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SD_Card.asm
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SD_Card.asm
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_Config:
;config.h,1 :: void Config() {
;config.h,5 :: trisa = 0b11011111;
MOVLW 223
MOVWF TRISA+0
;config.h,6 :: trisc = 0b11011000;
MOVLW 216
MOVWF TRISC+0
;config.h,7 :: trisd = 0b11111111;
MOVLW 255
MOVWF TRISD+0
;config.h,8 :: trise = 0b11111000;
MOVLW 248
MOVWF TRISE+0
;config.h,9 :: S1=0;S2=0;S3=0;S4=0;S5=0;S6=0;S7=0;S8=0;
BCF PORTC+0, 0
BCF PORTC+0, 2
BCF PORTC+0, 1
BCF PORTA+0, 5
BCF PORTE+0, 0
BCF PORTE+0, 1
BCF PORTE+0, 2
BCF PORTC+0, 5
;config.h,13 :: adcon1 = 0b00001110; cmcon = 0b00000111;
MOVLW 14
MOVWF ADCON1+0
MOVLW 7
MOVWF CMCON+0
;config.h,14 :: osccon=0b01100100; osctune=0;
MOVLW 100
MOVWF OSCCON+0
CLRF OSCTUNE+0
;config.h,20 :: uart1_init(9600);
BSF BAUDCON+0, 3, 0
CLRF SPBRGH+0
MOVLW 103
MOVWF SPBRG+0
BSF TXSTA+0, 2, 0
CALL _UART1_Init+0, 0
;config.h,21 :: delay_ms(100);
MOVLW 130
MOVWF R12, 0
MOVLW 221
MOVWF R13, 0
L_Config0:
DECFSZ R13, 1, 1
BRA L_Config0
DECFSZ R12, 1, 1
BRA L_Config0
NOP
NOP
;config.h,22 :: }
L_end_Config:
RETURN 0
; end of _Config
_M_Check_User:
;sd.h,1 :: void M_Check_User(char *usr, char *pwd) { /*** Verifica autenticidade de um usuário ***/
;sd.h,4 :: unsigned int i, x, flagUser, flagPass, flagPerm, flagPos = 0;
CLRF M_Check_User_flagPos_L0+0
CLRF M_Check_User_flagPos_L0+1
;sd.h,6 :: Mmc_Fat_Assign("USERS.TXT", 0); // Abre o arquivo
MOVLW ?lstr1_SD_Card+0
MOVWF FARG_Mmc_Fat_Assign_name+0
MOVLW hi_addr(?lstr1_SD_Card+0)
MOVWF FARG_Mmc_Fat_Assign_name+1
CLRF FARG_Mmc_Fat_Assign_attrib+0
CALL _Mmc_Fat_Assign+0, 0
;sd.h,7 :: Mmc_Fat_Reset(&size); // Se posiciona no início do arquivo
MOVLW _size+0
MOVWF FARG_Mmc_Fat_Reset_size+0
MOVLW hi_addr(_size+0)
MOVWF FARG_Mmc_Fat_Reset_size+1
CALL _Mmc_Fat_Reset+0, 0
;sd.h,9 :: for(i = 0; i < size; i++) { // Inicia um loop do tamanho do arquivo
CLRF M_Check_User_i_L0+0
CLRF M_Check_User_i_L0+1
L_M_Check_User1:
MOVF _size+1, 0
SUBWF M_Check_User_i_L0+1, 0
BTFSS STATUS+0, 2
GOTO L__M_Check_User67
MOVF _size+0, 0
SUBWF M_Check_User_i_L0+0, 0
L__M_Check_User67:
BTFSC STATUS+0, 0
GOTO L_M_Check_User2
;sd.h,10 :: Mmc_Fat_Read(&character); // Faz a leitura do próximo caracter
MOVLW M_Check_User_character_L0+0
MOVWF FARG_Mmc_Fat_Read_fdata+0
MOVLW hi_addr(M_Check_User_character_L0+0)
MOVWF FARG_Mmc_Fat_Read_fdata+1
CALL _Mmc_Fat_Read+0, 0
;sd.h,12 :: if(character == '[' && flagPos == 0) { // Identifica o início de um registro
MOVF M_Check_User_character_L0+0, 0
XORLW 91
BTFSS STATUS+0, 2
GOTO L_M_Check_User6
MOVLW 0
XORWF M_Check_User_flagPos_L0+1, 0
BTFSS STATUS+0, 2
GOTO L__M_Check_User68
MOVLW 0
XORWF M_Check_User_flagPos_L0+0, 0
L__M_Check_User68:
BTFSS STATUS+0, 2
GOTO L_M_Check_User6
L__M_Check_User64:
;sd.h,13 :: flagPos = 1; // Seta a posição de leitura em usuário
MOVLW 1
MOVWF M_Check_User_flagPos_L0+0
MOVLW 0
MOVWF M_Check_User_flagPos_L0+1
;sd.h,14 :: flagUser = 0; // Zera o contador de caracteres
CLRF M_Check_User_flagUser_L0+0
CLRF M_Check_User_flagUser_L0+1
;sd.h,15 :: }
L_M_Check_User6:
;sd.h,16 :: if(character == '-' && flagPos == 1) { // Identifica o início da senha
MOVF M_Check_User_character_L0+0, 0
XORLW 45
BTFSS STATUS+0, 2
GOTO L_M_Check_User9
MOVLW 0
XORWF M_Check_User_flagPos_L0+1, 0
BTFSS STATUS+0, 2
GOTO L__M_Check_User69
MOVLW 1
XORWF M_Check_User_flagPos_L0+0, 0
L__M_Check_User69:
BTFSS STATUS+0, 2
GOTO L_M_Check_User9
L__M_Check_User63:
;sd.h,18 :: if(flagUser == strlen(usr)) { // Confirma se o tamanho das suas strings coincidem
MOVF FARG_M_Check_User_usr+0, 0
MOVWF FARG_strlen_s+0
MOVF FARG_M_Check_User_usr+1, 0
MOVWF FARG_strlen_s+1
CALL _strlen+0, 0
MOVF M_Check_User_flagUser_L0+1, 0
XORWF R1, 0
BTFSS STATUS+0, 2
GOTO L__M_Check_User70
MOVF R0, 0
XORWF M_Check_User_flagUser_L0+0, 0
L__M_Check_User70:
BTFSS STATUS+0, 2
GOTO L_M_Check_User10
;sd.h,19 :: for(x = 0; x < 21; x++) { // Inicia um loop para conferência da string do usuário
CLRF M_Check_User_x_L0+0
CLRF M_Check_User_x_L0+1
L_M_Check_User11:
MOVLW 0
SUBWF M_Check_User_x_L0+1, 0
BTFSS STATUS+0, 2
GOTO L__M_Check_User71
MOVLW 21
SUBWF M_Check_User_x_L0+0, 0
L__M_Check_User71:
BTFSC STATUS+0, 0
GOTO L_M_Check_User12
;sd.h,20 :: if(user[x] != usr[x]) { // Verifica a desigualdade dos caracteres e finaliza o processo
MOVLW M_Check_User_user_L0+0
ADDWF M_Check_User_x_L0+0, 0
MOVWF FSR0L+0
MOVLW hi_addr(M_Check_User_user_L0+0)
ADDWFC M_Check_User_x_L0+1, 0
MOVWF FSR0L+1
MOVF M_Check_User_x_L0+0, 0
ADDWF FARG_M_Check_User_usr+0, 0
MOVWF FSR2L+0
MOVF M_Check_User_x_L0+1, 0
ADDWFC FARG_M_Check_User_usr+1, 0
MOVWF FSR2L+1
MOVF POSTINC0+0, 0
XORWF POSTINC2+0, 0
BTFSC STATUS+0, 2
GOTO L_M_Check_User14
;sd.h,21 :: uart_write_text("\nERRO: 6"); break; }
MOVLW ?lstr2_SD_Card+0
MOVWF FARG_UART_Write_Text_uart_text+0
MOVLW hi_addr(?lstr2_SD_Card+0)
MOVWF FARG_UART_Write_Text_uart_text+1
CALL _UART_Write_Text+0, 0
GOTO L_M_Check_User12
L_M_Check_User14:
;sd.h,22 :: if(user[x] == '\0') { // Verifica o final da string e avança para a verificação da senha
MOVLW M_Check_User_user_L0+0
ADDWF M_Check_User_x_L0+0, 0
MOVWF FSR0L+0
MOVLW hi_addr(M_Check_User_user_L0+0)
ADDWFC M_Check_User_x_L0+1, 0
MOVWF FSR0L+1
MOVF POSTINC0+0, 0
XORLW 0
BTFSS STATUS+0, 2
GOTO L_M_Check_User15
;sd.h,23 :: flagPos = 2; flagPass = 0; S6 = 0; break; }
MOVLW 2
MOVWF M_Check_User_flagPos_L0+0
MOVLW 0
MOVWF M_Check_User_flagPos_L0+1
CLRF M_Check_User_flagPass_L0+0
CLRF M_Check_User_flagPass_L0+1
BCF PORTE+0, 1
GOTO L_M_Check_User12
L_M_Check_User15:
;sd.h,19 :: for(x = 0; x < 21; x++) { // Inicia um loop para conferência da string do usuário
INFSNZ M_Check_User_x_L0+0, 1
INCF M_Check_User_x_L0+1, 1
;sd.h,24 :: }
GOTO L_M_Check_User11
L_M_Check_User12:
;sd.h,25 :: } else { uart_write_text("\nERRO: 5"); flagPos = 0; }
GOTO L_M_Check_User16
L_M_Check_User10:
MOVLW ?lstr3_SD_Card+0
MOVWF FARG_UART_Write_Text_uart_text+0
MOVLW hi_addr(?lstr3_SD_Card+0)
MOVWF FARG_UART_Write_Text_uart_text+1
CALL _UART_Write_Text+0, 0
CLRF M_Check_User_flagPos_L0+0
CLRF M_Check_User_flagPos_L0+1
L_M_Check_User16:
;sd.h,26 :: }
L_M_Check_User9:
;sd.h,27 :: if(character == '+' && flagPos == 2) { // Identifica o início das permissões
MOVF M_Check_User_character_L0+0, 0
XORLW 43
BTFSS STATUS+0, 2
GOTO L_M_Check_User19
MOVLW 0
XORWF M_Check_User_flagPos_L0+1, 0
BTFSS STATUS+0, 2
GOTO L__M_Check_User72
MOVLW 2
XORWF M_Check_User_flagPos_L0+0, 0
L__M_Check_User72:
BTFSS STATUS+0, 2
GOTO L_M_Check_User19
L__M_Check_User62:
;sd.h,29 :: if(flagPass == strlen(pwd)) { // Confirma se o tamanho das suas strings coincidem
MOVF FARG_M_Check_User_pwd+0, 0
MOVWF FARG_strlen_s+0
MOVF FARG_M_Check_User_pwd+1, 0
MOVWF FARG_strlen_s+1
CALL _strlen+0, 0
MOVF M_Check_User_flagPass_L0+1, 0
XORWF R1, 0
BTFSS STATUS+0, 2
GOTO L__M_Check_User73
MOVF R0, 0
XORWF M_Check_User_flagPass_L0+0, 0
L__M_Check_User73:
BTFSS STATUS+0, 2
GOTO L_M_Check_User20
;sd.h,30 :: for(x = 0; x < 7; x++) { // Inicia um loop para conferência da string da senha
CLRF M_Check_User_x_L0+0
CLRF M_Check_User_x_L0+1
L_M_Check_User21:
MOVLW 0
SUBWF M_Check_User_x_L0+1, 0
BTFSS STATUS+0, 2
GOTO L__M_Check_User74
MOVLW 7
SUBWF M_Check_User_x_L0+0, 0
L__M_Check_User74:
BTFSC STATUS+0, 0
GOTO L_M_Check_User22
;sd.h,31 :: if(pass[x] != pwd[x]) { // Verifica a desigualdade dos caracteres e finaliza o processo
MOVLW M_Check_User_pass_L0+0
ADDWF M_Check_User_x_L0+0, 0
MOVWF FSR0L+0
MOVLW hi_addr(M_Check_User_pass_L0+0)
ADDWFC M_Check_User_x_L0+1, 0
MOVWF FSR0L+1
MOVF M_Check_User_x_L0+0, 0
ADDWF FARG_M_Check_User_pwd+0, 0
MOVWF FSR2L+0
MOVF M_Check_User_x_L0+1, 0
ADDWFC FARG_M_Check_User_pwd+1, 0
MOVWF FSR2L+1
MOVF POSTINC0+0, 0
XORWF POSTINC2+0, 0
BTFSC STATUS+0, 2
GOTO L_M_Check_User24
;sd.h,32 :: uart_write_text("\nERRO: 8"); break; }
MOVLW ?lstr4_SD_Card+0
MOVWF FARG_UART_Write_Text_uart_text+0
MOVLW hi_addr(?lstr4_SD_Card+0)
MOVWF FARG_UART_Write_Text_uart_text+1
CALL _UART_Write_Text+0, 0
GOTO L_M_Check_User22
L_M_Check_User24:
;sd.h,33 :: if(pass[x] == '\0') { // Verifica o final da string e avança para a leitura das permissões
MOVLW M_Check_User_pass_L0+0
ADDWF M_Check_User_x_L0+0, 0
MOVWF FSR0L+0
MOVLW hi_addr(M_Check_User_pass_L0+0)
ADDWFC M_Check_User_x_L0+1, 0
MOVWF FSR0L+1
MOVF POSTINC0+0, 0
XORLW 0
BTFSS STATUS+0, 2
GOTO L_M_Check_User25
;sd.h,34 :: flagPos = 3; flagPerm = 0; S7 = 0; break; }
MOVLW 3
MOVWF M_Check_User_flagPos_L0+0
MOVLW 0
MOVWF M_Check_User_flagPos_L0+1
CLRF M_Check_User_flagPerm_L0+0
CLRF M_Check_User_flagPerm_L0+1
BCF PORTE+0, 2
GOTO L_M_Check_User22
L_M_Check_User25:
;sd.h,30 :: for(x = 0; x < 7; x++) { // Inicia um loop para conferência da string da senha
INFSNZ M_Check_User_x_L0+0, 1
INCF M_Check_User_x_L0+1, 1
;sd.h,35 :: }
GOTO L_M_Check_User21
L_M_Check_User22:
;sd.h,36 :: } else { uart_write_text("\nERRO: 7"); flagPos = 0; }
GOTO L_M_Check_User26
L_M_Check_User20:
MOVLW ?lstr5_SD_Card+0
MOVWF FARG_UART_Write_Text_uart_text+0
MOVLW hi_addr(?lstr5_SD_Card+0)
MOVWF FARG_UART_Write_Text_uart_text+1
CALL _UART_Write_Text+0, 0
CLRF M_Check_User_flagPos_L0+0
CLRF M_Check_User_flagPos_L0+1
L_M_Check_User26:
;sd.h,37 :: }
L_M_Check_User19:
;sd.h,38 :: if(character == ']') { // Identifica o fim de um registro
MOVF M_Check_User_character_L0+0, 0
XORLW 93
BTFSS STATUS+0, 2
GOTO L_M_Check_User27
;sd.h,40 :: if(flagPos == 3) { // Verifica sucesso nas comparações
MOVLW 0
XORWF M_Check_User_flagPos_L0+1, 0
BTFSS STATUS+0, 2
GOTO L__M_Check_User75
MOVLW 3
XORWF M_Check_User_flagPos_L0+0, 0
L__M_Check_User75:
BTFSS STATUS+0, 2
GOTO L_M_Check_User28
;sd.h,42 :: uart_write_text("\nUSUARIO AUTENTICADO: "); // Imprime que um usuário foi autenticado
MOVLW ?lstr6_SD_Card+0
MOVWF FARG_UART_Write_Text_uart_text+0
MOVLW hi_addr(?lstr6_SD_Card+0)
MOVWF FARG_UART_Write_Text_uart_text+1
CALL _UART_Write_Text+0, 0
;sd.h,43 :: for(x = 0; x < 20; x++) {
CLRF M_Check_User_x_L0+0
CLRF M_Check_User_x_L0+1
L_M_Check_User29:
MOVLW 0
SUBWF M_Check_User_x_L0+1, 0
BTFSS STATUS+0, 2
GOTO L__M_Check_User76
MOVLW 20
SUBWF M_Check_User_x_L0+0, 0
L__M_Check_User76:
BTFSC STATUS+0, 0
GOTO L_M_Check_User30
;sd.h,44 :: if(user[x] == '\0')
MOVLW M_Check_User_user_L0+0
ADDWF M_Check_User_x_L0+0, 0
MOVWF FSR0L+0
MOVLW hi_addr(M_Check_User_user_L0+0)
ADDWFC M_Check_User_x_L0+1, 0
MOVWF FSR0L+1
MOVF POSTINC0+0, 0
XORLW 0
BTFSS STATUS+0, 2
GOTO L_M_Check_User32
;sd.h,45 :: break;
GOTO L_M_Check_User30
L_M_Check_User32:
;sd.h,46 :: uart_write(user[x]); // Imprime o nome de usuário do atual registro
MOVLW M_Check_User_user_L0+0
ADDWF M_Check_User_x_L0+0, 0
MOVWF FSR0L+0
MOVLW hi_addr(M_Check_User_user_L0+0)
ADDWFC M_Check_User_x_L0+1, 0
MOVWF FSR0L+1
MOVF POSTINC0+0, 0
MOVWF FARG_UART_Write__data+0
CALL _UART_Write+0, 0
;sd.h,43 :: for(x = 0; x < 20; x++) {
INFSNZ M_Check_User_x_L0+0, 1
INCF M_Check_User_x_L0+1, 1
;sd.h,47 :: }
GOTO L_M_Check_User29
L_M_Check_User30:
;sd.h,48 :: uart_write_text(" - PERMISSOES: ");
MOVLW ?lstr7_SD_Card+0
MOVWF FARG_UART_Write_Text_uart_text+0
MOVLW hi_addr(?lstr7_SD_Card+0)
MOVWF FARG_UART_Write_Text_uart_text+1
CALL _UART_Write_Text+0, 0
;sd.h,49 :: for(x = 0; x < 3; x++) {
CLRF M_Check_User_x_L0+0
CLRF M_Check_User_x_L0+1
L_M_Check_User33:
MOVLW 0
SUBWF M_Check_User_x_L0+1, 0
BTFSS STATUS+0, 2
GOTO L__M_Check_User77
MOVLW 3
SUBWF M_Check_User_x_L0+0, 0
L__M_Check_User77:
BTFSC STATUS+0, 0
GOTO L_M_Check_User34
;sd.h,50 :: if(perm[x] == '\0')
MOVLW M_Check_User_perm_L0+0
ADDWF M_Check_User_x_L0+0, 0
MOVWF FSR0L+0
MOVLW hi_addr(M_Check_User_perm_L0+0)
ADDWFC M_Check_User_x_L0+1, 0
MOVWF FSR0L+1
MOVF POSTINC0+0, 0
XORLW 0
BTFSS STATUS+0, 2
GOTO L_M_Check_User36
;sd.h,51 :: break;
GOTO L_M_Check_User34
L_M_Check_User36:
;sd.h,52 :: uart_write(perm[x]); // Imprime as permissões do atual registro
MOVLW M_Check_User_perm_L0+0
ADDWF M_Check_User_x_L0+0, 0
MOVWF FSR0L+0
MOVLW hi_addr(M_Check_User_perm_L0+0)
ADDWFC M_Check_User_x_L0+1, 0
MOVWF FSR0L+1
MOVF POSTINC0+0, 0
MOVWF FARG_UART_Write__data+0
CALL _UART_Write+0, 0
;sd.h,49 :: for(x = 0; x < 3; x++) {
INFSNZ M_Check_User_x_L0+0, 1
INCF M_Check_User_x_L0+1, 1
;sd.h,53 :: }
GOTO L_M_Check_User33
L_M_Check_User34:
;sd.h,54 :: }
L_M_Check_User28:
;sd.h,56 :: flagPos = 0; // Reseta a posição de leitura
CLRF M_Check_User_flagPos_L0+0
CLRF M_Check_User_flagPos_L0+1
;sd.h,57 :: for(x = 0; x < 20; x++) user[x] = 0; // Reseta o vetor de usuário
CLRF M_Check_User_x_L0+0
CLRF M_Check_User_x_L0+1
L_M_Check_User37:
MOVLW 0
SUBWF M_Check_User_x_L0+1, 0
BTFSS STATUS+0, 2
GOTO L__M_Check_User78
MOVLW 20
SUBWF M_Check_User_x_L0+0, 0
L__M_Check_User78:
BTFSC STATUS+0, 0
GOTO L_M_Check_User38
MOVLW M_Check_User_user_L0+0
ADDWF M_Check_User_x_L0+0, 0
MOVWF FSR1L+0
MOVLW hi_addr(M_Check_User_user_L0+0)
ADDWFC M_Check_User_x_L0+1, 0
MOVWF FSR1L+1
CLRF POSTINC1+0
INFSNZ M_Check_User_x_L0+0, 1
INCF M_Check_User_x_L0+1, 1
GOTO L_M_Check_User37
L_M_Check_User38:
;sd.h,58 :: for(x = 0; x < 6; x++) pass[x] = 0; // Reseta o vetor de senha
CLRF M_Check_User_x_L0+0
CLRF M_Check_User_x_L0+1
L_M_Check_User40:
MOVLW 0
SUBWF M_Check_User_x_L0+1, 0
BTFSS STATUS+0, 2
GOTO L__M_Check_User79
MOVLW 6
SUBWF M_Check_User_x_L0+0, 0
L__M_Check_User79:
BTFSC STATUS+0, 0
GOTO L_M_Check_User41
MOVLW M_Check_User_pass_L0+0
ADDWF M_Check_User_x_L0+0, 0
MOVWF FSR1L+0
MOVLW hi_addr(M_Check_User_pass_L0+0)
ADDWFC M_Check_User_x_L0+1, 0
MOVWF FSR1L+1
CLRF POSTINC1+0
INFSNZ M_Check_User_x_L0+0, 1
INCF M_Check_User_x_L0+1, 1
GOTO L_M_Check_User40
L_M_Check_User41:
;sd.h,59 :: for(x = 0; x < 3; x++) perm[x] = 0; // Reseta o vetor de permissões
CLRF M_Check_User_x_L0+0
CLRF M_Check_User_x_L0+1
L_M_Check_User43:
MOVLW 0
SUBWF M_Check_User_x_L0+1, 0
BTFSS STATUS+0, 2
GOTO L__M_Check_User80
MOVLW 3
SUBWF M_Check_User_x_L0+0, 0
L__M_Check_User80:
BTFSC STATUS+0, 0
GOTO L_M_Check_User44
MOVLW M_Check_User_perm_L0+0
ADDWF M_Check_User_x_L0+0, 0
MOVWF FSR1L+0
MOVLW hi_addr(M_Check_User_perm_L0+0)
ADDWFC M_Check_User_x_L0+1, 0
MOVWF FSR1L+1
CLRF POSTINC1+0
INFSNZ M_Check_User_x_L0+0, 1
INCF M_Check_User_x_L0+1, 1
GOTO L_M_Check_User43
L_M_Check_User44:
;sd.h,60 :: }
L_M_Check_User27:
;sd.h,63 :: if(character != '[' && character != '-' && character != '+' // Identifica caracteres exceto os sinalizadores ([, -, +, ])
MOVF M_Check_User_character_L0+0, 0
XORLW 91
BTFSC STATUS+0, 2
GOTO L_M_Check_User48
MOVF M_Check_User_character_L0+0, 0
XORLW 45
BTFSC STATUS+0, 2
GOTO L_M_Check_User48
MOVF M_Check_User_character_L0+0, 0
XORLW 43
BTFSC STATUS+0, 2
GOTO L_M_Check_User48
;sd.h,64 :: && character != ']') {
MOVF M_Check_User_character_L0+0, 0
XORLW 93
BTFSC STATUS+0, 2
GOTO L_M_Check_User48
L__M_Check_User61:
;sd.h,66 :: if(flagPos == 1) { // Verifica a posição em usuário
MOVLW 0
XORWF M_Check_User_flagPos_L0+1, 0
BTFSS STATUS+0, 2
GOTO L__M_Check_User81
MOVLW 1
XORWF M_Check_User_flagPos_L0+0, 0
L__M_Check_User81:
BTFSS STATUS+0, 2
GOTO L_M_Check_User49
;sd.h,67 :: user[flagUser] = character; // Preenche o vetor com o caracter lido
MOVLW M_Check_User_user_L0+0
ADDWF M_Check_User_flagUser_L0+0, 0
MOVWF FSR1L+0
MOVLW hi_addr(M_Check_User_user_L0+0)
ADDWFC M_Check_User_flagUser_L0+1, 0
MOVWF FSR1L+1
MOVF M_Check_User_character_L0+0, 0
MOVWF POSTINC1+0
;sd.h,68 :: flagUser++; // Incrementa o contador de caracteres
INFSNZ M_Check_User_flagUser_L0+0, 1
INCF M_Check_User_flagUser_L0+1, 1
;sd.h,69 :: }
L_M_Check_User49:
;sd.h,70 :: if(flagPos == 2) { // Verifica a posição em senha
MOVLW 0
XORWF M_Check_User_flagPos_L0+1, 0
BTFSS STATUS+0, 2
GOTO L__M_Check_User82
MOVLW 2
XORWF M_Check_User_flagPos_L0+0, 0
L__M_Check_User82:
BTFSS STATUS+0, 2
GOTO L_M_Check_User50
;sd.h,71 :: pass[flagPass] = character; // Preenche o vetor com o caracter lido
MOVLW M_Check_User_pass_L0+0
ADDWF M_Check_User_flagPass_L0+0, 0
MOVWF FSR1L+0
MOVLW hi_addr(M_Check_User_pass_L0+0)
ADDWFC M_Check_User_flagPass_L0+1, 0
MOVWF FSR1L+1
MOVF M_Check_User_character_L0+0, 0
MOVWF POSTINC1+0
;sd.h,72 :: flagPass++; // Incrementa o contador de caracteres
INFSNZ M_Check_User_flagPass_L0+0, 1
INCF M_Check_User_flagPass_L0+1, 1
;sd.h,73 :: }
L_M_Check_User50:
;sd.h,74 :: if(flagPos == 3) { // Verifica a posição em permissões
MOVLW 0
XORWF M_Check_User_flagPos_L0+1, 0
BTFSS STATUS+0, 2
GOTO L__M_Check_User83
MOVLW 3
XORWF M_Check_User_flagPos_L0+0, 0
L__M_Check_User83:
BTFSS STATUS+0, 2
GOTO L_M_Check_User51
;sd.h,75 :: perm[flagPerm] = character; // Preenche o vetor com o caracter lido
MOVLW M_Check_User_perm_L0+0
ADDWF M_Check_User_flagPerm_L0+0, 0
MOVWF FSR1L+0
MOVLW hi_addr(M_Check_User_perm_L0+0)
ADDWFC M_Check_User_flagPerm_L0+1, 0
MOVWF FSR1L+1
MOVF M_Check_User_character_L0+0, 0
MOVWF POSTINC1+0
;sd.h,76 :: flagPerm++; // Incrementa o contador de caracteres
INFSNZ M_Check_User_flagPerm_L0+0, 1
INCF M_Check_User_flagPerm_L0+1, 1
;sd.h,77 :: }
L_M_Check_User51:
;sd.h,78 :: }
L_M_Check_User48:
;sd.h,9 :: for(i = 0; i < size; i++) { // Inicia um loop do tamanho do arquivo
INFSNZ M_Check_User_i_L0+0, 1
INCF M_Check_User_i_L0+1, 1
;sd.h,79 :: }
GOTO L_M_Check_User1
L_M_Check_User2:
;sd.h,80 :: }
L_end_M_Check_User:
RETURN 0
; end of _M_Check_User
_StartSD:
;sd.h,82 :: void StartSD() {
;sd.h,84 :: SPI1_Init_Advanced(_SPI_MASTER_OSC_DIV64, _SPI_DATA_SAMPLE_MIDDLE, _SPI_CLK_IDLE_LOW, _SPI_LOW_2_HIGH);
MOVLW 2
MOVWF FARG_SPI1_Init_Advanced_master+0
CLRF FARG_SPI1_Init_Advanced_data_sample+0
CLRF FARG_SPI1_Init_Advanced_clock_idle+0
MOVLW 1
MOVWF FARG_SPI1_Init_Advanced_transmit_edge+0
CALL _SPI1_Init_Advanced+0, 0
;sd.h,86 :: if (Mmc_Fat_Init() == 0) {
CALL _Mmc_Fat_Init+0, 0
MOVF R0, 0
XORLW 0
BTFSS STATUS+0, 2
GOTO L_StartSD52
;sd.h,88 :: SPI1_Init_Advanced(_SPI_MASTER_OSC_DIV4, _SPI_DATA_SAMPLE_MIDDLE, _SPI_CLK_IDLE_LOW, _SPI_LOW_2_HIGH);
CLRF FARG_SPI1_Init_Advanced_master+0
CLRF FARG_SPI1_Init_Advanced_data_sample+0
CLRF FARG_SPI1_Init_Advanced_clock_idle+0
MOVLW 1
MOVWF FARG_SPI1_Init_Advanced_transmit_edge+0
CALL _SPI1_Init_Advanced+0, 0
;sd.h,89 :: delay_ms(1000);
MOVLW 6
MOVWF R11, 0
MOVLW 19
MOVWF R12, 0
MOVLW 173
MOVWF R13, 0
L_StartSD53:
DECFSZ R13, 1, 1
BRA L_StartSD53
DECFSZ R12, 1, 1
BRA L_StartSD53
DECFSZ R11, 1, 1
BRA L_StartSD53
NOP
NOP
;sd.h,92 :: M_Check_User("admin", "654321");
MOVLW ?lstr8_SD_Card+0
MOVWF FARG_M_Check_User_usr+0
MOVLW hi_addr(?lstr8_SD_Card+0)
MOVWF FARG_M_Check_User_usr+1
MOVLW ?lstr9_SD_Card+0
MOVWF FARG_M_Check_User_pwd+0
MOVLW hi_addr(?lstr9_SD_Card+0)
MOVWF FARG_M_Check_User_pwd+1
CALL _M_Check_User+0, 0
;sd.h,93 :: S2=0;
BCF PORTC+0, 2
;sd.h,94 :: } else {
GOTO L_StartSD54
L_StartSD52:
;sd.h,95 :: S3=0;
BCF PORTC+0, 1
;sd.h,96 :: }
L_StartSD54:
;sd.h,97 :: delay_ms(2500);
MOVLW 13
MOVWF R11, 0
MOVLW 175
MOVWF R12, 0
MOVLW 182
MOVWF R13, 0
L_StartSD55:
DECFSZ R13, 1, 1
BRA L_StartSD55
DECFSZ R12, 1, 1
BRA L_StartSD55
DECFSZ R11, 1, 1
BRA L_StartSD55
NOP
;sd.h,98 :: }
L_end_StartSD:
RETURN 0
; end of _StartSD
_main:
;SD_Card.c,15 :: void main() {
;SD_Card.c,17 :: Config();
CALL _Config+0, 0
;SD_Card.c,19 :: S1 = 1; S2 = 1; S3 = 1; S4 = 1; S5 = 1; S6 = 1; S7 = 1; S8 = 1;
BSF PORTC+0, 0
BSF PORTC+0, 2
BSF PORTC+0, 1
BSF PORTA+0, 5
BSF PORTE+0, 0
BSF PORTE+0, 1
BSF PORTE+0, 2
BSF PORTC+0, 5
;SD_Card.c,20 :: delay_ms(1000);
MOVLW 6
MOVWF R11, 0
MOVLW 19
MOVWF R12, 0
MOVLW 173
MOVWF R13, 0
L_main56:
DECFSZ R13, 1, 1
BRA L_main56
DECFSZ R12, 1, 1
BRA L_main56
DECFSZ R11, 1, 1
BRA L_main56
NOP
NOP
;SD_Card.c,21 :: StartSD();
CALL _StartSD+0, 0
;SD_Card.c,25 :: do{
L_main57:
;SD_Card.c,26 :: asm {clrwdt}
CLRWDT
;SD_Card.c,27 :: S1 = !S1;
BTG PORTC+0, 0
;SD_Card.c,28 :: delay_ms(1000);
MOVLW 6
MOVWF R11, 0
MOVLW 19
MOVWF R12, 0
MOVLW 173
MOVWF R13, 0
L_main60:
DECFSZ R13, 1, 1
BRA L_main60
DECFSZ R12, 1, 1
BRA L_main60
DECFSZ R11, 1, 1
BRA L_main60
NOP
NOP
;SD_Card.c,30 :: while(1);
GOTO L_main57
;SD_Card.c,31 :: }
L_end_main:
GOTO $+0
; end of _main