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#ifndef CYGONCE_PLF_IO_H #define CYGONCE_PLF_IO_H //============================================================================= // // plf_io.h // // Platform specific IO support // //============================================================================= //####ECOSGPLCOPYRIGHTBEGIN#### // ------------------------------------------- // This file is part of eCos, the Embedded Configurable Operating System. // Copyright (C) 1998, 1999, 2000, 2001, 2002 Red Hat, Inc. // // eCos is free software; you can redistribute it and/or modify it under // the terms of the GNU General Public License as published by the Free // Software Foundation; either version 2 or (at your option) any later version. // // eCos is distributed in the hope that it will be useful, but WITHOUT ANY // WARRANTY; without even the implied warranty of MERCHANTABILITY or // FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License // for more details. // // You should have received a copy of the GNU General Public License along // with eCos; if not, write to the Free Software Foundation, Inc., // 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA. // // As a special exception, if other files instantiate templates or use macros // or inline functions from this file, or you compile this file and link it // with other works to produce a work based on this file, this file does not // by itself cause the resulting work to be covered by the GNU General Public // License. However the source code for this file must still be made available // in accordance with section (3) of the GNU General Public License. // // This exception does not invalidate any other reasons why a work based on // this file might be covered by the GNU General Public License. // // Alternative licenses for eCos may be arranged by contacting Red Hat, Inc. // at http://sources.redhat.com/ecos/ecos-license/ // ------------------------------------------- //####ECOSGPLCOPYRIGHTEND#### //============================================================================= //#####DESCRIPTIONBEGIN#### // // Author(s): hmt, jskov // Contributors: hmt, jskov // Date: 1999-08-09 // Purpose: Intel EBSA285 PCI IO support macros // Description: // Usage: #include <cyg/hal/plf_io.h> // // Note: Based on information in // "21285 Core Logic for SA-110 Microprocessor" //####DESCRIPTIONEND#### // //============================================================================= #include <pkgconf/hal_arm_ebsa285.h> #include <cyg/hal/hal_ebsa285.h> #include <cyg/hal/hal_io.h> // IO macros #include <cyg/hal/hal_platform_ints.h> // Interrupt vectors // Memory map is 1-1 #define CYGARC_PHYSICAL_ADDRESS(_x_) (_x_) // The PCI resources required by the EBSA are hardcoded to the lowest // addresses in the PCI address space, thus: // PCI Memory Space #define EBSA_SDRAM_PCI_ADDR 0 #define EBSA_SDRAM_PCI_SIZE (CYGHWR_HAL_ARM_EBSA285_PCI_MEM_MAP_SIZE) #define EBSA_CSR_MEM_PCI_ADDR (EBSA_SDRAM_PCI_SIZE) #define EBSA_CSR_MEM_PCI_SIZE 0x80 // PCI IO Space #define EBSA_CSR_IO_PCI_ADDR 0 #define EBSA_CSR_IO_PCI_SIZE 0x80 // Incidentally I now understand why it's necessary to force PCI reset // (2000-08-07) - with RedBoot in ROM, the RAM app was unconditionally // reinitializing the PCI bus when it was already initialized, without // resetting it. We cannot play the same game here as with // hal_platform_setup.h - I tried - because otherwise the net cannot // re-initialize itself; the scan for devices fails. // Initialize the PCI bus. #define HAL_PCI_INIT() \ CYG_MACRO_START \ cyg_uint32 __tmp, __tmp2; \ \ /* Assert PCI_reset */ \ HAL_READ_UINT32(SA110_CONTROL, __tmp); \ __tmp &= ~SA110_CONTROL_RST_I; \ HAL_WRITE_UINT32(SA110_CONTROL, __tmp); \ \ /* Disable PCI Outbound interrupts */ \ /* (according to 7-14 SA110_OUT_INT_MASK is not accessible */ \ /* by SA-100) */ \ HAL_WRITE_UINT32(SA110_OUT_INT_STATUS, \ SA110_OUT_INT_STATUS_DOORBELL_INT \ |SA110_OUT_INT_STATUS_OUTBOUND_INT); \ \ /* Disable Doorbells */ \ HAL_WRITE_UINT32(SA110_DOORBELL_PCI_MASK, 0); \ HAL_WRITE_UINT32(SA110_DOORBELL_SA_MASK, 0); \ \ /* Map high PCI address bits to 0 */ \ HAL_WRITE_UINT32(SA110_PCI_ADDR_EXT, 0); \ \ /* Interrupt ID to 1 */ \ HAL_WRITE_UINT16(SA110_PCI_CFG_INT_LINE, 0x0100); \ \ /* Remove PCI_reset */ \ HAL_READ_UINT32(SA110_CONTROL, __tmp); \ __tmp |= SA110_CONTROL_RST_I; \ HAL_WRITE_UINT32(SA110_CONTROL, __tmp); \ \ /* Open a window to SDRAM from PCI address space */ \ HAL_WRITE_UINT32(SA110_SDRAM_BASE_ADDRESS_MASK, \ ((CYGHWR_HAL_ARM_EBSA285_PCI_MEM_MAP_SIZE-1) & 0xfffc0000)); \ HAL_WRITE_UINT32(SA110_SDRAM_BASE_ADDRESS_OFFSET, \ CYGHWR_HAL_ARM_EBSA285_PCI_MEM_MAP_BASE); \ \ /* Only init PCI if central function is set and */ \ /* standalone bit is cleared */ \ HAL_READ_UINT32(SA110_CONTROL, __tmp); \ HAL_READ_UINT32(SA110_XBUS_XCS2, __tmp2); \ if ((__tmp & SA110_CONTROL_CFN) == SA110_CONTROL_CFN \ && (__tmp2 & SA110_XBUS_XCS2_PCI_DISABLE) == 0) { \ \ /* Don't respond to any commands */ \ HAL_WRITE_UINT16(SA110_PCI_CFG_COMMAND, 0); \ \ /* Set up default addresses for board's resources. */ \ HAL_WRITE_UINT32(SA110_PCI_CFG_CSR_MEM_BAR, \ EBSA_CSR_MEM_PCI_ADDR); \ HAL_WRITE_UINT32(SA110_PCI_CFG_CSR_IO_BAR, EBSA_CSR_IO_PCI_ADDR);\ HAL_WRITE_UINT32(SA110_PCI_CFG_SDRAM_BAR, EBSA_SDRAM_PCI_ADDR); \ \ /* Respond to I/O space & Memory transactions. */ \ HAL_WRITE_UINT32(SA110_PCI_CFG_COMMAND, \ CYG_PCI_CFG_COMMAND_INVALIDATE \ |CYG_PCI_CFG_COMMAND_IO \ |CYG_PCI_CFG_COMMAND_MEMORY \ |CYG_PCI_CFG_COMMAND_MASTER); \ } \ /* Signal PCI_init_complete */ \ HAL_READ_UINT32(SA110_CONTROL, __tmp); \ __tmp |= SA110_CONTROL_INIT_COMPLETE; \ HAL_WRITE_UINT32(SA110_CONTROL, __tmp); \ \ CYG_MACRO_END // Compute address necessary to access PCI config space for the given // bus and device. #define HAL_PCI_CONFIG_ADDRESS( __bus, __devfn, __offset ) \ ({ \ cyg_uint32 __addr; \ cyg_uint32 __dev = CYG_PCI_DEV_GET_DEV(__devfn); \ if (0 == __bus) { \ if (0 == __dev) { \ /* Access self via CSR base */ \ __addr = SA110_CONTROL_STATUS_BASE; \ } else { \ /* Page 3-17, table 3-5: bits 15-11 generate PCI address */ \ __addr = SA110_PCI_CONFIG0_BASE | 0x00c00000 | (__dev << 11);\ } \ } else { \ __addr = SA110_PCI_CONFIG1_BASE | (__bus << 16) | (__dev << 11); \ } \ __addr |= CYG_PCI_DEV_GET_FN(__devfn) << 8; \ __addr |= __offset; \ __addr; \ }) // Read a value from the PCI configuration space of the appropriate // size at an address composed from the bus, devfn and offset. #define HAL_PCI_CFG_READ_UINT8( __bus, __devfn, __offset, __val ) \ HAL_READ_UINT8(HAL_PCI_CONFIG_ADDRESS(__bus, __devfn, __offset), __val) #define HAL_PCI_CFG_READ_UINT16( __bus, __devfn, __offset, __val ) \ HAL_READ_UINT16(HAL_PCI_CONFIG_ADDRESS(__bus, __devfn, __offset), __val) #define HAL_PCI_CFG_READ_UINT32( __bus, __devfn, __offset, __val ) \ HAL_READ_UINT32(HAL_PCI_CONFIG_ADDRESS(__bus, __devfn, __offset), __val) // Write a value to the PCI configuration space of the appropriate // size at an address composed from the bus, devfn and offset. #define HAL_PCI_CFG_WRITE_UINT8( __bus, __devfn, __offset, __val ) \ HAL_WRITE_UINT8(HAL_PCI_CONFIG_ADDRESS(__bus, __devfn, __offset), __val) #define HAL_PCI_CFG_WRITE_UINT16( __bus, __devfn, __offset, __val ) \ HAL_WRITE_UINT16(HAL_PCI_CONFIG_ADDRESS(__bus, __devfn, __offset), __val) #define HAL_PCI_CFG_WRITE_UINT32( __bus, __devfn, __offset, __val ) \ HAL_WRITE_UINT32(HAL_PCI_CONFIG_ADDRESS(__bus, __devfn, __offset), __val) //----------------------------------------------------------------------------- // Resources // Map PCI device resources starting from these addresses in PCI space. #define HAL_PCI_ALLOC_BASE_MEMORY (EBSA_SDRAM_PCI_SIZE+EBSA_CSR_MEM_PCI_SIZE) #define HAL_PCI_ALLOC_BASE_IO (EBSA_CSR_IO_PCI_SIZE) // This is where the PCI spaces are mapped in the CPU's address space. #define HAL_PCI_PHYSICAL_MEMORY_BASE 0x80000000 #define HAL_PCI_PHYSICAL_IO_BASE 0x7c000000 // Translate the PCI interrupt requested by the device (INTA#, INTB#, // INTC# or INTD#) to the associated CPU interrupt (i.e., HAL vector). #define HAL_PCI_TRANSLATE_INTERRUPT( __bus, __devfn, __vec, __valid) \ CYG_MACRO_START \ cyg_uint8 __req; \ HAL_PCI_CFG_READ_UINT8(__bus, __devfn, CYG_PCI_CFG_INT_PIN, __req); \ if (0 != __req) { \ /* Interrupt assignment as 21285 sees them. (From */ \ /* EBSA285 Eval Board Reference Manual, 3.4 Interrupt Assignment) */ \ CYG_ADDRWORD __translation[4] = { \ CYGNUM_HAL_INTERRUPT_IRQ_IN_1, /* INTC# */ \ CYGNUM_HAL_INTERRUPT_IRQ_IN_0, /* INTB# */ \ CYGNUM_HAL_INTERRUPT_PCI_IRQ, /* INTA# */ \ CYGNUM_HAL_INTERRUPT_IRQ_IN_3}; /* INTD# */ \ \ /* The PCI lines from the different slots are wired like this */ \ /* on the PCI backplane: */ \ /* pin6A pin7B pin7A pin8B */ \ /* System Slot INTA# INTB# INTC# INTD# */ \ /* I/O Slot 1 INTB# INTC# INTD# INTA# */ \ /* I/O Slot 2 INTC# INTD# INTA# INTB# */ \ /* I/O Slot 3 INTD# INTA# INTB# INTC# */ \ /* I/O Slot 4 INTA# INTB# INTC# INTD# */ \ /* */ \ /* (From PCI Development Backplane, 3.2.2 Interrupts) */ \ /* */ \ /* Devsel signals are wired to, resulting in device IDs: */ \ /* I/O Slot 1 AD19 / dev 8 [(8+1)&3 = 1] */ \ /* I/O Slot 2 AD18 / dev 7 [(7+1)&3 = 0] */ \ /* I/O Slot 3 AD17 / dev 6 [(6+1)&3 = 3] */ \ /* I/O Slot 4 AD16 / dev 5 [(5+1)&3 = 2] */ \ /* */ \ /* (From PCI Development Backplane, 3.2.1 General) */ \ /* */ \ /* The observant reader will notice that the array does not */ \ /* match the table of how interrupts are wired. The array */ \ /* does however match observed behavior of the hardware: */ \ /* */ \ /* Observed interrupts with an Intel ethernet card */ \ /* put in the slots in turn and set to generate interrupts: */ \ /* slot 1/intA# (dev 8): caused host INTB# */ \ /* slot 2/intA# (dev 7): caused host INTC# */ \ /* slot 3/intA# (dev 6): caused host INTD# */ \ /* slot 4/intA# (dev 5): caused host INTA# */ \ \ __vec = __translation[((__req+CYG_PCI_DEV_GET_DEV(__devfn))&3)]; \ __valid = true; \ } else { \ /* Device will not generate interrupt requests. */ \ __valid = false; \ } \ CYG_MACRO_END //----------------------------------------------------------------------------- // end of plf_io.h #endif // CYGONCE_PLF_IO_H
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