/* * 86Box A hypervisor and IBM PC system emulator that specializes in * running old operating systems and software designed for IBM * PC systems and compatibles from 1981 through fairly recent * system designs based on the PCI bus. * * This file is part of the 86Box distribution. * * Emulation of the 24Cxx series of I2C EEPROMs. * * * * Authors: RichardG, * * Copyright 2020 RichardG. */ #include #include #include #include #include #define HAVE_STDARG_H #include #include <86box/86box.h> #include <86box/i2c.h> typedef struct { void *i2c; uint8_t addr, *data, writable; uint32_t addr_mask, addr_register; uint8_t addr_len, addr_pos; } i2c_eeprom_t; #ifdef ENABLE_I2C_EEPROM_LOG int i2c_eeprom_do_log = ENABLE_I2C_EEPROM_LOG; static void i2c_eeprom_log(const char *fmt, ...) { va_list ap; if (i2c_eeprom_do_log) { va_start(ap, fmt); pclog_ex(fmt, ap); va_end(ap); } } #else # define i2c_eeprom_log(fmt, ...) #endif static uint8_t i2c_eeprom_start(void *bus, uint8_t addr, uint8_t read, void *priv) { i2c_eeprom_t *dev = (i2c_eeprom_t *) priv; i2c_eeprom_log("I2C EEPROM %s %02X: start()\n", i2c_getbusname(dev->i2c), dev->addr); if (!read) { dev->addr_pos = 0; dev->addr_register = (addr << dev->addr_len) & dev->addr_mask; } return 1; } static uint8_t i2c_eeprom_read(void *bus, uint8_t addr, void *priv) { i2c_eeprom_t *dev = (i2c_eeprom_t *) priv; uint8_t ret = dev->data[dev->addr_register]; i2c_eeprom_log("I2C EEPROM %s %02X: read(%06X) = %02X\n", i2c_getbusname(dev->i2c), dev->addr, dev->addr_register, ret); dev->addr_register++; dev->addr_register &= dev->addr_mask; /* roll-over */ return ret; } static uint8_t i2c_eeprom_write(void *bus, uint8_t addr, uint8_t data, void *priv) { i2c_eeprom_t *dev = (i2c_eeprom_t *) priv; if (dev->addr_pos < dev->addr_len) { dev->addr_register <<= 8; dev->addr_register |= data; dev->addr_register &= (1 << dev->addr_len) - 1; dev->addr_register |= addr << dev->addr_len; dev->addr_register &= dev->addr_mask; i2c_eeprom_log("I2C EEPROM %s %02X: write(address, %06X)\n", i2c_getbusname(dev->i2c), dev->addr, dev->addr_register); dev->addr_pos += 8; } else { i2c_eeprom_log("I2C EEPROM %s %02X: write(%06X, %02X) = %d\n", i2c_getbusname(dev->i2c), dev->addr, dev->addr_register, data, !!dev->writable); if (dev->writable) dev->data[dev->addr_register] = data; dev->addr_register++; dev->addr_register &= dev->addr_mask; /* roll-over */ return dev->writable; } return 1; } static void i2c_eeprom_stop(void *bus, uint8_t addr, void *priv) { i2c_eeprom_t *dev = (i2c_eeprom_t *) priv; i2c_eeprom_log("I2C EEPROM %s %02X: stop()\n", i2c_getbusname(dev->i2c), dev->addr); dev->addr_pos = 0; } uint8_t log2i(uint32_t i) { uint8_t ret = 0; while (i >>= 1) ret++; return ret; } void * i2c_eeprom_init(void *i2c, uint8_t addr, uint8_t *data, uint32_t size, uint8_t writable) { i2c_eeprom_t *dev = (i2c_eeprom_t *) malloc(sizeof(i2c_eeprom_t)); memset(dev, 0, sizeof(i2c_eeprom_t)); /* Round size up to the next power of 2. */ uint32_t pow_size = 1 << log2i(size); if (pow_size < size) size = pow_size << 1; size &= 0x7fffff; /* address space limit of 8 MB = 7 bits from I2C address + 16 bits */ i2c_eeprom_log("I2C EEPROM %s %02X: init(%d, %d)\n", i2c_getbusname(i2c), addr, size, writable); dev->i2c = i2c; dev->addr = addr; dev->data = data; dev->writable = writable; dev->addr_len = (size >= 4096) ? 16 : 8; /* use 16-bit addresses on 24C32 and above */ dev->addr_mask = size - 1; i2c_sethandler(dev->i2c, dev->addr & ~(dev->addr_mask >> dev->addr_len), (dev->addr_mask >> dev->addr_len) + 1, i2c_eeprom_start, i2c_eeprom_read, i2c_eeprom_write, i2c_eeprom_stop, dev); return dev; } void i2c_eeprom_close(void *dev_handle) { i2c_eeprom_t *dev = (i2c_eeprom_t *) dev_handle; i2c_eeprom_log("I2C EEPROM %s %02X: close()\n", i2c_getbusname(dev->i2c), dev->addr); i2c_removehandler(dev->i2c, dev->addr & ~(dev->addr_mask >> dev->addr_len), (dev->addr_mask >> dev->addr_len) + 1, i2c_eeprom_start, i2c_eeprom_read, i2c_eeprom_write, i2c_eeprom_stop, dev); free(dev); }