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diff --git a/include/soc/fsl/qman.h b/include/soc/fsl/qman.h
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+++ b/include/soc/fsl/qman.h
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+/* Copyright 2008 - 2016 Freescale Semiconductor, Inc.
+ *
+ * Redistribution and use in source and binary forms, with or without
+ * modification, are permitted provided that the following conditions are met:
+ * * Redistributions of source code must retain the above copyright
+ * notice, this list of conditions and the following disclaimer.
+ * * 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.
+ * * Neither the name of Freescale Semiconductor nor the
+ * names of its contributors may be used to endorse or promote products
+ * derived from this software without specific prior written permission.
+ *
+ * ALTERNATIVELY, this software may be distributed under the terms of the
+ * GNU General Public License ("GPL") as published by the Free Software
+ * Foundation, either version 2 of that License or (at your option) any
+ * later version.
+ *
+ * THIS SOFTWARE IS PROVIDED BY Freescale Semiconductor ``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 Freescale Semiconductor 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.
+ */
+
+#ifndef __FSL_QMAN_H
+#define __FSL_QMAN_H
+
+#include <linux/bitops.h>
+
+/* Hardware constants */
+#define QM_CHANNEL_SWPORTAL0 0
+#define QMAN_CHANNEL_POOL1 0x21
+#define QMAN_CHANNEL_CAAM 0x80
+#define QMAN_CHANNEL_POOL1_REV3 0x401
+#define QMAN_CHANNEL_CAAM_REV3 0x840
+extern u16 qm_channel_pool1;
+extern u16 qm_channel_caam;
+
+/* Portal processing (interrupt) sources */
+#define QM_PIRQ_CSCI 0x00100000 /* Congestion State Change */
+#define QM_PIRQ_EQCI 0x00080000 /* Enqueue Command Committed */
+#define QM_PIRQ_EQRI 0x00040000 /* EQCR Ring (below threshold) */
+#define QM_PIRQ_DQRI 0x00020000 /* DQRR Ring (non-empty) */
+#define QM_PIRQ_MRI 0x00010000 /* MR Ring (non-empty) */
+/*
+ * This mask contains all the interrupt sources that need handling except DQRI,
+ * ie. that if present should trigger slow-path processing.
+ */
+#define QM_PIRQ_SLOW (QM_PIRQ_CSCI | QM_PIRQ_EQCI | QM_PIRQ_EQRI | \
+ QM_PIRQ_MRI)
+
+/* For qman_static_dequeue_*** APIs */
+#define QM_SDQCR_CHANNELS_POOL_MASK 0x00007fff
+/* for n in [1,15] */
+#define QM_SDQCR_CHANNELS_POOL(n) (0x00008000 >> (n))
+/* for conversion from n of qm_channel */
+static inline u32 QM_SDQCR_CHANNELS_POOL_CONV(u16 channel)
+{
+ return QM_SDQCR_CHANNELS_POOL(channel + 1 - qm_channel_pool1);
+}
+
+/* --- QMan data structures (and associated constants) --- */
+
+/* "Frame Descriptor (FD)" */
+struct qm_fd {
+ union {
+ struct {
+ u8 cfg8b_w1;
+ u8 bpid; /* Buffer Pool ID */
+ u8 cfg8b_w3;
+ u8 addr_hi; /* high 8-bits of 40-bit address */
+ __be32 addr_lo; /* low 32-bits of 40-bit address */
+ } __packed;
+ __be64 data;
+ };
+ __be32 cfg; /* format, offset, length / congestion */
+ union {
+ __be32 cmd;
+ __be32 status;
+ };
+} __aligned(8);
+
+#define QM_FD_FORMAT_SG BIT(31)
+#define QM_FD_FORMAT_LONG BIT(30)
+#define QM_FD_FORMAT_COMPOUND BIT(29)
+#define QM_FD_FORMAT_MASK GENMASK(31, 29)
+#define QM_FD_OFF_SHIFT 20
+#define QM_FD_OFF_MASK GENMASK(28, 20)
+#define QM_FD_LEN_MASK GENMASK(19, 0)
+#define QM_FD_LEN_BIG_MASK GENMASK(28, 0)
+
+enum qm_fd_format {
+ /*
+ * 'contig' implies a contiguous buffer, whereas 'sg' implies a
+ * scatter-gather table. 'big' implies a 29-bit length with no offset
+ * field, otherwise length is 20-bit and offset is 9-bit. 'compound'
+ * implies a s/g-like table, where each entry itself represents a frame
+ * (contiguous or scatter-gather) and the 29-bit "length" is
+ * interpreted purely for congestion calculations, ie. a "congestion
+ * weight".
+ */
+ qm_fd_contig = 0,
+ qm_fd_contig_big = QM_FD_FORMAT_LONG,
+ qm_fd_sg = QM_FD_FORMAT_SG,
+ qm_fd_sg_big = QM_FD_FORMAT_SG | QM_FD_FORMAT_LONG,
+ qm_fd_compound = QM_FD_FORMAT_COMPOUND
+};
+
+static inline dma_addr_t qm_fd_addr(const struct qm_fd *fd)
+{
+ return be64_to_cpu(fd->data) & 0xffffffffffLLU;
+}
+
+static inline u64 qm_fd_addr_get64(const struct qm_fd *fd)
+{
+ return be64_to_cpu(fd->data) & 0xffffffffffLLU;
+}
+
+static inline void qm_fd_addr_set64(struct qm_fd *fd, u64 addr)
+{
+ fd->addr_hi = upper_32_bits(addr);
+ fd->addr_lo = cpu_to_be32(lower_32_bits(addr));
+}
+
+/*
+ * The 'format' field indicates the interpretation of the remaining
+ * 29 bits of the 32-bit word.
+ * If 'format' is _contig or _sg, 20b length and 9b offset.
+ * If 'format' is _contig_big or _sg_big, 29b length.
+ * If 'format' is _compound, 29b "congestion weight".
+ */
+static inline enum qm_fd_format qm_fd_get_format(const struct qm_fd *fd)
+{
+ return be32_to_cpu(fd->cfg) & QM_FD_FORMAT_MASK;
+}
+
+static inline int qm_fd_get_offset(const struct qm_fd *fd)
+{
+ return (be32_to_cpu(fd->cfg) & QM_FD_OFF_MASK) >> QM_FD_OFF_SHIFT;
+}
+
+static inline int qm_fd_get_length(const struct qm_fd *fd)
+{
+ return be32_to_cpu(fd->cfg) & QM_FD_LEN_MASK;
+}
+
+static inline int qm_fd_get_len_big(const struct qm_fd *fd)
+{
+ return be32_to_cpu(fd->cfg) & QM_FD_LEN_BIG_MASK;
+}
+
+static inline void qm_fd_set_param(struct qm_fd *fd, enum qm_fd_format fmt,
+ int off, int len)
+{
+ fd->cfg = cpu_to_be32(fmt | (len & QM_FD_LEN_BIG_MASK) |
+ ((off << QM_FD_OFF_SHIFT) & QM_FD_OFF_MASK));
+}
+
+#define qm_fd_set_contig(fd, off, len) \
+ qm_fd_set_param(fd, qm_fd_contig, off, len)
+#define qm_fd_set_sg(fd, off, len) qm_fd_set_param(fd, qm_fd_sg, off, len)
+#define qm_fd_set_contig_big(fd, len) \
+ qm_fd_set_param(fd, qm_fd_contig_big, 0, len)
+#define qm_fd_set_sg_big(fd, len) qm_fd_set_param(fd, qm_fd_sg_big, 0, len)
+#define qm_fd_set_compound(fd, len) qm_fd_set_param(fd, qm_fd_compound, 0, len)
+
+static inline void qm_fd_clear_fd(struct qm_fd *fd)
+{
+ fd->data = 0;
+ fd->cfg = 0;
+ fd->cmd = 0;
+}
+
+/* Scatter/Gather table entry */
+struct qm_sg_entry {
+ union {
+ struct {
+ u8 __reserved1[3];
+ u8 addr_hi; /* high 8-bits of 40-bit address */
+ __be32 addr_lo; /* low 32-bits of 40-bit address */
+ };
+ __be64 data;
+ };
+ __be32 cfg; /* E bit, F bit, length */
+ u8 __reserved2;
+ u8 bpid;
+ __be16 offset; /* 13-bit, _res[13-15]*/
+} __packed;
+
+#define QM_SG_LEN_MASK GENMASK(29, 0)
+#define QM_SG_OFF_MASK GENMASK(12, 0)
+#define QM_SG_FIN BIT(30)
+#define QM_SG_EXT BIT(31)
+
+static inline dma_addr_t qm_sg_addr(const struct qm_sg_entry *sg)
+{
+ return be64_to_cpu(sg->data) & 0xffffffffffLLU;
+}
+
+static inline u64 qm_sg_entry_get64(const struct qm_sg_entry *sg)
+{
+ return be64_to_cpu(sg->data) & 0xffffffffffLLU;
+}
+
+static inline void qm_sg_entry_set64(struct qm_sg_entry *sg, u64 addr)
+{
+ sg->addr_hi = upper_32_bits(addr);
+ sg->addr_lo = cpu_to_be32(lower_32_bits(addr));
+}
+
+static inline bool qm_sg_entry_is_final(const struct qm_sg_entry *sg)
+{
+ return be32_to_cpu(sg->cfg) & QM_SG_FIN;
+}
+
+static inline bool qm_sg_entry_is_ext(const struct qm_sg_entry *sg)
+{
+ return be32_to_cpu(sg->cfg) & QM_SG_EXT;
+}
+
+static inline int qm_sg_entry_get_len(const struct qm_sg_entry *sg)
+{
+ return be32_to_cpu(sg->cfg) & QM_SG_LEN_MASK;
+}
+
+static inline void qm_sg_entry_set_len(struct qm_sg_entry *sg, int len)
+{
+ sg->cfg = cpu_to_be32(len & QM_SG_LEN_MASK);
+}
+
+static inline void qm_sg_entry_set_f(struct qm_sg_entry *sg, int len)
+{
+ sg->cfg = cpu_to_be32(QM_SG_FIN | (len & QM_SG_LEN_MASK));
+}
+
+static inline int qm_sg_entry_get_off(const struct qm_sg_entry *sg)
+{
+ return be32_to_cpu(sg->offset) & QM_SG_OFF_MASK;
+}
+
+/* "Frame Dequeue Response" */
+struct qm_dqrr_entry {
+ u8 verb;
+ u8 stat;
+ __be16 seqnum; /* 15-bit */
+ u8 tok;
+ u8 __reserved2[3];
+ __be32 fqid; /* 24-bit */
+ __be32 context_b;
+ struct qm_fd fd;
+ u8 __reserved4[32];
+} __packed;
+#define QM_DQRR_VERB_VBIT 0x80
+#define QM_DQRR_VERB_MASK 0x7f /* where the verb contains; */
+#define QM_DQRR_VERB_FRAME_DEQUEUE 0x60 /* "this format" */
+#define QM_DQRR_STAT_FQ_EMPTY 0x80 /* FQ empty */
+#define QM_DQRR_STAT_FQ_HELDACTIVE 0x40 /* FQ held active */
+#define QM_DQRR_STAT_FQ_FORCEELIGIBLE 0x20 /* FQ was force-eligible'd */
+#define QM_DQRR_STAT_FD_VALID 0x10 /* has a non-NULL FD */
+#define QM_DQRR_STAT_UNSCHEDULED 0x02 /* Unscheduled dequeue */
+#define QM_DQRR_STAT_DQCR_EXPIRED 0x01 /* VDQCR or PDQCR expired*/
+
+/* 'fqid' is a 24-bit field in every h/w descriptor */
+#define QM_FQID_MASK GENMASK(23, 0)
+#define qm_fqid_set(p, v) ((p)->fqid = cpu_to_be32((v) & QM_FQID_MASK))
+#define qm_fqid_get(p) (be32_to_cpu((p)->fqid) & QM_FQID_MASK)
+
+/* "ERN Message Response" */
+/* "FQ State Change Notification" */
+union qm_mr_entry {
+ struct {
+ u8 verb;
+ u8 __reserved[63];
+ };
+ struct {
+ u8 verb;
+ u8 dca;
+ __be16 seqnum;
+ u8 rc; /* Rej Code: 8-bit */
+ u8 __reserved[3];
+ __be32 fqid; /* 24-bit */
+ __be32 tag;
+ struct qm_fd fd;
+ u8 __reserved1[32];
+ } __packed ern;
+ struct {
+ u8 verb;
+ u8 fqs; /* Frame Queue Status */
+ u8 __reserved1[6];
+ __be32 fqid; /* 24-bit */
+ __be32 context_b;
+ u8 __reserved2[48];
+ } __packed fq; /* FQRN/FQRNI/FQRL/FQPN */
+};
+#define QM_MR_VERB_VBIT 0x80
+/*
+ * ERNs originating from direct-connect portals ("dcern") use 0x20 as a verb
+ * which would be invalid as a s/w enqueue verb. A s/w ERN can be distinguished
+ * from the other MR types by noting if the 0x20 bit is unset.
+ */
+#define QM_MR_VERB_TYPE_MASK 0x27
+#define QM_MR_VERB_DC_ERN 0x20
+#define QM_MR_VERB_FQRN 0x21
+#define QM_MR_VERB_FQRNI 0x22
+#define QM_MR_VERB_FQRL 0x23
+#define QM_MR_VERB_FQPN 0x24
+#define QM_MR_RC_MASK 0xf0 /* contains one of; */
+#define QM_MR_RC_CGR_TAILDROP 0x00
+#define QM_MR_RC_WRED 0x10
+#define QM_MR_RC_ERROR 0x20
+#define QM_MR_RC_ORPWINDOW_EARLY 0x30
+#define QM_MR_RC_ORPWINDOW_LATE 0x40
+#define QM_MR_RC_FQ_TAILDROP 0x50
+#define QM_MR_RC_ORPWINDOW_RETIRED 0x60
+#define QM_MR_RC_ORP_ZERO 0x70
+#define QM_MR_FQS_ORLPRESENT 0x02 /* ORL fragments to come */
+#define QM_MR_FQS_NOTEMPTY 0x01 /* FQ has enqueued frames */
+
+/*
+ * An identical structure of FQD fields is present in the "Init FQ" command and
+ * the "Query FQ" result, it's suctioned out into the "struct qm_fqd" type.
+ * Within that, the 'stashing' and 'taildrop' pieces are also factored out, the
+ * latter has two inlines to assist with converting to/from the mant+exp
+ * representation.
+ */
+struct qm_fqd_stashing {
+ /* See QM_STASHING_EXCL_<...> */
+ u8 exclusive;
+ /* Numbers of cachelines */
+ u8 cl; /* _res[6-7], as[4-5], ds[2-3], cs[0-1] */
+};
+
+struct qm_fqd_oac {
+ /* "Overhead Accounting Control", see QM_OAC_<...> */
+ u8 oac; /* oac[6-7], _res[0-5] */
+ /* Two's-complement value (-128 to +127) */
+ s8 oal; /* "Overhead Accounting Length" */
+};
+
+struct qm_fqd {
+ /* _res[6-7], orprws[3-5], oa[2], olws[0-1] */
+ u8 orpc;
+ u8 cgid;
+ __be16 fq_ctrl; /* See QM_FQCTRL_<...> */
+ __be16 dest_wq; /* channel[3-15], wq[0-2] */
+ __be16 ics_cred; /* 15-bit */
+ /*
+ * For "Initialize Frame Queue" commands, the write-enable mask
+ * determines whether 'td' or 'oac_init' is observed. For query
+ * commands, this field is always 'td', and 'oac_query' (below) reflects
+ * the Overhead ACcounting values.
+ */
+ union {
+ __be16 td; /* "Taildrop": _res[13-15], mant[5-12], exp[0-4] */
+ struct qm_fqd_oac oac_init;
+ };
+ __be32 context_b;
+ union {
+ /* Treat it as 64-bit opaque */
+ __be64 opaque;
+ struct {
+ __be32 hi;
+ __be32 lo;
+ };
+ /* Treat it as s/w portal stashing config */
+ /* see "FQD Context_A field used for [...]" */
+ struct {
+ struct qm_fqd_stashing stashing;
+ /*
+ * 48-bit address of FQ context to
+ * stash, must be cacheline-aligned
+ */
+ __be16 context_hi;
+ __be32 context_lo;
+ } __packed;
+ } context_a;
+ struct qm_fqd_oac oac_query;
+} __packed;
+
+#define QM_FQD_CHAN_OFF 3
+#define QM_FQD_WQ_MASK GENMASK(2, 0)
+#define QM_FQD_TD_EXP_MASK GENMASK(4, 0)
+#define QM_FQD_TD_MANT_OFF 5
+#define QM_FQD_TD_MANT_MASK GENMASK(12, 5)
+#define QM_FQD_TD_MAX 0xe0000000
+#define QM_FQD_TD_MANT_MAX 0xff
+#define QM_FQD_OAC_OFF 6
+#define QM_FQD_AS_OFF 4
+#define QM_FQD_DS_OFF 2
+#define QM_FQD_XS_MASK 0x3
+
+/* 64-bit converters for context_hi/lo */
+static inline u64 qm_fqd_stashing_get64(const struct qm_fqd *fqd)
+{
+ return be64_to_cpu(fqd->context_a.opaque) & 0xffffffffffffULL;
+}
+
+static inline dma_addr_t qm_fqd_stashing_addr(const struct qm_fqd *fqd)
+{
+ return be64_to_cpu(fqd->context_a.opaque) & 0xffffffffffffULL;
+}
+
+static inline u64 qm_fqd_context_a_get64(const struct qm_fqd *fqd)
+{
+ return qm_fqd_stashing_get64(fqd);
+}
+
+static inline void qm_fqd_stashing_set64(struct qm_fqd *fqd, u64 addr)
+{
+ fqd->context_a.context_hi = cpu_to_be16(upper_32_bits(addr));
+ fqd->context_a.context_lo = cpu_to_be32(lower_32_bits(addr));
+}
+
+static inline void qm_fqd_context_a_set64(struct qm_fqd *fqd, u64 addr)
+{
+ fqd->context_a.hi = cpu_to_be32(upper_32_bits(addr));
+ fqd->context_a.lo = cpu_to_be32(lower_32_bits(addr));
+}
+
+/* convert a threshold value into mant+exp representation */
+static inline int qm_fqd_set_taildrop(struct qm_fqd *fqd, u32 val,
+ int roundup)
+{
+ u32 e = 0;
+ int td, oddbit = 0;
+
+ if (val > QM_FQD_TD_MAX)
+ return -ERANGE;
+
+ while (val > QM_FQD_TD_MANT_MAX) {
+ oddbit = val & 1;
+ val >>= 1;
+ e++;
+ if (roundup && oddbit)
+ val++;
+ }
+
+ td = (val << QM_FQD_TD_MANT_OFF) & QM_FQD_TD_MANT_MASK;
+ td |= (e & QM_FQD_TD_EXP_MASK);
+ fqd->td = cpu_to_be16(td);
+ return 0;
+}
+/* and the other direction */
+static inline int qm_fqd_get_taildrop(const struct qm_fqd *fqd)
+{
+ int td = be16_to_cpu(fqd->td);
+
+ return ((td & QM_FQD_TD_MANT_MASK) >> QM_FQD_TD_MANT_OFF)
+ << (td & QM_FQD_TD_EXP_MASK);
+}
+
+static inline void qm_fqd_set_stashing(struct qm_fqd *fqd, u8 as, u8 ds, u8 cs)
+{
+ struct qm_fqd_stashing *st = &fqd->context_a.stashing;
+
+ st->cl = ((as & QM_FQD_XS_MASK) << QM_FQD_AS_OFF) |
+ ((ds & QM_FQD_XS_MASK) << QM_FQD_DS_OFF) |
+ (cs & QM_FQD_XS_MASK);
+}
+
+static inline u8 qm_fqd_get_stashing(const struct qm_fqd *fqd)
+{
+ return fqd->context_a.stashing.cl;
+}
+
+static inline void qm_fqd_set_oac(struct qm_fqd *fqd, u8 val)
+{
+ fqd->oac_init.oac = val << QM_FQD_OAC_OFF;
+}
+
+static inline void qm_fqd_set_oal(struct qm_fqd *fqd, s8 val)
+{
+ fqd->oac_init.oal = val;
+}
+
+static inline void qm_fqd_set_destwq(struct qm_fqd *fqd, int ch, int wq)
+{
+ fqd->dest_wq = cpu_to_be16((ch << QM_FQD_CHAN_OFF) |
+ (wq & QM_FQD_WQ_MASK));
+}
+
+static inline int qm_fqd_get_chan(const struct qm_fqd *fqd)
+{
+ return be16_to_cpu(fqd->dest_wq) >> QM_FQD_CHAN_OFF;
+}
+
+static inline int qm_fqd_get_wq(const struct qm_fqd *fqd)
+{
+ return be16_to_cpu(fqd->dest_wq) & QM_FQD_WQ_MASK;
+}
+
+/* See "Frame Queue Descriptor (FQD)" */
+/* Frame Queue Descriptor (FQD) field 'fq_ctrl' uses these constants */
+#define QM_FQCTRL_MASK 0x07ff /* 'fq_ctrl' flags; */
+#define QM_FQCTRL_CGE 0x0400 /* Congestion Group Enable */
+#define QM_FQCTRL_TDE 0x0200 /* Tail-Drop Enable */
+#define QM_FQCTRL_CTXASTASHING 0x0080 /* Context-A stashing */
+#define QM_FQCTRL_CPCSTASH 0x0040 /* CPC Stash Enable */
+#define QM_FQCTRL_FORCESFDR 0x0008 /* High-priority SFDRs */
+#define QM_FQCTRL_AVOIDBLOCK 0x0004 /* Don't block active */
+#define QM_FQCTRL_HOLDACTIVE 0x0002 /* Hold active in portal */
+#define QM_FQCTRL_PREFERINCACHE 0x0001 /* Aggressively cache FQD */
+#define QM_FQCTRL_LOCKINCACHE QM_FQCTRL_PREFERINCACHE /* older naming */
+
+/* See "FQD Context_A field used for [...] */
+/* Frame Queue Descriptor (FQD) field 'CONTEXT_A' uses these constants */
+#define QM_STASHING_EXCL_ANNOTATION 0x04
+#define QM_STASHING_EXCL_DATA 0x02
+#define QM_STASHING_EXCL_CTX 0x01
+
+/* See "Intra Class Scheduling" */
+/* FQD field 'OAC' (Overhead ACcounting) uses these constants */
+#define QM_OAC_ICS 0x2 /* Accounting for Intra-Class Scheduling */
+#define QM_OAC_CG 0x1 /* Accounting for Congestion Groups */
+
+/*
+ * This struct represents the 32-bit "WR_PARM_[GYR]" parameters in CGR fields
+ * and associated commands/responses. The WRED parameters are calculated from
+ * these fields as follows;
+ * MaxTH = MA * (2 ^ Mn)
+ * Slope = SA / (2 ^ Sn)
+ * MaxP = 4 * (Pn + 1)
+ */
+struct qm_cgr_wr_parm {
+ /* MA[24-31], Mn[19-23], SA[12-18], Sn[6-11], Pn[0-5] */
+ __be32 word;
+};
+/*
+ * This struct represents the 13-bit "CS_THRES" CGR field. In the corresponding
+ * management commands, this is padded to a 16-bit structure field, so that's
+ * how we represent it here. The congestion state threshold is calculated from
+ * these fields as follows;
+ * CS threshold = TA * (2 ^ Tn)
+ */
+struct qm_cgr_cs_thres {
+ /* _res[13-15], TA[5-12], Tn[0-4] */
+ __be16 word;
+};
+/*
+ * This identical structure of CGR fields is present in the "Init/Modify CGR"
+ * commands and the "Query CGR" result. It's suctioned out here into its own
+ * struct.
+ */
+struct __qm_mc_cgr {
+ struct qm_cgr_wr_parm wr_parm_g;
+ struct qm_cgr_wr_parm wr_parm_y;
+ struct qm_cgr_wr_parm wr_parm_r;
+ u8 wr_en_g; /* boolean, use QM_CGR_EN */
+ u8 wr_en_y; /* boolean, use QM_CGR_EN */
+ u8 wr_en_r; /* boolean, use QM_CGR_EN */
+ u8 cscn_en; /* boolean, use QM_CGR_EN */
+ union {
+ struct {
+ __be16 cscn_targ_upd_ctrl; /* use QM_CGR_TARG_UDP_* */
+ __be16 cscn_targ_dcp_low;
+ };
+ __be32 cscn_targ; /* use QM_CGR_TARG_* */
+ };
+ u8 cstd_en; /* boolean, use QM_CGR_EN */
+ u8 cs; /* boolean, only used in query response */
+ struct qm_cgr_cs_thres cs_thres; /* use qm_cgr_cs_thres_set64() */
+ u8 mode; /* QMAN_CGR_MODE_FRAME not supported in rev1.0 */
+} __packed;
+#define QM_CGR_EN 0x01 /* For wr_en_*, cscn_en, cstd_en */
+#define QM_CGR_TARG_UDP_CTRL_WRITE_BIT 0x8000 /* value written to portal bit*/
+#define QM_CGR_TARG_UDP_CTRL_DCP 0x4000 /* 0: SWP, 1: DCP */
+#define QM_CGR_TARG_PORTAL(n) (0x80000000 >> (n)) /* s/w portal, 0-9 */
+#define QM_CGR_TARG_FMAN0 0x00200000 /* direct-connect portal: fman0 */
+#define QM_CGR_TARG_FMAN1 0x00100000 /* : fman1 */
+/* Convert CGR thresholds to/from "cs_thres" format */
+static inline u64 qm_cgr_cs_thres_get64(const struct qm_cgr_cs_thres *th)
+{
+ int thres = be16_to_cpu(th->word);
+
+ return ((thres >> 5) & 0xff) << (thres & 0x1f);
+}
+
+static inline int qm_cgr_cs_thres_set64(struct qm_cgr_cs_thres *th, u64 val,
+ int roundup)
+{
+ u32 e = 0;
+ int oddbit = 0;
+
+ while (val > 0xff) {
+ oddbit = val & 1;
+ val >>= 1;
+ e++;
+ if (roundup && oddbit)
+ val++;
+ }
+ th->word = cpu_to_be16(((val & 0xff) << 5) | (e & 0x1f));
+ return 0;
+}
+
+/* "Initialize FQ" */
+struct qm_mcc_initfq {
+ u8 __reserved1[2];
+ __be16 we_mask; /* Write Enable Mask */
+ __be32 fqid; /* 24-bit */
+ __be16 count; /* Initialises 'count+1' FQDs */
+ struct qm_fqd fqd; /* the FQD fields go here */
+ u8 __reserved2[30];
+} __packed;
+/* "Initialize/Modify CGR" */
+struct qm_mcc_initcgr {
+ u8 __reserve1[2];
+ __be16 we_mask; /* Write Enable Mask */
+ struct __qm_mc_cgr cgr; /* CGR fields */
+ u8 __reserved2[2];
+ u8 cgid;
+ u8 __reserved3[32];
+} __packed;
+
+/* INITFQ-specific flags */
+#define QM_INITFQ_WE_MASK 0x01ff /* 'Write Enable' flags; */
+#define QM_INITFQ_WE_OAC 0x0100
+#define QM_INITFQ_WE_ORPC 0x0080
+#define QM_INITFQ_WE_CGID 0x0040
+#define QM_INITFQ_WE_FQCTRL 0x0020
+#define QM_INITFQ_WE_DESTWQ 0x0010
+#define QM_INITFQ_WE_ICSCRED 0x0008
+#define QM_INITFQ_WE_TDTHRESH 0x0004
+#define QM_INITFQ_WE_CONTEXTB 0x0002
+#define QM_INITFQ_WE_CONTEXTA 0x0001
+/* INITCGR/MODIFYCGR-specific flags */
+#define QM_CGR_WE_MASK 0x07ff /* 'Write Enable Mask'; */
+#define QM_CGR_WE_WR_PARM_G 0x0400
+#define QM_CGR_WE_WR_PARM_Y 0x0200
+#define QM_CGR_WE_WR_PARM_R 0x0100
+#define QM_CGR_WE_WR_EN_G 0x0080
+#define QM_CGR_WE_WR_EN_Y 0x0040
+#define QM_CGR_WE_WR_EN_R 0x0020
+#define QM_CGR_WE_CSCN_EN 0x0010
+#define QM_CGR_WE_CSCN_TARG 0x0008
+#define QM_CGR_WE_CSTD_EN 0x0004
+#define QM_CGR_WE_CS_THRES 0x0002
+#define QM_CGR_WE_MODE 0x0001
+
+#define QMAN_CGR_FLAG_USE_INIT 0x00000001
+#define QMAN_CGR_MODE_FRAME 0x00000001
+
+ /* Portal and Frame Queues */
+/* Represents a managed portal */
+struct qman_portal;
+
+/*
+ * This object type represents QMan frame queue descriptors (FQD), it is
+ * cacheline-aligned, and initialised by qman_create_fq(). The structure is
+ * defined further down.
+ */
+struct qman_fq;
+
+/*
+ * This object type represents a QMan congestion group, it is defined further
+ * down.
+ */
+struct qman_cgr;
+
+/*
+ * This enum, and the callback type that returns it, are used when handling
+ * dequeued frames via DQRR. Note that for "null" callbacks registered with the
+ * portal object (for handling dequeues that do not demux because context_b is
+ * NULL), the return value *MUST* be qman_cb_dqrr_consume.
+ */
+enum qman_cb_dqrr_result {
+ /* DQRR entry can be consumed */
+ qman_cb_dqrr_consume,
+ /* Like _consume, but requests parking - FQ must be held-active */
+ qman_cb_dqrr_park,
+ /* Does not consume, for DCA mode only. */
+ qman_cb_dqrr_defer,
+ /*
+ * Stop processing without consuming this ring entry. Exits the current
+ * qman_p_poll_dqrr() or interrupt-handling, as appropriate. If within
+ * an interrupt handler, the callback would typically call
+ * qman_irqsource_remove(QM_PIRQ_DQRI) before returning this value,
+ * otherwise the interrupt will reassert immediately.
+ */
+ qman_cb_dqrr_stop,
+ /* Like qman_cb_dqrr_stop, but consumes the current entry. */
+ qman_cb_dqrr_consume_stop
+};
+typedef enum qman_cb_dqrr_result (*qman_cb_dqrr)(struct qman_portal *qm,
+ struct qman_fq *fq,
+ const struct qm_dqrr_entry *dqrr);
+
+/*
+ * This callback type is used when handling ERNs, FQRNs and FQRLs via MR. They
+ * are always consumed after the callback returns.
+ */
+typedef void (*qman_cb_mr)(struct qman_portal *qm, struct qman_fq *fq,
+ const union qm_mr_entry *msg);
+
+/*
+ * s/w-visible states. Ie. tentatively scheduled + truly scheduled + active +
+ * held-active + held-suspended are just "sched". Things like "retired" will not
+ * be assumed until it is complete (ie. QMAN_FQ_STATE_CHANGING is set until
+ * then, to indicate it's completing and to gate attempts to retry the retire
+ * command). Note, park commands do not set QMAN_FQ_STATE_CHANGING because it's
+ * technically impossible in the case of enqueue DCAs (which refer to DQRR ring
+ * index rather than the FQ that ring entry corresponds to), so repeated park
+ * commands are allowed (if you're silly enough to try) but won't change FQ
+ * state, and the resulting park notifications move FQs from "sched" to
+ * "parked".
+ */
+enum qman_fq_state {
+ qman_fq_state_oos,
+ qman_fq_state_parked,
+ qman_fq_state_sched,
+ qman_fq_state_retired
+};
+
+#define QMAN_FQ_STATE_CHANGING 0x80000000 /* 'state' is changing */
+#define QMAN_FQ_STATE_NE 0x40000000 /* retired FQ isn't empty */
+#define QMAN_FQ_STATE_ORL 0x20000000 /* retired FQ has ORL */
+#define QMAN_FQ_STATE_BLOCKOOS 0xe0000000 /* if any are set, no OOS */
+#define QMAN_FQ_STATE_CGR_EN 0x10000000 /* CGR enabled */
+#define QMAN_FQ_STATE_VDQCR 0x08000000 /* being volatile dequeued */
+
+/*
+ * Frame queue objects (struct qman_fq) are stored within memory passed to
+ * qman_create_fq(), as this allows stashing of caller-provided demux callback
+ * pointers at no extra cost to stashing of (driver-internal) FQ state. If the
+ * caller wishes to add per-FQ state and have it benefit from dequeue-stashing,
+ * they should;
+ *
+ * (a) extend the qman_fq structure with their state; eg.
+ *
+ * // myfq is allocated and driver_fq callbacks filled in;
+ * struct my_fq {
+ * struct qman_fq base;
+ * int an_extra_field;
+ * [ ... add other fields to be associated with each FQ ...]
+ * } *myfq = some_my_fq_allocator();
+ * struct qman_fq *fq = qman_create_fq(fqid, flags, &myfq->base);
+ *
+ * // in a dequeue callback, access extra fields from 'fq' via a cast;
+ * struct my_fq *myfq = (struct my_fq *)fq;
+ * do_something_with(myfq->an_extra_field);
+ * [...]
+ *
+ * (b) when and if configuring the FQ for context stashing, specify how ever
+ * many cachelines are required to stash 'struct my_fq', to accelerate not
+ * only the QMan driver but the callback as well.
+ */
+
+struct qman_fq_cb {
+ qman_cb_dqrr dqrr; /* for dequeued frames */
+ qman_cb_mr ern; /* for s/w ERNs */
+ qman_cb_mr fqs; /* frame-queue state changes*/
+};
+
+struct qman_fq {
+ /* Caller of qman_create_fq() provides these demux callbacks */
+ struct qman_fq_cb cb;
+ /*
+ * These are internal to the driver, don't touch. In particular, they
+ * may change, be removed, or extended (so you shouldn't rely on
+ * sizeof(qman_fq) being a constant).
+ */
+ u32 fqid, idx;
+ unsigned long flags;
+ enum qman_fq_state state;
+ int cgr_groupid;
+};
+
+/*
+ * This callback type is used when handling congestion group entry/exit.
+ * 'congested' is non-zero on congestion-entry, and zero on congestion-exit.
+ */
+typedef void (*qman_cb_cgr)(struct qman_portal *qm,
+ struct qman_cgr *cgr, int congested);
+
+struct qman_cgr {
+ /* Set these prior to qman_create_cgr() */
+ u32 cgrid; /* 0..255, but u32 to allow specials like -1, 256, etc.*/
+ qman_cb_cgr cb;
+ /* These are private to the driver */
+ u16 chan; /* portal channel this object is created on */
+ struct list_head node;
+};
+
+/* Flags to qman_create_fq() */
+#define QMAN_FQ_FLAG_NO_ENQUEUE 0x00000001 /* can't enqueue */
+#define QMAN_FQ_FLAG_NO_MODIFY 0x00000002 /* can only enqueue */
+#define QMAN_FQ_FLAG_TO_DCPORTAL 0x00000004 /* consumed by CAAM/PME/Fman */
+#define QMAN_FQ_FLAG_DYNAMIC_FQID 0x00000020 /* (de)allocate fqid */
+
+/* Flags to qman_init_fq() */
+#define QMAN_INITFQ_FLAG_SCHED 0x00000001 /* schedule rather than park */
+#define QMAN_INITFQ_FLAG_LOCAL 0x00000004 /* set dest portal */
+
+/*
+ * For qman_volatile_dequeue(); Choose one PRECEDENCE. EXACT is optional. Use
+ * NUMFRAMES(n) (6-bit) or NUMFRAMES_TILLEMPTY to fill in the frame-count. Use
+ * FQID(n) to fill in the frame queue ID.
+ */
+#define QM_VDQCR_PRECEDENCE_VDQCR 0x0
+#define QM_VDQCR_PRECEDENCE_SDQCR 0x80000000
+#define QM_VDQCR_EXACT 0x40000000
+#define QM_VDQCR_NUMFRAMES_MASK 0x3f000000
+#define QM_VDQCR_NUMFRAMES_SET(n) (((n) & 0x3f) << 24)
+#define QM_VDQCR_NUMFRAMES_GET(n) (((n) >> 24) & 0x3f)
+#define QM_VDQCR_NUMFRAMES_TILLEMPTY QM_VDQCR_NUMFRAMES_SET(0)
+
+#define QMAN_VOLATILE_FLAG_WAIT 0x00000001 /* wait if VDQCR is in use */
+#define QMAN_VOLATILE_FLAG_WAIT_INT 0x00000002 /* if wait, interruptible? */
+#define QMAN_VOLATILE_FLAG_FINISH 0x00000004 /* wait till VDQCR completes */
+
+/* "Query FQ Non-Programmable Fields" */
+struct qm_mcr_queryfq_np {
+ u8 verb;
+ u8 result;
+ u8 __reserved1;
+ u8 state; /* QM_MCR_NP_STATE_*** */
+ u32 fqd_link; /* 24-bit, _res2[24-31] */
+ u16 odp_seq; /* 14-bit, _res3[14-15] */
+ u16 orp_nesn; /* 14-bit, _res4[14-15] */
+ u16 orp_ea_hseq; /* 15-bit, _res5[15] */
+ u16 orp_ea_tseq; /* 15-bit, _res6[15] */
+ u32 orp_ea_hptr; /* 24-bit, _res7[24-31] */
+ u32 orp_ea_tptr; /* 24-bit, _res8[24-31] */
+ u32 pfdr_hptr; /* 24-bit, _res9[24-31] */
+ u32 pfdr_tptr; /* 24-bit, _res10[24-31] */
+ u8 __reserved2[5];
+ u8 is; /* 1-bit, _res12[1-7] */
+ u16 ics_surp;
+ u32 byte_cnt;
+ u32 frm_cnt; /* 24-bit, _res13[24-31] */
+ u32 __reserved3;
+ u16 ra1_sfdr; /* QM_MCR_NP_RA1_*** */
+ u16 ra2_sfdr; /* QM_MCR_NP_RA2_*** */
+ u16 __reserved4;
+ u16 od1_sfdr; /* QM_MCR_NP_OD1_*** */
+ u16 od2_sfdr; /* QM_MCR_NP_OD2_*** */
+ u16 od3_sfdr; /* QM_MCR_NP_OD3_*** */
+} __packed;
+
+#define QM_MCR_NP_STATE_FE 0x10
+#define QM_MCR_NP_STATE_R 0x08
+#define QM_MCR_NP_STATE_MASK 0x07 /* Reads FQD::STATE; */
+#define QM_MCR_NP_STATE_OOS 0x00
+#define QM_MCR_NP_STATE_RETIRED 0x01
+#define QM_MCR_NP_STATE_TEN_SCHED 0x02
+#define QM_MCR_NP_STATE_TRU_SCHED 0x03
+#define QM_MCR_NP_STATE_PARKED 0x04
+#define QM_MCR_NP_STATE_ACTIVE 0x05
+#define QM_MCR_NP_PTR_MASK 0x07ff /* for RA[12] & OD[123] */
+#define QM_MCR_NP_RA1_NRA(v) (((v) >> 14) & 0x3) /* FQD::NRA */
+#define QM_MCR_NP_RA2_IT(v) (((v) >> 14) & 0x1) /* FQD::IT */
+#define QM_MCR_NP_OD1_NOD(v) (((v) >> 14) & 0x3) /* FQD::NOD */
+#define QM_MCR_NP_OD3_NPC(v) (((v) >> 14) & 0x3) /* FQD::NPC */
+
+enum qm_mcr_queryfq_np_masks {
+ qm_mcr_fqd_link_mask = BIT(24) - 1,
+ qm_mcr_odp_seq_mask = BIT(14) - 1,
+ qm_mcr_orp_nesn_mask = BIT(14) - 1,
+ qm_mcr_orp_ea_hseq_mask = BIT(15) - 1,
+ qm_mcr_orp_ea_tseq_mask = BIT(15) - 1,
+ qm_mcr_orp_ea_hptr_mask = BIT(24) - 1,
+ qm_mcr_orp_ea_tptr_mask = BIT(24) - 1,
+ qm_mcr_pfdr_hptr_mask = BIT(24) - 1,
+ qm_mcr_pfdr_tptr_mask = BIT(24) - 1,
+ qm_mcr_is_mask = BIT(1) - 1,
+ qm_mcr_frm_cnt_mask = BIT(24) - 1,
+};
+
+#define qm_mcr_np_get(np, field) \
+ ((np)->field & (qm_mcr_##field##_mask))
+
+ /* Portal Management */
+/**
+ * qman_p_irqsource_add - add processing sources to be interrupt-driven
+ * @bits: bitmask of QM_PIRQ_**I processing sources
+ *
+ * Adds processing sources that should be interrupt-driven (rather than
+ * processed via qman_poll_***() functions).
+ */
+void qman_p_irqsource_add(struct qman_portal *p, u32 bits);
+
+/**
+ * qman_p_irqsource_remove - remove processing sources from being int-driven
+ * @bits: bitmask of QM_PIRQ_**I processing sources
+ *
+ * Removes processing sources from being interrupt-driven, so that they will
+ * instead be processed via qman_poll_***() functions.
+ */
+void qman_p_irqsource_remove(struct qman_portal *p, u32 bits);
+
+/**
+ * qman_affine_cpus - return a mask of cpus that have affine portals
+ */
+const cpumask_t *qman_affine_cpus(void);
+
+/**
+ * qman_affine_channel - return the channel ID of an portal
+ * @cpu: the cpu whose affine portal is the subject of the query
+ *
+ * If @cpu is -1, the affine portal for the current CPU will be used. It is a
+ * bug to call this function for any value of @cpu (other than -1) that is not a
+ * member of the mask returned from qman_affine_cpus().
+ */
+u16 qman_affine_channel(int cpu);
+
+/**
+ * qman_get_affine_portal - return the portal pointer affine to cpu
+ * @cpu: the cpu whose affine portal is the subject of the query
+ */
+struct qman_portal *qman_get_affine_portal(int cpu);
+
+/**
+ * qman_p_poll_dqrr - process DQRR (fast-path) entries
+ * @limit: the maximum number of DQRR entries to process
+ *
+ * Use of this function requires that DQRR processing not be interrupt-driven.
+ * The return value represents the number of DQRR entries processed.
+ */
+int qman_p_poll_dqrr(struct qman_portal *p, unsigned int limit);
+
+/**
+ * qman_p_static_dequeue_add - Add pool channels to the portal SDQCR
+ * @pools: bit-mask of pool channels, using QM_SDQCR_CHANNELS_POOL(n)
+ *
+ * Adds a set of pool channels to the portal's static dequeue command register
+ * (SDQCR). The requested pools are limited to those the portal has dequeue
+ * access to.
+ */
+void qman_p_static_dequeue_add(struct qman_portal *p, u32 pools);
+
+ /* FQ management */
+/**
+ * qman_create_fq - Allocates a FQ
+ * @fqid: the index of the FQD to encapsulate, must be "Out of Service"
+ * @flags: bit-mask of QMAN_FQ_FLAG_*** options
+ * @fq: memory for storing the 'fq', with callbacks filled in
+ *
+ * Creates a frame queue object for the given @fqid, unless the
+ * QMAN_FQ_FLAG_DYNAMIC_FQID flag is set in @flags, in which case a FQID is
+ * dynamically allocated (or the function fails if none are available). Once
+ * created, the caller should not touch the memory at 'fq' except as extended to
+ * adjacent memory for user-defined fields (see the definition of "struct
+ * qman_fq" for more info). NO_MODIFY is only intended for enqueuing to
+ * pre-existing frame-queues that aren't to be otherwise interfered with, it
+ * prevents all other modifications to the frame queue. The TO_DCPORTAL flag
+ * causes the driver to honour any context_b modifications requested in the
+ * qm_init_fq() API, as this indicates the frame queue will be consumed by a
+ * direct-connect portal (PME, CAAM, or Fman). When frame queues are consumed by
+ * software portals, the context_b field is controlled by the driver and can't
+ * be modified by the caller.
+ */
+int qman_create_fq(u32 fqid, u32 flags, struct qman_fq *fq);
+
+/**
+ * qman_destroy_fq - Deallocates a FQ
+ * @fq: the frame queue object to release
+ *
+ * The memory for this frame queue object ('fq' provided in qman_create_fq()) is
+ * not deallocated but the caller regains ownership, to do with as desired. The
+ * FQ must be in the 'out-of-service' or in the 'parked' state.
+ */
+void qman_destroy_fq(struct qman_fq *fq);
+
+/**
+ * qman_fq_fqid - Queries the frame queue ID of a FQ object
+ * @fq: the frame queue object to query
+ */
+u32 qman_fq_fqid(struct qman_fq *fq);
+
+/**
+ * qman_init_fq - Initialises FQ fields, leaves the FQ "parked" or "scheduled"
+ * @fq: the frame queue object to modify, must be 'parked' or new.
+ * @flags: bit-mask of QMAN_INITFQ_FLAG_*** options
+ * @opts: the FQ-modification settings, as defined in the low-level API
+ *
+ * The @opts parameter comes from the low-level portal API. Select
+ * QMAN_INITFQ_FLAG_SCHED in @flags to cause the frame queue to be scheduled
+ * rather than parked. NB, @opts can be NULL.
+ *
+ * Note that some fields and options within @opts may be ignored or overwritten
+ * by the driver;
+ * 1. the 'count' and 'fqid' fields are always ignored (this operation only
+ * affects one frame queue: @fq).
+ * 2. the QM_INITFQ_WE_CONTEXTB option of the 'we_mask' field and the associated
+ * 'fqd' structure's 'context_b' field are sometimes overwritten;
+ * - if @fq was not created with QMAN_FQ_FLAG_TO_DCPORTAL, then context_b is
+ * initialised to a value used by the driver for demux.
+ * - if context_b is initialised for demux, so is context_a in case stashing
+ * is requested (see item 4).
+ * (So caller control of context_b is only possible for TO_DCPORTAL frame queue
+ * objects.)
+ * 3. if @flags contains QMAN_INITFQ_FLAG_LOCAL, the 'fqd' structure's
+ * 'dest::channel' field will be overwritten to match the portal used to issue
+ * the command. If the WE_DESTWQ write-enable bit had already been set by the
+ * caller, the channel workqueue will be left as-is, otherwise the write-enable
+ * bit is set and the workqueue is set to a default of 4. If the "LOCAL" flag
+ * isn't set, the destination channel/workqueue fields and the write-enable bit
+ * are left as-is.
+ * 4. if the driver overwrites context_a/b for demux, then if
+ * QM_INITFQ_WE_CONTEXTA is set, the driver will only overwrite
+ * context_a.address fields and will leave the stashing fields provided by the
+ * user alone, otherwise it will zero out the context_a.stashing fields.
+ */
+int qman_init_fq(struct qman_fq *fq, u32 flags, struct qm_mcc_initfq *opts);
+
+/**
+ * qman_schedule_fq - Schedules a FQ
+ * @fq: the frame queue object to schedule, must be 'parked'
+ *
+ * Schedules the frame queue, which must be Parked, which takes it to
+ * Tentatively-Scheduled or Truly-Scheduled depending on its fill-level.
+ */
+int qman_schedule_fq(struct qman_fq *fq);
+
+/**
+ * qman_retire_fq - Retires a FQ
+ * @fq: the frame queue object to retire
+ * @flags: FQ flags (QMAN_FQ_STATE*) if retirement completes immediately
+ *
+ * Retires the frame queue. This returns zero if it succeeds immediately, +1 if
+ * the retirement was started asynchronously, otherwise it returns negative for
+ * failure. When this function returns zero, @flags is set to indicate whether
+ * the retired FQ is empty and/or whether it has any ORL fragments (to show up
+ * as ERNs). Otherwise the corresponding flags will be known when a subsequent
+ * FQRN message shows up on the portal's message ring.
+ *
+ * NB, if the retirement is asynchronous (the FQ was in the Truly Scheduled or
+ * Active state), the completion will be via the message ring as a FQRN - but
+ * the corresponding callback may occur before this function returns!! Ie. the
+ * caller should be prepared to accept the callback as the function is called,
+ * not only once it has returned.
+ */
+int qman_retire_fq(struct qman_fq *fq, u32 *flags);
+
+/**
+ * qman_oos_fq - Puts a FQ "out of service"
+ * @fq: the frame queue object to be put out-of-service, must be 'retired'
+ *
+ * The frame queue must be retired and empty, and if any order restoration list
+ * was released as ERNs at the time of retirement, they must all be consumed.
+ */
+int qman_oos_fq(struct qman_fq *fq);
+
+/*
+ * qman_volatile_dequeue - Issue a volatile dequeue command
+ * @fq: the frame queue object to dequeue from
+ * @flags: a bit-mask of QMAN_VOLATILE_FLAG_*** options
+ * @vdqcr: bit mask of QM_VDQCR_*** options, as per qm_dqrr_vdqcr_set()
+ *
+ * Attempts to lock access to the portal's VDQCR volatile dequeue functionality.
+ * The function will block and sleep if QMAN_VOLATILE_FLAG_WAIT is specified and
+ * the VDQCR is already in use, otherwise returns non-zero for failure. If
+ * QMAN_VOLATILE_FLAG_FINISH is specified, the function will only return once
+ * the VDQCR command has finished executing (ie. once the callback for the last
+ * DQRR entry resulting from the VDQCR command has been called). If not using
+ * the FINISH flag, completion can be determined either by detecting the
+ * presence of the QM_DQRR_STAT_UNSCHEDULED and QM_DQRR_STAT_DQCR_EXPIRED bits
+ * in the "stat" parameter passed to the FQ's dequeue callback, or by waiting
+ * for the QMAN_FQ_STATE_VDQCR bit to disappear.
+ */
+int qman_volatile_dequeue(struct qman_fq *fq, u32 flags, u32 vdqcr);
+
+/**
+ * qman_enqueue - Enqueue a frame to a frame queue
+ * @fq: the frame queue object to enqueue to
+ * @fd: a descriptor of the frame to be enqueued
+ *
+ * Fills an entry in the EQCR of portal @qm to enqueue the frame described by
+ * @fd. The descriptor details are copied from @fd to the EQCR entry, the 'pid'
+ * field is ignored. The return value is non-zero on error, such as ring full.
+ */
+int qman_enqueue(struct qman_fq *fq, const struct qm_fd *fd);
+
+/**
+ * qman_alloc_fqid_range - Allocate a contiguous range of FQIDs
+ * @result: is set by the API to the base FQID of the allocated range
+ * @count: the number of FQIDs required
+ *
+ * Returns 0 on success, or a negative error code.
+ */
+int qman_alloc_fqid_range(u32 *result, u32 count);
+#define qman_alloc_fqid(result) qman_alloc_fqid_range(result, 1)
+
+/**
+ * qman_release_fqid - Release the specified frame queue ID
+ * @fqid: the FQID to be released back to the resource pool
+ *
+ * This function can also be used to seed the allocator with
+ * FQID ranges that it can subsequently allocate from.
+ * Returns 0 on success, or a negative error code.
+ */
+int qman_release_fqid(u32 fqid);
+
+/**
+ * qman_query_fq_np - Queries non-programmable FQD fields
+ * @fq: the frame queue object to be queried
+ * @np: storage for the queried FQD fields
+ */
+int qman_query_fq_np(struct qman_fq *fq, struct qm_mcr_queryfq_np *np);
+
+ /* Pool-channel management */
+/**
+ * qman_alloc_pool_range - Allocate a contiguous range of pool-channel IDs
+ * @result: is set by the API to the base pool-channel ID of the allocated range
+ * @count: the number of pool-channel IDs required
+ *
+ * Returns 0 on success, or a negative error code.
+ */
+int qman_alloc_pool_range(u32 *result, u32 count);
+#define qman_alloc_pool(result) qman_alloc_pool_range(result, 1)
+
+/**
+ * qman_release_pool - Release the specified pool-channel ID
+ * @id: the pool-chan ID to be released back to the resource pool
+ *
+ * This function can also be used to seed the allocator with
+ * pool-channel ID ranges that it can subsequently allocate from.
+ * Returns 0 on success, or a negative error code.
+ */
+int qman_release_pool(u32 id);
+
+ /* CGR management */
+/**
+ * qman_create_cgr - Register a congestion group object
+ * @cgr: the 'cgr' object, with fields filled in
+ * @flags: QMAN_CGR_FLAG_* values
+ * @opts: optional state of CGR settings
+ *
+ * Registers this object to receiving congestion entry/exit callbacks on the
+ * portal affine to the cpu portal on which this API is executed. If opts is
+ * NULL then only the callback (cgr->cb) function is registered. If @flags
+ * contains QMAN_CGR_FLAG_USE_INIT, then an init hw command (which will reset
+ * any unspecified parameters) will be used rather than a modify hw hardware
+ * (which only modifies the specified parameters).
+ */
+int qman_create_cgr(struct qman_cgr *cgr, u32 flags,
+ struct qm_mcc_initcgr *opts);
+
+/**
+ * qman_delete_cgr - Deregisters a congestion group object
+ * @cgr: the 'cgr' object to deregister
+ *
+ * "Unplugs" this CGR object from the portal affine to the cpu on which this API
+ * is executed. This must be excuted on the same affine portal on which it was
+ * created.
+ */
+int qman_delete_cgr(struct qman_cgr *cgr);
+
+/**
+ * qman_delete_cgr_safe - Deregisters a congestion group object from any CPU
+ * @cgr: the 'cgr' object to deregister
+ *
+ * This will select the proper CPU and run there qman_delete_cgr().
+ */
+void qman_delete_cgr_safe(struct qman_cgr *cgr);
+
+/**
+ * qman_query_cgr_congested - Queries CGR's congestion status
+ * @cgr: the 'cgr' object to query
+ * @result: returns 'cgr's congestion status, 1 (true) if congested
+ */
+int qman_query_cgr_congested(struct qman_cgr *cgr, bool *result);
+
+/**
+ * qman_alloc_cgrid_range - Allocate a contiguous range of CGR IDs
+ * @result: is set by the API to the base CGR ID of the allocated range
+ * @count: the number of CGR IDs required
+ *
+ * Returns 0 on success, or a negative error code.
+ */
+int qman_alloc_cgrid_range(u32 *result, u32 count);
+#define qman_alloc_cgrid(result) qman_alloc_cgrid_range(result, 1)
+
+/**
+ * qman_release_cgrid - Release the specified CGR ID
+ * @id: the CGR ID to be released back to the resource pool
+ *
+ * This function can also be used to seed the allocator with
+ * CGR ID ranges that it can subsequently allocate from.
+ * Returns 0 on success, or a negative error code.
+ */
+int qman_release_cgrid(u32 id);
+
+/**
+ * qman_is_probed - Check if qman is probed
+ *
+ * Returns 1 if the qman driver successfully probed, -1 if the qman driver
+ * failed to probe or 0 if the qman driver did not probed yet.
+ */
+int qman_is_probed(void);
+
+#endif /* __FSL_QMAN_H */