// SPDX-License-Identifier: BSD-3-Clause /* * Copyright (c) 2015-2019, Arm Limited and Contributors. All rights reserved. * Copyright (c) 2019, Linaro Limited */ #include #include #include #include #include #include #include "clock.h" #include "common.h" static bool message_id_is_supported(unsigned int message_id); size_t __weak plat_scmi_clock_count(unsigned int channel_id __unused) { return 0; } const char __weak *plat_scmi_clock_get_name(unsigned int channel_id __unused, unsigned int scmi_id __unused) { return NULL; } int32_t __weak plat_scmi_clock_rates_array(unsigned int channel_id __unused, unsigned int scmi_id __unused, size_t start_index __unused, unsigned long *rates __unused, size_t *nb_elts __unused) { return SCMI_NOT_SUPPORTED; } int32_t __weak plat_scmi_clock_rates_by_step(unsigned int channel_id __unused, unsigned int scmi_id __unused, unsigned long *steps __unused) { return SCMI_NOT_SUPPORTED; } unsigned long __weak plat_scmi_clock_get_rate(unsigned int channel_id __unused, unsigned int scmi_id __unused) { return 0; } int32_t __weak plat_scmi_clock_set_rate(unsigned int channel_id __unused, unsigned int scmi_id __unused, unsigned long rate __unused) { return SCMI_NOT_SUPPORTED; } int32_t __weak plat_scmi_clock_get_state(unsigned int channel_id __unused, unsigned int scmi_id __unused) { return SCMI_NOT_SUPPORTED; } int32_t __weak plat_scmi_clock_set_state(unsigned int channel_id __unused, unsigned int scmi_id __unused, bool enable_not_disable __unused) { return SCMI_NOT_SUPPORTED; } static void report_version(struct scmi_msg *msg) { struct scmi_protocol_version_p2a return_values = { .status = SCMI_SUCCESS, .version = SCMI_PROTOCOL_VERSION_CLOCK, }; if (msg->in_size) { scmi_status_response(msg, SCMI_PROTOCOL_ERROR); return; } scmi_write_response(msg, &return_values, sizeof(return_values)); } static void report_attributes(struct scmi_msg *msg) { size_t clk_count = plat_scmi_clock_count(msg->channel_id); struct scmi_protocol_attributes_p2a return_values = { .status = SCMI_SUCCESS, .attributes = SCMI_CLOCK_PROTOCOL_ATTRIBUTES(1, clk_count), }; if (msg->in_size) { scmi_status_response(msg, SCMI_PROTOCOL_ERROR); return; } scmi_write_response(msg, &return_values, sizeof(return_values)); } static void report_message_attributes(struct scmi_msg *msg) { struct scmi_protocol_message_attributes_a2p *in_args = (void *)msg->in; struct scmi_protocol_message_attributes_p2a return_values = { .status = SCMI_SUCCESS, /* For this protocol, attributes shall be zero */ .attributes = 0, }; if (msg->in_size != sizeof(*in_args)) { scmi_status_response(msg, SCMI_PROTOCOL_ERROR); return; } if (!message_id_is_supported(in_args->message_id)) { scmi_status_response(msg, SCMI_NOT_FOUND); return; } scmi_write_response(msg, &return_values, sizeof(return_values)); } static void scmi_clock_attributes(struct scmi_msg *msg) { const struct scmi_clock_attributes_a2p *in_args = (void *)msg->in; struct scmi_clock_attributes_p2a return_values = { .status = SCMI_SUCCESS, }; const char *name = NULL; unsigned int clock_id = 0; if (msg->in_size != sizeof(*in_args)) { scmi_status_response(msg, SCMI_PROTOCOL_ERROR); return; } if (in_args->clock_id >= plat_scmi_clock_count(msg->channel_id)) { scmi_status_response(msg, SCMI_INVALID_PARAMETERS); return; } clock_id = confine_array_index(in_args->clock_id, plat_scmi_clock_count(msg->channel_id)); name = plat_scmi_clock_get_name(msg->channel_id, clock_id); if (!name) { scmi_status_response(msg, SCMI_NOT_FOUND); return; } COPY_NAME_IDENTIFIER(return_values.clock_name, name); return_values.attributes = plat_scmi_clock_get_state(msg->channel_id, clock_id); scmi_write_response(msg, &return_values, sizeof(return_values)); } static void scmi_clock_rate_get(struct scmi_msg *msg) { const struct scmi_clock_rate_get_a2p *in_args = (void *)msg->in; unsigned long rate = 0; struct scmi_clock_rate_get_p2a return_values = { }; unsigned int clock_id = 0; if (msg->in_size != sizeof(*in_args)) { scmi_status_response(msg, SCMI_PROTOCOL_ERROR); return; } if (in_args->clock_id >= plat_scmi_clock_count(msg->channel_id)) { scmi_status_response(msg, SCMI_INVALID_PARAMETERS); return; } clock_id = confine_array_index(in_args->clock_id, plat_scmi_clock_count(msg->channel_id)); rate = plat_scmi_clock_get_rate(msg->channel_id, clock_id); reg_pair_from_64(rate, return_values.rate + 1, return_values.rate); scmi_write_response(msg, &return_values, sizeof(return_values)); } static void scmi_clock_rate_set(struct scmi_msg *msg) { const struct scmi_clock_rate_set_a2p *in_args = (void *)msg->in; uint64_t rate_64 = 0; unsigned long rate = 0; int32_t status = 0; unsigned int clock_id = 0; if (msg->in_size != sizeof(*in_args)) { scmi_status_response(msg, SCMI_PROTOCOL_ERROR); return; } if (in_args->clock_id >= plat_scmi_clock_count(msg->channel_id)) { scmi_status_response(msg, SCMI_INVALID_PARAMETERS); return; } clock_id = confine_array_index(in_args->clock_id, plat_scmi_clock_count(msg->channel_id)); rate_64 = reg_pair_to_64(in_args->rate[1], in_args->rate[0]); rate = rate_64; status = plat_scmi_clock_set_rate(msg->channel_id, clock_id, rate); scmi_status_response(msg, status); } static void scmi_clock_config_set(struct scmi_msg *msg) { const struct scmi_clock_config_set_a2p *in_args = (void *)msg->in; int32_t status = SCMI_GENERIC_ERROR; bool enable = false; unsigned int clock_id = 0; if (msg->in_size != sizeof(*in_args)) { scmi_status_response(msg, SCMI_PROTOCOL_ERROR); return; } if (in_args->clock_id >= plat_scmi_clock_count(msg->channel_id)) { scmi_status_response(msg, SCMI_INVALID_PARAMETERS); return; } clock_id = confine_array_index(in_args->clock_id, plat_scmi_clock_count(msg->channel_id)); enable = in_args->attributes & SCMI_CLOCK_CONFIG_SET_ENABLE_MASK; status = plat_scmi_clock_set_state(msg->channel_id, clock_id, enable); scmi_status_response(msg, status); } #define SCMI_RATES_BY_ARRAY(_nb_rates, _rem_rates) \ SCMI_CLOCK_DESCRIBE_RATES_NUM_RATES_FLAGS((_nb_rates), \ SCMI_CLOCK_RATE_FORMAT_LIST, \ (_rem_rates)) #define SCMI_RATES_BY_STEP \ SCMI_CLOCK_DESCRIBE_RATES_NUM_RATES_FLAGS(3, \ SCMI_CLOCK_RATE_FORMAT_RANGE, \ 0) #define RATE_DESC_SIZE sizeof(struct scmi_clock_rate) static void write_rate_desc_array_in_buffer(char *dest, unsigned long *rates, size_t nb_elt) { uint32_t *out = NULL; size_t n = 0; assert(IS_ALIGNED_WITH_TYPE(dest, uint32_t)); out = (uint32_t *)(uintptr_t)dest; for (n = 0; n < nb_elt; n++) { uint64_t rate = rates[n]; reg_pair_from_64(rate, out + 2 * n + 1, out + 2 * n); } } static void scmi_clock_describe_rates(struct scmi_msg *msg) { const struct scmi_clock_describe_rates_a2p *in_args = (void *)msg->in; struct scmi_clock_describe_rates_p2a p2a = { }; size_t nb_rates = 0; int32_t status = SCMI_GENERIC_ERROR; unsigned int clock_id = 0; unsigned int out_count = 0; if (msg->in_size != sizeof(*in_args)) { scmi_status_response(msg, SCMI_PROTOCOL_ERROR); return; } if (in_args->clock_id >= plat_scmi_clock_count(msg->channel_id)) { scmi_status_response(msg, SCMI_INVALID_PARAMETERS); return; } clock_id = confine_array_index(in_args->clock_id, plat_scmi_clock_count(msg->channel_id)); /* Platform may support array rate description */ status = plat_scmi_clock_rates_array(msg->channel_id, clock_id, 0, NULL, &nb_rates); if (status == SCMI_SUCCESS) { unsigned int rate_index = in_args->rate_index; unsigned int remaining = 0; size_t avail_sz = msg->out_size - sizeof(p2a); char *out_rates = msg->out + sizeof(p2a); if (avail_sz < RATE_DESC_SIZE && nb_rates) { status = SCMI_PROTOCOL_ERROR; goto out; } while (avail_sz >= RATE_DESC_SIZE && rate_index < nb_rates) { unsigned long rate = 0; size_t cnt = 1; status = plat_scmi_clock_rates_array(msg->channel_id, clock_id, rate_index, &rate, &cnt); if (status) goto out; write_rate_desc_array_in_buffer(out_rates, &rate, cnt); avail_sz -= RATE_DESC_SIZE; out_rates += RATE_DESC_SIZE; rate_index++; } out_count = rate_index - in_args->rate_index; remaining = nb_rates - in_args->rate_index; p2a.num_rates_flags = SCMI_RATES_BY_ARRAY(out_count, remaining); } else if (status == SCMI_NOT_SUPPORTED) { unsigned long triplet[3] = { 0, 0, 0 }; if (msg->out_size < sizeof(p2a) + 3 * RATE_DESC_SIZE) { status = SCMI_PROTOCOL_ERROR; goto out; } /* Platform may support min/max/step triplet description */ status = plat_scmi_clock_rates_by_step(msg->channel_id, clock_id, triplet); if (status) goto out; write_rate_desc_array_in_buffer(msg->out + sizeof(p2a), triplet, 3); out_count = 3; p2a.num_rates_flags = SCMI_RATES_BY_STEP; } else { /* Fallthrough generic exit sequence below with error status */ } out: if (status) { scmi_status_response(msg, status); } else { p2a.status = SCMI_SUCCESS; memcpy(msg->out, &p2a, sizeof(p2a)); msg->out_size_out = sizeof(p2a) + out_count * RATE_DESC_SIZE; } } static const scmi_msg_handler_t scmi_clock_handler_table[] = { [SCMI_PROTOCOL_VERSION] = report_version, [SCMI_PROTOCOL_ATTRIBUTES] = report_attributes, [SCMI_PROTOCOL_MESSAGE_ATTRIBUTES] = report_message_attributes, [SCMI_CLOCK_ATTRIBUTES] = scmi_clock_attributes, [SCMI_CLOCK_DESCRIBE_RATES] = scmi_clock_describe_rates, [SCMI_CLOCK_RATE_SET] = scmi_clock_rate_set, [SCMI_CLOCK_RATE_GET] = scmi_clock_rate_get, [SCMI_CLOCK_CONFIG_SET] = scmi_clock_config_set, }; static bool message_id_is_supported(unsigned int message_id) { return message_id < ARRAY_SIZE(scmi_clock_handler_table) && scmi_clock_handler_table[message_id]; } scmi_msg_handler_t scmi_msg_get_clock_handler(struct scmi_msg *msg) { const size_t array_size = ARRAY_SIZE(scmi_clock_handler_table); unsigned int message_id = 0; if (msg->message_id >= array_size) { DMSG("Clock handle not found %u", msg->message_id); return NULL; } message_id = confine_array_index(msg->message_id, array_size); return scmi_clock_handler_table[message_id]; }