// license:BSD-3-Clause // copyright-holders:Couriersud /*************************************************************************** Gaelco 3D serial hardware Couriersud, early 2010 Not all lines are fully understood. There is some handshaking going on on send which is not fully understood. Those wishing to have a look at this: Serial send: 0x1fca (radikalb, 68020) 1866e (surfplnt) Serial receive: 0x1908 (radikalb, 68020) 185ae The receive is interrupt driven (interrupt 6) and the send is initiated out of the normal program loop. There is the chance of race conditions in mame. To run two instances of radikalb on *nix, use the following a) Uncomment SHARED_MEM_DRIVER below b) Open two terminals c) In terminal 1: mkdir /tmp/x1; cd /tmp/x1; /path/to/mame64 -np 2 -mt -rp /mnt/mame/romlib/r -inipath . radikalb -w -nomaximize -inipath . d) In terminal 2: mkdir /tmp/x2; cd /tmp/x2; /path/to/mame64 -np 2 -mt -rp /mnt/mame/romlib/r -inipath . radikalb -w -nomaximize -inipath . e) Set one instance to be master and one to be slave in service mode f) Have fun ***************************************************************************/ #include "emu.h" #include "gaelco3d.h" //#define SHARED_MEM_DRIVER (1) #include #include #include #ifdef _MSC_VER #include #define S_IRWXU (_S_IREAD | _S_IWRITE | _S_IEXEC) #else #include #endif #include #ifdef SHARED_MEM_DRIVER #include #endif #define VERBOSE (0) #if VERBOSE #define LOGMSG(x) logerror x #else #define LOGMSG(x) do {} while (0); #endif /* * 115200 seems plausible, radikalb won't work below this speed * surfplnt will not work below 460800 .... * speedup will not work above 115200 * 10 bits = 8 data + 1 start + 1 stop */ #define LINK_BAUD (115200*4) //Only for speedup //#define LINK_BAUD (115200) #define LINK_BITS 10 #define LINK_FREQ (LINK_BAUD / LINK_BITS) /* Sync up the instances 8 times for each byte transfered */ #define SYNC_MULT (4) #define SYNC_FREQ (15000000 / 20) //(LINK_FREQ * SYNC_MULT) /* allow for slight differences in execution speed */ #define LINK_SLACK ((SYNC_MULT / 4) + 1) #define LINK_SLACK_B ((LINK_SLACK / 3) + 1) /* code below currently works on unix only */ #ifdef SHARED_MEM_DRIVER static osd_shared_mem *osd_sharedmem_alloc(const char *path, int create, size_t size) { int fd; osd_shared_mem *os_shmem = (osd_shared_mem *) osd_malloc(sizeof(osd_shared_mem)); if (create) { char *buf = (char *) osd_malloc_array(size); memset(buf,0, size); fd = open(path, O_RDWR | O_CREAT, S_IRWXU); write(fd, buf, size); os_shmem->creator = 1; } else { fd = open(path, O_RDWR); if (fd == -1) { osd_free(os_shmem); return NULL; } os_shmem->creator = 0; } os_shmem->fn = (char *) osd_malloc_array(strlen(path)+1); strcpy(os_shmem->fn, path); assert(fd != -1); os_shmem->ptr = mmap(NULL, size, PROT_READ|PROT_WRITE, MAP_SHARED, fd, 0); os_shmem->size = size; close(fd); return os_shmem; } static void osd_sharedmem_free(osd_shared_mem *os_shmem) { munmap(os_shmem->ptr, os_shmem->size); if (os_shmem->creator) unlink(os_shmem->fn); osd_free(os_shmem->fn); osd_free(os_shmem); } static void *osd_sharedmem_ptr(osd_shared_mem *os_shmem) { return os_shmem->ptr; } #else static osd_shared_mem *osd_sharedmem_alloc(const char *path, int create, size_t size) { osd_shared_mem *os_shmem = (osd_shared_mem *) osd_malloc(sizeof(osd_shared_mem)); os_shmem->creator = 0; os_shmem->ptr = (void *) osd_malloc_array(size); os_shmem->size = size; return os_shmem; } static void osd_sharedmem_free(osd_shared_mem *os_shmem) { osd_free(os_shmem->ptr); osd_free(os_shmem); } static void *osd_sharedmem_ptr(osd_shared_mem *os_shmem) { return os_shmem->ptr; } #endif /*************************************************************************** INLINE FUNCTIONS ***************************************************************************/ INLINE void shmem_lock(shmem_t *shmem) { while (atomic_exchange32(&shmem->lock,1) == 0) ; } INLINE void shmem_unlock(shmem_t *shmem) { atomic_exchange32(&shmem->lock,0); } /*************************************************************************** DEVICE INTERFACE ***************************************************************************/ #define PATH_NAME "/tmp/gaelco_serial" static void buf_reset(buf_t *buf) { buf->stat = GAELCOSER_STATUS_RTS| GAELCOSER_STATUS_RESET; buf->data = 0; buf->data_cnt = -1; buf->cnt = 0; } const device_type GAELCO_SERIAL = &device_creator; gaelco_serial_device::gaelco_serial_device(const machine_config &mconfig, const char *tag, device_t *owner, UINT32 clock) : device_t(mconfig, GAELCO_SERIAL, "Gaelco 3D Serial Hardware", tag, owner, clock, "gaelco_serial", __FILE__), m_irq_handler(*this), m_status(0), m_last_in_msg_cnt(0), m_slack_cnt(0), m_sync_timer(nullptr), m_in_ptr(nullptr), m_out_ptr(nullptr), m_os_shmem(nullptr), m_shmem(nullptr) { } //------------------------------------------------- // device_start - device-specific startup //------------------------------------------------- void gaelco_serial_device::device_start() { /* validate arguments */ assert(strlen(tag()) < 20); m_irq_handler.resolve_safe(); m_sync_timer = machine().scheduler().timer_alloc(timer_expired_delegate(FUNC(gaelco_serial_device::link_cb), this)); /* register for save states */ //save_item(NAME(earom->offset)); //save_item(NAME(earom->data)); #ifdef SHARED_MEM_DRIVER m_sync_timer->adjust(attotime::zero,0,attotime::from_hz(SYNC_FREQ)); #endif m_os_shmem = osd_sharedmem_alloc(PATH_NAME, 0, sizeof(shmem_t)); if (m_os_shmem == nullptr) { m_os_shmem = osd_sharedmem_alloc(PATH_NAME, 1, sizeof(shmem_t)); m_shmem = (shmem_t *) osd_sharedmem_ptr(m_os_shmem); m_in_ptr = &m_shmem->buf[0]; m_out_ptr = &m_shmem->buf[1]; } else { m_shmem = (shmem_t *) osd_sharedmem_ptr(m_os_shmem); m_in_ptr = &m_shmem->buf[1]; m_out_ptr = &m_shmem->buf[0]; } } //------------------------------------------------- // device_reset - device-specific reset //------------------------------------------------- void gaelco_serial_device::device_reset() { m_status = GAELCOSER_STATUS_READY |GAELCOSER_STATUS_IRQ_ENABLE ; m_last_in_msg_cnt = -1; m_slack_cnt = LINK_SLACK_B; shmem_lock(m_shmem); buf_reset(m_out_ptr); buf_reset(m_in_ptr); shmem_unlock(m_shmem); } //------------------------------------------------- // device_stop - device-specific stop //------------------------------------------------- void gaelco_serial_device::device_stop() { shmem_lock(m_shmem); buf_reset(m_out_ptr); buf_reset(m_in_ptr); shmem_unlock(m_shmem); osd_sharedmem_free(m_os_shmem); } TIMER_CALLBACK_MEMBER( gaelco_serial_device::set_status_cb ) { UINT8 mask = param >> 8; UINT8 set = param & 0xff; m_status &= mask; m_status |= set; } void gaelco_serial_device::set_status(UINT8 mask, UINT8 set, int wait) { machine().scheduler().timer_set(attotime::from_hz(wait), timer_expired_delegate(FUNC(gaelco_serial_device::set_status_cb), this), (mask << 8)|set); } void gaelco_serial_device::process_in() { int t; if ((m_in_ptr->stat & GAELCOSER_STATUS_RESET) != 0) m_out_ptr->cnt = 0; /* new data available ? */ t = m_in_ptr->data_cnt; if (t != m_last_in_msg_cnt) { m_last_in_msg_cnt = t; if (m_in_ptr->cnt > 10) { m_status &= ~GAELCOSER_STATUS_READY; LOGMSG(("command receive %02x at %d (%d)\n", m_in_ptr->data, m_out_ptr->cnt, m_in_ptr->cnt)); if ((m_status & GAELCOSER_STATUS_IRQ_ENABLE) != 0) { m_irq_handler(1); LOGMSG(("irq!\n")); } } } } void gaelco_serial_device::sync_link() { volatile buf_t *buf = m_in_ptr; int breakme = 1; do { shmem_lock(m_shmem); process_in(); /* HACK: put some timing noise on the line */ if (buf->cnt + m_slack_cnt > m_out_ptr->cnt) breakme = 0; /* stop if not connected .. */ if ((m_out_ptr->stat & GAELCOSER_STATUS_RESET) != 0) breakme = 0; shmem_unlock(m_shmem); } while (breakme); m_slack_cnt++; m_slack_cnt = (m_slack_cnt % LINK_SLACK) + LINK_SLACK_B; shmem_lock(m_shmem); m_out_ptr->stat &= ~GAELCOSER_STATUS_RESET; shmem_unlock(m_shmem); } TIMER_CALLBACK_MEMBER( gaelco_serial_device::link_cb ) { shmem_lock(m_shmem); m_out_ptr->cnt++; sync_link(); shmem_unlock(m_shmem); } /*************************************************************************** INTERFACE FUNCTIONS ***************************************************************************/ WRITE8_MEMBER( gaelco_serial_device::irq_enable ) { LOGMSG(("???? irq enable %d\n", data)); } READ8_MEMBER( gaelco_serial_device::status_r) { UINT8 ret = 0; shmem_lock(m_shmem); process_in(); if ((m_status & GAELCOSER_STATUS_READY) != 0) ret |= 0x01; if ((m_in_ptr->stat & GAELCOSER_STATUS_RTS) != 0) ret |= 0x02; shmem_unlock(m_shmem); return ret; } WRITE8_MEMBER( gaelco_serial_device::data_w) { shmem_lock(m_shmem); m_out_ptr->data = data; m_status &= ~GAELCOSER_STATUS_READY; m_out_ptr->data_cnt++; set_status( ~GAELCOSER_STATUS_READY, GAELCOSER_STATUS_READY, LINK_FREQ ); shmem_unlock(m_shmem); LOGMSG(("command send %02x at %d\n", data, m_out_ptr->cnt)); } READ8_MEMBER( gaelco_serial_device::data_r) { UINT8 ret; shmem_lock(m_shmem); process_in(); ret = (m_in_ptr->data & 0xff); m_irq_handler(0); LOGMSG(("read %02x at %d (%d)\n", ret, m_out_ptr->cnt, m_in_ptr->cnt)); /* if we are not sending, mark as as ready */ if ((m_status & GAELCOSER_STATUS_SEND) == 0) m_status |= GAELCOSER_STATUS_READY; shmem_unlock(m_shmem); return ret; } WRITE8_MEMBER( gaelco_serial_device::unknown_w) { shmem_lock(m_shmem); LOGMSG(("???? unknown serial access %d\n", data)); shmem_unlock(m_shmem); } WRITE8_MEMBER( gaelco_serial_device::rts_w ) { shmem_lock(m_shmem); if (data == 0) m_out_ptr->stat |= GAELCOSER_STATUS_RTS; else { //Commented out for now //m_status |= GAELCOSER_STATUS_READY; m_out_ptr->stat &= ~GAELCOSER_STATUS_RTS; } shmem_unlock(m_shmem); } WRITE8_MEMBER( gaelco_serial_device::tr_w) { LOGMSG(("set transmit %d\n", data)); shmem_lock(m_shmem); if ((data & 0x01) != 0) m_status |= GAELCOSER_STATUS_SEND; else m_status &= ~GAELCOSER_STATUS_SEND; shmem_unlock(m_shmem); }