\f
/* Action parsing helper. */
-static struct expr *
-parse_assignment(struct expr_context *ctx, const struct simap *ports,
- struct ofpbuf *ofpacts)
+static bool
+expand_symbol(struct expr_context *ctx, struct expr_field *f,
+ struct expr **prereqsp)
{
- struct expr *prereqs = NULL;
-
- struct expr_field f;
- if (!parse_field(ctx, &f)) {
- goto exit;
- }
- if (!lexer_match(ctx->lexer, LEX_T_EQUALS)) {
- expr_syntax_error(ctx, "expecting `='.");
- goto exit;
- }
-
- if (f.symbol->expansion && f.symbol->level != EXPR_L_ORDINAL) {
- expr_error(ctx, "Can't assign to predicate symbol %s.",
- f.symbol->name);
- goto exit;
- }
-
- struct expr_constant_set cs;
- if (!parse_constant_set(ctx, &cs)) {
- goto exit;
- }
-
- if (!type_check(ctx, &f, &cs)) {
- goto exit_destroy_cs;
- }
- if (cs.in_curlies) {
- expr_error(ctx, "Assignments require a single value.");
- goto exit_destroy_cs;
+ if (f->symbol->expansion && f->symbol->level != EXPR_L_ORDINAL) {
+ expr_error(ctx, "Predicate symbol %s cannot be used in assignment.",
+ f->symbol->name);
+ return false;
}
- const struct expr_symbol *orig_symbol = f.symbol;
- union expr_constant *c = cs.values;
for (;;) {
/* Accumulate prerequisites. */
- if (f.symbol->prereqs) {
+ if (f->symbol->prereqs) {
struct ovs_list nesting = OVS_LIST_INITIALIZER(&nesting);
char *error;
struct expr *e;
- e = parse_and_annotate(f.symbol->prereqs, ctx->symtab, &nesting,
+ e = parse_and_annotate(f->symbol->prereqs, ctx->symtab, &nesting,
&error);
if (error) {
expr_error(ctx, "%s", error);
free(error);
- goto exit_destroy_cs;
+ return false;
}
- prereqs = expr_combine(EXPR_T_AND, prereqs, e);
+ *prereqsp = expr_combine(EXPR_T_AND, *prereqsp, e);
}
/* If there's no expansion, we're done. */
- if (!f.symbol->expansion) {
+ if (!f->symbol->expansion) {
break;
}
/* Expand. */
struct expr_field expansion;
char *error;
- if (!parse_field_from_string(f.symbol->expansion, ctx->symtab,
+ if (!parse_field_from_string(f->symbol->expansion, ctx->symtab,
&expansion, &error)) {
expr_error(ctx, "%s", error);
free(error);
- goto exit_destroy_cs;
+ return false;
}
- f.symbol = expansion.symbol;
- f.ofs += expansion.ofs;
+ f->symbol = expansion.symbol;
+ f->ofs += expansion.ofs;
}
- if (!f.symbol->field->writable) {
- expr_error(ctx, "Field %s is not modifiable.", orig_symbol->name);
- goto exit_destroy_cs;
+ return true;
+}
+
+static struct expr *
+parse_assignment(struct expr_context *ctx, const struct simap *ports,
+ struct ofpbuf *ofpacts)
+{
+ struct expr *prereqs = NULL;
+
+ /* Parse destination and do basic checking. */
+ struct expr_field dst;
+ if (!parse_field(ctx, &dst)) {
+ goto exit;
+ }
+ if (!lexer_match(ctx->lexer, LEX_T_EQUALS)) {
+ expr_syntax_error(ctx, "expecting `='.");
+ goto exit;
+ }
+ const struct expr_symbol *orig_dst = dst.symbol;
+ if (!expand_symbol(ctx, &dst, &prereqs)) {
+ goto exit;
+ }
+ if (!dst.symbol->field->writable) {
+ expr_error(ctx, "Field %s is not modifiable.", orig_dst->name);
+ goto exit;
}
- struct ofpact_set_field *sf = ofpact_put_SET_FIELD(ofpacts);
- sf->field = f.symbol->field;
- if (f.symbol->width) {
- mf_subvalue_shift(&c->value, f.ofs);
- if (!c->masked) {
- memset(&c->mask, 0, sizeof c->mask);
- bitwise_one(&c->mask, sizeof c->mask, f.ofs, f.n_bits);
- } else {
- mf_subvalue_shift(&c->mask, f.ofs);
+ if (ctx->lexer->token.type == LEX_T_ID) {
+ struct expr_field src;
+ if (!parse_field(ctx, &src)) {
+ goto exit;
+ }
+ const struct expr_symbol *orig_src = src.symbol;
+ if (!expand_symbol(ctx, &src, &prereqs)) {
+ goto exit;
+ }
+
+ if ((dst.symbol->width != 0) != (src.symbol->width != 0)) {
+ expr_error(ctx, "Can't assign %s field (%s) to %s field (%s).",
+ orig_src->width ? "integer" : "string",
+ orig_src->name,
+ orig_dst->width ? "integer" : "string",
+ orig_dst->name);
+ goto exit;
+ }
+
+ if (dst.n_bits != src.n_bits) {
+ expr_error(ctx, "Can't assign %d-bit value to %d-bit destination.",
+ src.n_bits, dst.n_bits);
+ goto exit;
+ } else if (!dst.n_bits
+ && dst.symbol->field->n_bits != src.symbol->field->n_bits) {
+ expr_error(ctx, "String fields %s and %s are incompatible for "
+ "assignment.", orig_dst->name, orig_src->name);
+ goto exit;
}
- memcpy(&sf->value, &c->value.u8[sizeof c->value - sf->field->n_bytes],
- sf->field->n_bytes);
- memcpy(&sf->mask, &c->mask.u8[sizeof c->mask - sf->field->n_bytes],
- sf->field->n_bytes);
+ struct ofpact_reg_move *move = ofpact_put_REG_MOVE(ofpacts);
+ move->src.field = src.symbol->field;
+ move->src.ofs = src.ofs;
+ move->src.n_bits = src.n_bits ? src.n_bits : src.symbol->field->n_bits;
+ move->dst.field = dst.symbol->field;
+ move->dst.ofs = dst.ofs;
+ move->dst.n_bits = dst.n_bits ? dst.n_bits : dst.symbol->field->n_bits;
} else {
- uint32_t port = simap_get(ports, c->string);
- bitwise_put(port, &sf->value,
- sf->field->n_bytes, 0, sf->field->n_bits);
- bitwise_put(UINT64_MAX, &sf->mask,
- sf->field->n_bytes, 0, sf->field->n_bits);
+ struct expr_constant_set cs;
+ if (!parse_constant_set(ctx, &cs)) {
+ goto exit;
+ }
+
+ if (!type_check(ctx, &dst, &cs)) {
+ goto exit_destroy_cs;
+ }
+ if (cs.in_curlies) {
+ expr_error(ctx, "Assignments require a single value.");
+ goto exit_destroy_cs;
+ }
+
+ union expr_constant *c = cs.values;
+ struct ofpact_set_field *sf = ofpact_put_SET_FIELD(ofpacts);
+ sf->field = dst.symbol->field;
+ if (dst.symbol->width) {
+ mf_subvalue_shift(&c->value, dst.ofs);
+ if (!c->masked) {
+ memset(&c->mask, 0, sizeof c->mask);
+ bitwise_one(&c->mask, sizeof c->mask, dst.ofs, dst.n_bits);
+ } else {
+ mf_subvalue_shift(&c->mask, dst.ofs);
+ }
+
+ memcpy(&sf->value,
+ &c->value.u8[sizeof c->value - sf->field->n_bytes],
+ sf->field->n_bytes);
+ memcpy(&sf->mask,
+ &c->mask.u8[sizeof c->mask - sf->field->n_bytes],
+ sf->field->n_bytes);
+ } else {
+ uint32_t port = simap_get(ports, c->string);
+ bitwise_put(port, &sf->value,
+ sf->field->n_bytes, 0, sf->field->n_bits);
+ bitwise_put(UINT64_MAX, &sf->mask,
+ sf->field->n_bytes, 0, sf->field->n_bits);
+ }
+
+ exit_destroy_cs:
+ expr_constant_set_destroy(&cs);
}
-exit_destroy_cs:
- expr_constant_set_destroy(&cs);
exit:
return prereqs;
}
/* A helper for actions_parse(), to parse an OVN assignment action in the form
- * "field = value" into 'ofpacts'. The parameters and return value match those
- * for actions_parse(). */
+ * "field = value" or "field1 = field2" into 'ofpacts'. The parameters and
+ * return value match those for actions_parse(). */
char *
expr_parse_assignment(struct lexer *lexer, const struct shash *symtab,
const struct simap *ports,
<dt><code><var>field</var> = <var>constant</var>;</code></dt>
<dd>
<p>
- Sets data or metadata field <var>field</var> to constant value
- <var>constant</var>, e.g. <code>outport = "vif0";</code> to set the
- logical output port. To set only a subset of bits in a field,
- specify a subfield for <var>field</var> or a masked
- <var>constant</var>, e.g. one may use <code>vlan.pcp[2] = 1;</code>
- or <code>vlan.pcp = 4/4;</code> to set the most sigificant bit of
- the VLAN PCP.
+ Sets data or metadata field <var>field</var> to constant value
+ <var>constant</var>, e.g. <code>outport = "vif0";</code> to set the
+ logical output port. To set only a subset of bits in a field,
+ specify a subfield for <var>field</var> or a masked
+ <var>constant</var>, e.g. one may use <code>vlan.pcp[2] = 1;</code>
+ or <code>vlan.pcp = 4/4;</code> to set the most sigificant bit of
+ the VLAN PCP.
</p>
<p>
pipeline.
</p>
</dd>
+
+ <dt><code><var>field1</var> = <var>field2</var>;</code></dt>
+ <dd>
+ <p>
+ Sets data or metadata field <var>field1</var> to the value of data
+ or metadata field <var>field2</var>, e.g. <code>reg0 =
+ ip4.src;</code> copies <code>ip4.src</code> into <code>reg0</code>.
+ To modify only a subset of a field's bits, specify a subfield for
+ <var>field1</var> or <var>field2</var> or both, e.g. <code>vlan.pcp
+ = reg0[0..2];</code> copies the least-significant bits of
+ <code>reg0</code> into the VLAN PCP.
+ </p>
+
+ <p>
+ <var>field1</var> and <var>field2</var> must be the same type,
+ either both string or both integer fields. If they are both
+ integer fields, they must have the same width.
+ </p>
+
+ <p>
+ If <var>field1</var> or <var>field2</var> has prerequisites, they
+ are added implicitly to <ref column="match"/>. It is possible to
+ write an assignment with contradictory prerequisites, such as
+ <code>ip4.src = ip6.src[0..31];</code>, but the contradiction means
+ that a logical flow with such an assignment will never be matched.
+ </p>
+ </dd>
</dl>
<p>
</p>
<dl>
- <dt><code><var>field1</var> = <var>field2</var>;</code></dt>
- <dd>
- Extends the assignment action to allow copying between fields.
- </dd>
-
<dt><code>learn</code></dt>
<dt><code>conntrack</code></dt>
eth.dst[40] = 1; => actions=set_field:01:00:00:00:00:00/01:00:00:00:00:00->eth_dst, prereqs=1
vlan.pcp = 2; => actions=set_field:0x4000/0xe000->vlan_tci, prereqs=vlan.tci[12]
vlan.tci[13..15] = 2; => actions=set_field:0x4000/0xe000->vlan_tci, prereqs=1
+reg0 = reg1; => actions=move:OXM_OF_PKT_REG0[0..31]->OXM_OF_PKT_REG0[32..63], prereqs=1
+vlan.pcp = reg0[0..2]; => actions=move:OXM_OF_PKT_REG0[32..34]->NXM_OF_VLAN_TCI[13..15], prereqs=vlan.tci[12]
+reg0[10] = vlan.pcp[1]; => actions=move:NXM_OF_VLAN_TCI[14]->OXM_OF_PKT_REG0[42], prereqs=vlan.tci[12]
+outport = inport; => actions=move:NXM_NX_REG6[]->NXM_NX_REG7[], prereqs=1
+# Contradictionary prerequisites (allowed but not useful):
+ip4.src = ip6.src[0..31]; => actions=move:NXM_NX_IPV6_SRC[0..31]->NXM_OF_IP_SRC[], prereqs=eth.type == 0x800 && eth.type == 0x86dd
## Negative tests.
inport[1] = 1; => Cannot select subfield of string field inport.
ip.proto[1] = 1; => Cannot select subfield of nominal field ip.proto.
eth.dst[40] == 1; => Syntax error at `==' expecting `='.
-ip = 1; => Can't assign to predicate symbol ip.
+ip = 1; => Predicate symbol ip cannot be used in assignment.
ip.proto = 6; => Field ip.proto is not modifiable.
inport = {"a", "b"}; => Assignments require a single value.
inport = {}; => Syntax error at `}' expecting constant.
bad_prereq = 123; => Error parsing expression `xyzzy' encountered as prerequisite or predicate of initial expression: Syntax error at `xyzzy' expecting field name.
self_recurse = 123; => Error parsing expression `self_recurse != 0' encountered as prerequisite or predicate of initial expression: Error parsing expression `self_recurse != 0' encountered as prerequisite or predicate of initial expression: Recursive expansion of symbol `self_recurse'.
-vlan.present = 0; => Can't assign to predicate symbol vlan.present.
+vlan.present = 0; => Predicate symbol vlan.present cannot be used in assignment.
+reg0[0] = vlan.present; => Predicate symbol vlan.present cannot be used in assignment.
+reg0 = reg1[0..10]; => Can't assign 11-bit value to 32-bit destination.
+inport = reg0; => Can't assign integer field (reg0) to string field (inport).
+inport = big_string; => String fields inport and big_string are incompatible for assignment.
+ip.proto = reg0[0..7]; => Field ip.proto is not modifiable.
]])
sed 's/ =>.*//' test-cases.txt > input.txt
sed 's/.* => //' test-cases.txt > expout