#pragma once /** * @brief Solana SBF loader deserializer to be used when deploying * a program with `SBFLoader2111111111111111111111111111111111` or * `SBFLoaderUpgradeab1e11111111111111111111111` */ #include #include #include #ifdef __cplusplus extern "C" { #endif /** * Maximum number of bytes a program may add to an account during a single realloc */ #define MAX_PERMITTED_DATA_INCREASE (1024 * 10) /** * De-serializes the input parameters into usable types * * Use this function to deserialize the buffer passed to the program entrypoint * into usable types. This function does not perform copy deserialization, * instead it populates the pointers and lengths in SolAccountInfo and data so * that any modification to lamports or account data take place on the original * buffer. Doing so also eliminates the need to serialize back into the buffer * at the end of the program. * * @param input Source buffer containing serialized input parameters * @param params Pointer to a SolParameters structure * @return Boolean true if successful. */ static bool sol_deserialize( const uint8_t *input, SolParameters *params, uint64_t ka_num ) { if (NULL == input || NULL == params) { return false; } params->ka_num = *(uint64_t *) input; input += sizeof(uint64_t); for (int i = 0; i < params->ka_num; i++) { uint8_t dup_info = input[0]; input += sizeof(uint8_t); if (i >= ka_num) { if (dup_info == UINT8_MAX) { input += sizeof(uint8_t); input += sizeof(uint8_t); input += sizeof(uint8_t); input += 4; // padding input += sizeof(SolPubkey); input += sizeof(SolPubkey); input += sizeof(uint64_t); uint64_t data_len = *(uint64_t *) input; input += sizeof(uint64_t); input += data_len; input += MAX_PERMITTED_DATA_INCREASE; input = (uint8_t*)(((uint64_t)input + 8 - 1) & ~(8 - 1)); // padding input += sizeof(uint64_t); } else { input += 7; // padding } continue; } if (dup_info == UINT8_MAX) { // is signer? params->ka[i].is_signer = *(uint8_t *) input != 0; input += sizeof(uint8_t); // is writable? params->ka[i].is_writable = *(uint8_t *) input != 0; input += sizeof(uint8_t); // executable? params->ka[i].executable = *(uint8_t *) input; input += sizeof(uint8_t); input += 4; // padding // key params->ka[i].key = (SolPubkey *) input; input += sizeof(SolPubkey); // owner params->ka[i].owner = (SolPubkey *) input; input += sizeof(SolPubkey); // lamports params->ka[i].lamports = (uint64_t *) input; input += sizeof(uint64_t); // account data params->ka[i].data_len = *(uint64_t *) input; input += sizeof(uint64_t); params->ka[i].data = (uint8_t *) input; input += params->ka[i].data_len; input += MAX_PERMITTED_DATA_INCREASE; input = (uint8_t*)(((uint64_t)input + 8 - 1) & ~(8 - 1)); // padding // rent epoch params->ka[i].rent_epoch = *(uint64_t *) input; input += sizeof(uint64_t); } else { params->ka[i].is_signer = params->ka[dup_info].is_signer; params->ka[i].is_writable = params->ka[dup_info].is_writable; params->ka[i].executable = params->ka[dup_info].executable; params->ka[i].key = params->ka[dup_info].key; params->ka[i].owner = params->ka[dup_info].owner; params->ka[i].lamports = params->ka[dup_info].lamports; params->ka[i].data_len = params->ka[dup_info].data_len; params->ka[i].data = params->ka[dup_info].data; params->ka[i].rent_epoch = params->ka[dup_info].rent_epoch; input += 7; // padding } } params->data_len = *(uint64_t *) input; input += sizeof(uint64_t); params->data = input; input += params->data_len; params->program_id = (SolPubkey *) input; input += sizeof(SolPubkey); return true; } #ifdef __cplusplus } #endif /**@}*/