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bpf: Support readonly/readwrite buffers in verifier
Readonly and readwrite buffer register states are introduced. Totally four states, PTR_TO_RDONLY_BUF[_OR_NULL] and PTR_TO_RDWR_BUF[_OR_NULL] are supported. As suggested by their respective names, PTR_TO_RDONLY_BUF[_OR_NULL] are for readonly buffers and PTR_TO_RDWR_BUF[_OR_NULL] for read/write buffers. These new register states will be used by later bpf map element iterator. New register states share some similarity to PTR_TO_TP_BUFFER as it will calculate accessed buffer size during verification time. The accessed buffer size will be later compared to other metrics during later attach/link_create time. Similar to reg_state PTR_TO_BTF_ID_OR_NULL in bpf iterator programs, PTR_TO_RDONLY_BUF_OR_NULL or PTR_TO_RDWR_BUF_OR_NULL reg_types can be set at prog->aux->bpf_ctx_arg_aux, and bpf verifier will retrieve the values during btf_ctx_access(). Later bpf map element iterator implementation will show how such information will be assigned during target registeration time. The verifier is also enhanced such that PTR_TO_RDONLY_BUF can be passed to ARG_PTR_TO_MEM[_OR_NULL] helper argument, and PTR_TO_RDWR_BUF can be passed to ARG_PTR_TO_MEM[_OR_NULL] or ARG_PTR_TO_UNINIT_MEM. Signed-off-by: Yonghong Song <yhs@fb.com> Signed-off-by: Alexei Starovoitov <ast@kernel.org> Link: https://lore.kernel.org/bpf/20200723184111.590274-1-yhs@fb.com
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@ -353,6 +353,10 @@ enum bpf_reg_type {
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PTR_TO_BTF_ID_OR_NULL, /* reg points to kernel struct or NULL */
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PTR_TO_MEM, /* reg points to valid memory region */
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PTR_TO_MEM_OR_NULL, /* reg points to valid memory region or NULL */
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PTR_TO_RDONLY_BUF, /* reg points to a readonly buffer */
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PTR_TO_RDONLY_BUF_OR_NULL, /* reg points to a readonly buffer or NULL */
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PTR_TO_RDWR_BUF, /* reg points to a read/write buffer */
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PTR_TO_RDWR_BUF_OR_NULL, /* reg points to a read/write buffer or NULL */
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};
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/* The information passed from prog-specific *_is_valid_access
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@ -694,6 +698,8 @@ struct bpf_prog_aux {
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u32 func_idx; /* 0 for non-func prog, the index in func array for func prog */
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u32 attach_btf_id; /* in-kernel BTF type id to attach to */
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u32 ctx_arg_info_size;
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u32 max_rdonly_access;
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u32 max_rdwr_access;
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const struct bpf_ctx_arg_aux *ctx_arg_info;
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struct bpf_prog *linked_prog;
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bool verifier_zext; /* Zero extensions has been inserted by verifier. */
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@ -3806,6 +3806,19 @@ bool btf_ctx_access(int off, int size, enum bpf_access_type type,
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btf_kind_str[BTF_INFO_KIND(t->info)]);
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return false;
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}
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/* check for PTR_TO_RDONLY_BUF_OR_NULL or PTR_TO_RDWR_BUF_OR_NULL */
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for (i = 0; i < prog->aux->ctx_arg_info_size; i++) {
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const struct bpf_ctx_arg_aux *ctx_arg_info = &prog->aux->ctx_arg_info[i];
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if (ctx_arg_info->offset == off &&
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(ctx_arg_info->reg_type == PTR_TO_RDONLY_BUF_OR_NULL ||
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ctx_arg_info->reg_type == PTR_TO_RDWR_BUF_OR_NULL)) {
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info->reg_type = ctx_arg_info->reg_type;
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return true;
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}
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}
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if (t->type == 0)
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/* This is a pointer to void.
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* It is the same as scalar from the verifier safety pov.
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@ -409,7 +409,9 @@ static bool reg_type_may_be_null(enum bpf_reg_type type)
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type == PTR_TO_SOCK_COMMON_OR_NULL ||
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type == PTR_TO_TCP_SOCK_OR_NULL ||
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type == PTR_TO_BTF_ID_OR_NULL ||
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type == PTR_TO_MEM_OR_NULL;
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type == PTR_TO_MEM_OR_NULL ||
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type == PTR_TO_RDONLY_BUF_OR_NULL ||
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type == PTR_TO_RDWR_BUF_OR_NULL;
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}
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static bool reg_may_point_to_spin_lock(const struct bpf_reg_state *reg)
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@ -503,6 +505,10 @@ static const char * const reg_type_str[] = {
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[PTR_TO_BTF_ID_OR_NULL] = "ptr_or_null_",
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[PTR_TO_MEM] = "mem",
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[PTR_TO_MEM_OR_NULL] = "mem_or_null",
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[PTR_TO_RDONLY_BUF] = "rdonly_buf",
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[PTR_TO_RDONLY_BUF_OR_NULL] = "rdonly_buf_or_null",
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[PTR_TO_RDWR_BUF] = "rdwr_buf",
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[PTR_TO_RDWR_BUF_OR_NULL] = "rdwr_buf_or_null",
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};
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static char slot_type_char[] = {
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@ -2173,6 +2179,10 @@ static bool is_spillable_regtype(enum bpf_reg_type type)
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case PTR_TO_XDP_SOCK:
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case PTR_TO_BTF_ID:
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case PTR_TO_BTF_ID_OR_NULL:
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case PTR_TO_RDONLY_BUF:
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case PTR_TO_RDONLY_BUF_OR_NULL:
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case PTR_TO_RDWR_BUF:
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case PTR_TO_RDWR_BUF_OR_NULL:
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return true;
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default:
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return false;
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@ -3052,14 +3062,15 @@ int check_ctx_reg(struct bpf_verifier_env *env,
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return 0;
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}
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static int check_tp_buffer_access(struct bpf_verifier_env *env,
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const struct bpf_reg_state *reg,
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int regno, int off, int size)
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static int __check_buffer_access(struct bpf_verifier_env *env,
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const char *buf_info,
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const struct bpf_reg_state *reg,
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int regno, int off, int size)
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{
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if (off < 0) {
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verbose(env,
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"R%d invalid tracepoint buffer access: off=%d, size=%d",
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regno, off, size);
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"R%d invalid %s buffer access: off=%d, size=%d",
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regno, buf_info, off, size);
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return -EACCES;
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}
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if (!tnum_is_const(reg->var_off) || reg->var_off.value) {
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@ -3071,12 +3082,45 @@ static int check_tp_buffer_access(struct bpf_verifier_env *env,
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regno, off, tn_buf);
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return -EACCES;
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}
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return 0;
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}
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static int check_tp_buffer_access(struct bpf_verifier_env *env,
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const struct bpf_reg_state *reg,
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int regno, int off, int size)
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{
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int err;
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err = __check_buffer_access(env, "tracepoint", reg, regno, off, size);
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if (err)
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return err;
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if (off + size > env->prog->aux->max_tp_access)
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env->prog->aux->max_tp_access = off + size;
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return 0;
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}
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static int check_buffer_access(struct bpf_verifier_env *env,
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const struct bpf_reg_state *reg,
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int regno, int off, int size,
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bool zero_size_allowed,
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const char *buf_info,
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u32 *max_access)
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{
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int err;
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err = __check_buffer_access(env, buf_info, reg, regno, off, size);
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if (err)
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return err;
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if (off + size > *max_access)
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*max_access = off + size;
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return 0;
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}
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/* BPF architecture zero extends alu32 ops into 64-bit registesr */
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static void zext_32_to_64(struct bpf_reg_state *reg)
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{
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@ -3427,6 +3471,23 @@ static int check_mem_access(struct bpf_verifier_env *env, int insn_idx, u32 regn
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} else if (reg->type == CONST_PTR_TO_MAP) {
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err = check_ptr_to_map_access(env, regs, regno, off, size, t,
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value_regno);
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} else if (reg->type == PTR_TO_RDONLY_BUF) {
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if (t == BPF_WRITE) {
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verbose(env, "R%d cannot write into %s\n",
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regno, reg_type_str[reg->type]);
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return -EACCES;
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}
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err = check_buffer_access(env, reg, regno, off, size, "rdonly",
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false,
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&env->prog->aux->max_rdonly_access);
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if (!err && value_regno >= 0)
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mark_reg_unknown(env, regs, value_regno);
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} else if (reg->type == PTR_TO_RDWR_BUF) {
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err = check_buffer_access(env, reg, regno, off, size, "rdwr",
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false,
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&env->prog->aux->max_rdwr_access);
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if (!err && t == BPF_READ && value_regno >= 0)
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mark_reg_unknown(env, regs, value_regno);
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} else {
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verbose(env, "R%d invalid mem access '%s'\n", regno,
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reg_type_str[reg->type]);
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@ -3668,6 +3729,18 @@ static int check_helper_mem_access(struct bpf_verifier_env *env, int regno,
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return check_mem_region_access(env, regno, reg->off,
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access_size, reg->mem_size,
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zero_size_allowed);
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case PTR_TO_RDONLY_BUF:
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if (meta && meta->raw_mode)
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return -EACCES;
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return check_buffer_access(env, reg, regno, reg->off,
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access_size, zero_size_allowed,
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"rdonly",
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&env->prog->aux->max_rdonly_access);
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case PTR_TO_RDWR_BUF:
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return check_buffer_access(env, reg, regno, reg->off,
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access_size, zero_size_allowed,
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"rdwr",
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&env->prog->aux->max_rdwr_access);
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default: /* scalar_value|ptr_to_stack or invalid ptr */
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return check_stack_boundary(env, regno, access_size,
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zero_size_allowed, meta);
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@ -3933,6 +4006,8 @@ static int check_func_arg(struct bpf_verifier_env *env, u32 arg,
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else if (!type_is_pkt_pointer(type) &&
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type != PTR_TO_MAP_VALUE &&
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type != PTR_TO_MEM &&
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type != PTR_TO_RDONLY_BUF &&
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type != PTR_TO_RDWR_BUF &&
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type != expected_type)
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goto err_type;
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meta->raw_mode = arg_type == ARG_PTR_TO_UNINIT_MEM;
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@ -6806,6 +6881,10 @@ static void mark_ptr_or_null_reg(struct bpf_func_state *state,
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reg->type = PTR_TO_BTF_ID;
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} else if (reg->type == PTR_TO_MEM_OR_NULL) {
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reg->type = PTR_TO_MEM;
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} else if (reg->type == PTR_TO_RDONLY_BUF_OR_NULL) {
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reg->type = PTR_TO_RDONLY_BUF;
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} else if (reg->type == PTR_TO_RDWR_BUF_OR_NULL) {
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reg->type = PTR_TO_RDWR_BUF;
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}
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if (is_null) {
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/* We don't need id and ref_obj_id from this point
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