sonic-buildimage/platform/broadcom/saibcm-modules/include/ibde.h
zitingguo-ms 2c0f4e57d7
Upgrade XGS saibcm-modules to 8.4 (#16246)
Why I did it
XGS saibcm-modules 8.4 is needed. #14471

Work item tracking
Microsoft ADO (number only): 24917414
How I did it
Copy files from xgs SDK 8.4 repo and modify makefiles to build the image.
Upgrade version to 8.4.0.2 in saibcm-modules.mk.

How to verify it
Build a private image and run full qualification with it: https://elastictest.org/scheduler/testplan/650419cb71f60aa92c456a2b
2023-10-26 18:58:34 +08:00

215 lines
7.6 KiB
C

/*
* Copyright 2007-2020 Broadcom Inc. All rights reserved.
*
* Permission is granted to use, copy, modify and/or distribute this
* software under either one of the licenses below.
*
* License Option 1: GPL
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License, version 2, as
* published by the Free Software Foundation (the "GPL").
*
* This program 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 version 2 (GPLv2) for more details.
*
* You should have received a copy of the GNU General Public License
* version 2 (GPLv2) along with this source code.
*
*
* License Option 2: Broadcom Open Network Switch APIs (OpenNSA) license
*
* This software is governed by the Broadcom Open Network Switch APIs license:
* https://www.broadcom.com/products/ethernet-connectivity/software/opennsa
*/
/*
* $Id: ibde.h,v 1.27 Broadcom SDK $
* $Copyright: (c) 2005 Broadcom Corp.
* All Rights Reserved.$
*/
#ifndef __IBDE_H__
#define __IBDE_H__
#include <sal/types.h>
/*
* Represents a collection of devices
*/
typedef struct ibde_dev_s {
uint16 device;
uint8 rev;
sal_vaddr_t base_address;
sal_vaddr_t base_address1;
sal_vaddr_t base_address2;
/* a unique number representing the specific device.
* Must be different for different devices.
* May be used to identify specific devices in the system.
* May be implemented as a full PCIe address, a persistent configurable user value, ...
* Possible implementation value stores in QSPI flash memory of the device. */
uint32 dev_unique_id;
} ibde_dev_t;
typedef struct ibde_s {
const char *(*name)(void);
/* Returns the number of devices available */
/* Each device is is accessed through a handle */
/* Handles are assumed to index the array of devices */
/* Support SWITCH or ETHERNET or CPU devices */
int (*num_devices)(int type);
#define BDE_ALL_DEVICES 0
#define BDE_SWITCH_DEVICES 1
#define BDE_ETHER_DEVICES 2
#define BDE_CPU_DEVICES 3
const ibde_dev_t *(*get_dev)(int d);
/*
* Get types of underlaying devices.
* A combination of bus type and functional type is returned.
* In case of bus type, support PCI and SPI device types.
* In case of functional type, specify if underlaying device is
* a switching or ethernet device.
*/
uint32 (*get_dev_type)(int d);
#define BDE_PCI_DEV_TYPE SAL_PCI_DEV_TYPE /* PCI device */
#define BDE_SPI_DEV_TYPE SAL_SPI_DEV_TYPE /* SPI device */
#define BDE_EB_DEV_TYPE SAL_EB_DEV_TYPE /* EB device */
#define BDE_ICS_DEV_TYPE SAL_ICS_DEV_TYPE /* ICS device */
#define BDE_MII_DEV_TYPE SAL_MII_DEV_TYPE /* MII device */
#define BDE_I2C_DEV_TYPE SAL_I2C_DEV_TYPE /* I2C device */
#define BDE_AXI_DEV_TYPE SAL_AXI_DEV_TYPE /* AXI device */
#define BDE_EMMI_DEV_TYPE SAL_EMMI_DEV_TYPE /* EMMI device */
#define BDE_COMPOSITE_DEV_TYPE SAL_COMPOSITE_DEV_TYPE /* Composite device, composed of sub-devices with buses */
#define BDE_SUB_DEV_TYPE SAL_SUB_DEV_TYPE /* A sub-device (with a bus) of a composite device */
#define BDE_USER_DEV_TYPE SAL_USER_DEV_TYPE /* The user implements his own method of access to the device */
#define BDE_DEV_BUS_ALT SAL_DEV_BUS_ALT /* Alternate Access */
#define BDE_DEV_BUS_MSI SAL_DEV_BUS_MSI /* Message-signaled interrupts */
#define BDE_DEV_BUS_TYPE_MASK SAL_DEV_BUS_TYPE_MASK
#define BDE_SWITCH_DEV_TYPE SAL_SWITCH_DEV_TYPE /* Switch device */
#define BDE_ETHER_DEV_TYPE SAL_ETHER_DEV_TYPE /* Ethernet device */
#define BDE_CPU_DEV_TYPE SAL_CPU_DEV_TYPE /* CPU device */
#define BDE_BYTE_SWAP 0x01000000 /* SW byte swap */
#define BDE_NO_IPROC 0x02000000 /* Device uses two BARs, but is not iProc */
#define BDE_8MB_REG_SPACE 0x10000000 /* 8MB sized CMIC BAR */
#define BDE_256K_REG_SPACE 0x20000000 /* Map 256K (v 64K) */
#define BDE_128K_REG_SPACE 0x40000000 /* Map 128K (v 64K) */
#define BDE_320K_REG_SPACE 0x80000000 /* Map 256K+64K */
/* Bus supports only 16bit reads */
#define BDE_DEV_BUS_RD_16BIT SAL_DEV_BUS_RD_16BIT
/* Bus supports only 16bit writes */
#define BDE_DEV_BUS_WR_16BIT SAL_DEV_BUS_WR_16BIT
/* Backward compatibility */
#define BDE_ET_DEV_TYPE BDE_MII_DEV_TYPE
#define BDE_DEV_MEM_MAPPED(_d) \
((_d) & (BDE_PCI_DEV_TYPE | BDE_ICS_DEV_TYPE | BDE_EB_DEV_TYPE |\
BDE_EMMI_DEV_TYPE | BDE_AXI_DEV_TYPE))
/*
* PCI Bus Access
*/
uint32 (*pci_conf_read)(int d, uint32 addr);
int (*pci_conf_write)(int d, uint32 addr, uint32 data);
void (*pci_bus_features)(int d, int *be_pio, int *be_packet,
int *be_other);
uint32 (*read)(int d, uint32 addr);
int (*write)(int d, uint32 addr, uint32 data);
uint32* (*salloc)(int d, int size, const char *name);
void (*sfree)(int d, void *ptr);
int (*sflush)(int d, void *addr, int length);
int (*sinval)(int d, void *addr, int length);
int (*interrupt_connect)(int d, void (*)(void*), void *data);
int (*interrupt_disconnect)(int d);
sal_paddr_t (*l2p)(int d, void *laddr);
void* (*p2l)(int d, sal_paddr_t paddr);
/*
* SPI Access via SMP
*/
int (*spi_read)(int d, uint32 addr, uint8 *buf, int len);
int (*spi_write)(int d, uint32 addr, uint8 *buf, int len);
/* Special SPI access addresses */
#define BDE_DEV_OP_EMMI_INIT SAL_DEV_OP_EMMI_INIT
/*
* iProc register access
*/
uint32 (*iproc_read)(int d, uint32 addr);
int (*iproc_write)(int d, uint32 addr, uint32 data);
/*
* Shared memory access
*/
uint32 (*shmem_read)(int dev, uint32 addr, uint8 *buf, uint32 len);
void (*shmem_write)(int dev, uint32 addr, uint8 *buf, uint32 len);
sal_vaddr_t (*shmem_map)(int dev, uint32 addr, uint32 size);
/*
* cmic
*/
int (*get_cmic_ver)(int d, uint32 *ver);
/*
* I2C operations on the Device, assuming it is connected by I2C to the CPU.
*/
/* Read from the internal device Address space using I2C */
int (*i2c_device_read)(
int dev, /* The device ID to access */
uint32 addr, /* The address to access in the internal device address space */
uint32 *value);/* the value to be read. */
/* Write to the internal device Address space using I2C */
int (*i2c_device_write)(
int dev, /* The device ID to access */
uint32 addr, /* The address to access in the internal device address space */
uint32 value); /* the value to be written. */
/* 64 bit read/write */
uint64 (*read64)(int d, uint32 addr);
void (*write64)(int d, uint32 addr, uint64 data);
/*
* Probe for new devices.
*
* This function will normally be called implicitly by the BDE
* initialization function, but it may be called at a later time
* by the application to detect removed or added devices.
*
* Existing devices are not affected by this operation.
*
* If a device has been hot-swapped, then it will be assigned the
* same resources as before the hot-swap.
*
* Return value:
* 0: Device probe completed successfully.
* -1: An error happened during device probe.
*/
int (*probe)(void);
} ibde_t;
/* System BDE */
extern ibde_t *bde;
#endif /* __IBDE_H__ */