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/* SPDX-License-Identifier: GPL-2.0+ */
/*
* Copyright (C) 2014 Freescale Semiconductor
*/
#ifndef _FSL_QBMAN_BASE_H
#define _FSL_QBMAN_BASE_H
/* Descriptor for a QBMan instance on the SoC. On partitions/targets that do not
* control this QBMan instance, these values may simply be place-holders. The
* idea is simply that we be able to distinguish between them, eg. so that SWP
* descriptors can identify which QBMan instance they belong to. */
struct qbman_block_desc {
void *ccsr_reg_bar; /* CCSR register map */
int irq_rerr; /* Recoverable error interrupt line */
int irq_nrerr; /* Non-recoverable error interrupt line */
};
/* Descriptor for a QBMan software portal, expressed in terms that make sense to
* the user context. Ie. on MC, this information is likely to be true-physical,
* and instantiated statically at compile-time. On GPP, this information is
* likely to be obtained via "discovery" over a partition's "layerscape bus"
* (ie. in response to a MC portal command), and would take into account any
* virtualisation of the GPP user's address space and/or interrupt numbering. */
struct qbman_swp_desc {
const struct qbman_block_desc *block; /* The QBMan instance */
void *cena_bar; /* Cache-enabled portal register map */
void *cinh_bar; /* Cache-inhibited portal register map */
};
/* Driver object for managing a QBMan portal */
struct qbman_swp;
/* Place-holder for FDs, we represent it via the simplest form that we need for
* now. Different overlays may be needed to support different options, etc. (It
* is impractical to define One True Struct, because the resulting encoding
* routines (lots of read-modify-writes) would be worst-case performance whether
* or not circumstances required them.)
*
* Note, as with all data-structures exchanged between software and hardware (be
* they located in the portal register map or DMA'd to and from main-memory),
* the driver ensures that the caller of the driver API sees the data-structures
* in host-endianness. "struct qbman_fd" is no exception. The 32-bit words
* contained within this structure are represented in host-endianness, even if
* hardware always treats them as little-endian. As such, if any of these fields
* are interpreted in a binary (rather than numerical) fashion by hardware
* blocks (eg. accelerators), then the user should be careful. We illustrate
* with an example;
*
* Suppose the desired behaviour of an accelerator is controlled by the "frc"
* field of the FDs that are sent to it. Suppose also that the behaviour desired
* by the user corresponds to an "frc" value which is expressed as the literal
* sequence of bytes 0xfe, 0xed, 0xab, and 0xba. So "frc" should be the 32-bit
* value in which 0xfe is the first byte and 0xba is the last byte, and as
* hardware is little-endian, this amounts to a 32-bit "value" of 0xbaabedfe. If
* the software is little-endian also, this can simply be achieved by setting
* frc=0xbaabedfe. On the other hand, if software is big-endian, it should set
* frc=0xfeedabba! The best away of avoiding trouble with this sort of thing is
* to treat the 32-bit words as numerical values, in which the offset of a field
* from the beginning of the first byte (as required or generated by hardware)
* is numerically encoded by a left-shift (ie. by raising the field to a
* corresponding power of 2). Ie. in the current example, software could set
* "frc" in the following way, and it would work correctly on both little-endian
* and big-endian operation;
* fd.frc = (0xfe << 0) | (0xed << 8) | (0xab << 16) | (0xba << 24);
*/
struct qbman_fd {
union {
uint32_t words[8];
struct qbman_fd_simple {
uint32_t addr_lo;
uint32_t addr_hi;
uint32_t len;
/* offset in the MS 16 bits, BPID in the LS 16 bits */
uint32_t bpid_offset;
uint32_t frc; /* frame context */
/* "err", "va", "cbmt", "asal", [...] */
uint32_t ctrl;
/* flow context */
uint32_t flc_lo;
uint32_t flc_hi;
} simple;
};
};
#endif /* !_FSL_QBMAN_BASE_H */
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