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authorChristian Ehrhardt <christian.ehrhardt@canonical.com>2017-05-16 14:51:32 +0200
committerChristian Ehrhardt <christian.ehrhardt@canonical.com>2017-05-16 16:20:45 +0200
commit7595afa4d30097c1177b69257118d8ad89a539be (patch)
tree4bfeadc905c977e45e54a90c42330553b8942e4e /drivers/bus/fslmc/qbman/qbman_portal.h
parentce3d555e43e3795b5d9507fcfc76b7a0a92fd0d6 (diff)
Imported Upstream version 17.05
Change-Id: Id1e419c5a214e4a18739663b91f0f9a549f1fdc6 Signed-off-by: Christian Ehrhardt <christian.ehrhardt@canonical.com>
Diffstat (limited to 'drivers/bus/fslmc/qbman/qbman_portal.h')
-rw-r--r--drivers/bus/fslmc/qbman/qbman_portal.h277
1 files changed, 277 insertions, 0 deletions
diff --git a/drivers/bus/fslmc/qbman/qbman_portal.h b/drivers/bus/fslmc/qbman/qbman_portal.h
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+/*-
+ * BSD LICENSE
+ *
+ * Copyright (C) 2014-2016 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.
+ *
+ * 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.
+ */
+
+#include "qbman_private.h"
+#include <fsl_qbman_portal.h>
+
+/* All QBMan command and result structures use this "valid bit" encoding */
+#define QB_VALID_BIT ((uint32_t)0x80)
+
+/* Management command result codes */
+#define QBMAN_MC_RSLT_OK 0xf0
+
+/* QBMan DQRR size is set at runtime in qbman_portal.c */
+
+#define QBMAN_EQCR_SIZE 8
+
+static inline u8 qm_cyc_diff(u8 ringsize, u8 first, u8 last)
+{
+ /* 'first' is included, 'last' is excluded */
+ if (first <= last)
+ return last - first;
+ return (2 * ringsize) + last - first;
+}
+
+/* --------------------- */
+/* portal data structure */
+/* --------------------- */
+
+struct qbman_swp {
+ struct qbman_swp_desc desc;
+ /* The qbman_sys (ie. arch/OS-specific) support code can put anything it
+ * needs in here.
+ */
+ struct qbman_swp_sys sys;
+ /* Management commands */
+ struct {
+#ifdef QBMAN_CHECKING
+ enum swp_mc_check {
+ swp_mc_can_start, /* call __qbman_swp_mc_start() */
+ swp_mc_can_submit, /* call __qbman_swp_mc_submit() */
+ swp_mc_can_poll, /* call __qbman_swp_mc_result() */
+ } check;
+#endif
+ uint32_t valid_bit; /* 0x00 or 0x80 */
+ } mc;
+ /* Push dequeues */
+ uint32_t sdq;
+ /* Volatile dequeues */
+ struct {
+ /* VDQCR supports a "1 deep pipeline", meaning that if you know
+ * the last-submitted command is already executing in the
+ * hardware (as evidenced by at least 1 valid dequeue result),
+ * you can write another dequeue command to the register, the
+ * hardware will start executing it as soon as the
+ * already-executing command terminates. (This minimises latency
+ * and stalls.) With that in mind, this "busy" variable refers
+ * to whether or not a command can be submitted, not whether or
+ * not a previously-submitted command is still executing. In
+ * other words, once proof is seen that the previously-submitted
+ * command is executing, "vdq" is no longer "busy".
+ */
+ atomic_t busy;
+ uint32_t valid_bit; /* 0x00 or 0x80 */
+ /* We need to determine when vdq is no longer busy. This depends
+ * on whether the "busy" (last-submitted) dequeue command is
+ * targeting DQRR or main-memory, and detected is based on the
+ * presence of the dequeue command's "token" showing up in
+ * dequeue entries in DQRR or main-memory (respectively).
+ */
+ struct qbman_result *storage; /* NULL if DQRR */
+ } vdq;
+ /* DQRR */
+ struct {
+ uint32_t next_idx;
+ uint32_t valid_bit;
+ uint8_t dqrr_size;
+ int reset_bug;
+ } dqrr;
+ struct {
+ uint32_t pi;
+ uint32_t pi_vb;
+ uint32_t ci;
+ int available;
+ } eqcr;
+};
+
+/* -------------------------- */
+/* portal management commands */
+/* -------------------------- */
+
+/* Different management commands all use this common base layer of code to issue
+ * commands and poll for results. The first function returns a pointer to where
+ * the caller should fill in their MC command (though they should ignore the
+ * verb byte), the second function commits merges in the caller-supplied command
+ * verb (which should not include the valid-bit) and submits the command to
+ * hardware, and the third function checks for a completed response (returns
+ * non-NULL if only if the response is complete).
+ */
+void *qbman_swp_mc_start(struct qbman_swp *p);
+void qbman_swp_mc_submit(struct qbman_swp *p, void *cmd, uint32_t cmd_verb);
+void *qbman_swp_mc_result(struct qbman_swp *p);
+
+/* Wraps up submit + poll-for-result */
+static inline void *qbman_swp_mc_complete(struct qbman_swp *swp, void *cmd,
+ uint32_t cmd_verb)
+{
+ int loopvar;
+
+ qbman_swp_mc_submit(swp, cmd, cmd_verb);
+ DBG_POLL_START(loopvar);
+ do {
+ DBG_POLL_CHECK(loopvar);
+ cmd = qbman_swp_mc_result(swp);
+ } while (!cmd);
+ return cmd;
+}
+
+/* ------------ */
+/* qb_attr_code */
+/* ------------ */
+
+/* This struct locates a sub-field within a QBMan portal (CENA) cacheline which
+ * is either serving as a configuration command or a query result. The
+ * representation is inherently little-endian, as the indexing of the words is
+ * itself little-endian in nature and DPAA2 QBMan is little endian for anything
+ * that crosses a word boundary too (64-bit fields are the obvious examples).
+ */
+struct qb_attr_code {
+ unsigned int word; /* which uint32_t[] array member encodes the field */
+ unsigned int lsoffset; /* encoding offset from ls-bit */
+ unsigned int width; /* encoding width. (bool must be 1.) */
+};
+
+/* Some pre-defined codes */
+extern struct qb_attr_code code_generic_verb;
+extern struct qb_attr_code code_generic_rslt;
+
+/* Macros to define codes */
+#define QB_CODE(a, b, c) { a, b, c}
+#define QB_CODE_NULL \
+ QB_CODE((unsigned int)-1, (unsigned int)-1, (unsigned int)-1)
+
+/* Rotate a code "ms", meaning that it moves from less-significant bytes to
+ * more-significant, from less-significant words to more-significant, etc. The
+ * "ls" version does the inverse, from more-significant towards
+ * less-significant.
+ */
+static inline void qb_attr_code_rotate_ms(struct qb_attr_code *code,
+ unsigned int bits)
+{
+ code->lsoffset += bits;
+ while (code->lsoffset > 31) {
+ code->word++;
+ code->lsoffset -= 32;
+ }
+}
+
+static inline void qb_attr_code_rotate_ls(struct qb_attr_code *code,
+ unsigned int bits)
+{
+ /* Don't be fooled, this trick should work because the types are
+ * unsigned. So the case that interests the while loop (the rotate has
+ * gone too far and the word count needs to compensate for it), is
+ * manifested when lsoffset is negative. But that equates to a really
+ * large unsigned value, starting with lots of "F"s. As such, we can
+ * continue adding 32 back to it until it wraps back round above zero,
+ * to a value of 31 or less...
+ */
+ code->lsoffset -= bits;
+ while (code->lsoffset > 31) {
+ code->word--;
+ code->lsoffset += 32;
+ }
+}
+
+/* Implement a loop of code rotations until 'expr' evaluates to FALSE (0). */
+#define qb_attr_code_for_ms(code, bits, expr) \
+ for (; expr; qb_attr_code_rotate_ms(code, bits))
+#define qb_attr_code_for_ls(code, bits, expr) \
+ for (; expr; qb_attr_code_rotate_ls(code, bits))
+
+/* decode a field from a cacheline */
+static inline uint32_t qb_attr_code_decode(const struct qb_attr_code *code,
+ const uint32_t *cacheline)
+{
+ return d32_uint32_t(code->lsoffset, code->width, cacheline[code->word]);
+}
+
+static inline uint64_t qb_attr_code_decode_64(const struct qb_attr_code *code,
+ const uint64_t *cacheline)
+{
+ return cacheline[code->word / 2];
+}
+
+/* encode a field to a cacheline */
+static inline void qb_attr_code_encode(const struct qb_attr_code *code,
+ uint32_t *cacheline, uint32_t val)
+{
+ cacheline[code->word] =
+ r32_uint32_t(code->lsoffset, code->width, cacheline[code->word])
+ | e32_uint32_t(code->lsoffset, code->width, val);
+}
+
+static inline void qb_attr_code_encode_64(const struct qb_attr_code *code,
+ uint64_t *cacheline, uint64_t val)
+{
+ cacheline[code->word / 2] = val;
+}
+
+/* Small-width signed values (two's-complement) will decode into medium-width
+ * positives. (Eg. for an 8-bit signed field, which stores values from -128 to
+ * +127, a setting of -7 would appear to decode to the 32-bit unsigned value
+ * 249. Likewise -120 would decode as 136.) This function allows the caller to
+ * "re-sign" such fields to 32-bit signed. (Eg. -7, which was 249 with an 8-bit
+ * encoding, will become 0xfffffff9 if you cast the return value to uint32_t).
+ */
+static inline int32_t qb_attr_code_makesigned(const struct qb_attr_code *code,
+ uint32_t val)
+{
+ QBMAN_BUG_ON(val >= (1u << code->width));
+ /* code->width should never exceed the width of val. If it does then a
+ * different function with larger val size must be used to translate
+ * from unsigned to signed
+ */
+ QBMAN_BUG_ON(code->width > sizeof(val) * CHAR_BIT);
+ /* If the high bit was set, it was encoding a negative */
+ if (val >= 1u << (code->width - 1))
+ return (int32_t)0 - (int32_t)(((uint32_t)1 << code->width) -
+ val);
+ /* Otherwise, it was encoding a positive */
+ return (int32_t)val;
+}
+
+/* ---------------------- */
+/* Descriptors/cachelines */
+/* ---------------------- */
+
+/* To avoid needless dynamic allocation, the driver API often gives the caller
+ * a "descriptor" type that the caller can instantiate however they like.
+ * Ultimately though, it is just a cacheline of binary storage (or something
+ * smaller when it is known that the descriptor doesn't need all 64 bytes) for
+ * holding pre-formatted pieces of hardware commands. The performance-critical
+ * code can then copy these descriptors directly into hardware command
+ * registers more efficiently than trying to construct/format commands
+ * on-the-fly. The API user sees the descriptor as an array of 32-bit words in
+ * order for the compiler to know its size, but the internal details are not
+ * exposed. The following macro is used within the driver for converting *any*
+ * descriptor pointer to a usable array pointer. The use of a macro (instead of
+ * an inline) is necessary to work with different descriptor types and to work
+ * correctly with const and non-const inputs (and similarly-qualified outputs).
+ */
+#define qb_cl(d) (&(d)->dont_manipulate_directly[0])