Charging method and apparatus

What is claimed is: 1. A method comprising: performing first constant voltage charging on a battery at a present charging voltage, wherein the present charging voltage is greater than an end-of-precharge voltage of the battery and less than a maximum charging voltage of the battery, wherein the maximum charging voltage represents a withstand voltage of a positive electrode material, an electrolyte, or a positive electrode current collector of the battery, and wherein the end-of-precharge voltage is a critical voltage at which the battery changes from an overdischarge state to a normal discharge state; determining a current relaxation time while performing the first constant voltage charging on the battery, wherein the current relaxation time reflects a change of an electrochemical reaction rate in the battery; obtaining a present state of charge (SOC) of the battery; calculating a would-be charging current based on the current relaxation time and the present SOC; and performing at least one of: performing constant current charging on the battery at the would-be charging current, determining a first voltage of a first preset threshold as a would-be charging voltage and performing a second constant voltage charging on the battery at the would-be charging voltage when a second voltage of the battery reaches the first preset threshold while performing the constant current charging, and performing a third constant voltage charging on the battery at the maximum charging voltage until a quantity of electricity in the battery reaches a full-charge quantity of electricity when the second voltage reaches the maximum charging voltage while performing the constant current charging, wherein the first voltage is less than the maximum charging voltage, and wherein the battery reaches the full-charge quantity of electricity when the battery is fully charged; or determining a third voltage corresponding to the would-be charging current as the would-be charging voltage, performing the second constant voltage charging on the battery, repeating each of performing the first constant voltage charging on the battery, determining the current relaxation time, obtaining the present SOC, and calculating the would-be charging current, during a constant voltage charging process until the would-be charging voltage reaches the maximum charging voltage, and performing the third constant voltage charging on the battery until the quantity of electricity reaches the full-charge quantity of electricity. 2. The charging method of claim 1 , further comprising: determining a first moment when a peak value of a charging current occurs while performing the first constant voltage charging on the battery; determining a second moment when a value of the charging current is a second preset threshold or a change rate of the charging current is less than a preset change rate while performing the first constant voltage charging on the battery, wherein the first moment is earlier than the second moment; and further determining the current relaxation time based on the first moment and the second moment. 3. The charging method of claim 1 , further comprising further calculating the would-be charging current according to a formula, wherein the formula is: I=C+K×τ M (SOC), wherein I represents the would-be charging current, wherein τ represents the current relaxation time, wherein SOC in the formula represents the present SOC of the battery, wherein K is a proportionality coefficient, wherein C is a constant greater than or equal to zero, wherein M is an exponent coefficient, wherein M≠0, wherein a charging parameter comprises at least one of C, K, or M, wherein the charging parameter is either preset or is set based on a battery parameter, and wherein the battery parameter comprises at least one of the present SOC of the battery, a present state of health (SOH) of the battery, the current relaxation time, a present temperature of the battery, or a present state of safety (SOS) of the battery. 4. The method of claim 2 , further comprising further calculating the would-be charging current according to a formula, wherein the formula is: I=C+K×τ M (SOC), wherein I represents the would-be charging current, wherein τ represents the current relaxation time, wherein SOC in the formula represents the present SOC of the battery, wherein K is a proportionality coefficient, wherein C is a constant greater than or equal to zero, wherein M is an exponent coefficient, wherein M≠0, wherein a charging parameter comprises at least one of C, K, or M, wherein the charging parameter is either preset or is set based on a battery parameter, and wherein the battery parameter comprises at least one of the present SOC of the battery, a present state of health (SOH) of the battery, the current relaxation time, a present temperature of the battery, or a present state of safety (SOS) of the battery. 5. The method of claim 3 , further comprising: setting the charging parameter based on the battery parameter; and adjusting, in response to the setting the charging parameter, the charging parameter based on the battery parameter. 6. The method of claim 4 , further comprising: setting the charging parameter based on the battery parameter; and adjusting, in response to the setting the charging parameter, the charging parameter based on the battery parameter. 7. A charging apparatus, comprising: a memory configured to store instructions; and a processor coupled to the memory and configured to: to perform first constant voltage charging on a battery at a present charging voltage, wherein the present charging voltage is greater than an end-of-precharge voltage of the battery and less than a maximum charging voltage of the battery, wherein the maximum charging voltage represents a withstand voltage of a positive electrode material, an electrolyte, or a positive electrode current collector of the battery, and wherein the end-of-precharge voltage is a critical voltage at which the battery changes from an overdischarge state to a normal discharge state; determine a current relaxation time while to performing the first constant voltage charging on the battery, wherein the current relaxation time reflects a change of an electrochemical reaction rate in the battery; obtain the present state of charge (SOC) of the battery; calculate a would-be charging current based on the current relaxation time and the present SOC; and perform at least one of: perform constant current charging on the battery at the would-be charging current, determine a first voltage of a first preset threshold as a would-be charging voltage and perform a second constant voltage charging on the battery at the would-be charging voltage when a second voltage of the battery reaches the first preset threshold while performing the constant current charging, and perform a third constant voltage charging on the battery at the maximum charging voltage until a quantity of electricity in the battery reaches a full-charge quantity of electricity when the second voltage reaches the maximum charging voltage while performing the constant current charging, wherein the first voltage is less than the maximum charging voltage, and wherein the battery reaches the full-charge quantity of electricity when the battery is fully charged; or determine a third voltage corresponding to the would-be charging current as the would-be charging voltage, to perform the second constant voltage charging on the battery, repeat each of performing the first constant voltage charging on the battery, determining the current relaxation time, obtaining the present SOC, and calculating the would-be charging current, during a constant voltage charging process until the would-be charging voltage reaches the maxim