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[/] [or1k/] [trunk/] [linux/] [linux-2.4/] [drivers/] [pcmcia/] [sa1100_flexanet.c] - Rev 1765
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/* * drivers/pcmcia/sa1100_flexanet.c * * PCMCIA implementation routines for Flexanet. * by Jordi Colomer, 09/05/2001 * */ #include <linux/kernel.h> #include <linux/sched.h> #include <asm/hardware.h> #include <asm/irq.h> #include "sa1100_generic.h" static struct { int irq; unsigned int gpio; const char *name; } irqs[] = { { IRQ_GPIO_CF1_CD, GPIO_CF1_NCD, "CF1_CD" }, { IRQ_GPIO_CF1_BVD1, GPIO_CF1_BVD1, "CF1_BVD1" }, { IRQ_GPIO_CF2_CD, GPIO_CF2_NCD, "CF2_CD" }, { IRQ_GPIO_CF2_BVD1, GPIO_CF2_BVD1, "CF2_BVD1" } }; /* * Socket initialization. * * Called by sa1100_pcmcia_driver_init on startup. * Must return the number of slots. * */ static int flexanet_pcmcia_init(struct pcmcia_init *init) { int i, res; /* Configure the GPIOs as inputs (BVD2 is not implemented) */ GPDR &= ~(GPIO_CF1_NCD | GPIO_CF1_BVD1 | GPIO_CF1_IRQ | GPIO_CF2_NCD | GPIO_CF2_BVD1 | GPIO_CF2_IRQ ); /* Set IRQ edge */ set_GPIO_IRQ_edge( GPIO_CF1_IRQ | GPIO_CF2_IRQ, GPIO_FALLING_EDGE ); /* Register the socket interrupts (not the card interrupts) */ for (i = 0; i < ARRAY_SIZE(irqs); i++) { set_GPIO_IRQ_edge(irqs[i].gpio, GPIO_NO_EDGES); res = request_irq(irqs[i].irq, init->handler, SA_INTERRUPT, irqs[i].name, NULL); if (res < 0) break; } /* If we failed, then free all interrupts requested thus far. */ if (res < 0) { printk(KERN_ERR "%s: Request for IRQ%u failed: %d\n", __FUNCTION__, irqs[i].irq, res); while (i--) free_irq(irqs[i].irq, NULL); return -1; } return 2; } /* * Socket shutdown * */ static int flexanet_pcmcia_shutdown(void) { int i; /* disable IRQs */ for (i = 0; i < ARRAY_SIZE(irqs); i++) free_irq(irqs[i].irq, NULL); return 0; } /* * Get the state of the sockets. * * Sockets in Flexanet are 3.3V only, without BVD2. * */ static int flexanet_pcmcia_socket_state(struct pcmcia_state_array *state_array){ unsigned long levels; if (state_array->size < 2) return -1; /* Sense the GPIOs, asynchronously */ levels = GPLR; /* Socket 0 */ state_array->state[0].detect = ((levels & GPIO_CF1_NCD)==0)?1:0; state_array->state[0].ready = (levels & GPIO_CF1_IRQ)?1:0; state_array->state[0].bvd1 = (levels & GPIO_CF1_BVD1)?1:0; state_array->state[0].bvd2 = 1; state_array->state[0].wrprot = 0; state_array->state[0].vs_3v = 1; state_array->state[0].vs_Xv = 0; /* Socket 1 */ state_array->state[1].detect = ((levels & GPIO_CF2_NCD)==0)?1:0; state_array->state[1].ready = (levels & GPIO_CF2_IRQ)?1:0; state_array->state[1].bvd1 = (levels & GPIO_CF2_BVD1)?1:0; state_array->state[1].bvd2 = 1; state_array->state[1].wrprot = 0; state_array->state[1].vs_3v = 1; state_array->state[1].vs_Xv = 0; return 1; } /* * Return the IRQ information for a given socket number (the IRQ number) * */ static int flexanet_pcmcia_get_irq_info(struct pcmcia_irq_info *info){ /* check the socket index */ if (info->sock > 1) return -1; if (info->sock == 0) info->irq = IRQ_GPIO_CF1_IRQ; else if (info->sock == 1) info->irq = IRQ_GPIO_CF2_IRQ; return 0; } /* * */ static int flexanet_pcmcia_configure_socket(const struct pcmcia_configure *configure) { unsigned long value, flags, mask; if (configure->sock > 1) return -1; /* Ignore the VCC level since it is 3.3V and always on */ switch (configure->vcc) { case 0: printk(KERN_WARNING "%s(): CS asked to power off.\n", __FUNCTION__); break; case 50: printk(KERN_WARNING "%s(): CS asked for 5V, applying 3.3V...\n", __FUNCTION__); case 33: break; default: printk(KERN_ERR "%s(): unrecognized Vcc %u\n", __FUNCTION__, configure->vcc); return -1; } /* Reset the slot(s) using the controls in the BCR */ mask = 0; switch (configure->sock) { case 0 : mask = FHH_BCR_CF1_RST; break; case 1 : mask = FHH_BCR_CF2_RST; break; } save_flags_cli(flags); value = flexanet_BCR; value = (configure->reset) ? (value | mask) : (value & ~mask); FHH_BCR = flexanet_BCR = value; restore_flags(flags); return 0; } static int flexanet_pcmcia_socket_init(int sock) { if (sock == 0) set_GPIO_IRQ_edge(GPIO_CF1_NCD | GPIO_CF1_BVD1, GPIO_BOTH_EDGES); else if (sock == 1) set_GPIO_IRQ_edge(GPIO_CF2_NCD | GPIO_CF2_BVD1, GPIO_BOTH_EDGES); return 0; } static int flexanet_pcmcia_socket_suspend(int sock) { if (sock == 0) set_GPIO_IRQ_edge(GPIO_CF1_NCD | GPIO_CF1_BVD1, GPIO_NO_EDGES); else if (sock == 1) set_GPIO_IRQ_edge(GPIO_CF2_NCD | GPIO_CF2_BVD1, GPIO_NO_EDGES); return 0; } /* * The set of socket operations * */ struct pcmcia_low_level flexanet_pcmcia_ops = { init: flexanet_pcmcia_init, shutdown: flexanet_pcmcia_shutdown, socket_state: flexanet_pcmcia_socket_state, get_irq_info: flexanet_pcmcia_get_irq_info, configure_socket: flexanet_pcmcia_configure_socket, socket_init: flexanet_pcmcia_socket_init, socket_suspend: flexanet_pcmcia_socket_suspend, };