mirror of
https://github.com/ElementsProject/lightning.git
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3e8f575f9e
You can now activate dual-funded channels using the `--experimental-dual-fund` flag Changelog-Changed: Config: `--experimental-dual-fund` runtime flag will enable dual-funded protocol on this node
465 lines
13 KiB
C
465 lines
13 KiB
C
#include "features.h"
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#include <assert.h>
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#include <ccan/array_size/array_size.h>
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#include <ccan/tal/str/str.h>
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#include <common/memleak.h>
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#include <common/utils.h>
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#include <wire/peer_wire.h>
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enum feature_copy_style {
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/* Feature is not exposed (importantly, being 0, this is the default!). */
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FEATURE_DONT_REPRESENT,
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/* Feature is exposed. */
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FEATURE_REPRESENT,
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/* Feature is exposed, but always optional. */
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FEATURE_REPRESENT_AS_OPTIONAL,
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};
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struct feature_style {
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u32 bit;
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enum feature_copy_style copy_style[NUM_FEATURE_PLACE];
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};
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const char *feature_place_names[] = {
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"init",
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NULL,
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"node",
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"channel",
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"invoice"
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};
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static const struct feature_style feature_styles[] = {
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{ OPT_DATA_LOSS_PROTECT,
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.copy_style = { [INIT_FEATURE] = FEATURE_REPRESENT,
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[NODE_ANNOUNCE_FEATURE] = FEATURE_REPRESENT } },
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{ OPT_INITIAL_ROUTING_SYNC,
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.copy_style = { [INIT_FEATURE] = FEATURE_REPRESENT_AS_OPTIONAL,
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[NODE_ANNOUNCE_FEATURE] = FEATURE_DONT_REPRESENT } },
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{ OPT_UPFRONT_SHUTDOWN_SCRIPT,
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.copy_style = { [INIT_FEATURE] = FEATURE_REPRESENT,
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[NODE_ANNOUNCE_FEATURE] = FEATURE_REPRESENT } },
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{ OPT_GOSSIP_QUERIES,
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.copy_style = { [INIT_FEATURE] = FEATURE_REPRESENT,
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[NODE_ANNOUNCE_FEATURE] = FEATURE_REPRESENT } },
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{ OPT_GOSSIP_QUERIES_EX,
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.copy_style = { [INIT_FEATURE] = FEATURE_REPRESENT,
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[NODE_ANNOUNCE_FEATURE] = FEATURE_REPRESENT } },
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{ OPT_VAR_ONION,
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.copy_style = { [INIT_FEATURE] = FEATURE_REPRESENT,
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[GLOBAL_INIT_FEATURE] = FEATURE_REPRESENT,
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[NODE_ANNOUNCE_FEATURE] = FEATURE_REPRESENT,
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[BOLT11_FEATURE] = FEATURE_REPRESENT } },
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{ OPT_STATIC_REMOTEKEY,
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.copy_style = { [INIT_FEATURE] = FEATURE_REPRESENT,
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[GLOBAL_INIT_FEATURE] = FEATURE_REPRESENT,
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[NODE_ANNOUNCE_FEATURE] = FEATURE_REPRESENT } },
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{ OPT_PAYMENT_SECRET,
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.copy_style = { [INIT_FEATURE] = FEATURE_REPRESENT,
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[NODE_ANNOUNCE_FEATURE] = FEATURE_REPRESENT,
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[BOLT11_FEATURE] = FEATURE_REPRESENT } },
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{ OPT_BASIC_MPP,
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.copy_style = { [INIT_FEATURE] = FEATURE_REPRESENT,
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[NODE_ANNOUNCE_FEATURE] = FEATURE_REPRESENT,
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[BOLT11_FEATURE] = FEATURE_REPRESENT } },
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/* BOLT #9:
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* | 18/19 | `option_support_large_channel` |... IN ...
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*/
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{ OPT_LARGE_CHANNELS,
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.copy_style = { [INIT_FEATURE] = FEATURE_REPRESENT,
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[NODE_ANNOUNCE_FEATURE] = FEATURE_REPRESENT,
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[CHANNEL_FEATURE] = FEATURE_DONT_REPRESENT } },
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{ OPT_ONION_MESSAGES,
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.copy_style = { [INIT_FEATURE] = FEATURE_REPRESENT,
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[NODE_ANNOUNCE_FEATURE] = FEATURE_REPRESENT,
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[BOLT11_FEATURE] = FEATURE_REPRESENT,
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[CHANNEL_FEATURE] = FEATURE_DONT_REPRESENT} },
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{ OPT_SHUTDOWN_WRONG_FUNDING,
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.copy_style = { [INIT_FEATURE] = FEATURE_REPRESENT,
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[NODE_ANNOUNCE_FEATURE] = FEATURE_REPRESENT,
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[CHANNEL_FEATURE] = FEATURE_DONT_REPRESENT} },
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{ OPT_ANCHOR_OUTPUTS,
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.copy_style = { [INIT_FEATURE] = FEATURE_REPRESENT,
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[NODE_ANNOUNCE_FEATURE] = FEATURE_REPRESENT,
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[CHANNEL_FEATURE] = FEATURE_DONT_REPRESENT } },
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{ OPT_DUAL_FUND,
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.copy_style = { [INIT_FEATURE] = FEATURE_REPRESENT,
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[NODE_ANNOUNCE_FEATURE] = FEATURE_REPRESENT,
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[BOLT11_FEATURE] = FEATURE_REPRESENT,
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[CHANNEL_FEATURE] = FEATURE_DONT_REPRESENT} },
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#if EXPERIMENTAL_FEATURES
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{ OPT_SHUTDOWN_ANYSEGWIT,
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.copy_style = { [INIT_FEATURE] = FEATURE_REPRESENT,
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[NODE_ANNOUNCE_FEATURE] = FEATURE_REPRESENT,
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[CHANNEL_FEATURE] = FEATURE_DONT_REPRESENT } },
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#endif
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};
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struct dependency {
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size_t depender;
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size_t must_also_have;
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};
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static const struct dependency feature_deps[] = {
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/* BOLT #9:
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* Name | Description | Context | Dependencies |
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*...
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* `gossip_queries_ex` | ... | ... | `gossip_queries` |
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*...
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* `payment_secret` | ... | ... | `var_onion_optin` |
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*...
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* `basic_mpp` | ... | ... | `payment_secret` |
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*/
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{ OPT_GOSSIP_QUERIES_EX, OPT_GOSSIP_QUERIES },
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{ OPT_PAYMENT_SECRET, OPT_VAR_ONION },
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{ OPT_BASIC_MPP, OPT_PAYMENT_SECRET },
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/* BOLT #9:
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* Name | Description | Context | Dependencies |
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*...
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* `option_anchor_outputs` | ... | ... | `option_static_remotekey`
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*/
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{ OPT_ANCHOR_OUTPUTS, OPT_STATIC_REMOTEKEY },
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/* BOLT-f53ca2301232db780843e894f55d95d512f297f9 #9:
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* Name | Description | Context | Dependencies |
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* ...
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* `option_dual_fund` | ... | ... | `option_anchor_outputs`
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*/
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{ OPT_DUAL_FUND, OPT_ANCHOR_OUTPUTS },
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};
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static void trim_features(u8 **features)
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{
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size_t trim, len = tal_bytelen(*features);
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/* Don't try to tal_resize a NULL array */
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if (len == 0)
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return;
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/* Big-endian bitfields are weird, but it means we trim
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* from the front: */
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for (trim = 0; trim < len && (*features)[trim] == 0; trim++);
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memmove(*features, *features + trim, len - trim);
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tal_resize(features, len - trim);
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}
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static void clear_feature_bit(u8 *features, u32 bit)
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{
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size_t bytenum = bit / 8, bitnum = bit % 8, len = tal_count(features);
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if (bytenum >= len)
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return;
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features[len - 1 - bytenum] &= ~(1 << bitnum);
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}
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static enum feature_copy_style feature_copy_style(u32 f, enum feature_place p)
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{
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for (size_t i = 0; i < ARRAY_SIZE(feature_styles); i++) {
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if (feature_styles[i].bit == COMPULSORY_FEATURE(f))
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return feature_styles[i].copy_style[p];
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}
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abort();
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}
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struct feature_set *feature_set_for_feature(const tal_t *ctx, int feature)
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{
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struct feature_set *fs = tal(ctx, struct feature_set);
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for (size_t i = 0; i < ARRAY_SIZE(fs->bits); i++) {
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fs->bits[i] = tal_arr(fs, u8, 0);
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switch (feature_copy_style(feature, i)) {
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case FEATURE_DONT_REPRESENT:
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continue;
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case FEATURE_REPRESENT:
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set_feature_bit(&fs->bits[i], feature);
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continue;
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case FEATURE_REPRESENT_AS_OPTIONAL:
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set_feature_bit(&fs->bits[i], OPTIONAL_FEATURE(feature));
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continue;
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}
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abort();
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}
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return fs;
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}
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bool feature_set_or(struct feature_set *a,
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const struct feature_set *b TAKES)
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{
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/* Check first, before we change anything! */
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for (size_t i = 0; i < ARRAY_SIZE(b->bits); i++) {
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/* FIXME: We could allow a plugin to upgrade an optional feature
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* to a compulsory one? */
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for (size_t j = 0; j < tal_bytelen(b->bits[i])*8; j++) {
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if (feature_is_set(b->bits[i], j)
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&& feature_offered(a->bits[i], j)) {
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if (taken(b))
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tal_free(b);
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return false;
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}
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}
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}
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for (size_t i = 0; i < ARRAY_SIZE(a->bits); i++) {
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for (size_t j = 0; j < tal_bytelen(b->bits[i])*8; j++) {
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if (feature_is_set(b->bits[i], j))
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set_feature_bit(&a->bits[i], j);
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}
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}
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if (taken(b))
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tal_free(b);
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return true;
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}
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bool feature_set_sub(struct feature_set *a,
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const struct feature_set *b TAKES)
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{
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/* Check first, before we change anything! */
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for (size_t i = 0; i < ARRAY_SIZE(b->bits); i++) {
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for (size_t j = 0; j < tal_bytelen(b->bits[i])*8; j++) {
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if (feature_is_set(b->bits[i], j)
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&& !feature_offered(a->bits[i], j)) {
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if (taken(b))
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tal_free(b);
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return false;
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}
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}
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}
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for (size_t i = 0; i < ARRAY_SIZE(a->bits); i++) {
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for (size_t j = 0; j < tal_bytelen(b->bits[i])*8; j++) {
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if (feature_is_set(b->bits[i], j))
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clear_feature_bit(a->bits[i], j);
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}
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trim_features(&a->bits[i]);
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}
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if (taken(b))
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tal_free(b);
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return true;
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}
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/* BOLT #1:
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*
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* All data fields are unsigned big-endian unless otherwise specified.
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*/
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void set_feature_bit(u8 **ptr, u32 bit)
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{
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size_t len = tal_count(*ptr);
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if (bit / 8 >= len) {
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size_t newlen = (bit / 8) + 1;
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u8 *newarr = tal_arrz(tal_parent(*ptr), u8, newlen);
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memcpy(newarr + (newlen - len), *ptr, len);
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tal_free(*ptr);
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*ptr = newarr;
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len = newlen;
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}
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(*ptr)[len - 1 - bit / 8] |= (1 << (bit % 8));
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}
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static bool test_bit(const u8 *features, size_t byte, unsigned int bit)
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{
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assert(byte < tal_count(features));
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return features[tal_count(features) - 1 - byte] & (1 << (bit % 8));
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}
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/* BOLT #7:
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*
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* - MUST set `features` based on what features were negotiated for this channel, according to [BOLT #9](09-features.md#assigned-features-flags)
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* - MUST set `len` to the minimum length required to hold the `features` bits
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* it sets.
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*/
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u8 *get_agreed_channelfeatures(const tal_t *ctx,
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const struct feature_set *our_features,
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const u8 *their_features)
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{
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u8 *f = tal_dup_talarr(ctx, u8, our_features->bits[CHANNEL_FEATURE]);
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size_t max_len = 0;
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/* Clear any features which they didn't offer too */
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for (size_t i = 0; i < 8 * tal_count(f); i += 2) {
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if (!feature_offered(f, i))
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continue;
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if (!feature_offered(their_features, i)) {
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clear_feature_bit(f, COMPULSORY_FEATURE(i));
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clear_feature_bit(f, OPTIONAL_FEATURE(i));
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trim_features(&f);
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continue;
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}
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max_len = (i / 8) + 1;
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}
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/* Trim to length (unless it's already NULL). */
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if (f)
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tal_resize(&f, max_len);
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return f;
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}
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bool feature_is_set(const u8 *features, size_t bit)
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{
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size_t bytenum = bit / 8;
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if (bytenum >= tal_count(features))
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return false;
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return test_bit(features, bytenum, bit % 8);
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}
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bool feature_offered(const u8 *features, size_t f)
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{
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return feature_is_set(features, COMPULSORY_FEATURE(f))
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|| feature_is_set(features, OPTIONAL_FEATURE(f));
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}
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bool feature_negotiated(const struct feature_set *our_features,
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const u8 *their_features, size_t f)
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{
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return feature_offered(their_features, f)
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&& feature_offered(our_features->bits[INIT_FEATURE], f);
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}
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bool feature_check_depends(const u8 *their_features,
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size_t *depender, size_t *missing_dependency)
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{
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for (size_t i = 0; i < ARRAY_SIZE(feature_deps); i++) {
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if (!feature_offered(their_features, feature_deps[i].depender))
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continue;
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if (feature_offered(their_features,
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feature_deps[i].must_also_have))
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continue;
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*depender = feature_deps[i].depender;
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*missing_dependency = feature_deps[i].must_also_have;
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return false;
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}
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return true;
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}
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/**
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* all_supported_features - Check if we support what's being asked
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*
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* Given the features vector that the remote connection is expecting
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* from us, we check to see if we support all even bit features, i.e.,
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* the required features.
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*
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* @bitmap: the features bitmap the peer is asking for
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*
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* Returns -1 on success, or first unsupported feature.
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*/
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static int all_supported_features(const struct feature_set *our_features,
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const u8 *bitmap,
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enum feature_place p)
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{
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size_t len = tal_count(bitmap) * 8;
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/* It's OK to be odd: only check even bits. */
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for (size_t bitnum = 0; bitnum < len; bitnum += 2) {
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if (!test_bit(bitmap, bitnum/8, bitnum%8))
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continue;
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if (feature_offered(our_features->bits[p], bitnum))
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continue;
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return bitnum;
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}
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return -1;
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}
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int features_unsupported(const struct feature_set *our_features,
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const u8 *their_features,
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enum feature_place p)
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{
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/* BIT 2 would logically be "compulsory initial_routing_sync", but
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* that does not exist, so we special case it. */
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if (feature_is_set(their_features,
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COMPULSORY_FEATURE(OPT_INITIAL_ROUTING_SYNC)))
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return COMPULSORY_FEATURE(OPT_INITIAL_ROUTING_SYNC);
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return all_supported_features(our_features, their_features, p);
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}
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static const char *feature_name(const tal_t *ctx, size_t f)
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{
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static const char *fnames[] = {
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"option_data_loss_protect",
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"option_initial_routing_sync",
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"option_upfront_shutdown_script",
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"option_gossip_queries",
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"option_var_onion_optin",
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"option_gossip_queries_ex",
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"option_static_remotekey",
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"option_payment_secret",
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"option_basic_mpp",
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"option_support_large_channel",
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"option_anchor_outputs",
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"option_dual_fund",
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"option_anchors_zero_fee_htlc_tx",
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NULL,
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"option_shutdown_anysegwit",
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};
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if (f / 2 >= ARRAY_SIZE(fnames) || !fnames[f / 2])
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return tal_fmt(ctx, "option_unknown_%zu/%s",
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COMPULSORY_FEATURE(f), (f & 1) ? "odd" : "even");
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return tal_fmt(ctx, "%s/%s",
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fnames[f / 2], (f & 1) ? "odd" : "even");
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}
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const char **list_supported_features(const tal_t *ctx,
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const struct feature_set *fset)
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{
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const char **list = tal_arr(ctx, const char *, 0);
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for (size_t i = 0; i < tal_bytelen(fset->bits[INIT_FEATURE]) * 8; i++) {
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if (test_bit(fset->bits[INIT_FEATURE], i / 8, i % 8))
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tal_arr_expand(&list, feature_name(list, i));
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}
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return list;
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}
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u8 *featurebits_or(const tal_t *ctx, const u8 *f1 TAKES, const u8 *f2 TAKES)
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{
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size_t l1 = tal_bytelen(f1), l2 = tal_bytelen(f2);
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u8 *result;
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/* Easier if f2 is shorter. */
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if (l1 < l2)
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return featurebits_or(ctx, f2, f1);
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assert(l2 <= l1);
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result = tal_dup_arr(ctx, u8, f1, l1, 0);
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/* Note: features are packed to the end of the bitmap */
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for (size_t i = 0; i < l2; i++)
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result[l1 - l2 + i] |= f2[i];
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/* Cleanup the featurebits if we were told to do so. */
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if (taken(f2))
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tal_free(f2);
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return result;
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}
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struct feature_set *fromwire_feature_set(const tal_t *ctx,
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const u8 **cursor, size_t *max)
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{
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struct feature_set *fset = tal(ctx, struct feature_set);
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for (size_t i = 0; i < ARRAY_SIZE(fset->bits); i++)
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fset->bits[i] = fromwire_tal_arrn(fset, cursor, max,
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fromwire_u16(cursor, max));
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if (!*cursor)
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return tal_free(fset);
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return fset;
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}
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void towire_feature_set(u8 **pptr, const struct feature_set *fset)
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{
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for (size_t i = 0; i < ARRAY_SIZE(fset->bits); i++) {
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towire_u16(pptr, tal_bytelen(fset->bits[i]));
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towire_u8_array(pptr, fset->bits[i], tal_bytelen(fset->bits[i]));
|
|
}
|
|
}
|