/*- * Copyright (c) 2013 Ian Lepore * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. */ #include "opt_platform.h" #include __FBSDID("$FreeBSD$"); #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include struct fdt_fixup_entry fdt_fixup_table[] = { { NULL, NULL } }; static uint32_t gpio1_node; /* * Work around the linux workaround for imx6 erratum 006687, in which some * ethernet interrupts don't go to the GPC and thus won't wake the system from * Wait mode. We don't use Wait mode (which halts the GIC, leaving only GPC * interrupts able to wake the system), so we don't experience the bug at all. * The linux workaround is to reconfigure GPIO1_6 as the ENET interrupt by * writing magic values to an undocumented IOMUX register, then letting the gpio * interrupt driver notify the ethernet driver. We'll be able to do all that * (even though we don't need to) once the INTRNG project is committed and the * imx_gpio driver becomes an interrupt driver. Until then, this crazy little * workaround watches for requests to map an interrupt 6 with the interrupt * controller node referring to gpio1, and it substitutes the proper ffec * interrupt number. */ static int imx6_decode_fdt(uint32_t iparent, uint32_t *intr, int *interrupt, int *trig, int *pol) { if (fdt32_to_cpu(intr[0]) == 6 && OF_node_from_xref(iparent) == gpio1_node) { *interrupt = 150; *trig = INTR_TRIGGER_CONFORM; *pol = INTR_POLARITY_CONFORM; return (0); } return (gic_decode_fdt(iparent, intr, interrupt, trig, pol)); } fdt_pic_decode_t fdt_pic_table[] = { &imx6_decode_fdt, NULL }; vm_offset_t initarm_lastaddr(void) { return (arm_devmap_lastaddr()); } void initarm_early_init(void) { /* Inform the MPCore timer driver that its clock is variable. */ arm_tmr_change_frequency(ARM_TMR_FREQUENCY_VARIES); } void initarm_gpio_init(void) { } void initarm_late_init(void) { const uint32_t IMX6_WDOG_SR_PHYS = 0x020bc004; imx_wdog_init_last_reset(IMX6_WDOG_SR_PHYS); /* Cache the gpio1 node handle for imx6_decode_fdt() workaround code. */ gpio1_node = OF_node_from_xref( OF_finddevice("/soc/aips-bus@02000000/gpio@0209c000")); } /* * Set up static device mappings. * * This attempts to cover the most-used devices with 1MB section mappings, which * is good for performance (uses fewer TLB entries for device access). * * ARMMP covers the interrupt controller, MPCore timers, global timer, and the * L2 cache controller. Most of the 1MB range is unused reserved space. * * AIPS1/AIPS2 cover most of the on-chip devices such as uart, spi, i2c, etc. * * Notably not mapped right now are HDMI, GPU, and other devices below ARMMP in * the memory map. When we get support for graphics it might make sense to * static map some of that area. Be careful with other things in that area such * as OCRAM that probably shouldn't be mapped as PTE_DEVICE memory. */ int initarm_devmap_init(void) { const uint32_t IMX6_ARMMP_PHYS = 0x00a00000; const uint32_t IMX6_ARMMP_SIZE = 0x00100000; const uint32_t IMX6_AIPS1_PHYS = 0x02000000; const uint32_t IMX6_AIPS1_SIZE = 0x00100000; const uint32_t IMX6_AIPS2_PHYS = 0x02100000; const uint32_t IMX6_AIPS2_SIZE = 0x00100000; arm_devmap_add_entry(IMX6_ARMMP_PHYS, IMX6_ARMMP_SIZE); arm_devmap_add_entry(IMX6_AIPS1_PHYS, IMX6_AIPS1_SIZE); arm_devmap_add_entry(IMX6_AIPS2_PHYS, IMX6_AIPS2_SIZE); return (0); } void cpu_reset(void) { const uint32_t IMX6_WDOG_CR_PHYS = 0x020bc000; imx_wdog_cpu_reset(IMX6_WDOG_CR_PHYS); } /* * Determine what flavor of imx6 we're running on. * * This code is based on the way u-boot does it. Information found on the web * indicates that Freescale themselves were the original source of this logic, * including the strange check for number of CPUs in the SCU configuration * register, which is apparently needed on some revisions of the SOLO. * * According to the documentation, there is such a thing as an i.MX6 Dual * (non-lite flavor). However, Freescale doesn't seem to have assigned it a * number or provided any logic to handle it in their detection code. * * Note that the ANALOG_DIGPROG and SCU configuration registers are not * documented in the chip reference manual. (SCU configuration is mentioned, * but not mapped out in detail.) I think the bottom two bits of the scu config * register may be ncpu-1. * * This hasn't been tested yet on a dual[-lite]. * * On a solo: * digprog = 0x00610001 * hwsoc = 0x00000062 * scu config = 0x00000500 * On a quad: * digprog = 0x00630002 * hwsoc = 0x00000063 * scu config = 0x00005503 */ u_int imx_soc_type() { uint32_t digprog, hwsoc; uint32_t *pcr; static u_int soctype; const vm_offset_t SCU_CONFIG_PHYSADDR = 0x00a00004; #define HWSOC_MX6SL 0x60 #define HWSOC_MX6DL 0x61 #define HWSOC_MX6SOLO 0x62 #define HWSOC_MX6Q 0x63 if (soctype != 0) return (soctype); digprog = imx6_anatop_read_4(IMX6_ANALOG_DIGPROG_SL); hwsoc = (digprog >> IMX6_ANALOG_DIGPROG_SOCTYPE_SHIFT) & IMX6_ANALOG_DIGPROG_SOCTYPE_MASK; if (hwsoc != HWSOC_MX6SL) { digprog = imx6_anatop_read_4(IMX6_ANALOG_DIGPROG); hwsoc = (digprog & IMX6_ANALOG_DIGPROG_SOCTYPE_MASK) >> IMX6_ANALOG_DIGPROG_SOCTYPE_SHIFT; /*printf("digprog = 0x%08x\n", digprog);*/ if (hwsoc == HWSOC_MX6DL) { pcr = arm_devmap_ptov(SCU_CONFIG_PHYSADDR, 4); if (pcr != NULL) { /*printf("scu config = 0x%08x\n", *pcr);*/ if ((*pcr & 0x03) == 0) { hwsoc = HWSOC_MX6SOLO; } } } } /* printf("hwsoc 0x%08x\n", hwsoc); */ switch (hwsoc) { case HWSOC_MX6SL: soctype = IMXSOC_6SL; break; case HWSOC_MX6SOLO: soctype = IMXSOC_6S; break; case HWSOC_MX6DL: soctype = IMXSOC_6DL; break; case HWSOC_MX6Q : soctype = IMXSOC_6Q; break; default: printf("imx_soc_type: Don't understand hwsoc 0x%02x, " "digprog 0x%08x; assuming IMXSOC_6Q\n", hwsoc, digprog); soctype = IMXSOC_6Q; break; } return (soctype); } /* * Early putc routine for EARLY_PRINTF support. To use, add to kernel config: * option SOCDEV_PA=0x02000000 * option SOCDEV_VA=0x02000000 * option EARLY_PRINTF * Resist the temptation to change the #if 0 to #ifdef EARLY_PRINTF here. It * makes sense now, but if multiple SOCs do that it will make early_putc another * duplicate symbol to be eliminated on the path to a generic kernel. */ #if 0 static void imx6_early_putc(int c) { volatile uint32_t * UART_STAT_REG = (uint32_t *)0x02020098; volatile uint32_t * UART_TX_REG = (uint32_t *)0x02020040; const uint32_t UART_TXRDY = (1 << 3); while ((*UART_STAT_REG & UART_TXRDY) == 0) continue; *UART_TX_REG = c; } early_putc_t *early_putc = imx6_early_putc; #endif