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#ifndef LIGHTNING_PLUGINS_LIBPLUGIN_PAY_H
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#define LIGHTNING_PLUGINS_LIBPLUGIN_PAY_H
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#include "config.h"
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#include <common/bolt11.h>
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#include <plugins/libplugin.h>
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#include <wire/onion_wire.h>
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struct legacy_payload {
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struct short_channel_id scid;
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struct amount_msat forward_amt;
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u32 outgoing_cltv;
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};
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/* struct holding the information necessary to call createonion */
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struct createonion_hop {
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struct node_id pubkey;
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enum route_hop_style style;
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struct tlv_tlv_payload *tlv_payload;
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struct legacy_payload *legacy_payload;
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};
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struct createonion_request {
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struct createonion_hop *hops;
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u8 *assocdata;
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struct secret *session_key;
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};
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/* States returned by listsendpays, waitsendpay, etc. */
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enum payment_result_state {
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PAYMENT_PENDING,
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PAYMENT_COMPLETE,
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PAYMENT_FAILED,
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};
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/* A parsed version of the possible outcomes that a sendpay / payment may
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* result in. It excludes the redundant fields such as payment_hash and partid
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* which are already present in the `struct payment` itself. */
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struct payment_result {
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/* DB internal id */
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u64 id;
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u32 partid;
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enum payment_result_state state;
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struct amount_msat amount_sent;
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struct preimage *payment_preimage;
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u32 code;
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const char* failcodename;
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enum onion_wire failcode;
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const u8 *raw_message;
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const char *message;
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u32 *erring_index;
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struct node_id *erring_node;
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struct short_channel_id *erring_channel;
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int *erring_direction;
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};
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/* Information about channels we inferred from a) looking at our channels, and
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* b) from failures encountered during attempts to perform a payment. These
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* are attached to the root payment, since that information is
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* global. Attempts update the estimated channel capacities when starting, and
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* get remove on failure. Success keeps the capacities, since the capacities
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* changed due to the successful HTLCs. */
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struct channel_hint {
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struct short_channel_id_dir scid;
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/* Upper bound on remove channels inferred from payment failures. */
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struct amount_msat estimated_capacity;
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/* Is the channel enabled? */
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bool enabled;
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/* True if we are one endpoint of this channel */
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bool local;
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/* How many more htlcs can we send over this channel? Only set if this
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* is a local channel, because those are the channels we have exact
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* numbers on, and they are the bottleneck onto the network. */
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u16 htlc_budget;
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};
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/* Each payment goes through a number of steps that are always processed in
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* the same order, and some modifiers are called with the payment, and the
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* modifier's data before and after certain steps, allowing customization. The
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* following enum represents the normal workflow of processing a payment, and
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* is used by `payment_continue` to re-enter the state machine from a
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* modifier. The values are powers of two in order to make aggregating of
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* subtree states in the root easy.
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*/
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enum payment_step {
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PAYMENT_STEP_INITIALIZED = 1,
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/* We just called getroute and got a resulting route, allow modifiers
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* to amend the route. */
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PAYMENT_STEP_GOT_ROUTE = 2,
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/* Something went wrong with the route returned by the
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previous step, so retry, but do not rerun the INITIALIZED
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modifiers. */
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PAYMENT_STEP_RETRY_GETROUTE = 3,
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/* We just computed the onion payload, allow modifiers to amend,
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* before constructing the onion packet. */
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PAYMENT_STEP_ONION_PAYLOAD = 4,
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/* The following states mean that the current payment failed, but a
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* child payment is still running, and we can't say yet whether the
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* overall payment will fail or succeed. */
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PAYMENT_STEP_SPLIT = 8,
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PAYMENT_STEP_RETRY = 16,
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/* The payment state-machine has terminated, these are the final
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* states that a payment can be in. */
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PAYMENT_STEP_FAILED = 32,
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PAYMENT_STEP_SUCCESS = 64,
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};
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/* Just a container to collect a subtree result so we can summarize all
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* sub-payments and return a reasonable result to the caller of `pay` */
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struct payment_tree_result {
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/* OR of all the leafs in the subtree. */
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enum payment_step leafstates;
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/* OR of all the inner nodes and leaf nodes. */
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enum payment_step treestates;
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struct amount_msat sent;
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/* Preimage if any of the attempts succeeded. */
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struct preimage *preimage;
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u32 attempts;
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/* Pointer to the failure that caused the payment to fail. We just
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* take the one with the highest failcode, since that happen to match
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* the severity of the error. */
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struct payment_result *failure;
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};
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struct getroute_request {
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struct node_id *destination;
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struct amount_msat amount;
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u32 cltv;
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u32 max_hops;
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/* Riskfactor milionths */
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u64 riskfactorppm;
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};
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struct payment_constraints {
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/* Maximum remaining fees we're willing to pay to complete this
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* (sub-)payment. This is modified by a route being applied of by
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* modifiers that use some of the budget. */
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struct amount_msat fee_budget;
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/* Maximum end-to-end CLTV delta we're willing to wait for this
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* (sub-)payment to complete. */
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u32 cltv_budget;
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};
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struct payment {
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/* The command that triggered this payment. Only set for the root
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* payment. */
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struct command *cmd;
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struct plugin *plugin;
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struct list_node list;
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struct node_id *local_id;
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const char *json_buffer;
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const jsmntok_t *json_toks;
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/* The current phase we are in. */
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enum payment_step step;
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/* Real destination we want to route to */
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struct node_id *destination;
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/* Do we know for sure that this supports OPT_VAR_ONION? */
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bool destination_has_tlv;
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/* Payment hash extracted from the invoice if any. */
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struct sha256 *payment_hash;
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/* Payment secret, from the invoice if any. */
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struct secret *payment_secret;
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u32 partid;
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u32 next_partid;
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/* Destination we should ask `getroute` for. This might differ from
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* the above destination if we use rendez-vous routing of blinded
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* paths amend the route later in a mixin. */
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struct getroute_request *getroute;
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struct createonion_request *createonion_request;
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struct createonion_response *createonion_response;
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/* Target amount to be delivered at the destination */
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struct amount_msat amount;
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/* tal_arr of route_hops we decoded from the `getroute` call. Exposed
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* here so it can be amended by mixins. */
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struct route_hop *route;
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struct channel_status *peer_channels;
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/* The blockheight at which the payment attempt was
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* started. */
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u32 start_block;
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struct timeabs start_time, end_time;
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struct timeabs deadline;
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/* Constraints the state machine and modifiers needs to maintain. */
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struct payment_constraints constraints;
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/* Copy of the above constraints inherited to sub-payments
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* automatically. This is mainly so we don't have to unapply changes
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* to the constraints when retrying or splitting. The copy is made in
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* `payment_start` so they can be adjusted until then. */
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struct payment_constraints *start_constraints;
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struct short_channel_id *exclusions;
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/* Tree structure of payments and subpayments. */
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struct payment *parent, **children;
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/* Null-terminated array of modifiers to apply to the payment. NULL
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* terminated mainly so we can build a stack of modifiers at
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* compile-time instead of allocating a list for each payment
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* specifically. */
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struct payment_modifier **modifiers;
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void **modifier_data;
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int current_modifier;
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/* Information from the invoice. */
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u32 min_final_cltv_expiry;
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struct route_info **routes;
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const u8 *features;
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/* tal_arr of channel_hints we incrementally learn while performing
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* payment attempts. */
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struct channel_hint *channel_hints;
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struct node_id *excluded_nodes;
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/* Optional temporarily excluded channels/nodes (i.e. this routehint) */
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struct node_id *temp_exclusion;
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struct payment_result *result;
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/* Did something happen that will cause all future attempts to fail?
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* This usually means that the final node reported that it can't be
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* reached, or in MPP payments there are no more paths we can
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* attempt. Modifiers need to leave failures alone once this is set to
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* true. Set only on the root payment. */
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bool abort;
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/* Serialized bolt11/12 string, kept attachd to the root so we can filter
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* by the invoice. */
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const char *invstring;
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/* If this is paying a local offer, this is the one (sendpay ensures we
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* don't pay twice for single-use offers) */
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struct sha256 *local_offer_id;
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/* Textual explanation of why this payment was attempted. */
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const char *why;
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const char *label;
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/* Human readable explanation of why this payment failed. */
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const char *failreason;
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/* If a failed getroute call can be retried for this payment. Allows
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* us for example to signal to any retry modifier that we can retry
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* despite getroute not returning a usable route. This can be the case
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* if we switch any of the parameters such as destination or
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* amount. */
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bool failroute_retry;
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/* A unique id for the root of this payment. */
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u64 id;
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/* A short description of the route of this payment. */
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char *routetxt;
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/* The maximum number of parallel outgoing HTLCs we will allow.
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* If unset, the maximum is based on the number of outgoing HTLCs.
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* This only applies for the root payment, and is ignored on non-root
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* payments.
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* Clients of the paymod system MUST NOT modify it, and individual
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* paymods MUST interact with it only via the payment_max_htlcs
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* and payment_lower_max_htlcs functions.
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*/
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u32 max_htlcs;
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};
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struct payment_modifier {
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const char *name;
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void *(*data_init)(struct payment *p);
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void (*post_step_cb)(void *data, struct payment *p);
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};
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void *payment_mod_get_data(const struct payment *payment,
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const struct payment_modifier *mod);
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#define REGISTER_PAYMENT_MODIFIER(name, data_type, data_init_cb, step_cb) \
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struct payment_modifier name##_pay_mod = { \
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stringify(name), \
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typesafe_cb_cast(void *(*)(struct payment *), \
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data_type (*)(struct payment *), data_init_cb), \
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typesafe_cb_cast(void (*)(void *, struct payment *), \
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void (*)(data_type, struct payment *), step_cb), \
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};
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/* The UNUSED marker is used to shut some compilers up. */
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#define REGISTER_PAYMENT_MODIFIER_HEADER(name, data_type) \
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extern struct payment_modifier name##_pay_mod; \
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UNUSED static inline data_type *payment_mod_##name##_get_data( \
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const struct payment *p) \
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{ \
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return payment_mod_get_data(p, &name##_pay_mod); \
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}
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struct retry_mod_data {
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int retries;
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};
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struct routehints_data {
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/* What we did about routehints (if anything) */
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const char *routehint_modifications;
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/* Array of routehints to try. */
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struct route_info **routehints;
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/* Current routehint, if any. */
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struct route_info *current_routehint;
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/* Position of the current routehint in the routehints
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* array. Inherited on retry (and possibly incremented),
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* reset to 0 on split. */
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int offset;
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/* Base of the current routehint.
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* This is randomized to start routehints at a random point
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* on each split, to reduce the chances of multiple splits
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* going to the same routehint.
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* The sum of base + offset is used as the index into the
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* routehints array (wraps around).
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* offset is used to determine if we have run out of
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* routehints, base is used for randomization.
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*/
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int base;
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/* We modify the CLTV in the getroute call, so we need to remember
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* what the final cltv delta was so we re-apply it correctly. */
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u32 final_cltv;
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/* Is the destination reachable without any routehints? */
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bool destination_reachable;
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};
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struct exemptfee_data {
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/* Amounts below this amount will get their fee limit raised to
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* exemptfee, i.e., we're willing to pay twice exemptfee to get this
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* payment through. */
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struct amount_msat amount;
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};
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struct shadow_route_data {
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#if DEVELOPER
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bool use_shadow;
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#endif
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struct payment_constraints constraints;
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struct node_id destination;
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struct route_hop *route;
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/* multi-part payments require the sum of parts to be the exact
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* amount, so we allow the payment flow to opt out of fuzzing the
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* amount. */
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bool fuzz_amount;
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};
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struct direct_pay_data {
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/* If we have a direct channel remember it, so we can check each
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* attempt against the channel hints. */
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struct short_channel_id_dir *chan;
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};
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struct presplit_mod_data {
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bool disable;
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};
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struct adaptive_split_mod_data {
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bool disable;
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u32 htlc_budget;
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};
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/* List of globally available payment modifiers. */
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REGISTER_PAYMENT_MODIFIER_HEADER(retry, struct retry_mod_data);
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REGISTER_PAYMENT_MODIFIER_HEADER(routehints, struct routehints_data);
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REGISTER_PAYMENT_MODIFIER_HEADER(exemptfee, struct exemptfee_data);
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REGISTER_PAYMENT_MODIFIER_HEADER(shadowroute, struct shadow_route_data);
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REGISTER_PAYMENT_MODIFIER_HEADER(directpay, struct direct_pay_data);
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extern struct payment_modifier waitblockheight_pay_mod;
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REGISTER_PAYMENT_MODIFIER_HEADER(presplit, struct presplit_mod_data);
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REGISTER_PAYMENT_MODIFIER_HEADER(adaptive_splitter, struct adaptive_split_mod_data);
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/* For the root payment we can seed the channel_hints with the result from
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* `listpeers`, hence avoid channels that we know have insufficient capacity
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* or are disabled. We do this only for the root payment, to minimize the
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* overhead. */
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REGISTER_PAYMENT_MODIFIER_HEADER(local_channel_hints, void);
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/* The payee might be less well-connected than ourselves.
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* This paymod limits the number of HTLCs based on the number of channels
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* we detect the payee to have, in order to not exhaust the number of HTLCs
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* each of those channels can bear. */
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REGISTER_PAYMENT_MODIFIER_HEADER(payee_incoming_limit, void);
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struct payment *payment_new(tal_t *ctx, struct command *cmd,
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struct payment *parent,
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struct payment_modifier **mods);
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void payment_start(struct payment *p);
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void payment_continue(struct payment *p);
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/**
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* Set the payment to the current step.
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*
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* This must be used by modifiers if they want to skip to a specific step. It
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* ensures that the internal state is reset correctly and that all modifier
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* callbacks are called once `payment_continue` is called again.
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*/
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void payment_set_step(struct payment *p, enum payment_step newstep);
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/* Fails a partial payment and continues with the core flow. */
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void payment_fail(struct payment *p, const char *fmt, ...) PRINTF_FMT(2,3);
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struct payment *payment_root(struct payment *p);
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struct payment_tree_result payment_collect_result(struct payment *p);
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/* For special effects, like inspecting your own routes. */
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struct gossmap *get_gossmap(struct plugin *plugin);
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#endif /* LIGHTNING_PLUGINS_LIBPLUGIN_PAY_H */
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