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For example: mapping of card * interrupts to processor IRQs is done by IRQ demuxing software; * IO and memory mappings are fixed; setting voltages according * to card Voltage Select pins etc is done in software. * * Note also that this driver uses only the simple, fixed, * 16MB, 16-bit wide mappings to PCMCIA spaces defined by the * HD64465. Larger mappings, smaller mappings, or mappings of * different width to the same socket, are all possible only by * involving the SH7750's MMU, which is considered unnecessary here. * The downside is that it may be possible for some drivers to * break because they need or expect 8-bit mappings. * * This driver currently supports only the following configuration: * SH7750 CPU, HD64465, TPS2206 voltage control chip. * * by Greg Banks <gbanks@pocketpenguins.com> * (c) 2000 PocketPenguins Inc * */ #include <linux/types.h> #include <linux/module.h> #include <linux/init.h> #include <linux/config.h> #include <linux/string.h> #include <linux/kernel.h> #include <linux/ioport.h> #include <linux/mm.h> #include <linux/vmalloc.h> #include <asm/errno.h> #include <linux/irq.h> #include <asm/io.h> #include <asm/hd64465.h> #include <pcmcia/version.h> #include <pcmcia/cs_types.h> #include <pcmcia/cs.h> #include <pcmcia/ss.h> #include <pcmcia/bulkmem.h> #include <pcmcia/cistpl.h> #include "cs_internal.h" #define MODNAME "hd64465_ss" /* #define HD64465_DEBUG 1 */ #ifndef HD64465_DEBUG #define HD64465_DEBUG 0 #endif #if HD64465_DEBUG #define DPRINTK(args...) printk(MODNAME ": " args) #else #define DPRINTK(args...) #endif extern int hd64465_io_debug; /*============================================================*/ #define HS_IO_MAP_SIZE (64*1024) typedef struct hs_socket_t { u_int irq; u_long mem_base; u_long mem_length; void (*handler)(void *info, u_int events); void *handler_info; u_int pending_events; u_int ctrl_base; socket_state_t state; pccard_io_map io_maps[MAX_IO_WIN]; pccard_mem_map mem_maps[MAX_WIN]; struct vm_struct *io_vma; /* allocated kernel vm for mapping IO space */ } hs_socket_t; #define HS_MAX_SOCKETS 2 static hs_socket_t hs_sockets[HS_MAX_SOCKETS]; static spinlock_t hs_pending_event_lock = SPIN_LOCK_UNLOCKED; /* Calculate socket number from ptr into hs_sockets[] */ #define hs_sockno(sp) (sp - hs_sockets) static socket_cap_t hs_socket_cap = { SS_CAP_PCCARD /* support 16 bit cards */ |SS_CAP_STATIC_MAP /* mappings are fixed in host memory */ , 0xffde/*0xffff*/, /* IRQs mapped in s/w so can do any, really */ HD64465_PCC_WINDOW, /* 16MB fixed window size */ 0, /* no PCI support */ 0, /* no CardBus support */ 0 /* no bus operations needed */ }; #define hs_in(sp, r) inb((sp)->ctrl_base + (r)) #define hs_out(sp, v, r) outb(v, (sp)->ctrl_base + (r)) /* translate a boolean value to a bit in a register */ #define bool_to_regbit(sp, r, bi, bo) \ do { \ unsigned short v = hs_in(sp, r); \ if (bo) \ v |= (bi); \ else \ v &= ~(bi); \ hs_out(sp, v, r); \ } while(0) /* register offsets from HD64465_REG_PCC[01]ISR */ #define ISR 0x0 #define GCR 0x2 #define CSCR 0x4 #define CSCIER 0x6 #define SCR 0x8 /* Mask and values for CSCIER register */ #define IER_MASK 0x80 #define IER_ON 0x3f /* interrupts on */ #define IER_OFF 0x00 /* interrupts off */ /*============================================================*/ #if HD64465_DEBUG > 10 static void cis_hex_dump(const unsigned char *x, int len) { int i; for (i=0 ; i<len ; i++) { if (!(i & 0xf)) printk("\n%08x", (unsigned)(x + i)); printk(" %02x", *(volatile unsigned short*)x); x += 2; } printk("\n"); } #endif /*============================================================*/ /* * This code helps create the illusion that the IREQ line from * the PC card is mapped to one of the CPU's IRQ lines by the * host bridge hardware (which is how every host bridge *except* * the HD64465 works). In particular, it supports enabling * and disabling the IREQ line by code which knows nothing * about the host bridge (e.g. device drivers, IDE code) using * the request_irq(), free_irq(), probe_irq_on() and probe_irq_off() * functions. Also, it supports sharing the mapped IRQ with * real hardware IRQs from the -IRL0-3 lines. */ #define HS_NUM_MAPPED_IRQS 16 /* Limitation of the PCMCIA code */ static struct { /* index is mapped irq number */ hs_socket_t *sock; hw_irq_controller *old_handler; } hs_mapped_irq[HS_NUM_MAPPED_IRQS]; static void hs_socket_enable_ireq(hs_socket_t *sp) { unsigned short cscier; DPRINTK("hs_socket_enable_ireq(sock=%d)\n", hs_sockno(sp)); cscier = hs_in(sp, CSCIER); cscier &= ~HD64465_PCCCSCIER_PIREQE_MASK; cscier |= HD64465_PCCCSCIER_PIREQE_LEVEL; hs_out(sp, cscier, CSCIER); } static void hs_socket_disable_ireq(hs_socket_t *sp) { unsigned short cscier; DPRINTK("hs_socket_disable_ireq(sock=%d)\n", hs_sockno(sp)); cscier = hs_in(sp, CSCIER); cscier &= ~HD64465_PCCCSCIER_PIREQE_MASK; hs_out(sp, cscier, CSCIER); } static unsigned int hs_startup_irq(unsigned int irq) { hs_socket_enable_ireq(hs_mapped_irq[irq].sock); hs_mapped_irq[irq].old_handler->startup(irq); return 0; } static void hs_shutdown_irq(unsigned int irq) { hs_socket_disable_ireq(hs_mapped_irq[irq].sock); hs_mapped_irq[irq].old_handler->shutdown(irq); } static void hs_enable_irq(unsigned int irq) { hs_socket_enable_ireq(hs_mapped_irq[irq].sock); hs_mapped_irq[irq].old_handler->enable(irq); } static void hs_disable_irq(unsigned int irq) { hs_socket_disable_ireq(hs_mapped_irq[irq].sock); hs_mapped_irq[irq].old_handler->disable(irq); } extern struct hw_interrupt_type no_irq_type; static void hs_mask_and_ack_irq(unsigned int irq) { hs_socket_disable_ireq(hs_mapped_irq[irq].sock); /* ack_none() spuriously complains about an unexpected IRQ */ if (hs_mapped_irq[irq].old_handler != &no_irq_type) hs_mapped_irq[irq].old_handler->ack(irq); } static void hs_end_irq(unsigned int irq) { hs_socket_enable_ireq(hs_mapped_irq[irq].sock); hs_mapped_irq[irq].old_handler->end(irq); } static struct hw_interrupt_type hd64465_ss_irq_type = { typename: "PCMCIA-IRQ", startup: hs_startup_irq, shutdown: hs_shutdown_irq, enable: hs_enable_irq, disable: hs_disable_irq, ack: hs_mask_and_ack_irq, end: hs_end_irq }; /* * This function should only ever be called with interrupts disabled. */ static void hs_map_irq(hs_socket_t *sp, unsigned int irq) { DPRINTK("hs_map_irq(sock=%d irq=%d)\n", hs_sockno(sp), irq); if (irq >= HS_NUM_MAPPED_IRQS) return; hs_mapped_irq[irq].sock = sp; /* insert ourselves as the irq controller */ hs_mapped_irq[irq].old_handler = irq_desc[irq].handler; irq_desc[irq].handler = &hd64465_ss_irq_type; } /* * This function should only ever be called with interrupts disabled. */ static void hs_unmap_irq(hs_socket_t *sp, unsigned int irq) { DPRINTK("hs_unmap_irq(sock=%d irq=%d)\n", hs_sockno(sp), irq); if (irq >= HS_NUM_MAPPED_IRQS) return; /* restore the original irq controller */ irq_desc[irq].handler = hs_mapped_irq[irq].old_handler; } /*============================================================*/ /* * Set Vpp and Vcc (in tenths of a Volt). Does not * support the hi-Z state. * * Note, this assumes the board uses a TPS2206 chip to control * the Vcc and Vpp voltages to the hs_sockets. If your board * uses the MIC2563 (also supported by the HD64465) then you * will have to modify this function. */ /* 0V 3.3V 5.5V */ static const u_char hs_tps2206_avcc[3] = { 0x00, 0x04, 0x08 }; static const u_char hs_tps2206_bvcc[3] = { 0x00, 0x80, 0x40 }; static int hs_set_voltages(hs_socket_t *sp, int Vcc, int Vpp) { u_int psr; u_int vcci = 0; u_int sock = hs_sockno(sp); DPRINTK("hs_set_voltage(%d, %d, %d)\n", sock, Vcc, Vpp); switch (Vcc) { case 0: vcci = 0; break; case 33: vcci = 1; break; case 50: vcci = 2; break; default: return 0; } /* Note: Vpp = 120 not supported -- Greg Banks */ if (Vpp != 0 && Vpp != Vcc) return 0; /* The PSR register holds 8 of the 9 bits which control * the TPS2206 via its serial interface. */ psr = inw(HD64465_REG_PCCPSR); switch (sock) { case 0: psr &= 0x0f; psr |= hs_tps2206_avcc[vcci]; psr |= (Vpp == 0 ? 0x00 : 0x02); break; case 1: psr &= 0xf0; psr |= hs_tps2206_bvcc[vcci]; psr |= (Vpp == 0 ? 0x00 : 0x20); break; }; outw(psr, HD64465_REG_PCCPSR); return 1; } /*============================================================*/ /* * Drive the RESET line to the card. */ static void hs_reset_socket(hs_socket_t *sp, int on) { unsigned short v; v = hs_in(sp, GCR); if (on) v |= HD64465_PCCGCR_PCCR; else v &= ~HD64465_PCCGCR_PCCR; hs_out(sp, v, GCR); } /*============================================================*/ static int hs_init(unsigned int sock) { hs_socket_t *sp = &hs_sockets[sock]; DPRINTK("hs_init(%d)\n", sock); sp->pending_events = 0; sp->state.Vcc = 0; sp->state.Vpp = 0; hs_set_voltages(sp, 0, 0); return 0; } /*============================================================*/ static int hs_suspend(unsigned int sock) { DPRINTK("hs_suspend(%d)\n", sock); /* TODO */ return 0; } /*============================================================*/ static int hs_register_callback(unsigned int sock, void (*handler)(void *, unsigned int), void * info) { hs_socket_t *sp = &hs_sockets[sock]; DPRINTK("hs_register_callback(%d)\n", sock); sp->handler = handler; sp->handler_info = info; if (handler == 0) { MOD_DEC_USE_COUNT; } else { MOD_INC_USE_COUNT; } return 0; } /*============================================================*/ static int hs_inquire_socket(unsigned int sock, socket_cap_t *cap) { DPRINTK("hs_inquire_socket(%d)\n", sock); *cap = hs_socket_cap; return 0; } /*============================================================*/ static int hs_get_status(unsigned int sock, u_int *value) { hs_socket_t *sp = &hs_sockets[sock]; unsigned int isr; u_int status = 0; isr = hs_in(sp, ISR); /* Card is seated and powered when *both* CD pins are low */ if ((isr & HD64465_PCCISR_PCD_MASK) == 0) { status |= SS_DETECT; /* card present */ switch (isr & HD64465_PCCISR_PBVD_MASK) { case HD64465_PCCISR_PBVD_BATGOOD: break; case HD64465_PCCISR_PBVD_BATWARN: status |= SS_BATWARN; break; default: status |= SS_BATDEAD; break; } if (isr & HD64465_PCCISR_PREADY) status |= SS_READY; if (isr & HD64465_PCCISR_PMWP) status |= SS_WRPROT; /* Voltage Select pins interpreted as per Table 4-5 of the std. * Assuming we have the TPS2206, the socket is a "Low Voltage * key, 3.3V and 5V available, no X.XV available". */ switch (isr & (HD64465_PCCISR_PVS2|HD64465_PCCISR_PVS1)) { case HD64465_PCCISR_PVS1: printk(KERN_NOTICE MODNAME ": cannot handle X.XV card, ignored\n"); status = 0; break; case 0: case HD64465_PCCISR_PVS2: /* 3.3V */ status |= SS_3VCARD; break; case HD64465_PCCISR_PVS2|HD64465_PCCISR_PVS1: /* 5V */ break; } /* TODO: SS_POWERON */ /* TODO: SS_STSCHG */ } DPRINTK("hs_get_status(%d) = %x\n", sock, status); *value = status; return 0; } /*============================================================*/ static int hs_get_socket(unsigned int sock, socket_state_t *state) { hs_socket_t *sp = &hs_sockets[sock]; DPRINTK("hs_get_socket(%d)\n", sock); *state = sp->state; return 0; } /*============================================================*/ static int hs_set_socket(unsigned int sock, socket_state_t *state) { hs_socket_t *sp = &hs_sockets[sock]; u_long flags; u_int changed; unsigned short cscier; DPRINTK("hs_set_socket(sock=%d, flags=%x, csc_mask=%x, Vcc=%d, Vpp=%d, io_irq=%d)\n", sock, state->flags, state->csc_mask, state->Vcc, state->Vpp, state->io_irq); save_and_cli(flags); /* Don't want interrupts happening here */ if (state->Vpp != sp->state.Vpp || state->Vcc != sp->state.Vcc) { if (!hs_set_voltages(sp, state->Vcc, state->Vpp)) { restore_flags(flags); return -EINVAL; } } /* hd64465_io_debug = 1; */ /* * Handle changes in the Card Status Change mask, * by propagating to the CSCR register */ changed = sp->state.csc_mask ^ state->csc_mask; cscier = hs_in(sp, CSCIER); if (changed & SS_DETECT) { if (state->csc_mask & SS_DETECT) cscier |= HD64465_PCCCSCIER_PCDE; else cscier &= ~HD64465_PCCCSCIER_PCDE; } if (changed & SS_READY) { if (state->csc_mask & SS_READY) cscier |= HD64465_PCCCSCIER_PRE; else cscier &= ~HD64465_PCCCSCIER_PRE; } if (changed & SS_BATDEAD) { if (state->csc_mask & SS_BATDEAD) cscier |= HD64465_PCCCSCIER_PBDE; else cscier &= ~HD64465_PCCCSCIER_PBDE; } if (changed & SS_BATWARN) { if (state->csc_mask & SS_BATWARN) cscier |= HD64465_PCCCSCIER_PBWE; else cscier &= ~HD64465_PCCCSCIER_PBWE; } if (changed & SS_STSCHG) { if (state->csc_mask & SS_STSCHG) cscier |= HD64465_PCCCSCIER_PSCE; else cscier &= ~HD64465_PCCCSCIER_PSCE; } hs_out(sp, cscier, CSCIER); if (sp->state.io_irq && !state->io_irq) hs_unmap_irq(sp, sp->state.io_irq); else if (!sp->state.io_irq && state->io_irq) hs_map_irq(sp, state->io_irq); /* * Handle changes in the flags field, * by propagating to config registers. */ changed = sp->state.flags ^ state->flags; if (changed & SS_IOCARD) { DPRINTK("card type: %s\n", (state->flags & SS_IOCARD ? "i/o" : "memory" )); bool_to_regbit(sp, GCR, HD64465_PCCGCR_PCCT, state->flags & SS_IOCARD); } if (changed & SS_RESET) { DPRINTK("%s reset card\n", (state->flags & SS_RESET ? "start" : "stop")); bool_to_regbit(sp, GCR, HD64465_PCCGCR_PCCR, state->flags & SS_RESET); } if (changed & SS_OUTPUT_ENA) { DPRINTK("%sabling card output\n", (state->flags & SS_OUTPUT_ENA ? "en" : "dis")); bool_to_regbit(sp, GCR, HD64465_PCCGCR_PDRV, state->flags & SS_OUTPUT_ENA); } /* TODO: SS_SPKR_ENA */ /* hd64465_io_debug = 0; */ sp->state = *state; restore_flags(flags); #if HD64465_DEBUG > 10 if (state->flags & SS_OUTPUT_ENA) cis_hex_dump((const unsigned char*)sp->mem_base, 0x100); #endif return 0; } /*============================================================*/ static int hs_get_io_map(unsigned int sock, struct pccard_io_map *io) { hs_socket_t *sp = &hs_sockets[sock]; int map = io->map; DPRINTK("hs_get_io_map(%d, %d)\n", sock, map); if (map >= MAX_IO_WIN) return -EINVAL; *io = sp->io_maps[map]; return 0; } /*============================================================*/ static int hs_set_io_map(unsigned int sock, struct pccard_io_map *io) { hs_socket_t *sp = &hs_sockets[sock]; int map = io->map; struct pccard_io_map *sio; pgprot_t prot; DPRINTK("hs_set_io_map(sock=%d, map=%d, flags=0x%x, speed=%dns, start=0x%04x, stop=0x%04x)\n", sock, map, io->flags, io->speed, io->start, io->stop); if (map >= MAX_IO_WIN) return -EINVAL; sio = &sp->io_maps[map]; /* check for null changes */ if (io->flags == sio->flags && io->start == sio->start && io->stop == sio->stop) return 0; if (io->flags & MAP_AUTOSZ) prot = PAGE_KERNEL_PCC(sock, _PAGE_PCC_IODYN); else if (io->flags & MAP_16BIT) prot = PAGE_KERNEL_PCC(sock, _PAGE_PCC_IO16); else prot = PAGE_KERNEL_PCC(sock, _PAGE_PCC_IO8); /* TODO: handle MAP_USE_WAIT */ if (io->flags & MAP_USE_WAIT) printk(KERN_INFO MODNAME ": MAP_USE_WAIT unimplemented\n"); /* TODO: handle MAP_PREFETCH */ if (io->flags & MAP_PREFETCH) printk(KERN_INFO MODNAME ": MAP_PREFETCH unimplemented\n"); /* TODO: handle MAP_WRPROT */ if (io->flags & MAP_WRPROT) printk(KERN_INFO MODNAME ": MAP_WRPROT unimplemented\n"); /* TODO: handle MAP_0WS */ if (io->flags & MAP_0WS) printk(KERN_INFO MODNAME ": MAP_0WS unimplemented\n"); if (io->flags & MAP_ACTIVE) { unsigned long pstart, psize, paddrbase, vaddrbase; paddrbase = virt_to_phys((void*)(sp->mem_base + 2 * HD64465_PCC_WINDOW)); vaddrbase = (unsigned long)sp->io_vma->addr; pstart = io->start & PAGE_MASK; psize = ((io->stop + PAGE_SIZE) & PAGE_MASK) - pstart; /* * Change PTEs in only that portion of the mapping requested * by the caller. This means that most of the time, most of * the PTEs in the io_vma will be unmapped and only the bottom * page will be mapped. But the code allows for weird cards * that might want IO ports > 4K. */ DPRINTK("remap_page_range(vaddr=0x%08lx, paddr=0x%08lx, size=0x%08lxx)\n", vaddrbase + pstart, paddrbase + pstart, psize); remap_page_range(vaddrbase + pstart, paddrbase + pstart, psize, prot); /* * Change the mapping used by inb() outb() etc */ hd64465_port_map( io->start, io->stop - io->start + 1, vaddrbase + io->start); } else { hd64465_port_unmap( sio->start, sio->stop - sio->start + 1); /* TODO: remap_page_range() to mark pages not present ? */ } *sio = *io; return 0; } /*============================================================*/ static int hs_get_mem_map(unsigned int sock, struct pccard_mem_map *mem) { hs_socket_t *sp = &hs_sockets[sock]; int map = mem->map; DPRINTK("hs_get_mem_map(%d, %d)\n", sock, map); if (map >= MAX_WIN) return -EINVAL; *mem = sp->mem_maps[map]; return 0; } /*============================================================*/ static int hs_set_mem_map(unsigned int sock, struct pccard_mem_map *mem) { hs_socket_t *sp = &hs_sockets[sock]; struct pccard_mem_map *smem; int map = mem->map; unsigned long paddr, size; #if 0 DPRINTK("hs_set_mem_map(sock=%d, map=%d, flags=0x%x, sys_start=0x%08lx, sys_end=0x%08lx, card_start=0x%08x)\n", sock, map, mem->flags, mem->sys_start, mem->sys_stop, mem->card_start); #endif if (map >= MAX_WIN) return -EINVAL; smem = &sp->mem_maps[map]; size = mem->sys_stop - mem->sys_start + 1; paddr = sp->mem_base; /* base of Attribute mapping */ if (!(mem->flags & MAP_ATTRIB)) paddr += HD64465_PCC_WINDOW; /* base of Common mapping */ paddr += mem->card_start; /* Because we specified SS_CAP_STATIC_MAP, we are obliged * at this time to report the system address corresponding * to the card address requested. This is how Socket Services * queries our fixed mapping. I wish this fact had been * documented - Greg Banks. */ mem->sys_start = paddr; mem->sys_stop = paddr + size - 1; *smem = *mem; return 0; } /* TODO: do we need to use the MMU to access Common memory ??? */ /*============================================================*/ static void hs_proc_setup(unsigned int sock, struct proc_dir_entry *base) { DPRINTK("hs_proc_setup(%d)\n", sock); } /*============================================================*/ /* * This function is registered with the HD64465 glue code to do a * secondary demux step on the PCMCIA interrupts. It handles * mapping the IREQ request from the card to a standard Linux * IRQ, as requested by SocketServices. */ static int hs_irq_demux(int irq, void *dev) { hs_socket_t *sp = (hs_socket_t *)dev; u_int cscr; DPRINTK("hs_irq_demux(irq=%d)\n", irq); if (sp->state.io_irq && (cscr = hs_in(sp, CSCR)) & HD64465_PCCCSCR_PIREQ) { cscr &= ~HD64465_PCCCSCR_PIREQ; hs_out(sp, cscr, CSCR); return sp->state.io_irq; } return irq; } /*============================================================*/ /* * Interrupt handling routine. * * This uses the schedule_task() technique to cause reportable events * such as card insertion and removal to be handled in keventd's * process context. */ static void hs_events_bh(void *dummy) { hs_socket_t *sp; u_int events; int i; for (i=0; i<HS_MAX_SOCKETS; i++) { sp = &hs_sockets[i]; spin_lock_irq(&hs_pending_event_lock); events = sp->pending_events; sp->pending_events = 0; spin_unlock_irq(&hs_pending_event_lock); if (sp->handler) sp->handler(sp->handler_info, events); } } static struct tq_struct hs_events_task = { routine: hs_events_bh }; static void hs_interrupt(int irq, void *dev, struct pt_regs *regs) { hs_socket_t *sp = (hs_socket_t *)dev; u_int events = 0; u_int cscr; cscr = hs_in(sp, CSCR); DPRINTK("hs_interrupt, cscr=%04x\n", cscr); /* check for bus-related changes to be reported to Socket Services */ if (cscr & HD64465_PCCCSCR_PCDC) { /* double-check for a 16-bit card, as we don't support CardBus */ if ((hs_in(sp, ISR) & HD64465_PCCISR_PCD_MASK) != 0) { printk(KERN_NOTICE MODNAME ": socket %d, card not a supported card type or not inserted correctly\n", hs_sockno(sp)); /* Don't do the rest unless a card is present */ cscr &= ~(HD64465_PCCCSCR_PCDC| HD64465_PCCCSCR_PRC| HD64465_PCCCSCR_PBW| HD64465_PCCCSCR_PBD| HD64465_PCCCSCR_PSC); } else { cscr &= ~HD64465_PCCCSCR_PCDC; events |= SS_DETECT; /* card insertion or removal */ } } if (cscr & HD64465_PCCCSCR_PRC) { cscr &= ~HD64465_PCCCSCR_PRC; events |= SS_READY; /* ready signal changed */ } if (cscr & HD64465_PCCCSCR_PBW) { cscr &= ~HD64465_PCCCSCR_PSC; events |= SS_BATWARN; /* battery warning */ } if (cscr & HD64465_PCCCSCR_PBD) { cscr &= ~HD64465_PCCCSCR_PSC; events |= SS_BATDEAD; /* battery dead */ } if (cscr & HD64465_PCCCSCR_PSC) { cscr &= ~HD64465_PCCCSCR_PSC; events |= SS_STSCHG; /* STSCHG (status changed) signal */ } if (cscr & HD64465_PCCCSCR_PIREQ) { cscr &= ~HD64465_PCCCSCR_PIREQ; /* This should have been dealt with during irq demux */ printk(KERN_NOTICE MODNAME ": unexpected IREQ from card\n"); } hs_out(sp, cscr, CSCR); if (events) { /* * Arrange for events to be reported to the registered * event handler function (from CardServices) in a process * context (keventd) "soon". */ spin_lock(&hs_pending_event_lock); sp->pending_events |= events; spin_unlock(&hs_pending_event_lock); schedule_task(&hs_events_task); } } /*============================================================*/ static struct pccard_operations hs_operations = { hs_init, hs_suspend, hs_register_callback, hs_inquire_socket, hs_get_status, hs_get_socket, hs_set_socket, hs_get_io_map, hs_set_io_map, hs_get_mem_map, hs_set_mem_map, hs_proc_setup }; static int hs_init_socket(hs_socket_t *sp, int irq, unsigned long mem_base, unsigned int ctrl_base) { unsigned short v; int i, err; memset(sp, 0, sizeof(*sp)); sp->irq = irq; sp->mem_base = mem_base; sp->mem_length = 4*HD64465_PCC_WINDOW; /* 16MB */ sp->ctrl_base = ctrl_base; for (i=0 ; i<MAX_IO_WIN ; i++) sp->io_maps[i].map = i; for (i=0 ; i<MAX_WIN ; i++) sp->mem_maps[i].map = i; if ((sp->io_vma = get_vm_area(HS_IO_MAP_SIZE, VM_IOREMAP)) == 0) return -ENOMEM; hd64465_register_irq_demux(sp->irq, hs_irq_demux, sp); if ((err = request_irq(sp->irq, hs_interrupt, SA_INTERRUPT, MODNAME, sp)) < 0) return err; if (request_mem_region(sp->mem_base, sp->mem_length, MODNAME) == 0) { sp->mem_base = 0; return -ENOMEM; } /* According to section 3.2 of the PCMCIA standard, low-voltage * capable cards must implement cold insertion, i.e. Vpp and * Vcc set to 0 before card is inserted. */ /*hs_set_voltages(sp, 0, 0);*/ /* hi-Z the outputs to the card and set 16MB map mode */ v = hs_in(sp, GCR); v &= ~HD64465_PCCGCR_PCCT; /* memory-only card */ hs_out(sp, v, GCR); v = hs_in(sp, GCR); v |= HD64465_PCCGCR_PDRV; /* enable outputs to card */ hs_out(sp, v, GCR); v = hs_in(sp, GCR); v |= HD64465_PCCGCR_PMMOD; /* 16MB mapping mode */ hs_out(sp, v, GCR); v = hs_in(sp, GCR); /* lowest 16MB of Common */ v &= ~(HD64465_PCCGCR_PPA25|HD64465_PCCGCR_PPA24); hs_out(sp, v, GCR); hs_reset_socket(sp, 1); return 0; } static void hs_exit_socket(hs_socket_t *sp) { unsigned short cscier, gcr; /* turn off interrupts in hardware */ cscier = hs_in(sp, CSCIER); cscier = (cscier & IER_MASK) | IER_OFF; hs_out(sp, cscier, CSCIER); /* hi-Z the outputs to the card */ gcr = hs_in(sp, GCR); gcr &= HD64465_PCCGCR_PDRV; hs_out(sp, gcr, GCR); /* power the card down */ hs_set_voltages(sp, 0, 0); if (sp->mem_base != 0) release_mem_region(sp->mem_base, sp->mem_length); if (sp->irq != 0) { free_irq(sp->irq, hs_interrupt); hd64465_unregister_irq_demux(sp->irq); } if (sp->io_vma != 0) vfree(sp->io_vma->addr); } static int __init init_hs(void) { servinfo_t serv; int i; unsigned short v; /* * Check API version */ pcmcia_get_card_services_info(&serv); if (serv.Revision != CS_RELEASE_CODE) { printk(KERN_NOTICE MODNAME ": Card Services release does not match!\n"); return -ENODEV; } /* hd64465_io_debug = 1; */ /* Wake both sockets out of STANDBY mode */ /* TODO: wait 15ms */ v = inw(HD64465_REG_SMSCR); v &= ~(HD64465_SMSCR_PC0ST|HD64465_SMSCR_PC1ST); outw(v, HD64465_REG_SMSCR); /* keep power controller out of shutdown mode */ v = inb(HD64465_REG_PCC0SCR); v |= HD64465_PCCSCR_SHDN; outb(v, HD64465_REG_PCC0SCR); /* use serial (TPS2206) power controller */ v = inb(HD64465_REG_PCC0CSCR); v |= HD64465_PCCCSCR_PSWSEL; outb(v, HD64465_REG_PCC0CSCR); hs_set_voltages(&hs_sockets[0], 0, 0); hs_set_voltages(&hs_sockets[1], 0, 0); /* * Setup hs_sockets[] structures and request system resources. * TODO: on memory allocation failure, power down the socket * before quitting. */ i = hs_init_socket(&hs_sockets[0], HD64465_IRQ_PCMCIA0, HD64465_PCC0_BASE, HD64465_REG_PCC0ISR); if (i < 0) return i; i = hs_init_socket(&hs_sockets[1], HD64465_IRQ_PCMCIA1, HD64465_PCC1_BASE, HD64465_REG_PCC1ISR); if (i < 0) return i; /* hd64465_io_debug = 0; */ if (register_ss_entry(HS_MAX_SOCKETS, &hs_operations) != 0) { for (i=0 ; i<HS_MAX_SOCKETS ; i++) hs_exit_socket(&hs_sockets[i]); return -ENODEV; } printk(KERN_INFO "HD64465 PCMCIA bridge:\n"); for (i=0 ; i<HS_MAX_SOCKETS ; i++) { hs_socket_t *sp = &hs_sockets[i]; printk(KERN_INFO " socket %d at 0x%08lx irq %d io window %ldK@0x%08lx\n", i, sp->mem_base, sp->irq, sp->io_vma->size>>10, (unsigned long)sp->io_vma->addr); } return 0; } static void __exit exit_hs(void) { u_long flags; int i; save_and_cli(flags); /* * Release kernel resources */ for (i=0 ; i<HS_MAX_SOCKETS ; i++) hs_exit_socket(&hs_sockets[i]); unregister_ss_entry(&hs_operations); restore_flags(flags); } module_init(init_hs); module_exit(exit_hs); /*============================================================*/ /*END*/ |