Liquid ejecting apparatus, method of controlling liquid ejecting apparatus, liquid transfer apparatus, and method of controlling liquid transfer apparatus

What is claimed is: 1. A liquid ejecting apparatus comprising: a tube configured to establish communication of a flow channel by connecting an ejecting portion configured to eject a liquid to an ejection target medium to a container configured to contain the liquid to be supplied to the ejecting portion; a valve mechanism configured to switch between a close state of pressing and closing the tube and an open state of opening the tube depending on a rotational position of a cam member configured to be rotated by a driving source; and a detection unit configured to detect whether the valve mechanism is in the close state or in the open state, wherein the valve mechanism includes a detection target portion, and the detection unit detects whether the valve mechanism is in the close state or in the open state by detecting the detection target portion. 2. The liquid ejecting apparatus according to claim 1 , further comprising: a control unit configured to control opening and closing of the valve mechanism by controlling an operation to drive the driving source, and to obtain a detection result from the detection unit. 3. The liquid ejecting apparatus according to claim 2 , wherein the control unit performs an operation to drive the driving source by a predetermined amount in a direction to open the valve mechanism in a case of opening the valve mechanism, and the control unit obtains the detection result from the detection unit after a lapse of a predetermined standby period following completion of the operation to drive the driving source. 4. The liquid ejecting apparatus according to claim 3 , wherein the predetermined standby period is variable and is determined depending on a state of use of the liquid ejecting apparatus. 5. The liquid ejecting apparatus according to claim 4 , wherein the state of use is based on at least one of an elapsed time from a point of the valve mechanism turned into the close state, an air temperature, a humidity, and a cumulative total number of printed sheets printed on ejection target media. 6. The liquid ejecting apparatus according to claim 3 , wherein the control unit repeats a set of the operation to drive the driving source and obtainment of a detection result by the detection unit after a lapse of the predetermined standby period for a predetermined number of times in a case where the detection result by the detection unit after the lapse of the predetermined standby period turns out to be the close state. 7. The liquid ejecting apparatus according to claim 6 , wherein the control unit performs error control in a case where the detection result by the detection unit after repeating the set for the predetermined number of times turns out to be the close state. 8. The liquid ejecting apparatus according to claim 3 , wherein the predetermined amount of the operation to drive the driving source for a first time after starting the drive of the driving source is different from the predetermined amount of the operation to drive the driving source for a second time or subsequent time. 9. The liquid ejecting apparatus according to claim 2 , further comprising: a non-volatile memory, wherein the control unit sets a flag on and writes the flag into the non-volatile memory at a start of driving the driving source, the flag indicating that an operation to open the valve mechanism is being executed, the control unit sets the flag off and writes the flag into the non-volatile memory in a case where the detection result by the detection unit indicates the open state, and the control unit does not execute initialization processing of the valve mechanism in a case where the flag is off at time of executing an initialization operation of the liquid ejecting apparatus. 10. The liquid ejecting apparatus according to claim 9 , wherein the control unit executes the initialization processing to establish the open state of the valve mechanism in a case where the flag is on at the time of executing the initialization operation of the liquid ejecting apparatus. 11. The liquid ejecting apparatus according to claim 1 , wherein the detection unit is any of an optical sensor, a magnetic sensor, and a leaf switch. 12. The liquid ejecting apparatus according to claim 1 , wherein a driving direction of the valve mechanism is any of a direction of pivotal movement and a direction of linear movement. 13. The liquid ejecting apparatus according to claim 1 , wherein the ejecting portion is a print head configured to eject an ink. 14. The liquid ejecting apparatus according to claim 1 , wherein the tube is the tube connected to a pump to be used in a recovery operation. 15. A method of controlling a liquid ejecting apparatus including a tube configured to establish communication of a flow channel by connecting an ejecting portion configured to eject a liquid to an ejection target medium to a container configured to contain the liquid to be supplied to the ejecting portion, a valve mechanism configured to switch between a close state of pressing and closing the tube and an open state of opening the tube depending on a rotational position of a cam member configured to be driven by a driving source, and a detection unit configured to detect whether the valve mechanism is in the close state or in the open state, the method comprising: driving the driving source by a predetermined amount in a case of opening the valve mechanism; waiting for a predetermined standby period after driving the driving source; and obtaining a detection result of detection of a detection target portion provided to the valve mechanism by the detection unit after a lapse of the predetermined standby period. 16. A liquid transfer apparatus comprising: a tube configured to form a flow channel to transfer a liquid; a valve mechanism configured to switch between a close state of pressing and closing the tube and an open state of opening the tube depending on a rotational position of a cam member configured to be rotated by a driving source; and a detection unit configured to detect whether the valve mechanism is in the close state or in the open state, wherein the valve mechanism includes a detection target portion, and the detection unit detects whether the valve mechanism is in the close state or in the open state by detecting the detection target portion. 17. A method of controlling a liquid transfer apparatus including a tube configured to form a flow channel to transfer a liquid, a valve mechanism configured to switch between a close state of pressing and closing the tube and an open state of opening the tube depending on a rotational position of a cam member configured to be rotated by a driving source, and a detection unit configured to detect whether the valve mechanism is in the close state or in the open state, the method comprising: driving the driving source by a predetermined amount in a case of opening the valve mechanism; waiting for a predetermined standby period after completion of driving the driving source; and obtaining a detection result of detection of a detection target portion provided to the valve mechanism by the detection unit after a lapse of the predetermined standby period.