Skip to content

Latest commit

 

History

History
228 lines (161 loc) · 7.47 KB

README.md

File metadata and controls

228 lines (161 loc) · 7.47 KB

Zilog Z80 CPU Emulator

Copyright © 1999-2016 Manuel Sainz de Baranda y Goñi.
Released under the terms of the GNU General Public License v3.

This is a very accurate Z80 emulator I wrote many years ago. It has been used in several machine emulators by other people and it has been extensivelly tested. It's very fast and small (although there are faster ones written in assembly), its structure is very clear and the code is commented.

If you are looking for an accurate Zilog Z80 CPU emulator for your project maybe you have found the correct one. I use this core in the ZX Spectrum emulator I started as hobby.

Building

In order to compile you must install Z, a header only library which provides types, macros, inline functions, and a lot of utilities to detect the particularities of the compiler and the target system. This is the only dependency, the standard C library and its headers are not used and the emulator doesn't need to be dynamically linked with any library.

A Xcode project is provided to build the emulator. It has the following targets:

Targets

Name Description
dynamic Shared library.
module Module for A.C.M.E.
static Static library.
static+ABI Static library with a descriptive ABI to be used in modular multi-machine emulators. Building the ABI implies callback pointers with slots enabled.
static+ABI-API The same as above but exposing only the symbol of the ABI, the API functions will be private.

Constants used in Z80.h

Name Description
CPU_Z80_STATIC You need to define this if you are using the emulator as a static library or if you have added its sources to your project.
CPU_Z80_USE_SLOTS Always needed when using the ABI. Each callback function will have its own context pointer, which should store the address of the object assigned to the call.

Constants used in Z80.c

Name Description
CPU_Z80_DYNAMIC Needed to build a shared library. Exports the public symbols.
CPU_Z80_BUILD_ABI Builds the ABI of type ZCPUEmulatorABI declared in the header with the identifier abi_emulation_cpu_z80.
CPU_Z80_BUILD_MODULE_ABI Builds a generic module ABI of type ZModuleABI. This constant enables CPU_Z80_BUILD_ABI automatically so abi_emulation_cpu_z80 will be build too. This option is intended to be used when building a true module loadable at runtime with dlopen(), LoadLibrary() or similar. The module ABI can be accessed retrieving the weak symbol __module_abi__.
CPU_Z80_HIDE_API Makes the API functions private.
CPU_Z80_HIDE_ABI Makes the abi_emulation_cpu_z80 private.
CPU_Z80_USE_LOCAL_HEADER Use this if you have imported Z80.h and Z80.c to your project. Z80.c will include "Z80.h" instead of <emulation/CPU/Z80.h>.

API

z80_run

Description
Runs the CPU for the given number of cycles.

Prototype

zsize z80_run(Z80 *object, zsize cycles);

Parameters
object → A pointer to an emulator instance.
cycles → The number of cycles to be executed.

Return value
The number of cycles executed.

Discusion
Given the fact that one Z80 instruction needs between 4 and 23 cycles to be executed, it is not always possible to run the CPU the exact number of cycles specfified.

z80_power

Description
Switchs the CPU power status.

Prototype

void z80_power(Z80 *object, zboolean state);

Parameters
object → A pointer to an emulator instance.
stateON / OFF

z80_reset

Description
Resets the CPU by reinitializing its variables and sets its registers to the state they would be in a real Z80 CPU after a pulse in the RESET line.

Prototype

void z80_reset(Z80 *object);

Parameters
object → A pointer to an emulator instance.

z80_nmi

Description
Performs a non-maskable interrupt. This is equivalent to a pulse in the NMI line of a real Z80 CPU.

Prototype

void z80_nmi(Z80 *object);

Parameters
object → A pointer to an emulator instance.

z80_int

Description
Switchs the state of the maskable interrupt. This is equivalent to a change in the INT line of a real Z80 CPU.

Prototype

void z80_int(Z80 *object, zboolean state);

Parameters
object → A pointer to an emulator instance.
stateON = set line high, OFF = set line low

Callbacks

Before using an instance of the Z80 emulator, its cb structure must be initialized with the pointers to the callbacks that your program must provide in order to make possible for the CPU to access the emulated machine's resources. All the callbacks are mandatory except halt, which is optional and should be initialized to NULL if not used.

read

Description
Called when the CPU needs to read 8 bits from memory.

Prototype

typedef zuint8 (* ZContext16BitAddressRead8Bit)(void *context, zuint16 address);
ZContext16BitAddressRead8Bit read;

Parameters
context → A pointer to the calling emulator instance.
address → The memory address to read.

Return value
The 8 bits read from memory.

write

Description
Called when the CPU needs to write 8 bits to memory.

Prototype

typedef void (* ZContext16BitAddressWrite8Bit)(void *context, zuint16 address, zuint8 value);
ZContext16BitAddressWrite8Bit write;

Parameters
context → A pointer to the calling emulator instance.
address → The memory address to write.
value → The value to write in address.

in

Description
Called when the CPU needs to read 8 bits from an I/O port.

Prototype

typedef zuint8 (* ZContext16BitAddressRead8Bit)(void *context, zuint16 address);
ZContext16BitAddressRead8Bit in;

Parameters
context → A pointer to the calling emulator instance.
address → The number of the I/O port.

Return value
The 8 bits read from the I/O port.

out

Description
Called when the CPU needs to write 8 bits to an I/O port.

Prototype

typedef void (* ZContext16BitAddressWrite8Bit)(void *context, zuint16 address, zuint8 value);
ZContext16BitAddressWrite8Bit out;

Parameters
context → A pointer to the calling emulator instance.
address → The number of the I/O port.
value → The value to write.

int_data

Description
Called when the CPU starts executing a maskable interrupt and the interruption mode is 0. This callback must return the instruction that the CPU would read from the data bus in this case.

Prototype

typedef zuint32 (* ZContextRead32Bit)(void *context);
ZContextRead32Bit int_data;

Parameters
context → A pointer to the calling emulator instance.

Return value
A 32-bit value containing the bytes of an instruction. The instruction must begin at the most significant byte of the value.

halt

Description
Called when the CPU enters or exits the halt state.

Prototype

typedef void (* ZContextSwitch)(void *context, zboolean state);
ZContextSwitch halt;

Parameters
context → A pointer to the calling emulator instance.
stateON if halted, OFF otherwise.

History

  • v1.0.0 (2016-09-30)
    • Initial release.