SV_blank>a<S2SV_blank>default<S2SV_blank>theme<S2SV_blank>from<S2SV_blank>the<S2SV_blank>home<S2SV_blank>menu." , ERROR_LEVEL_ERROR ) ; continue ; } if ( ! install_mode ) { if ( ! preview_mode && ! qr_mode && kDown & KEY_L ) { current_mode ++ ; current_mode %= MODE_AMOUNT ; continue ; } else if ( ! preview_mode && kDown & KEY_R ) { u32 out ; ACU_GetWifiStatus ( & out ) ; if ( out ) { qr_mode = ! qr_mode ; if ( qr_mode ) init_qr ( ) ; else exit_qr ( ) ; } else { throw_error ( "Please<S2SV_blank>connect<S2SV_blank>to<S2SV_blank>Wi-Fi<S2SV_blank>before<S2SV_blank>scanning<S2SV_blank>QR" , ERROR_LEVEL_WARNING ) ; } continue ; } else if ( ! qr_mode && kDown & KEY_Y ) { if ( ! preview_mode ) preview_mode = load_preview ( * current_list , & preview_offset ) ; else preview_mode = false ; continue ; } else if ( qr_mode && kDown & KEY_L ) { CAMU_StopCapture ( PORT_BOTH ) ; CAMU_Activate ( SELECT_NONE ) ; qr_mode = ! scan_qr ( current_mode ) ; CAMU_Activate ( SELECT_OUT1_OUT2 ) ; CAMU_StartCapture ( PORT_BOTH ) ; if ( ! qr_mode ) load_lists ( lists ) ; continue ; } } if ( qr_mode || preview_mode || current_list -> entries == NULL ) continue ; int selected_entry = current_list -> selected_entry ; Entry_s * current_entry = & current_list -> entries [ selected_entry ] ; if ( install_mode ) { if ( kUp & KEY_A ) install_mode = false ; if ( ! install_mode ) { if ( ( kDown | kHeld ) & KEY_DLEFT ) { draw_install ( INSTALL_BGM ) ; bgm_install ( * current_entry ) ; } else if ( ( kDown | kHeld ) & KEY_DUP ) { draw_install ( INSTALL_SINGLE ) ; theme_install ( * current_entry ) ; } else if ( ( kDown | kHeld ) & KEY_DRIGHT ) { draw_install ( INSTALL_NO_BGM ) ; no_bgm_install ( * current_entry ) ; } else if ( ( kDown | kHeld ) & KEY_DDOWN ) { if ( current_list -> shuffle_count > MAX_SHUFFLE_THEMES ) { throw_error ( "You<S2SV_blank>have<S2SV_blank>too<S2SV_blank>many<S2SV_blank>themes<S2SV_blank>selected." , ERROR_LEVEL_WARNING ) ; } else if ( current_list -> shuffle_count == 0 ) { throw_error ( "You<S2SV_blank>dont<S2SV_blank>have<S2SV_blank>any<S2SV_blank>themes<S2SV_blank>selected." , ERROR_LEVEL_WARNING ) ; } else { draw_install ( INSTALL_SHUFFLE ) ; Result res = shuffle_install ( * current_list ) ; if ( R_FAILED ( res ) ) DEBUG ( "shuffle<S2SV_blank>install<S2SV_blank>result:<S2SV_blank>%lx\\n" , res ) ; else current_list -> shuffle_count = 0 ; } } } continue ; } if ( kDown & KEY_A ) { switch ( current_mode ) { case MODE_THEMES : install_mode = true ; break ; case MODE_SPLASHES : draw_install ( INSTALL_SPLASH ) ; splash_install ( * current_entry ) ; break ; default : break ; } } else if ( kDown & KEY_B ) { switch ( current_mode ) { case MODE_THEMES : if ( current_entry -> in_shuffle ) current_list -> shuffle_count -- ; else current_list -> shuffle_count ++ ; current_entry -> in_shuffle = ! current_entry -> in_shuffle ; break ; case MODE_SPLASHES : draw_install ( INSTALL_SPLASH_DELETE ) ; splash_delete ( ) ; break ; default : break ; } } else if ( kDown & KEY_X ) { switch ( current_mode ) { case MODE_THEMES : break ; case MODE_SPLASHES : break ; default : break ; } } else if ( kDown & KEY_SELECT ) { draw_install ( INSTALL_ENTRY_DELETE ) ; delete_entry ( * current_entry ) ; load_lists ( lists ) ; } else if ( kDown & KEY_UP ) { change_selected ( current_list , - 1 ) ; } else if ( kDown & KEY_DOWN ) { change_selected ( current_list , 1 ) ; } else if ( kDown & KEY_LEFT ) { change_selected ( current_list , - ENTRIES_PER_SCREEN ) ; } else if ( kDown & KEY_RIGHT ) { change_selected ( current_list , ENTRIES_PER_SCREEN ) ; } else if ( kHeld & KEY_CPAD_UP ) { change_selected ( current_list , - 1 ) ; svcSleepThread ( FASTSCROLL_WAIT ) ; } else if ( kHeld & KEY_CPAD_DOWN ) { change_selected ( current_list , 1 ) ; svcSleepThread ( FASTSCROLL_WAIT ) ; } else if ( kHeld & KEY_CPAD_LEFT ) { change_selected ( current_list , - ENTRIES_PER_SCREEN ) ; svcSleepThread ( FASTSCROLL_WAIT ) ; } else if ( kHeld & KEY_CPAD_RIGHT ) { change_selected ( current_list , ENTRIES_PER_SCREEN ) ; svcSleepThread ( FASTSCROLL_WAIT ) ; } } exit_function ( ) ; return 0 ; }
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<S2SV_ModStart> ) ) { if ( R_FAILED ( archive_result ) && current_mode == MODE_THEMES ) { throw_error ( "Theme<S2SV_blank>extdata<S2SV_blank>does<S2SV_blank>not<S2SV_blank>exist!\\nSet<S2SV_blank>a<S2SV_blank>default<S2SV_blank>theme<S2SV_blank>from<S2SV_blank>the<S2SV_blank>home<S2SV_blank>menu." , ERROR_LEVEL_ERROR ) ; break ; } <S2SV_ModStart> ) break ; <S2SV_ModEnd> if ( !
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7,307 |
CWE-000 ISR ( USART_RX_vect ) { uint8_t next = ( s_dbg . tail + 1 ) & DBGBUFMASK ; if ( s_dbg . head != next ) { <S2SV_StartBug> s_dbg . inbuf [ next ] = UDR0 ; <S2SV_EndBug> s_dbg . tail = next ; } }
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<S2SV_ModStart> . inbuf [ s_dbg . tail <S2SV_ModEnd> ] = UDR0
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7,308 |
CWE-000 void iniData ( ) { int i , j ; for ( i = 0 ; i < MAX ; i ++ ) { for ( j = 0 ; j < MAX ; j ++ ) { maze [ i ] [ j ] = BLOCK ; } } move [ 0 ] . x = 1 ; move [ 0 ] . y = 0 ; <S2SV_StartBug> move [ 1 ] . x = - 1 ; move [ 1 ] . y = 0 ; <S2SV_EndBug> <S2SV_StartBug> move [ 2 ] . x = 0 ; move [ 2 ] . y = 1 ; <S2SV_EndBug> <S2SV_StartBug> move [ 3 ] . x = 0 ; move [ 3 ] . y = - 1 ; <S2SV_EndBug> iniSolution ( ) ; }
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<S2SV_ModStart> . x = 0 <S2SV_ModEnd> ; move [ <S2SV_ModStart> . y = - 1 <S2SV_ModEnd> ; move [ <S2SV_ModStart> . x = - 1 <S2SV_ModEnd> ; move [ <S2SV_ModStart> . y = 0 <S2SV_ModEnd> ; move [ <S2SV_ModStart> . y = <S2SV_ModEnd> 1 ; iniSolution
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7,309 |
CWE-000 static int diag_cmd_disable_log_mask ( unsigned char * src_buf , int src_len , unsigned char * dest_buf , int dest_len , struct diag_md_session_t * info ) { struct diag_mask_info * mask_info = NULL ; struct diag_log_mask_t * mask = NULL ; struct diag_log_config_rsp_t header ; int write_len = 0 ; int i ; mask_info = ( ! info ) ? & log_mask : info -> log_mask ; if ( ! src_buf || ! dest_buf || src_len <= 0 || dest_len <= 0 || ! mask_info ) { pr_err ( "diag:<S2SV_blank>Invalid<S2SV_blank>input<S2SV_blank>in<S2SV_blank>%s,<S2SV_blank>src_buf:<S2SV_blank>%pK,<S2SV_blank>src_len:<S2SV_blank>%d,<S2SV_blank>dest_buf:<S2SV_blank>%pK,<S2SV_blank>dest_len:<S2SV_blank>%d,<S2SV_blank>mask_info:<S2SV_blank>%pK\\n" , __func__ , src_buf , src_len , dest_buf , dest_len , mask_info ) ; return - EINVAL ; } <S2SV_StartBug> mask = ( struct diag_log_mask_t * ) mask_info -> ptr ; <S2SV_EndBug> for ( i = 0 ; i < MAX_EQUIP_ID ; i ++ , mask ++ ) { mutex_lock ( & mask -> lock ) ; memset ( mask -> ptr , 0 , mask -> range ) ; mutex_unlock ( & mask -> lock ) ; } mask_info -> status = DIAG_CTRL_MASK_ALL_DISABLED ; if ( diag_check_update ( APPS_DATA ) ) diag_update_userspace_clients ( LOG_MASKS_TYPE ) ; header . cmd_code = DIAG_CMD_LOG_CONFIG ; header . padding [ 0 ] = 0 ; header . padding [ 1 ] = 0 ; header . padding [ 2 ] = 0 ; header . sub_cmd = DIAG_CMD_OP_LOG_DISABLE ; header . status = LOG_STATUS_SUCCESS ; memcpy ( dest_buf , & header , sizeof ( struct diag_log_config_rsp_t ) ) ; write_len += sizeof ( struct diag_log_config_rsp_t ) ; for ( i = 0 ; i < NUM_PERIPHERALS ; i ++ ) { if ( ! diag_check_update ( i ) ) continue ; mutex_lock ( & driver -> md_session_lock ) ; diag_send_log_mask_update ( i , ALL_EQUIP_ID ) ; mutex_unlock ( & driver -> md_session_lock ) ; } return write_len ; }
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<S2SV_ModStart> EINVAL ; } if ( ! mask_info -> ptr ) { pr_err ( "diag:<S2SV_blank>In<S2SV_blank>%s,<S2SV_blank>invalid<S2SV_blank>input<S2SV_blank>mask_info->ptr:<S2SV_blank>%pK\\n" , __func__ , mask_info -> ptr ) ; return - EINVAL ; } <S2SV_ModStart> -> ptr ; if ( ! mask -> ptr ) { pr_err ( "diag:<S2SV_blank>Invalid<S2SV_blank>input<S2SV_blank>in<S2SV_blank>%s,<S2SV_blank>mask->ptr:<S2SV_blank>%pK\\n" , __func__ , mask -> ptr ) ; return - EINVAL ; }
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7,310 |
CWE-000 int entry_point ( t_skrr * skrr , t_chmp * chmp ) { <S2SV_StartBug> int o ; <S2SV_EndBug> while ( skrr -> cycle_to_die > 0 ) { <S2SV_StartBug> g_cycles ++ ; <S2SV_EndBug> <S2SV_StartBug> g_ctd ++ ; <S2SV_EndBug> o = ( g_cycles == CYCLE_TO_DIE - 1 ? 1 : 0 ) ; <S2SV_StartBug> change_process ( skrr , chmp , & skrr -> process ) ; <S2SV_EndBug> if ( g_ctd + o == skrr -> cycle_to_die ) kill_processes ( & skrr -> process , NULL , skrr ) ; ( g_cycles == skrr -> flag_dump ) ? dump_print ( skrr ) : 0 ; <S2SV_StartBug> skrr -> flag_v ? visualize ( skrr ) : 0 ; <S2SV_EndBug> <S2SV_StartBug> if ( g_ctd + o == skrr -> cycle_to_die ) <S2SV_EndBug> init_lives ( skrr ) ; } winner ( chmp , skrr , skrr -> chmp -> last_live , skrr -> chmp -> id ) ; return ( 1 ) ; }
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<S2SV_ModStart> chmp ) { <S2SV_ModEnd> while ( skrr <S2SV_ModStart> 0 ) { skrr -> flag_v ? visualize ( skrr ) : 0 ; <S2SV_ModStart> ; g_ctd ++ <S2SV_ModEnd> ; change_process ( <S2SV_ModStart> skrr -> process <S2SV_ModEnd> ) ; ( <S2SV_ModStart> : 0 ; <S2SV_ModEnd> if ( g_ctd <S2SV_ModStart> if ( g_ctd <S2SV_ModEnd> == skrr ->
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7,311 |
CWE-000 static void ism_change_state ( struct ospf_interface * oi , int state ) { int old_state ; struct ospf_lsa * lsa ; if ( IS_DEBUG_OSPF ( ism , ISM_STATUS ) ) <S2SV_StartBug> zlog ( NULL , LOG_DEBUG , "ISM[%s]:<S2SV_blank>State<S2SV_blank>change<S2SV_blank>%s<S2SV_blank>-><S2SV_blank>%s" , IF_NAME ( oi ) , <S2SV_EndBug> LOOKUP ( ospf_ism_state_msg , oi -> state ) , LOOKUP ( ospf_ism_state_msg , state ) ) ; old_state = oi -> state ; oi -> state = state ; oi -> state_change ++ ; # ifdef HAVE_SNMP if ( ( state == ISM_DR ) || ( state == ISM_Backup ) || ( state == ISM_DROther ) || ( state == ISM_PointToPoint ) || ( state < old_state ) ) { if ( oi -> type == OSPF_IFTYPE_VIRTUALLINK ) ospfTrapVirtIfStateChange ( oi ) ; else ospfTrapIfStateChange ( oi ) ; } # endif ospf_if_set_multicast ( oi ) ; if ( old_state == ISM_Down || state == ISM_Down ) ospf_check_abr_status ( oi -> ospf ) ; if ( state == ISM_Down ) { if ( oi -> area -> act_ints > 0 ) oi -> area -> act_ints -- ; } else if ( old_state == ISM_Down ) oi -> area -> act_ints ++ ; ospf_router_lsa_update_area ( oi -> area ) ; if ( old_state != ISM_DR && state == ISM_DR ) ospf_network_lsa_update ( oi ) ; else if ( old_state == ISM_DR && state != ISM_DR ) { lsa = oi -> network_lsa_self ; if ( lsa ) ospf_lsa_flush_area ( lsa , oi -> area ) ; ospf_lsa_unlock ( & oi -> network_lsa_self ) ; oi -> network_lsa_self = NULL ; } ospf_opaque_ism_change ( oi , old_state ) ; ospf_check_abr_status ( oi -> ospf ) ; }
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<S2SV_ModStart> ISM_STATUS ) ) zlog_debug ( <S2SV_ModEnd> "ISM[%s]:<S2SV_blank>State<S2SV_blank>change<S2SV_blank>%s<S2SV_blank>-><S2SV_blank>%s" , IF_NAME
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7,312 |
CWE-000 bool rbtree_insert ( rbtree_t * tree , void const * data ) { void * mutable ; <S2SV_StartBug> if ( ! tree -> root ) return NULL ; <S2SV_EndBug> memcpy ( & mutable , & data , sizeof ( mutable ) ) ; if ( rbtree_insert_node ( tree , mutable ) ) return true ; return false ; }
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<S2SV_ModStart> ; if ( unlikely ( tree -> being_freed ) <S2SV_ModEnd> ) return NULL
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7,313 |
CWE-000 void utyphoon_task_cb ( ) { OpenQueueEntry_t * pkt ; open_addr_t * myadd64 ; uint32_t sensorData ; uint8_t parentIdx ; if ( ieee154e_isSynch ( ) == FALSE ) { utyphoon_vars . busySendingData = FALSE ; return ; } if ( idmanager_getIsDAGroot ( ) ) { opentimers_cancel ( utyphoon_vars . timerId_utyphoon ) ; opentimers_destroy ( utyphoon_vars . timerId_utyphoon ) ; return ; } if ( icmpv6rpl_getPreferredParentIndex ( & parentIdx ) == FALSE ) { return ; } <S2SV_StartBug> sensorData = get_test_sensor_data ( ) ; <S2SV_EndBug> <S2SV_StartBug> if ( utyphoon_vars . busySendingData == TRUE ) { <S2SV_EndBug> return ; } pkt = openqueue_getFreePacketBuffer ( COMPONENT_UTYPHOON ) ; if ( pkt == NULL ) { openserial_printError ( COMPONENT_UTYPHOON , ERR_NO_FREE_PACKET_BUFFER , ( errorparameter_t ) 0 , ( errorparameter_t ) 0 ) ; return ; } pkt -> creator = COMPONENT_UTYPHOON ; pkt -> owner = COMPONENT_UTYPHOON ; packetfunctions_reserveHeaderSize ( pkt , UTYPHOONPAYLOADLEN ) ; myadd64 = idmanager_getMyID ( ADDR_64B ) ; memcpy ( & ( pkt -> payload [ 0 ] ) , myadd64 -> addr_64b , 8 ) ; memcpy ( & ( pkt -> payload [ 8 ] ) , & sensorData , 4 ) ; ieee154e_getAsn ( & ( pkt -> payload [ 12 ] ) ) ; pkt -> l4_protocol = IANA_UDP ; pkt -> l4_destination_port = WKP_UDP_TYPHOON ; pkt -> l4_sourcePortORicmpv6Type = WKP_UDP_TYPHOON ; pkt -> l3_destinationAdd . type = ADDR_128B ; memcpy ( & pkt -> l3_destinationAdd . addr_128b [ 0 ] , & ipAddr_RootTyphoon , 16 ) ; utyphoon_vars . busySendingData = TRUE ; if ( ( openudp_send ( pkt ) ) == E_FAIL ) { openqueue_freePacketBuffer ( pkt ) ; utyphoon_vars . busySendingData = FALSE ; } return ; }
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<S2SV_ModStart> return ; } if ( utyphoon_vars . busySendingData == TRUE ) { return ; } pkt = openqueue_getFreePacketBuffer ( COMPONENT_UTYPHOON ) ; if ( pkt == NULL ) { openserial_printError ( COMPONENT_UTYPHOON , ERR_NO_FREE_PACKET_BUFFER , ( errorparameter_t ) 0 , ( errorparameter_t ) 0 ) ; return ; } <S2SV_ModStart> ( ) ; <S2SV_ModEnd> pkt -> creator
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CWE-000 <S2SV_StartBug> void visit_type_int8 ( Visitor * v , int8_t * obj , const char * name , Error * * errp ) <S2SV_EndBug> { int64_t value ; if ( v -> type_int8 ) { v -> type_int8 ( v , obj , name , errp ) ; } else { value = * obj ; v -> type_int64 ( v , & value , name , errp ) ; if ( value < INT8_MIN || value > INT8_MAX ) { error_setg ( errp , QERR_INVALID_PARAMETER_VALUE , name ? name : "null" , "int8_t" ) ; return ; } * obj = ( int8_t ) value ; } }
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<S2SV_ModStart> * v , <S2SV_ModEnd> const char * <S2SV_ModStart> char * name , int8_t * obj
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7,315 |
CWE-000 int main ( ) <S2SV_StartBug> { <S2SV_EndBug> init ( ) ; gameLoop ( ) ; return 0 ; }
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<S2SV_ModStart> ( ) { system ( "mode<S2SV_blank>con<S2SV_blank>cols=80<S2SV_blank>lines=30" ) ;
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CWE-000 static void t0_set_ext_main_mic ( int on ) { # ifdef CONFIG_SND_SOC_USE_EXTERNAL_MIC_BIAS gpio_set_value ( GPIO_MIC_BIAS_EN , on ) ; <S2SV_StartBug> if ( on ) <S2SV_EndBug> msleep ( 100 ) ; pr_info ( "%s:<S2SV_blank>main_mic<S2SV_blank>bias<S2SV_blank>on<S2SV_blank>=<S2SV_blank>%d\\n" , __func__ , on ) ; # endif }
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<S2SV_ModStart> on ) ; <S2SV_ModEnd> pr_info ( "%s:<S2SV_blank>main_mic<S2SV_blank>bias<S2SV_blank>on<S2SV_blank>=<S2SV_blank>%d\\n"
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CWE-000 void do_up ( bool scroll_only ) { <S2SV_StartBug> filestruct * was_current = openfile -> current ; <S2SV_EndBug> size_t was_x = openfile -> current_x ; size_t leftedge , target_column ; if ( scroll_only && openfile -> edittop == openfile -> fileage && openfile -> firstcolumn == 0 ) return ; get_edge_and_target ( & leftedge , & target_column ) ; if ( go_back_chunks ( 1 , & openfile -> current , & leftedge ) > 0 ) return ; <S2SV_StartBug> openfile -> current_x = proper_x ( openfile -> current -> data , leftedge , <S2SV_EndBug> <S2SV_StartBug> actual_last_column ( leftedge , target_column ) ) ; <S2SV_EndBug> if ( openfile -> current == was_current && openfile -> current_x == was_x ) openfile -> current_x -- ; if ( scroll_only ) edit_scroll ( UPWARD , 1 ) ; edit_redraw ( openfile -> current , FLOWING ) ; openfile -> placewewant = leftedge + target_column ; }
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<S2SV_ModStart> scroll_only ) { <S2SV_ModEnd> size_t leftedge , <S2SV_ModStart> -> current_x = actual_x <S2SV_ModEnd> ( openfile -> <S2SV_ModStart> current -> data <S2SV_ModEnd> , actual_last_column ( <S2SV_ModStart> target_column ) ) <S2SV_ModEnd> ; if (
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CWE-000 static void uart_shutdown ( struct tty_struct * tty , struct uart_state * state ) { struct uart_port * uport = uart_port_check ( state ) ; <S2SV_StartBug> struct tty_port * port = & state -> port ; <S2SV_EndBug> if ( tty ) set_bit ( TTY_IO_ERROR , & tty -> flags ) ; if ( tty_port_initialized ( port ) ) { tty_port_set_initialized ( port , 0 ) ; if ( uport && uart_console ( uport ) && tty ) uport -> cons -> cflag = tty -> termios . c_cflag ; if ( ! tty || C_HUPCL ( tty ) ) uart_clear_mctrl ( uport , TIOCM_DTR | TIOCM_RTS ) ; uart_port_shutdown ( port ) ; } tty_port_set_suspended ( port , 0 ) ; <S2SV_StartBug> if ( state -> xmit . buf ) { <S2SV_EndBug> free_page ( ( unsigned long ) state -> xmit . buf ) ; state -> xmit . buf = NULL ; } <S2SV_StartBug> } <S2SV_EndBug>
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<S2SV_ModStart> state -> port ; unsigned long flags = 0 <S2SV_ModStart> 0 ) ; uart_port_lock ( state , flags ) ; <S2SV_ModStart> NULL ; } uart_port_unlock ( uport , flags ) ;
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CWE-000 MonoObject * mono_runtime_invoke_checked ( MonoMethod * method , void * obj , void * * params , MonoError * error ) { MONO_REQ_GC_UNSAFE_MODE ; if ( mono_runtime_get_no_exec ( ) ) g_warning ( "Invoking<S2SV_blank>method<S2SV_blank>\'%s\'<S2SV_blank>when<S2SV_blank>running<S2SV_blank>in<S2SV_blank>no-exec<S2SV_blank>mode.\\n" , mono_method_full_name ( method , TRUE ) ) ; <S2SV_StartBug> return do_runtime_invoke ( method , obj , params , NULL , error ) ; <S2SV_EndBug> }
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<S2SV_ModStart> , NULL , FALSE ,
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CWE-000 static void load_empire_data ( int is_custom_scenario , int empire_id ) { <S2SV_StartBug> empire_load ( ) ; <S2SV_EndBug> scenario_distant_battle_set_roman_travel_months ( ) ; scenario_distant_battle_set_enemy_travel_months ( ) ; }
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<S2SV_ModStart> { empire_load ( is_custom_scenario , empire_id
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CWE-000 static void elab_top_level_ports ( tree_t arch , const elab_ctx_t * ctx ) { tree_t ent = tree_ref ( arch ) ; const int nports = tree_ports ( ent ) ; if ( nports == 0 ) return ; <S2SV_StartBug> tree_t rformals [ nports ] , ractuals [ nports ] ; <S2SV_EndBug> for ( int i = 0 ; i < nports ; i ++ ) { tree_t p = tree_port ( ent , i ) ; type_t type = tree_type ( p ) ; if ( type_is_unconstrained ( type ) ) fatal_at ( tree_loc ( p ) , "port<S2SV_blank>%s<S2SV_blank>of<S2SV_blank>top-level<S2SV_blank>entity<S2SV_blank>must<S2SV_blank>not<S2SV_blank>have<S2SV_blank>" "unconstrained<S2SV_blank>array<S2SV_blank>type" , istr ( tree_ident ( p ) ) ) ; tree_t s = tree_new ( T_SIGNAL_DECL ) ; tree_set_ident ( s , tree_ident ( p ) ) ; tree_set_loc ( s , tree_loc ( p ) ) ; tree_set_type ( s , type ) ; tree_add_attr_int ( s , fst_dir_i , tree_subkind ( p ) ) ; if ( tree_has_value ( p ) ) tree_set_value ( s , tree_value ( p ) ) ; else tree_set_value ( s , make_default_value ( type , tree_loc ( p ) ) ) ; tree_add_decl ( arch , s ) ; <S2SV_StartBug> rformals [ i ] = p ; <S2SV_EndBug> ractuals [ i ] = s ; } rewrite_params_t params = { <S2SV_StartBug> . formals = rformals , <S2SV_EndBug> . actuals = ractuals , . count = nports } ; tree_rewrite ( arch , rewrite_refs , & params ) ; if ( tree_stmts ( ent ) > 0 ) tree_rewrite ( ent , rewrite_refs , & params ) ; }
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<S2SV_ModStart> ) return ; rewrite_item_t rwitems <S2SV_ModEnd> [ nports ] <S2SV_ModStart> s ) ; rwitems [ i ] . kind = RW_TREE ; rwitems [ i ] . formal = p ; rwitems [ i ] . actual <S2SV_ModEnd> = s ; <S2SV_ModStart> = { . items = rwitems <S2SV_ModEnd> , . count
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CWE-000 <S2SV_StartBug> ZEPHIR_INIT_CLASS ( Phalcon_Mvc_Model_ValidationFailed ) { <S2SV_EndBug> <S2SV_StartBug> ZEPHIR_REGISTER_CLASS_EX ( Phalcon \\ \\ Mvc \\ \\ Model , ValidationFailed , phalcon , mvc_model_validationfailed , phalcon_mvc_model_exception_ce , phalcon_mvc_model_validationfailed_method_entry , 0 ) ; <S2SV_EndBug> zend_declare_property_null ( phalcon_mvc_model_validationfailed_ce , SL ( "_model" ) , ZEND_ACC_PROTECTED TSRMLS_CC ) ; zend_declare_property_null ( phalcon_mvc_model_validationfailed_ce , SL ( "_messages" ) , ZEND_ACC_PROTECTED TSRMLS_CC ) ; return SUCCESS ; }
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<S2SV_ModStart> <S2SV_null> ZEPHIR_INIT_CLASS ( Phalcon_Http_Response_CookiesInterface ) { ZEPHIR_REGISTER_INTERFACE <S2SV_ModEnd> ( Phalcon \\ <S2SV_ModStart> Phalcon \\ \\ Http \\ \\ Response , CookiesInterface <S2SV_ModEnd> , phalcon , <S2SV_ModStart> , phalcon , http_response_cookiesinterface , phalcon_http_response_cookiesinterface_method_entry <S2SV_ModEnd> ) ; return
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7,323 |
CWE-000 char * getElement ( Node * root ) { char * string = calloc ( sizeof ( char ) , 100 ) ; if ( root == NULL ) { sprintf ( string , "(nil)" ) ; return string ; } if ( is_nyt ( root ) ) { sprintf ( string , "\\"NYT<S2SV_blank>(%d,%d)\\"" , root -> weight , root -> node_number ) ; } else if ( root -> element == - 1 ) { sprintf ( string , "\\"(%d,%d)\\"" , root -> weight , root -> node_number ) ; } else { <S2SV_StartBug> # ifdef UTILITIES_PRINT_CHARS <S2SV_EndBug> sprintf ( string , "\\"%c<S2SV_blank>(%d,<S2SV_blank>%d)\\"" , root -> element , root -> weight , root -> node_number ) ; # else sprintf ( string , "\\"%x<S2SV_blank>(%d,<S2SV_blank>%d)\\"" , root -> element & 0xff , root -> weight , root -> node_number ) ; # endif } return string ; }
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<S2SV_ModStart> else { # if <S2SV_ModEnd> UTILITIES_PRINT_CHARS sprintf (
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CWE-000 <S2SV_StartBug> static v_BOOL_t wlan_hdd_is_type_p2p_action ( const u8 * buf ) <S2SV_EndBug> { <S2SV_StartBug> const u8 * ouiPtr ; <S2SV_EndBug> if ( buf [ WLAN_HDD_PUBLIC_ACTION_FRAME_CATEGORY_OFFSET ] != WLAN_HDD_PUBLIC_ACTION_FRAME ) { return VOS_FALSE ; } if ( buf [ WLAN_HDD_PUBLIC_ACTION_FRAME_ACTION_OFFSET ] != WLAN_HDD_VENDOR_SPECIFIC_ACTION ) { return VOS_FALSE ; } ouiPtr = & buf [ WLAN_HDD_PUBLIC_ACTION_FRAME_OUI_OFFSET ] ; if ( WPA_GET_BE24 ( ouiPtr ) != WLAN_HDD_WFA_OUI ) { return VOS_FALSE ; } if ( buf [ WLAN_HDD_PUBLIC_ACTION_FRAME_OUI_TYPE_OFFSET ] != WLAN_HDD_WFA_P2P_OUI_TYPE ) { return VOS_FALSE ; } return VOS_TRUE ; }
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<S2SV_ModStart> u8 * buf , uint32_t len <S2SV_ModStart> * ouiPtr ; if ( len < WLAN_HDD_PUBLIC_ACTION_FRAME_SUB_TYPE_OFFSET + 1 ) { return VOS_FALSE ; }
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CWE-000 REBSER * Decode_UTF_String ( REBYTE * bp , REBCNT len , REBINT utf ) { REBSER * ser = BUF_UTF8 ; REBSER * dst ; REBINT size ; if ( utf == - 1 ) { utf = What_UTF ( bp , len ) ; if ( utf ) { if ( utf == 8 ) bp += 3 , len -= 3 ; else if ( utf == - 16 || utf == 16 ) bp += 2 , len -= 2 ; else if ( utf == - 32 || utf == 32 ) bp += 4 , len -= 4 ; } } if ( utf == 0 || utf == 8 ) { size = Decode_UTF8 ( ( REBUNI * ) Reset_Buffer ( ser , len ) , bp , len , TRUE ) ; } else if ( utf == - 16 || utf == 16 ) { size = Decode_UTF16 ( ( REBUNI * ) Reset_Buffer ( ser , len / 2 + 1 ) , bp , len , utf < 0 , TRUE ) ; } <S2SV_StartBug> if ( size < 0 ) { <S2SV_EndBug> size = - size ; dst = Make_Binary ( size ) ; Append_Uni_Bytes ( dst , UNI_HEAD ( ser ) , size ) ; } else { dst = Make_Unicode ( size ) ; Append_Uni_Uni ( dst , UNI_HEAD ( ser ) , size ) ; } return dst ; }
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<S2SV_ModStart> ) ; } else if ( utf == - 32 || utf == 32 ) { size = Decode_UTF32 ( ( REBUNI * ) Reset_Buffer ( ser , len / 4 + 1 ) , bp , len , utf < 0 , TRUE ) ; } if ( size < 0 <S2SV_ModEnd> ) { size
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7,326 |
CWE-000 void run_session ( void ) { GSList * devices , * real_devices , * sd ; GHashTable * devargs ; GVariant * gvar ; struct sr_session * session ; struct sr_trigger * trigger ; struct sr_dev_inst * sdi ; uint64_t min_samples , max_samples ; GArray * drv_opts ; guint i ; int is_demo_dev ; struct sr_dev_driver * driver ; const struct sr_transform * t ; GMainLoop * main_loop ; devices = device_scan ( ) ; if ( ! devices ) { g_critical ( "No<S2SV_blank>devices<S2SV_blank>found." ) ; return ; } real_devices = NULL ; for ( sd = devices ; sd ; sd = sd -> next ) { sdi = sd -> data ; driver = sr_dev_inst_driver_get ( sdi ) ; if ( ! ( drv_opts = sr_dev_options ( driver , NULL , NULL ) ) ) { g_critical ( "Failed<S2SV_blank>to<S2SV_blank>query<S2SV_blank>list<S2SV_blank>of<S2SV_blank>driver<S2SV_blank>options." ) ; return ; } is_demo_dev = 0 ; for ( i = 0 ; i < drv_opts -> len ; i ++ ) { if ( g_array_index ( drv_opts , uint32_t , i ) == SR_CONF_DEMO_DEV ) is_demo_dev = 1 ; } g_array_free ( drv_opts , TRUE ) ; if ( ! is_demo_dev ) real_devices = g_slist_append ( real_devices , sdi ) ; } if ( g_slist_length ( devices ) > 1 ) { if ( g_slist_length ( real_devices ) != 1 ) { g_critical ( "sigrok-cli<S2SV_blank>only<S2SV_blank>supports<S2SV_blank>one<S2SV_blank>device<S2SV_blank>for<S2SV_blank>capturing." ) ; return ; } else { g_slist_free ( devices ) ; devices = real_devices ; real_devices = NULL ; } } sdi = devices -> data ; g_slist_free ( devices ) ; g_slist_free ( real_devices ) ; sr_session_new ( sr_ctx , & session ) ; <S2SV_StartBug> sr_session_datafeed_callback_add ( session , datafeed_in , NULL ) ; <S2SV_EndBug> if ( sr_dev_open ( sdi ) != SR_OK ) { g_critical ( "Failed<S2SV_blank>to<S2SV_blank>open<S2SV_blank>device." ) ; return ; } if ( sr_session_dev_add ( session , sdi ) != SR_OK ) { g_critical ( "Failed<S2SV_blank>to<S2SV_blank>add<S2SV_blank>device<S2SV_blank>to<S2SV_blank>session." ) ; sr_session_destroy ( session ) ; return ; } if ( opt_config ) { if ( ( devargs = parse_generic_arg ( opt_config , FALSE ) ) ) { if ( set_dev_options ( sdi , devargs ) != SR_OK ) return ; g_hash_table_destroy ( devargs ) ; } } if ( select_channels ( sdi ) != SR_OK ) { g_critical ( "Failed<S2SV_blank>to<S2SV_blank>set<S2SV_blank>channels." ) ; sr_session_destroy ( session ) ; return ; } trigger = NULL ; if ( opt_triggers ) { if ( ! parse_triggerstring ( sdi , opt_triggers , & trigger ) ) { sr_session_destroy ( session ) ; return ; } if ( sr_session_trigger_set ( session , trigger ) != SR_OK ) { sr_session_destroy ( session ) ; return ; } } if ( opt_continuous ) { if ( ! sr_dev_has_option ( sdi , SR_CONF_CONTINUOUS ) ) { g_critical ( "This<S2SV_blank>device<S2SV_blank>does<S2SV_blank>not<S2SV_blank>support<S2SV_blank>continuous<S2SV_blank>sampling." ) ; sr_session_destroy ( session ) ; return ; } } if ( opt_time ) { if ( set_limit_time ( sdi ) != SR_OK ) { sr_session_destroy ( session ) ; return ; } } if ( opt_samples ) { if ( ( sr_parse_sizestring ( opt_samples , & limit_samples ) != SR_OK ) ) { g_critical ( "Invalid<S2SV_blank>sample<S2SV_blank>limit<S2SV_blank>\'%s\'." , opt_samples ) ; sr_session_destroy ( session ) ; return ; } if ( maybe_config_list ( driver , sdi , NULL , SR_CONF_LIMIT_SAMPLES , & gvar ) == SR_OK ) { g_variant_get ( gvar , "(tt)" , & min_samples , & max_samples ) ; g_variant_unref ( gvar ) ; if ( limit_samples < min_samples ) { g_critical ( "The<S2SV_blank>device<S2SV_blank>stores<S2SV_blank>at<S2SV_blank>least<S2SV_blank>%" PRIu64 "<S2SV_blank>samples<S2SV_blank>with<S2SV_blank>the<S2SV_blank>current<S2SV_blank>settings." , min_samples ) ; } if ( limit_samples > max_samples ) { g_critical ( "The<S2SV_blank>device<S2SV_blank>can<S2SV_blank>store<S2SV_blank>only<S2SV_blank>%" PRIu64 "<S2SV_blank>samples<S2SV_blank>with<S2SV_blank>the<S2SV_blank>current<S2SV_blank>settings." , max_samples ) ; } } gvar = g_variant_new_uint64 ( limit_samples ) ; if ( maybe_config_set ( sr_dev_inst_driver_get ( sdi ) , sdi , NULL , SR_CONF_LIMIT_SAMPLES , gvar ) != SR_OK ) { g_critical ( "Failed<S2SV_blank>to<S2SV_blank>configure<S2SV_blank>sample<S2SV_blank>limit." ) ; sr_session_destroy ( session ) ; return ; } } if ( opt_frames ) { if ( ( sr_parse_sizestring ( opt_frames , & limit_frames ) != SR_OK ) ) { g_critical ( "Invalid<S2SV_blank>sample<S2SV_blank>limit<S2SV_blank>\'%s\'." , opt_samples ) ; sr_session_destroy ( session ) ; return ; } gvar = g_variant_new_uint64 ( limit_frames ) ; if ( maybe_config_set ( sr_dev_inst_driver_get ( sdi ) , sdi , NULL , SR_CONF_LIMIT_FRAMES , gvar ) != SR_OK ) { g_critical ( "Failed<S2SV_blank>to<S2SV_blank>configure<S2SV_blank>frame<S2SV_blank>limit." ) ; sr_session_destroy ( session ) ; return ; } } if ( opt_transform_module ) { if ( ! ( t = setup_transform_module ( sdi ) ) ) g_critical ( "Failed<S2SV_blank>to<S2SV_blank>initialize<S2SV_blank>transform<S2SV_blank>module." ) ; } main_loop = g_main_loop_new ( NULL , FALSE ) ; sr_session_stopped_callback_set ( session , ( sr_session_stopped_callback ) g_main_loop_quit , main_loop ) ; if ( sr_session_start ( session ) != SR_OK ) { g_critical ( "Failed<S2SV_blank>to<S2SV_blank>start<S2SV_blank>session." ) ; g_main_loop_unref ( main_loop ) ; sr_session_destroy ( session ) ; return ; } if ( opt_continuous ) add_anykey ( session ) ; g_main_loop_run ( main_loop ) ; if ( opt_continuous ) clear_anykey ( ) ; if ( trigger ) sr_trigger_free ( trigger ) ; sr_session_datafeed_callback_remove_all ( session ) ; g_main_loop_unref ( main_loop ) ; sr_session_destroy ( session ) ; }
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<S2SV_ModStart> , datafeed_in , session <S2SV_ModEnd> ) ; if
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CWE-000 void task_init ( void ) { current = NULL ; __ready_to_schedule = 0 ; list_init ( & task_list_head ) ; <S2SV_StartBug> # if ! defined ( INLINE_TEST ) <S2SV_EndBug> struct task * _task = malloc_task ( ) ; ASSERT ( _task ) ; ASSERT ( ! mockup_load_task ( _task , DPL_0 , mockup_entry ) ) ; ASSERT ( ! mockup_spawn_task ( _task ) ) ; _task = malloc_task ( ) ; ASSERT ( _task ) ; ASSERT ( ! mockup_load_task ( _task , DPL_3 , mockup_entry1 ) ) ; ASSERT ( ! mockup_spawn_task ( _task ) ) ; # endif dump_tasks ( ) ; }
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<S2SV_ModStart> ; # if <S2SV_ModEnd> defined ( INLINE_TEST
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7,328 |
CWE-000 void HSD_LObjGetLightVector ( HSD_LObj * lobj , guVector * dir ) { guVector position = { 0.0F , 0.0F , 0.0F } ; guVector interest = { 0.0F , 0.0F , 0.0F } ; if ( lobj ) { HSD_LObjGetPosition ( lobj , & position ) ; HSD_LObjGetInterest ( lobj , & interest ) ; guVecSub ( & interest , & position , dir ) ; <S2SV_StartBug> if ( vec_normalize_check ( dir , dir ) != 0 ) { <S2SV_EndBug> dir -> x = 0 ; dir -> y = 0 ; dir -> z = 1 ; } } <S2SV_StartBug> } <S2SV_EndBug>
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<S2SV_ModStart> dir ) ; guVecNormalize ( dir ) <S2SV_ModEnd> ; } } <S2SV_ModStart> ; } } <S2SV_ModEnd> <S2SV_null> <S2SV_null> <S2SV_null>
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7,329 |
CWE-000 pid_t do_wait ( int * stat_loc ) { int i ; pid_t child_found = 0 ; while ( 1 ) { for ( i = 0 ; i < MAX_TASKS ; i ++ ) { <S2SV_StartBug> if ( tasks [ i ] -> parent == current -> pid && <S2SV_EndBug> tasks [ i ] -> state == TASK_STOPPED ) { if ( stat_loc ) * stat_loc = tasks [ i ] -> exit_status ; child_found = tasks [ i ] -> pid ; free_task ( tasks [ i ] ) ; } } if ( child_found ) return child_found ; else do_pause ( ) ; } }
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<S2SV_ModStart> i ] -> ppid <S2SV_ModEnd> == current ->
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7,330 |
CWE-000 static struct gsm_lchan * _lc_find_bts ( struct gsm_bts * bts , enum gsm_phys_chan_config pchan ) { <S2SV_StartBug> return _lc_dyn_find_bts ( bts , pchan , GSM_PCHAN_NONE ) ; <S2SV_EndBug> }
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<S2SV_ModStart> , pchan , pchan <S2SV_ModEnd> ) ; }
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7,331 |
CWE-000 void DEH_printf ( char * fmt , ... ) { va_list args ; <S2SV_StartBug> char * repl ; <S2SV_EndBug> repl = FormatStringReplacement ( fmt ) ; va_start ( args , fmt ) ; vprintf ( repl , args ) ; va_end ( args ) ; }
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<S2SV_ModStart> va_list args ; const
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7,332 |
CWE-000 static void batadv_softif_init_early ( struct net_device * dev ) { struct batadv_priv * priv = netdev_priv ( dev ) ; ether_setup ( dev ) ; dev -> netdev_ops = & batadv_netdev_ops ; <S2SV_StartBug> dev -> destructor = batadv_softif_free ; <S2SV_EndBug> dev -> features |= NETIF_F_HW_VLAN_CTAG_FILTER ; dev -> tx_queue_len = 0 ; dev -> mtu = ETH_DATA_LEN ; dev -> hard_header_len = batadv_max_header_len ( ) ; eth_hw_addr_random ( dev ) ; dev -> ethtool_ops = & batadv_ethtool_ops ; memset ( priv , 0 , sizeof ( * priv ) ) ; }
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<S2SV_ModStart> ; dev -> needs_free_netdev = true ; dev -> priv_destructor <S2SV_ModEnd> = batadv_softif_free ;
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7,333 |
CWE-000 static int server_loop ( const int server , const int eserver , struct epoll_event * events , void * * responses , struct rte_ring * eq , struct rte_ring * ring , uint8_t * run ) { struct command_descriptor * cd = NULL ; ssize_t sent ; struct epoll_event ev = { 0 } ; int n , i , ret ; while ( * run == 1 ) { process_eq ( responses , eq ) ; if ( rte_ring_count ( eq ) == 0 ) { n = epoll_wait ( eserver , events , LATENCY_MAX_EVENTS , - 1 ) ; } else { n = epoll_wait ( eserver , events , LATENCY_MAX_EVENTS , 0 ) ; } if ( n < 0 ) { perror ( "Epoll<S2SV_blank>wait<S2SV_blank>error" ) ; return - 1 ; } for ( i = 0 ; i < n ; i ++ ) { cd = ( struct command_descriptor * ) events [ i ] . data . ptr ; if ( ( events [ i ] . events & EPOLLERR ) || ( events [ i ] . events & EPOLLHUP ) || ( ! ( events [ i ] . events & EPOLLIN ) ) ) { <S2SV_StartBug> fprintf ( stderr , "epoll<S2SV_blank>error\\n" ) ; <S2SV_EndBug> if ( epoll_ctl ( eserver , EPOLL_CTL_DEL , cd -> fd , & ev ) < 0 ) { perror ( "Unable<S2SV_blank>to<S2SV_blank>remove<S2SV_blank>epoll<S2SV_blank>file<S2SV_blank>descriptor" ) ; return - 1 ; } if ( close ( cd -> fd ) < 0 ) { perror ( "Unable<S2SV_blank>to<S2SV_blank>close<S2SV_blank>file<S2SV_blank>descriptor" ) ; return - 1 ; } rte_ring_enqueue ( ring , ( void * ) cd ) ; continue ; } else { if ( cd -> fd == server ) { while ( 1 ) { ret = accept_and_add_to_epoll_fd ( server , eserver , ring ) ; if ( ret < 0 ) { return - 1 ; } else if ( ret ) { break ; } } continue ; } else { ret = receive_data ( cd ) ; if ( ret < 0 ) { return - 1 ; } else if ( ret ) { sent = send ( cd -> fd , cd -> data , cd -> size , 0 ) ; if ( sent < 0 ) { if ( errno == EAGAIN || errno == EWOULDBLOCK ) { rte_ring_enqueue ( eq , ( void * ) cd ) ; } else { perror ( "Unable<S2SV_blank>to<S2SV_blank>send<S2SV_blank>data" ) ; return - 1 ; } } else if ( sent < cd -> remaining ) { cd -> remaining -= sent ; rte_ring_enqueue ( eq , ( void * ) cd ) ; } } } } } } }
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<S2SV_ModStart> ) ) { <S2SV_ModEnd> if ( epoll_ctl
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7,334 |
CWE-000 int mm_answer_sign ( int sock , Buffer * m ) { struct ssh * ssh = active_state ; extern int auth_sock ; struct sshkey * key ; struct sshbuf * sigbuf = NULL ; u_char * p = NULL , * signature = NULL ; char * alg = NULL ; size_t datlen , siglen , alglen ; <S2SV_StartBug> int r , keyid , is_proof = 0 ; <S2SV_EndBug> const char proof_req [ ] = "hostkeys-prove-00@openssh.com" ; debug3 ( "%s" , __func__ ) ; if ( ( r = sshbuf_get_u32 ( m , & keyid ) ) != 0 || ( r = sshbuf_get_string ( m , & p , & datlen ) ) != 0 || ( r = sshbuf_get_cstring ( m , & alg , & alglen ) ) != 0 ) fatal ( "%s:<S2SV_blank>buffer<S2SV_blank>error:<S2SV_blank>%s" , __func__ , ssh_err ( r ) ) ; <S2SV_StartBug> if ( datlen != 20 && datlen != 32 && datlen != 48 && datlen != 64 ) { <S2SV_EndBug> if ( session_id2_len == 0 ) fatal ( "%s:<S2SV_blank>bad<S2SV_blank>data<S2SV_blank>length:<S2SV_blank>%zu" , __func__ , datlen ) ; if ( ( key = get_hostkey_public_by_index ( keyid , ssh ) ) == NULL ) fatal ( "%s:<S2SV_blank>no<S2SV_blank>hostkey<S2SV_blank>for<S2SV_blank>index<S2SV_blank>%d" , __func__ , keyid ) ; if ( ( sigbuf = sshbuf_new ( ) ) == NULL ) fatal ( "%s:<S2SV_blank>sshbuf_new" , __func__ ) ; if ( ( r = sshbuf_put_cstring ( sigbuf , proof_req ) ) != 0 || ( r = sshbuf_put_string ( sigbuf , session_id2 , session_id2_len ) ) != 0 || ( r = sshkey_puts ( key , sigbuf ) ) != 0 ) fatal ( "%s:<S2SV_blank>couldn\'t<S2SV_blank>prepare<S2SV_blank>private<S2SV_blank>key<S2SV_blank>" "proof<S2SV_blank>buffer:<S2SV_blank>%s" , __func__ , ssh_err ( r ) ) ; if ( datlen != sshbuf_len ( sigbuf ) || memcmp ( p , sshbuf_ptr ( sigbuf ) , sshbuf_len ( sigbuf ) ) != 0 ) fatal ( "%s:<S2SV_blank>bad<S2SV_blank>data<S2SV_blank>length:<S2SV_blank>%zu,<S2SV_blank>hostkey<S2SV_blank>proof<S2SV_blank>len<S2SV_blank>%zu" , __func__ , datlen , sshbuf_len ( sigbuf ) ) ; sshbuf_free ( sigbuf ) ; is_proof = 1 ; } if ( session_id2_len == 0 ) { session_id2_len = datlen ; session_id2 = xmalloc ( session_id2_len ) ; memcpy ( session_id2 , p , session_id2_len ) ; } if ( ( key = get_hostkey_by_index ( keyid ) ) != NULL ) { if ( ( r = sshkey_sign ( key , & signature , & siglen , p , datlen , alg , datafellows ) ) != 0 ) fatal ( "%s:<S2SV_blank>sshkey_sign<S2SV_blank>failed:<S2SV_blank>%s" , __func__ , ssh_err ( r ) ) ; } else if ( ( key = get_hostkey_public_by_index ( keyid , ssh ) ) != NULL && auth_sock > 0 ) { if ( ( r = ssh_agent_sign ( auth_sock , key , & signature , & siglen , p , datlen , alg , datafellows ) ) != 0 ) { fatal ( "%s:<S2SV_blank>ssh_agent_sign<S2SV_blank>failed:<S2SV_blank>%s" , __func__ , ssh_err ( r ) ) ; } } else fatal ( "%s:<S2SV_blank>no<S2SV_blank>hostkey<S2SV_blank>from<S2SV_blank>index<S2SV_blank>%d" , __func__ , keyid ) ; debug3 ( "%s:<S2SV_blank>%s<S2SV_blank>signature<S2SV_blank>%p(%zu)" , __func__ , is_proof ? "KEX" : "hostkey<S2SV_blank>proof" , signature , siglen ) ; sshbuf_reset ( m ) ; if ( ( r = sshbuf_put_string ( m , signature , siglen ) ) != 0 ) fatal ( "%s:<S2SV_blank>buffer<S2SV_blank>error:<S2SV_blank>%s" , __func__ , ssh_err ( r ) ) ; free ( alg ) ; free ( p ) ; free ( signature ) ; mm_request_send ( sock , MONITOR_ANS_SIGN , m ) ; monitor_permit ( mon_dispatch , MONITOR_REQ_PWNAM , 1 ) ; return ( 0 ) ; }
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<S2SV_ModStart> int r , <S2SV_ModEnd> is_proof = 0 <S2SV_ModStart> is_proof = 0 ; u_int keyid <S2SV_ModStart> ; if ( keyid > INT_MAX ) fatal ( "%s:<S2SV_blank>invalid<S2SV_blank>key<S2SV_blank>ID" , __func__ ) ; if (
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7,335 |
CWE-000 int TouchConvertToPointerEvent ( const InternalEvent * event , InternalEvent * motion_event , InternalEvent * button_event ) { <S2SV_StartBug> int ptrtype = 0 ; <S2SV_EndBug> int nevents = 0 ; BUG_RETURN_VAL ( ! event , 0 ) ; BUG_RETURN_VAL ( ! motion_event , 0 ) ; switch ( event -> any . type ) { case ET_TouchUpdate : nevents = 1 ; break ; case ET_TouchBegin : nevents = 2 ; ptrtype = ET_ButtonPress ; break ; case ET_TouchEnd : nevents = 2 ; ptrtype = ET_ButtonRelease ; break ; default : BUG_WARN_MSG ( 1 , "Invalid<S2SV_blank>event<S2SV_blank>type<S2SV_blank>%d\\n" , event -> any . type ) ; return 0 ; } BUG_WARN_MSG ( ! ( event -> device_event . flags & TOUCH_POINTER_EMULATED ) , "Non-emulating<S2SV_blank>touch<S2SV_blank>event\\n" ) ; motion_event -> device_event = event -> device_event ; motion_event -> any . type = ET_Motion ; motion_event -> device_event . detail . button = 0 ; motion_event -> device_event . flags = XIPointerEmulated ; if ( nevents > 1 ) { BUG_RETURN_VAL ( ! button_event , 0 ) ; button_event -> device_event = event -> device_event ; button_event -> any . type = ptrtype ; button_event -> device_event . flags = XIPointerEmulated ; } return nevents ; }
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<S2SV_ModStart> { int ptrtype <S2SV_ModEnd> ; int nevents
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7,336 |
CWE-000 static void reverse_notnull ( char * string , int len ) { int location = 0 ; char tmp ; len -= 1 ; <S2SV_StartBug> for ( len ; len > 0 ; len -- ) { <S2SV_EndBug> if ( string [ len ] == '\\0' ) continue ; if ( len < location ) break ; tmp = string [ len ] ; string [ len ] = string [ location ] ; string [ location ] = tmp ; location ++ ; } }
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<S2SV_ModStart> ; for ( <S2SV_ModEnd> ; len >
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7,337 |
CWE-000 void slirp_pollfds_poll ( GArray * pollfds , int select_error ) { Slirp * slirp ; struct socket * so , * so_next ; int ret ; if ( QTAILQ_EMPTY ( & slirp_instances ) ) { return ; } curtime = qemu_clock_get_ms ( QEMU_CLOCK_REALTIME ) ; QTAILQ_FOREACH ( slirp , & slirp_instances , entry ) { if ( slirp -> time_fasttimo && ( ( curtime - slirp -> time_fasttimo ) >= TIMEOUT_FAST ) ) { tcp_fasttimo ( slirp ) ; slirp -> time_fasttimo = 0 ; } if ( slirp -> do_slowtimo && ( ( curtime - slirp -> last_slowtimo ) >= TIMEOUT_SLOW ) ) { ip_slowtimo ( slirp ) ; tcp_slowtimo ( slirp ) ; slirp -> last_slowtimo = curtime ; } if ( ! select_error ) { for ( so = slirp -> tcb . so_next ; so != & slirp -> tcb ; so = so_next ) { int revents ; so_next = so -> so_next ; revents = 0 ; if ( so -> pollfds_idx != - 1 ) { revents = g_array_index ( pollfds , GPollFD , so -> pollfds_idx ) . revents ; } if ( so -> so_state & SS_NOFDREF || so -> s == - 1 ) { continue ; } if ( revents & G_IO_PRI ) { ret = sorecvoob ( so ) ; if ( ret < 0 ) { continue ; } } else if ( revents & ( G_IO_IN | G_IO_HUP | G_IO_ERR ) ) { if ( so -> so_state & SS_FACCEPTCONN ) { tcp_connect ( so ) ; continue ; } ret = soread ( so ) ; if ( ret > 0 ) { tcp_output ( sototcpcb ( so ) ) ; } if ( ret < 0 ) { continue ; } } if ( ! ( so -> so_state & SS_NOFDREF ) && ( revents & ( G_IO_OUT | G_IO_ERR ) ) ) { if ( so -> so_state & SS_ISFCONNECTING ) { so -> so_state &= ~ SS_ISFCONNECTING ; ret = send ( so -> s , ( const void * ) & ret , 0 , 0 ) ; if ( ret < 0 ) { if ( errno == EAGAIN || errno == EWOULDBLOCK || errno == EINPROGRESS || errno == ENOTCONN ) { continue ; } so -> so_state &= SS_PERSISTENT_MASK ; so -> so_state |= SS_NOFDREF ; } tcp_input ( ( struct mbuf * ) NULL , sizeof ( struct ip ) , so , so -> so_ffamily ) ; } else { ret = sowrite ( so ) ; <S2SV_StartBug> } <S2SV_EndBug> } # ifdef PROBE_CONN if ( so -> so_state & SS_ISFCONNECTING ) { ret = qemu_recv ( so -> s , & ret , 0 , 0 ) ; if ( ret < 0 ) { if ( errno == EAGAIN || errno == EWOULDBLOCK || errno == EINPROGRESS || errno == ENOTCONN ) { continue ; } so -> so_state &= SS_PERSISTENT_MASK ; so -> so_state |= SS_NOFDREF ; } else { ret = send ( so -> s , & ret , 0 , 0 ) ; if ( ret < 0 ) { if ( errno == EAGAIN || errno == EWOULDBLOCK || errno == EINPROGRESS || errno == ENOTCONN ) { continue ; } so -> so_state &= SS_PERSISTENT_MASK ; so -> so_state |= SS_NOFDREF ; } else { so -> so_state &= ~ SS_ISFCONNECTING ; } } tcp_input ( ( struct mbuf * ) NULL , sizeof ( struct ip ) , so , so -> so_ffamily ) ; } # endif } for ( so = slirp -> udb . so_next ; so != & slirp -> udb ; so = so_next ) { int revents ; so_next = so -> so_next ; revents = 0 ; if ( so -> pollfds_idx != - 1 ) { revents = g_array_index ( pollfds , GPollFD , so -> pollfds_idx ) . revents ; } if ( so -> s != - 1 && ( revents & ( G_IO_IN | G_IO_HUP | G_IO_ERR ) ) ) { sorecvfrom ( so ) ; } } for ( so = slirp -> icmp . so_next ; so != & slirp -> icmp ; so = so_next ) { int revents ; so_next = so -> so_next ; revents = 0 ; if ( so -> pollfds_idx != - 1 ) { revents = g_array_index ( pollfds , GPollFD , so -> pollfds_idx ) . revents ; } if ( so -> s != - 1 && ( revents & ( G_IO_IN | G_IO_HUP | G_IO_ERR ) ) ) { icmp_receive ( so ) ; } } } if_start ( slirp ) ; } }
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<S2SV_ModStart> so ) ; if ( ret > 0 ) { tcp_output ( sototcpcb ( so ) ) ; }
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7,338 |
CWE-000 static int get_domain_cdb_ucontacts ( udomain_t * d , void * buf , int * len , unsigned int flags , unsigned int part_idx , unsigned int part_max , char zero_end , int pack_coords ) { static const cdb_key_t aorhash_key = { str_init ( "aorhash" ) , 0 } ; struct list_head * _ , * __ ; int cur_node_idx , nr_nodes , min , max ; char * cpos ; double unit ; cdb_filter_t * aorh_filter ; cdb_res_t res ; cdb_row_t * row ; int_str_t val ; cdb_pair_t * pair ; cdb_dict_t * contacts ; str contacts_key = str_init ( "contacts" ) ; str * aor ; enum cdb_filter_op rhs_op ; int shortage ; cur_node_idx = clusterer_api . get_my_index ( location_cluster , & contact_repl_cap , & nr_nodes ) ; unit = MAX_DB_AOR_HASH / ( double ) ( part_max * nr_nodes ) ; min = ( int ) ( unit * part_max * cur_node_idx + unit * part_idx ) ; max = ( int ) ( unit * part_max * cur_node_idx + unit * ( part_idx + 1 ) ) ; val . is_str = 0 ; val . i = min ; aorh_filter = cdb_append_filter ( NULL , & aorhash_key , CDB_OP_GTE , & val ) ; if ( ! aorh_filter ) { LM_ERR ( "oom\\n" ) ; return - 1 ; } rhs_op = ( max == MAX_DB_AOR_HASH ) ? CDB_OP_LTE : CDB_OP_LT ; val . i = max ; aorh_filter = cdb_append_filter ( aorh_filter , & aorhash_key , rhs_op , & val ) ; if ( ! aorh_filter ) { LM_ERR ( "oom\\n" ) ; return - 1 ; } LM_DBG ( "idx=%d/max=%d,<S2SV_blank>node=%d/nr_nodes=%d,<S2SV_blank>" "filter:<S2SV_blank>%d<S2SV_blank><=<S2SV_blank>aorhash<S2SV_blank><%s<S2SV_blank>%d\\n" , part_idx , part_max , cur_node_idx , nr_nodes , min , max == MAX_DB_AOR_HASH ? "=" : "" , max ) ; if ( cdbf . query ( cdbc , aorh_filter , & res ) != 0 ) { LM_ERR ( "failed<S2SV_blank>to<S2SV_blank>fetch<S2SV_blank>contacts<S2SV_blank>to<S2SV_blank>ping\\n" ) ; return - 1 ; } LM_DBG ( "fetched<S2SV_blank>%d<S2SV_blank>results\\n" , res . count ) ; if ( zero_end ) <S2SV_StartBug> * len -= sizeof ( ( ucontact_t * ) 0 ) -> c . len ; <S2SV_EndBug> cpos = buf ; shortage = 0 ; list_for_each ( _ , & res . rows ) { row = list_entry ( _ , cdb_row_t , list ) ; aor = NULL ; contacts = NULL ; list_for_each ( __ , & row -> dict ) { pair = list_entry ( __ , cdb_pair_t , list ) ; if ( pair -> key . is_pk ) { aor = & pair -> val . val . st ; if ( contacts ) goto pack_data ; } else { if ( ! str_strcmp ( & pair -> key . name , & contacts_key ) ) { contacts = & pair -> val . val . dict ; if ( aor ) goto pack_data ; } } } LM_BUG ( "found<S2SV_blank>entry<S2SV_blank>with<S2SV_blank>missing<S2SV_blank>\'contacts\'<S2SV_blank>or<S2SV_blank>\'aor\'<S2SV_blank>field!\\n" ) ; continue ; pack_data : list_for_each ( __ , contacts ) { pair = list_entry ( __ , cdb_pair_t , list ) ; shortage += cdb_pack_ping_data ( aor , pair , flags , & cpos , len , pack_coords ) ; } } cdb_free_rows ( & res ) ; cdb_free_filters ( aorh_filter ) ; <S2SV_StartBug> if ( zero_end && * len >= ( int ) sizeof ( ( ucontact_t * ) 0 ) -> c . len ) { <S2SV_EndBug> memset ( cpos , 0 , sizeof ( ( ucontact_t * ) 0 ) -> c . len ) ; * len -= sizeof ( ( ucontact_t * ) 0 ) -> c . len ; } if ( shortage ) return shortage - * len ; return 0 ; }
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<S2SV_ModStart> * len -= ( int ) <S2SV_ModStart> * len >= 0 ) memset ( cpos , 0 , <S2SV_ModEnd> sizeof ( ( <S2SV_ModStart> . len ) ; <S2SV_ModEnd> if ( shortage
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7,339 |
CWE-000 static int vp9_local_init ( struct VP9Decoder_s * pbi ) { int ret = - 1 ; struct BuffInfo_s * cur_buf_info = NULL ; memset ( & pbi -> param , 0 , sizeof ( union param_u ) ) ; memset ( & pbi -> common , 0 , sizeof ( struct VP9_Common_s ) ) ; # ifdef MULTI_INSTANCE_SUPPORT cur_buf_info = & pbi -> work_space_buf_store ; # ifdef SUPPORT_4K2K if ( vdec_is_support_4k ( ) ) memcpy ( cur_buf_info , & amvvp9_workbuff_spec [ 1 ] , sizeof ( struct BuffInfo_s ) ) ; else memcpy ( cur_buf_info , & amvvp9_workbuff_spec [ 0 ] , sizeof ( struct BuffInfo_s ) ) ; # else memcpy ( cur_buf_info , & amvvp9_workbuff_spec [ 0 ] , sizeof ( struct BuffInfo_s ) ) ; # endif cur_buf_info -> start_adr = pbi -> buf_start ; # ifndef VP9_10B_MMU pbi -> mc_buf_spec . buf_end = pbi -> buf_start + pbi -> buf_size ; # endif # else # ifdef SUPPORT_4K2K if ( vdec_is_support_4k ( ) ) cur_buf_info = & amvvp9_workbuff_spec [ 1 ] ; else cur_buf_info = & amvvp9_workbuff_spec [ 0 ] ; # else cur_buf_info = & amvvp9_workbuff_spec [ 0 ] ; # endif # endif init_buff_spec ( pbi , cur_buf_info ) ; # ifdef VP9_10B_MMU vp9_bufmgr_init ( pbi , cur_buf_info , NULL ) ; # else pbi -> mc_buf_spec . buf_start = ( cur_buf_info -> end_adr + 0xffff ) & ( ~ 0xffff ) ; pbi -> mc_buf_spec . buf_size = ( pbi -> mc_buf_spec . buf_end - pbi -> mc_buf_spec . buf_start ) ; if ( debug ) { pr_err ( "pbi->mc_buf_spec.buf_start<S2SV_blank>%x-%x\\n" , pbi -> mc_buf_spec . buf_start , pbi -> mc_buf_spec . buf_start + pbi -> mc_buf_spec . buf_size ) ; } vp9_bufmgr_init ( pbi , cur_buf_info , & pbi -> mc_buf_spec ) ; # endif <S2SV_StartBug> pbi -> init_pic_w = buf_alloc_width ? buf_alloc_width : <S2SV_EndBug> ( pbi -> vvp9_amstream_dec_info . width ? pbi -> vvp9_amstream_dec_info . width : pbi -> work_space_buf -> max_width ) ; pbi -> init_pic_h = buf_alloc_height ? buf_alloc_height : ( pbi -> vvp9_amstream_dec_info . height ? pbi -> vvp9_amstream_dec_info . height : pbi -> work_space_buf -> max_height ) ; # ifndef MV_USE_FIXED_BUF if ( init_mv_buf_list ( pbi ) < 0 ) { pr_err ( "%s:<S2SV_blank>init_mv_buf_list<S2SV_blank>fail\\n" , __func__ ) ; return - 1 ; } # endif # ifndef VP9_10B_MMU init_buf_list ( pbi ) ; # else pbi -> used_buf_num = max_buf_num ; if ( pbi -> used_buf_num > MAX_BUF_NUM ) pbi -> used_buf_num = MAX_BUF_NUM ; if ( pbi -> used_buf_num > FRAME_BUFFERS ) pbi -> used_buf_num = FRAME_BUFFERS ; # endif init_pic_list ( pbi ) ; pts_unstable = ( ( unsigned long ) ( pbi -> vvp9_amstream_dec_info . param ) & 0x40 ) >> 6 ; if ( ( debug & VP9_DEBUG_SEND_PARAM_WITH_REG ) == 0 ) { pbi -> rpm_addr = kmalloc ( RPM_BUF_SIZE , GFP_KERNEL ) ; if ( pbi -> rpm_addr == NULL ) { pr_err ( "%s:<S2SV_blank>failed<S2SV_blank>to<S2SV_blank>alloc<S2SV_blank>rpm<S2SV_blank>buffer\\n" , __func__ ) ; return - 1 ; } pbi -> rpm_phy_addr = dma_map_single ( amports_get_dma_device ( ) , pbi -> rpm_addr , RPM_BUF_SIZE , DMA_FROM_DEVICE ) ; if ( dma_mapping_error ( amports_get_dma_device ( ) , pbi -> rpm_phy_addr ) ) { pr_err ( "%s:<S2SV_blank>failed<S2SV_blank>to<S2SV_blank>map<S2SV_blank>rpm<S2SV_blank>buffer\\n" , __func__ ) ; kfree ( pbi -> rpm_addr ) ; pbi -> rpm_addr = NULL ; return - 1 ; } pbi -> rpm_ptr = pbi -> rpm_addr ; } pbi -> lmem_addr = dma_alloc_coherent ( amports_get_dma_device ( ) , LMEM_BUF_SIZE , & pbi -> lmem_phy_addr , GFP_KERNEL ) ; if ( pbi -> lmem_addr == NULL ) { pr_err ( "%s:<S2SV_blank>failed<S2SV_blank>to<S2SV_blank>alloc<S2SV_blank>lmem<S2SV_blank>buffer\\n" , __func__ ) ; return - 1 ; } pbi -> lmem_ptr = pbi -> lmem_addr ; pbi -> prob_buffer_addr = dma_alloc_coherent ( amports_get_dma_device ( ) , PROB_BUF_SIZE , & pbi -> prob_buffer_phy_addr , GFP_KERNEL ) ; if ( pbi -> prob_buffer_addr == NULL ) { pr_err ( "%s:<S2SV_blank>failed<S2SV_blank>to<S2SV_blank>alloc<S2SV_blank>prob_buffer\\n" , __func__ ) ; return - 1 ; } memset ( pbi -> prob_buffer_addr , 0 , PROB_BUF_SIZE ) ; pbi -> count_buffer_addr = dma_alloc_coherent ( amports_get_dma_device ( ) , COUNT_BUF_SIZE , & pbi -> count_buffer_phy_addr , GFP_KERNEL ) ; if ( pbi -> count_buffer_addr == NULL ) { pr_err ( "%s:<S2SV_blank>failed<S2SV_blank>to<S2SV_blank>alloc<S2SV_blank>count_buffer\\n" , __func__ ) ; return - 1 ; } memset ( pbi -> count_buffer_addr , 0 , COUNT_BUF_SIZE ) ; # ifdef VP9_10B_MMU pbi -> frame_mmu_map_addr = dma_alloc_coherent ( amports_get_dma_device ( ) , FRAME_MMU_MAP_SIZE , & pbi -> frame_mmu_map_phy_addr , GFP_KERNEL ) ; if ( pbi -> frame_mmu_map_addr == NULL ) { pr_err ( "%s:<S2SV_blank>failed<S2SV_blank>to<S2SV_blank>alloc<S2SV_blank>count_buffer\\n" , __func__ ) ; return - 1 ; } memset ( pbi -> frame_mmu_map_addr , 0 , COUNT_BUF_SIZE ) ; # endif ret = 0 ; return ret ; }
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<S2SV_ModStart> ; # endif if ( ! vdec_is_support_4k ( ) && ( buf_alloc_width > 1920 && buf_alloc_height > 1088 ) ) { buf_alloc_width = 1920 ; buf_alloc_height = 1088 ; }
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7,340 |
CWE-000 static void ipgre_tap_setup ( struct net_device * dev ) { ether_setup ( dev ) ; <S2SV_StartBug> dev -> max_mtu = 0 ; <S2SV_EndBug> dev -> netdev_ops = & gre_tap_netdev_ops ; dev -> priv_flags |= IFF_LIVE_ADDR_CHANGE ; ip_tunnel_setup ( dev , gre_tap_net_id ) ; }
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<S2SV_ModStart> dev ) ; # ifdef HAVE_NET_DEVICE_MAX_MTU <S2SV_ModStart> = 0 ; # endif
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7,341 |
CWE-000 char * itoa_fractol ( uintmax_t n ) { <S2SV_StartBug> static char str [ 10 ] ; <S2SV_EndBug> <S2SV_StartBug> char * pt ; <S2SV_EndBug> pt = & str [ 9 ] ; <S2SV_StartBug> while ( n ) <S2SV_EndBug> { * pt = '0' + n % 10 ; n /= 10 ; <S2SV_StartBug> -- pt ; <S2SV_EndBug> } return ( pt ) ; }
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<S2SV_ModStart> char str [ 11 <S2SV_ModEnd> ] ; char <S2SV_ModStart> char * pt ; int i ; i = 10 ; str [ 10 ] = '\\0' ; pt = & str [ 10 ] ; if ( ! n ) { str [ 9 ] = '0' <S2SV_ModStart> 9 ] ; i -- ; } <S2SV_ModStart> while ( n && i > 0 ) { -- pt ; <S2SV_ModEnd> * pt = <S2SV_ModStart> /= 10 ; i -- <S2SV_ModEnd> ; } return
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7,342 |
CWE-000 PetscErrorCode MatRARt_SeqAIJ_SeqAIJ ( Mat A , Mat R , MatReuse scall , PetscReal fill , Mat * C ) { PetscErrorCode ierr ; const char * algTypes [ 3 ] = { "matmatmatmult" , "matmattransposemult" , "coloring_rart" } ; PetscInt alg = 0 ; PetscFunctionBegin ; if ( scall == MAT_INITIAL_MATRIX ) { ierr = PetscObjectOptionsBegin ( ( PetscObject ) A ) ; CHKERRQ ( ierr ) ; <S2SV_StartBug> ierr = PetscOptionsEList ( "-matrart_via" , "Algorithmic<S2SV_blank>approach" , "MatRARt" , algTypes , 3 , algTypes [ 0 ] , & alg , NULL ) ; CHKERRQ ( ierr ) ; <S2SV_EndBug> ierr = PetscOptionsEnd ( ) ; CHKERRQ ( ierr ) ; ierr = PetscLogEventBegin ( MAT_RARtSymbolic , A , R , 0 , 0 ) ; CHKERRQ ( ierr ) ; switch ( alg ) { case 1 : ierr = MatRARtSymbolic_SeqAIJ_SeqAIJ_matmattransposemult ( A , R , fill , C ) ; CHKERRQ ( ierr ) ; break ; case 2 : ierr = MatRARtSymbolic_SeqAIJ_SeqAIJ_colorrart ( A , R , fill , C ) ; CHKERRQ ( ierr ) ; break ; default : ierr = MatRARtSymbolic_SeqAIJ_SeqAIJ ( A , R , fill , C ) ; CHKERRQ ( ierr ) ; break ; } ierr = PetscLogEventEnd ( MAT_RARtSymbolic , A , R , 0 , 0 ) ; CHKERRQ ( ierr ) ; } ierr = PetscLogEventBegin ( MAT_RARtNumeric , A , R , 0 , 0 ) ; CHKERRQ ( ierr ) ; ierr = ( * ( * C ) -> ops -> rartnumeric ) ( A , R , * C ) ; CHKERRQ ( ierr ) ; ierr = PetscLogEventEnd ( MAT_RARtNumeric , A , R , 0 , 0 ) ; CHKERRQ ( ierr ) ; PetscFunctionReturn ( 0 ) ; }
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<S2SV_ModStart> ierr ) ; PetscOptionsObject -> alreadyprinted = PETSC_FALSE ;
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7,343 |
CWE-000 static void set_autocode_sub_buttons ( void ) { int i = 0 ; int range_start = DSB_AUTOCODE_FIRST ; int range_end = DSB_AUTOCODE_LAST ; initialise_autocoder ( ) ; while ( range_start + i <= range_end ) { panel [ PANEL_DESIGN ] . element [ FPE_DESIGN_SUB_BUTTON_0 + i ] . open = 1 ; panel [ PANEL_DESIGN ] . element [ FPE_DESIGN_SUB_BUTTON_0 + i ] . value [ 0 ] = range_start + i ; panel [ PANEL_DESIGN ] . element [ FPE_DESIGN_SUB_BUTTON_0 + i ] . value [ 2 ] = design_sub_button [ range_start + i ] . value ; panel [ PANEL_DESIGN ] . element [ FPE_DESIGN_SUB_BUTTON_0 + i ] . name = design_sub_button [ range_start + i ] . name ; panel [ PANEL_DESIGN ] . element [ FPE_DESIGN_SUB_BUTTON_0 + i ] . value [ 1 ] = 0 ; panel [ PANEL_DESIGN ] . element [ FPE_DESIGN_SUB_BUTTON_0 + i ] . value [ 3 ] = AUTOCODE_AVAILABLE_YES ; if ( dwindow . templ -> member [ 0 ] . shape < FIRST_MOBILE_NSHAPE ) { if ( i != AUTOCODE_NONE ) { panel [ PANEL_DESIGN ] . element [ FPE_DESIGN_SUB_BUTTON_0 + i ] . value [ 3 ] = AUTOCODE_AVAILABLE_NO_STATIC ; } goto next_loop ; } if ( ! dcode_state . unindexed_auto_class_present [ AUTO_CLASS_MOVE ] ) { if ( i != AUTOCODE_NONE ) { panel [ PANEL_DESIGN ] . element [ FPE_DESIGN_SUB_BUTTON_0 + i ] . value [ 3 ] = AUTOCODE_AVAILABLE_MAYBE_NO_MOVE ; } goto next_loop ; } switch ( i ) { case AUTOCODE_NONE : break ; case AUTOCODE_STANDARD : case AUTOCODE_CHARGE : <S2SV_StartBug> case AUTOCODE_HARASS : <S2SV_EndBug> if ( dcode_state . unindexed_auto_class_present [ AUTO_CLASS_ATTACK_MAIN ] || dcode_state . unindexed_auto_class_present [ AUTO_CLASS_ATTACK_FRONT_DIR ] ) break ; panel [ PANEL_DESIGN ] . element [ FPE_DESIGN_SUB_BUTTON_0 + i ] . value [ 3 ] = AUTOCODE_AVAILABLE_MAYBE_NO_FWD_ATT ; break ; case AUTOCODE_CIRCLE_CW : if ( dcode_state . unindexed_auto_class_present [ AUTO_CLASS_ATTACK_FRONT_DIR ] || dcode_state . unindexed_auto_class_present [ AUTO_CLASS_ATTACK_RIGHT_DIR ] ) break ; if ( dcode_state . unindexed_auto_class_present [ AUTO_CLASS_ATTACK_MAIN ] ) { panel [ PANEL_DESIGN ] . element [ FPE_DESIGN_SUB_BUTTON_0 + i ] . value [ 3 ] = AUTOCODE_AVAILABLE_MAYBE_POOR_MAIN ; break ; } panel [ PANEL_DESIGN ] . element [ FPE_DESIGN_SUB_BUTTON_0 + i ] . value [ 3 ] = AUTOCODE_AVAILABLE_MAYBE_NO_FWD_OR_R_ATT ; break ; case AUTOCODE_CIRCLE_ACW : if ( dcode_state . unindexed_auto_class_present [ AUTO_CLASS_ATTACK_FRONT_DIR ] || dcode_state . unindexed_auto_class_present [ AUTO_CLASS_ATTACK_LEFT_DIR ] ) break ; if ( dcode_state . unindexed_auto_class_present [ AUTO_CLASS_ATTACK_MAIN ] ) { panel [ PANEL_DESIGN ] . element [ FPE_DESIGN_SUB_BUTTON_0 + i ] . value [ 3 ] = AUTOCODE_AVAILABLE_MAYBE_POOR_MAIN ; break ; } panel [ PANEL_DESIGN ] . element [ FPE_DESIGN_SUB_BUTTON_0 + i ] . value [ 3 ] = AUTOCODE_AVAILABLE_MAYBE_NO_FWD_OR_L_ATT ; break ; case AUTOCODE_ERRATIC : if ( dcode_state . unindexed_auto_class_present [ AUTO_CLASS_ATTACK_FRONT_DIR ] || dcode_state . unindexed_auto_class_present [ AUTO_CLASS_ATTACK_LEFT_DIR ] ) break ; if ( dcode_state . unindexed_auto_class_present [ AUTO_CLASS_ATTACK_MAIN ] ) { panel [ PANEL_DESIGN ] . element [ FPE_DESIGN_SUB_BUTTON_0 + i ] . value [ 3 ] = AUTOCODE_AVAILABLE_MAYBE_POOR_MAIN ; break ; } panel [ PANEL_DESIGN ] . element [ FPE_DESIGN_SUB_BUTTON_0 + i ] . value [ 3 ] = AUTOCODE_AVAILABLE_MAYBE_NO_FWD_OR_L_ATT ; break ; case AUTOCODE_BOMBARD : if ( ! dcode_state . unindexed_auto_class_present [ AUTO_CLASS_SPIKE_FRONT ] ) panel [ PANEL_DESIGN ] . element [ FPE_DESIGN_SUB_BUTTON_0 + i ] . value [ 3 ] = AUTOCODE_AVAILABLE_MAYBE_NO_SPIKE ; break ; } next_loop : i ++ ; # ifdef SANITY_CHECK if ( i >= DESIGN_SUB_BUTTONS ) { fpr ( "\\nError:<S2SV_blank>d_design.c:<S2SV_blank>set_sub_buttons_range():<S2SV_blank>too<S2SV_blank>many<S2SV_blank>sub-buttons<S2SV_blank>(%i)<S2SV_blank>(range<S2SV_blank>%i<S2SV_blank>to<S2SV_blank>%i)." , i , range_start , range_end ) ; error_call ( ) ; } # endif } ; while ( i < DESIGN_SUB_BUTTONS ) { panel [ PANEL_DESIGN ] . element [ FPE_DESIGN_SUB_BUTTON_0 + i ] . open = 0 ; i ++ ; } ; }
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<S2SV_ModStart> AUTOCODE_CHARGE : case AUTOCODE_CAUTIOUS <S2SV_ModEnd> : if (
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7,344 |
CWE-000 static int Get_remoteVersionFile ( char * save_path , char * serverip ) { int res ; char comm [ 128 ] = { 0 } ; if ( 0 == access ( UPGRADE_SERVER_VERSION_NAME , F_OK ) ) { printf ( "upgrade.ini<S2SV_blank>file<S2SV_blank>already<S2SV_blank>eixt,<S2SV_blank>I<S2SV_blank>will<S2SV_blank>remove<S2SV_blank>it\\n" ) ; removeFileByName ( UPGRADE_SERVER_VERSION_NAME ) ; } <S2SV_StartBug> sprintf ( comm , "wget<S2SV_blank>-P<S2SV_blank>%s<S2SV_blank>%s/upgrade_info.ini" , save_path , serverip ) ; <S2SV_EndBug> printf ( "comm<S2SV_blank>content:%s\\n" , comm ) ; res = system ( comm ) ; if ( 0 != res ) { return - 1 ; } system ( "sync" ) ; return 0 ; }
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<S2SV_ModStart> ( comm , "wget<S2SV_blank>-P<S2SV_blank>%s<S2SV_blank>%supgrade_info.ini" <S2SV_ModEnd> , save_path ,
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7,345 |
CWE-000 void runCardEngineCheck ( void ) { # ifdef DEBUG nocashMessage ( "runCardEngineCheck" ) ; # endif if ( tryLockMutex ( ) ) { initLogging ( ) ; <S2SV_StartBug> if ( * ( vu32 * ) ( 0x027FFB14 ) == ( vu32 ) 0x026ff800 ) <S2SV_EndBug> { <S2SV_StartBug> log_arm9 ( ) ; <S2SV_EndBug> * ( vu32 * ) ( 0x027FFB14 ) = 0 ; <S2SV_StartBug> } <S2SV_EndBug> if ( * ( vu32 * ) ( 0x027FFB14 ) == ( vu32 ) 0x025FFB08 ) { <S2SV_StartBug> cardRead_arm9 ( ) ; <S2SV_EndBug> * ( vu32 * ) ( 0x027FFB14 ) = 0 ; <S2SV_StartBug> } <S2SV_EndBug> if ( * ( vu32 * ) ( 0x027FFB14 ) == ( vu32 ) 0x020ff800 ) { <S2SV_StartBug> asyncCardRead_arm9 ( ) ; <S2SV_EndBug> * ( vu32 * ) ( 0x027FFB14 ) = 0 ; <S2SV_StartBug> } <S2SV_EndBug> unlockMutex ( ) ; } }
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<S2SV_ModStart> ( 0x027FFB14 ) != 0 && ! readInProgress ) { if ( accessCounter > numberToActivateRunViaHalt - 1 ) { accessCounter = numberToActivateRunViaHalt ; runViaHalt = true ; } if ( * ( vu32 * ) ( 0x027FFB14 ) <S2SV_ModStart> 0x026ff800 ) { readInProgress = true ; <S2SV_ModStart> = 0 ; readInProgress = false ; <S2SV_ModStart> 0x025FFB08 ) { readInProgress = true ; <S2SV_ModStart> = 0 ; accessCounter ++ ; readInProgress = false ; <S2SV_ModStart> 0x020ff800 ) { readInProgress = true ; <S2SV_ModStart> = 0 ; accessCounter ++ ; readInProgress = false ; }
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7,346 |
CWE-000 void taskHousekeeping ( void * param ) { printf ( ">>[Housekeeping]<S2SV_blank>Started\\r\\n" ) ; portTick delay_ms = 1000 ; portTick delay_ticks = osDefineTime ( delay_ms ) ; unsigned int elapsed_sec = 0 ; unsigned int _10sec_check = 1 ; unsigned int _10min_check = 2 ; unsigned int _1hour_check = 3 ; <S2SV_StartBug> char * task_name = ( char * ) param ; <S2SV_EndBug> portTick xLastWakeTime = osTaskGetTickCount ( ) ; while ( 1 ) { osTaskDelayUntil ( & xLastWakeTime , delay_ticks ) ; elapsed_sec += delay_ms / 1000 ; if ( ( elapsed_sec % _10sec_check ) == 0 ) { printf ( "[Housekeeping]<S2SV_blank>_10sec_check\\n" ) ; cmd_t * cmd_10s = cmd_get_str ( "get_mem" ) ; osQueueSend ( dispatcherQueue , & cmd_10s , portMAX_DELAY ) ; } if ( ( elapsed_sec % _10min_check ) == 0 ) { printf ( "[Housekeeping]<S2SV_blank>_10min_check\\n" ) ; cmd_t * cmd_10m = cmd_get_str ( "test" ) ; cmd_10m -> params = ( char * ) malloc ( sizeof ( char ) * 20 ) ; strcpy ( cmd_10m -> params , "BYE<S2SV_blank>" ) ; strcat ( cmd_10m -> params , task_name ) ; osQueueSend ( dispatcherQueue , & cmd_10m , portMAX_DELAY ) ; } if ( ( elapsed_sec % _1hour_check ) == 0 ) { printf ( "[Housekeeping]<S2SV_blank>_1hour_check\\n" ) ; cmd_t * cmd_1h = cmd_get_str ( "test" ) ; cmd_1h -> params = ( char * ) malloc ( sizeof ( char ) * 20 ) ; strcpy ( cmd_1h -> params , "HELLO<S2SV_blank>" ) ; strcat ( cmd_1h -> params , task_name ) ; osQueueSend ( dispatcherQueue , & cmd_1h , portMAX_DELAY ) ; } } }
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<S2SV_ModStart> * task_name = param != NULL ? ( char * ) param : "HSK" <S2SV_ModEnd> ; portTick xLastWakeTime
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7,347 |
CWE-000 PyObject * psutil_sensors_battery ( PyObject * self , PyObject * args ) { int percent ; int minsleft ; int power_plugged ; size_t size = sizeof ( percent ) ; if ( sysctlbyname ( "hw.acpi.battery.life" , & percent , & size , NULL , 0 ) ) goto error ; if ( sysctlbyname ( "hw.acpi.battery.time" , & minsleft , & size , NULL , 0 ) ) goto error ; if ( sysctlbyname ( "hw.acpi.acline" , & power_plugged , & size , NULL , 0 ) ) goto error ; return Py_BuildValue ( "iii" , percent , minsleft , power_plugged ) ; error : <S2SV_StartBug> return PyErr_SetFromErrno ( PyExc_OSError ) ; <S2SV_EndBug> <S2SV_StartBug> } <S2SV_EndBug>
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<S2SV_ModStart> ; error : if ( errno == ENOENT ) PyErr_SetString ( PyExc_NotImplementedError , "no<S2SV_blank>battery" ) ; else <S2SV_ModEnd> PyErr_SetFromErrno ( PyExc_OSError <S2SV_ModStart> PyExc_OSError ) ; return NULL ;
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7,348 |
CWE-000 int main ( int argc , char * * argv ) { test_start ( argc , argv ) ; test_mask ( ) ; test_shifted_mask ( ) ; test_patch ( ) ; test_patch_reg ( ) ; test_get_bits ( ) ; <S2SV_StartBug> test_finished ( ) ; <S2SV_EndBug> return 0 ; }
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<S2SV_ModStart> ( ) ; test_get_bit ( ) ;
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7,349 |
CWE-000 static bool stripe_can_batch ( struct stripe_head * sh ) { struct r5conf * conf = sh -> raid_conf ; <S2SV_StartBug> if ( conf -> log || raid5_has_ppl ( conf ) ) <S2SV_EndBug> return false ; return test_bit ( STRIPE_BATCH_READY , & sh -> state ) && ! test_bit ( STRIPE_BITMAP_PENDING , & sh -> state ) && is_full_stripe_write ( sh ) ; }
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<S2SV_ModStart> ; if ( raid5_has_log ( conf ) <S2SV_ModEnd> || raid5_has_ppl (
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7,350 |
CWE-000 int main ( void ) { initializeBoard ( ) ; int choice = - 1 ; char logKeep = '\\0' ; bool play = true ; char turn = W ; int tCounter = 1 ; char target [ 6 ] ; int x1 = - 1 ; int y1 = - 1 ; int x2 = - 1 ; int y2 = - 1 ; fclose ( fopen ( "move_history.txt" , "wt" ) ) ; FILE * check = fopen ( "move_log.txt" , "rt" ) ; if ( ! check ) puts ( "There<S2SV_blank>is<S2SV_blank>no<S2SV_blank>previous<S2SV_blank>logfile<S2SV_blank>available,<S2SV_blank>enjoy<S2SV_blank>your<S2SV_blank>game<S2SV_blank>and<S2SV_blank>good<S2SV_blank>luck!" ) ; else { char logChoice = '\\0' ; puts ( "Log<S2SV_blank>file<S2SV_blank>is<S2SV_blank>not<S2SV_blank>empty,<S2SV_blank>would<S2SV_blank>you<S2SV_blank>like<S2SV_blank>to<S2SV_blank>rebuild<S2SV_blank>from<S2SV_blank>a<S2SV_blank>previous<S2SV_blank>game?<S2SV_blank>Y/n" ) ; logChoice = getchar ( ) ; while ( logChoice != 'Y' && logChoice != 'n' ) { puts ( "Please<S2SV_blank>input<S2SV_blank>either<S2SV_blank>\'Y\'<S2SV_blank>or<S2SV_blank>\'n\'<S2SV_blank>(without<S2SV_blank>the<S2SV_blank>single<S2SV_blank>quotes):" ) ; while ( logChoice != '\\n' && logChoice != '\\0' ) logChoice = getchar ( ) ; logChoice = getchar ( ) ; } if ( logChoice == 'Y' ) rebuildBoard ( "move_log.txt" , & turn , & tCounter ) ; else puts ( "Understood,<S2SV_blank>here<S2SV_blank>is<S2SV_blank>your<S2SV_blank>fresh<S2SV_blank>game,<S2SV_blank>good<S2SV_blank>luck<S2SV_blank>and<S2SV_blank>have<S2SV_blank>fun!" ) ; puts ( "" ) ; } while ( play ) { printBoard ( ) ; <S2SV_StartBug> puts ( "\\n\\nPlease<S2SV_blank>select<S2SV_blank>one<S2SV_blank>of<S2SV_blank>the<S2SV_blank>following<S2SV_blank>options:" ) ; <S2SV_EndBug> puts ( "\\t1.<S2SV_blank>Print<S2SV_blank>the<S2SV_blank>board" ) ; puts ( "\\t2.<S2SV_blank>Make<S2SV_blank>a<S2SV_blank>move" ) ; puts ( "\\t3.<S2SV_blank>Concede" ) ; puts ( "\\t4.<S2SV_blank>See<S2SV_blank>move<S2SV_blank>history" ) ; while ( scanf ( "%d" , & choice ) != 1 || choice < 1 || choice > 4 ) { do { choice = getchar ( ) ; } while ( choice != '\\n' && choice != EOF ) ; puts ( "Please<S2SV_blank>input<S2SV_blank>choice<S2SV_blank>1,<S2SV_blank>2,<S2SV_blank>3,<S2SV_blank>4<S2SV_blank>or<S2SV_blank>5." ) ; } puts ( "" ) ; switch ( choice ) { case 1 : printBoard ( ) ; break ; case 2 : printf ( "It<S2SV_blank>is<S2SV_blank>%s\'s<S2SV_blank>turn<S2SV_blank>right<S2SV_blank>now.<S2SV_blank>" , ( turn == W ? "White" : "Black" ) ) ; do { <S2SV_StartBug> puts ( "Please<S2SV_blank>enter<S2SV_blank>a<S2SV_blank>move<S2SV_blank>&<S2SV_blank>follow<S2SV_blank>this<S2SV_blank>format<S2SV_blank>\'A5,B8\':" ) ; <S2SV_EndBug> scanf ( "%5s" , target ) ; do { target [ 5 ] = getchar ( ) ; } while ( target [ 5 ] != '\\n' && choice != EOF ) ; target [ 5 ] = '\\0' ; } while ( ! validInput ( target ) ) ; parseInput ( target , & x1 , & y1 , & x2 , & y2 ) ; if ( turn == board [ y1 ] [ x1 ] . color ) { char symbol = board [ y1 ] [ x1 ] . id ; <S2SV_StartBug> if ( movePiece ( x1 , y1 , x2 , y2 ) == - 1 ) <S2SV_EndBug> <S2SV_StartBug> printf ( "There<S2SV_blank>was<S2SV_blank>a<S2SV_blank>problem,<S2SV_blank>please<S2SV_blank>try<S2SV_blank>again!\\n\\n" ) ; <S2SV_EndBug> else { FILE * mh = fopen ( "move_history.txt" , "at" ) ; fprintf ( mh , "%d.<S2SV_blank>%c%c(%c%c)<S2SV_blank>to<S2SV_blank>%c%c,\\n" , tCounter , ( x1 + 'A' ) , ( y1 + '1' ) , turn , symbol , ( x2 + 'A' ) , ( y2 + '1' ) ) ; fclose ( mh ) ; FILE * ml = fopen ( "move_log.txt" , "at" ) ; fprintf ( ml , "%c%c,%c%c\\n" , ( x1 + 'A' ) , ( y1 + '1' ) , ( x2 + 'A' ) , ( y2 + '1' ) ) ; fclose ( ml ) ; tCounter ++ ; if ( turn == W ) turn = B ; else turn = W ; } } else printf ( "It<S2SV_blank>is<S2SV_blank>%s\'s<S2SV_blank>turn<S2SV_blank>right<S2SV_blank>now<S2SV_blank>so<S2SV_blank>that<S2SV_blank>piece<S2SV_blank>can\'t<S2SV_blank>move<S2SV_blank>yet.\\n\\n" , ( turn == W ? "White" : "Black" ) ) ; break ; case 3 : <S2SV_StartBug> puts ( "Game<S2SV_blank>over!<S2SV_blank>Board<S2SV_blank>state:" ) ; <S2SV_EndBug> printBoard ( ) ; puts ( "" ) ; play = false ; puts ( "Would<S2SV_blank>you<S2SV_blank>like<S2SV_blank>to<S2SV_blank>keep<S2SV_blank>the<S2SV_blank>log-file?<S2SV_blank>\'Y\'<S2SV_blank>or<S2SV_blank>\'n\'" ) ; logKeep = getchar ( ) ; while ( logKeep == '\\n' ) { logKeep = getchar ( ) ; } while ( logKeep != 'Y' && logKeep != 'n' ) { puts ( "Please<S2SV_blank>input<S2SV_blank>either<S2SV_blank>\'Y\'<S2SV_blank>or<S2SV_blank>\'n\'<S2SV_blank>(without<S2SV_blank>the<S2SV_blank>single<S2SV_blank>quotes):" ) ; while ( logKeep != '\\n' && logKeep != '\\0' ) logKeep = getchar ( ) ; logKeep = getchar ( ) ; } puts ( "" ) ; break ; case 4 : { FILE * rp = fopen ( "move_history.txt" , "rt" ) ; if ( feof ( rp ) || rp == NULL ) puts ( "The<S2SV_blank>move<S2SV_blank>history<S2SV_blank>does<S2SV_blank>not<S2SV_blank>exist." ) ; else { char line [ 20 ] = "" ; fgets ( line , sizeof ( line ) , rp ) ; if ( strncmp ( line , "" , 1 ) == 0 ) puts ( "No<S2SV_blank>moves<S2SV_blank>have<S2SV_blank>been<S2SV_blank>played<S2SV_blank>yet!" ) ; else puts ( "Here<S2SV_blank>is<S2SV_blank>the<S2SV_blank>move<S2SV_blank>history:" ) ; while ( ! feof ( rp ) && rp != NULL ) { printf ( "%s" , line ) ; fgets ( line , sizeof ( line ) , rp ) ; } } fclose ( rp ) ; break ; } default : <S2SV_StartBug> puts ( "Something<S2SV_blank>went<S2SV_blank>wrong..." ) ; <S2SV_EndBug> exit ( - 1 ) ; } puts ( "\\n--------------------------------------------------------------------------------\\n" ) ; } if ( logKeep == 'n' ) system ( "rm<S2SV_blank>-f<S2SV_blank>move_log.txt" ) ; return EXIT_SUCCESS ; }
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<S2SV_ModStart> ; puts ( "\\n\\nPlease<S2SV_blank>type<S2SV_blank>a<S2SV_blank>number<S2SV_blank>corresponding<S2SV_blank>to<S2SV_blank>one<S2SV_blank>of<S2SV_blank>the<S2SV_blank>following<S2SV_blank>options:" <S2SV_ModEnd> ) ; puts <S2SV_ModStart> puts ( "Please<S2SV_blank>enter<S2SV_blank>a<S2SV_blank>move<S2SV_blank>&<S2SV_blank>follow<S2SV_blank>this<S2SV_blank>format<S2SV_blank>\'A5,B8\':" ) ; puts ( "\\tA<S2SV_blank>valid<S2SV_blank>move<S2SV_blank>is<S2SV_blank>from<S2SV_blank>A-H<S2SV_blank>(column/file)<S2SV_blank>&<S2SV_blank>1-8<S2SV_blank>(row/rank)" <S2SV_ModStart> . id ; int errCode = 1 ; if ( ( errCode = <S2SV_ModEnd> movePiece ( x1 <S2SV_ModStart> , y2 ) ) != 0 ) { if ( errCode <S2SV_ModStart> - 1 ) puts ( "Your<S2SV_blank>move<S2SV_blank>is<S2SV_blank>invalid,<S2SV_blank>please<S2SV_blank>try<S2SV_blank>again!\\n" ) ; } <S2SV_ModEnd> else { FILE <S2SV_ModStart> case 3 : printf ( "Game<S2SV_blank>over,<S2SV_blank>%s<S2SV_blank>won!\\n" , ( turn == W ? "White" : "Black" ) <S2SV_ModEnd> ) ; printBoard <S2SV_ModStart> : puts ( "Something<S2SV_blank>went<S2SV_blank>wrong<S2SV_blank>with<S2SV_blank>input<S2SV_blank>checking..." <S2SV_ModEnd> ) ; exit
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7,351 |
CWE-000 HYPRE_Int hypre_ParCompGridMatlabPMatrixDump ( hypre_ParCompGrid * compGrid , const char * filename ) { HYPRE_Int num_nodes = hypre_ParCompGridNumNodes ( compGrid ) ; HYPRE_Int * global_indices = hypre_ParCompGridGlobalIndices ( compGrid ) ; hypre_ParCompMatrixRow * * P_rows = hypre_ParCompGridPRows ( compGrid ) ; FILE * file ; file = fopen ( filename , "w" ) ; HYPRE_Int i , j , row_size ; for ( i = 0 ; i < num_nodes ; i ++ ) { row_size = hypre_ParCompMatrixRowSize ( P_rows [ i ] ) ; for ( j = 0 ; j < row_size ; j ++ ) { hypre_fprintf ( file , "%d<S2SV_blank>" , global_indices [ i ] ) ; hypre_fprintf ( file , "%d<S2SV_blank>" , hypre_ParCompMatrixRowGlobalIndices ( P_rows [ i ] ) [ j ] ) ; <S2SV_StartBug> hypre_fprintf ( file , "%f\\n" , hypre_ParCompMatrixRowData ( P_rows [ i ] ) [ j ] ) ; <S2SV_EndBug> } } fclose ( file ) ; return 0 ; }
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<S2SV_ModStart> ( file , "%e\\n" <S2SV_ModEnd> , hypre_ParCompMatrixRowData (
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7,352 |
CWE-000 int msm_comm_flush ( struct msm_vidc_inst * inst , u32 flags ) { int rc = 0 ; bool ip_flush = false ; bool op_flush = false ; struct list_head * ptr , * next ; struct vb2_buf_entry * temp ; struct mutex * lock ; struct msm_vidc_core * core ; struct hfi_device * hdev ; if ( ! inst ) { dprintk ( VIDC_ERR , "Invalid<S2SV_blank>instance<S2SV_blank>pointer<S2SV_blank>=<S2SV_blank>%p\\n" , inst ) ; return - EINVAL ; } core = inst -> core ; if ( ! core ) { dprintk ( VIDC_ERR , "Invalid<S2SV_blank>core<S2SV_blank>pointer<S2SV_blank>=<S2SV_blank>%p\\n" , core ) ; return - EINVAL ; } hdev = core -> device ; if ( ! hdev ) { <S2SV_StartBug> dprintk ( VIDC_ERR , "Invalid<S2SV_blank>device<S2SV_blank>pointer<S2SV_blank>=<S2SV_blank>%p" , hdev ) ; <S2SV_EndBug> return - EINVAL ; } ip_flush = flags & V4L2_QCOM_CMD_FLUSH_OUTPUT ; op_flush = flags & V4L2_QCOM_CMD_FLUSH_CAPTURE ; if ( ip_flush && ! op_flush ) { dprintk ( VIDC_INFO , "Input<S2SV_blank>only<S2SV_blank>flush<S2SV_blank>not<S2SV_blank>supported\\n" ) ; return 0 ; } mutex_lock ( & inst -> sync_lock ) ; msm_comm_flush_dynamic_buffers ( inst ) ; mutex_unlock ( & inst -> sync_lock ) ; if ( inst -> state == MSM_VIDC_CORE_INVALID || core -> state == VIDC_CORE_INVALID ) { dprintk ( VIDC_ERR , "Core<S2SV_blank>%p<S2SV_blank>and<S2SV_blank>inst<S2SV_blank>%p<S2SV_blank>are<S2SV_blank>in<S2SV_blank>bad<S2SV_blank>state\\n" , core , inst ) ; msm_comm_flush_in_invalid_state ( inst ) ; return 0 ; } if ( inst -> in_reconfig && ! ip_flush && op_flush ) { mutex_lock ( & inst -> pendingq . lock ) ; if ( ! list_empty ( & inst -> pendingq . list ) ) { dprintk ( VIDC_WARN , "FLUSH<S2SV_blank>BUG:<S2SV_blank>Pending<S2SV_blank>q<S2SV_blank>not<S2SV_blank>empty!<S2SV_blank>It<S2SV_blank>should<S2SV_blank>be<S2SV_blank>empty\\n" ) ; } mutex_unlock ( & inst -> pendingq . lock ) ; rc = call_hfi_op ( hdev , session_flush , inst -> session , HAL_FLUSH_OUTPUT ) ; if ( ! rc && ( msm_comm_get_stream_output_mode ( inst ) == HAL_VIDEO_DECODER_SECONDARY ) ) rc = call_hfi_op ( hdev , session_flush , inst -> session , HAL_FLUSH_OUTPUT2 ) ; } else { msm_comm_flush_pending_dynamic_buffers ( inst ) ; mutex_lock ( & inst -> pendingq . lock ) ; list_for_each_safe ( ptr , next , & inst -> pendingq . list ) { temp = list_entry ( ptr , struct vb2_buf_entry , list ) ; if ( temp -> vb -> v4l2_buf . type == V4L2_BUF_TYPE_VIDEO_CAPTURE_MPLANE ) lock = & inst -> bufq [ CAPTURE_PORT ] . lock ; else lock = & inst -> bufq [ OUTPUT_PORT ] . lock ; temp -> vb -> v4l2_planes [ 0 ] . bytesused = 0 ; mutex_lock ( lock ) ; vb2_buffer_done ( temp -> vb , VB2_BUF_STATE_DONE ) ; mutex_unlock ( lock ) ; list_del ( & temp -> list ) ; kfree ( temp ) ; } mutex_unlock ( & inst -> pendingq . lock ) ; if ( ! ( inst -> state == MSM_VIDC_CORE_INVALID && core -> state != VIDC_CORE_INVALID ) ) rc = call_hfi_op ( hdev , session_flush , inst -> session , HAL_FLUSH_ALL ) ; } return rc ; }
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<S2SV_ModStart> ( VIDC_ERR , "Invalid<S2SV_blank>device<S2SV_blank>pointer<S2SV_blank>=<S2SV_blank>%pK" <S2SV_ModEnd> , hdev )
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7,353 |
CWE-000 <S2SV_StartBug> int main ( int argc , const char * argv [ ] ) { <S2SV_EndBug> if ( ! __MODULE__ ) banner ( ) ; if ( argc > 1 ) arg_parse ( argc , argv ) ; else interactive ( ) ; for ( int x = 0 ; x != __THREADS__ ; ++ x ) { if ( fork ( ) ) attack ( __HOST__ , __PORT__ , x ) ; } getc ( stdin ) ; <S2SV_StartBug> if ( __HOST__ ) <S2SV_EndBug> free ( __HOST__ ) ; if ( __PORT__ ) free ( __PORT__ ) ; return 0 ; }
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<S2SV_ModStart> ] ) { init ( ) ; <S2SV_ModStart> stdin ) ; <S2SV_ModEnd> return 0 ;
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7,354 |
CWE-000 void gsb_gui_navigation_clear_pages_list ( void ) { <S2SV_StartBug> g_queue_foreach ( pages_list , ( GFunc ) g_free , NULL ) ; <S2SV_EndBug> g_queue_clear ( pages_list ) ; }
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<S2SV_ModStart> ( pages_list , my_g_free_null <S2SV_ModEnd> , NULL )
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7,355 |
CWE-000 void generate_default_state ( all_vars_struct * all_vars , soil_con_struct * soil_con , veg_con_struct * veg_con ) { extern option_struct options ; extern parameters_struct param ; size_t Nveg ; size_t veg ; size_t band ; size_t lidx ; size_t k ; size_t tmpTshape [ ] = { options . Nlayer , options . Nnode , options . Nfrost + 1 } ; size_t tmpZshape [ ] = { options . Nlayer , options . Nnode } ; double Cv ; double tmp ; double AreaFactor ; double TreeAdjustFactor = 1. ; double lakefactor = 1. ; double albedo_sum ; double * * * tmpT ; double * * tmpZ ; int ErrorFlag ; cell_data_struct * * cell ; energy_bal_struct * * energy ; veg_var_struct * * veg_var ; gridcell_avg_struct gridcell_avg ; cell = all_vars -> cell ; energy = all_vars -> energy ; veg_var = all_vars -> veg_var ; gridcell_avg = all_vars -> gridcell_avg ; Nveg = veg_con [ 0 ] . vegetat_type_num ; malloc_3d_double ( tmpTshape , & tmpT ) ; malloc_2d_double ( tmpZshape , & tmpZ ) ; for ( veg = 0 ; veg <= Nveg ; veg ++ ) { Cv = veg_con [ veg ] . Cv ; if ( Cv > 0 ) { for ( band = 0 ; band < options . SNOW_BAND ; band ++ ) { if ( soil_con -> AreaFract [ band ] > 0. ) { for ( lidx = 0 ; lidx < options . Nlayer ; lidx ++ ) { cell [ veg ] [ band ] . layer [ lidx ] . moist = soil_con -> init_moist [ lidx ] ; if ( cell [ veg ] [ band ] . layer [ lidx ] . moist > soil_con -> max_moist [ lidx ] ) { cell [ veg ] [ band ] . layer [ lidx ] . moist = soil_con -> max_moist [ lidx ] ; } } } } } } for ( veg = 0 ; veg <= Nveg ; veg ++ ) { Cv = veg_con [ veg ] . Cv ; if ( Cv > 0 ) { for ( band = 0 ; band < options . SNOW_BAND ; band ++ ) { if ( soil_con -> AreaFract [ band ] > 0. ) { for ( k = 0 ; k < options . Nnode ; k ++ ) { if ( options . FULL_ENERGY || options . FROZEN_SOIL ) { energy [ veg ] [ band ] . T [ k ] = soil_con -> avg_temp ; } else { energy [ veg ] [ band ] . T [ k ] = 0 ; } } tmp = energy [ veg ] [ band ] . T [ 0 ] + CONST_TKFRZ ; energy [ veg ] [ band ] . LongUnderOut = calc_outgoing_longwave ( tmp , param . EMISS_SNOW ) ; energy [ veg ] [ band ] . Tfoliage = energy [ veg ] [ band ] . T [ 0 ] + soil_con -> Tfactor [ band ] ; } } } } albedo_sum = 0 ; for ( veg = 0 ; veg <= Nveg ; veg ++ ) { Cv = veg_con [ veg ] . Cv ; if ( Cv > 0 ) { for ( band = 0 ; band < options . SNOW_BAND ; band ++ ) { if ( soil_con -> AreaFract [ band ] > 0. ) { AreaFactor = ( Cv * soil_con -> AreaFract [ band ] * TreeAdjustFactor * lakefactor ) ; if ( veg != Nveg ) { albedo_sum += AreaFactor * veg_var [ veg ] [ band ] . albedo ; } else { albedo_sum += AreaFactor * param . ALBEDO_BARE_SOIL ; } } } } } <S2SV_StartBug> gridcell_avg . avg_albedo = albedo_sum ; <S2SV_EndBug> for ( veg = 0 ; veg <= Nveg ; veg ++ ) { Cv = veg_con [ veg ] . Cv ; if ( Cv > 0 ) { for ( band = 0 ; band < options . SNOW_BAND ; band ++ ) { if ( soil_con -> AreaFract [ band ] > 0. ) { if ( options . QUICK_FLUX ) { ErrorFlag = estimate_layer_ice_content_quick_flux ( cell [ veg ] [ band ] . layer , soil_con -> depth , soil_con -> max_moist , soil_con -> expt , soil_con -> bubble , soil_con -> frost_fract , soil_con -> frost_slope , soil_con -> FS_ACTIVE ) ; if ( ErrorFlag == ERROR ) { log_err ( "Error<S2SV_blank>calculating<S2SV_blank>layer<S2SV_blank>temperature<S2SV_blank>" "using<S2SV_blank>QUICK_FLUX<S2SV_blank>option" ) ; } } else { estimate_frost_temperature_and_depth ( tmpT , tmpZ , soil_con -> Zsum_node , energy [ veg ] [ band ] . T , soil_con -> depth , soil_con -> frost_fract , soil_con -> frost_slope , options . Nnode , options . Nlayer ) ; ErrorFlag = estimate_layer_ice_content ( cell [ veg ] [ band ] . layer , tmpT , tmpZ , soil_con -> Zsum_node , soil_con -> depth , soil_con -> max_moist , soil_con -> expt , soil_con -> bubble , options . Nnode , options . Nlayer , soil_con -> FS_ACTIVE ) ; if ( ErrorFlag == ERROR ) { log_err ( "Error<S2SV_blank>calculating<S2SV_blank>layer<S2SV_blank>ice<S2SV_blank>content" ) ; } } } } } } free_3d_double ( tmpTshape , tmpT ) ; free_2d_double ( tmpZshape , tmpZ ) ; }
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<S2SV_ModStart> } } } all_vars ->
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7,356 |
CWE-000 int writeBytes ( void ) { DWORD written ; assert ( byteBufSize <= SIZE_MAX ) ; assert ( byteBufSize < ( DWORD ) - 1 ) ; assert ( byteBufLen < byteBufSize ) ; <S2SV_StartBug> if ( ! WriteFile ( file , byteBuf , byteBufSize - byteBufLen , & written , NULL ) ) <S2SV_EndBug> { return 1 ; } byteBufLen = written ; byteBufPtr = byteBuf ; return 0 ; }
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<S2SV_ModStart> , byteBuf , ( DWORD ) ( <S2SV_ModStart> byteBufSize - byteBufLen )
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7,357 |
CWE-000 int cd_home ( char * * env ) { char * home ; char * cwd ; <S2SV_StartBug> cwd = _getcwd ( ) ; <S2SV_EndBug> _setenv ( "OLDPWD" , cwd , env ) ; free ( cwd ) ; home = _getenv ( "HOME" ) ; chdir ( home ) ; free ( home ) ; <S2SV_StartBug> cwd = _getcwd ( ) ; <S2SV_EndBug> _setenv ( "PWD" , cwd , env ) ; free ( cwd ) ; return ( 0 ) ; }
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<S2SV_ModStart> = _getcwd ( env <S2SV_ModStart> = _getcwd ( env
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7,358 |
CWE-000 struct perf_evsel * perf_evsel__new_cycles ( void ) { struct perf_event_attr attr = { . type = PERF_TYPE_HARDWARE , . config = PERF_COUNT_HW_CPU_CYCLES , <S2SV_StartBug> . exclude_kernel = 1 , <S2SV_EndBug> } ; struct perf_evsel * evsel ; event_attr_init ( & attr ) ; attr . sample_period = 1 ; perf_event_attr__set_max_precise_ip ( & attr ) ; attr . sample_period = 0 ; evsel = perf_evsel__new ( & attr ) ; if ( evsel == NULL ) goto out ; if ( asprintf ( & evsel -> name , "cycles%.*s" , attr . precise_ip ? attr . precise_ip + 1 : 0 , ":ppp" ) < 0 ) goto error_free ; out : return evsel ; error_free : perf_evsel__delete ( evsel ) ; evsel = NULL ; goto out ; }
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<S2SV_ModStart> . exclude_kernel = geteuid ( ) != 0 <S2SV_ModEnd> , } ;
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7,359 |
CWE-000 static void cgemv_kernel_4x4 ( BLASLONG n , FLOAT * * ap , FLOAT * x , FLOAT * y , FLOAT * alpha ) { BLASLONG register i = 0 ; __asm__ __volatile__ ( "vzeroupper\t\t\t<S2SV_blank>\\n\\t" "vxorps\t\t%%ymm8<S2SV_blank>,<S2SV_blank>%%ymm8<S2SV_blank>,<S2SV_blank>%%ymm8<S2SV_blank>\t\\n\\t" "vxorps\t\t%%ymm9<S2SV_blank>,<S2SV_blank>%%ymm9<S2SV_blank>,<S2SV_blank>%%ymm9<S2SV_blank>\t\\n\\t" "vxorps\t\t%%ymm10,<S2SV_blank>%%ymm10,<S2SV_blank>%%ymm10\t\\n\\t" "vxorps\t\t%%ymm11,<S2SV_blank>%%ymm11,<S2SV_blank>%%ymm11\t\\n\\t" "vxorps\t\t%%ymm12,<S2SV_blank>%%ymm12,<S2SV_blank>%%ymm12\t\\n\\t" "vxorps\t\t%%ymm13,<S2SV_blank>%%ymm13,<S2SV_blank>%%ymm13\t\\n\\t" "vxorps\t\t%%ymm14,<S2SV_blank>%%ymm14,<S2SV_blank>%%ymm14\t\\n\\t" "vxorps\t\t%%ymm15,<S2SV_blank>%%ymm15,<S2SV_blank>%%ymm15\t\\n\\t" "testq<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>$0x04,<S2SV_blank>%1<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "jz<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>2f<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vmovups\t(%4,%0,4),<S2SV_blank>%%ymm4\t<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vmovups\t(%5,%0,4),<S2SV_blank>%%ymm5<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vmovups\t<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>(%2,%0,4)<S2SV_blank><S2SV_blank>,<S2SV_blank>%%ymm6\t\t\\n\\t" "vpermilps<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>$0xb1,<S2SV_blank>%%ymm6,<S2SV_blank>%%ymm7\t\t\\n\\t" "vblendps<S2SV_blank>$0x55,<S2SV_blank>%%ymm6,<S2SV_blank>%%ymm7,<S2SV_blank>%%ymm0<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vblendps<S2SV_blank>$0x55,<S2SV_blank>%%ymm7,<S2SV_blank>%%ymm6,<S2SV_blank>%%ymm1<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vmovups\t(%6,%0,4),<S2SV_blank>%%ymm6\t<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vmovups\t(%7,%0,4),<S2SV_blank>%%ymm7<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vfmadd231ps<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>%%ymm4<S2SV_blank>,<S2SV_blank>%%ymm0,<S2SV_blank>%%ymm8<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vfmadd231ps<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>%%ymm4<S2SV_blank>,<S2SV_blank>%%ymm1,<S2SV_blank>%%ymm9<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vfmadd231ps<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>%%ymm5<S2SV_blank>,<S2SV_blank>%%ymm0,<S2SV_blank>%%ymm10<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vfmadd231ps<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>%%ymm5<S2SV_blank>,<S2SV_blank>%%ymm1,<S2SV_blank>%%ymm11<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vfmadd231ps<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>%%ymm6<S2SV_blank>,<S2SV_blank>%%ymm0,<S2SV_blank>%%ymm12<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vfmadd231ps<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>%%ymm6<S2SV_blank>,<S2SV_blank>%%ymm1,<S2SV_blank>%%ymm13<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vfmadd231ps<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>%%ymm7<S2SV_blank>,<S2SV_blank>%%ymm0,<S2SV_blank>%%ymm14<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vfmadd231ps<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>%%ymm7<S2SV_blank>,<S2SV_blank>%%ymm1,<S2SV_blank>%%ymm15<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "addq\t\t$8<S2SV_blank><S2SV_blank>,<S2SV_blank>%0\t<S2SV_blank><S2SV_blank>\t<S2SV_blank>\t<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "subq\t<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>$4<S2SV_blank><S2SV_blank>,<S2SV_blank>%1\t\t\t<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "2:<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "cmpq<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>$0,<S2SV_blank>%1<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "je<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>3f<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" <S2SV_StartBug> ".align<S2SV_blank>16\t\t\t\t<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" <S2SV_EndBug> "1:\t\t\t\t<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "prefetcht0<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>192(%4,%0,4)<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vmovups\t(%4,%0,4),<S2SV_blank>%%ymm4\t<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "prefetcht0<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>192(%5,%0,4)<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vmovups\t(%5,%0,4),<S2SV_blank>%%ymm5<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "prefetcht0<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>192(%2,%0,4)<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vmovups\t<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>(%2,%0,4)<S2SV_blank><S2SV_blank>,<S2SV_blank>%%ymm6\t\t\\n\\t" "vpermilps<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>$0xb1,<S2SV_blank>%%ymm6,<S2SV_blank>%%ymm7\t\t\\n\\t" "vblendps<S2SV_blank>$0x55,<S2SV_blank>%%ymm6,<S2SV_blank>%%ymm7,<S2SV_blank>%%ymm0<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vblendps<S2SV_blank>$0x55,<S2SV_blank>%%ymm7,<S2SV_blank>%%ymm6,<S2SV_blank>%%ymm1<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "prefetcht0<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>192(%6,%0,4)<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vmovups\t(%6,%0,4),<S2SV_blank>%%ymm6\t<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "prefetcht0<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>192(%7,%0,4)<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vmovups\t(%7,%0,4),<S2SV_blank>%%ymm7<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vfmadd231ps<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>%%ymm4<S2SV_blank>,<S2SV_blank>%%ymm0,<S2SV_blank>%%ymm8<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vfmadd231ps<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>%%ymm4<S2SV_blank>,<S2SV_blank>%%ymm1,<S2SV_blank>%%ymm9<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vfmadd231ps<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>%%ymm5<S2SV_blank>,<S2SV_blank>%%ymm0,<S2SV_blank>%%ymm10<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vfmadd231ps<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>%%ymm5<S2SV_blank>,<S2SV_blank>%%ymm1,<S2SV_blank>%%ymm11<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vfmadd231ps<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>%%ymm6<S2SV_blank>,<S2SV_blank>%%ymm0,<S2SV_blank>%%ymm12<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vfmadd231ps<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>%%ymm6<S2SV_blank>,<S2SV_blank>%%ymm1,<S2SV_blank>%%ymm13<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vfmadd231ps<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>%%ymm7<S2SV_blank>,<S2SV_blank>%%ymm0,<S2SV_blank>%%ymm14<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vfmadd231ps<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>%%ymm7<S2SV_blank>,<S2SV_blank>%%ymm1,<S2SV_blank>%%ymm15<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vmovups<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>32(%4,%0,4),<S2SV_blank>%%ymm4\t<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vmovups<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>32(%5,%0,4),<S2SV_blank>%%ymm5<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vmovups\t<S2SV_blank><S2SV_blank>32(%2,%0,4)<S2SV_blank><S2SV_blank>,<S2SV_blank>%%ymm6\t\t\\n\\t" "vpermilps<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>$0xb1,<S2SV_blank>%%ymm6,<S2SV_blank>%%ymm7\t\t\\n\\t" "vblendps<S2SV_blank>$0x55,<S2SV_blank>%%ymm6,<S2SV_blank>%%ymm7,<S2SV_blank>%%ymm0<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vblendps<S2SV_blank>$0x55,<S2SV_blank>%%ymm7,<S2SV_blank>%%ymm6,<S2SV_blank>%%ymm1<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vmovups<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>32(%6,%0,4),<S2SV_blank>%%ymm6\t<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vmovups<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>32(%7,%0,4),<S2SV_blank>%%ymm7<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vfmadd231ps<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>%%ymm4<S2SV_blank>,<S2SV_blank>%%ymm0,<S2SV_blank>%%ymm8<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vfmadd231ps<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>%%ymm4<S2SV_blank>,<S2SV_blank>%%ymm1,<S2SV_blank>%%ymm9<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vfmadd231ps<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>%%ymm5<S2SV_blank>,<S2SV_blank>%%ymm0,<S2SV_blank>%%ymm10<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vfmadd231ps<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>%%ymm5<S2SV_blank>,<S2SV_blank>%%ymm1,<S2SV_blank>%%ymm11<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vfmadd231ps<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>%%ymm6<S2SV_blank>,<S2SV_blank>%%ymm0,<S2SV_blank>%%ymm12<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vfmadd231ps<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>%%ymm6<S2SV_blank>,<S2SV_blank>%%ymm1,<S2SV_blank>%%ymm13<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vfmadd231ps<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>%%ymm7<S2SV_blank>,<S2SV_blank>%%ymm0,<S2SV_blank>%%ymm14<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vfmadd231ps<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>%%ymm7<S2SV_blank>,<S2SV_blank>%%ymm1,<S2SV_blank>%%ymm15<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "addq\t\t$16<S2SV_blank>,<S2SV_blank>%0\t<S2SV_blank><S2SV_blank>\t<S2SV_blank>\t<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "subq\t<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>$8<S2SV_blank><S2SV_blank>,<S2SV_blank>%1\t\t\t<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "jnz\t\t1b\t\t<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "3:<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vbroadcastss<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>(%8)<S2SV_blank><S2SV_blank>,<S2SV_blank>%%xmm0<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vbroadcastss<S2SV_blank><S2SV_blank><S2SV_blank>4(%8)<S2SV_blank><S2SV_blank>,<S2SV_blank>%%xmm1<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" # if ( ! defined ( CONJ ) && ! defined ( XCONJ ) ) || ( defined ( CONJ ) && defined ( XCONJ ) ) "vpermilps<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>$0xb1<S2SV_blank>,<S2SV_blank>%%ymm9<S2SV_blank>,<S2SV_blank>%%ymm9<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vpermilps<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>$0xb1<S2SV_blank>,<S2SV_blank>%%ymm11,<S2SV_blank>%%ymm11<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vpermilps<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>$0xb1<S2SV_blank>,<S2SV_blank>%%ymm13,<S2SV_blank>%%ymm13<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vpermilps<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>$0xb1<S2SV_blank>,<S2SV_blank>%%ymm15,<S2SV_blank>%%ymm15<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vaddsubps<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>%%ymm9<S2SV_blank>,<S2SV_blank>%%ymm8,<S2SV_blank>%%ymm8<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vaddsubps<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>%%ymm11,<S2SV_blank>%%ymm10,<S2SV_blank>%%ymm10<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vaddsubps<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>%%ymm13,<S2SV_blank>%%ymm12,<S2SV_blank>%%ymm12<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vaddsubps<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>%%ymm15,<S2SV_blank>%%ymm14,<S2SV_blank>%%ymm14<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" # else "vpermilps<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>$0xb1<S2SV_blank>,<S2SV_blank>%%ymm8<S2SV_blank>,<S2SV_blank>%%ymm8<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vpermilps<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>$0xb1<S2SV_blank>,<S2SV_blank>%%ymm10,<S2SV_blank>%%ymm10<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vpermilps<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>$0xb1<S2SV_blank>,<S2SV_blank>%%ymm12,<S2SV_blank>%%ymm12<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vpermilps<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>$0xb1<S2SV_blank>,<S2SV_blank>%%ymm14,<S2SV_blank>%%ymm14<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vaddsubps<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>%%ymm8<S2SV_blank>,<S2SV_blank>%%ymm9<S2SV_blank>,<S2SV_blank>%%ymm8<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vaddsubps<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>%%ymm10,<S2SV_blank>%%ymm11,<S2SV_blank>%%ymm10<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vaddsubps<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>%%ymm12,<S2SV_blank>%%ymm13,<S2SV_blank>%%ymm12<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vaddsubps<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>%%ymm14,<S2SV_blank>%%ymm15,<S2SV_blank>%%ymm14<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vpermilps<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>$0xb1<S2SV_blank>,<S2SV_blank>%%ymm8<S2SV_blank>,<S2SV_blank>%%ymm8<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vpermilps<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>$0xb1<S2SV_blank>,<S2SV_blank>%%ymm10,<S2SV_blank>%%ymm10<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vpermilps<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>$0xb1<S2SV_blank>,<S2SV_blank>%%ymm12,<S2SV_blank>%%ymm12<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vpermilps<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>$0xb1<S2SV_blank>,<S2SV_blank>%%ymm14,<S2SV_blank>%%ymm14<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" # endif "vmovsd<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>(%3),<S2SV_blank>%%xmm4\t\t\t\\n\\t" "vmovsd<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>8(%3),<S2SV_blank>%%xmm5\t\t\t\\n\\t" "vmovsd<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>16(%3),<S2SV_blank>%%xmm6\t\t\t\\n\\t" "vmovsd<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>24(%3),<S2SV_blank>%%xmm7\t\t\t\\n\\t" "vextractf128<S2SV_blank><S2SV_blank><S2SV_blank>$1,<S2SV_blank>%%ymm8<S2SV_blank>,<S2SV_blank>%%xmm9\t\t<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vextractf128<S2SV_blank><S2SV_blank><S2SV_blank>$1,<S2SV_blank>%%ymm10,<S2SV_blank>%%xmm11\t<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\t<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vextractf128<S2SV_blank><S2SV_blank><S2SV_blank>$1,<S2SV_blank>%%ymm12,<S2SV_blank>%%xmm13\t\t<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vextractf128<S2SV_blank><S2SV_blank><S2SV_blank>$1,<S2SV_blank>%%ymm14,<S2SV_blank>%%xmm15\t\t<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vaddps\t\t%%xmm8<S2SV_blank>,<S2SV_blank>%%xmm9<S2SV_blank>,<S2SV_blank>%%xmm8<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vaddps\t\t%%xmm10,<S2SV_blank>%%xmm11,<S2SV_blank>%%xmm10<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vaddps\t\t%%xmm12,<S2SV_blank>%%xmm13,<S2SV_blank>%%xmm12<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vaddps\t\t%%xmm14,<S2SV_blank>%%xmm15,<S2SV_blank>%%xmm14<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vshufpd<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>$0x1,<S2SV_blank>%%xmm8<S2SV_blank>,<S2SV_blank>%%xmm8<S2SV_blank>,<S2SV_blank>%%xmm9<S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vshufpd<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>$0x1,<S2SV_blank>%%xmm10,<S2SV_blank>%%xmm10,<S2SV_blank>%%xmm11<S2SV_blank><S2SV_blank>\\n\\t" "vshufpd<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>$0x1,<S2SV_blank>%%xmm12,<S2SV_blank>%%xmm12,<S2SV_blank>%%xmm13<S2SV_blank><S2SV_blank>\\n\\t" "vshufpd<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>$0x1,<S2SV_blank>%%xmm14,<S2SV_blank>%%xmm14,<S2SV_blank>%%xmm15<S2SV_blank><S2SV_blank>\\n\\t" "vaddps\t\t%%xmm8<S2SV_blank>,<S2SV_blank>%%xmm9<S2SV_blank>,<S2SV_blank>%%xmm8<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vaddps\t\t%%xmm10,<S2SV_blank>%%xmm11,<S2SV_blank>%%xmm10<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vaddps\t\t%%xmm12,<S2SV_blank>%%xmm13,<S2SV_blank>%%xmm12<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vaddps\t\t%%xmm14,<S2SV_blank>%%xmm15,<S2SV_blank>%%xmm14<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vmulps<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>%%xmm8<S2SV_blank>,<S2SV_blank>%%xmm1<S2SV_blank>,<S2SV_blank>%%xmm9<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vmulps<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>%%xmm8<S2SV_blank>,<S2SV_blank>%%xmm0<S2SV_blank>,<S2SV_blank>%%xmm8<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vmulps<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>%%xmm10,<S2SV_blank>%%xmm1<S2SV_blank>,<S2SV_blank>%%xmm11<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vmulps<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>%%xmm10,<S2SV_blank>%%xmm0<S2SV_blank>,<S2SV_blank>%%xmm10<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vmulps<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>%%xmm12,<S2SV_blank>%%xmm1<S2SV_blank>,<S2SV_blank>%%xmm13<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vmulps<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>%%xmm12,<S2SV_blank>%%xmm0<S2SV_blank>,<S2SV_blank>%%xmm12<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vmulps<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>%%xmm14,<S2SV_blank>%%xmm1<S2SV_blank>,<S2SV_blank>%%xmm15<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vmulps<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>%%xmm14,<S2SV_blank>%%xmm0<S2SV_blank>,<S2SV_blank>%%xmm14<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" # if ! defined ( XCONJ ) "vpermilps<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>$0xb1<S2SV_blank>,<S2SV_blank>%%xmm9<S2SV_blank>,<S2SV_blank>%%xmm9<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vpermilps<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>$0xb1<S2SV_blank>,<S2SV_blank>%%xmm11,<S2SV_blank>%%xmm11<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vpermilps<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>$0xb1<S2SV_blank>,<S2SV_blank>%%xmm13,<S2SV_blank>%%xmm13<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vpermilps<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>$0xb1<S2SV_blank>,<S2SV_blank>%%xmm15,<S2SV_blank>%%xmm15<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vaddsubps<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>%%xmm9<S2SV_blank>,<S2SV_blank>%%xmm8,<S2SV_blank>%%xmm8<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vaddsubps<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>%%xmm11,<S2SV_blank>%%xmm10,<S2SV_blank>%%xmm10<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vaddsubps<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>%%xmm13,<S2SV_blank>%%xmm12,<S2SV_blank>%%xmm12<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vaddsubps<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>%%xmm15,<S2SV_blank>%%xmm14,<S2SV_blank>%%xmm14<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" # else "vpermilps<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>$0xb1<S2SV_blank>,<S2SV_blank>%%xmm8<S2SV_blank>,<S2SV_blank>%%xmm8<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vpermilps<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>$0xb1<S2SV_blank>,<S2SV_blank>%%xmm10,<S2SV_blank>%%xmm10<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vpermilps<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>$0xb1<S2SV_blank>,<S2SV_blank>%%xmm12,<S2SV_blank>%%xmm12<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vpermilps<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>$0xb1<S2SV_blank>,<S2SV_blank>%%xmm14,<S2SV_blank>%%xmm14<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vaddsubps<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>%%xmm8<S2SV_blank>,<S2SV_blank>%%xmm9<S2SV_blank>,<S2SV_blank>%%xmm8<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vaddsubps<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>%%xmm10,<S2SV_blank>%%xmm11,<S2SV_blank>%%xmm10<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vaddsubps<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>%%xmm12,<S2SV_blank>%%xmm13,<S2SV_blank>%%xmm12<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vaddsubps<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>%%xmm14,<S2SV_blank>%%xmm15,<S2SV_blank>%%xmm14<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vpermilps<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>$0xb1<S2SV_blank>,<S2SV_blank>%%xmm8<S2SV_blank>,<S2SV_blank>%%xmm8<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vpermilps<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>$0xb1<S2SV_blank>,<S2SV_blank>%%xmm10,<S2SV_blank>%%xmm10<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vpermilps<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>$0xb1<S2SV_blank>,<S2SV_blank>%%xmm12,<S2SV_blank>%%xmm12<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vpermilps<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>$0xb1<S2SV_blank>,<S2SV_blank>%%xmm14,<S2SV_blank>%%xmm14<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" # endif "vaddps\t\t%%xmm8<S2SV_blank>,<S2SV_blank>%%xmm4<S2SV_blank>,<S2SV_blank>%%xmm8<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vaddps\t\t%%xmm10,<S2SV_blank>%%xmm5<S2SV_blank>,<S2SV_blank>%%xmm10<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vaddps\t\t%%xmm12,<S2SV_blank>%%xmm6<S2SV_blank>,<S2SV_blank>%%xmm12<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vaddps\t\t%%xmm14,<S2SV_blank>%%xmm7<S2SV_blank>,<S2SV_blank>%%xmm14<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vmovsd\t%%xmm8<S2SV_blank>,<S2SV_blank><S2SV_blank><S2SV_blank>(%3)\t\t\t\\n\\t" "vmovsd\t%%xmm10,<S2SV_blank><S2SV_blank>8(%3)\t\t\t\\n\\t" "vmovsd\t%%xmm12,<S2SV_blank>16(%3)\t\t\t\\n\\t" "vmovsd\t%%xmm14,<S2SV_blank>24(%3)\t\t\t\\n\\t" "vzeroupper\t\t\t<S2SV_blank>\\n\\t" : : "r" ( i ) , "r" ( n ) , "r" ( x ) , "r" ( y ) , "r" ( ap [ 0 ] ) , "r" ( ap [ 1 ] ) , "r" ( ap [ 2 ] ) , "r" ( ap [ 3 ] ) , "r" ( alpha ) : "cc" , "%xmm0" , "%xmm1" , "%xmm2" , "%xmm3" , "%xmm4" , "%xmm5" , "%xmm6" , "%xmm7" , "%xmm8" , "%xmm9" , "%xmm10" , "%xmm11" , "%xmm12" , "%xmm13" , "%xmm14" , "%xmm15" , "memory" ) ; }
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<S2SV_ModStart> "2:<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "cmpq<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>$0,<S2SV_blank>%1<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "je<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>3f<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" <S2SV_ModEnd> "1:\t\t\t\t<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "prefetcht0<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>192(%4,%0,4)<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t" "vmovups\t(%4,%0,4),<S2SV_blank>%%ymm4\t<S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank><S2SV_blank>\\n\\t"
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7,360 |
CWE-000 termPo nthEl ( listPo list , integer ix ) { basePo base = C_BASE ( list -> base ) ; <S2SV_StartBug> assert ( ix >= 0 && ix < list -> length && ix + list -> start <= ( base -> max - base -> min ) ) ; <S2SV_EndBug> return base -> els [ list -> start + ix ] ; }
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<S2SV_ModStart> -> start <= <S2SV_ModEnd> base -> max <S2SV_ModStart> base -> max <S2SV_ModEnd> ) ; return
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7,361 |
CWE-000 void spi_init_device ( SPI_TypeDef * spi , bool enable , spi_mode_t mode ) { SPI_HandleTypeDef hspi ; hspi . Instance = spi ; hspi . Init . FirstBit = SPI_FIRSTBIT_MSB ; hspi . Init . BaudRatePrescaler = SPI_BAUDRATEPRESCALER_256 ; hspi . Init . CLKPhase = SPI_PHASE_1EDGE ; hspi . Init . CLKPolarity = SPI_POLARITY_LOW ; hspi . Init . DataSize = SPI_DATASIZE_8BIT ; hspi . Init . Mode = SPI_MODE_MASTER ; hspi . Init . Direction = SPI_DIRECTION_2LINES ; hspi . Init . NSS = SPI_NSS_SOFT ; hspi . Init . CRCCalculation = SPI_CRCCALCULATION_DISABLE ; hspi . Init . TIMode = SPI_TIMODE_DISABLE ; hspi . Init . CRCPolynomial = 1 ; switch ( mode ) { case SPI_FULLDUPLEX : default : <S2SV_StartBug> hspi . Init . Mode = USART_MODE_TX_RX ; <S2SV_EndBug> hspi . Init . Direction = SPI_DIRECTION_2LINES ; break ; } if ( enable ) { HAL_SPI_Init ( & hspi ) ; __HAL_SPI_ENABLE ( & hspi ) ; } else { HAL_SPI_DeInit ( & hspi ) ; __HAL_SPI_DISABLE ( & hspi ) ; } }
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<S2SV_ModStart> . Init . <S2SV_ModEnd> Direction = SPI_DIRECTION_2LINES
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7,362 |
CWE-000 int udpv6_recvmsg ( struct kiocb * iocb , struct sock * sk , struct msghdr * msg , size_t len , int noblock , int flags , int * addr_len ) { struct ipv6_pinfo * np = inet6_sk ( sk ) ; struct inet_sock * inet = inet_sk ( sk ) ; struct sk_buff * skb ; unsigned int ulen , copied ; int peeked ; int err ; <S2SV_StartBug> int is_udplite = IS_UDPLITE ( sk ) ; <S2SV_EndBug> int is_udp4 ; bool slow ; if ( addr_len ) * addr_len = sizeof ( struct sockaddr_in6 ) ; if ( flags & MSG_ERRQUEUE ) return ipv6_recv_error ( sk , msg , len ) ; if ( np -> rxpmtu && np -> rxopt . bits . rxpmtu ) return ipv6_recv_rxpmtu ( sk , msg , len ) ; try_again : skb = __skb_recv_datagram ( sk , flags | ( noblock ? MSG_DONTWAIT : 0 ) , & peeked , & err ) ; if ( ! skb ) goto out ; ulen = skb -> len - sizeof ( struct udphdr ) ; copied = len ; if ( copied > ulen ) copied = ulen ; else if ( copied < ulen ) msg -> msg_flags |= MSG_TRUNC ; is_udp4 = ( skb -> protocol == htons ( ETH_P_IP ) ) ; if ( copied < ulen || UDP_SKB_CB ( skb ) -> partial_cov ) { <S2SV_StartBug> if ( udp_lib_checksum_complete ( skb ) ) <S2SV_EndBug> goto csum_copy_err ; } <S2SV_StartBug> if ( skb_csum_unnecessary ( skb ) ) <S2SV_EndBug> err = skb_copy_datagram_iovec ( skb , sizeof ( struct udphdr ) , msg -> msg_iov , copied ) ; else { err = skb_copy_and_csum_datagram_iovec ( skb , sizeof ( struct udphdr ) , msg -> msg_iov , copied ) ; if ( err == - EINVAL ) goto csum_copy_err ; } if ( err ) goto out_free ; if ( ! peeked ) { if ( is_udp4 ) UDP_INC_STATS_USER ( sock_net ( sk ) , UDP_MIB_INDATAGRAMS , is_udplite ) ; else UDP6_INC_STATS_USER ( sock_net ( sk ) , UDP_MIB_INDATAGRAMS , is_udplite ) ; } sock_recv_ts_and_drops ( msg , sk , skb ) ; if ( msg -> msg_name ) { struct sockaddr_in6 * sin6 ; sin6 = ( struct sockaddr_in6 * ) msg -> msg_name ; sin6 -> sin6_family = AF_INET6 ; sin6 -> sin6_port = udp_hdr ( skb ) -> source ; sin6 -> sin6_flowinfo = 0 ; sin6 -> sin6_scope_id = 0 ; if ( is_udp4 ) ipv6_addr_set_v4mapped ( ip_hdr ( skb ) -> saddr , & sin6 -> sin6_addr ) ; else { ipv6_addr_copy ( & sin6 -> sin6_addr , & ipv6_hdr ( skb ) -> saddr ) ; if ( ipv6_addr_type ( & sin6 -> sin6_addr ) & IPV6_ADDR_LINKLOCAL ) sin6 -> sin6_scope_id = IP6CB ( skb ) -> iif ; } } if ( is_udp4 ) { if ( inet -> cmsg_flags ) ip_cmsg_recv ( msg , skb ) ; } else { if ( np -> rxopt . all ) datagram_recv_ctl ( sk , msg , skb ) ; } err = copied ; if ( flags & MSG_TRUNC ) err = ulen ; out_free : skb_free_datagram_locked ( sk , skb ) ; out : return err ; csum_copy_err : slow = lock_sock_fast ( sk ) ; if ( ! skb_kill_datagram ( sk , skb , flags ) ) { if ( is_udp4 ) UDP_INC_STATS_USER ( sock_net ( sk ) , UDP_MIB_INERRORS , is_udplite ) ; else UDP6_INC_STATS_USER ( sock_net ( sk ) , UDP_MIB_INERRORS , is_udplite ) ; } unlock_sock_fast ( sk , slow ) ; cond_resched ( ) ; msg -> msg_flags &= ~ MSG_TRUNC ; goto try_again ; }
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<S2SV_ModStart> ( sk ) ; bool checksum_valid = false <S2SV_ModStart> partial_cov ) { checksum_valid = ! <S2SV_ModEnd> udp_lib_checksum_complete ( skb <S2SV_ModStart> ( skb ) ; if ( ! checksum_valid <S2SV_ModStart> } if ( checksum_valid ||
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7,363 |
CWE-000 int check_message ( uint16_t COMMAND_ID ) { <S2SV_StartBug> if ( current_messages . command_ack . command = COMMAND_ID && <S2SV_EndBug> <S2SV_StartBug> current_messages . command_ack . result == MAV_RESULT_ACCEPTED ) { <S2SV_EndBug> return 1 ; } else { return 0 ; } }
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<S2SV_ModStart> { if ( ( <S2SV_ModStart> command = COMMAND_ID ) && ( <S2SV_ModEnd> current_messages . command_ack <S2SV_ModStart> result == MAV_RESULT_ACCEPTED )
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7,364 |
CWE-000 uint32_t driGLFormatToImageFormat ( mesa_format format ) { switch ( format ) { case MESA_FORMAT_B5G6R5_UNORM : <S2SV_StartBug> return __DRI_IMAGE_FORMAT_RGB565 ; <S2SV_EndBug> case MESA_FORMAT_B8G8R8X8_UNORM : return __DRI_IMAGE_FORMAT_XRGB8888 ; case MESA_FORMAT_B10G10R10A2_UNORM : return __DRI_IMAGE_FORMAT_ARGB2101010 ; case MESA_FORMAT_B10G10R10X2_UNORM : return __DRI_IMAGE_FORMAT_XRGB2101010 ; case MESA_FORMAT_B8G8R8A8_UNORM : return __DRI_IMAGE_FORMAT_ARGB8888 ; case MESA_FORMAT_R8G8B8A8_UNORM : return __DRI_IMAGE_FORMAT_ABGR8888 ; case MESA_FORMAT_R8G8B8X8_UNORM : return __DRI_IMAGE_FORMAT_XBGR8888 ; case MESA_FORMAT_L_UNORM8 : case MESA_FORMAT_R_UNORM8 : return __DRI_IMAGE_FORMAT_R8 ; case MESA_FORMAT_L8A8_UNORM : case MESA_FORMAT_R8G8_UNORM : return __DRI_IMAGE_FORMAT_GR88 ; case MESA_FORMAT_NONE : return __DRI_IMAGE_FORMAT_NONE ; case MESA_FORMAT_B8G8R8A8_SRGB : return __DRI_IMAGE_FORMAT_SARGB8 ; default : return 0 ; } }
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<S2SV_ModStart> : return __DRI_IMAGE_FORMAT_RGB565 ; case MESA_FORMAT_B5G5R5A1_UNORM : return __DRI_IMAGE_FORMAT_ARGB1555
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7,365 |
CWE-000 uint8_t muart_read ( void ) { <S2SV_StartBug> while ( ! ( _muart -> lsr & MUART_HAS_DATA ) ) ; <S2SV_EndBug> return _muart -> io ; }
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<S2SV_ModStart> { while ( <S2SV_ModEnd> _muart -> lsr <S2SV_ModStart> lsr & MUART_HAS_DATA <S2SV_ModEnd> ) ; return
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7,366 |
CWE-000 void displayContextMenu ( int menuID ) { int ret ; if ( menuID == GAMEMENU ) { char * items [ ] = { "Add<S2SV_blank>Game" , "Rename<S2SV_blank>Game" , "Delete<S2SV_blank>Game" , "Cancel" } ; ret = displayPromptMenu ( items , 4 , "Game<S2SV_blank>Options" ) ; if ( ret == 0 ) cheatsAddGame ( ) ; else if ( ret == 1 ) cheatsRenameGame ( ) ; else if ( ret == 2 ) { char * items2 [ ] = { "Yes" , "No" } ; int choice = displayPromptMenu ( items2 , 2 , "Are<S2SV_blank>you<S2SV_blank>sure<S2SV_blank>you<S2SV_blank>want<S2SV_blank>to<S2SV_blank>delete<S2SV_blank>the<S2SV_blank>game?" ) ; if ( choice == 0 ) cheatsDeleteGame ( ) ; } } else if ( menuID == CHEATMENU ) { char * items [ ] = { "Add<S2SV_blank>Cheat" , "Rename<S2SV_blank>Cheat" , "Edit<S2SV_blank>Code<S2SV_blank>Lines" , "Delete<S2SV_blank>Cheat" , "Cancel" } ; ret = displayPromptMenu ( items , 5 , "Cheat<S2SV_blank>Options" ) ; <S2SV_StartBug> } <S2SV_EndBug> else if ( menuID == CODEMENU ) { char * items [ ] = { "Add<S2SV_blank>Line" , "Edit<S2SV_blank>Line" , "Delete<S2SV_blank>Line" , "Cancel" } ; ret = displayPromptMenu ( items , 4 , "Code<S2SV_blank>Options" ) ; } else if ( menuID == BOOTMENU ) { char * items [ ] = { "Add<S2SV_blank>Path" , "Edit<S2SV_blank>Path" , "Cancel" } ; ret = displayPromptMenu ( items , 3 , "Boot<S2SV_blank>Options" ) ; } }
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<S2SV_ModStart> "Cheat<S2SV_blank>Options" ) ; if ( ret == 0 ) cheatsAddCheat ( ) ; else if ( ret == 1 ) cheatsRenameCheat ( ) ; else if ( ret == 3 ) { char * items2 [ ] = { "Yes" , "No" } ; int choice = displayPromptMenu ( items2 , 2 , "Are<S2SV_blank>you<S2SV_blank>sure<S2SV_blank>you<S2SV_blank>want<S2SV_blank>to<S2SV_blank>delete<S2SV_blank>the<S2SV_blank>cheat?" ) ; if ( choice == 0 ) cheatsDeleteGame ( ) ; }
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7,367 |
CWE-000 void execute_instr ( struct vm * vm , struct instruction c ) { if ( vm -> debug ) { fprintf ( vm -> f , "><S2SV_blank>%3zu:<S2SV_blank>" , vm -> ip ) ; print_instruction ( vm -> f , c ) ; fputc ( '\\n' , vm -> f ) ; } switch ( c . type ) { case INSTR_MOVC : REG ( c . d . bc . b ) = vm -> ct -> val [ c . d . bc . c ] ; break ; case INSTR_MOV : REG ( c . d . bc . b ) = REG ( c . d . bc . c ) ; break ; case INSTR_JMP : <S2SV_StartBug> vm -> ip = c . d . a ; <S2SV_EndBug> break ; case INSTR_PUSH : push ( vm , REG ( c . d . a ) ) ; break ; case INSTR_POP : REG ( c . d . a ) = pop ( vm ) ; break ; case INSTR_CALL : <S2SV_StartBug> call ( vm , c . d . a - 1 ) ; <S2SV_EndBug> break ; case INSTR_RET : ret ( vm ) ; break ; case INSTR_PRINT : print_value ( vm -> f , vm -> gc , vm -> frame [ vm -> fp ] [ c . d . a ] ) ; if ( vm -> debug ) fputs ( "\\n" , vm -> f ) ; break ; case INSTR_LINE : if ( ! vm -> debug ) fputc ( '\\n' , vm -> f ) ; break ; case INSTR_ADD : REG ( c . d . efg . e ) = add_values ( vm -> gc , REG ( c . d . efg . f ) , REG ( c . d . efg . g ) ) ; break ; case INSTR_MUL : REG ( c . d . efg . e ) = mul_values ( vm -> gc , REG ( c . d . efg . f ) , REG ( c . d . efg . g ) ) ; break ; case INSTR_DIV : REG ( c . d . efg . e ) = div_values ( vm -> gc , REG ( c . d . efg . f ) , REG ( c . d . efg . g ) ) ; break ; case INSTR_SUB : REG ( c . d . efg . e ) = sub_values ( vm -> gc , REG ( c . d . efg . f ) , REG ( c . d . efg . g ) ) ; break ; default : DOUT ( "unimplemented<S2SV_blank>instruction<S2SV_blank>%d<S2SV_blank>(%s)" , c . type , instruction_data [ c . type ] . name ) ; assert ( false ) ; } }
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<S2SV_ModStart> -> ip = <S2SV_ModEnd> c . d <S2SV_ModStart> a - 1 ; break ; case INSTR_PUSH : push ( vm , REG ( c . d . a ) ) ; break ; case INSTR_POP : REG ( c . d . a ) = pop ( vm ) ; break ; case INSTR_CALL : call ( vm , c . d . a - 1
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7,368 |
CWE-000 static inline void reg_readn ( uint8_t addr , int n , uint8_t * buffer ) { command_send ( NRF_R_REGISTER_C | ( addr & 0x1F ) ) ; uint8_t status = ssi_recv ( ) ; while ( n -- > 0 ) { * ( buffer ++ ) = ssi_recv ( ) ; } <S2SV_StartBug> } <S2SV_EndBug>
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<S2SV_ModStart> ) ; } command_done ( ) ;
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7,369 |
CWE-000 static void rswap_frontswap_invalidate_page ( unsigned type , pgoff_t offset ) { struct rswap_page * rpage ; # ifdef USE_PFA if ( current == pfa_get_tsk ( ) ) return ; # endif <S2SV_StartBug> rpage = rhashtable_lookup_fast ( & page_ht , & offset , htparams ) ; <S2SV_EndBug> # ifdef RSWAP_DEBUG if ( unlikely ( ! rpage ) ) { pr_err ( "invalidate:<S2SV_blank>did<S2SV_blank>not<S2SV_blank>find<S2SV_blank>page\\n" ) ; return ; } # endif if ( unlikely ( rhashtable_remove_fast ( & page_ht , & ( rpage -> ht_node ) , htparams ) ) ) pr_err ( "invalidate:<S2SV_blank>couldn\'t<S2SV_blank>remove<S2SV_blank>rpage<S2SV_blank>from<S2SV_blank>page_ht\\n" ) ; put_free_rpage ( rpage ) ; atomic_dec ( & debug_curr_rpages ) ; debug_invalidated_rpages ++ ; }
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<S2SV_ModStart> htparams ) ; # ifdef USE_PFA if ( ! rpage ) return ; # endif
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7,370 |
CWE-000 int nm_platform_ip4_route_cmp ( const NMPlatformIP4Route * a , const NMPlatformIP4Route * b , NMPlatformIPRouteCmpType cmp_type ) { NM_CMP_SELF ( a , b ) ; switch ( cmp_type ) { <S2SV_StartBug> case NM_PLATFORM_IP_ROUTE_CMP_TYPE_ID_CACHE : <S2SV_EndBug> NM_CMP_DIRECT_IN4ADDR_SAME_PREFIX ( a -> network , b -> network , MIN ( a -> plen , b -> plen ) ) ; NM_CMP_FIELD ( a , b , plen ) ; NM_CMP_FIELD ( a , b , metric ) ; NM_CMP_FIELD ( a , b , ifindex ) ; break ; case NM_PLATFORM_IP_ROUTE_CMP_TYPE_WEAK_ID : case NM_PLATFORM_IP_ROUTE_CMP_TYPE_ID : NM_CMP_DIRECT_IN4ADDR_SAME_PREFIX ( a -> network , b -> network , MIN ( a -> plen , b -> plen ) ) ; NM_CMP_FIELD ( a , b , plen ) ; NM_CMP_FIELD ( a , b , metric ) ; if ( cmp_type == NM_PLATFORM_IP_ROUTE_CMP_TYPE_ID ) { NM_CMP_FIELD ( a , b , ifindex ) ; NM_CMP_FIELD ( a , b , rt_source ) ; NM_CMP_FIELD ( a , b , scope_inv ) ; NM_CMP_FIELD ( a , b , gateway ) ; NM_CMP_FIELD ( a , b , mss ) ; NM_CMP_FIELD ( a , b , pref_src ) ; NM_CMP_FIELD ( a , b , window ) ; } break ; case NM_PLATFORM_IP_ROUTE_CMP_TYPE_SEMANTICALLY : case NM_PLATFORM_IP_ROUTE_CMP_TYPE_FULL : NM_CMP_FIELD ( a , b , ifindex ) ; if ( cmp_type == NM_PLATFORM_IP_ROUTE_CMP_TYPE_SEMANTICALLY ) NM_CMP_DIRECT_IN4ADDR_SAME_PREFIX ( a -> network , b -> network , MIN ( a -> plen , b -> plen ) ) ; else NM_CMP_FIELD ( a , b , network ) ; NM_CMP_FIELD ( a , b , plen ) ; NM_CMP_FIELD ( a , b , metric ) ; NM_CMP_FIELD ( a , b , gateway ) ; NM_CMP_FIELD ( a , b , rt_source ) ; NM_CMP_FIELD ( a , b , mss ) ; NM_CMP_FIELD ( a , b , scope_inv ) ; NM_CMP_FIELD ( a , b , pref_src ) ; NM_CMP_FIELD_UNSAFE ( a , b , rt_cloned ) ; NM_CMP_FIELD ( a , b , tos ) ; NM_CMP_FIELD_UNSAFE ( a , b , lock_window ) ; NM_CMP_FIELD_UNSAFE ( a , b , lock_cwnd ) ; NM_CMP_FIELD_UNSAFE ( a , b , lock_initcwnd ) ; NM_CMP_FIELD_UNSAFE ( a , b , lock_initrwnd ) ; NM_CMP_FIELD_UNSAFE ( a , b , lock_mtu ) ; NM_CMP_FIELD ( a , b , window ) ; NM_CMP_FIELD ( a , b , cwnd ) ; NM_CMP_FIELD ( a , b , initcwnd ) ; NM_CMP_FIELD ( a , b , initrwnd ) ; NM_CMP_FIELD ( a , b , mtu ) ; break ; } return 0 ; }
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<S2SV_ModStart> ) { case <S2SV_ModEnd> NM_PLATFORM_IP_ROUTE_CMP_TYPE_WEAK_ID : case
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7,371 |
CWE-000 static void zdb_embedded_block ( char * thing ) { blkptr_t bp ; unsigned long long * words = ( void * ) & bp ; <S2SV_StartBug> char buf [ SPA_MAXBLOCKSIZE ] ; <S2SV_EndBug> int err ; bzero ( & bp , sizeof ( bp ) ) ; err = sscanf ( thing , "%llx:%llx:%llx:%llx:%llx:%llx:%llx:%llx:" "%llx:%llx:%llx:%llx:%llx:%llx:%llx:%llx" , words + 0 , words + 1 , words + 2 , words + 3 , words + 4 , words + 5 , words + 6 , words + 7 , words + 8 , words + 9 , words + 10 , words + 11 , words + 12 , words + 13 , words + 14 , words + 15 ) ; if ( err != 16 ) { ( void ) printf ( "invalid<S2SV_blank>input<S2SV_blank>format\\n" ) ; exit ( 1 ) ; } ASSERT3U ( BPE_GET_LSIZE ( & bp ) , <= , SPA_MAXBLOCKSIZE ) ; err = decode_embedded_bp ( & bp , buf , BPE_GET_LSIZE ( & bp ) ) ; if ( err != 0 ) { ( void ) printf ( "decode<S2SV_blank>failed:<S2SV_blank>%u\\n" , err ) ; exit ( 1 ) ; } zdb_dump_block_raw ( buf , BPE_GET_LSIZE ( & bp ) , 0 ) ; <S2SV_StartBug> } <S2SV_EndBug>
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<S2SV_ModStart> bp ; char * buf ; int err ; buf = umem_alloc ( SPA_MAXBLOCKSIZE , UMEM_NOFAIL ) <S2SV_ModEnd> ; bzero ( <S2SV_ModStart> 0 ) ; umem_free ( buf , SPA_MAXBLOCKSIZE ) ;
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7,372 |
CWE-000 static int bootm_open_initrd_uimage ( struct image_data * data ) { int ret ; if ( strcmp ( data -> os_file , data -> initrd_file ) ) { data -> initrd = uimage_open ( data -> initrd_file ) ; if ( ! data -> initrd ) return - EINVAL ; if ( bootm_get_verify_mode ( ) > BOOTM_VERIFY_NONE ) { ret = uimage_verify ( data -> initrd ) ; if ( ret ) { printf ( "Checking<S2SV_blank>data<S2SV_blank>crc<S2SV_blank>failed<S2SV_blank>with<S2SV_blank>%s\\n" , strerror ( - ret ) ) ; <S2SV_StartBug> } <S2SV_EndBug> } uimage_print_contents ( data -> initrd ) ; } else { data -> initrd = data -> os ; } return 0 ; }
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<S2SV_ModStart> ) ) ; return ret ;
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7,373 |
CWE-000 void set_servo ( ) { uint8_t detail = 9 ; <S2SV_StartBug> int8_t bias = get_bias ( ) ; <S2SV_EndBug> if ( bias <= ( detail * 4 ) ) { cnt = 0 ; } else { cnt ++ ; } if ( bias <= ( detail * 4 ) || cnt < cnt_limit ) { if ( bias > ( detail * 4 ) ) { set_servo_angle ( angle ( former_bias ) ) ; } else { set_servo_angle ( angle ( bias ) ) ; } } else { do_this_if_no_line ( ) ; } }
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<S2SV_ModStart> = get_bias ( ) ; printf ( "bias:<S2SV_blank>%4d<S2SV_blank>\\n" , bias
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7,374 |
CWE-000 LOCAL int sysinit ( ) { int i , j ; struct pentry * pptr ; struct sentry * sptr ; struct mblock * mptr ; numproc = 0 ; nextproc = NPROC - 1 ; nextsem = NSEM - 1 ; nextqueue = NPROC ; if ( maxaddr + 1 > ( char * ) HOLESTART ) { memlist . mnext = mptr = ( struct mblock * ) roundmb ( & end ) ; mptr -> mnext = ( struct mblock * ) HOLEEND ; mptr -> mlen = ( int ) truncew ( ( ( unsigned ) HOLESTART - ( unsigned ) & end ) ) ; mptr -> mlen -= 4 ; mptr = ( struct mblock * ) HOLEEND ; mptr -> mnext = 0 ; mptr -> mlen = ( int ) truncew ( ( unsigned ) maxaddr - HOLEEND - NULLSTK ) ; } else { memlist . mnext = mptr = ( struct mblock * ) roundmb ( & end ) ; mptr -> mnext = 0 ; mptr -> mlen = ( int ) truncew ( ( unsigned ) maxaddr - ( int ) & end - NULLSTK ) ; } for ( i = 0 ; i < NPROC ; i ++ ) proctab [ i ] . pstate = PRFREE ; pptr = & proctab [ NULLPROC ] ; pptr -> pstate = PRCURR ; for ( j = 0 ; j < 7 ; j ++ ) pptr -> pname [ j ] = "prnull" [ j ] ; pptr -> plimit = ( WORD ) ( maxaddr + 1 ) - NULLSTK ; pptr -> pbase = ( WORD ) maxaddr - 3 ; pptr -> pesp = pptr -> pbase - 4 ; * ( ( int * ) pptr -> pbase ) = MAGIC ; pptr -> paddr = ( WORD ) nulluser ; pptr -> pargs = 0 ; pptr -> pprio = 0 ; currpid = NULLPROC ; for ( i = 0 ; i < NSEM ; i ++ ) { ( sptr = & semaph [ i ] ) -> sstate = SFREE ; sptr -> sqtail = 1 + ( sptr -> sqhead = newqueue ( ) ) ; } rdytail = 1 + ( rdyhead = newqueue ( ) ) ; # ifdef MEMMARK _mkinit ( ) ; # endif # ifdef RTCLOCK clkinit ( ) ; # endif pci_init ( ) ; mon_init ( ) ; # ifdef NDEVS for ( i = 0 ; i < NDEVS ; i ++ ) { init_dev ( i ) ; } # endif <S2SV_StartBug> return ( OK ) ; <S2SV_EndBug> }
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<S2SV_ModStart> } # endif linit ( ) ;
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7,375 |
CWE-000 static int i915_drop_caches_set ( void * data , u64 val ) { struct drm_i915_private * i915 = data ; int ret = 0 ; DRM_DEBUG ( "Dropping<S2SV_blank>caches:<S2SV_blank>0x%08llx<S2SV_blank>[0x%08llx]\\n" , val , val & DROP_ALL ) ; if ( val & DROP_RESET_ACTIVE && ! intel_engines_are_idle ( i915 ) ) i915_gem_set_wedged ( i915 ) ; if ( val & ( DROP_ACTIVE | DROP_RETIRE | DROP_RESET_SEQNO ) ) { ret = mutex_lock_interruptible ( & i915 -> drm . struct_mutex ) ; if ( ret ) return ret ; if ( val & DROP_ACTIVE ) ret = i915_gem_wait_for_idle ( i915 , I915_WAIT_INTERRUPTIBLE | I915_WAIT_LOCKED , MAX_SCHEDULE_TIMEOUT ) ; <S2SV_StartBug> if ( val & DROP_RESET_SEQNO ) { <S2SV_EndBug> intel_runtime_pm_get ( i915 ) ; ret = i915_gem_set_global_seqno ( & i915 -> drm , 1 ) ; intel_runtime_pm_put ( i915 ) ; } if ( val & DROP_RETIRE ) i915_retire_requests ( i915 ) ; mutex_unlock ( & i915 -> drm . struct_mutex ) ; } if ( val & DROP_RESET_ACTIVE && i915_terminally_wedged ( & i915 -> gpu_error ) ) { i915_handle_error ( i915 , ALL_ENGINES , 0 , NULL ) ; wait_on_bit ( & i915 -> gpu_error . flags , I915_RESET_HANDOFF , TASK_UNINTERRUPTIBLE ) ; } fs_reclaim_acquire ( GFP_KERNEL ) ; if ( val & DROP_BOUND ) i915_gem_shrink ( i915 , LONG_MAX , NULL , I915_SHRINK_BOUND ) ; if ( val & DROP_UNBOUND ) i915_gem_shrink ( i915 , LONG_MAX , NULL , I915_SHRINK_UNBOUND ) ; if ( val & DROP_SHRINK_ALL ) i915_gem_shrink_all ( i915 ) ; fs_reclaim_release ( GFP_KERNEL ) ; if ( val & DROP_IDLE ) { do { if ( READ_ONCE ( i915 -> gt . active_requests ) ) flush_delayed_work ( & i915 -> gt . retire_work ) ; drain_delayed_work ( & i915 -> gt . idle_work ) ; } while ( READ_ONCE ( i915 -> gt . awake ) ) ; } if ( val & DROP_FREED ) i915_gem_drain_freed_objects ( i915 ) ; return ret ; }
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<S2SV_ModStart> ; if ( ret == 0 &&
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7,376 |
CWE-000 int nsvg__parseXML ( char * input , void ( * startelCb ) ( void * ud , const char * el , const char * * attr ) , void ( * endelCb ) ( void * ud , const char * el ) , void ( * contentCb ) ( void * ud , char * s ) , void * ud ) { char * s = input ; char * mark = s ; int state = NSVG_XML_CONTENT ; while ( * s ) { if ( * s == '<' && state == NSVG_XML_CONTENT ) { if ( strncmp ( s , "<![CDATA[" , 9 ) == 0 ) { s += 9 ; char * rv = strstr ( s , "]]>" ) ; if ( rv ) s = rv + 3 ; continue ; } * s ++ = '\\0' ; nsvg__parseContent ( mark , contentCb , ud ) ; mark = s ; state = NSVG_XML_TAG ; } else if ( * s == '>' && state == NSVG_XML_TAG ) { * s ++ = '\\0' ; <S2SV_StartBug> nsvg__parseElement ( mark , startelCb , endelCb , ud ) ; <S2SV_EndBug> mark = s ; state = NSVG_XML_CONTENT ; } else { s ++ ; } } return 1 ; }
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<S2SV_ModStart> = '\\0' ; nsvg__parseContent ( mark , contentCb , ud ) ;
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7,377 |
CWE-000 static unsigned int find_num ( char a ) { <S2SV_StartBug> unsigned int i ; <S2SV_EndBug> const char st [ ] = "ABCDEFGHIJKLMNOPQRSTUVWXYZ" "abcdefghijklmnopqrstuvwxyz0123456789+/" ; i = 0 ; if ( a == '=' ) return ( 0 ) ; while ( a != st [ i ] ) i ++ ; return ( i ) ; }
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<S2SV_ModStart> unsigned int i <S2SV_ModEnd> ; i =
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7,378 |
CWE-000 int compstr ( ListEntry * p , ListEntry * q ) { if ( ! p || ! q ) return 0 ; char * str1 , * str2 ; str1 = p -> key ; str2 = q -> key ; while ( * str1 != '\\0' && * str2 != '\\0' ) { if ( * str1 > * str2 ) <S2SV_StartBug> return 1 ; <S2SV_EndBug> else if ( * str1 < * str2 ) <S2SV_StartBug> return 0 ; <S2SV_EndBug> else { ++ str1 ; ++ str2 ; } } <S2SV_StartBug> return 1 ; <S2SV_EndBug> }
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<S2SV_ModStart> * str2 ) { <S2SV_ModStart> return 1 ; } <S2SV_ModStart> * str2 ) { <S2SV_ModStart> return 0 ; } <S2SV_ModStart> } } return strlen ( p -> key ) - strlen ( q -> key ) > 0 ? 0 :
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7,379 |
CWE-000 static MI_Result InvokeMethod ( _In_ NativeResourceProvider * resourceProvider , const _In_z_ MI_Char * methodName , const _In_ MI_Instance * inputResource , _Outptr_result_maybenull_ MI_Instance * * outputResource , _Outptr_result_maybenull_ MI_Instance * * extendedError ) { if ( outputResource == NULL ) return MI_RESULT_INVALID_PARAMETER ; * outputResource = NULL ; if ( extendedError == NULL ) return MI_RESULT_INVALID_PARAMETER ; * extendedError = NULL ; MI_Result returnValue = MI_RESULT_OK ; MI_Instance * methodInputResourceCopy = NULL ; MI_Instance * inputResourceInstance = NULL ; MI_Context * resourceProviderMiContext = ( MI_Context * ) resourceProvider ; DSC_EventInvokingNativeResourceMethod ( methodName , inputResource -> classDecl -> name , resourceProvider -> resourceProviderPath ) ; resourceProviderMiContext -> ft -> NewInstance ( resourceProviderMiContext , resourceProvider -> _private . resourceClassDecl , & methodInputResourceCopy ) ; EH_CheckResult ( returnValue ) ; MI_Uint32 elementCount ; returnValue = MI_Instance_GetElementCount ( inputResource , & elementCount ) ; EH_CheckResult ( returnValue ) ; MI_Uint32 i ; for ( i = 0 ; i < elementCount ; i ++ ) { const MI_Char * propertyName ; MI_Value propertyValue ; MI_Type propertyType ; returnValue = MI_Instance_GetElementAt ( inputResource , i , & propertyName , & propertyValue , & propertyType , 0 ) ; EH_CheckResult ( returnValue ) ; returnValue = MI_Instance_SetElement ( methodInputResourceCopy , propertyName , & propertyValue , propertyType , 0 ) ; EH_CheckResult ( returnValue ) ; } const MI_MethodDecl * methodDecl = NULL ; returnValue = NativeResourceProviderMiModule_GetMethodDecl ( resourceProvider -> _private . resourceClassDecl , methodName , & methodDecl ) ; EH_CheckResult ( returnValue ) ; returnValue = resourceProviderMiContext -> ft -> NewParameters ( resourceProviderMiContext , methodDecl , & inputResourceInstance ) ; EH_CheckResult ( returnValue ) ; MI_Type type ; returnValue = MI_Instance_GetElement ( inputResourceInstance , OMI_BaseResource_Method_InputResource , NULL , & type , NULL , NULL ) ; MI_Value value ; EH_CheckResult ( returnValue ) ; if ( type & MI_ARRAY ) { value . instancea . size = 1 ; value . instancea . data = & methodInputResourceCopy ; } else { value . instance = methodInputResourceCopy ; } returnValue = MI_Instance_SetElement ( inputResourceInstance , OMI_BaseResource_Method_InputResource , & value , type , 0 ) ; EH_CheckResult ( returnValue ) ; methodDecl -> function ( resourceProvider -> _private . resourceClassDeclSelf , resourceProviderMiContext , NULL , inputResource -> classDecl -> name , methodName , NULL , inputResourceInstance ) ; if ( resourceProvider -> _private . result != MI_RESULT_OK ) { EH_Fail_ ( returnValue = resourceProvider -> _private . result ) ; } if ( resourceProvider -> _private . outputResource == NULL ) { EH_Fail_ ( returnValue = MI_RESULT_NOT_FOUND ) ; } * outputResource = resourceProvider -> _private . outputResource ; resourceProvider -> _private . outputResource = NULL ; returnValue = MI_RESULT_OK ; <S2SV_StartBug> EH_UNWIND : <S2SV_EndBug> if ( inputResourceInstance != NULL ) MI_Instance_Delete ( inputResourceInstance ) ; if ( methodInputResourceCopy != NULL ) MI_Instance_Delete ( methodInputResourceCopy ) ; return returnValue ; }
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<S2SV_ModStart> MI_RESULT_OK ; EH_UNWIND ; <S2SV_ModEnd> if ( inputResourceInstance
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7,380 |
CWE-000 void bz_comp ( int npoints , int xcol [ MAX_BOZORTH_MINUTIAE ] , int ycol [ MAX_BOZORTH_MINUTIAE ] , int thetacol [ MAX_BOZORTH_MINUTIAE ] , int * ncomparisons , int cols [ ] [ COLS_SIZE_2 ] , int * colptrs [ ] ) { int i , j , k ; int b ; int t ; int n ; int l ; int table_index ; int dx ; int dy ; int distance ; int theta_kj ; int beta_j ; int beta_k ; int * c ; c = & cols [ 0 ] [ 0 ] ; table_index = 0 ; for ( k = 0 ; k < npoints - 1 ; k ++ ) { for ( j = k + 1 ; j < npoints ; j ++ ) { if ( thetacol [ j ] > 0 ) { if ( thetacol [ k ] == thetacol [ j ] - 180 ) continue ; } else { if ( thetacol [ k ] == thetacol [ j ] + 180 ) continue ; } dx = xcol [ j ] - xcol [ k ] ; dy = ycol [ j ] - ycol [ k ] ; distance = SQUARED ( dx ) + SQUARED ( dy ) ; if ( distance > SQUARED ( DM ) ) { if ( dx > DM ) break ; else continue ; } if ( dx == 0 ) theta_kj = 90 ; else { double dz ; <S2SV_StartBug> if ( m1_xyt ) <S2SV_EndBug> dz = ( 180.0F / PI_SINGLE ) * atanf ( ( float ) - dy / ( float ) dx ) ; else dz = ( 180.0F / PI_SINGLE ) * atanf ( ( float ) dy / ( float ) dx ) ; if ( dz < 0.0F ) dz -= 0.5F ; else dz += 0.5F ; theta_kj = ( int ) dz ; } beta_k = theta_kj - thetacol [ k ] ; beta_k = IANGLE180 ( beta_k ) ; beta_j = theta_kj - thetacol [ j ] + 180 ; beta_j = IANGLE180 ( beta_j ) ; if ( beta_k < beta_j ) { * c ++ = distance ; * c ++ = beta_k ; * c ++ = beta_j ; * c ++ = k + 1 ; * c ++ = j + 1 ; * c ++ = theta_kj ; } else { * c ++ = distance ; * c ++ = beta_j ; * c ++ = beta_k ; * c ++ = k + 1 ; * c ++ = j + 1 ; * c ++ = theta_kj + 400 ; } b = 0 ; t = table_index + 1 ; l = 1 ; n = - 1 ; while ( t - b > 1 ) { int * midpoint ; l = ( b + t ) / 2 ; midpoint = colptrs [ l - 1 ] ; for ( i = 0 ; i < 3 ; i ++ ) { int dd , ff ; dd = cols [ table_index ] [ i ] ; ff = midpoint [ i ] ; n = SENSE ( dd , ff ) ; if ( n < 0 ) { t = l ; break ; } if ( n > 0 ) { b = l ; break ; } } if ( n == 0 ) { n = 1 ; b = l ; } } if ( n == 1 ) ++ l ; for ( i = table_index ; i >= l ; -- i ) colptrs [ i ] = colptrs [ i - 1 ] ; colptrs [ l - 1 ] = & cols [ table_index ] [ 0 ] ; ++ table_index ; if ( table_index == 19999 ) { # ifndef NOVERBOSE <S2SV_StartBug> if ( verbose_bozorth ) <S2SV_EndBug> printf ( "bz_comp():<S2SV_blank>breaking<S2SV_blank>loop<S2SV_blank>to<S2SV_blank>avoid<S2SV_blank>table<S2SV_blank>overflow\\n" ) ; # endif goto COMP_END ; } } } COMP_END : * ncomparisons = table_index ; }
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<S2SV_ModStart> ; if ( 0 <S2SV_ModEnd> ) dz = <S2SV_ModStart> NOVERBOSE if ( 0 <S2SV_ModEnd> ) printf (
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7,381 |
CWE-000 void removeFromRefList ( char * str ) { <S2SV_StartBug> unsigned int index = findInRefList ( str ) ; <S2SV_EndBug> if ( index == - 1 ) return ; <S2SV_StartBug> for ( unsigned int i = index ; i < size - 1 ; ++ i ) { <S2SV_EndBug> refList [ i ] = refList [ i + 1 ] ; } <S2SV_StartBug> -- size ; <S2SV_EndBug> }
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<S2SV_ModStart> str ) { <S2SV_ModEnd> int index = <S2SV_ModStart> ; for ( <S2SV_ModEnd> int i = <S2SV_ModStart> - 1 ; i ++ <S2SV_ModEnd> ) { refList <S2SV_ModStart> ] ; } size -- <S2SV_ModEnd> ; } <S2SV_null>
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7,382 |
CWE-000 char * readEntireFile ( const char * fileName ) { FILE * file = fopen ( fileName , "rb" ) ; fseek ( file , 0 , SEEK_END ) ; long fileLength = ftell ( file ) ; char * buffer = ( char * ) malloc ( fileLength + 1 ) ; if ( buffer == NULL ) { return NULL ; } <S2SV_StartBug> memset ( buffer , 0 , sizeof ( buffer ) ) ; <S2SV_EndBug> fseek ( file , 0 , SEEK_SET ) ; fread ( buffer , fileLength , 1 , file ) ; <S2SV_StartBug> fclose ( file ) ; <S2SV_EndBug> return buffer ; }
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<S2SV_ModStart> NULL ; } <S2SV_ModEnd> fseek ( file <S2SV_ModStart> file ) ; buffer [ fileLength ] = '\\0' ;
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7,383 |
CWE-000 char * mono_ldstr_utf8 ( MonoImage * image , guint32 idx , MonoError * error ) { const char * str ; size_t len2 ; long written = 0 ; char * as ; GError * gerror = NULL ; error_init ( error ) ; if ( ! mono_verifier_verify_string_signature ( image , idx , error ) ) return NULL ; str = mono_metadata_user_string ( image , idx ) ; len2 = mono_metadata_decode_blob_size ( str , & str ) ; len2 >>= 1 ; <S2SV_StartBug> as = g_utf16_to_utf8 ( ( guint16 * ) str , len2 , NULL , & written , & gerror ) ; <S2SV_EndBug> if ( gerror ) { mono_error_set_argument ( error , "string" , gerror -> message ) ; g_error_free ( gerror ) ; return NULL ; } if ( len2 > written ) { char * as2 = ( char * ) g_malloc0 ( len2 ) ; memcpy ( as2 , as , written ) ; g_free ( as ) ; as = as2 ; } return as ; }
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<S2SV_ModStart> g_utf16_to_utf8 ( ( gunichar2 <S2SV_ModEnd> * ) str
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7,384 |
CWE-000 <S2SV_StartBug> static int <S2SV_EndBug> bmac_output ( struct sk_buff * skb , struct net_device * dev ) { struct bmac_data * bp = netdev_priv ( dev ) ; skb_queue_tail ( bp -> queue , skb ) ; bmac_start ( dev ) ; return NETDEV_TX_OK ; }
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<S2SV_ModStart> <S2SV_null> <S2SV_null> static netdev_tx_t <S2SV_ModEnd> bmac_output ( struct
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7,385 |
CWE-000 void do_down ( bool scroll_only ) { size_t was_column = xplustabs ( ) ; filestruct * was_current = openfile -> current ; size_t leftedge = 0 ; size_t target_column = openfile -> placewewant ; # ifndef NANO_TINY if ( ISSET ( SOFTWRAP ) ) { <S2SV_StartBug> leftedge = ( openfile -> placewewant / editwincols ) * editwincols ; <S2SV_EndBug> target_column = openfile -> placewewant % editwincols ; } # endif if ( go_forward_chunks ( 1 , & openfile -> current , & leftedge ) > 0 ) return ; openfile -> current_x = actual_x ( openfile -> current -> data , leftedge + target_column ) ; openfile -> placewewant = leftedge + target_column ; if ( openfile -> current_y == editwinrows - 1 || scroll_only ) edit_scroll ( DOWNWARD , ( ISSET ( SMOOTH_SCROLL ) || scroll_only ) ? 1 : editwinrows / 2 + 1 ) ; if ( openfile -> current_y < editwinrows - 1 ) { if ( openfile -> current != was_current && line_needs_update ( was_column , 0 ) ) update_line ( openfile -> current -> prev , 0 ) ; if ( line_needs_update ( 0 , xplustabs ( ) ) ) update_line ( openfile -> current , openfile -> current_x ) ; } }
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<S2SV_ModStart> ) ) { size_t realspan = strlenpt ( openfile -> current -> data ) ; if ( openfile -> placewewant < realspan ) realspan = openfile -> placewewant ; leftedge = ( realspan <S2SV_ModEnd> / editwincols )
|
7,386 |
CWE-000 int main ( ) { printf ( "----------<S2SV_blank>START<S2SV_blank>Testing:<S2SV_blank>%s<S2SV_blank>----------\\n" , UNDERTEST ) ; struct gameState gs , testGS ; int seed = rand ( ) % 100 + 1 ; int currentPlayer ; SelectStream ( 2 ) ; PutSeed ( seed ) ; int i = 0 ; int n = 0 ; int x = 0 ; int p = 0 ; int test [ 3 ] ; int quantityTests = sizeof ( test ) / sizeof ( test [ 0 ] ) ; int testNum = 0 ; int aTestFailed [ quantityTests ] ; int deckLocation = 0 ; int card = 0 ; int count = 0 ; for ( testNum = 0 ; testNum < quantityTests ; testNum ++ ) { aTestFailed [ testNum ] = 0 ; } for ( i = 0 ; i < TEST_ITERATIONS ; i ++ ) { for ( n = 0 ; n < sizeof ( struct gameState ) ; n ++ ) { ( ( char * ) & gs ) [ n ] = floor ( Random ( ) * 256 ) ; } gs . whoseTurn = floor ( Random ( ) * MAX_PLAYERS ) ; currentPlayer = gs . whoseTurn ; count = 0 ; for ( p = 0 ; p < MAX_PLAYERS ; p ++ ) { <S2SV_StartBug> gs . deckCount [ p ] = floor ( Random ( ) * MAX_DECK ) ; <S2SV_EndBug> <S2SV_StartBug> gs . handCount [ p ] = floor ( Random ( ) * MAX_HAND ) ; <S2SV_EndBug> <S2SV_StartBug> gs . discardCount [ p ] = floor ( Random ( ) * MAX_DECK ) ; <S2SV_EndBug> for ( deckLocation = 0 ; deckLocation < gs . deckCount [ p ] ; deckLocation ++ ) { if ( p == currentPlayer ) { count ++ ; if ( count % 5 == 0 ) { card = floor ( Random ( ) * 3 + 4 ) ; gs . deck [ currentPlayer ] [ deckLocation ] = card ; } else { card = floor ( Random ( ) * 26 ) ; gs . deck [ currentPlayer ] [ deckLocation ] = card ; } } else { card = floor ( Random ( ) * 26 ) ; gs . deck [ p ] [ deckLocation ] = card ; } } for ( deckLocation = 0 ; deckLocation < gs . discardCount [ p ] ; deckLocation ++ ) { card = floor ( Random ( ) * 26 ) ; gs . discard [ p ] [ deckLocation ] = card ; } for ( deckLocation = 0 ; deckLocation < gs . handCount [ p ] ; deckLocation ++ ) { card = floor ( Random ( ) * 26 ) ; gs . hand [ p ] [ deckLocation ] = card ; } } memcpy ( & testGS , & gs , sizeof ( struct gameState ) ) ; playAdventurer ( & gs ) ; testGS . handCount [ currentPlayer ] = testGS . handCount [ currentPlayer ] + 2 ; int deckSize = testGS . deckCount [ currentPlayer ] ; int discardSize = testGS . discardCount [ currentPlayer ] ; for ( testNum = 0 ; testNum < quantityTests ; testNum ++ ) { switch ( testNum ) { case 0 : test [ testNum ] = my_assert ( gs . handCount [ currentPlayer ] , testGS . handCount [ currentPlayer ] ) ; if ( ! test [ testNum ] ) { aTestFailed [ testNum ] ++ ; } break ; case 1 : test [ testNum ] = my_assert ( ( gs . deckCount [ currentPlayer ] + gs . discardCount [ currentPlayer ] + 2 ) , ( deckSize + discardSize ) ) ; if ( ! test [ testNum ] ) { aTestFailed [ testNum ] ++ ; } break ; case 2 : test [ testNum ] = 1 ; for ( x = 0 ; x < MAX_PLAYERS ; x ++ ) { if ( x == currentPlayer ) continue ; else { test [ 2 ] = test [ 2 ] & my_assert ( gs . handCount [ x ] , testGS . handCount [ x ] ) ; test [ 2 ] = test [ 2 ] & my_assert ( gs . deckCount [ x ] , testGS . deckCount [ x ] ) ; test [ 2 ] = test [ 2 ] & my_assert ( gs . discardCount [ x ] , testGS . discardCount [ x ] ) ; } } if ( ! test [ testNum ] ) { aTestFailed [ testNum ] ++ ; } break ; default : printf ( "NO<S2SV_blank>CASE<S2SV_blank>FOR<S2SV_blank>TEST<S2SV_blank>%d\\n" , testNum ) ; } } } for ( testNum = 0 ; testNum < quantityTests ; testNum ++ ) { if ( aTestFailed [ testNum ] > 0 ) { printf ( "Test<S2SV_blank>%d<S2SV_blank>FAILED<S2SV_blank>%d<S2SV_blank>times.\\n" , testNum , aTestFailed [ testNum ] ) ; } else { printf ( "Test<S2SV_blank>%d<S2SV_blank>PASSED!<S2SV_blank>:D\\n" , testNum ) ; } } printf ( "Executed<S2SV_blank>%d<S2SV_blank>tests<S2SV_blank>%d<S2SV_blank>times.\\n" , quantityTests , TEST_ITERATIONS ) ; printf ( "----------<S2SV_blank>COMPLETED<S2SV_blank>Testing:<S2SV_blank>%s<S2SV_blank>----------\\n\\n\\n" , UNDERTEST ) ; return 0 ; }
|
<S2SV_ModStart> * MAX_DECK ) + 1 <S2SV_ModStart> * MAX_HAND ) + 1 <S2SV_ModStart> * MAX_DECK ) + 1
|
7,387 |
CWE-000 static void _RARSetOperand ( RARVirtualMachine * vm , uint8_t addressingmode , uint32_t value , bool bytemode , uint32_t data ) { <S2SV_StartBug> if ( RARRegisterAddressingMode ( 0 ) <= addressingmode && addressingmode <= RARRegisterAddressingMode ( 7 ) ) { <S2SV_EndBug> if ( bytemode ) data = data & 0xFF ; vm -> registers [ addressingmode % 8 ] = data ; } else if ( RARRegisterIndirectAddressingMode ( 0 ) <= addressingmode && addressingmode <= RARRegisterIndirectAddressingMode ( 7 ) ) { if ( bytemode ) RARVirtualMachineWrite8 ( vm , vm -> registers [ addressingmode % 8 ] , ( uint8_t ) data ) ; else RARVirtualMachineWrite32 ( vm , vm -> registers [ addressingmode % 8 ] , data ) ; } else if ( RARIndexedAbsoluteAddressingMode ( 0 ) <= addressingmode && addressingmode <= RARIndexedAbsoluteAddressingMode ( 7 ) ) { if ( bytemode ) RARVirtualMachineWrite8 ( vm , value + vm -> registers [ addressingmode % 8 ] , ( uint8_t ) data ) ; else RARVirtualMachineWrite32 ( vm , value + vm -> registers [ addressingmode % 8 ] , data ) ; } else if ( addressingmode == RARAbsoluteAddressingMode ) { if ( bytemode ) RARVirtualMachineWrite8 ( vm , value , ( uint8_t ) data ) ; else RARVirtualMachineWrite32 ( vm , value , data ) ; } }
|
<S2SV_ModStart> { if ( <S2SV_ModEnd> addressingmode <= RARRegisterAddressingMode
|
7,388 |
CWE-000 int fmi2_cs_completed_integrator_step ( jmi_ode_problem_t * ode_problem , char * step_event ) { int retval ; <S2SV_StartBug> fmi2Boolean terminate_simulation ; <S2SV_EndBug> fmi2Boolean tmp_step_event ; <S2SV_StartBug> retval = fmi2_completed_integrator_step ( ode_problem -> fmix_me , fmi2False , & tmp_step_event , & terminate_simulation ) ; <S2SV_EndBug> step_event [ 0 ] = ( char ) tmp_step_event ; if ( retval != fmi2OK ) { return - 1 ; } return 0 ; }
|
<S2SV_ModStart> int retval ; jmi_cs_data_t * cs_data = ( jmi_cs_data_t * ) ode_problem -> problem_data ; <S2SV_ModStart> = fmi2_completed_integrator_step ( cs_data <S2SV_ModEnd> -> fmix_me ,
|
7,389 |
CWE-000 static void belle_sip_auth_choose_method ( const char * algo , const char * ask , uint8_t * out , size_t size ) { <S2SV_StartBug> if ( ( algo == NULL ) || ( ! strcmp ( algo , "MD5" ) ) ) { <S2SV_EndBug> bctbx_md5 ( ( const uint8_t * ) ask , strlen ( ask ) , out ) ; <S2SV_StartBug> } else if ( ! strcmp ( algo , "SHA-256" ) ) { <S2SV_EndBug> bctbx_sha256 ( ( const uint8_t * ) ask , strlen ( ask ) , ( uint8_t ) size , out ) ; } }
|
<S2SV_ModStart> || ( ! strcasecmp <S2SV_ModEnd> ( algo , <S2SV_ModStart> if ( ! strcasecmp <S2SV_ModEnd> ( algo ,
|
7,390 |
CWE-000 static ssize_t tpm_write ( struct file * file , const char __user * buf , size_t size , loff_t * off ) { struct file_priv * priv = file -> private_data ; size_t in_size = size ; ssize_t out_size ; if ( atomic_read ( & priv -> data_pending ) != 0 ) return - EBUSY ; if ( in_size > TPM_BUFSIZE ) return - E2BIG ; mutex_lock ( & priv -> buffer_mutex ) ; if ( copy_from_user ( priv -> data_buffer , ( void __user * ) buf , in_size ) ) { mutex_unlock ( & priv -> buffer_mutex ) ; return - EFAULT ; } if ( tpm_try_get_ops ( priv -> chip ) ) { mutex_unlock ( & priv -> buffer_mutex ) ; return - EPIPE ; } out_size = tpm_transmit ( priv -> chip , priv -> data_buffer , sizeof ( priv -> data_buffer ) , 0 ) ; tpm_put_ops ( priv -> chip ) ; if ( out_size < 0 ) { mutex_unlock ( & priv -> buffer_mutex ) ; return out_size ; } atomic_set ( & priv -> data_pending , out_size ) ; mutex_unlock ( & priv -> buffer_mutex ) ; <S2SV_StartBug> mod_timer ( & priv -> user_read_timer , jiffies + ( 60 * HZ ) ) ; <S2SV_EndBug> return in_size ; }
|
<S2SV_ModStart> jiffies + ( 120 <S2SV_ModEnd> * HZ )
|
7,391 |
CWE-000 static bool clnt_dg_freeres ( CLIENT * clnt , xdrproc_t xdr_res , void * res_ptr ) { struct cx_data * cx = CX_DATA ( clnt ) ; struct cu_data * cu = CU_DATA ( cx ) ; XDR * xdrs ; sigset_t mask , newmask ; bool dummy = 0 ; if ( ! xdr_res ) goto out ; xdrs = & ( cu -> cu_outxdrs ) ; sigfillset ( & newmask ) ; thr_sigsetmask ( SIG_SETMASK , & newmask , & mask ) ; <S2SV_StartBug> rpc_dplx_rwc ( clnt , rpc_flag_clear ) ; <S2SV_EndBug> xdrs -> x_op = XDR_FREE ; if ( xdr_res ) dummy = ( * xdr_res ) ( xdrs , res_ptr ) ; thr_sigsetmask ( SIG_SETMASK , & mask , NULL ) ; <S2SV_StartBug> rpc_dplx_rsc ( clnt , RPC_DPLX_FLAG_NONE ) ; <S2SV_EndBug> out : return ( dummy ) ; }
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<S2SV_ModStart> ; rpc_dplx_rwc ( cx -> cx_rec <S2SV_ModEnd> , rpc_flag_clear ) <S2SV_ModStart> ; rpc_dplx_rsc ( cx -> cx_rec <S2SV_ModEnd> , RPC_DPLX_FLAG_NONE )
|
7,392 |
CWE-000 int showvars ( const char * prefix , int on , int off ) { const char * sep ; char * * ep , * * epend ; <S2SV_StartBug> ep = listvars ( on , off , & epend ) ; <S2SV_EndBug> qsort ( ep , epend - ep , sizeof ( char * ) , vpcmp ) ; sep = * prefix ? spcstr : prefix ; for ( ; ep < epend ; ep ++ ) { const char * p ; const char * q ; p = strchrnul ( * ep , '=' ) ; q = nullstr ; if ( * p ) q = single_quote ( ++ p ) ; out1fmt ( "%s%s%.*s%s\\n" , prefix , sep , ( int ) ( p - * ep ) , * ep , q ) ; } return 0 ; }
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<S2SV_ModStart> , & epend , 0
|
7,393 |
CWE-000 int __cpufreq_driver_target ( struct cpufreq_policy * policy , unsigned int target_freq , unsigned int relation ) { int retval = - EINVAL ; unsigned int old_target_freq = target_freq ; if ( cpufreq_disabled ( ) ) return - ENODEV ; if ( target_freq > policy -> max ) target_freq = policy -> max ; if ( target_freq < policy -> min ) target_freq = policy -> min ; pr_debug ( "target<S2SV_blank>for<S2SV_blank>CPU<S2SV_blank>%u:<S2SV_blank>%u<S2SV_blank>kHz,<S2SV_blank>relation<S2SV_blank>%u,<S2SV_blank>requested<S2SV_blank>%u<S2SV_blank>kHz\\n" , policy -> cpu , target_freq , relation , old_target_freq ) ; <S2SV_StartBug> if ( cpufreq_driver -> target ) <S2SV_EndBug> retval = cpufreq_driver -> target ( policy , target_freq , relation ) ; else if ( cpufreq_driver -> target_index ) { struct cpufreq_frequency_table * freq_table ; struct cpufreq_freqs freqs ; bool notify ; int index ; freq_table = cpufreq_frequency_get_table ( policy -> cpu ) ; if ( unlikely ( ! freq_table ) ) { pr_err ( "%s:<S2SV_blank>Unable<S2SV_blank>to<S2SV_blank>find<S2SV_blank>freq_table\\n" , __func__ ) ; goto out ; } retval = cpufreq_frequency_table_target ( policy , freq_table , target_freq , relation , & index ) ; if ( unlikely ( retval ) ) { pr_err ( "%s:<S2SV_blank>Unable<S2SV_blank>to<S2SV_blank>find<S2SV_blank>matching<S2SV_blank>freq\\n" , __func__ ) ; goto out ; } if ( freq_table [ index ] . frequency == policy -> cur ) { retval = 0 ; goto out ; } notify = ! ( cpufreq_driver -> flags & CPUFREQ_ASYNC_NOTIFICATION ) ; if ( notify ) { freqs . old = policy -> cur ; freqs . new = freq_table [ index ] . frequency ; freqs . flags = 0 ; pr_debug ( "%s:<S2SV_blank>cpu:<S2SV_blank>%d,<S2SV_blank>oldfreq:<S2SV_blank>%u,<S2SV_blank>new<S2SV_blank>freq:<S2SV_blank>%u\\n" , __func__ , policy -> cpu , freqs . old , freqs . new ) ; cpufreq_notify_transition ( policy , & freqs , CPUFREQ_PRECHANGE ) ; } retval = cpufreq_driver -> target_index ( policy , index ) ; if ( retval ) pr_err ( "%s:<S2SV_blank>Failed<S2SV_blank>to<S2SV_blank>change<S2SV_blank>cpu<S2SV_blank>frequency:<S2SV_blank>%d\\n" , __func__ , retval ) ; if ( notify ) { if ( retval ) freqs . new = freqs . old ; cpufreq_notify_transition ( policy , & freqs , CPUFREQ_POSTCHANGE ) ; } } out : return retval ; }
|
<S2SV_ModStart> old_target_freq ) ; policy -> restore_freq = policy -> cur ;
|
7,394 |
CWE-000 void json_fw_log ( struct nvme_firmware_log_page * fw_log , const char * devname ) { struct json_object * root ; struct json_object * fwsi ; char fmt [ 21 ] ; char str [ 32 ] ; int i ; root = json_create_object ( ) ; fwsi = json_create_object ( ) ; json_object_add_value_int ( fwsi , "Active<S2SV_blank>Firmware<S2SV_blank>Slot<S2SV_blank>(afi)" , fw_log -> afi ) ; for ( i = 0 ; i < 7 ; i ++ ) { snprintf ( fmt , sizeof ( fmt ) , "Firmware<S2SV_blank>Rev<S2SV_blank>Slot<S2SV_blank>%d" , i ) ; <S2SV_StartBug> snprintf ( str , sizeof ( str ) , "%lu<S2SV_blank>(%s)" , ( uint64_t ) fw_log -> frs [ i ] , <S2SV_EndBug> fw_to_string ( fw_log -> frs [ i ] ) ) ; json_object_add_value_string ( fwsi , fmt , str ) ; } json_object_add_value_object ( root , devname , fwsi ) ; json_print_object ( root , NULL ) ; printf ( "\\n" ) ; }
|
<S2SV_ModStart> str ) , "%" PRIu64 "<S2SV_blank>(%s)" <S2SV_ModEnd> , ( uint64_t
|
7,395 |
CWE-000 void scanFF ( const char * format , char * * s , int * n ) { <S2SV_StartBug> int state = LETTER ; <S2SV_EndBug> while ( * format != 0 ) { switch ( state ) { case LETTER : if ( * format == '%' ) { state = FORMAT ; format ++ ; break ; } char c ; while ( ( c = getchar ( ) ) == * format ) { ; } format ++ ; break ; case FORMAT : if ( * format == 'd' ) { if ( n != NULL ) { int nummber = * n ; n ++ ; putNumber ( nummber ) ; state = LETTER ; format ++ ; break ; } } if ( * format == 's' ) { if ( s != NULL ) { <S2SV_StartBug> char * string = s [ 0 ] ; <S2SV_EndBug> s ++ ; char c ; while ( ( c = getchar ( ) ) != '\\n' ) { * string = c ; string ++ ; } * string = 0 ; state = LETTER ; format ++ ; break ; } } } } return ; }
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<S2SV_ModStart> state = LETTER ; int indexS = 0 <S2SV_ModStart> = s [ indexS ] ; indexS ++ ; char c ; while ( ( c = getchar ( ) ) != '\\n' ) { * string = c ; string ++ ; } * string = 0 <S2SV_ModEnd> ; state =
|
7,396 |
CWE-000 void solve ( char * * exp , int nbrExp , char * precList ) { bool isWrong = false ; Tree expTree ; double result ; for ( int i = 0 ; i < nbrExp ; i ++ ) { isWrong = checkExpression ( exp [ i ] ) ; if ( isWrong ) { printf ( "Expressao<S2SV_blank>incorreta.\\n" ) ; continue ; } expTree = buildTree ( exp [ i ] , precList ) ; if ( DEBUG_MODE ) { printTree ( expTree ) ; printf ( "\\n" ) ; } result = calculate ( expTree ) ; <S2SV_StartBug> } <S2SV_EndBug> return ; }
|
<S2SV_ModStart> expTree ) ; if ( result == ERROR ) { printf ( "Expressao<S2SV_blank>incorreta.\\n" ) ; continue ; } printf ( "%.2f\\n" , result ) ;
|
7,397 |
CWE-000 TSS2_RC get_cap_trans_dump ( TSS2_SYS_CONTEXT * sapi_context , size_t count ) { TSS2_RC rc = TSS2_RC_SUCCESS ; TPMI_YES_NO more_data = 0 ; <S2SV_StartBug> TPMS_CAPABILITY_DATA cap_data = TPMS_CAPABILITY_DATA_STATIC_INIT ; <S2SV_EndBug> TPM2_HANDLE last_handle = TPM2_TRANSIENT_FIRST ; do { g_print ( "requesting<S2SV_blank>%zu<S2SV_blank>handles<S2SV_blank>from<S2SV_blank>TPM\\n" , count ) ; rc = Tss2_Sys_GetCapability ( sapi_context , NULL , TPM2_CAP_HANDLES , last_handle , count , & more_data , & cap_data , NULL ) ; if ( rc != TSS2_RC_SUCCESS ) { return rc ; } if ( cap_data . capability != TPM2_CAP_HANDLES ) { g_error ( "got<S2SV_blank>weird<S2SV_blank>capability:<S2SV_blank>0x%" PRIx32 , cap_data . capability ) ; } g_print ( "got<S2SV_blank>%" PRIu32 "<S2SV_blank>handles<S2SV_blank>from<S2SV_blank>TPM\\n" , cap_data . data . handles . count ) ; size_t i ; for ( i = 0 ; i < cap_data . data . handles . count ; ++ i ) { g_print ( "<S2SV_blank><S2SV_blank>0x%" PRIx32 "\\n" , cap_data . data . handles . handle [ i ] ) ; last_handle = cap_data . data . handles . handle [ i ] + 1 ; } more_data == 1 ? g_print ( "more<S2SV_blank>data\\n" ) : g_print ( "no<S2SV_blank>more<S2SV_blank>data\\n" ) ; } while ( more_data == 1 ) ; return TSS2_RC_SUCCESS ; }
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<S2SV_ModStart> TPMS_CAPABILITY_DATA cap_data = TPMS_CAPABILITY_DATA_ZERO_INIT <S2SV_ModEnd> ; TPM2_HANDLE last_handle
|
7,398 |
CWE-000 static void assert_pdb_file_valid ( const gchar * filename_ , const gchar * pdb ) { GError * error = NULL ; gboolean success ; <S2SV_StartBug> success = pdb_file_validate ( filename_ , & error ) ; <S2SV_EndBug> assert_true ( success , "Error<S2SV_blank>validating<S2SV_blank>patterndb,<S2SV_blank>error=%s\\n>>>\\n%s\\n<<<" , error ? error -> message : "unknown" , pdb ) ; g_clear_error ( & error ) ; }
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<S2SV_ModStart> ; success = pdb_file_validate_in_tests <S2SV_ModEnd> ( filename_ ,
|
7,399 |
CWE-000 PLUGIN_API int XPluginStart ( char * outName , char * outSig , char * outDesc ) { XPLMMenuID plugins_menu ; int menuidx ; sprintf ( outName , "XTouchDownRecorder<S2SV_blank>V4a<S2SV_blank>%s<S2SV_blank>%s" , __DATE__ , __TIME__ ) ; strcpy ( outSig , "cpuwolf.xtouchdownrecorder" ) ; strcpy ( outDesc , "More<S2SV_blank>information<S2SV_blank>https://github.com/cpuwolf" ) ; g_pbuffer = malloc ( MAX_TABLE_ELEMENTS * sizeof ( float ) * MAX_TOUCHDOWN_IDX ) ; if ( ! g_pbuffer ) { XPLMDebugString ( "malloc<S2SV_blank>error!" ) ; return 0 ; } touchdown_vs_table = g_pbuffer + ( TOUCHDOWN_VS_IDX * MAX_TABLE_ELEMENTS ) ; touchdown_g_table = g_pbuffer + ( TOUCHDOWN_G_IDX * MAX_TABLE_ELEMENTS ) ; touchdown_pch_table = g_pbuffer + ( TOUCHDOWN_PCH_IDX * MAX_TABLE_ELEMENTS ) ; touchdown_air_table = ( BOOL * ) ( g_pbuffer + ( TOUCHDOWN_AIR_IDX * MAX_TABLE_ELEMENTS ) ) ; touchdown_elev_table = g_pbuffer + ( TOUCHDOWN_ELEV_IDX * MAX_TABLE_ELEMENTS ) ; touchdown_eng_table = g_pbuffer + ( TOUCHDOWN_ENG_IDX * MAX_TABLE_ELEMENTS ) ; touchdown_agl_table = g_pbuffer + ( TOUCHDOWN_AGL_IDX * MAX_TABLE_ELEMENTS ) ; touchdown_tm_table = g_pbuffer + ( TOUCHDOWN_TM_IDX * MAX_TABLE_ELEMENTS ) ; gearFRef = XPLMFindDataRef ( "sim/flightmodel/forces/fnrml_gear" ) ; gForceRef = XPLMFindDataRef ( "sim/flightmodel2/misc/gforce_normal" ) ; vertSpeedRef = XPLMFindDataRef ( "sim/flightmodel/position/vh_ind_fpm2" ) ; pitchRef = XPLMFindDataRef ( "sim/flightmodel/position/theta" ) ; elevatorRef = XPLMFindDataRef ( "sim/flightmodel2/controls/pitch_ratio" ) ; engRef = XPLMFindDataRef ( "sim/flightmodel2/engines/throttle_used_ratio" ) ; aglRef = XPLMFindDataRef ( "sim/flightmodel/position/y_agl" ) ; tmRef = XPLMFindDataRef ( "sim/time/total_flight_time_sec" ) ; gndSpeedRef = XPLMFindDataRef ( "sim/flightmodel/position/groundspeed" ) ; XPLMEnableFeature ( "XPLM_USE_NATIVE_PATHS" , 1 ) ; XPLMRegisterFlightLoopCallback ( flightcb , - 1 , NULL ) ; XPLMRegisterFlightLoopCallback ( secondcb , 1.0f , NULL ) ; <S2SV_StartBug> ToggleCommand = XPLMCreateCommand ( "cpuwolf/TouchDownRecorder/Toggle" , "Toggle<S2SV_blank>TouchDownRecorder<S2SV_blank>Chart" ) ; <S2SV_EndBug> XPLMRegisterCommandHandler ( ToggleCommand , ToggleCommandHandler , 0 , NULL ) ; plugins_menu = XPLMFindPluginsMenu ( ) ; <S2SV_StartBug> menuidx = XPLMAppendMenuItem ( plugins_menu , "TouchDownRecorder" , NULL , 1 ) ; <S2SV_EndBug> <S2SV_StartBug> tdr_menu = XPLMCreateMenu ( "TouchDownRecorder" , plugins_menu , menuidx , <S2SV_EndBug> menucb , NULL ) ; XPLMAppendMenuItem ( tdr_menu , "Show/Hide" , NULL , 1 ) ; return 1 ; }
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<S2SV_ModStart> = XPLMCreateCommand ( "cpuwolf/XTouchDownRecorder/Toggle" <S2SV_ModEnd> , "Toggle<S2SV_blank>TouchDownRecorder<S2SV_blank>Chart" ) <S2SV_ModStart> ( plugins_menu , "XTouchDownRecorder" <S2SV_ModEnd> , NULL , <S2SV_ModStart> = XPLMCreateMenu ( "XTouchDownRecorder" <S2SV_ModEnd> , plugins_menu ,
|
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