qemu-devel
[Top][All Lists]
Advanced

[Date Prev][Date Next][Thread Prev][Thread Next][Date Index][Thread Index]

[PATCH v4 12/17] mcdstub: all core specific queries added


From: Nicolas Eder
Subject: [PATCH v4 12/17] mcdstub: all core specific queries added
Date: Thu, 7 Dec 2023 22:03:53 +0100

---
 debug/mcdstub/mcdstub.c | 365 ++++++++++++++++++++++++++++++++++++++++
 1 file changed, 365 insertions(+)

diff --git a/debug/mcdstub/mcdstub.c b/debug/mcdstub/mcdstub.c
index 48da2e043c..a5256eeb56 100644
--- a/debug/mcdstub/mcdstub.c
+++ b/debug/mcdstub/mcdstub.c
@@ -897,6 +897,301 @@ static void handle_query_cores(GArray *params, void 
*user_ctx)
     mcd_put_strbuf();
 }
 
+/**
+ * handle_query_reset_f() - Handler for the first reset query.
+ *
+ * This function sends the first reset name and ID.
+ * @params: GArray with all TCP packet parameters.
+ */
+static void handle_query_reset_f(GArray *params, void *user_ctx)
+{
+    /* 1. check length */
+    int nb_resets = mcdserver_state.resets->len;
+    if (nb_resets == 1) {
+        /* indicates this is the last packet */
+        g_string_printf(mcdserver_state.str_buf, "0%s", QUERY_END_INDEX);
+    } else {
+        g_string_printf(mcdserver_state.str_buf, "1%s", QUERY_END_INDEX);
+    }
+    /* 2. send data */
+    mcd_reset_st reset = g_array_index(mcdserver_state.resets, mcd_reset_st, 
0);
+    g_string_append_printf(mcdserver_state.str_buf, "%s=%s.%s=%u.",
+        TCP_ARGUMENT_NAME, reset.name, TCP_ARGUMENT_ID, reset.id);
+    mcd_put_strbuf();
+}
+
+/**
+ * handle_query_reset_c() - Handler for all consecutive reset queries.
+ *
+ * This functions sends all consecutive reset names and IDs. It uses the
+ * query_index parameter to determine which reset is queried next.
+ * @params: GArray with all TCP packet parameters.
+ */
+static void handle_query_reset_c(GArray *params, void *user_ctx)
+{
+    /* reset options are the same for every cpu! */
+    uint32_t query_index = get_param(params, 0)->query_handle;
+
+    /* 1. check weather this was the last mem space */
+    int nb_groups = mcdserver_state.resets->len;
+    if (query_index + 1 == nb_groups) {
+        /* indicates this is the last packet */
+        g_string_printf(mcdserver_state.str_buf, "0%s", QUERY_END_INDEX);
+    } else {
+        g_string_printf(mcdserver_state.str_buf, "%u!", query_index + 1);
+    }
+
+    /* 2. send data */
+    mcd_reset_st reset = g_array_index(mcdserver_state.resets,
+        mcd_reset_st, query_index);
+    g_string_append_printf(mcdserver_state.str_buf, "%s=%s.%s=%u.",
+        TCP_ARGUMENT_NAME, reset.name, TCP_ARGUMENT_ID, reset.id);
+    mcd_put_strbuf();
+}
+
+/**
+ * handle_query_trigger() - Handler for trigger query.
+ *
+ * Sends data on the different types of trigger and their options and actions.
+ * @params: GArray with all TCP packet parameters.
+ */
+static void handle_query_trigger(GArray *params, void *user_ctx)
+{
+    mcd_trigger_into_st trigger = mcdserver_state.trigger;
+    g_string_printf(mcdserver_state.str_buf, "%s=%u.%s=%s.%s=%s.%s=%s.",
+        TCP_ARGUMENT_AMOUNT_TRIGGER, trigger.nr_trigger,
+        TCP_ARGUMENT_TYPE, trigger.type,
+        TCP_ARGUMENT_OPTION, trigger.option,
+        TCP_ARGUMENT_ACTION, trigger.action);
+    mcd_put_strbuf();
+}
+
+/**
+ * handle_query_mem_spaces_f() Handler for the first memory space query.
+ *
+ * This function sends the first memory space name, ID, type and accessing
+ * options.
+ * @params: GArray with all TCP packet parameters.
+ */
+static void handle_query_mem_spaces_f(GArray *params, void *user_ctx)
+{
+    /* 1. get correct memspaces and set the query_cpu */
+    uint32_t cpu_id = get_param(params, 0)->cpu_id;
+    mcdserver_state.query_cpu_id = cpu_id;
+    GArray *memspaces = g_list_nth_data(mcdserver_state.all_memspaces, cpu_id);
+
+    /* 2. check length */
+    int nb_groups = memspaces->len;
+    if (nb_groups == 1) {
+        /* indicates this is the last packet */
+        g_string_printf(mcdserver_state.str_buf, "0%s", QUERY_END_INDEX);
+    } else {
+        g_string_printf(mcdserver_state.str_buf, "1%s", QUERY_END_INDEX);
+    }
+
+    /* 3. send data */
+    mcd_mem_space_st space = g_array_index(memspaces, mcd_mem_space_st, 0);
+    g_string_append_printf(mcdserver_state.str_buf,
+        "%s=%s.%s=%u.%s=%u.%s=%u.%s=%u.%s=%u.%s=%ld.%s=%ld.%s=%u.",
+        TCP_ARGUMENT_NAME, space.name,
+        TCP_ARGUMENT_ID, space.id,
+        TCP_ARGUMENT_TYPE, space.type,
+        TCP_ARGUMENT_BITS_PER_MAU, space.bits_per_mau,
+        TCP_ARGUMENT_INVARIANCE, space.invariance,
+        TCP_ARGUMENT_ENDIAN, space.endian,
+        TCP_ARGUMENT_MIN, space.min_addr,
+        TCP_ARGUMENT_MAX, space.max_addr,
+        TCP_ARGUMENT_SUPPORTED_ACCESS_OPTIONS, space.supported_access_options);
+    mcd_put_strbuf();
+}
+
+/**
+ * handle_query_mem_spaces_c() - Handler for all consecutive memory space
+ * queries.
+ *
+ * This function sends all consecutive memory space names, IDs, types and
+ * accessing options.
+ * It uses the query_index parameter to determine
+ * which memory space is queried next.
+ * @params: GArray with all TCP packet parameters.
+ */
+static void handle_query_mem_spaces_c(GArray *params, void *user_ctx)
+{
+    /*
+     * this funcitons send all mem spaces except for the first
+     * 1. get parameter and memspace
+     */
+    uint32_t query_index = get_param(params, 0)->query_handle;
+    uint32_t cpu_id = mcdserver_state.query_cpu_id;
+    GArray *memspaces = g_list_nth_data(mcdserver_state.all_memspaces, cpu_id);
+
+    /* 2. check weather this was the last mem space */
+    int nb_groups = memspaces->len;
+    if (query_index + 1 == nb_groups) {
+        /* indicates this is the last packet */
+        g_string_printf(mcdserver_state.str_buf, "0%s", QUERY_END_INDEX);
+    } else {
+        g_string_printf(mcdserver_state.str_buf, "%u!", query_index + 1);
+    }
+
+    /* 3. send the correct memspace */
+    mcd_mem_space_st space = g_array_index(memspaces,
+        mcd_mem_space_st, query_index);
+    g_string_append_printf(mcdserver_state.str_buf,
+        "%s=%s.%s=%u.%s=%u.%s=%u.%s=%u.%s=%u.%s=%ld.%s=%ld.%s=%u.",
+        TCP_ARGUMENT_NAME, space.name,
+        TCP_ARGUMENT_ID, space.id,
+        TCP_ARGUMENT_TYPE, space.type,
+        TCP_ARGUMENT_BITS_PER_MAU, space.bits_per_mau,
+        TCP_ARGUMENT_INVARIANCE, space.invariance,
+        TCP_ARGUMENT_ENDIAN, space.endian,
+        TCP_ARGUMENT_MIN, space.min_addr,
+        TCP_ARGUMENT_MAX, space.max_addr,
+        TCP_ARGUMENT_SUPPORTED_ACCESS_OPTIONS, space.supported_access_options);
+    mcd_put_strbuf();
+}
+
+/**
+ * handle_query_reg_groups_f() - Handler for the first register group query.
+ *
+ * This function sends the first register group name and ID.
+ * @params: GArray with all TCP packet parameters.
+ */
+static void handle_query_reg_groups_f(GArray *params, void *user_ctx)
+{
+    /* 1. get correct reggroups and set the query_cpu */
+    uint32_t cpu_id = get_param(params, 0)->cpu_id;
+    mcdserver_state.query_cpu_id = cpu_id;
+    GArray *reggroups = g_list_nth_data(mcdserver_state.all_reggroups, cpu_id);
+
+    /* 2. check length */
+    int nb_groups = reggroups->len;
+    if (nb_groups == 1) {
+        /* indicates this is the last packet */
+        g_string_printf(mcdserver_state.str_buf, "0%s", QUERY_END_INDEX);
+    } else {
+        g_string_printf(mcdserver_state.str_buf, "1%s", QUERY_END_INDEX);
+    }
+    /* 3. send data */
+    mcd_reg_group_st group = g_array_index(reggroups, mcd_reg_group_st, 0);
+    g_string_append_printf(mcdserver_state.str_buf, "%s=%u.%s=%s.",
+        TCP_ARGUMENT_ID, group.id, TCP_ARGUMENT_NAME, group.name);
+    mcd_put_strbuf();
+}
+
+/**
+ * handle_query_reg_groups_c() - Handler for all consecutive register group
+ * queries.
+ *
+ * This function sends all consecutive register group names and IDs. It uses
+ * the query_index parameter to determine which register group is queried next.
+ * @params: GArray with all TCP packet parameters.
+ */
+static void handle_query_reg_groups_c(GArray *params, void *user_ctx)
+{
+    /*
+     * this funcitons send all reg groups except for the first
+     * 1. get parameter and memspace
+     */
+    uint32_t query_index = get_param(params, 0)->query_handle;
+    uint32_t cpu_id = mcdserver_state.query_cpu_id;
+    GArray *reggroups = g_list_nth_data(mcdserver_state.all_reggroups, cpu_id);
+
+    /* 2. check weather this was the last reg group */
+    int nb_groups = reggroups->len;
+    if (query_index + 1 == nb_groups) {
+        /* indicates this is the last packet */
+        g_string_printf(mcdserver_state.str_buf, "0%s", QUERY_END_INDEX);
+    } else {
+        g_string_printf(mcdserver_state.str_buf, "%u!", query_index + 1);
+    }
+
+    /* 3. send the correct reggroup */
+    mcd_reg_group_st group = g_array_index(reggroups, mcd_reg_group_st,
+        query_index);
+    g_string_append_printf(mcdserver_state.str_buf, "%s=%u.%s=%s.",
+        TCP_ARGUMENT_ID, group.id, TCP_ARGUMENT_NAME, group.name);
+    mcd_put_strbuf();
+}
+
+/**
+ * handle_query_regs_f() - Handler for the first register query.
+ *
+ * This function sends the first register with all its information.
+ * @params: GArray with all TCP packet parameters.
+ */
+static void handle_query_regs_f(GArray *params, void *user_ctx)
+{
+    /* 1. get correct registers and set the query_cpu */
+    uint32_t cpu_id = get_param(params, 0)->cpu_id;
+    mcdserver_state.query_cpu_id = cpu_id;
+    GArray *registers = g_list_nth_data(mcdserver_state.all_registers, cpu_id);
+
+    /* 2. check length */
+    int nb_regs = registers->len;
+    if (nb_regs == 1) {
+        /* indicates this is the last packet */
+        g_string_printf(mcdserver_state.str_buf, "0%s", QUERY_END_INDEX);
+    } else {
+        g_string_printf(mcdserver_state.str_buf, "1%s", QUERY_END_INDEX);
+    }
+    /* 3. send data */
+    mcd_reg_st my_register = g_array_index(registers, mcd_reg_st, 0);
+    g_string_append_printf(mcdserver_state.str_buf,
+        "%s=%u.%s=%s.%s=%u.%s=%u.%s=%u.%s=%u.%s=%u.%s=%u.",
+        TCP_ARGUMENT_ID, my_register.id,
+        TCP_ARGUMENT_NAME, my_register.name,
+        TCP_ARGUMENT_SIZE, my_register.bitsize,
+        TCP_ARGUMENT_REGGROUPID, my_register.mcd_reg_group_id,
+        TCP_ARGUMENT_MEMSPACEID, my_register.mcd_mem_space_id,
+        TCP_ARGUMENT_TYPE, my_register.mcd_reg_type,
+        TCP_ARGUMENT_THREAD, my_register.mcd_hw_thread_id,
+        TCP_ARGUMENT_OPCODE, my_register.opcode);
+    mcd_put_strbuf();
+}
+
+/**
+ * handle_query_regs_c() - Handler for all consecutive register queries.
+ *
+ * This function sends all consecutive registers with all their information.
+ * It uses the query_index parameter to determine
+ * which register is queried next.
+ * @params: GArray with all TCP packet parameters.
+ */
+static void handle_query_regs_c(GArray *params, void *user_ctx)
+{
+    /*
+     * this funcitons send all regs except for the first
+     * 1. get parameter and registers
+     */
+    uint32_t query_index = get_param(params, 0)->query_handle;
+    uint32_t cpu_id = mcdserver_state.query_cpu_id;
+    GArray *registers = g_list_nth_data(mcdserver_state.all_registers, cpu_id);
+
+    /* 2. check weather this was the last register */
+    int nb_regs = registers->len;
+    if (query_index + 1 == nb_regs) {
+        /* indicates this is the last packet */
+        g_string_printf(mcdserver_state.str_buf, "0%s", QUERY_END_INDEX);
+    } else {
+        g_string_printf(mcdserver_state.str_buf, "%u!", query_index + 1);
+    }
+
+    /* 3. send the correct register */
+    mcd_reg_st my_register = g_array_index(registers, mcd_reg_st, query_index);
+    g_string_append_printf(mcdserver_state.str_buf,
+        "%s=%u.%s=%s.%s=%u.%s=%u.%s=%u.%s=%u.%s=%u.%s=%u.",
+        TCP_ARGUMENT_ID, my_register.id,
+        TCP_ARGUMENT_NAME, my_register.name,
+        TCP_ARGUMENT_SIZE, my_register.bitsize,
+        TCP_ARGUMENT_REGGROUPID, my_register.mcd_reg_group_id,
+        TCP_ARGUMENT_MEMSPACEID, my_register.mcd_mem_space_id,
+        TCP_ARGUMENT_TYPE, my_register.mcd_reg_type,
+        TCP_ARGUMENT_THREAD, my_register.mcd_hw_thread_id,
+        TCP_ARGUMENT_OPCODE, my_register.opcode);
+    mcd_put_strbuf();
+}
+
 /**
  * init_query_cmds_table() - Initializes all query functions.
  *
@@ -922,6 +1217,76 @@ static void init_query_cmds_table(MCDCmdParseEntry 
*mcd_query_cmds_table)
     };
     mcd_query_cmds_table[cmd_number] = query_cores;
     cmd_number++;
+
+    MCDCmdParseEntry query_reset_f = {
+        .handler = handle_query_reset_f,
+        .cmd = QUERY_ARG_RESET QUERY_FIRST,
+    };
+    mcd_query_cmds_table[cmd_number] = query_reset_f;
+    cmd_number++;
+
+    MCDCmdParseEntry query_reset_c = {
+        .handler = handle_query_reset_c,
+        .cmd = QUERY_ARG_RESET QUERY_CONSEQUTIVE,
+    };
+    strcpy(query_reset_c.schema, (char[2]) { ARG_SCHEMA_QRYHANDLE, '\0' });
+    mcd_query_cmds_table[cmd_number] = query_reset_c;
+    cmd_number++;
+
+    MCDCmdParseEntry query_trigger = {
+        .handler = handle_query_trigger,
+        .cmd = QUERY_ARG_TRIGGER,
+    };
+    mcd_query_cmds_table[cmd_number] = query_trigger;
+    cmd_number++;
+
+    MCDCmdParseEntry query_mem_spaces_f = {
+        .handler = handle_query_mem_spaces_f,
+        .cmd = QUERY_ARG_MEMORY QUERY_FIRST,
+    };
+    strcpy(query_mem_spaces_f.schema, (char[2]) { ARG_SCHEMA_CORENUM, '\0' });
+    mcd_query_cmds_table[cmd_number] = query_mem_spaces_f;
+    cmd_number++;
+
+    MCDCmdParseEntry query_mem_spaces_c = {
+        .handler = handle_query_mem_spaces_c,
+        .cmd = QUERY_ARG_MEMORY QUERY_CONSEQUTIVE,
+    };
+    strcpy(query_mem_spaces_c.schema, (char[2]) { ARG_SCHEMA_QRYHANDLE, '\0' 
});
+    mcd_query_cmds_table[cmd_number] = query_mem_spaces_c;
+    cmd_number++;
+
+    MCDCmdParseEntry query_reg_groups_f = {
+        .handler = handle_query_reg_groups_f,
+        .cmd = QUERY_ARG_REGGROUP QUERY_FIRST,
+    };
+    strcpy(query_reg_groups_f.schema, (char[2]) { ARG_SCHEMA_CORENUM, '\0' });
+    mcd_query_cmds_table[cmd_number] = query_reg_groups_f;
+    cmd_number++;
+
+    MCDCmdParseEntry query_reg_groups_c = {
+        .handler = handle_query_reg_groups_c,
+        .cmd = QUERY_ARG_REGGROUP QUERY_CONSEQUTIVE,
+    };
+    strcpy(query_reg_groups_c.schema, (char[2]) { ARG_SCHEMA_QRYHANDLE, '\0' 
});
+    mcd_query_cmds_table[cmd_number] = query_reg_groups_c;
+    cmd_number++;
+
+    MCDCmdParseEntry query_regs_f = {
+        .handler = handle_query_regs_f,
+        .cmd = QUERY_ARG_REG QUERY_FIRST,
+    };
+    strcpy(query_regs_f.schema, (char[2]) { ARG_SCHEMA_CORENUM, '\0' });
+    mcd_query_cmds_table[cmd_number] = query_regs_f;
+    cmd_number++;
+
+    MCDCmdParseEntry query_regs_c = {
+        .handler = handle_query_regs_c,
+        .cmd = QUERY_ARG_REG QUERY_CONSEQUTIVE,
+    };
+    strcpy(query_regs_c.schema, (char[2]) { ARG_SCHEMA_QRYHANDLE, '\0' });
+    mcd_query_cmds_table[cmd_number] = query_regs_c;
+    cmd_number++;
 }
 
 /**
-- 
2.34.1




reply via email to

[Prev in Thread] Current Thread [Next in Thread]