package izapple2 /* Swyft card for Apple IIe See: https://mirrors.apple2.org.za/Apple%20II%20Documentation%20Project/Interface%20Cards/Other/IAI%20SwyftCard/ */ /* "SwyftCard Hardware Theory of Operation". SwyftCard manual, page 98: The SwyftCard is a plug-in card for the Apple /Ie that operates in slot 3. The card contains three integrated circuits which provide a power-on reset circuit, storage for the SwyftCard program, and control signals for the card. The card operates by asserting the Apple IIe bus signal INH' which disables the built-in ROM and enables the SwyftCard ROM. This permits the SwyftCard program to take over the system at power-on and run the SwyftCard program. (Please refer to the schematic.) The lM311 voltage comparator is connected to provide the power-on reset function. When the Apple lie is first turned on, the power-on reset circuit resets the PAL, turning on the SwyftCard and disabling the Apple IIe internal ROM. The power-on reset circuit must be provided because the existing Apple IIe reset function is used by many Apple lie programs for a "warm start": if Apple lie reset always started the SwyftCard, other programs could not use the "warm start." The 27128 PROM is used to store the SwyftCard program. The PROM contains 16384 bytes which are mapped into the address space $DOOO - $FFFF. Since the address space is only 12 Kbytes, there are two 4 Kbyte sections of the PROM mapped into the address space $DOOO-$DFFF. The card is controlled by the PAL. When the SwyftCard is active, the PAL asserts the INH' signal, enables the PROM, and bank switches the $DOOO-$DFFF address space. The card is controlled by two soft switches. The soft switches are controlled by accessing the following memory locations with either a read or a write operation. $COBO - SwyftCard active, Bank 1 $COB1 - SwyftCard inactive, Bank 1 $COB2 - SwyftCard active, Bank 2 When the power-on reset circuit asserts the RES signal on Pin 3 of the PAL, the SwyftCard is made active in Bank 1. Accessing location $COB1 deactivates the SwyftCard for normal Apple IIe operation. The INH' line is driven by a tri-state driver, so if another card in the Apple /Ie asserts the IINH' signal there will not be a bus contention. However, there will be a bus contention on the data bus if another card attempts to control the bus while the SwyftCard is active. */ // CardSwyft represents a Swyft card type CardSwyft struct { cardBase bank2 bool rom []uint8 } // NewCardSwyft creates a new CardSwyft func NewCardSwyft() *CardSwyft { var c CardSwyft c.name = "SwyftCard" // The Cx00 rom is not used. The card is expected to be installed in // slot 3 of an Apple IIe with the 80 column firmware already present. return &c } func (c *CardSwyft) assign(a *Apple2, slot int) { // Load main ROM replacement data, _, err := LoadResource("/SwyftCard ROM.bin") if err != nil { // The resource should be internal and never fail panic(err) } c.rom = data c.addCardSoftSwitchRW(0, func(*ioC0Page) uint8 { a.mmu.inhibitROM(c) c.bank2 = false return 0x55 }, "SWYFTONBANK1") c.addCardSoftSwitchRW(1, func(*ioC0Page) uint8 { a.mmu.inhibitROM(nil) c.bank2 = false return 0x55 }, "SWYFTOFFBANK1") c.addCardSoftSwitchRW(2, func(*ioC0Page) uint8 { a.mmu.inhibitROM(c) c.bank2 = true return 0x55 }, "SWYFTONBANK2") c.cardBase.assign(a, slot) a.mmu.inhibitROM(c) } func (c *CardSwyft) translateAddress(address uint16) uint16 { /* The four 4k sections of the 16k ROM image are mapped: D000-DFFF (page 1) D000-DFFF (page 2) E000-EFFF F000-FFFF */ if address >= 0xE000 { return address - 0xE000 + 0x2000 } if !c.bank2 { return address - 0xD000 } return address - 0xD000 + 0x1000 } func (c *CardSwyft) peek(address uint16) uint8 { return c.rom[c.translateAddress(address)] } func (c *CardSwyft) poke(address uint16, value uint8) { // Nothing } func (c *CardSwyft) setBase(base uint16) { // Nothing }