#include "../../fs/devfs.h" #include "../../cpu/i386/ports.h" #include #include #include #include #define IDE_PRIM_IO 0x1f0 #define IDE_PRIM_CTRL 0x3f6 #define IDE_SEC_IO 0x170 #define IDE_SEC_CTRL 0x376 static uint8_t ident[4][512]; static uint8_t* sect_data=NULL; static uint32_t last_read_sector=0; static int last_read_base=0; static int last_read_slave=0; static uint8_t* read_sect(int base,int slave,uint32_t lba) { if (last_read_sector==lba && last_read_base==base && last_read_slave==slave && sect_data) { return sect_data; } port_byte_out(base+6,0xe0|slave<<4|((lba&0xFF000000)>>24)); for (int i=0;i<4;i++) port_byte_in(base+7); while ((port_byte_in(base+7)&0x80)!=0); port_byte_out(base+2,1); port_byte_out(base+3,lba&0xFF); port_byte_out(base+4,(lba&0xFF00)>>8); port_byte_out(base+5,(lba&0xFF0000)>>16); port_byte_out(base+7,0x20); uint8_t* sect=malloc(sizeof(uint8_t)*512); while ((port_byte_in(base+7)&0x88)!=0x8); for (int i=0;i<512;i+=2) { uint16_t data=port_word_in(base); sect[i]=data&0xFF; sect[i+1]=(data&0xFF00)>>8; } last_read_sector=lba; last_read_base=base; last_read_slave=slave; // if (sect_data) { // free(sect_data); // } sect_data=sect; return sect; } static void write_sect(int base,int slave,uint32_t lba,uint8_t* sect) { if (last_read_sector==lba && last_read_base==base && last_read_slave==slave && sect_data) { sect_data=sect; } if (!sect_data) { last_read_sector=lba; last_read_base=base; last_read_slave=slave; sect_data=sect; } port_byte_out(base+6,0xe0|slave<<4|((lba&0xFF000000)>>24)); for (int i=0;i<4;i++) port_byte_in(base+7); while ((port_byte_in(base+7)&0x80)!=0); port_byte_out(base+2,1); port_byte_out(base+3,lba&0xFF); port_byte_out(base+4,(lba&0xFF00)>>8); port_byte_out(base+5,(lba&0xFF0000)>>16); port_byte_out(base+7,0x30); while ((port_byte_in(base+7)&0x88)!=0x8); for (int i=0;i<512;i+=2) { port_word_out(base,sect[i]|(sect[i+1]<<8)); for (int i=0;i<4;i++) port_byte_in(base+7); } while ((port_byte_in(base+7)&0x80)!=0); port_byte_out(base+7,0xE7); } static int drv(char* filename,int c,long pos,char wr) { int base; int slave; if (strcmp(filename,"hda")==0) { base=IDE_PRIM_IO; slave=0; } if (strcmp(filename,"hdb")==0) { base=IDE_PRIM_IO; slave=1; } if (strcmp(filename,"hdc")==0) { base=IDE_SEC_IO; slave=0; } if (strcmp(filename,"hdc")==0) { base=IDE_SEC_IO; slave=1; } if (wr) { uint32_t lba=pos/512; int offset=pos%512; uint8_t* sect=read_sect(base,slave,lba); sect[offset]=(uint8_t)c; write_sect(base,slave,lba,sect); return 1; } else { uint32_t lba=pos/512; int offset=pos%512; uint8_t* sect=read_sect(base,slave,lba); uint8_t val=sect[offset]; return val; } } void ide_init() { if (port_byte_in(IDE_PRIM_IO+7)!=0xFF) { //Detect primary master port_byte_out(IDE_PRIM_IO+6,0xe0); for (int i=0;i<4;i++) port_byte_in(IDE_PRIM_IO+7); while ((port_byte_in(IDE_PRIM_IO+7)&0x80)!=0); port_byte_out(IDE_PRIM_IO+2,0); port_byte_out(IDE_PRIM_IO+3,0); port_byte_out(IDE_PRIM_IO+4,0); port_byte_out(IDE_PRIM_IO+5,0); port_byte_out(IDE_PRIM_IO+7,0xEC); if (port_byte_in(IDE_PRIM_IO+7)!=0) { uint8_t io4=port_byte_in(IDE_PRIM_IO+4); uint8_t io5=port_byte_in(IDE_PRIM_IO+5); if (io4==0x14&&io5==0xeb) { klog("INFO","IDE primary master is ATAPI"); } if (io4==0x3c&&io5==0xc3) { klog("INFO","IDE primary master is SATA"); } if (io4==0&&io5==0) { while ((port_byte_in(IDE_PRIM_IO+7)&0x8)!=0x8); for (int i=0;i<512;i+=2) { uint16_t data=port_word_in(IDE_PRIM_IO); ident[0][i]=data&0xFF; ident[0][i+1]=(data&0xFF00)>>8; } klog("INFO","Found IDE primary master"); port_byte_out(IDE_PRIM_CTRL,port_byte_in(IDE_PRIM_CTRL)|0x2); devfs_add(drv,"hda"); } } //Detect primary slave port_byte_out(IDE_PRIM_IO+6,0xf0); for (int i=0;i<4;i++) port_byte_in(IDE_PRIM_IO+7); while ((port_byte_in(IDE_PRIM_IO+7)&0x80)!=0); port_byte_out(IDE_PRIM_IO+2,0); port_byte_out(IDE_PRIM_IO+3,0); port_byte_out(IDE_PRIM_IO+4,0); port_byte_out(IDE_PRIM_IO+5,0); port_byte_out(IDE_PRIM_IO+7,0xEC); if (port_byte_in(IDE_PRIM_IO+7)!=0) { uint8_t io4=port_byte_in(IDE_PRIM_IO+4); uint8_t io5=port_byte_in(IDE_PRIM_IO+5); if (io4==0x14&&io5==0xeb) { klog("INFO","IDE primary slave is ATAPI"); } if (io4==0x3c&&io5==0xc3) { klog("INFO","IDE primary slave is SATA"); } if (io4==0&&io5==0) { while ((port_byte_in(IDE_PRIM_IO+7)&0x8)!=0x8); for (int i=0;i<512;i+=2) { uint16_t data=port_word_in(IDE_PRIM_IO); ident[0][i]=data&0xFF; ident[0][i+1]=(data&0xFF00)>>8; } klog("INFO","Found IDE primary slave"); port_byte_out(IDE_PRIM_CTRL,port_byte_in(0x3f6)|0x2); devfs_add(drv,"hdb"); } } } // if (port_byte_in(IDE_SEC_IO+7)!=0xFF) { // //Detect secondary master // port_byte_out(IDE_SEC_IO+6,0xe0); // for (int i=0;i<4;i++) port_byte_in(IDE_SEC_IO+7); // while ((port_byte_in(IDE_SEC_IO+7)&0x80)!=0); // port_byte_out(IDE_SEC_IO+2,0); // port_byte_out(IDE_SEC_IO+3,0); // port_byte_out(IDE_SEC_IO+4,0); // port_byte_out(IDE_SEC_IO+5,0); // port_byte_out(IDE_SEC_IO+7,0xEC); // if (port_byte_in(IDE_SEC_IO+7)!=0) { // if (port_byte_in(IDE_SEC_IO+5)!=0&&port_byte_in(IDE_SEC_IO+6)!=0) { // } // while ((port_byte_in(IDE_SEC_IO+7)&0x8)!=0x8); // for (int i=0;i<512;i+=2) { // uint16_t data=port_word_in(IDE_SEC_IO); // ident[0][i]=data&0xFF; // ident[0][i+1]=(data&0xFF00)>>8; // } // klog("INFO","Found IDE secondary master"); // port_byte_out(IDE_SEC_CTRL,port_byte_in(IDE_SEC_CTRL)|0x2); // devfs_add(drv,"hdc"); // } // //Detect secondary slave // port_byte_out(IDE_SEC_IO+6,0xf0); // for (int i=0;i<4;i++) port_byte_in(IDE_SEC_IO+7); // while ((port_byte_in(IDE_SEC_IO+7)&0x80)!=0); // port_byte_out(IDE_SEC_IO+2,0); // port_byte_out(IDE_SEC_IO+3,0); // port_byte_out(IDE_SEC_IO+4,0); // port_byte_out(IDE_SEC_IO+5,0); // port_byte_out(IDE_SEC_IO+7,0xEC); // if (port_byte_in(IDE_SEC_IO+7)!=0) { // if (port_byte_in(IDE_SEC_IO+5)!=0&&port_byte_in(IDE_SEC_IO+6)!=0) { // } // while ((port_byte_in(IDE_SEC_IO+7)&0x8)!=0x8); // for (int i=0;i<512;i+=2) { // uint16_t data=port_word_in(IDE_SEC_IO); // ident[0][i]=data&0xFF; // ident[0][i+1]=(data&0xFF00)>>8; // } // klog("INFO","Found IDE decondaryary slave"); // port_byte_out(IDE_SEC_CTRL,port_byte_in(IDE_SEC_CTRL)|0x2); // devfs_add(drv,"hdd"); // } // } }